motify compile link error

motify compile link error
This commit is contained in:
ant 2016-09-18 09:03:25 +08:00
parent 923914edae
commit 03e74a8e50
5418 changed files with 1367914 additions and 206149 deletions

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This README file is copied into the directory for GCC-only header files
when fixincludes is run by the makefile for GCC.
Many of the files in this directory were automatically edited from the
standard system header files by the fixincludes process. They are
system-specific, and will not work on any other kind of system. They
are also not part of GCC. The reason we have to do this is because
GCC requires ANSI C headers and many vendors supply ANSI-incompatible
headers.
Because this is an automated process, sometimes headers get "fixed"
that do not, strictly speaking, need a fix. As long as nothing is broken
by the process, it is just an unfortunate collateral inconvenience.
We would like to rectify it, if it is not "too inconvenient".

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/* Copyright (C) 1992-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* This administrivia gets added to the beginning of limits.h
if the system has its own version of limits.h. */
/* We use _GCC_LIMITS_H_ because we want this not to match
any macros that the system's limits.h uses for its own purposes. */
#ifndef _GCC_LIMITS_H_ /* Terminated in limity.h. */
#define _GCC_LIMITS_H_
#ifndef _LIBC_LIMITS_H_
/* Use "..." so that we find syslimits.h only in this same directory. */
#include "syslimits.h"
#endif
/* Copyright (C) 1991-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#ifndef _LIMITS_H___
#define _LIMITS_H___
/* Number of bits in a `char'. */
#undef CHAR_BIT
#define CHAR_BIT __CHAR_BIT__
/* Maximum length of a multibyte character. */
#ifndef MB_LEN_MAX
#define MB_LEN_MAX 1
#endif
/* Minimum and maximum values a `signed char' can hold. */
#undef SCHAR_MIN
#define SCHAR_MIN (-SCHAR_MAX - 1)
#undef SCHAR_MAX
#define SCHAR_MAX __SCHAR_MAX__
/* Maximum value an `unsigned char' can hold. (Minimum is 0). */
#undef UCHAR_MAX
#if __SCHAR_MAX__ == __INT_MAX__
# define UCHAR_MAX (SCHAR_MAX * 2U + 1U)
#else
# define UCHAR_MAX (SCHAR_MAX * 2 + 1)
#endif
/* Minimum and maximum values a `char' can hold. */
#ifdef __CHAR_UNSIGNED__
# undef CHAR_MIN
# if __SCHAR_MAX__ == __INT_MAX__
# define CHAR_MIN 0U
# else
# define CHAR_MIN 0
# endif
# undef CHAR_MAX
# define CHAR_MAX UCHAR_MAX
#else
# undef CHAR_MIN
# define CHAR_MIN SCHAR_MIN
# undef CHAR_MAX
# define CHAR_MAX SCHAR_MAX
#endif
/* Minimum and maximum values a `signed short int' can hold. */
#undef SHRT_MIN
#define SHRT_MIN (-SHRT_MAX - 1)
#undef SHRT_MAX
#define SHRT_MAX __SHRT_MAX__
/* Maximum value an `unsigned short int' can hold. (Minimum is 0). */
#undef USHRT_MAX
#if __SHRT_MAX__ == __INT_MAX__
# define USHRT_MAX (SHRT_MAX * 2U + 1U)
#else
# define USHRT_MAX (SHRT_MAX * 2 + 1)
#endif
/* Minimum and maximum values a `signed int' can hold. */
#undef INT_MIN
#define INT_MIN (-INT_MAX - 1)
#undef INT_MAX
#define INT_MAX __INT_MAX__
/* Maximum value an `unsigned int' can hold. (Minimum is 0). */
#undef UINT_MAX
#define UINT_MAX (INT_MAX * 2U + 1U)
/* Minimum and maximum values a `signed long int' can hold.
(Same as `int'). */
#undef LONG_MIN
#define LONG_MIN (-LONG_MAX - 1L)
#undef LONG_MAX
#define LONG_MAX __LONG_MAX__
/* Maximum value an `unsigned long int' can hold. (Minimum is 0). */
#undef ULONG_MAX
#define ULONG_MAX (LONG_MAX * 2UL + 1UL)
#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
/* Minimum and maximum values a `signed long long int' can hold. */
# undef LLONG_MIN
# define LLONG_MIN (-LLONG_MAX - 1LL)
# undef LLONG_MAX
# define LLONG_MAX __LONG_LONG_MAX__
/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */
# undef ULLONG_MAX
# define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL)
#endif
#if defined (__GNU_LIBRARY__) ? defined (__USE_GNU) : !defined (__STRICT_ANSI__)
/* Minimum and maximum values a `signed long long int' can hold. */
# undef LONG_LONG_MIN
# define LONG_LONG_MIN (-LONG_LONG_MAX - 1LL)
# undef LONG_LONG_MAX
# define LONG_LONG_MAX __LONG_LONG_MAX__
/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */
# undef ULONG_LONG_MAX
# define ULONG_LONG_MAX (LONG_LONG_MAX * 2ULL + 1ULL)
#endif
#endif /* _LIMITS_H___ */
/* This administrivia gets added to the end of limits.h
if the system has its own version of limits.h. */
#else /* not _GCC_LIMITS_H_ */
#ifdef _GCC_NEXT_LIMITS_H
#include_next <limits.h> /* recurse down to the real one */
#endif
#endif /* not _GCC_LIMITS_H_ */

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/* DO NOT EDIT THIS FILE.
It has been auto-edited by fixincludes from:
"/home/build/work/GCC-4-8-build/install-native/arm-none-eabi/usr/include/sys/cdefs.h"
This had to be done to correct non-standard usages in the
original, manufacturer supplied header file. */
/* libc/sys/linux/sys/cdefs.h - Helper macros for K&R vs. ANSI C compat. */
/* Written 2000 by Werner Almesberger */
/*-
* Copyright (c) 1991, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Berkeley Software Design, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)cdefs.h 8.8 (Berkeley) 1/9/95
* $FreeBSD$
*/
#ifndef _SYS_CDEFS_H_
#define _SYS_CDEFS_H_
#include <machine/_default_types.h>
#include <sys/features.h>
#include <stddef.h>
#define __PMT(args) args
#define __DOTS , ...
#define __THROW
#ifdef __GNUC__
# define __ASMNAME(cname) __XSTRING (__USER_LABEL_PREFIX__) cname
#endif
#define __ptr_t void *
#define __long_double_t long double
#define __attribute_malloc__
#define __attribute_pure__
#define __attribute_format_strfmon__(a,b)
#define __flexarr [0]
#ifndef __BOUNDED_POINTERS__
# define __bounded /* nothing */
# define __unbounded /* nothing */
# define __ptrvalue /* nothing */
#endif
/*
* Testing against Clang-specific extensions.
*/
#ifndef __has_extension
#define __has_extension __has_feature
#endif
#ifndef __has_feature
#define __has_feature(x) 0
#endif
#ifndef __has_include
#define __has_include(x) 0
#endif
#ifndef __has_builtin
#define __has_builtin(x) 0
#endif
#if defined(__cplusplus)
#define __BEGIN_DECLS extern "C" {
#define __END_DECLS }
#else
#define __BEGIN_DECLS
#define __END_DECLS
#endif
/*
* This code has been put in place to help reduce the addition of
* compiler specific defines in FreeBSD code. It helps to aid in
* having a compiler-agnostic source tree.
*/
#if defined(__GNUC__) || defined(__INTEL_COMPILER)
#if __GNUC__ >= 3 || defined(__INTEL_COMPILER)
#define __GNUCLIKE_ASM 3
#define __GNUCLIKE_MATH_BUILTIN_CONSTANTS
#else
#define __GNUCLIKE_ASM 2
#endif
#define __GNUCLIKE___TYPEOF 1
#define __GNUCLIKE___OFFSETOF 1
#define __GNUCLIKE___SECTION 1
#ifndef __INTEL_COMPILER
# define __GNUCLIKE_CTOR_SECTION_HANDLING 1
#endif
#define __GNUCLIKE_BUILTIN_CONSTANT_P 1
# if defined(__INTEL_COMPILER) && defined(__cplusplus) \
&& __INTEL_COMPILER < 800
# undef __GNUCLIKE_BUILTIN_CONSTANT_P
# endif
#if (__GNUC_MINOR__ > 95 || __GNUC__ >= 3) && !defined(__INTEL_COMPILER)
# define __GNUCLIKE_BUILTIN_VARARGS 1
# define __GNUCLIKE_BUILTIN_STDARG 1
# define __GNUCLIKE_BUILTIN_VAALIST 1
#endif
#if defined(__GNUC__)
# define __GNUC_VA_LIST_COMPATIBILITY 1
#endif
/*
* Compiler memory barriers, specific to gcc and clang.
*/
#if defined(__GNUC__)
#define __compiler_membar() __asm __volatile(" " : : : "memory")
#endif
#ifndef __INTEL_COMPILER
# define __GNUCLIKE_BUILTIN_NEXT_ARG 1
# define __GNUCLIKE_MATH_BUILTIN_RELOPS
#endif
#define __GNUCLIKE_BUILTIN_MEMCPY 1
/* XXX: if __GNUC__ >= 2: not tested everywhere originally, where replaced */
#define __CC_SUPPORTS_INLINE 1
#define __CC_SUPPORTS___INLINE 1
#define __CC_SUPPORTS___INLINE__ 1
#define __CC_SUPPORTS___FUNC__ 1
#define __CC_SUPPORTS_WARNING 1
#define __CC_SUPPORTS_VARADIC_XXX 1 /* see varargs.h */
#define __CC_SUPPORTS_DYNAMIC_ARRAY_INIT 1
#endif /* __GNUC__ || __INTEL_COMPILER */
/*
* The __CONCAT macro is used to concatenate parts of symbol names, e.g.
* with "#define OLD(foo) __CONCAT(old,foo)", OLD(foo) produces oldfoo.
* The __CONCAT macro is a bit tricky to use if it must work in non-ANSI
* mode -- there must be no spaces between its arguments, and for nested
* __CONCAT's, all the __CONCAT's must be at the left. __CONCAT can also
* concatenate double-quoted strings produced by the __STRING macro, but
* this only works with ANSI C.
*
* __XSTRING is like __STRING, but it expands any macros in its argument
* first. It is only available with ANSI C.
*/
#if defined(__STDC__) || defined(__cplusplus)
#define __P(protos) protos /* full-blown ANSI C */
#define __CONCAT1(x,y) x ## y
#define __CONCAT(x,y) __CONCAT1(x,y)
#define __STRING(x) #x /* stringify without expanding x */
#define __XSTRING(x) __STRING(x) /* expand x, then stringify */
#define __const const /* define reserved names to standard */
#define __signed signed
#define __volatile volatile
#if defined(__cplusplus)
#define __inline inline /* convert to C++ keyword */
#else
#if !(defined(__CC_SUPPORTS___INLINE))
#define __inline /* delete GCC keyword */
#endif /* ! __CC_SUPPORTS___INLINE */
#endif /* !__cplusplus */
#else /* !(__STDC__ || __cplusplus) */
#define __P(protos) () /* traditional C preprocessor */
#define __CONCAT(x,y) x/**/y
#define __STRING(x) "x"
#if !defined(__CC_SUPPORTS___INLINE)
#define __const /* delete pseudo-ANSI C keywords */
#define __inline
#define __signed
#define __volatile
/*
* In non-ANSI C environments, new programs will want ANSI-only C keywords
* deleted from the program and old programs will want them left alone.
* When using a compiler other than gcc, programs using the ANSI C keywords
* const, inline etc. as normal identifiers should define -DNO_ANSI_KEYWORDS.
* When using "gcc -traditional", we assume that this is the intent; if
* __GNUC__ is defined but __STDC__ is not, we leave the new keywords alone.
*/
#ifndef NO_ANSI_KEYWORDS
#define const /* delete ANSI C keywords */
#define inline
#define signed
#define volatile
#endif /* !NO_ANSI_KEYWORDS */
#endif /* !__CC_SUPPORTS___INLINE */
#endif /* !(__STDC__ || __cplusplus) */
/*
* Compiler-dependent macros to help declare dead (non-returning) and
* pure (no side effects) functions, and unused variables. They are
* null except for versions of gcc that are known to support the features
* properly (old versions of gcc-2 supported the dead and pure features
* in a different (wrong) way). If we do not provide an implementation
* for a given compiler, let the compile fail if it is told to use
* a feature that we cannot live without.
*/
#ifdef lint
#define __dead2
#define __pure2
#define __unused
#define __packed
#define __aligned(x)
#define __section(x)
#else
#if !__GNUC_PREREQ__(2, 5) && !defined(__INTEL_COMPILER)
#define __dead2
#define __pure2
#define __unused
#endif
#if __GNUC__ == 2 && __GNUC_MINOR__ >= 5 && __GNUC_MINOR__ < 7 && !defined(__INTEL_COMPILER)
#define __dead2 __attribute__((__noreturn__))
#define __pure2 __attribute__((__const__))
#define __unused
/* XXX Find out what to do for __packed, __aligned and __section */
#endif
#if __GNUC_PREREQ__(2, 7)
#define __dead2 __attribute__((__noreturn__))
#define __pure2 __attribute__((__const__))
#define __unused __attribute__((__unused__))
#define __used __attribute__((__used__))
#define __packed __attribute__((__packed__))
#define __aligned(x) __attribute__((__aligned__(x)))
#define __section(x) __attribute__((__section__(x)))
#endif
#if defined(__INTEL_COMPILER)
#define __dead2 __attribute__((__noreturn__))
#define __pure2 __attribute__((__const__))
#define __unused __attribute__((__unused__))
#define __used __attribute__((__used__))
#define __packed __attribute__((__packed__))
#define __aligned(x) __attribute__((__aligned__(x)))
#define __section(x) __attribute__((__section__(x)))
#endif
#endif
#if !__GNUC_PREREQ__(2, 95)
#define __alignof(x) __offsetof(struct { char __a; x __b; }, __b)
#endif
/*
* Keywords added in C11.
*/
#if !defined(__STDC_VERSION__) || __STDC_VERSION__ < 201112L
#if !__has_extension(c_alignas)
#if (defined(__cplusplus) && __cplusplus >= 201103L) || \
__has_extension(cxx_alignas)
#define _Alignas(x) alignas(x)
#else
/* XXX: Only emulates _Alignas(constant-expression); not _Alignas(type-name). */
#define _Alignas(x) __aligned(x)
#endif
#endif
#if defined(__cplusplus) && __cplusplus >= 201103L
#define _Alignof(x) alignof(x)
#else
#define _Alignof(x) __alignof(x)
#endif
#if !__has_extension(c_atomic) && !__has_extension(cxx_atomic)
/*
* No native support for _Atomic(). Place object in structure to prevent
* most forms of direct non-atomic access.
*/
#define _Atomic(T) struct { T volatile __val; }
#endif
#if defined(__cplusplus) && __cplusplus >= 201103L
#define _Noreturn __attribute__((__noreturn__))
#else
#define _Noreturn __dead2
#endif
#if __GNUC_PREREQ__(4, 6) && !defined(__cplusplus)
/* Do nothing: _Static_assert() works as per C11 */
#elif !__has_extension(c_static_assert)
#if (defined(__cplusplus) && __cplusplus >= 201103L) || \
__has_extension(cxx_static_assert)
#define _Static_assert(x, y) static_assert(x, y)
#elif defined(__COUNTER__)
#define _Static_assert(x, y) __Static_assert(x, __COUNTER__)
#define __Static_assert(x, y) ___Static_assert(x, y)
#define ___Static_assert(x, y) typedef char __assert_ ## y[(x) ? 1 : -1]
#else
#define _Static_assert(x, y) struct __hack
#endif
#endif
#if !__has_extension(c_thread_local)
/* XXX: Change this to test against C++11 when clang in base supports it. */
#if /* (defined(__cplusplus) && __cplusplus >= 201103L) || */ \
__has_extension(cxx_thread_local)
#define _Thread_local thread_local
#else
#define _Thread_local __thread
#endif
#endif
#endif /* __STDC_VERSION__ || __STDC_VERSION__ < 201112L */
/*
* Emulation of C11 _Generic(). Unlike the previously defined C11
* keywords, it is not possible to implement this using exactly the same
* syntax. Therefore implement something similar under the name
* __generic(). Unlike _Generic(), this macro can only distinguish
* between a single type, so it requires nested invocations to
* distinguish multiple cases.
*/
#if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201112L
#define __generic(expr, t, yes, no) \
_Generic(expr, t: yes, default: no)
#elif __GNUC_PREREQ__(3, 1) && !defined(__cplusplus)
#define __generic(expr, t, yes, no) \
__builtin_choose_expr( \
__builtin_types_compatible_p(__typeof(expr), t), yes, no)
#endif
#if __GNUC_PREREQ__(2, 96)
#define __malloc_like __attribute__((__malloc__))
#define __pure __attribute__((__pure__))
#else
#define __malloc_like
#define __pure
#endif
#if __GNUC_PREREQ__(3, 1) || (defined(__INTEL_COMPILER) && __INTEL_COMPILER >= 800)
#define __always_inline __attribute__((__always_inline__))
#else
#define __always_inline
#endif
#if __GNUC_PREREQ__(3, 1)
#define __noinline __attribute__ ((__noinline__))
#else
#define __noinline
#endif
#if __GNUC_PREREQ__(3, 3)
#define __nonnull(x) __attribute__((__nonnull__(x)))
#else
#define __nonnull(x)
#endif
#if __GNUC_PREREQ__(3, 4)
#define __fastcall __attribute__((__fastcall__))
#else
#define __fastcall
#endif
#if __GNUC_PREREQ__(4, 1)
#define __returns_twice __attribute__((__returns_twice__))
#else
#define __returns_twice
#endif
/* XXX: should use `#if __STDC_VERSION__ < 199901'. */
#if !__GNUC_PREREQ__(2, 7) && !defined(__INTEL_COMPILER)
#define __func__ NULL
#endif
/*
* GCC 2.95 provides `__restrict' as an extension to C90 to support the
* C99-specific `restrict' type qualifier. We happen to use `__restrict' as
* a way to define the `restrict' type qualifier without disturbing older
* software that is unaware of C99 keywords.
*/
#if !(__GNUC__ == 2 && __GNUC_MINOR__ == 95)
#if !defined(__STDC_VERSION__) || __STDC_VERSION__ < 199901 || defined(lint)
#define __restrict
#else
#define __restrict restrict
#endif
#endif
/*
* GNU C version 2.96 adds explicit branch prediction so that
* the CPU back-end can hint the processor and also so that
* code blocks can be reordered such that the predicted path
* sees a more linear flow, thus improving cache behavior, etc.
*
* The following two macros provide us with a way to utilize this
* compiler feature. Use __predict_true() if you expect the expression
* to evaluate to true, and __predict_false() if you expect the
* expression to evaluate to false.
*
* A few notes about usage:
*
* * Generally, __predict_false() error condition checks (unless
* you have some _strong_ reason to do otherwise, in which case
* document it), and/or __predict_true() `no-error' condition
* checks, assuming you want to optimize for the no-error case.
*
* * Other than that, if you don't know the likelihood of a test
* succeeding from empirical or other `hard' evidence, don't
* make predictions.
*
* * These are meant to be used in places that are run `a lot'.
* It is wasteful to make predictions in code that is run
* seldomly (e.g. at subsystem initialization time) as the
* basic block reordering that this affects can often generate
* larger code.
*/
#if __GNUC_PREREQ__(2, 96)
#define __predict_true(exp) __builtin_expect((exp), 1)
#define __predict_false(exp) __builtin_expect((exp), 0)
#else
#define __predict_true(exp) (exp)
#define __predict_false(exp) (exp)
#endif
#if __GNUC_PREREQ__(4, 2)
#define __hidden __attribute__((__visibility__("hidden")))
#define __exported __attribute__((__visibility__("default")))
#else
#define __hidden
#define __exported
#endif
#define __offsetof(type, field) offsetof(type, field)
#define __rangeof(type, start, end) \
(__offsetof(type, end) - __offsetof(type, start))
/*
* Given the pointer x to the member m of the struct s, return
* a pointer to the containing structure. When using GCC, we first
* assign pointer x to a local variable, to check that its type is
* compatible with member m.
*/
#if __GNUC_PREREQ__(3, 1)
#define __containerof(x, s, m) ({ \
const volatile __typeof__(((s *)0)->m) *__x = (x); \
__DEQUALIFY(s *, (const volatile char *)__x - __offsetof(s, m));\
})
#else
#define __containerof(x, s, m) \
__DEQUALIFY(s *, (const volatile char *)(x) - __offsetof(s, m))
#endif
/*
* Compiler-dependent macros to declare that functions take printf-like
* or scanf-like arguments. They are null except for versions of gcc
* that are known to support the features properly (old versions of gcc-2
* didn't permit keeping the keywords out of the application namespace).
*/
#if !__GNUC_PREREQ__(2, 7) && !defined(__INTEL_COMPILER)
#define __printflike(fmtarg, firstvararg)
#define __scanflike(fmtarg, firstvararg)
#define __format_arg(fmtarg)
#define __strfmonlike(fmtarg, firstvararg)
#define __strftimelike(fmtarg, firstvararg)
#else
#define __printflike(fmtarg, firstvararg) \
__attribute__((__format__ (__printf__, fmtarg, firstvararg)))
#define __scanflike(fmtarg, firstvararg) \
__attribute__((__format__ (__scanf__, fmtarg, firstvararg)))
#define __format_arg(fmtarg) __attribute__((__format_arg__ (fmtarg)))
#define __strfmonlike(fmtarg, firstvararg) \
__attribute__((__format__ (__strfmon__, fmtarg, firstvararg)))
#define __strftimelike(fmtarg, firstvararg) \
__attribute__((__format__ (__strftime__, fmtarg, firstvararg)))
#endif
/* Compiler-dependent macros that rely on FreeBSD-specific extensions. */
#if defined(__FreeBSD_cc_version) && __FreeBSD_cc_version >= 300001 && \
defined(__GNUC__) && !defined(__INTEL_COMPILER)
#define __printf0like(fmtarg, firstvararg) \
__attribute__((__format__ (__printf0__, fmtarg, firstvararg)))
#else
#define __printf0like(fmtarg, firstvararg)
#endif
#if defined(__GNUC__) || defined(__INTEL_COMPILER)
#ifndef __INTEL_COMPILER
#define __strong_reference(sym,aliassym) \
extern __typeof (sym) aliassym __attribute__ ((__alias__ (#sym)))
#endif
#ifdef __ELF__
#ifdef __STDC__
#define __weak_reference(sym,alias) \
__asm__(".weak " #alias); \
__asm__(".equ " #alias ", " #sym)
#define __warn_references(sym,msg) \
__asm__(".section .gnu.warning." #sym); \
__asm__(".asciz \"" msg "\""); \
__asm__(".previous")
#define __sym_compat(sym,impl,verid) \
__asm__(".symver " #impl ", " #sym "@" #verid)
#define __sym_default(sym,impl,verid) \
__asm__(".symver " #impl ", " #sym "@@" #verid)
#else
#define __weak_reference(sym,alias) \
__asm__(".weak alias"); \
__asm__(".equ alias, sym")
#define __warn_references(sym,msg) \
__asm__(".section .gnu.warning.sym"); \
__asm__(".asciz \"msg\""); \
__asm__(".previous")
#define __sym_compat(sym,impl,verid) \
__asm__(".symver impl, sym@verid")
#define __sym_default(impl,sym,verid) \
__asm__(".symver impl, sym@@verid")
#endif /* __STDC__ */
#else /* !__ELF__ */
#ifdef __STDC__
#define __weak_reference(sym,alias) \
__asm__(".stabs \"_" #alias "\",11,0,0,0"); \
__asm__(".stabs \"_" #sym "\",1,0,0,0")
#define __warn_references(sym,msg) \
__asm__(".stabs \"" msg "\",30,0,0,0"); \
__asm__(".stabs \"_" #sym "\",1,0,0,0")
#else
#define __weak_reference(sym,alias) \
__asm__(".stabs \"_/**/alias\",11,0,0,0"); \
__asm__(".stabs \"_/**/sym\",1,0,0,0")
#define __warn_references(sym,msg) \
__asm__(".stabs msg,30,0,0,0"); \
__asm__(".stabs \"_/**/sym\",1,0,0,0")
#endif /* __STDC__ */
#endif /* __ELF__ */
#endif /* __GNUC__ || __INTEL_COMPILER */
#ifndef __FBSDID
#define __FBSDID(s) struct __hack
#endif
#ifndef __RCSID
#define __RCSID(s) struct __hack
#endif
#ifndef __RCSID_SOURCE
#define __RCSID_SOURCE(s) struct __hack
#endif
#ifndef __SCCSID
#define __SCCSID(s) struct __hack
#endif
#ifndef __COPYRIGHT
#define __COPYRIGHT(s) struct __hack
#endif
#ifndef __DECONST
#define __DECONST(type, var) ((type)(__uintptr_t)(const void *)(var))
#endif
#ifndef __DEVOLATILE
#define __DEVOLATILE(type, var) ((type)(__uintptr_t)(volatile void *)(var))
#endif
#ifndef __DEQUALIFY
#define __DEQUALIFY(type, var) ((type)(__uintptr_t)(const volatile void *)(var))
#endif
/*-
* The following definitions are an extension of the behavior originally
* implemented in <sys/_posix.h>, but with a different level of granularity.
* POSIX.1 requires that the macros we test be defined before any standard
* header file is included.
*
* Here's a quick run-down of the versions:
* defined(_POSIX_SOURCE) 1003.1-1988
* _POSIX_C_SOURCE == 1 1003.1-1990
* _POSIX_C_SOURCE == 2 1003.2-1992 C Language Binding Option
* _POSIX_C_SOURCE == 199309 1003.1b-1993
* _POSIX_C_SOURCE == 199506 1003.1c-1995, 1003.1i-1995,
* and the omnibus ISO/IEC 9945-1: 1996
* _POSIX_C_SOURCE == 200112 1003.1-2001
* _POSIX_C_SOURCE == 200809 1003.1-2008
*
* In addition, the X/Open Portability Guide, which is now the Single UNIX
* Specification, defines a feature-test macro which indicates the version of
* that specification, and which subsumes _POSIX_C_SOURCE.
*
* Our macros begin with two underscores to avoid namespace screwage.
*/
/* Deal with IEEE Std. 1003.1-1990, in which _POSIX_C_SOURCE == 1. */
#if defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE == 1
#undef _POSIX_C_SOURCE /* Probably illegal, but beyond caring now. */
#define _POSIX_C_SOURCE 199009
#endif
/* Deal with IEEE Std. 1003.2-1992, in which _POSIX_C_SOURCE == 2. */
#if defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE == 2
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 199209
#endif
/* Deal with various X/Open Portability Guides and Single UNIX Spec. */
#ifdef _XOPEN_SOURCE
#if _XOPEN_SOURCE - 0 >= 700
#define __XSI_VISIBLE 700
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 200809
#elif _XOPEN_SOURCE - 0 >= 600
#define __XSI_VISIBLE 600
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 200112
#elif _XOPEN_SOURCE - 0 >= 500
#define __XSI_VISIBLE 500
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 199506
#endif
#endif
/*
* Deal with all versions of POSIX. The ordering relative to the tests above is
* important.
*/
#if defined(_POSIX_SOURCE) && !defined(_POSIX_C_SOURCE)
#define _POSIX_C_SOURCE 198808
#endif
#ifdef _POSIX_C_SOURCE
#if _POSIX_C_SOURCE >= 200809
#define __POSIX_VISIBLE 200809
#define __ISO_C_VISIBLE 1999
#elif _POSIX_C_SOURCE >= 200112
#define __POSIX_VISIBLE 200112
#define __ISO_C_VISIBLE 1999
#elif _POSIX_C_SOURCE >= 199506
#define __POSIX_VISIBLE 199506
#define __ISO_C_VISIBLE 1990
#elif _POSIX_C_SOURCE >= 199309
#define __POSIX_VISIBLE 199309
#define __ISO_C_VISIBLE 1990
#elif _POSIX_C_SOURCE >= 199209
#define __POSIX_VISIBLE 199209
#define __ISO_C_VISIBLE 1990
#elif _POSIX_C_SOURCE >= 199009
#define __POSIX_VISIBLE 199009
#define __ISO_C_VISIBLE 1990
#else
#define __POSIX_VISIBLE 198808
#define __ISO_C_VISIBLE 0
#endif /* _POSIX_C_SOURCE */
#else
/*-
* Deal with _ANSI_SOURCE:
* If it is defined, and no other compilation environment is explicitly
* requested, then define our internal feature-test macros to zero. This
* makes no difference to the preprocessor (undefined symbols in preprocessing
* expressions are defined to have value zero), but makes it more convenient for
* a test program to print out the values.
*
* If a program mistakenly defines _ANSI_SOURCE and some other macro such as
* _POSIX_C_SOURCE, we will assume that it wants the broader compilation
* environment (and in fact we will never get here).
*/
#if defined(_ANSI_SOURCE) /* Hide almost everything. */
#define __POSIX_VISIBLE 0
#define __XSI_VISIBLE 0
#define __BSD_VISIBLE 0
#define __ISO_C_VISIBLE 1990
#elif defined(_C99_SOURCE) /* Localism to specify strict C99 env. */
#define __POSIX_VISIBLE 0
#define __XSI_VISIBLE 0
#define __BSD_VISIBLE 0
#define __ISO_C_VISIBLE 1999
#elif defined(_C11_SOURCE) /* Localism to specify strict C11 env. */
#define __POSIX_VISIBLE 0
#define __XSI_VISIBLE 0
#define __BSD_VISIBLE 0
#define __ISO_C_VISIBLE 2011
#elif defined(_GNU_SOURCE) /* Everything and the kitchen sink. */
#define __POSIX_VISIBLE 200809
#define __XSI_VISIBLE 700
#define __BSD_VISIBLE 1
#define __ISO_C_VISIBLE 2011
#define __GNU_VISIBLE 1
#else /* Default: everything except __GNU_VISIBLE. */
#define __POSIX_VISIBLE 200809
#define __XSI_VISIBLE 700
#define __BSD_VISIBLE 1
#define __ISO_C_VISIBLE 2011
#endif
#endif
#endif /* !_SYS_CDEFS_H_ */

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@ -0,0 +1,8 @@
/* syslimits.h stands for the system's own limits.h file.
If we can use it ok unmodified, then we install this text.
If fixincludes fixes it, then the fixed version is installed
instead of this text. */
#define _GCC_NEXT_LIMITS_H /* tell gcc's limits.h to recurse */
#include_next <limits.h>
#undef _GCC_NEXT_LIMITS_H

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@ -0,0 +1,277 @@
/* Copyright (C) 2002-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 5.2.4.2.2 Characteristics of floating types <float.h>
*/
#ifndef _FLOAT_H___
#define _FLOAT_H___
/* Radix of exponent representation, b. */
#undef FLT_RADIX
#define FLT_RADIX __FLT_RADIX__
/* Number of base-FLT_RADIX digits in the significand, p. */
#undef FLT_MANT_DIG
#undef DBL_MANT_DIG
#undef LDBL_MANT_DIG
#define FLT_MANT_DIG __FLT_MANT_DIG__
#define DBL_MANT_DIG __DBL_MANT_DIG__
#define LDBL_MANT_DIG __LDBL_MANT_DIG__
/* Number of decimal digits, q, such that any floating-point number with q
decimal digits can be rounded into a floating-point number with p radix b
digits and back again without change to the q decimal digits,
p * log10(b) if b is a power of 10
floor((p - 1) * log10(b)) otherwise
*/
#undef FLT_DIG
#undef DBL_DIG
#undef LDBL_DIG
#define FLT_DIG __FLT_DIG__
#define DBL_DIG __DBL_DIG__
#define LDBL_DIG __LDBL_DIG__
/* Minimum int x such that FLT_RADIX**(x-1) is a normalized float, emin */
#undef FLT_MIN_EXP
#undef DBL_MIN_EXP
#undef LDBL_MIN_EXP
#define FLT_MIN_EXP __FLT_MIN_EXP__
#define DBL_MIN_EXP __DBL_MIN_EXP__
#define LDBL_MIN_EXP __LDBL_MIN_EXP__
/* Minimum negative integer such that 10 raised to that power is in the
range of normalized floating-point numbers,
ceil(log10(b) * (emin - 1))
*/
#undef FLT_MIN_10_EXP
#undef DBL_MIN_10_EXP
#undef LDBL_MIN_10_EXP
#define FLT_MIN_10_EXP __FLT_MIN_10_EXP__
#define DBL_MIN_10_EXP __DBL_MIN_10_EXP__
#define LDBL_MIN_10_EXP __LDBL_MIN_10_EXP__
/* Maximum int x such that FLT_RADIX**(x-1) is a representable float, emax. */
#undef FLT_MAX_EXP
#undef DBL_MAX_EXP
#undef LDBL_MAX_EXP
#define FLT_MAX_EXP __FLT_MAX_EXP__
#define DBL_MAX_EXP __DBL_MAX_EXP__
#define LDBL_MAX_EXP __LDBL_MAX_EXP__
/* Maximum integer such that 10 raised to that power is in the range of
representable finite floating-point numbers,
floor(log10((1 - b**-p) * b**emax))
*/
#undef FLT_MAX_10_EXP
#undef DBL_MAX_10_EXP
#undef LDBL_MAX_10_EXP
#define FLT_MAX_10_EXP __FLT_MAX_10_EXP__
#define DBL_MAX_10_EXP __DBL_MAX_10_EXP__
#define LDBL_MAX_10_EXP __LDBL_MAX_10_EXP__
/* Maximum representable finite floating-point number,
(1 - b**-p) * b**emax
*/
#undef FLT_MAX
#undef DBL_MAX
#undef LDBL_MAX
#define FLT_MAX __FLT_MAX__
#define DBL_MAX __DBL_MAX__
#define LDBL_MAX __LDBL_MAX__
/* The difference between 1 and the least value greater than 1 that is
representable in the given floating point type, b**1-p. */
#undef FLT_EPSILON
#undef DBL_EPSILON
#undef LDBL_EPSILON
#define FLT_EPSILON __FLT_EPSILON__
#define DBL_EPSILON __DBL_EPSILON__
#define LDBL_EPSILON __LDBL_EPSILON__
/* Minimum normalized positive floating-point number, b**(emin - 1). */
#undef FLT_MIN
#undef DBL_MIN
#undef LDBL_MIN
#define FLT_MIN __FLT_MIN__
#define DBL_MIN __DBL_MIN__
#define LDBL_MIN __LDBL_MIN__
/* Addition rounds to 0: zero, 1: nearest, 2: +inf, 3: -inf, -1: unknown. */
/* ??? This is supposed to change with calls to fesetround in <fenv.h>. */
#undef FLT_ROUNDS
#define FLT_ROUNDS 1
#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
/* The floating-point expression evaluation method.
-1 indeterminate
0 evaluate all operations and constants just to the range and
precision of the type
1 evaluate operations and constants of type float and double
to the range and precision of the double type, evaluate
long double operations and constants to the range and
precision of the long double type
2 evaluate all operations and constants to the range and
precision of the long double type
??? This ought to change with the setting of the fp control word;
the value provided by the compiler assumes the widest setting. */
#undef FLT_EVAL_METHOD
#define FLT_EVAL_METHOD __FLT_EVAL_METHOD__
/* Number of decimal digits, n, such that any floating-point number in the
widest supported floating type with pmax radix b digits can be rounded
to a floating-point number with n decimal digits and back again without
change to the value,
pmax * log10(b) if b is a power of 10
ceil(1 + pmax * log10(b)) otherwise
*/
#undef DECIMAL_DIG
#define DECIMAL_DIG __DECIMAL_DIG__
#endif /* C99 */
#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 201112L
/* Versions of DECIMAL_DIG for each floating-point type. */
#undef FLT_DECIMAL_DIG
#undef DBL_DECIMAL_DIG
#undef LDBL_DECIMAL_DIG
#define FLT_DECIMAL_DIG __FLT_DECIMAL_DIG__
#define DBL_DECIMAL_DIG __DBL_DECIMAL_DIG__
#define LDBL_DECIMAL_DIG __DECIMAL_DIG__
/* Whether types support subnormal numbers. */
#undef FLT_HAS_SUBNORM
#undef DBL_HAS_SUBNORM
#undef LDBL_HAS_SUBNORM
#define FLT_HAS_SUBNORM __FLT_HAS_DENORM__
#define DBL_HAS_SUBNORM __DBL_HAS_DENORM__
#define LDBL_HAS_SUBNORM __LDBL_HAS_DENORM__
/* Minimum positive values, including subnormals. */
#undef FLT_TRUE_MIN
#undef DBL_TRUE_MIN
#undef LDBL_TRUE_MIN
#if __FLT_HAS_DENORM__
#define FLT_TRUE_MIN __FLT_DENORM_MIN__
#else
#define FLT_TRUE_MIN __FLT_MIN__
#endif
#if __DBL_HAS_DENORM__
#define DBL_TRUE_MIN __DBL_DENORM_MIN__
#else
#define DBL_TRUE_MIN __DBL_MIN__
#endif
#if __LDBL_HAS_DENORM__
#define LDBL_TRUE_MIN __LDBL_DENORM_MIN__
#else
#define LDBL_TRUE_MIN __LDBL_MIN__
#endif
#endif /* C11 */
#ifdef __STDC_WANT_DEC_FP__
/* Draft Technical Report 24732, extension for decimal floating-point
arithmetic: Characteristic of decimal floating types <float.h>. */
/* Number of base-FLT_RADIX digits in the significand, p. */
#undef DEC32_MANT_DIG
#undef DEC64_MANT_DIG
#undef DEC128_MANT_DIG
#define DEC32_MANT_DIG __DEC32_MANT_DIG__
#define DEC64_MANT_DIG __DEC64_MANT_DIG__
#define DEC128_MANT_DIG __DEC128_MANT_DIG__
/* Minimum exponent. */
#undef DEC32_MIN_EXP
#undef DEC64_MIN_EXP
#undef DEC128_MIN_EXP
#define DEC32_MIN_EXP __DEC32_MIN_EXP__
#define DEC64_MIN_EXP __DEC64_MIN_EXP__
#define DEC128_MIN_EXP __DEC128_MIN_EXP__
/* Maximum exponent. */
#undef DEC32_MAX_EXP
#undef DEC64_MAX_EXP
#undef DEC128_MAX_EXP
#define DEC32_MAX_EXP __DEC32_MAX_EXP__
#define DEC64_MAX_EXP __DEC64_MAX_EXP__
#define DEC128_MAX_EXP __DEC128_MAX_EXP__
/* Maximum representable finite decimal floating-point number
(there are 6, 15, and 33 9s after the decimal points respectively). */
#undef DEC32_MAX
#undef DEC64_MAX
#undef DEC128_MAX
#define DEC32_MAX __DEC32_MAX__
#define DEC64_MAX __DEC64_MAX__
#define DEC128_MAX __DEC128_MAX__
/* The difference between 1 and the least value greater than 1 that is
representable in the given floating point type. */
#undef DEC32_EPSILON
#undef DEC64_EPSILON
#undef DEC128_EPSILON
#define DEC32_EPSILON __DEC32_EPSILON__
#define DEC64_EPSILON __DEC64_EPSILON__
#define DEC128_EPSILON __DEC128_EPSILON__
/* Minimum normalized positive floating-point number. */
#undef DEC32_MIN
#undef DEC64_MIN
#undef DEC128_MIN
#define DEC32_MIN __DEC32_MIN__
#define DEC64_MIN __DEC64_MIN__
#define DEC128_MIN __DEC128_MIN__
/* Minimum subnormal positive floating-point number. */
#undef DEC32_SUBNORMAL_MIN
#undef DEC64_SUBNORMAL_MIN
#undef DEC128_SUBNORMAL_MIN
#define DEC32_SUBNORMAL_MIN __DEC32_SUBNORMAL_MIN__
#define DEC64_SUBNORMAL_MIN __DEC64_SUBNORMAL_MIN__
#define DEC128_SUBNORMAL_MIN __DEC128_SUBNORMAL_MIN__
/* The floating-point expression evaluation method.
-1 indeterminate
0 evaluate all operations and constants just to the range and
precision of the type
1 evaluate operations and constants of type _Decimal32
and _Decimal64 to the range and precision of the _Decimal64
type, evaluate _Decimal128 operations and constants to the
range and precision of the _Decimal128 type;
2 evaluate all operations and constants to the range and
precision of the _Decimal128 type. */
#undef DEC_EVAL_METHOD
#define DEC_EVAL_METHOD __DEC_EVAL_METHOD__
#endif /* __STDC_WANT_DEC_FP__ */
#endif /* _FLOAT_H___ */

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/* Copyright (C) 1997-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.9 Alternative spellings <iso646.h>
*/
#ifndef _ISO646_H
#define _ISO646_H
#ifndef __cplusplus
#define and &&
#define and_eq &=
#define bitand &
#define bitor |
#define compl ~
#define not !
#define not_eq !=
#define or ||
#define or_eq |=
#define xor ^
#define xor_eq ^=
#endif
#endif

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@ -0,0 +1,39 @@
/* Copyright (C) 2011-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* ISO C1X: 7.15 Alignment <stdalign.h>. */
#ifndef _STDALIGN_H
#define _STDALIGN_H
#ifndef __cplusplus
#define alignas _Alignas
#define alignof _Alignof
#define __alignas_is_defined 1
#define __alignof_is_defined 1
#endif
#endif /* stdalign.h */

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@ -0,0 +1,126 @@
/* Copyright (C) 1989-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.15 Variable arguments <stdarg.h>
*/
#ifndef _STDARG_H
#ifndef _ANSI_STDARG_H_
#ifndef __need___va_list
#define _STDARG_H
#define _ANSI_STDARG_H_
#endif /* not __need___va_list */
#undef __need___va_list
/* Define __gnuc_va_list. */
#ifndef __GNUC_VA_LIST
#define __GNUC_VA_LIST
typedef __builtin_va_list __gnuc_va_list;
#endif
/* Define the standard macros for the user,
if this invocation was from the user program. */
#ifdef _STDARG_H
#define va_start(v,l) __builtin_va_start(v,l)
#define va_end(v) __builtin_va_end(v)
#define va_arg(v,l) __builtin_va_arg(v,l)
#if !defined(__STRICT_ANSI__) || __STDC_VERSION__ + 0 >= 199900L || defined(__GXX_EXPERIMENTAL_CXX0X__)
#define va_copy(d,s) __builtin_va_copy(d,s)
#endif
#define __va_copy(d,s) __builtin_va_copy(d,s)
/* Define va_list, if desired, from __gnuc_va_list. */
/* We deliberately do not define va_list when called from
stdio.h, because ANSI C says that stdio.h is not supposed to define
va_list. stdio.h needs to have access to that data type,
but must not use that name. It should use the name __gnuc_va_list,
which is safe because it is reserved for the implementation. */
#ifdef _BSD_VA_LIST
#undef _BSD_VA_LIST
#endif
#if defined(__svr4__) || (defined(_SCO_DS) && !defined(__VA_LIST))
/* SVR4.2 uses _VA_LIST for an internal alias for va_list,
so we must avoid testing it and setting it here.
SVR4 uses _VA_LIST as a flag in stdarg.h, but we should
have no conflict with that. */
#ifndef _VA_LIST_
#define _VA_LIST_
#ifdef __i860__
#ifndef _VA_LIST
#define _VA_LIST va_list
#endif
#endif /* __i860__ */
typedef __gnuc_va_list va_list;
#ifdef _SCO_DS
#define __VA_LIST
#endif
#endif /* _VA_LIST_ */
#else /* not __svr4__ || _SCO_DS */
/* The macro _VA_LIST_ is the same thing used by this file in Ultrix.
But on BSD NET2 we must not test or define or undef it.
(Note that the comments in NET 2's ansi.h
are incorrect for _VA_LIST_--see stdio.h!) */
#if !defined (_VA_LIST_) || defined (__BSD_NET2__) || defined (____386BSD____) || defined (__bsdi__) || defined (__sequent__) || defined (__FreeBSD__) || defined(WINNT)
/* The macro _VA_LIST_DEFINED is used in Windows NT 3.5 */
#ifndef _VA_LIST_DEFINED
/* The macro _VA_LIST is used in SCO Unix 3.2. */
#ifndef _VA_LIST
/* The macro _VA_LIST_T_H is used in the Bull dpx2 */
#ifndef _VA_LIST_T_H
/* The macro __va_list__ is used by BeOS. */
#ifndef __va_list__
typedef __gnuc_va_list va_list;
#endif /* not __va_list__ */
#endif /* not _VA_LIST_T_H */
#endif /* not _VA_LIST */
#endif /* not _VA_LIST_DEFINED */
#if !(defined (__BSD_NET2__) || defined (____386BSD____) || defined (__bsdi__) || defined (__sequent__) || defined (__FreeBSD__))
#define _VA_LIST_
#endif
#ifndef _VA_LIST
#define _VA_LIST
#endif
#ifndef _VA_LIST_DEFINED
#define _VA_LIST_DEFINED
#endif
#ifndef _VA_LIST_T_H
#define _VA_LIST_T_H
#endif
#ifndef __va_list__
#define __va_list__
#endif
#endif /* not _VA_LIST_, except on certain systems */
#endif /* not __svr4__ */
#endif /* _STDARG_H */
#endif /* not _ANSI_STDARG_H_ */
#endif /* not _STDARG_H */

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@ -0,0 +1,50 @@
/* Copyright (C) 1998-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.16 Boolean type and values <stdbool.h>
*/
#ifndef _STDBOOL_H
#define _STDBOOL_H
#ifndef __cplusplus
#define bool _Bool
#define true 1
#define false 0
#else /* __cplusplus */
/* Supporting <stdbool.h> in C++ is a GCC extension. */
#define _Bool bool
#define bool bool
#define false false
#define true true
#endif /* __cplusplus */
/* Signal that all the definitions are present. */
#define __bool_true_false_are_defined 1
#endif /* stdbool.h */

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@ -0,0 +1,439 @@
/* Copyright (C) 1989-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.17 Common definitions <stddef.h>
*/
#if (!defined(_STDDEF_H) && !defined(_STDDEF_H_) && !defined(_ANSI_STDDEF_H) \
&& !defined(__STDDEF_H__)) \
|| defined(__need_wchar_t) || defined(__need_size_t) \
|| defined(__need_ptrdiff_t) || defined(__need_NULL) \
|| defined(__need_wint_t)
/* Any one of these symbols __need_* means that GNU libc
wants us just to define one data type. So don't define
the symbols that indicate this file's entire job has been done. */
#if (!defined(__need_wchar_t) && !defined(__need_size_t) \
&& !defined(__need_ptrdiff_t) && !defined(__need_NULL) \
&& !defined(__need_wint_t))
#define _STDDEF_H
#define _STDDEF_H_
/* snaroff@next.com says the NeXT needs this. */
#define _ANSI_STDDEF_H
#endif
#ifndef __sys_stdtypes_h
/* This avoids lossage on SunOS but only if stdtypes.h comes first.
There's no way to win with the other order! Sun lossage. */
/* On 4.3bsd-net2, make sure ansi.h is included, so we have
one less case to deal with in the following. */
#if defined (__BSD_NET2__) || defined (____386BSD____) || (defined (__FreeBSD__) && (__FreeBSD__ < 5)) || defined(__NetBSD__)
#include <machine/ansi.h>
#endif
/* On FreeBSD 5, machine/ansi.h does not exist anymore... */
#if defined (__FreeBSD__) && (__FreeBSD__ >= 5)
#include <sys/_types.h>
#endif
/* In 4.3bsd-net2, machine/ansi.h defines these symbols, which are
defined if the corresponding type is *not* defined.
FreeBSD-2.1 defines _MACHINE_ANSI_H_ instead of _ANSI_H_.
NetBSD defines _I386_ANSI_H_ and _X86_64_ANSI_H_ instead of _ANSI_H_ */
#if defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_)
#if !defined(_SIZE_T_) && !defined(_BSD_SIZE_T_)
#define _SIZE_T
#endif
#if !defined(_PTRDIFF_T_) && !defined(_BSD_PTRDIFF_T_)
#define _PTRDIFF_T
#endif
/* On BSD/386 1.1, at least, machine/ansi.h defines _BSD_WCHAR_T_
instead of _WCHAR_T_. */
#if !defined(_WCHAR_T_) && !defined(_BSD_WCHAR_T_)
#ifndef _BSD_WCHAR_T_
#define _WCHAR_T
#endif
#endif
/* Undef _FOO_T_ if we are supposed to define foo_t. */
#if defined (__need_ptrdiff_t) || defined (_STDDEF_H_)
#undef _PTRDIFF_T_
#undef _BSD_PTRDIFF_T_
#endif
#if defined (__need_size_t) || defined (_STDDEF_H_)
#undef _SIZE_T_
#undef _BSD_SIZE_T_
#endif
#if defined (__need_wchar_t) || defined (_STDDEF_H_)
#undef _WCHAR_T_
#undef _BSD_WCHAR_T_
#endif
#endif /* defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_) */
/* Sequent's header files use _PTRDIFF_T_ in some conflicting way.
Just ignore it. */
#if defined (__sequent__) && defined (_PTRDIFF_T_)
#undef _PTRDIFF_T_
#endif
/* On VxWorks, <type/vxTypesBase.h> may have defined macros like
_TYPE_size_t which will typedef size_t. fixincludes patched the
vxTypesBase.h so that this macro is only defined if _GCC_SIZE_T is
not defined, and so that defining this macro defines _GCC_SIZE_T.
If we find that the macros are still defined at this point, we must
invoke them so that the type is defined as expected. */
#if defined (_TYPE_ptrdiff_t) && (defined (__need_ptrdiff_t) || defined (_STDDEF_H_))
_TYPE_ptrdiff_t;
#undef _TYPE_ptrdiff_t
#endif
#if defined (_TYPE_size_t) && (defined (__need_size_t) || defined (_STDDEF_H_))
_TYPE_size_t;
#undef _TYPE_size_t
#endif
#if defined (_TYPE_wchar_t) && (defined (__need_wchar_t) || defined (_STDDEF_H_))
_TYPE_wchar_t;
#undef _TYPE_wchar_t
#endif
/* In case nobody has defined these types, but we aren't running under
GCC 2.00, make sure that __PTRDIFF_TYPE__, __SIZE_TYPE__, and
__WCHAR_TYPE__ have reasonable values. This can happen if the
parts of GCC is compiled by an older compiler, that actually
include gstddef.h, such as collect2. */
/* Signed type of difference of two pointers. */
/* Define this type if we are doing the whole job,
or if we want this type in particular. */
#if defined (_STDDEF_H) || defined (__need_ptrdiff_t)
#ifndef _PTRDIFF_T /* in case <sys/types.h> has defined it. */
#ifndef _T_PTRDIFF_
#ifndef _T_PTRDIFF
#ifndef __PTRDIFF_T
#ifndef _PTRDIFF_T_
#ifndef _BSD_PTRDIFF_T_
#ifndef ___int_ptrdiff_t_h
#ifndef _GCC_PTRDIFF_T
#define _PTRDIFF_T
#define _T_PTRDIFF_
#define _T_PTRDIFF
#define __PTRDIFF_T
#define _PTRDIFF_T_
#define _BSD_PTRDIFF_T_
#define ___int_ptrdiff_t_h
#define _GCC_PTRDIFF_T
#ifndef __PTRDIFF_TYPE__
#define __PTRDIFF_TYPE__ long int
#endif
typedef __PTRDIFF_TYPE__ ptrdiff_t;
#endif /* _GCC_PTRDIFF_T */
#endif /* ___int_ptrdiff_t_h */
#endif /* _BSD_PTRDIFF_T_ */
#endif /* _PTRDIFF_T_ */
#endif /* __PTRDIFF_T */
#endif /* _T_PTRDIFF */
#endif /* _T_PTRDIFF_ */
#endif /* _PTRDIFF_T */
/* If this symbol has done its job, get rid of it. */
#undef __need_ptrdiff_t
#endif /* _STDDEF_H or __need_ptrdiff_t. */
/* Unsigned type of `sizeof' something. */
/* Define this type if we are doing the whole job,
or if we want this type in particular. */
#if defined (_STDDEF_H) || defined (__need_size_t)
#ifndef __size_t__ /* BeOS */
#ifndef __SIZE_T__ /* Cray Unicos/Mk */
#ifndef _SIZE_T /* in case <sys/types.h> has defined it. */
#ifndef _SYS_SIZE_T_H
#ifndef _T_SIZE_
#ifndef _T_SIZE
#ifndef __SIZE_T
#ifndef _SIZE_T_
#ifndef _BSD_SIZE_T_
#ifndef _SIZE_T_DEFINED_
#ifndef _SIZE_T_DEFINED
#ifndef _BSD_SIZE_T_DEFINED_ /* Darwin */
#ifndef _SIZE_T_DECLARED /* FreeBSD 5 */
#ifndef ___int_size_t_h
#ifndef _GCC_SIZE_T
#ifndef _SIZET_
#ifndef __size_t
#define __size_t__ /* BeOS */
#define __SIZE_T__ /* Cray Unicos/Mk */
#define _SIZE_T
#define _SYS_SIZE_T_H
#define _T_SIZE_
#define _T_SIZE
#define __SIZE_T
#define _SIZE_T_
#define _BSD_SIZE_T_
#define _SIZE_T_DEFINED_
#define _SIZE_T_DEFINED
#define _BSD_SIZE_T_DEFINED_ /* Darwin */
#define _SIZE_T_DECLARED /* FreeBSD 5 */
#define ___int_size_t_h
#define _GCC_SIZE_T
#define _SIZET_
#if (defined (__FreeBSD__) && (__FreeBSD__ >= 5)) \
|| defined(__FreeBSD_kernel__)
/* __size_t is a typedef on FreeBSD 5, must not trash it. */
#elif defined (__VMS__)
/* __size_t is also a typedef on VMS. */
#else
#define __size_t
#endif
#ifndef __SIZE_TYPE__
#define __SIZE_TYPE__ long unsigned int
#endif
#if !(defined (__GNUG__) && defined (size_t))
typedef __SIZE_TYPE__ size_t;
#ifdef __BEOS__
typedef long ssize_t;
#endif /* __BEOS__ */
#endif /* !(defined (__GNUG__) && defined (size_t)) */
#endif /* __size_t */
#endif /* _SIZET_ */
#endif /* _GCC_SIZE_T */
#endif /* ___int_size_t_h */
#endif /* _SIZE_T_DECLARED */
#endif /* _BSD_SIZE_T_DEFINED_ */
#endif /* _SIZE_T_DEFINED */
#endif /* _SIZE_T_DEFINED_ */
#endif /* _BSD_SIZE_T_ */
#endif /* _SIZE_T_ */
#endif /* __SIZE_T */
#endif /* _T_SIZE */
#endif /* _T_SIZE_ */
#endif /* _SYS_SIZE_T_H */
#endif /* _SIZE_T */
#endif /* __SIZE_T__ */
#endif /* __size_t__ */
#undef __need_size_t
#endif /* _STDDEF_H or __need_size_t. */
/* Wide character type.
Locale-writers should change this as necessary to
be big enough to hold unique values not between 0 and 127,
and not (wchar_t) -1, for each defined multibyte character. */
/* Define this type if we are doing the whole job,
or if we want this type in particular. */
#if defined (_STDDEF_H) || defined (__need_wchar_t)
#ifndef __wchar_t__ /* BeOS */
#ifndef __WCHAR_T__ /* Cray Unicos/Mk */
#ifndef _WCHAR_T
#ifndef _T_WCHAR_
#ifndef _T_WCHAR
#ifndef __WCHAR_T
#ifndef _WCHAR_T_
#ifndef _BSD_WCHAR_T_
#ifndef _BSD_WCHAR_T_DEFINED_ /* Darwin */
#ifndef _BSD_RUNE_T_DEFINED_ /* Darwin */
#ifndef _WCHAR_T_DECLARED /* FreeBSD 5 */
#ifndef _WCHAR_T_DEFINED_
#ifndef _WCHAR_T_DEFINED
#ifndef _WCHAR_T_H
#ifndef ___int_wchar_t_h
#ifndef __INT_WCHAR_T_H
#ifndef _GCC_WCHAR_T
#define __wchar_t__ /* BeOS */
#define __WCHAR_T__ /* Cray Unicos/Mk */
#define _WCHAR_T
#define _T_WCHAR_
#define _T_WCHAR
#define __WCHAR_T
#define _WCHAR_T_
#define _BSD_WCHAR_T_
#define _WCHAR_T_DEFINED_
#define _WCHAR_T_DEFINED
#define _WCHAR_T_H
#define ___int_wchar_t_h
#define __INT_WCHAR_T_H
#define _GCC_WCHAR_T
#define _WCHAR_T_DECLARED
/* On BSD/386 1.1, at least, machine/ansi.h defines _BSD_WCHAR_T_
instead of _WCHAR_T_, and _BSD_RUNE_T_ (which, unlike the other
symbols in the _FOO_T_ family, stays defined even after its
corresponding type is defined). If we define wchar_t, then we
must undef _WCHAR_T_; for BSD/386 1.1 (and perhaps others), if
we undef _WCHAR_T_, then we must also define rune_t, since
headers like runetype.h assume that if machine/ansi.h is included,
and _BSD_WCHAR_T_ is not defined, then rune_t is available.
machine/ansi.h says, "Note that _WCHAR_T_ and _RUNE_T_ must be of
the same type." */
#ifdef _BSD_WCHAR_T_
#undef _BSD_WCHAR_T_
#ifdef _BSD_RUNE_T_
#if !defined (_ANSI_SOURCE) && !defined (_POSIX_SOURCE)
typedef _BSD_RUNE_T_ rune_t;
#define _BSD_WCHAR_T_DEFINED_
#define _BSD_RUNE_T_DEFINED_ /* Darwin */
#if defined (__FreeBSD__) && (__FreeBSD__ < 5)
/* Why is this file so hard to maintain properly? In contrast to
the comment above regarding BSD/386 1.1, on FreeBSD for as long
as the symbol has existed, _BSD_RUNE_T_ must not stay defined or
redundant typedefs will occur when stdlib.h is included after this file. */
#undef _BSD_RUNE_T_
#endif
#endif
#endif
#endif
/* FreeBSD 5 can't be handled well using "traditional" logic above
since it no longer defines _BSD_RUNE_T_ yet still desires to export
rune_t in some cases... */
#if defined (__FreeBSD__) && (__FreeBSD__ >= 5)
#if !defined (_ANSI_SOURCE) && !defined (_POSIX_SOURCE)
#if __BSD_VISIBLE
#ifndef _RUNE_T_DECLARED
typedef __rune_t rune_t;
#define _RUNE_T_DECLARED
#endif
#endif
#endif
#endif
#ifndef __WCHAR_TYPE__
#define __WCHAR_TYPE__ int
#endif
#ifndef __cplusplus
typedef __WCHAR_TYPE__ wchar_t;
#endif
#endif
#endif
#endif
#endif
#endif
#endif
#endif /* _WCHAR_T_DECLARED */
#endif /* _BSD_RUNE_T_DEFINED_ */
#endif
#endif
#endif
#endif
#endif
#endif
#endif
#endif /* __WCHAR_T__ */
#endif /* __wchar_t__ */
#undef __need_wchar_t
#endif /* _STDDEF_H or __need_wchar_t. */
#if defined (__need_wint_t)
#ifndef _WINT_T
#define _WINT_T
#ifndef __WINT_TYPE__
#define __WINT_TYPE__ unsigned int
#endif
typedef __WINT_TYPE__ wint_t;
#endif
#undef __need_wint_t
#endif
/* In 4.3bsd-net2, leave these undefined to indicate that size_t, etc.
are already defined. */
/* BSD/OS 3.1 and FreeBSD [23].x require the MACHINE_ANSI_H check here. */
/* NetBSD 5 requires the I386_ANSI_H and X86_64_ANSI_H checks here. */
#if defined(_ANSI_H_) || defined(_MACHINE_ANSI_H_) || defined(_X86_64_ANSI_H_) || defined(_I386_ANSI_H_)
/* The references to _GCC_PTRDIFF_T_, _GCC_SIZE_T_, and _GCC_WCHAR_T_
are probably typos and should be removed before 2.8 is released. */
#ifdef _GCC_PTRDIFF_T_
#undef _PTRDIFF_T_
#undef _BSD_PTRDIFF_T_
#endif
#ifdef _GCC_SIZE_T_
#undef _SIZE_T_
#undef _BSD_SIZE_T_
#endif
#ifdef _GCC_WCHAR_T_
#undef _WCHAR_T_
#undef _BSD_WCHAR_T_
#endif
/* The following ones are the real ones. */
#ifdef _GCC_PTRDIFF_T
#undef _PTRDIFF_T_
#undef _BSD_PTRDIFF_T_
#endif
#ifdef _GCC_SIZE_T
#undef _SIZE_T_
#undef _BSD_SIZE_T_
#endif
#ifdef _GCC_WCHAR_T
#undef _WCHAR_T_
#undef _BSD_WCHAR_T_
#endif
#endif /* _ANSI_H_ || _MACHINE_ANSI_H_ || _X86_64_ANSI_H_ || _I386_ANSI_H_ */
#endif /* __sys_stdtypes_h */
/* A null pointer constant. */
#if defined (_STDDEF_H) || defined (__need_NULL)
#undef NULL /* in case <stdio.h> has defined it. */
#ifdef __GNUG__
#define NULL __null
#else /* G++ */
#ifndef __cplusplus
#define NULL ((void *)0)
#else /* C++ */
#define NULL 0
#endif /* C++ */
#endif /* G++ */
#endif /* NULL not defined and <stddef.h> or need NULL. */
#undef __need_NULL
#ifdef _STDDEF_H
/* Offset of member MEMBER in a struct of type TYPE. */
#define offsetof(TYPE, MEMBER) __builtin_offsetof (TYPE, MEMBER)
#if (defined (__STDC_VERSION__) && __STDC_VERSION__ >= 201112L) \
|| (defined(__cplusplus) && __cplusplus >= 201103L)
#ifndef _GCC_MAX_ALIGN_T
#define _GCC_MAX_ALIGN_T
/* Type whose alignment is supported in every context and is at least
as great as that of any standard type not using alignment
specifiers. */
typedef struct {
long long __max_align_ll __attribute__((__aligned__(__alignof__(long long))));
long double __max_align_ld __attribute__((__aligned__(__alignof__(long double))));
} max_align_t;
#endif
#endif /* C11 or C++11. */
#if defined(__cplusplus) && __cplusplus >= 201103L
#ifndef _GXX_NULLPTR_T
#define _GXX_NULLPTR_T
typedef decltype(nullptr) nullptr_t;
#endif
#endif /* C++11. */
#endif /* _STDDEF_H was defined this time */
#endif /* !_STDDEF_H && !_STDDEF_H_ && !_ANSI_STDDEF_H && !__STDDEF_H__
|| __need_XXX was not defined before */

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@ -0,0 +1,204 @@
/* Copyright (C) 2007-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* ISO/IEC JTC1 SC22 WG14 N1169
* Date: 2006-04-04
* ISO/IEC TR 18037
* Programming languages - C - Extensions to support embedded processors
*/
#ifndef _STDFIX_H
#define _STDFIX_H
/* 7.18a.1 Introduction. */
#undef fract
#undef accum
#undef sat
#define fract _Fract
#define accum _Accum
#define sat _Sat
/* 7.18a.3 Precision macros. */
#undef SFRACT_FBIT
#undef SFRACT_MIN
#undef SFRACT_MAX
#undef SFRACT_EPSILON
#define SFRACT_FBIT __SFRACT_FBIT__
#define SFRACT_MIN __SFRACT_MIN__
#define SFRACT_MAX __SFRACT_MAX__
#define SFRACT_EPSILON __SFRACT_EPSILON__
#undef USFRACT_FBIT
#undef USFRACT_MIN
#undef USFRACT_MAX
#undef USFRACT_EPSILON
#define USFRACT_FBIT __USFRACT_FBIT__
#define USFRACT_MIN __USFRACT_MIN__ /* GCC extension. */
#define USFRACT_MAX __USFRACT_MAX__
#define USFRACT_EPSILON __USFRACT_EPSILON__
#undef FRACT_FBIT
#undef FRACT_MIN
#undef FRACT_MAX
#undef FRACT_EPSILON
#define FRACT_FBIT __FRACT_FBIT__
#define FRACT_MIN __FRACT_MIN__
#define FRACT_MAX __FRACT_MAX__
#define FRACT_EPSILON __FRACT_EPSILON__
#undef UFRACT_FBIT
#undef UFRACT_MIN
#undef UFRACT_MAX
#undef UFRACT_EPSILON
#define UFRACT_FBIT __UFRACT_FBIT__
#define UFRACT_MIN __UFRACT_MIN__ /* GCC extension. */
#define UFRACT_MAX __UFRACT_MAX__
#define UFRACT_EPSILON __UFRACT_EPSILON__
#undef LFRACT_FBIT
#undef LFRACT_MIN
#undef LFRACT_MAX
#undef LFRACT_EPSILON
#define LFRACT_FBIT __LFRACT_FBIT__
#define LFRACT_MIN __LFRACT_MIN__
#define LFRACT_MAX __LFRACT_MAX__
#define LFRACT_EPSILON __LFRACT_EPSILON__
#undef ULFRACT_FBIT
#undef ULFRACT_MIN
#undef ULFRACT_MAX
#undef ULFRACT_EPSILON
#define ULFRACT_FBIT __ULFRACT_FBIT__
#define ULFRACT_MIN __ULFRACT_MIN__ /* GCC extension. */
#define ULFRACT_MAX __ULFRACT_MAX__
#define ULFRACT_EPSILON __ULFRACT_EPSILON__
#undef LLFRACT_FBIT
#undef LLFRACT_MIN
#undef LLFRACT_MAX
#undef LLFRACT_EPSILON
#define LLFRACT_FBIT __LLFRACT_FBIT__ /* GCC extension. */
#define LLFRACT_MIN __LLFRACT_MIN__ /* GCC extension. */
#define LLFRACT_MAX __LLFRACT_MAX__ /* GCC extension. */
#define LLFRACT_EPSILON __LLFRACT_EPSILON__ /* GCC extension. */
#undef ULLFRACT_FBIT
#undef ULLFRACT_MIN
#undef ULLFRACT_MAX
#undef ULLFRACT_EPSILON
#define ULLFRACT_FBIT __ULLFRACT_FBIT__ /* GCC extension. */
#define ULLFRACT_MIN __ULLFRACT_MIN__ /* GCC extension. */
#define ULLFRACT_MAX __ULLFRACT_MAX__ /* GCC extension. */
#define ULLFRACT_EPSILON __ULLFRACT_EPSILON__ /* GCC extension. */
#undef SACCUM_FBIT
#undef SACCUM_IBIT
#undef SACCUM_MIN
#undef SACCUM_MAX
#undef SACCUM_EPSILON
#define SACCUM_FBIT __SACCUM_FBIT__
#define SACCUM_IBIT __SACCUM_IBIT__
#define SACCUM_MIN __SACCUM_MIN__
#define SACCUM_MAX __SACCUM_MAX__
#define SACCUM_EPSILON __SACCUM_EPSILON__
#undef USACCUM_FBIT
#undef USACCUM_IBIT
#undef USACCUM_MIN
#undef USACCUM_MAX
#undef USACCUM_EPSILON
#define USACCUM_FBIT __USACCUM_FBIT__
#define USACCUM_IBIT __USACCUM_IBIT__
#define USACCUM_MIN __USACCUM_MIN__ /* GCC extension. */
#define USACCUM_MAX __USACCUM_MAX__
#define USACCUM_EPSILON __USACCUM_EPSILON__
#undef ACCUM_FBIT
#undef ACCUM_IBIT
#undef ACCUM_MIN
#undef ACCUM_MAX
#undef ACCUM_EPSILON
#define ACCUM_FBIT __ACCUM_FBIT__
#define ACCUM_IBIT __ACCUM_IBIT__
#define ACCUM_MIN __ACCUM_MIN__
#define ACCUM_MAX __ACCUM_MAX__
#define ACCUM_EPSILON __ACCUM_EPSILON__
#undef UACCUM_FBIT
#undef UACCUM_IBIT
#undef UACCUM_MIN
#undef UACCUM_MAX
#undef UACCUM_EPSILON
#define UACCUM_FBIT __UACCUM_FBIT__
#define UACCUM_IBIT __UACCUM_IBIT__
#define UACCUM_MIN __UACCUM_MIN__ /* GCC extension. */
#define UACCUM_MAX __UACCUM_MAX__
#define UACCUM_EPSILON __UACCUM_EPSILON__
#undef LACCUM_FBIT
#undef LACCUM_IBIT
#undef LACCUM_MIN
#undef LACCUM_MAX
#undef LACCUM_EPSILON
#define LACCUM_FBIT __LACCUM_FBIT__
#define LACCUM_IBIT __LACCUM_IBIT__
#define LACCUM_MIN __LACCUM_MIN__
#define LACCUM_MAX __LACCUM_MAX__
#define LACCUM_EPSILON __LACCUM_EPSILON__
#undef ULACCUM_FBIT
#undef ULACCUM_IBIT
#undef ULACCUM_MIN
#undef ULACCUM_MAX
#undef ULACCUM_EPSILON
#define ULACCUM_FBIT __ULACCUM_FBIT__
#define ULACCUM_IBIT __ULACCUM_IBIT__
#define ULACCUM_MIN __ULACCUM_MIN__ /* GCC extension. */
#define ULACCUM_MAX __ULACCUM_MAX__
#define ULACCUM_EPSILON __ULACCUM_EPSILON__
#undef LLACCUM_FBIT
#undef LLACCUM_IBIT
#undef LLACCUM_MIN
#undef LLACCUM_MAX
#undef LLACCUM_EPSILON
#define LLACCUM_FBIT __LLACCUM_FBIT__ /* GCC extension. */
#define LLACCUM_IBIT __LLACCUM_IBIT__ /* GCC extension. */
#define LLACCUM_MIN __LLACCUM_MIN__ /* GCC extension. */
#define LLACCUM_MAX __LLACCUM_MAX__ /* GCC extension. */
#define LLACCUM_EPSILON __LLACCUM_EPSILON__ /* GCC extension. */
#undef ULLACCUM_FBIT
#undef ULLACCUM_IBIT
#undef ULLACCUM_MIN
#undef ULLACCUM_MAX
#undef ULLACCUM_EPSILON
#define ULLACCUM_FBIT __ULLACCUM_FBIT__ /* GCC extension. */
#define ULLACCUM_IBIT __ULLACCUM_IBIT__ /* GCC extension. */
#define ULLACCUM_MIN __ULLACCUM_MIN__ /* GCC extension. */
#define ULLACCUM_MAX __ULLACCUM_MAX__ /* GCC extension. */
#define ULLACCUM_EPSILON __ULLACCUM_EPSILON__ /* GCC extension. */
#endif /* _STDFIX_H */

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@ -0,0 +1,263 @@
/* Copyright (C) 2008-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.18 Integer types <stdint.h>
*/
#ifndef _GCC_STDINT_H
#define _GCC_STDINT_H
/* 7.8.1.1 Exact-width integer types */
#ifdef __INT8_TYPE__
typedef __INT8_TYPE__ int8_t;
#endif
#ifdef __INT16_TYPE__
typedef __INT16_TYPE__ int16_t;
#endif
#ifdef __INT32_TYPE__
typedef __INT32_TYPE__ int32_t;
#endif
#ifdef __INT64_TYPE__
typedef __INT64_TYPE__ int64_t;
#endif
#ifdef __UINT8_TYPE__
typedef __UINT8_TYPE__ uint8_t;
#endif
#ifdef __UINT16_TYPE__
typedef __UINT16_TYPE__ uint16_t;
#endif
#ifdef __UINT32_TYPE__
typedef __UINT32_TYPE__ uint32_t;
#endif
#ifdef __UINT64_TYPE__
typedef __UINT64_TYPE__ uint64_t;
#endif
/* 7.8.1.2 Minimum-width integer types */
typedef __INT_LEAST8_TYPE__ int_least8_t;
typedef __INT_LEAST16_TYPE__ int_least16_t;
typedef __INT_LEAST32_TYPE__ int_least32_t;
typedef __INT_LEAST64_TYPE__ int_least64_t;
typedef __UINT_LEAST8_TYPE__ uint_least8_t;
typedef __UINT_LEAST16_TYPE__ uint_least16_t;
typedef __UINT_LEAST32_TYPE__ uint_least32_t;
typedef __UINT_LEAST64_TYPE__ uint_least64_t;
/* 7.8.1.3 Fastest minimum-width integer types */
typedef __INT_FAST8_TYPE__ int_fast8_t;
typedef __INT_FAST16_TYPE__ int_fast16_t;
typedef __INT_FAST32_TYPE__ int_fast32_t;
typedef __INT_FAST64_TYPE__ int_fast64_t;
typedef __UINT_FAST8_TYPE__ uint_fast8_t;
typedef __UINT_FAST16_TYPE__ uint_fast16_t;
typedef __UINT_FAST32_TYPE__ uint_fast32_t;
typedef __UINT_FAST64_TYPE__ uint_fast64_t;
/* 7.8.1.4 Integer types capable of holding object pointers */
#ifdef __INTPTR_TYPE__
typedef __INTPTR_TYPE__ intptr_t;
#endif
#ifdef __UINTPTR_TYPE__
typedef __UINTPTR_TYPE__ uintptr_t;
#endif
/* 7.8.1.5 Greatest-width integer types */
typedef __INTMAX_TYPE__ intmax_t;
typedef __UINTMAX_TYPE__ uintmax_t;
#if (!defined __cplusplus || __cplusplus >= 201103L \
|| defined __STDC_LIMIT_MACROS)
/* 7.18.2 Limits of specified-width integer types */
#ifdef __INT8_MAX__
# undef INT8_MAX
# define INT8_MAX __INT8_MAX__
# undef INT8_MIN
# define INT8_MIN (-INT8_MAX - 1)
#endif
#ifdef __UINT8_MAX__
# undef UINT8_MAX
# define UINT8_MAX __UINT8_MAX__
#endif
#ifdef __INT16_MAX__
# undef INT16_MAX
# define INT16_MAX __INT16_MAX__
# undef INT16_MIN
# define INT16_MIN (-INT16_MAX - 1)
#endif
#ifdef __UINT16_MAX__
# undef UINT16_MAX
# define UINT16_MAX __UINT16_MAX__
#endif
#ifdef __INT32_MAX__
# undef INT32_MAX
# define INT32_MAX __INT32_MAX__
# undef INT32_MIN
# define INT32_MIN (-INT32_MAX - 1)
#endif
#ifdef __UINT32_MAX__
# undef UINT32_MAX
# define UINT32_MAX __UINT32_MAX__
#endif
#ifdef __INT64_MAX__
# undef INT64_MAX
# define INT64_MAX __INT64_MAX__
# undef INT64_MIN
# define INT64_MIN (-INT64_MAX - 1)
#endif
#ifdef __UINT64_MAX__
# undef UINT64_MAX
# define UINT64_MAX __UINT64_MAX__
#endif
#undef INT_LEAST8_MAX
#define INT_LEAST8_MAX __INT_LEAST8_MAX__
#undef INT_LEAST8_MIN
#define INT_LEAST8_MIN (-INT_LEAST8_MAX - 1)
#undef UINT_LEAST8_MAX
#define UINT_LEAST8_MAX __UINT_LEAST8_MAX__
#undef INT_LEAST16_MAX
#define INT_LEAST16_MAX __INT_LEAST16_MAX__
#undef INT_LEAST16_MIN
#define INT_LEAST16_MIN (-INT_LEAST16_MAX - 1)
#undef UINT_LEAST16_MAX
#define UINT_LEAST16_MAX __UINT_LEAST16_MAX__
#undef INT_LEAST32_MAX
#define INT_LEAST32_MAX __INT_LEAST32_MAX__
#undef INT_LEAST32_MIN
#define INT_LEAST32_MIN (-INT_LEAST32_MAX - 1)
#undef UINT_LEAST32_MAX
#define UINT_LEAST32_MAX __UINT_LEAST32_MAX__
#undef INT_LEAST64_MAX
#define INT_LEAST64_MAX __INT_LEAST64_MAX__
#undef INT_LEAST64_MIN
#define INT_LEAST64_MIN (-INT_LEAST64_MAX - 1)
#undef UINT_LEAST64_MAX
#define UINT_LEAST64_MAX __UINT_LEAST64_MAX__
#undef INT_FAST8_MAX
#define INT_FAST8_MAX __INT_FAST8_MAX__
#undef INT_FAST8_MIN
#define INT_FAST8_MIN (-INT_FAST8_MAX - 1)
#undef UINT_FAST8_MAX
#define UINT_FAST8_MAX __UINT_FAST8_MAX__
#undef INT_FAST16_MAX
#define INT_FAST16_MAX __INT_FAST16_MAX__
#undef INT_FAST16_MIN
#define INT_FAST16_MIN (-INT_FAST16_MAX - 1)
#undef UINT_FAST16_MAX
#define UINT_FAST16_MAX __UINT_FAST16_MAX__
#undef INT_FAST32_MAX
#define INT_FAST32_MAX __INT_FAST32_MAX__
#undef INT_FAST32_MIN
#define INT_FAST32_MIN (-INT_FAST32_MAX - 1)
#undef UINT_FAST32_MAX
#define UINT_FAST32_MAX __UINT_FAST32_MAX__
#undef INT_FAST64_MAX
#define INT_FAST64_MAX __INT_FAST64_MAX__
#undef INT_FAST64_MIN
#define INT_FAST64_MIN (-INT_FAST64_MAX - 1)
#undef UINT_FAST64_MAX
#define UINT_FAST64_MAX __UINT_FAST64_MAX__
#ifdef __INTPTR_MAX__
# undef INTPTR_MAX
# define INTPTR_MAX __INTPTR_MAX__
# undef INTPTR_MIN
# define INTPTR_MIN (-INTPTR_MAX - 1)
#endif
#ifdef __UINTPTR_MAX__
# undef UINTPTR_MAX
# define UINTPTR_MAX __UINTPTR_MAX__
#endif
#undef INTMAX_MAX
#define INTMAX_MAX __INTMAX_MAX__
#undef INTMAX_MIN
#define INTMAX_MIN (-INTMAX_MAX - 1)
#undef UINTMAX_MAX
#define UINTMAX_MAX __UINTMAX_MAX__
/* 7.18.3 Limits of other integer types */
#undef PTRDIFF_MAX
#define PTRDIFF_MAX __PTRDIFF_MAX__
#undef PTRDIFF_MIN
#define PTRDIFF_MIN (-PTRDIFF_MAX - 1)
#undef SIG_ATOMIC_MAX
#define SIG_ATOMIC_MAX __SIG_ATOMIC_MAX__
#undef SIG_ATOMIC_MIN
#define SIG_ATOMIC_MIN __SIG_ATOMIC_MIN__
#undef SIZE_MAX
#define SIZE_MAX __SIZE_MAX__
#undef WCHAR_MAX
#define WCHAR_MAX __WCHAR_MAX__
#undef WCHAR_MIN
#define WCHAR_MIN __WCHAR_MIN__
#undef WINT_MAX
#define WINT_MAX __WINT_MAX__
#undef WINT_MIN
#define WINT_MIN __WINT_MIN__
#endif /* (!defined __cplusplus || __cplusplus >= 201103L
|| defined __STDC_LIMIT_MACROS) */
#if (!defined __cplusplus || __cplusplus >= 201103L \
|| defined __STDC_CONSTANT_MACROS)
#undef INT8_C
#define INT8_C(c) __INT8_C(c)
#undef INT16_C
#define INT16_C(c) __INT16_C(c)
#undef INT32_C
#define INT32_C(c) __INT32_C(c)
#undef INT64_C
#define INT64_C(c) __INT64_C(c)
#undef UINT8_C
#define UINT8_C(c) __UINT8_C(c)
#undef UINT16_C
#define UINT16_C(c) __UINT16_C(c)
#undef UINT32_C
#define UINT32_C(c) __UINT32_C(c)
#undef UINT64_C
#define UINT64_C(c) __UINT64_C(c)
#undef INTMAX_C
#define INTMAX_C(c) __INTMAX_C(c)
#undef UINTMAX_C
#define UINTMAX_C(c) __UINTMAX_C(c)
#endif /* (!defined __cplusplus || __cplusplus >= 201103L
|| defined __STDC_CONSTANT_MACROS) */
#endif /* _GCC_STDINT_H */

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@ -0,0 +1,14 @@
#ifndef _GCC_WRAP_STDINT_H
#if __STDC_HOSTED__
# if defined __cplusplus && __cplusplus >= 201103L
# undef __STDC_LIMIT_MACROS
# define __STDC_LIMIT_MACROS
# undef __STDC_CONSTANT_MACROS
# define __STDC_CONSTANT_MACROS
# endif
# include_next <stdint.h>
#else
# include "stdint-gcc.h"
#endif
#define _GCC_WRAP_STDINT_H
#endif

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@ -0,0 +1,35 @@
/* Copyright (C) 2011-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* ISO C1X: 7.23 _Noreturn <stdnoreturn.h>. */
#ifndef _STDNORETURN_H
#define _STDNORETURN_H
#ifndef __cplusplus
#define noreturn _Noreturn
#endif
#endif /* stdnoreturn.h */

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@ -0,0 +1,171 @@
/* Copyright (C) 2004-2013 Free Software Foundation, Inc.
Contributed by Apple, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/*
* ISO C Standard: 7.22 Type-generic math <tgmath.h>
*/
#ifndef _TGMATH_H
#define _TGMATH_H
#include <math.h>
#ifndef __cplusplus
#include <complex.h>
/* Naming convention: generic macros are defining using
__TGMATH_CPLX*, __TGMATH_REAL*, and __TGMATH_CPLX_ONLY. _CPLX
means the generic argument(s) may be real or complex, _REAL means
real only, _CPLX means complex only. If there is no suffix, we are
defining a function of one generic argument. If the suffix is _n
it is a function of n generic arguments. If the suffix is _m_n it
is a function of n arguments, the first m of which are generic. We
only define these macros for values of n and/or m that are needed. */
/* The general rules for generic macros are given in 7.22 paragraphs 1 and 2.
If any generic parameter is complex, we use a complex version. Otherwise
we use a real version. If the real part of any generic parameter is long
double, we use the long double version. Otherwise if the real part of any
generic parameter is double or of integer type, we use the double version.
Otherwise we use the float version. */
#define __tg_cplx(expr) \
__builtin_classify_type(expr) == 9
#define __tg_ldbl(expr) \
__builtin_types_compatible_p(__typeof__(expr), long double)
#define __tg_dbl(expr) \
(__builtin_types_compatible_p(__typeof__(expr), double) \
|| __builtin_classify_type(expr) == 1)
#define __tg_choose(x,f,d,l) \
__builtin_choose_expr(__tg_ldbl(x), l, \
__builtin_choose_expr(__tg_dbl(x), d, \
f))
#define __tg_choose_2(x,y,f,d,l) \
__builtin_choose_expr(__tg_ldbl(x) || __tg_ldbl(y), l, \
__builtin_choose_expr(__tg_dbl(x) || __tg_dbl(y), d, \
f))
#define __tg_choose_3(x,y,z,f,d,l) \
__builtin_choose_expr(__tg_ldbl(x) || __tg_ldbl(y) || __tg_ldbl(z), l, \
__builtin_choose_expr(__tg_dbl(x) || __tg_dbl(y) \
|| __tg_dbl(z), d, \
f))
#define __TGMATH_CPLX(z,R,C) \
__builtin_choose_expr (__tg_cplx(z), \
__tg_choose (__real__(z), C##f(z), (C)(z), C##l(z)), \
__tg_choose (z, R##f(z), (R)(z), R##l(z)))
#define __TGMATH_CPLX_2(z1,z2,R,C) \
__builtin_choose_expr (__tg_cplx(z1) || __tg_cplx(z2), \
__tg_choose_2 (__real__(z1), __real__(z2), \
C##f(z1,z2), (C)(z1,z2), C##l(z1,z2)), \
__tg_choose_2 (z1, z2, \
R##f(z1,z2), (R)(z1,z2), R##l(z1,z2)))
#define __TGMATH_REAL(x,R) \
__tg_choose (x, R##f(x), (R)(x), R##l(x))
#define __TGMATH_REAL_2(x,y,R) \
__tg_choose_2 (x, y, R##f(x,y), (R)(x,y), R##l(x,y))
#define __TGMATH_REAL_3(x,y,z,R) \
__tg_choose_3 (x, y, z, R##f(x,y,z), (R)(x,y,z), R##l(x,y,z))
#define __TGMATH_REAL_1_2(x,y,R) \
__tg_choose (x, R##f(x,y), (R)(x,y), R##l(x,y))
#define __TGMATH_REAL_2_3(x,y,z,R) \
__tg_choose_2 (x, y, R##f(x,y,z), (R)(x,y,z), R##l(x,y,z))
#define __TGMATH_CPLX_ONLY(z,C) \
__tg_choose (__real__(z), C##f(z), (C)(z), C##l(z))
/* Functions defined in both <math.h> and <complex.h> (7.22p4) */
#define acos(z) __TGMATH_CPLX(z, acos, cacos)
#define asin(z) __TGMATH_CPLX(z, asin, casin)
#define atan(z) __TGMATH_CPLX(z, atan, catan)
#define acosh(z) __TGMATH_CPLX(z, acosh, cacosh)
#define asinh(z) __TGMATH_CPLX(z, asinh, casinh)
#define atanh(z) __TGMATH_CPLX(z, atanh, catanh)
#define cos(z) __TGMATH_CPLX(z, cos, ccos)
#define sin(z) __TGMATH_CPLX(z, sin, csin)
#define tan(z) __TGMATH_CPLX(z, tan, ctan)
#define cosh(z) __TGMATH_CPLX(z, cosh, ccosh)
#define sinh(z) __TGMATH_CPLX(z, sinh, csinh)
#define tanh(z) __TGMATH_CPLX(z, tanh, ctanh)
#define exp(z) __TGMATH_CPLX(z, exp, cexp)
#define log(z) __TGMATH_CPLX(z, log, clog)
#define pow(z1,z2) __TGMATH_CPLX_2(z1, z2, pow, cpow)
#define sqrt(z) __TGMATH_CPLX(z, sqrt, csqrt)
#define fabs(z) __TGMATH_CPLX(z, fabs, cabs)
/* Functions defined in <math.h> only (7.22p5) */
#define atan2(x,y) __TGMATH_REAL_2(x, y, atan2)
#define cbrt(x) __TGMATH_REAL(x, cbrt)
#define ceil(x) __TGMATH_REAL(x, ceil)
#define copysign(x,y) __TGMATH_REAL_2(x, y, copysign)
#define erf(x) __TGMATH_REAL(x, erf)
#define erfc(x) __TGMATH_REAL(x, erfc)
#define exp2(x) __TGMATH_REAL(x, exp2)
#define expm1(x) __TGMATH_REAL(x, expm1)
#define fdim(x,y) __TGMATH_REAL_2(x, y, fdim)
#define floor(x) __TGMATH_REAL(x, floor)
#define fma(x,y,z) __TGMATH_REAL_3(x, y, z, fma)
#define fmax(x,y) __TGMATH_REAL_2(x, y, fmax)
#define fmin(x,y) __TGMATH_REAL_2(x, y, fmin)
#define fmod(x,y) __TGMATH_REAL_2(x, y, fmod)
#define frexp(x,y) __TGMATH_REAL_1_2(x, y, frexp)
#define hypot(x,y) __TGMATH_REAL_2(x, y, hypot)
#define ilogb(x) __TGMATH_REAL(x, ilogb)
#define ldexp(x,y) __TGMATH_REAL_1_2(x, y, ldexp)
#define lgamma(x) __TGMATH_REAL(x, lgamma)
#define llrint(x) __TGMATH_REAL(x, llrint)
#define llround(x) __TGMATH_REAL(x, llround)
#define log10(x) __TGMATH_REAL(x, log10)
#define log1p(x) __TGMATH_REAL(x, log1p)
#define log2(x) __TGMATH_REAL(x, log2)
#define logb(x) __TGMATH_REAL(x, logb)
#define lrint(x) __TGMATH_REAL(x, lrint)
#define lround(x) __TGMATH_REAL(x, lround)
#define nearbyint(x) __TGMATH_REAL(x, nearbyint)
#define nextafter(x,y) __TGMATH_REAL_2(x, y, nextafter)
#define nexttoward(x,y) __TGMATH_REAL_1_2(x, y, nexttoward)
#define remainder(x,y) __TGMATH_REAL_2(x, y, remainder)
#define remquo(x,y,z) __TGMATH_REAL_2_3(x, y, z, remquo)
#define rint(x) __TGMATH_REAL(x, rint)
#define round(x) __TGMATH_REAL(x, round)
#define scalbn(x,y) __TGMATH_REAL_1_2(x, y, scalbn)
#define scalbln(x,y) __TGMATH_REAL_1_2(x, y, scalbln)
#define tgamma(x) __TGMATH_REAL(x, tgamma)
#define trunc(x) __TGMATH_REAL(x, trunc)
/* Functions defined in <complex.h> only (7.22p6) */
#define carg(z) __TGMATH_CPLX_ONLY(z, carg)
#define cimag(z) __TGMATH_CPLX_ONLY(z, cimag)
#define conj(z) __TGMATH_CPLX_ONLY(z, conj)
#define cproj(z) __TGMATH_CPLX_ONLY(z, cproj)
#define creal(z) __TGMATH_CPLX_ONLY(z, creal)
#endif /* __cplusplus */
#endif /* _TGMATH_H */

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@ -0,0 +1,250 @@
/* Header file for the ARM EABI and C6X unwinders
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Contributed by Paul Brook
This file is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
This file is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* Language-independent unwinder header public defines. This contains both
ABI defined objects, and GNU support routines. */
#ifndef UNWIND_ARM_COMMON_H
#define UNWIND_ARM_COMMON_H
#define __ARM_EABI_UNWINDER__ 1
#ifdef __cplusplus
extern "C" {
#endif
typedef unsigned _Unwind_Word __attribute__((__mode__(__word__)));
typedef signed _Unwind_Sword __attribute__((__mode__(__word__)));
typedef unsigned _Unwind_Ptr __attribute__((__mode__(__pointer__)));
typedef unsigned _Unwind_Internal_Ptr __attribute__((__mode__(__pointer__)));
typedef _Unwind_Word _uw;
typedef unsigned _uw64 __attribute__((mode(__DI__)));
typedef unsigned _uw16 __attribute__((mode(__HI__)));
typedef unsigned _uw8 __attribute__((mode(__QI__)));
typedef enum
{
_URC_OK = 0, /* operation completed successfully */
_URC_FOREIGN_EXCEPTION_CAUGHT = 1,
_URC_END_OF_STACK = 5,
_URC_HANDLER_FOUND = 6,
_URC_INSTALL_CONTEXT = 7,
_URC_CONTINUE_UNWIND = 8,
_URC_FAILURE = 9 /* unspecified failure of some kind */
}
_Unwind_Reason_Code;
typedef enum
{
_US_VIRTUAL_UNWIND_FRAME = 0,
_US_UNWIND_FRAME_STARTING = 1,
_US_UNWIND_FRAME_RESUME = 2,
_US_ACTION_MASK = 3,
_US_FORCE_UNWIND = 8,
_US_END_OF_STACK = 16
}
_Unwind_State;
/* Provided only for compatibility with existing code. */
typedef int _Unwind_Action;
#define _UA_SEARCH_PHASE 1
#define _UA_CLEANUP_PHASE 2
#define _UA_HANDLER_FRAME 4
#define _UA_FORCE_UNWIND 8
#define _UA_END_OF_STACK 16
#define _URC_NO_REASON _URC_OK
typedef struct _Unwind_Control_Block _Unwind_Control_Block;
typedef struct _Unwind_Context _Unwind_Context;
typedef _uw _Unwind_EHT_Header;
/* UCB: */
struct _Unwind_Control_Block
{
char exception_class[8];
void (*exception_cleanup)(_Unwind_Reason_Code, _Unwind_Control_Block *);
/* Unwinder cache, private fields for the unwinder's use */
struct
{
_uw reserved1; /* Forced unwind stop fn, 0 if not forced */
_uw reserved2; /* Personality routine address */
_uw reserved3; /* Saved callsite address */
_uw reserved4; /* Forced unwind stop arg */
_uw reserved5;
}
unwinder_cache;
/* Propagation barrier cache (valid after phase 1): */
struct
{
_uw sp;
_uw bitpattern[5];
}
barrier_cache;
/* Cleanup cache (preserved over cleanup): */
struct
{
_uw bitpattern[4];
}
cleanup_cache;
/* Pr cache (for pr's benefit): */
struct
{
_uw fnstart; /* function start address */
_Unwind_EHT_Header *ehtp; /* pointer to EHT entry header word */
_uw additional; /* additional data */
_uw reserved1;
}
pr_cache;
long long int :0; /* Force alignment to 8-byte boundary */
};
/* Virtual Register Set*/
typedef enum
{
_UVRSC_CORE = 0, /* integer register */
_UVRSC_VFP = 1, /* vfp */
_UVRSC_FPA = 2, /* fpa */
_UVRSC_WMMXD = 3, /* Intel WMMX data register */
_UVRSC_WMMXC = 4 /* Intel WMMX control register */
}
_Unwind_VRS_RegClass;
typedef enum
{
_UVRSD_UINT32 = 0,
_UVRSD_VFPX = 1,
_UVRSD_FPAX = 2,
_UVRSD_UINT64 = 3,
_UVRSD_FLOAT = 4,
_UVRSD_DOUBLE = 5
}
_Unwind_VRS_DataRepresentation;
typedef enum
{
_UVRSR_OK = 0,
_UVRSR_NOT_IMPLEMENTED = 1,
_UVRSR_FAILED = 2
}
_Unwind_VRS_Result;
/* Frame unwinding state. */
typedef struct
{
/* The current word (bytes packed msb first). */
_uw data;
/* Pointer to the next word of data. */
_uw *next;
/* The number of bytes left in this word. */
_uw8 bytes_left;
/* The number of words pointed to by ptr. */
_uw8 words_left;
}
__gnu_unwind_state;
typedef _Unwind_Reason_Code (*personality_routine) (_Unwind_State,
_Unwind_Control_Block *, _Unwind_Context *);
_Unwind_VRS_Result _Unwind_VRS_Set(_Unwind_Context *, _Unwind_VRS_RegClass,
_uw, _Unwind_VRS_DataRepresentation,
void *);
_Unwind_VRS_Result _Unwind_VRS_Get(_Unwind_Context *, _Unwind_VRS_RegClass,
_uw, _Unwind_VRS_DataRepresentation,
void *);
_Unwind_VRS_Result _Unwind_VRS_Pop(_Unwind_Context *, _Unwind_VRS_RegClass,
_uw, _Unwind_VRS_DataRepresentation);
/* Support functions for the PR. */
#define _Unwind_Exception _Unwind_Control_Block
typedef char _Unwind_Exception_Class[8];
void * _Unwind_GetLanguageSpecificData (_Unwind_Context *);
_Unwind_Ptr _Unwind_GetRegionStart (_Unwind_Context *);
_Unwind_Ptr _Unwind_GetDataRelBase (_Unwind_Context *);
/* This should never be used. */
_Unwind_Ptr _Unwind_GetTextRelBase (_Unwind_Context *);
/* Interface functions: */
_Unwind_Reason_Code _Unwind_RaiseException(_Unwind_Control_Block *ucbp);
void __attribute__((noreturn)) _Unwind_Resume(_Unwind_Control_Block *ucbp);
_Unwind_Reason_Code _Unwind_Resume_or_Rethrow (_Unwind_Control_Block *ucbp);
typedef _Unwind_Reason_Code (*_Unwind_Stop_Fn)
(int, _Unwind_Action, _Unwind_Exception_Class,
_Unwind_Control_Block *, struct _Unwind_Context *, void *);
_Unwind_Reason_Code _Unwind_ForcedUnwind (_Unwind_Control_Block *,
_Unwind_Stop_Fn, void *);
/* @@@ Use unwind data to perform a stack backtrace. The trace callback
is called for every stack frame in the call chain, but no cleanup
actions are performed. */
typedef _Unwind_Reason_Code (*_Unwind_Trace_Fn) (_Unwind_Context *, void *);
_Unwind_Reason_Code _Unwind_Backtrace(_Unwind_Trace_Fn,
void*);
_Unwind_Word _Unwind_GetCFA (struct _Unwind_Context *);
void _Unwind_Complete(_Unwind_Control_Block *ucbp);
void _Unwind_DeleteException (_Unwind_Exception *);
_Unwind_Reason_Code __gnu_unwind_frame (_Unwind_Control_Block *,
_Unwind_Context *);
_Unwind_Reason_Code __gnu_unwind_execute (_Unwind_Context *,
__gnu_unwind_state *);
static inline _Unwind_Word
_Unwind_GetGR (_Unwind_Context *context, int regno)
{
_uw val;
_Unwind_VRS_Get (context, _UVRSC_CORE, regno, _UVRSD_UINT32, &val);
return val;
}
#define _Unwind_GetIPInfo(context, ip_before_insn) \
(*ip_before_insn = 0, _Unwind_GetIP (context))
static inline void
_Unwind_SetGR (_Unwind_Context *context, int regno, _Unwind_Word val)
{
_Unwind_VRS_Set (context, _UVRSC_CORE, regno, _UVRSD_UINT32, &val);
}
_Unwind_Ptr _Unwind_GetRegionStart (_Unwind_Context *);
void * _Unwind_GetLanguageSpecificData (_Unwind_Context *);
/* leb128 type numbers have a potentially unlimited size.
The target of the following definitions of _sleb128_t and _uleb128_t
is to have efficient data types large enough to hold the leb128 type
numbers used in the unwind code. */
typedef long _sleb128_t;
typedef unsigned long _uleb128_t;
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* defined UNWIND_ARM_COMMON_H */

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@ -0,0 +1,85 @@
/* Header file for the ARM EABI unwinder
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Contributed by Paul Brook
This file is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
This file is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* Language-independent unwinder header public defines. This contains both
ABI defined objects, and GNU support routines. */
#ifndef UNWIND_ARM_H
#define UNWIND_ARM_H
#include "unwind-arm-common.h"
#define UNWIND_STACK_REG 13
/* Use IP as a scratch register within the personality routine. */
#define UNWIND_POINTER_REG 12
#ifdef __cplusplus
extern "C" {
#endif
/* Decode an R_ARM_TARGET2 relocation. */
static inline _Unwind_Word
_Unwind_decode_typeinfo_ptr (_Unwind_Word base __attribute__ ((unused)),
_Unwind_Word ptr)
{
_Unwind_Word tmp;
tmp = *(_Unwind_Word *) ptr;
/* Zero values are always NULL. */
if (!tmp)
return 0;
#if (defined(linux) && !defined(__uClinux__)) || defined(__NetBSD__)
/* Pc-relative indirect. */
#define _GLIBCXX_OVERRIDE_TTYPE_ENCODING (DW_EH_PE_pcrel | DW_EH_PE_indirect)
tmp += ptr;
tmp = *(_Unwind_Word *) tmp;
#elif defined(__symbian__) || defined(__uClinux__)
#define _GLIBCXX_OVERRIDE_TTYPE_ENCODING (DW_EH_PE_absptr)
/* Absolute pointer. Nothing more to do. */
#else
#define _GLIBCXX_OVERRIDE_TTYPE_ENCODING (DW_EH_PE_pcrel)
/* Pc-relative pointer. */
tmp += ptr;
#endif
return tmp;
}
static inline _Unwind_Reason_Code
__gnu_unwind_24bit (_Unwind_Context * context __attribute__ ((unused)),
_uw data __attribute__ ((unused)),
int compact __attribute__ ((unused)))
{
return _URC_FAILURE;
}
/* Return the address of the instruction, not the actual IP value. */
#define _Unwind_GetIP(context) \
(_Unwind_GetGR (context, 15) & ~(_Unwind_Word)1)
#define _Unwind_SetIP(context, val) \
_Unwind_SetGR (context, 15, val | (_Unwind_GetGR (context, 15) & 1))
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* defined UNWIND_ARM_H */

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@ -0,0 +1,7 @@
#ifndef _VARARGS_H
#define _VARARGS_H
#error "GCC no longer implements <varargs.h>."
#error "Revise your code to use <stdarg.h>."
#endif

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@ -0,0 +1,514 @@
#!/bin/sh
#
# Install modified versions of certain ANSI-incompatible system header
# files which are fixed to work correctly with ANSI C and placed in a
# directory that GCC will search.
#
# See README-fixinc for more information.
#
# fixincludes copyright (c) 1998, 1999, 2000, 2002, 2009
# The Free Software Foundation, Inc.
#
# fixincludes is free software.
#
# You may redistribute it and/or modify it under the terms of the
# GNU General Public License, as published by the Free Software
# Foundation; either version 3, or (at your option) any later version.
#
# fixincludes is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with fixincludes; see the file COPYING3. If not see
# <http://www.gnu.org/licenses/>.
#
# # # # # # # # # # # # # # # # # # # # #
# Usage: fixinc.sh output-dir input-dir
#
# Directory in which to store the results.
# Fail if no arg to specify a directory for the output.
if [ "x$1" = "x" ]
then
echo fixincludes: no output directory specified
exit 1
fi
LIB=${1}
shift
# Make sure it exists.
if [ ! -d $LIB ]; then
mkdir $LIB || {
echo fixincludes: output dir '`'$LIB"' cannot be created"
exit 1
}
else
( cd $LIB && touch DONE && rm DONE ) || {
echo fixincludes: output dir '`'$LIB"' is an invalid directory"
exit 1
}
fi
if test -z "$VERBOSE"
then
VERBOSE=2
export VERBOSE
else
case "$VERBOSE" in
[0-9] ) : ;;
* ) VERBOSE=3 ;;
esac
fi
# Define what target system we're fixing.
#
if test -r ./Makefile; then
target_canonical="`sed -n -e 's,^target[ ]*=[ ]*\(.*\)$,\1,p' < Makefile`"
fi
# If not from the Makefile, then try config.guess
#
if test -z "${target_canonical}" ; then
if test -x ./config.guess ; then
target_canonical="`config.guess`" ; fi
test -z "${target_canonical}" && target_canonical=unknown
fi
export target_canonical
# # # # # # # # # # # # # # # # # # # # #
#
# Define PWDCMD as a command to use to get the working dir
# in the form that we want.
PWDCMD=${PWDCMD-pwd}
case "`$PWDCMD`" in
//*)
# On an Apollo, discard everything before `/usr'.
PWDCMD="eval pwd | sed -e 's,.*/usr/,/usr/,'"
;;
esac
# Original directory.
ORIGDIR=`${PWDCMD}`
export ORIGDIR
FIXINCL=`${PWDCMD}`/fixincl
if [ ! -x $FIXINCL ] ; then
echo "Cannot find fixincl" >&2
exit 1
fi
export FIXINCL
# Make LIB absolute only if needed to avoid problems with the amd.
case $LIB in
/*)
;;
*)
cd $LIB; LIB=`${PWDCMD}`
;;
esac
if test $VERBOSE -gt 0
then echo Fixing headers into ${LIB} for ${target_canonical} target ; fi
# Determine whether this system has symbolic links.
if test -n "$DJDIR"; then
LINKS=false
elif ln -s X $LIB/ShouldNotExist 2>/dev/null; then
rm -f $LIB/ShouldNotExist
LINKS=true
elif ln -s X /tmp/ShouldNotExist 2>/dev/null; then
rm -f /tmp/ShouldNotExist
LINKS=true
else
LINKS=false
fi
# # # # # # # # # # # # # # # # # # # # #
#
# Check to see if the machine_name fix needs to be disabled.
#
# On some platforms, machine_name doesn't work properly and
# breaks some of the header files. Since everything works
# properly without it, just wipe the macro list to
# disable the fix.
case "${target_canonical}" in
*-*-vxworks*)
test -f ${MACRO_LIST} && echo > ${MACRO_LIST}
;;
esac
# # # # # # # # # # # # # # # # # # # # #
#
# In the file macro_list are listed all the predefined
# macros that are not in the C89 reserved namespace (the reserved
# namespace is all identifiers beginnning with two underscores or one
# underscore followed by a capital letter). A regular expression to find
# any of those macros in a header file is written to MN_NAME_PAT.
#
# Note dependency on ASCII. \012 = newline.
# tr ' ' '\n' is, alas, not portable.
if test -s ${MACRO_LIST}
then
if test $VERBOSE -gt 0; then
echo "Forbidden identifiers: `tr '\012' ' ' < ${MACRO_LIST}`"
fi
MN_NAME_PAT="`sed 's/^/\\\\</; s/$/\\\\>/; $!s/$/|/' \
< ${MACRO_LIST} | tr -d '\012'`"
export MN_NAME_PAT
else
if test $VERBOSE -gt 0
then echo "No forbidden identifiers defined by this target" ; fi
fi
# # # # # # # # # # # # # # # # # # # # #
#
# Search each input directory for broken header files.
# This loop ends near the end of the file.
#
if test $# -eq 0
then
INPUTLIST="/usr/include"
else
INPUTLIST="$@"
fi
for INPUT in ${INPUTLIST} ; do
cd ${ORIGDIR}
# Make sure a directory exists before changing into it,
# otherwise Solaris2 will fail-exit the script.
#
if [ ! -d ${INPUT} ]; then
continue
fi
cd ${INPUT}
INPUT=`${PWDCMD}`
export INPUT
#
# # # # # # # # # # # # # # # # # # # # #
#
if test $VERBOSE -gt 1
then echo Finding directories and links to directories ; fi
# Find all directories and all symlinks that point to directories.
# Put the list in $all_dirs.
# Each time we find a symlink, add it to newdirs
# so that we do another find within the dir the link points to.
# Note that $all_dirs may have duplicates in it;
# later parts of this file are supposed to ignore them.
dirs="."
levels=2
all_dirs=""
search_dirs=""
while [ -n "$dirs" ] && [ $levels -gt 0 ]
do
levels=`expr $levels - 1`
newdirs=
for d in $dirs
do
if test $VERBOSE -gt 1
then echo " Searching $INPUT/$d" ; fi
# Find all directories under $d, relative to $d, excluding $d itself.
# (The /. is needed after $d in case $d is a symlink.)
all_dirs="$all_dirs `find $d/. -type d -print | \
sed -e '/\/\.$/d' -e 's@/./@/@g'`"
# Find all links to directories.
# Using `-exec test -d' in find fails on some systems,
# and trying to run test via sh fails on others,
# so this is the simplest alternative left.
# First find all the links, then test each one.
theselinks=
$LINKS && \
theselinks=`find $d/. -type l -print | sed -e 's@/./@/@g'`
for d1 in $theselinks --dummy--
do
# If the link points to a directory,
# add that dir to $newdirs
if [ -d $d1 ]
then
all_dirs="$all_dirs $d1"
if [ "`ls -ld $d1 | sed -n 's/.*-> //p'`" != "." ]
then
newdirs="$newdirs $d1"
search_dirs="$search_dirs $d1"
fi
fi
done
done
dirs="$newdirs"
done
# # # # # # # # # # # # # # # # # # # # #
#
dirs=
if test $VERBOSE -gt 2
then echo "All directories (including links to directories):"
echo $all_dirs
fi
for file in $all_dirs; do
rm -rf $LIB/$file
if [ ! -d $LIB/$file ]
then mkdir $LIB/$file
fi
done
mkdir $LIB/root
# # # # # # # # # # # # # # # # # # # # #
#
# treetops gets an alternating list
# of old directories to copy
# and the new directories to copy to.
treetops=". ${LIB}"
if $LINKS; then
if test $VERBOSE -gt 1
then echo 'Making symbolic directory links' ; fi
cwd=`${PWDCMD}`
for sym_link in $search_dirs; do
cd ${INPUT}
dest=`ls -ld ${sym_link} | sed -n 's/.*-> //p'`
# In case $dest is relative, get to ${sym_link}'s dir first.
#
cd ./`echo ${sym_link} | sed 's;/[^/]*$;;'`
# Check that the target directory exists.
# Redirections changed to avoid bug in sh on Ultrix.
#
(cd $dest) > /dev/null 2>&1
if [ $? = 0 ]; then
cd $dest
# full_dest_dir gets the dir that the link actually leads to.
#
full_dest_dir=`${PWDCMD}`
# Canonicalize ${INPUT} now to minimize the time an
# automounter has to change the result of ${PWDCMD}.
#
cinput=`cd ${INPUT}; ${PWDCMD}`
# If a link points to ., make a similar link to .
#
if [ ${full_dest_dir} = ${cinput} ]; then
if test $VERBOSE -gt 2
then echo ${sym_link} '->' . ': Making self link' ; fi
rm -fr ${LIB}/${sym_link} > /dev/null 2>&1
ln -s . ${LIB}/${sym_link} > /dev/null 2>&1
# If link leads back into ${INPUT},
# make a similar link here.
#
elif expr ${full_dest_dir} : "${cinput}/.*" > /dev/null; then
# Y gets the actual target dir name, relative to ${INPUT}.
y=`echo ${full_dest_dir} | sed -n "s&${cinput}/&&p"`
# DOTS is the relative path from ${LIB}/${sym_link} back to ${LIB}.
dots=`echo "${sym_link}" |
sed -e 's@^./@@' -e 's@/./@/@g' -e 's@[^/][^/]*@..@g' -e 's@..$@@'`
if test $VERBOSE -gt 2
then echo ${sym_link} '->' $dots$y ': Making local link' ; fi
rm -fr ${LIB}/${sym_link} > /dev/null 2>&1
ln -s $dots$y ${LIB}/${sym_link} > /dev/null 2>&1
else
# If the link is to a dir $target outside ${INPUT},
# repoint the link at ${INPUT}/root$target
# and process $target into ${INPUT}/root$target
# treat this directory as if it actually contained the files.
#
if test $VERBOSE -gt 2
then echo ${sym_link} '->' root${full_dest_dir} ': Making rooted link'
fi
if [ -d $LIB/root${full_dest_dir} ]
then true
else
dirname=root${full_dest_dir}/
dirmade=.
cd $LIB
while [ x$dirname != x ]; do
component=`echo $dirname | sed -e 's|/.*$||'`
mkdir $component >/dev/null 2>&1
cd $component
dirmade=$dirmade/$component
dirname=`echo $dirname | sed -e 's|[^/]*/||'`
done
fi
# Duplicate directory structure created in ${LIB}/${sym_link} in new
# root area.
#
for file2 in $all_dirs; do
case $file2 in
${sym_link}/*)
dupdir=${LIB}/root${full_dest_dir}/`echo $file2 |
sed -n "s|^${sym_link}/||p"`
if test $VERBOSE -gt 2
then echo "Duplicating ${sym_link}'s ${dupdir}" ; fi
if [ -d ${dupdir} ]
then true
else
mkdir ${dupdir}
fi
;;
*)
;;
esac
done
# Get the path from ${LIB} to ${sym_link}, accounting for symlinks.
#
parent=`echo "${sym_link}" | sed -e 's@/[^/]*$@@'`
libabs=`cd ${LIB}; ${PWDCMD}`
file2=`cd ${LIB}; cd $parent; ${PWDCMD} | sed -e "s@^${libabs}@@"`
# DOTS is the relative path from ${LIB}/${sym_link} back to ${LIB}.
#
dots=`echo "$file2" | sed -e 's@/[^/]*@../@g'`
rm -fr ${LIB}/${sym_link} > /dev/null 2>&1
ln -s ${dots}root${full_dest_dir} ${LIB}/${sym_link} > /dev/null 2>&1
treetops="$treetops ${sym_link} ${LIB}/root${full_dest_dir}"
fi
fi
done
fi
# # # # # # # # # # # # # # # # # # # # #
#
required=
set x $treetops
shift
while [ $# != 0 ]; do
# $1 is an old directory to copy, and $2 is the new directory to copy to.
#
SRCDIR=`cd ${INPUT} ; cd $1 ; ${PWDCMD}`
export SRCDIR
FIND_BASE=$1
export FIND_BASE
shift
DESTDIR=`cd $1;${PWDCMD}`
export DESTDIR
shift
# The same dir can appear more than once in treetops.
# There's no need to scan it more than once.
#
if [ -f ${DESTDIR}/DONE ]
then continue ; fi
touch ${DESTDIR}/DONE
if test $VERBOSE -gt 1
then echo Fixing directory ${SRCDIR} into ${DESTDIR} ; fi
# Check files which are symlinks as well as those which are files.
#
cd ${INPUT}
required="$required `if $LINKS; then
find ${FIND_BASE}/. -name '*.h' \( -type f -o -type l \) -print
else
find ${FIND_BASE}/. -name '*.h' -type f -print
fi | \
sed -e 's;/\./;/;g' -e 's;//*;/;g' | \
${FIXINCL}`"
done
## Make sure that any include files referenced using double quotes
## exist in the fixed directory. This comes last since otherwise
## we might end up deleting some of these files "because they don't
## need any change."
set x `echo $required`
shift
while [ $# != 0 ]; do
newreq=
while [ $# != 0 ]; do
# $1 is the directory to copy from,
# $2 is the unfixed file,
# $3 is the fixed file name.
#
cd ${INPUT}
cd $1
if [ -f $2 ] ; then
if [ -r $2 ] && [ ! -r $3 ]; then
cp $2 $3 >/dev/null 2>&1 || echo "Can't copy $2" >&2
chmod +w $3 2>/dev/null
chmod a+r $3 2>/dev/null
if test $VERBOSE -gt 2
then echo Copied $2 ; fi
for include in `egrep '^[ ]*#[ ]*include[ ]*"[^/]' $3 |
sed -e 's/^[ ]*#[ ]*include[ ]*"\([^"]*\)".*$/\1/'`
do
dir=`echo $2 | sed -e s'|/[^/]*$||'`
dir2=`echo $3 | sed -e s'|/[^/]*$||'`
newreq="$newreq $1 $dir/$include $dir2/$include"
done
fi
fi
shift; shift; shift
done
set x $newreq
shift
done
if test $VERBOSE -gt 2
then echo 'Cleaning up DONE files.' ; fi
cd $LIB
# Look for files case-insensitively, for the benefit of
# DOS/Windows filesystems.
find . -name '[Dd][Oo][Nn][Ee]' -exec rm -f '{}' ';'
if test $VERBOSE -gt 1
then echo 'Cleaning up unneeded directories:' ; fi
cd $LIB
all_dirs=`find . -type d \! -name '.' -print | sort -r`
for file in $all_dirs; do
if rmdir $LIB/$file > /dev/null
then
test $VERBOSE -gt 3 && echo " removed $file"
fi
done 2> /dev/null
# On systems which don't support symlinks, `find' may barf
# if called with "-type l" predicate. So only use that if
# we know we should look for symlinks.
if $LINKS; then
test $VERBOSE -gt 2 && echo "Removing unused symlinks"
all_dirs=`find . -type l -print`
for file in $all_dirs
do
if test ! -d $file
then
rm -f $file
test $VERBOSE -gt 3 && echo " removed $file"
rmdir `dirname $file` > /dev/null && \
test $VERBOSE -gt 3 && \
echo " removed `dirname $file`"
fi
done 2> /dev/null
fi
if test $VERBOSE -gt 0
then echo fixincludes is done ; fi
# # # # # # # # # # # # # # # # # # # # #
#
# End of for INPUT directories
#
done
#
# # # # # # # # # # # # # # # # # # # # #

View file

@ -0,0 +1,8 @@
/* syslimits.h stands for the system's own limits.h file.
If we can use it ok unmodified, then we install this text.
If fixincludes fixes it, then the fixed version is installed
instead of this text. */
#define _GCC_NEXT_LIMITS_H /* tell gcc's limits.h to recurse */
#include_next <limits.h>
#undef _GCC_NEXT_LIMITS_H

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@ -0,0 +1,14 @@
This README file is copied into the directory for GCC-only header files
when fixincludes is run by the makefile for GCC.
Many of the files in this directory were automatically edited from the
standard system header files by the fixincludes process. They are
system-specific, and will not work on any other kind of system. They
are also not part of GCC. The reason we have to do this is because
GCC requires ANSI C headers and many vendors supply ANSI-incompatible
headers.
Because this is an automated process, sometimes headers get "fixed"
that do not, strictly speaking, need a fix. As long as nothing is broken
by the process, it is just an unfortunate collateral inconvenience.
We would like to rectify it, if it is not "too inconvenient".

View file

@ -0,0 +1,171 @@
/* Copyright (C) 1992-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* This administrivia gets added to the beginning of limits.h
if the system has its own version of limits.h. */
/* We use _GCC_LIMITS_H_ because we want this not to match
any macros that the system's limits.h uses for its own purposes. */
#ifndef _GCC_LIMITS_H_ /* Terminated in limity.h. */
#define _GCC_LIMITS_H_
#ifndef _LIBC_LIMITS_H_
/* Use "..." so that we find syslimits.h only in this same directory. */
#include "syslimits.h"
#endif
/* Copyright (C) 1991-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#ifndef _LIMITS_H___
#define _LIMITS_H___
/* Number of bits in a `char'. */
#undef CHAR_BIT
#define CHAR_BIT __CHAR_BIT__
/* Maximum length of a multibyte character. */
#ifndef MB_LEN_MAX
#define MB_LEN_MAX 1
#endif
/* Minimum and maximum values a `signed char' can hold. */
#undef SCHAR_MIN
#define SCHAR_MIN (-SCHAR_MAX - 1)
#undef SCHAR_MAX
#define SCHAR_MAX __SCHAR_MAX__
/* Maximum value an `unsigned char' can hold. (Minimum is 0). */
#undef UCHAR_MAX
#if __SCHAR_MAX__ == __INT_MAX__
# define UCHAR_MAX (SCHAR_MAX * 2U + 1U)
#else
# define UCHAR_MAX (SCHAR_MAX * 2 + 1)
#endif
/* Minimum and maximum values a `char' can hold. */
#ifdef __CHAR_UNSIGNED__
# undef CHAR_MIN
# if __SCHAR_MAX__ == __INT_MAX__
# define CHAR_MIN 0U
# else
# define CHAR_MIN 0
# endif
# undef CHAR_MAX
# define CHAR_MAX UCHAR_MAX
#else
# undef CHAR_MIN
# define CHAR_MIN SCHAR_MIN
# undef CHAR_MAX
# define CHAR_MAX SCHAR_MAX
#endif
/* Minimum and maximum values a `signed short int' can hold. */
#undef SHRT_MIN
#define SHRT_MIN (-SHRT_MAX - 1)
#undef SHRT_MAX
#define SHRT_MAX __SHRT_MAX__
/* Maximum value an `unsigned short int' can hold. (Minimum is 0). */
#undef USHRT_MAX
#if __SHRT_MAX__ == __INT_MAX__
# define USHRT_MAX (SHRT_MAX * 2U + 1U)
#else
# define USHRT_MAX (SHRT_MAX * 2 + 1)
#endif
/* Minimum and maximum values a `signed int' can hold. */
#undef INT_MIN
#define INT_MIN (-INT_MAX - 1)
#undef INT_MAX
#define INT_MAX __INT_MAX__
/* Maximum value an `unsigned int' can hold. (Minimum is 0). */
#undef UINT_MAX
#define UINT_MAX (INT_MAX * 2U + 1U)
/* Minimum and maximum values a `signed long int' can hold.
(Same as `int'). */
#undef LONG_MIN
#define LONG_MIN (-LONG_MAX - 1L)
#undef LONG_MAX
#define LONG_MAX __LONG_MAX__
/* Maximum value an `unsigned long int' can hold. (Minimum is 0). */
#undef ULONG_MAX
#define ULONG_MAX (LONG_MAX * 2UL + 1UL)
#if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
/* Minimum and maximum values a `signed long long int' can hold. */
# undef LLONG_MIN
# define LLONG_MIN (-LLONG_MAX - 1LL)
# undef LLONG_MAX
# define LLONG_MAX __LONG_LONG_MAX__
/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */
# undef ULLONG_MAX
# define ULLONG_MAX (LLONG_MAX * 2ULL + 1ULL)
#endif
#if defined (__GNU_LIBRARY__) ? defined (__USE_GNU) : !defined (__STRICT_ANSI__)
/* Minimum and maximum values a `signed long long int' can hold. */
# undef LONG_LONG_MIN
# define LONG_LONG_MIN (-LONG_LONG_MAX - 1LL)
# undef LONG_LONG_MAX
# define LONG_LONG_MAX __LONG_LONG_MAX__
/* Maximum value an `unsigned long long int' can hold. (Minimum is 0). */
# undef ULONG_LONG_MAX
# define ULONG_LONG_MAX (LONG_LONG_MAX * 2ULL + 1ULL)
#endif
#endif /* _LIMITS_H___ */
/* This administrivia gets added to the end of limits.h
if the system has its own version of limits.h. */
#else /* not _GCC_LIMITS_H_ */
#ifdef _GCC_NEXT_LIMITS_H
#include_next <limits.h> /* recurse down to the real one */
#endif
#endif /* not _GCC_LIMITS_H_ */

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@ -0,0 +1,104 @@
#!/bin/sh
# Copyright (C) 2002, 2007, 2009 Free Software Foundation, Inc.
#This file is part of GCC.
#GCC is free software; you can redistribute it and/or modify it under
#the terms of the GNU General Public License as published by the Free
#Software Foundation; either version 3, or (at your option) any later
#version.
#GCC is distributed in the hope that it will be useful, but WITHOUT
#ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
#FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
#for more details.
#You should have received a copy of the GNU General Public License
#along with GCC; see the file COPYING3. If not see
#<http://www.gnu.org/licenses/>.
# Basic information
target=arm-none-eabi
target_noncanonical=arm-none-eabi
version=4.8.3
VERBOSE=0
while [ x$1 = x-v ] ; do
shift
VERBOSE=`expr $VERBOSE + 1`
done
export VERBOSE
if [ x$1 = x--help ] ; then
echo "Usage: mkheaders [options] [prefix [isysroot]]"
echo "Options:"
echo " -v Print more output (may be repeated for even more output)"
echo " --help This help"
echo " --version Print version information"
exit 0
fi
if [ x$1 = x--version ] ; then
echo "mkheaders (GCC) version $version"
echo "Copyright 2002, 2007, 2009 Free Software Foundation, Inc."
echo "This program is free software; you may redistribute it under the"
echo "terms of the GNU General Public License. This program has"
echo "absolutely no warranty."
exit 0
fi
# Common prefix for installation directories.
if [ x$1 != x ] ; then
prefix=$1
shift
else
prefix=/home/build/work/GCC-4-8-build/install-native
fi
# Allow for alternate isysroot in which to find headers
if [ x$1 != x ] ; then
isysroot=$1
shift
else
isysroot=
fi
# Directory in which to put host dependent programs and libraries
exec_prefix=${prefix}
# Directory in which to put the directories used by the compiler.
libdir=${exec_prefix}/lib
libexecdir=/home/build/work/GCC-4-8-build/install-native/lib
# Directory in which the compiler finds libraries, etc.
libsubdir=${libdir}/gcc/${target_noncanonical}/${version}
# Directory in which the compiler finds executables
libexecsubdir=${libexecdir}/gcc/${target_noncanonical}/${version}
itoolsdir=${libexecsubdir}/install-tools
itoolsdatadir=${libsubdir}/install-tools
incdir=${libsubdir}/include-fixed
mkinstalldirs="/bin/sh ${itoolsdir}/mkinstalldirs"
cd ${itoolsdir}
rm -rf ${incdir}/*
for ml in `cat ${itoolsdatadir}/fixinc_list`; do
sysroot_headers_suffix=`echo ${ml} | sed -e 's/;.*$//'`
multi_dir=`echo ${ml} | sed -e 's/^[^;]*;//'`
subincdir=${incdir}${multi_dir}
. ${itoolsdatadir}/mkheaders.conf
if [ x${STMP_FIXINC} != x ] ; then
TARGET_MACHINE="${target}" target_canonical="${target}" \
MACRO_LIST="${itoolsdatadir}/macro_list" \
/bin/sh ./fixinc.sh ${subincdir} \
${isysroot}${SYSTEM_HEADER_DIR} ${OTHER_FIXINCLUDES_DIRS}
rm -f ${subincdir}/syslimits.h
if [ -f ${subincdir}/limits.h ]; then
mv ${subincdir}/limits.h ${subincdir}/syslimits.h
else
cp ${itoolsdatadir}/gsyslimits.h ${subincdir}/syslimits.h
fi
fi
cp ${itoolsdatadir}/include${multi_dir}/limits.h ${subincdir}
done

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@ -0,0 +1,3 @@
SYSTEM_HEADER_DIR="/home/build/work/GCC-4-8-build/install-native/arm-none-eabi${sysroot_headers_suffix}/usr/include"
OTHER_FIXINCLUDES_DIRS=""
STMP_FIXINC="stmp-fixinc"

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@ -0,0 +1,162 @@
#! /bin/sh
# mkinstalldirs --- make directory hierarchy
scriptversion=2009-04-28.21; # UTC
# Original author: Noah Friedman <friedman@prep.ai.mit.edu>
# Created: 1993-05-16
# Public domain.
#
# This file is maintained in Automake, please report
# bugs to <bug-automake@gnu.org> or send patches to
# <automake-patches@gnu.org>.
nl='
'
IFS=" "" $nl"
errstatus=0
dirmode=
usage="\
Usage: mkinstalldirs [-h] [--help] [--version] [-m MODE] DIR ...
Create each directory DIR (with mode MODE, if specified), including all
leading file name components.
Report bugs to <bug-automake@gnu.org>."
# process command line arguments
while test $# -gt 0 ; do
case $1 in
-h | --help | --h*) # -h for help
echo "$usage"
exit $?
;;
-m) # -m PERM arg
shift
test $# -eq 0 && { echo "$usage" 1>&2; exit 1; }
dirmode=$1
shift
;;
--version)
echo "$0 $scriptversion"
exit $?
;;
--) # stop option processing
shift
break
;;
-*) # unknown option
echo "$usage" 1>&2
exit 1
;;
*) # first non-opt arg
break
;;
esac
done
for file
do
if test -d "$file"; then
shift
else
break
fi
done
case $# in
0) exit 0 ;;
esac
# Solaris 8's mkdir -p isn't thread-safe. If you mkdir -p a/b and
# mkdir -p a/c at the same time, both will detect that a is missing,
# one will create a, then the other will try to create a and die with
# a "File exists" error. This is a problem when calling mkinstalldirs
# from a parallel make. We use --version in the probe to restrict
# ourselves to GNU mkdir, which is thread-safe.
case $dirmode in
'')
if mkdir -p --version . >/dev/null 2>&1 && test ! -d ./--version; then
echo "mkdir -p -- $*"
exec mkdir -p -- "$@"
else
# On NextStep and OpenStep, the `mkdir' command does not
# recognize any option. It will interpret all options as
# directories to create, and then abort because `.' already
# exists.
test -d ./-p && rmdir ./-p
test -d ./--version && rmdir ./--version
fi
;;
*)
if mkdir -m "$dirmode" -p --version . >/dev/null 2>&1 &&
test ! -d ./--version; then
echo "mkdir -m $dirmode -p -- $*"
exec mkdir -m "$dirmode" -p -- "$@"
else
# Clean up after NextStep and OpenStep mkdir.
for d in ./-m ./-p ./--version "./$dirmode";
do
test -d $d && rmdir $d
done
fi
;;
esac
for file
do
case $file in
/*) pathcomp=/ ;;
*) pathcomp= ;;
esac
oIFS=$IFS
IFS=/
set fnord $file
shift
IFS=$oIFS
for d
do
test "x$d" = x && continue
pathcomp=$pathcomp$d
case $pathcomp in
-*) pathcomp=./$pathcomp ;;
esac
if test ! -d "$pathcomp"; then
echo "mkdir $pathcomp"
mkdir "$pathcomp" || lasterr=$?
if test ! -d "$pathcomp"; then
errstatus=$lasterr
else
if test ! -z "$dirmode"; then
echo "chmod $dirmode $pathcomp"
lasterr=
chmod "$dirmode" "$pathcomp" || lasterr=$?
if test ! -z "$lasterr"; then
errstatus=$lasterr
fi
fi
fi
fi
pathcomp=$pathcomp/
done
done
exit $errstatus
# Local Variables:
# mode: shell-script
# sh-indentation: 2
# eval: (add-hook 'write-file-hooks 'time-stamp)
# time-stamp-start: "scriptversion="
# time-stamp-format: "%:y-%02m-%02d.%02H"
# time-stamp-time-zone: "UTC"
# time-stamp-end: "; # UTC"
# End:

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@ -0,0 +1,74 @@
/****************************************************************************
* *
* GNAT COMPILER COMPONENTS *
* *
* GNAT-SPECIFIC GCC TREE CODES *
* *
* Specification *
* *
* Copyright (C) 1992-2009, Free Software Foundation, Inc. *
* *
* GNAT is free software; you can redistribute it and/or modify it under *
* terms of the GNU General Public License as published by the Free Soft- *
* ware Foundation; either version 3, or (at your option) any later ver- *
* sion. GNAT is distributed in the hope that it will be useful, but WITH- *
* OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY *
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License *
* for more details. You should have received a copy of the GNU General *
* Public License along with GCC; see the file COPYING3. If not see *
* <http://www.gnu.org/licenses/>. *
* *
* GNAT was originally developed by the GNAT team at New York University. *
* Extensive contributions were provided by Ada Core Technologies Inc. *
* *
****************************************************************************/
/* A type that is an unconstrained array. This node is never passed to GCC.
TREE_TYPE is the type of the fat pointer and TYPE_OBJECT_RECORD_TYPE is
the type of a record containing the template and data. */
DEFTREECODE (UNCONSTRAINED_ARRAY_TYPE, "unconstrained_array_type", tcc_type, 0)
/* A reference to an unconstrained array. This node only exists as an
intermediate node during the translation of a GNAT tree to a GCC tree;
it is never passed to GCC. The only field used is operand 0, which
is the fat pointer object. */
DEFTREECODE (UNCONSTRAINED_ARRAY_REF, "unconstrained_array_ref",
tcc_reference, 1)
/* An expression that returns an RTL suitable for its type. Operand 0
is an expression to be evaluated for side effects only. */
DEFTREECODE (NULL_EXPR, "null_expr", tcc_expression, 1)
/* Same as PLUS_EXPR, except that no modulo reduction is applied.
This is used for loops and never shows up in the tree. */
DEFTREECODE (PLUS_NOMOD_EXPR, "plus_nomod_expr", tcc_binary, 2)
/* Same as MINUS_EXPR, except that no modulo reduction is applied.
This is used for loops and never shows up in the tree. */
DEFTREECODE (MINUS_NOMOD_EXPR, "minus_nomod_expr", tcc_binary, 2)
/* Same as ADDR_EXPR, except that if the operand represents a bit field,
return the address of the byte containing the bit. This is used
for the Address attribute and never shows up in the tree. */
DEFTREECODE (ATTR_ADDR_EXPR, "attr_addr_expr", tcc_reference, 1)
/* Here are the tree codes for the statement types known to Ada. These
must be at the end of this file to allow IS_ADA_STMT to work. */
/* This is how record_code_position and insert_code_for work. The former
makes this tree node, whose operand is a statement. The latter inserts
the actual statements into this node. Gimplification consists of
just returning the inner statement. */
DEFTREECODE (STMT_STMT, "stmt_stmt", tcc_statement, 1)
/* A loop. LOOP_STMT_COND is the test to exit the loop. LOOP_STMT_UPDATE
is the statement to update the loop iteration variable at the continue
point. LOOP_STMT_BODY are the statements in the body of the loop. And
LOOP_STMT_LABEL points to the LABEL_DECL of the end label of the loop. */
DEFTREECODE (LOOP_STMT, "loop_stmt", tcc_statement, 4)
/* Conditionally exit a loop. EXIT_STMT_COND is the condition, which, if
true, will cause the loop to be exited. If no condition is specified,
the loop is unconditionally exited. EXIT_STMT_LABEL is the end label
corresponding to the loop to exit. */
DEFTREECODE (EXIT_STMT, "exit_stmt", tcc_statement, 2)

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@ -0,0 +1,51 @@
/* Exported functions from alias.c
Copyright (C) 2004-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_ALIAS_H
#define GCC_ALIAS_H
/* The type of an alias set. Code currently assumes that variables of
this type can take the values 0 (the alias set which aliases
everything) and -1 (sometimes indicating that the alias set is
unknown, sometimes indicating a memory barrier) and -2 (indicating
that the alias set should be set to a unique value but has not been
set yet). */
typedef int alias_set_type;
extern alias_set_type new_alias_set (void);
extern alias_set_type get_alias_set (tree);
extern alias_set_type get_deref_alias_set (tree);
extern alias_set_type get_varargs_alias_set (void);
extern alias_set_type get_frame_alias_set (void);
extern bool component_uses_parent_alias_set (const_tree);
extern bool alias_set_subset_of (alias_set_type, alias_set_type);
extern void record_alias_subset (alias_set_type, alias_set_type);
extern void record_component_aliases (tree);
extern int alias_sets_conflict_p (alias_set_type, alias_set_type);
extern int alias_sets_must_conflict_p (alias_set_type, alias_set_type);
extern int objects_must_conflict_p (tree, tree);
extern int nonoverlapping_memrefs_p (const_rtx, const_rtx, bool);
/* This alias set can be used to force a memory to conflict with all
other memories, creating a barrier across which no memory reference
can move. Note that there are other legacy ways to create such
memory barriers, including an address of SCRATCH. */
#define ALIAS_SET_MEMORY_BARRIER ((alias_set_type) -1)
#endif /* GCC_ALIAS_H */

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@ -0,0 +1,7 @@
#include "tree.def"
END_OF_BASE_TREE_CODES
#include "c-family/c-common.def"
#include "ada/gcc-interface/ada-tree.def"
#include "cp/cp-tree.def"
#include "java/java-tree.def"
#include "objc/objc-tree.def"

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@ -0,0 +1,66 @@
/* Functions to support a pool of allocatable objects
Copyright (C) 1997-2013 Free Software Foundation, Inc.
Contributed by Daniel Berlin <dan@cgsoftware.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef ALLOC_POOL_H
#define ALLOC_POOL_H
typedef unsigned long ALLOC_POOL_ID_TYPE;
typedef struct alloc_pool_list_def
{
struct alloc_pool_list_def *next;
}
*alloc_pool_list;
typedef struct alloc_pool_def
{
const char *name;
#ifdef ENABLE_CHECKING
ALLOC_POOL_ID_TYPE id;
#endif
size_t elts_per_block;
/* These are the elements that have been allocated at least once and freed. */
alloc_pool_list returned_free_list;
/* These are the elements that have not yet been allocated out of
the last block obtained from XNEWVEC. */
char* virgin_free_list;
/* The number of elements in the virgin_free_list that can be
allocated before needing another block. */
size_t virgin_elts_remaining;
size_t elts_allocated;
size_t elts_free;
size_t blocks_allocated;
alloc_pool_list block_list;
size_t block_size;
size_t elt_size;
}
*alloc_pool;
extern alloc_pool create_alloc_pool (const char *, size_t, size_t);
extern void free_alloc_pool (alloc_pool);
extern void empty_alloc_pool (alloc_pool);
extern void free_alloc_pool_if_empty (alloc_pool *);
extern void *pool_alloc (alloc_pool) ATTRIBUTE_MALLOC;
extern void pool_free (alloc_pool, void *);
extern void dump_alloc_pool_statistics (void);
#endif

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@ -0,0 +1,441 @@
/* ANSI and traditional C compatability macros
Copyright 1991, 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001,
2002, 2003, 2004, 2005, 2006, 2007, 2009, 2010
Free Software Foundation, Inc.
This file is part of the GNU C Library.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
/* ANSI and traditional C compatibility macros
ANSI C is assumed if __STDC__ is #defined.
Macro ANSI C definition Traditional C definition
----- ---- - ---------- ----------- - ----------
ANSI_PROTOTYPES 1 not defined
PTR `void *' `char *'
PTRCONST `void *const' `char *'
LONG_DOUBLE `long double' `double'
const not defined `'
volatile not defined `'
signed not defined `'
VA_START(ap, var) va_start(ap, var) va_start(ap)
Note that it is safe to write "void foo();" indicating a function
with no return value, in all K+R compilers we have been able to test.
For declaring functions with prototypes, we also provide these:
PARAMS ((prototype))
-- for functions which take a fixed number of arguments. Use this
when declaring the function. When defining the function, write a
K+R style argument list. For example:
char *strcpy PARAMS ((char *dest, char *source));
...
char *
strcpy (dest, source)
char *dest;
char *source;
{ ... }
VPARAMS ((prototype, ...))
-- for functions which take a variable number of arguments. Use
PARAMS to declare the function, VPARAMS to define it. For example:
int printf PARAMS ((const char *format, ...));
...
int
printf VPARAMS ((const char *format, ...))
{
...
}
For writing functions which take variable numbers of arguments, we
also provide the VA_OPEN, VA_CLOSE, and VA_FIXEDARG macros. These
hide the differences between K+R <varargs.h> and C89 <stdarg.h> more
thoroughly than the simple VA_START() macro mentioned above.
VA_OPEN and VA_CLOSE are used *instead of* va_start and va_end.
Immediately after VA_OPEN, put a sequence of VA_FIXEDARG calls
corresponding to the list of fixed arguments. Then use va_arg
normally to get the variable arguments, or pass your va_list object
around. You do not declare the va_list yourself; VA_OPEN does it
for you.
Here is a complete example:
int
printf VPARAMS ((const char *format, ...))
{
int result;
VA_OPEN (ap, format);
VA_FIXEDARG (ap, const char *, format);
result = vfprintf (stdout, format, ap);
VA_CLOSE (ap);
return result;
}
You can declare variables either before or after the VA_OPEN,
VA_FIXEDARG sequence. Also, VA_OPEN and VA_CLOSE are the beginning
and end of a block. They must appear at the same nesting level,
and any variables declared after VA_OPEN go out of scope at
VA_CLOSE. Unfortunately, with a K+R compiler, that includes the
argument list. You can have multiple instances of VA_OPEN/VA_CLOSE
pairs in a single function in case you need to traverse the
argument list more than once.
For ease of writing code which uses GCC extensions but needs to be
portable to other compilers, we provide the GCC_VERSION macro that
simplifies testing __GNUC__ and __GNUC_MINOR__ together, and various
wrappers around __attribute__. Also, __extension__ will be #defined
to nothing if it doesn't work. See below.
This header also defines a lot of obsolete macros:
CONST, VOLATILE, SIGNED, PROTO, EXFUN, DEFUN, DEFUN_VOID,
AND, DOTS, NOARGS. Don't use them. */
#ifndef _ANSIDECL_H
#define _ANSIDECL_H 1
#ifdef __cplusplus
extern "C" {
#endif
/* Every source file includes this file,
so they will all get the switch for lint. */
/* LINTLIBRARY */
/* Using MACRO(x,y) in cpp #if conditionals does not work with some
older preprocessors. Thus we can't define something like this:
#define HAVE_GCC_VERSION(MAJOR, MINOR) \
(__GNUC__ > (MAJOR) || (__GNUC__ == (MAJOR) && __GNUC_MINOR__ >= (MINOR)))
and then test "#if HAVE_GCC_VERSION(2,7)".
So instead we use the macro below and test it against specific values. */
/* This macro simplifies testing whether we are using gcc, and if it
is of a particular minimum version. (Both major & minor numbers are
significant.) This macro will evaluate to 0 if we are not using
gcc at all. */
#ifndef GCC_VERSION
#define GCC_VERSION (__GNUC__ * 1000 + __GNUC_MINOR__)
#endif /* GCC_VERSION */
#if defined (__STDC__) || defined(__cplusplus) || defined (_AIX) || (defined (__mips) && defined (_SYSTYPE_SVR4)) || defined(_WIN32)
/* All known AIX compilers implement these things (but don't always
define __STDC__). The RISC/OS MIPS compiler defines these things
in SVR4 mode, but does not define __STDC__. */
/* eraxxon@alumni.rice.edu: The Compaq C++ compiler, unlike many other
C++ compilers, does not define __STDC__, though it acts as if this
was so. (Verified versions: 5.7, 6.2, 6.3, 6.5) */
#define ANSI_PROTOTYPES 1
#define PTR void *
#define PTRCONST void *const
#define LONG_DOUBLE long double
/* PARAMS is often defined elsewhere (e.g. by libintl.h), so wrap it in
a #ifndef. */
#ifndef PARAMS
#define PARAMS(ARGS) ARGS
#endif
#define VPARAMS(ARGS) ARGS
#define VA_START(VA_LIST, VAR) va_start(VA_LIST, VAR)
/* variadic function helper macros */
/* "struct Qdmy" swallows the semicolon after VA_OPEN/VA_FIXEDARG's
use without inhibiting further decls and without declaring an
actual variable. */
#define VA_OPEN(AP, VAR) { va_list AP; va_start(AP, VAR); { struct Qdmy
#define VA_CLOSE(AP) } va_end(AP); }
#define VA_FIXEDARG(AP, T, N) struct Qdmy
#undef const
#undef volatile
#undef signed
/* inline requires special treatment; it's in C99, and GCC >=2.7 supports
it too, but it's not in C89. */
#undef inline
#if __STDC_VERSION__ >= 199901L || defined(__cplusplus) || (defined(__SUNPRO_C) && defined(__C99FEATURES__))
/* it's a keyword */
#else
# if GCC_VERSION >= 2007
# define inline __inline__ /* __inline__ prevents -pedantic warnings */
# else
# define inline /* nothing */
# endif
#endif
/* These are obsolete. Do not use. */
#ifndef IN_GCC
#define CONST const
#define VOLATILE volatile
#define SIGNED signed
#define PROTO(type, name, arglist) type name arglist
#define EXFUN(name, proto) name proto
#define DEFUN(name, arglist, args) name(args)
#define DEFUN_VOID(name) name(void)
#define AND ,
#define DOTS , ...
#define NOARGS void
#endif /* ! IN_GCC */
#else /* Not ANSI C. */
#undef ANSI_PROTOTYPES
#define PTR char *
#define PTRCONST PTR
#define LONG_DOUBLE double
#define PARAMS(args) ()
#define VPARAMS(args) (va_alist) va_dcl
#define VA_START(va_list, var) va_start(va_list)
#define VA_OPEN(AP, VAR) { va_list AP; va_start(AP); { struct Qdmy
#define VA_CLOSE(AP) } va_end(AP); }
#define VA_FIXEDARG(AP, TYPE, NAME) TYPE NAME = va_arg(AP, TYPE)
/* some systems define these in header files for non-ansi mode */
#undef const
#undef volatile
#undef signed
#undef inline
#define const
#define volatile
#define signed
#define inline
#ifndef IN_GCC
#define CONST
#define VOLATILE
#define SIGNED
#define PROTO(type, name, arglist) type name ()
#define EXFUN(name, proto) name()
#define DEFUN(name, arglist, args) name arglist args;
#define DEFUN_VOID(name) name()
#define AND ;
#define DOTS
#define NOARGS
#endif /* ! IN_GCC */
#endif /* ANSI C. */
/* Define macros for some gcc attributes. This permits us to use the
macros freely, and know that they will come into play for the
version of gcc in which they are supported. */
#if (GCC_VERSION < 2007)
# define __attribute__(x)
#endif
/* Attribute __malloc__ on functions was valid as of gcc 2.96. */
#ifndef ATTRIBUTE_MALLOC
# if (GCC_VERSION >= 2096)
# define ATTRIBUTE_MALLOC __attribute__ ((__malloc__))
# else
# define ATTRIBUTE_MALLOC
# endif /* GNUC >= 2.96 */
#endif /* ATTRIBUTE_MALLOC */
/* Attributes on labels were valid as of gcc 2.93 and g++ 4.5. For
g++ an attribute on a label must be followed by a semicolon. */
#ifndef ATTRIBUTE_UNUSED_LABEL
# ifndef __cplusplus
# if GCC_VERSION >= 2093
# define ATTRIBUTE_UNUSED_LABEL ATTRIBUTE_UNUSED
# else
# define ATTRIBUTE_UNUSED_LABEL
# endif
# else
# if GCC_VERSION >= 4005
# define ATTRIBUTE_UNUSED_LABEL ATTRIBUTE_UNUSED ;
# else
# define ATTRIBUTE_UNUSED_LABEL
# endif
# endif
#endif
/* Similarly to ARG_UNUSED below. Prior to GCC 3.4, the C++ frontend
couldn't parse attributes placed after the identifier name, and now
the entire compiler is built with C++. */
#ifndef ATTRIBUTE_UNUSED
#if GCC_VERSION >= 3004
# define ATTRIBUTE_UNUSED __attribute__ ((__unused__))
#else
#define ATTRIBUTE_UNUSED
#endif
#endif /* ATTRIBUTE_UNUSED */
/* Before GCC 3.4, the C++ frontend couldn't parse attributes placed after the
identifier name. */
#if ! defined(__cplusplus) || (GCC_VERSION >= 3004)
# define ARG_UNUSED(NAME) NAME ATTRIBUTE_UNUSED
#else /* !__cplusplus || GNUC >= 3.4 */
# define ARG_UNUSED(NAME) NAME
#endif /* !__cplusplus || GNUC >= 3.4 */
#ifndef ATTRIBUTE_NORETURN
#define ATTRIBUTE_NORETURN __attribute__ ((__noreturn__))
#endif /* ATTRIBUTE_NORETURN */
/* Attribute `nonnull' was valid as of gcc 3.3. */
#ifndef ATTRIBUTE_NONNULL
# if (GCC_VERSION >= 3003)
# define ATTRIBUTE_NONNULL(m) __attribute__ ((__nonnull__ (m)))
# else
# define ATTRIBUTE_NONNULL(m)
# endif /* GNUC >= 3.3 */
#endif /* ATTRIBUTE_NONNULL */
/* Attribute `pure' was valid as of gcc 3.0. */
#ifndef ATTRIBUTE_PURE
# if (GCC_VERSION >= 3000)
# define ATTRIBUTE_PURE __attribute__ ((__pure__))
# else
# define ATTRIBUTE_PURE
# endif /* GNUC >= 3.0 */
#endif /* ATTRIBUTE_PURE */
/* Use ATTRIBUTE_PRINTF when the format specifier must not be NULL.
This was the case for the `printf' format attribute by itself
before GCC 3.3, but as of 3.3 we need to add the `nonnull'
attribute to retain this behavior. */
#ifndef ATTRIBUTE_PRINTF
#define ATTRIBUTE_PRINTF(m, n) __attribute__ ((__format__ (__printf__, m, n))) ATTRIBUTE_NONNULL(m)
#define ATTRIBUTE_PRINTF_1 ATTRIBUTE_PRINTF(1, 2)
#define ATTRIBUTE_PRINTF_2 ATTRIBUTE_PRINTF(2, 3)
#define ATTRIBUTE_PRINTF_3 ATTRIBUTE_PRINTF(3, 4)
#define ATTRIBUTE_PRINTF_4 ATTRIBUTE_PRINTF(4, 5)
#define ATTRIBUTE_PRINTF_5 ATTRIBUTE_PRINTF(5, 6)
#endif /* ATTRIBUTE_PRINTF */
/* Use ATTRIBUTE_FPTR_PRINTF when the format attribute is to be set on
a function pointer. Format attributes were allowed on function
pointers as of gcc 3.1. */
#ifndef ATTRIBUTE_FPTR_PRINTF
# if (GCC_VERSION >= 3001)
# define ATTRIBUTE_FPTR_PRINTF(m, n) ATTRIBUTE_PRINTF(m, n)
# else
# define ATTRIBUTE_FPTR_PRINTF(m, n)
# endif /* GNUC >= 3.1 */
# define ATTRIBUTE_FPTR_PRINTF_1 ATTRIBUTE_FPTR_PRINTF(1, 2)
# define ATTRIBUTE_FPTR_PRINTF_2 ATTRIBUTE_FPTR_PRINTF(2, 3)
# define ATTRIBUTE_FPTR_PRINTF_3 ATTRIBUTE_FPTR_PRINTF(3, 4)
# define ATTRIBUTE_FPTR_PRINTF_4 ATTRIBUTE_FPTR_PRINTF(4, 5)
# define ATTRIBUTE_FPTR_PRINTF_5 ATTRIBUTE_FPTR_PRINTF(5, 6)
#endif /* ATTRIBUTE_FPTR_PRINTF */
/* Use ATTRIBUTE_NULL_PRINTF when the format specifier may be NULL. A
NULL format specifier was allowed as of gcc 3.3. */
#ifndef ATTRIBUTE_NULL_PRINTF
# if (GCC_VERSION >= 3003)
# define ATTRIBUTE_NULL_PRINTF(m, n) __attribute__ ((__format__ (__printf__, m, n)))
# else
# define ATTRIBUTE_NULL_PRINTF(m, n)
# endif /* GNUC >= 3.3 */
# define ATTRIBUTE_NULL_PRINTF_1 ATTRIBUTE_NULL_PRINTF(1, 2)
# define ATTRIBUTE_NULL_PRINTF_2 ATTRIBUTE_NULL_PRINTF(2, 3)
# define ATTRIBUTE_NULL_PRINTF_3 ATTRIBUTE_NULL_PRINTF(3, 4)
# define ATTRIBUTE_NULL_PRINTF_4 ATTRIBUTE_NULL_PRINTF(4, 5)
# define ATTRIBUTE_NULL_PRINTF_5 ATTRIBUTE_NULL_PRINTF(5, 6)
#endif /* ATTRIBUTE_NULL_PRINTF */
/* Attribute `sentinel' was valid as of gcc 3.5. */
#ifndef ATTRIBUTE_SENTINEL
# if (GCC_VERSION >= 3005)
# define ATTRIBUTE_SENTINEL __attribute__ ((__sentinel__))
# else
# define ATTRIBUTE_SENTINEL
# endif /* GNUC >= 3.5 */
#endif /* ATTRIBUTE_SENTINEL */
#ifndef ATTRIBUTE_ALIGNED_ALIGNOF
# if (GCC_VERSION >= 3000)
# define ATTRIBUTE_ALIGNED_ALIGNOF(m) __attribute__ ((__aligned__ (__alignof__ (m))))
# else
# define ATTRIBUTE_ALIGNED_ALIGNOF(m)
# endif /* GNUC >= 3.0 */
#endif /* ATTRIBUTE_ALIGNED_ALIGNOF */
/* Useful for structures whose layout must much some binary specification
regardless of the alignment and padding qualities of the compiler. */
#ifndef ATTRIBUTE_PACKED
# define ATTRIBUTE_PACKED __attribute__ ((packed))
#endif
/* Attribute `hot' and `cold' was valid as of gcc 4.3. */
#ifndef ATTRIBUTE_COLD
# if (GCC_VERSION >= 4003)
# define ATTRIBUTE_COLD __attribute__ ((__cold__))
# else
# define ATTRIBUTE_COLD
# endif /* GNUC >= 4.3 */
#endif /* ATTRIBUTE_COLD */
#ifndef ATTRIBUTE_HOT
# if (GCC_VERSION >= 4003)
# define ATTRIBUTE_HOT __attribute__ ((__hot__))
# else
# define ATTRIBUTE_HOT
# endif /* GNUC >= 4.3 */
#endif /* ATTRIBUTE_HOT */
/* We use __extension__ in some places to suppress -pedantic warnings
about GCC extensions. This feature didn't work properly before
gcc 2.8. */
#if GCC_VERSION < 2008
#define __extension__
#endif
/* This is used to declare a const variable which should be visible
outside of the current compilation unit. Use it as
EXPORTED_CONST int i = 1;
This is because the semantics of const are different in C and C++.
"extern const" is permitted in C but it looks strange, and gcc
warns about it when -Wc++-compat is not used. */
#ifdef __cplusplus
#define EXPORTED_CONST extern const
#else
#define EXPORTED_CONST const
#endif
/* Be conservative and only use enum bitfields with C++ or GCC.
FIXME: provide a complete autoconf test for buggy enum bitfields. */
#ifdef __cplusplus
#define ENUM_BITFIELD(TYPE) enum TYPE
#elif (GCC_VERSION > 2000)
#define ENUM_BITFIELD(TYPE) __extension__ enum TYPE
#else
#define ENUM_BITFIELD(TYPE) unsigned int
#endif
#ifdef __cplusplus
}
#endif
#endif /* ansidecl.h */

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@ -0,0 +1,121 @@
USER_H=unwind-arm-common.h
HASHTAB_H=hashtab.h
OBSTACK_H=obstack.h
SPLAY_TREE_H=splay-tree.h
FIBHEAP_H=fibheap.h
PARTITION_H=partition.h
DWARF2_H=dwarf2.def
XREGEX_H=xregex.h
FNMATCH_H=fnmatch.h
LINKER_PLUGIN_API_H=plugin-api.h
LTO_SYMTAB_H=lto-symtab.h
BCONFIG_H=bconfig.h auto-host.h ansidecl.h
CONFIG_H=config.h auto-host.h ansidecl.h
TCONFIG_H=tconfig.h auto-host.h ansidecl.h
TM_P_H=tm_p.h config/arm/arm-protos.h aarch-common-protos.h tm-preds.h
GTM_H=tm.h options.h config/dbxelf.h defaults.h insn-constants.h
TM_H=tm.h options.h config/dbxelf.h arm-cores.def
VEC_H=vec.h statistics.h ggc.h gtype-desc.h statistics.h
HASH_TABLE_H=hashtab.h hash-table.h
EXCEPT_H=except.h hashtab.h
TARGET_H=tm.h options.h config/dbxelf.h arm-cores.def target.h target.def target-hooks-macros.h insn-modes.h
C_TARGET_H=c-family/c-target.h c-family/c-target.def target-hooks-macros.h
COMMON_TARGET_H=common/common-target.h common-target.def target-hooks-macros.h
MACHMODE_H=machmode.h mode-classes.def insn-modes.h
HOOKS_H=hooks.h machmode.h mode-classes.def insn-modes.h
HOSTHOOKS_DEF_H=hosthooks-def.h hooks.h machmode.h mode-classes.def insn-modes.h
LANGHOOKS_DEF_H=langhooks-def.h hooks.h machmode.h mode-classes.def insn-modes.h
TARGET_DEF_H=target-def.h target-hooks-def.h hooks.h machmode.h mode-classes.def insn-modes.h targhooks.h
C_TARGET_DEF_H=c-family/c-target-def.h c-family/c-target-hooks-def.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def common-targhooks.h
COMMON_TARGET_DEF_H=common/common-target-def.h common/common-target-hooks-def.h hooks.h machmode.h mode-classes.def insn-modes.h
RTL_BASE_H=coretypes.h rtl.h rtl.def machmode.h mode-classes.def insn-modes.h reg-notes.def insn-notes.def hashtab.h
FIXED_VALUE_H=fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
RTL_H=coretypes.h rtl.h rtl.def machmode.h mode-classes.def insn-modes.h reg-notes.def insn-notes.def arm-cores.def genrtl.h
RTL_ERROR_H=rtl-error.h coretypes.h rtl.h rtl.def machmode.h mode-classes.def insn-modes.h reg-notes.def insn-notes.def line-map.h input.h bversion.h diagnostic.def
READ_MD_H=hashtab.h read-md.h
PARAMS_H=params.h params.def
INTERNAL_FN_H=internal-fn.h internal-fn.def
TREE_H=coretypes.h tree.h all-tree.def tree.def c-family/c-common.def arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
REGSET_H=regset.h bitmap.h hashtab.h statistics.h hard-reg-set.h
BASIC_BLOCK_H=basic-block.h predict.h predict.def vec.h statistics.h ggc.h gtype-desc.h statistics.h function.h line-map.h input.h machmode.h mode-classes.def insn-modes.h cfg-flags.def cfghooks.h
GIMPLE_H=gimple.h gimple.def gsstruct.def pointer-set.h vec.h statistics.h ggc.h gtype-desc.h statistics.h ggc.h gtype-desc.h statistics.h basic-block.h predict.h predict.def vec.h statistics.h ggc.h gtype-desc.h statistics.h function.h arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h tree-ssa-operands.h tree-ssa-alias.h internal-fn.h internal-fn.def
TRANS_MEM_H=trans-mem.h
GCOV_IO_H=gcov-io.h gcov-iov.h auto-host.h
COVERAGE_H=coverage.h gcov-io.h gcov-iov.h auto-host.h
DEMANGLE_H=demangle.h
RECOG_H=recog.h
ALIAS_H=alias.h
EMIT_RTL_H=emit-rtl.h
FLAGS_H=flags.h flag-types.h options.h flag-types.h config/arm/arm-opts.h arm-cores.def
OPTIONS_H=options.h flag-types.h config/arm/arm-opts.h arm-cores.def
FUNCTION_H=function.h line-map.h input.h machmode.h mode-classes.def insn-modes.h
EXPR_H=expr.h insn-config.h function.h arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h machmode.h mode-classes.def insn-modes.h emit-rtl.h
OPTABS_H=optabs.h insn-codes.h insn-opinit.h
REGS_H=regs.h machmode.h mode-classes.def insn-modes.h hard-reg-set.h
SCHED_INT_H=sched-int.h insn-attr.h insn-attr-common.h hashtab.h statistics.h hard-reg-set.h
SEL_SCHED_IR_H=sel-sched-ir.h insn-attr.h insn-attr-common.h hashtab.h statistics.h hard-reg-set.h
SEL_SCHED_DUMP_H=sel-sched-dump.h sel-sched-ir.h insn-attr.h insn-attr-common.h hashtab.h statistics.h hard-reg-set.h
CFGLOOP_H=cfgloop.h basic-block.h predict.h predict.def vec.h statistics.h ggc.h gtype-desc.h statistics.h function.h hashtab.h statistics.h sbitmap.h
IPA_UTILS_H=ipa-utils.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def plugin-api.h is-a.h
IPA_REFERENCE_H=ipa-reference.h bitmap.h arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
CGRAPH_H=cgraph.h vec.h statistics.h ggc.h gtype-desc.h statistics.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def plugin-api.h is-a.h
DF_H=df.h bitmap.h line-map.h input.h machmode.h mode-classes.def insn-modes.h cfg-flags.def cfghooks.h alloc-pool.h timevar.h timevar.def
VALTRACK_H=valtrack.h bitmap.h hashtab.h hash-table.h
RESOURCE_H=resource.h hard-reg-set.h df.h bitmap.h line-map.h input.h machmode.h mode-classes.def insn-modes.h cfg-flags.def cfghooks.h alloc-pool.h timevar.h timevar.def
DDG_H=ddg.h sbitmap.h df.h bitmap.h line-map.h input.h machmode.h mode-classes.def insn-modes.h cfg-flags.def cfghooks.h alloc-pool.h timevar.h timevar.def
GCC_H=gcc.h version.h diagnostic-core.h line-map.h input.h bversion.h diagnostic.def
GGC_H=ggc.h gtype-desc.h statistics.h
GGC_INTERNAL_H=ggc-internal.h ggc.h gtype-desc.h statistics.h
TIMEVAR_H=timevar.h timevar.def
INSN_ATTR_H=insn-attr.h insn-attr-common.h insn-addr.h
INSN_ADDR_H=insn-addr.h
C_COMMON_H=c-family/c-common.h c-family/c-common.def coretypes.h tree.h all-tree.def tree.def c-family/c-common.def line-map.h input.h bversion.h diagnostic.def
C_PRAGMA_H=c-family/c-pragma.h cpplib.h
C_TREE_H=c/c-tree.h c-family/c-common.h c-family/c-common.def coretypes.h tree.h all-tree.def tree.def c-family/c-common.def obstack.h
SYSTEM_H=system.h hwint.h filenames.h
PREDICT_H=predict.h predict.def
CPPLIB_H=cpplib.h
INPUT_H=line-map.h input.h
OPTS_H=obstack.h
DECNUM_H=decimal128Local.h
BACKTRACE_H=backtrace.h
MKDEPS_H=mkdeps.h
SYMTAB_H=obstack.h
CPP_ID_DATA_H=cpp-id-data.h
CPP_INTERNAL_H=cpp-id-data.h
TREE_DUMP_H=tree-dump.h splay-tree.h dumpfile.h
TREE_PASS_H=tree-pass.h timevar.h timevar.def dumpfile.h
TREE_FLOW_H=tree-flow.h tree-flow-inline.h tree-ssa-operands.h bitmap.h arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h tree-ssa-alias.h
TREE_SSA_LIVE_H=tree-ssa-live.h partition.h
SSAEXPAND_H=ssaexpand.h tree-ssa-live.h partition.h
PRETTY_PRINT_H=pretty-print.h obstack.h
TREE_PRETTY_PRINT_H=tree-pretty-print.h pretty-print.h obstack.h
GIMPLE_PRETTY_PRINT_H=gimple-pretty-print.h tree-pretty-print.h pretty-print.h obstack.h
DIAGNOSTIC_CORE_H=diagnostic-core.h line-map.h input.h bversion.h diagnostic.def
DIAGNOSTIC_H=diagnostic.h diagnostic-core.h obstack.h
DWARF2OUT_H=dwarf2out.h dwarf2.def
C_PRETTY_PRINT_H=c-family/c-pretty-print.h pretty-print.h arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
SCEV_H=tree-scalar-evolution.h ggc.h gtype-desc.h statistics.h tree-chrec.h params.h params.def
OMEGA_H=omega.h params.h params.def
TREE_DATA_REF_H=tree-data-ref.h omega.h params.h params.def graphds.h tree-scalar-evolution.h ggc.h gtype-desc.h statistics.h tree-chrec.h params.h params.def
TREE_INLINE_H=tree-inline.h
REAL_H=real.h machmode.h mode-classes.def insn-modes.h
IRA_INT_H=ira.h ira-int.h cfgloop.h basic-block.h predict.h predict.def vec.h statistics.h ggc.h gtype-desc.h statistics.h function.h hashtab.h statistics.h sbitmap.h alloc-pool.h
LRA_INT_H=lra.h bitmap.h insn-addr.h insn-codes.h lra-int.h
DBGCNT_H=dbgcnt.h dbgcnt.def
LTO_STREAMER_H=lto-streamer.h obstack.h alloc-pool.h
DATA_STREAMER_H=data-streamer.h vec.h statistics.h ggc.h gtype-desc.h statistics.h lto-streamer.h obstack.h alloc-pool.h
GIMPLE_STREAMER_H=gimple-streamer.h lto-streamer.h line-map.h input.h machmode.h mode-classes.def insn-modes.h
TREE_STREAMER_H=tree-streamer.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
STREAMER_HOOKS_H=streamer-hooks.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h
TREE_VECTORIZER_H=tree-vectorizer.h tree-data-ref.h omega.h params.h params.def graphds.h tree-scalar-evolution.h ggc.h gtype-desc.h statistics.h tree-chrec.h params.h params.def tm.h options.h config/dbxelf.h arm-cores.def target.h target.def target-hooks-macros.h insn-modes.h
IPA_PROP_H=ipa-prop.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h tree-ssa-operands.h tree-ssa-alias.h internal-fn.h internal-fn.def alloc-pool.h
IPA_INLINE_H=ipa-inline.h ipa-prop.h coretypes.h tree.h all-tree.def tree.def c-family/c-common.def arm-cores.def real.h machmode.h mode-classes.def insn-modes.h fixed-value.h machmode.h mode-classes.def insn-modes.h double-int.h tree-ssa-operands.h tree-ssa-alias.h internal-fn.h internal-fn.def alloc-pool.h
GSTAB_H=gstab.h stab.def
BITMAP_H=bitmap.h hashtab.h statistics.h
GCC_PLUGIN_H=gcc-plugin.h highlev-plugin-common.h plugin.def config.h auto-host.h hashtab.h
PLUGIN_H=plugin.h gcc-plugin.h highlev-plugin-common.h plugin.def config.h auto-host.h hashtab.h
PLUGIN_VERSION_H=plugin-version.h configargs.h
LIBFUNCS_H=libfuncs.h hashtab.h
GTFILES_H=gt-coverage.h gt-caller-save.h gt-symtab.h gt-alias.h gt-bitmap.h gt-cselib.h gt-cgraph.h gt-ipa-prop.h gt-ipa-cp.h gt-dbxout.h gt-dwarf2asm.h gt-dwarf2cfi.h gt-dwarf2out.h gt-tree-vect-generic.h gt-dojump.h gt-emit-rtl.h gt-explow.h gt-expr.h gt-function.h gt-except.h gt-gcse.h gt-godump.h gt-lists.h gt-optabs.h gt-profile.h gt-mcf.h gt-reg-stack.h gt-cfgrtl.h gt-sdbout.h gt-stor-layout.h gt-stringpool.h gt-tree.h gt-varasm.h gt-gimple.h gt-tree-mudflap.h gt-tree-ssanames.h gt-tree-eh.h gt-tree-ssa-address.h gt-tree-cfg.h gt-tree-dfa.h gt-tree-iterator.h gt-gimplify.h gt-tree-scalar-evolution.h gt-tree-profile.h gt-tree-nested.h gt-tree-parloops.h gt-omp-low.h gt-targhooks.h gt-arm.h gt-passes.h gt-cgraphunit.h gt-cgraphclones.h gt-tree-ssa-propagate.h gt-tree-phinodes.h gt-lto-symtab.h gt-trans-mem.h gt-asan.h gt-tsan.h gt-ada-decl.h gt-ada-trans.h gt-ada-utils.h gt-ada-misc.h gt-c-c-lang.h gt-c-c-decl.h gt-c-family-c-common.h gt-c-family-c-cppbuiltin.h gt-c-family-c-pragma.h gt-c-c-objc-common.h gt-c-c-parser.h gt-cp-rtti.h gt-cp-mangle.h gt-cp-name-lookup.h gt-cp-call.h gt-cp-decl.h gt-cp-decl2.h gt-cp-pt.h gt-cp-repo.h gt-cp-semantics.h gt-cp-tree.h gt-cp-parser.h gt-cp-method.h gt-cp-typeck2.h gt-c-family-c-common.h gt-c-family-c-lex.h gt-c-family-c-pragma.h gt-cp-class.h gt-cp-cp-objcp-common.h gt-cp-cp-lang.h gt-cp-except.h gt-fortran-f95-lang.h gt-fortran-trans-decl.h gt-fortran-trans-intrinsic.h gt-fortran-trans-io.h gt-fortran-trans-stmt.h gt-fortran-trans-types.h gt-go-go-lang.h gt-java-builtins.h gt-java-class.h gt-java-constants.h gt-java-decl.h gt-java-expr.h gt-java-jcf-parse.h gt-java-lang.h gt-java-mangle.h gt-java-resource.h gt-lto-lto-lang.h gt-lto-lto.h gt-objc-objc-act.h gt-objc-objc-runtime-shared-support.h gt-objc-objc-gnu-runtime-abi-01.h gt-objc-objc-next-runtime-abi-01.h gt-objc-objc-next-runtime-abi-02.h gt-c-c-parser.h gt-c-c-decl.h gt-c-c-objc-common.h gt-c-family-c-common.h gt-c-family-c-cppbuiltin.h gt-c-family-c-pragma.h gt-cp-rtti.h gt-cp-mangle.h gt-cp-name-lookup.h gt-cp-call.h gt-cp-decl.h gt-cp-decl2.h gt-cp-pt.h gt-cp-repo.h gt-cp-semantics.h gt-cp-tree.h gt-cp-parser.h gt-cp-method.h gt-cp-typeck2.h gt-c-family-c-common.h gt-c-family-c-lex.h gt-c-family-c-pragma.h gt-cp-class.h gt-cp-cp-objcp-common.h gt-objc-objc-act.h gt-objc-objc-runtime-shared-support.h gt-objc-objc-gnu-runtime-abi-01.h gt-objc-objc-next-runtime-abi-01.h gt-objc-objc-next-runtime-abi-02.h gt-c-family-c-cppbuiltin.h
GTFILES_LANG_H=gtype-ada.h gtype-c.h gtype-cp.h gtype-fortran.h gtype-go.h gtype-java.h gtype-lto.h gtype-objc.h gtype-objcp.h

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/* Define control flow data structures for the CFG.
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_BASIC_BLOCK_H
#define GCC_BASIC_BLOCK_H
#include "predict.h"
#include "vec.h"
#include "function.h"
/* Type we use to hold basic block counters. Should be at least
64bit. Although a counter cannot be negative, we use a signed
type, because erroneous negative counts can be generated when the
flow graph is manipulated by various optimizations. A signed type
makes those easy to detect. */
typedef HOST_WIDEST_INT gcov_type;
typedef unsigned HOST_WIDEST_INT gcov_type_unsigned;
/* Control flow edge information. */
struct GTY((user)) edge_def {
/* The two blocks at the ends of the edge. */
basic_block src;
basic_block dest;
/* Instructions queued on the edge. */
union edge_def_insns {
gimple_seq g;
rtx r;
} insns;
/* Auxiliary info specific to a pass. */
PTR aux;
/* Location of any goto implicit in the edge. */
location_t goto_locus;
/* The index number corresponding to this edge in the edge vector
dest->preds. */
unsigned int dest_idx;
int flags; /* see cfg-flags.def */
int probability; /* biased by REG_BR_PROB_BASE */
gcov_type count; /* Expected number of executions calculated
in profile.c */
};
/* Garbage collection and PCH support for edge_def. */
extern void gt_ggc_mx (edge_def *e);
extern void gt_pch_nx (edge_def *e);
extern void gt_pch_nx (edge_def *e, gt_pointer_operator, void *);
/* Masks for edge.flags. */
#define DEF_EDGE_FLAG(NAME,IDX) EDGE_##NAME = 1 << IDX ,
enum cfg_edge_flags {
#include "cfg-flags.def"
LAST_CFG_EDGE_FLAG /* this is only used for EDGE_ALL_FLAGS */
};
#undef DEF_EDGE_FLAG
/* Bit mask for all edge flags. */
#define EDGE_ALL_FLAGS ((LAST_CFG_EDGE_FLAG - 1) * 2 - 1)
/* The following four flags all indicate something special about an edge.
Test the edge flags on EDGE_COMPLEX to detect all forms of "strange"
control flow transfers. */
#define EDGE_COMPLEX \
(EDGE_ABNORMAL | EDGE_ABNORMAL_CALL | EDGE_EH | EDGE_PRESERVE)
/* Counter summary from the last set of coverage counts read by
profile.c. */
extern const struct gcov_ctr_summary *profile_info;
/* Working set size statistics for a given percentage of the entire
profile (sum_all from the counter summary). */
typedef struct gcov_working_set_info
{
/* Number of hot counters included in this working set. */
unsigned num_counters;
/* Smallest counter included in this working set. */
gcov_type min_counter;
} gcov_working_set_t;
/* Structure to gather statistic about profile consistency, per pass.
An array of this structure, indexed by pass static number, is allocated
in passes.c. The structure is defined here so that different CFG modes
can do their book-keeping via CFG hooks.
For every field[2], field[0] is the count before the pass runs, and
field[1] is the post-pass count. This allows us to monitor the effect
of each individual pass on the profile consistency.
This structure is not supposed to be used by anything other than passes.c
and one CFG hook per CFG mode. */
struct profile_record
{
/* The number of basic blocks where sum(freq) of the block's predecessors
doesn't match reasonably well with the incoming frequency. */
int num_mismatched_freq_in[2];
/* Likewise for a basic block's successors. */
int num_mismatched_freq_out[2];
/* The number of basic blocks where sum(count) of the block's predecessors
doesn't match reasonably well with the incoming frequency. */
int num_mismatched_count_in[2];
/* Likewise for a basic block's successors. */
int num_mismatched_count_out[2];
/* A weighted cost of the run-time of the function body. */
gcov_type time[2];
/* A weighted cost of the size of the function body. */
int size[2];
/* True iff this pass actually was run. */
bool run;
};
/* Declared in cfgloop.h. */
struct loop;
struct GTY(()) rtl_bb_info {
/* The first insn of the block is embedded into bb->il.x. */
/* The last insn of the block. */
rtx end_;
/* In CFGlayout mode points to insn notes/jumptables to be placed just before
and after the block. */
rtx header_;
rtx footer_;
};
struct GTY(()) gimple_bb_info {
/* Sequence of statements in this block. */
gimple_seq seq;
/* PHI nodes for this block. */
gimple_seq phi_nodes;
};
/* A basic block is a sequence of instructions with only one entry and
only one exit. If any one of the instructions are executed, they
will all be executed, and in sequence from first to last.
There may be COND_EXEC instructions in the basic block. The
COND_EXEC *instructions* will be executed -- but if the condition
is false the conditionally executed *expressions* will of course
not be executed. We don't consider the conditionally executed
expression (which might have side-effects) to be in a separate
basic block because the program counter will always be at the same
location after the COND_EXEC instruction, regardless of whether the
condition is true or not.
Basic blocks need not start with a label nor end with a jump insn.
For example, a previous basic block may just "conditionally fall"
into the succeeding basic block, and the last basic block need not
end with a jump insn. Block 0 is a descendant of the entry block.
A basic block beginning with two labels cannot have notes between
the labels.
Data for jump tables are stored in jump_insns that occur in no
basic block even though these insns can follow or precede insns in
basic blocks. */
/* Basic block information indexed by block number. */
struct GTY((chain_next ("%h.next_bb"), chain_prev ("%h.prev_bb"))) basic_block_def {
/* The edges into and out of the block. */
vec<edge, va_gc> *preds;
vec<edge, va_gc> *succs;
/* Auxiliary info specific to a pass. */
PTR GTY ((skip (""))) aux;
/* Innermost loop containing the block. */
struct loop *loop_father;
/* The dominance and postdominance information node. */
struct et_node * GTY ((skip (""))) dom[2];
/* Previous and next blocks in the chain. */
basic_block prev_bb;
basic_block next_bb;
union basic_block_il_dependent {
struct gimple_bb_info GTY ((tag ("0"))) gimple;
struct {
rtx head_;
struct rtl_bb_info * rtl;
} GTY ((tag ("1"))) x;
} GTY ((desc ("((%1.flags & BB_RTL) != 0)"))) il;
/* Various flags. See cfg-flags.def. */
int flags;
/* The index of this block. */
int index;
/* Expected number of executions: calculated in profile.c. */
gcov_type count;
/* Expected frequency. Normalized to be in range 0 to BB_FREQ_MAX. */
int frequency;
/* The discriminator for this block. The discriminator distinguishes
among several basic blocks that share a common locus, allowing for
more accurate sample-based profiling. */
int discriminator;
};
/* This ensures that struct gimple_bb_info is smaller than
struct rtl_bb_info, so that inlining the former into basic_block_def
is the better choice. */
typedef int __assert_gimple_bb_smaller_rtl_bb
[(int)sizeof(struct rtl_bb_info)
- (int)sizeof (struct gimple_bb_info)];
#define BB_FREQ_MAX 10000
/* Masks for basic_block.flags. */
#define DEF_BASIC_BLOCK_FLAG(NAME,IDX) BB_##NAME = 1 << IDX ,
enum cfg_bb_flags
{
#include "cfg-flags.def"
LAST_CFG_BB_FLAG /* this is only used for BB_ALL_FLAGS */
};
#undef DEF_BASIC_BLOCK_FLAG
/* Bit mask for all basic block flags. */
#define BB_ALL_FLAGS ((LAST_CFG_BB_FLAG - 1) * 2 - 1)
/* Bit mask for all basic block flags that must be preserved. These are
the bit masks that are *not* cleared by clear_bb_flags. */
#define BB_FLAGS_TO_PRESERVE \
(BB_DISABLE_SCHEDULE | BB_RTL | BB_NON_LOCAL_GOTO_TARGET \
| BB_HOT_PARTITION | BB_COLD_PARTITION)
/* Dummy bitmask for convenience in the hot/cold partitioning code. */
#define BB_UNPARTITIONED 0
/* Partitions, to be used when partitioning hot and cold basic blocks into
separate sections. */
#define BB_PARTITION(bb) ((bb)->flags & (BB_HOT_PARTITION|BB_COLD_PARTITION))
#define BB_SET_PARTITION(bb, part) do { \
basic_block bb_ = (bb); \
bb_->flags = ((bb_->flags & ~(BB_HOT_PARTITION|BB_COLD_PARTITION)) \
| (part)); \
} while (0)
#define BB_COPY_PARTITION(dstbb, srcbb) \
BB_SET_PARTITION (dstbb, BB_PARTITION (srcbb))
/* State of dominance information. */
enum dom_state
{
DOM_NONE, /* Not computed at all. */
DOM_NO_FAST_QUERY, /* The data is OK, but the fast query data are not usable. */
DOM_OK /* Everything is ok. */
};
/* What sort of profiling information we have. */
enum profile_status_d
{
PROFILE_ABSENT,
PROFILE_GUESSED,
PROFILE_READ,
PROFILE_LAST /* Last value, used by profile streaming. */
};
/* A structure to group all the per-function control flow graph data.
The x_* prefixing is necessary because otherwise references to the
fields of this struct are interpreted as the defines for backward
source compatibility following the definition of this struct. */
struct GTY(()) control_flow_graph {
/* Block pointers for the exit and entry of a function.
These are always the head and tail of the basic block list. */
basic_block x_entry_block_ptr;
basic_block x_exit_block_ptr;
/* Index by basic block number, get basic block struct info. */
vec<basic_block, va_gc> *x_basic_block_info;
/* Number of basic blocks in this flow graph. */
int x_n_basic_blocks;
/* Number of edges in this flow graph. */
int x_n_edges;
/* The first free basic block number. */
int x_last_basic_block;
/* UIDs for LABEL_DECLs. */
int last_label_uid;
/* Mapping of labels to their associated blocks. At present
only used for the gimple CFG. */
vec<basic_block, va_gc> *x_label_to_block_map;
enum profile_status_d x_profile_status;
/* Whether the dominators and the postdominators are available. */
enum dom_state x_dom_computed[2];
/* Number of basic blocks in the dominance tree. */
unsigned x_n_bbs_in_dom_tree[2];
/* Maximal number of entities in the single jumptable. Used to estimate
final flowgraph size. */
int max_jumptable_ents;
};
/* Defines for accessing the fields of the CFG structure for function FN. */
#define ENTRY_BLOCK_PTR_FOR_FUNCTION(FN) ((FN)->cfg->x_entry_block_ptr)
#define EXIT_BLOCK_PTR_FOR_FUNCTION(FN) ((FN)->cfg->x_exit_block_ptr)
#define basic_block_info_for_function(FN) ((FN)->cfg->x_basic_block_info)
#define n_basic_blocks_for_function(FN) ((FN)->cfg->x_n_basic_blocks)
#define n_edges_for_function(FN) ((FN)->cfg->x_n_edges)
#define last_basic_block_for_function(FN) ((FN)->cfg->x_last_basic_block)
#define label_to_block_map_for_function(FN) ((FN)->cfg->x_label_to_block_map)
#define profile_status_for_function(FN) ((FN)->cfg->x_profile_status)
#define BASIC_BLOCK_FOR_FUNCTION(FN,N) \
((*basic_block_info_for_function(FN))[(N)])
#define SET_BASIC_BLOCK_FOR_FUNCTION(FN,N,BB) \
((*basic_block_info_for_function(FN))[(N)] = (BB))
/* Defines for textual backward source compatibility. */
#define ENTRY_BLOCK_PTR (cfun->cfg->x_entry_block_ptr)
#define EXIT_BLOCK_PTR (cfun->cfg->x_exit_block_ptr)
#define basic_block_info (cfun->cfg->x_basic_block_info)
#define n_basic_blocks (cfun->cfg->x_n_basic_blocks)
#define n_edges (cfun->cfg->x_n_edges)
#define last_basic_block (cfun->cfg->x_last_basic_block)
#define label_to_block_map (cfun->cfg->x_label_to_block_map)
#define profile_status (cfun->cfg->x_profile_status)
#define BASIC_BLOCK(N) ((*basic_block_info)[(N)])
#define SET_BASIC_BLOCK(N,BB) ((*basic_block_info)[(N)] = (BB))
/* For iterating over basic blocks. */
#define FOR_BB_BETWEEN(BB, FROM, TO, DIR) \
for (BB = FROM; BB != TO; BB = BB->DIR)
#define FOR_EACH_BB_FN(BB, FN) \
FOR_BB_BETWEEN (BB, (FN)->cfg->x_entry_block_ptr->next_bb, (FN)->cfg->x_exit_block_ptr, next_bb)
#define FOR_EACH_BB(BB) FOR_EACH_BB_FN (BB, cfun)
#define FOR_EACH_BB_REVERSE_FN(BB, FN) \
FOR_BB_BETWEEN (BB, (FN)->cfg->x_exit_block_ptr->prev_bb, (FN)->cfg->x_entry_block_ptr, prev_bb)
#define FOR_EACH_BB_REVERSE(BB) FOR_EACH_BB_REVERSE_FN(BB, cfun)
/* For iterating over insns in basic block. */
#define FOR_BB_INSNS(BB, INSN) \
for ((INSN) = BB_HEAD (BB); \
(INSN) && (INSN) != NEXT_INSN (BB_END (BB)); \
(INSN) = NEXT_INSN (INSN))
/* For iterating over insns in basic block when we might remove the
current insn. */
#define FOR_BB_INSNS_SAFE(BB, INSN, CURR) \
for ((INSN) = BB_HEAD (BB), (CURR) = (INSN) ? NEXT_INSN ((INSN)): NULL; \
(INSN) && (INSN) != NEXT_INSN (BB_END (BB)); \
(INSN) = (CURR), (CURR) = (INSN) ? NEXT_INSN ((INSN)) : NULL)
#define FOR_BB_INSNS_REVERSE(BB, INSN) \
for ((INSN) = BB_END (BB); \
(INSN) && (INSN) != PREV_INSN (BB_HEAD (BB)); \
(INSN) = PREV_INSN (INSN))
#define FOR_BB_INSNS_REVERSE_SAFE(BB, INSN, CURR) \
for ((INSN) = BB_END (BB),(CURR) = (INSN) ? PREV_INSN ((INSN)) : NULL; \
(INSN) && (INSN) != PREV_INSN (BB_HEAD (BB)); \
(INSN) = (CURR), (CURR) = (INSN) ? PREV_INSN ((INSN)) : NULL)
/* Cycles through _all_ basic blocks, even the fake ones (entry and
exit block). */
#define FOR_ALL_BB(BB) \
for (BB = ENTRY_BLOCK_PTR; BB; BB = BB->next_bb)
#define FOR_ALL_BB_FN(BB, FN) \
for (BB = ENTRY_BLOCK_PTR_FOR_FUNCTION (FN); BB; BB = BB->next_bb)
/* Stuff for recording basic block info. */
#define BB_HEAD(B) (B)->il.x.head_
#define BB_END(B) (B)->il.x.rtl->end_
#define BB_HEADER(B) (B)->il.x.rtl->header_
#define BB_FOOTER(B) (B)->il.x.rtl->footer_
/* Special block numbers [markers] for entry and exit.
Neither of them is supposed to hold actual statements. */
#define ENTRY_BLOCK (0)
#define EXIT_BLOCK (1)
/* The two blocks that are always in the cfg. */
#define NUM_FIXED_BLOCKS (2)
#define set_block_for_insn(INSN, BB) (BLOCK_FOR_INSN (INSN) = BB)
extern void compute_bb_for_insn (void);
extern unsigned int free_bb_for_insn (void);
extern void update_bb_for_insn (basic_block);
extern void insert_insn_on_edge (rtx, edge);
basic_block split_edge_and_insert (edge, rtx);
extern void commit_one_edge_insertion (edge e);
extern void commit_edge_insertions (void);
extern edge unchecked_make_edge (basic_block, basic_block, int);
extern edge cached_make_edge (sbitmap, basic_block, basic_block, int);
extern edge make_edge (basic_block, basic_block, int);
extern edge make_single_succ_edge (basic_block, basic_block, int);
extern void remove_edge_raw (edge);
extern void redirect_edge_succ (edge, basic_block);
extern edge redirect_edge_succ_nodup (edge, basic_block);
extern void redirect_edge_pred (edge, basic_block);
extern basic_block create_basic_block_structure (rtx, rtx, rtx, basic_block);
extern void clear_bb_flags (void);
extern void dump_bb_info (FILE *, basic_block, int, int, bool, bool);
extern void dump_edge_info (FILE *, edge, int, int);
extern void brief_dump_cfg (FILE *, int);
extern void clear_edges (void);
extern void scale_bbs_frequencies_int (basic_block *, int, int, int);
extern void scale_bbs_frequencies_gcov_type (basic_block *, int, gcov_type,
gcov_type);
/* Structure to group all of the information to process IF-THEN and
IF-THEN-ELSE blocks for the conditional execution support. This
needs to be in a public file in case the IFCVT macros call
functions passing the ce_if_block data structure. */
typedef struct ce_if_block
{
basic_block test_bb; /* First test block. */
basic_block then_bb; /* THEN block. */
basic_block else_bb; /* ELSE block or NULL. */
basic_block join_bb; /* Join THEN/ELSE blocks. */
basic_block last_test_bb; /* Last bb to hold && or || tests. */
int num_multiple_test_blocks; /* # of && and || basic blocks. */
int num_and_and_blocks; /* # of && blocks. */
int num_or_or_blocks; /* # of || blocks. */
int num_multiple_test_insns; /* # of insns in && and || blocks. */
int and_and_p; /* Complex test is &&. */
int num_then_insns; /* # of insns in THEN block. */
int num_else_insns; /* # of insns in ELSE block. */
int pass; /* Pass number. */
} ce_if_block_t;
/* This structure maintains an edge list vector. */
/* FIXME: Make this a vec<edge>. */
struct edge_list
{
int num_edges;
edge *index_to_edge;
};
/* The base value for branch probability notes and edge probabilities. */
#define REG_BR_PROB_BASE 10000
/* This is the value which indicates no edge is present. */
#define EDGE_INDEX_NO_EDGE -1
/* EDGE_INDEX returns an integer index for an edge, or EDGE_INDEX_NO_EDGE
if there is no edge between the 2 basic blocks. */
#define EDGE_INDEX(el, pred, succ) (find_edge_index ((el), (pred), (succ)))
/* INDEX_EDGE_PRED_BB and INDEX_EDGE_SUCC_BB return a pointer to the basic
block which is either the pred or succ end of the indexed edge. */
#define INDEX_EDGE_PRED_BB(el, index) ((el)->index_to_edge[(index)]->src)
#define INDEX_EDGE_SUCC_BB(el, index) ((el)->index_to_edge[(index)]->dest)
/* INDEX_EDGE returns a pointer to the edge. */
#define INDEX_EDGE(el, index) ((el)->index_to_edge[(index)])
/* Number of edges in the compressed edge list. */
#define NUM_EDGES(el) ((el)->num_edges)
/* BB is assumed to contain conditional jump. Return the fallthru edge. */
#define FALLTHRU_EDGE(bb) (EDGE_SUCC ((bb), 0)->flags & EDGE_FALLTHRU \
? EDGE_SUCC ((bb), 0) : EDGE_SUCC ((bb), 1))
/* BB is assumed to contain conditional jump. Return the branch edge. */
#define BRANCH_EDGE(bb) (EDGE_SUCC ((bb), 0)->flags & EDGE_FALLTHRU \
? EDGE_SUCC ((bb), 1) : EDGE_SUCC ((bb), 0))
#define RDIV(X,Y) (((X) + (Y) / 2) / (Y))
/* Return expected execution frequency of the edge E. */
#define EDGE_FREQUENCY(e) RDIV ((e)->src->frequency * (e)->probability, \
REG_BR_PROB_BASE)
/* Return nonzero if edge is critical. */
#define EDGE_CRITICAL_P(e) (EDGE_COUNT ((e)->src->succs) >= 2 \
&& EDGE_COUNT ((e)->dest->preds) >= 2)
#define EDGE_COUNT(ev) vec_safe_length (ev)
#define EDGE_I(ev,i) (*ev)[(i)]
#define EDGE_PRED(bb,i) (*(bb)->preds)[(i)]
#define EDGE_SUCC(bb,i) (*(bb)->succs)[(i)]
/* Returns true if BB has precisely one successor. */
static inline bool
single_succ_p (const_basic_block bb)
{
return EDGE_COUNT (bb->succs) == 1;
}
/* Returns true if BB has precisely one predecessor. */
static inline bool
single_pred_p (const_basic_block bb)
{
return EDGE_COUNT (bb->preds) == 1;
}
/* Returns the single successor edge of basic block BB. Aborts if
BB does not have exactly one successor. */
static inline edge
single_succ_edge (const_basic_block bb)
{
gcc_checking_assert (single_succ_p (bb));
return EDGE_SUCC (bb, 0);
}
/* Returns the single predecessor edge of basic block BB. Aborts
if BB does not have exactly one predecessor. */
static inline edge
single_pred_edge (const_basic_block bb)
{
gcc_checking_assert (single_pred_p (bb));
return EDGE_PRED (bb, 0);
}
/* Returns the single successor block of basic block BB. Aborts
if BB does not have exactly one successor. */
static inline basic_block
single_succ (const_basic_block bb)
{
return single_succ_edge (bb)->dest;
}
/* Returns the single predecessor block of basic block BB. Aborts
if BB does not have exactly one predecessor.*/
static inline basic_block
single_pred (const_basic_block bb)
{
return single_pred_edge (bb)->src;
}
/* Iterator object for edges. */
typedef struct {
unsigned index;
vec<edge, va_gc> **container;
} edge_iterator;
static inline vec<edge, va_gc> *
ei_container (edge_iterator i)
{
gcc_checking_assert (i.container);
return *i.container;
}
#define ei_start(iter) ei_start_1 (&(iter))
#define ei_last(iter) ei_last_1 (&(iter))
/* Return an iterator pointing to the start of an edge vector. */
static inline edge_iterator
ei_start_1 (vec<edge, va_gc> **ev)
{
edge_iterator i;
i.index = 0;
i.container = ev;
return i;
}
/* Return an iterator pointing to the last element of an edge
vector. */
static inline edge_iterator
ei_last_1 (vec<edge, va_gc> **ev)
{
edge_iterator i;
i.index = EDGE_COUNT (*ev) - 1;
i.container = ev;
return i;
}
/* Is the iterator `i' at the end of the sequence? */
static inline bool
ei_end_p (edge_iterator i)
{
return (i.index == EDGE_COUNT (ei_container (i)));
}
/* Is the iterator `i' at one position before the end of the
sequence? */
static inline bool
ei_one_before_end_p (edge_iterator i)
{
return (i.index + 1 == EDGE_COUNT (ei_container (i)));
}
/* Advance the iterator to the next element. */
static inline void
ei_next (edge_iterator *i)
{
gcc_checking_assert (i->index < EDGE_COUNT (ei_container (*i)));
i->index++;
}
/* Move the iterator to the previous element. */
static inline void
ei_prev (edge_iterator *i)
{
gcc_checking_assert (i->index > 0);
i->index--;
}
/* Return the edge pointed to by the iterator `i'. */
static inline edge
ei_edge (edge_iterator i)
{
return EDGE_I (ei_container (i), i.index);
}
/* Return an edge pointed to by the iterator. Do it safely so that
NULL is returned when the iterator is pointing at the end of the
sequence. */
static inline edge
ei_safe_edge (edge_iterator i)
{
return !ei_end_p (i) ? ei_edge (i) : NULL;
}
/* Return 1 if we should continue to iterate. Return 0 otherwise.
*Edge P is set to the next edge if we are to continue to iterate
and NULL otherwise. */
static inline bool
ei_cond (edge_iterator ei, edge *p)
{
if (!ei_end_p (ei))
{
*p = ei_edge (ei);
return 1;
}
else
{
*p = NULL;
return 0;
}
}
/* This macro serves as a convenient way to iterate each edge in a
vector of predecessor or successor edges. It must not be used when
an element might be removed during the traversal, otherwise
elements will be missed. Instead, use a for-loop like that shown
in the following pseudo-code:
FOR (ei = ei_start (bb->succs); (e = ei_safe_edge (ei)); )
{
IF (e != taken_edge)
remove_edge (e);
ELSE
ei_next (&ei);
}
*/
#define FOR_EACH_EDGE(EDGE,ITER,EDGE_VEC) \
for ((ITER) = ei_start ((EDGE_VEC)); \
ei_cond ((ITER), &(EDGE)); \
ei_next (&(ITER)))
#define CLEANUP_EXPENSIVE 1 /* Do relatively expensive optimizations
except for edge forwarding */
#define CLEANUP_CROSSJUMP 2 /* Do crossjumping. */
#define CLEANUP_POST_REGSTACK 4 /* We run after reg-stack and need
to care REG_DEAD notes. */
#define CLEANUP_THREADING 8 /* Do jump threading. */
#define CLEANUP_NO_INSN_DEL 16 /* Do not try to delete trivially dead
insns. */
#define CLEANUP_CFGLAYOUT 32 /* Do cleanup in cfglayout mode. */
#define CLEANUP_CFG_CHANGED 64 /* The caller changed the CFG. */
/* In cfganal.c */
extern void bitmap_intersection_of_succs (sbitmap, sbitmap *, basic_block);
extern void bitmap_intersection_of_preds (sbitmap, sbitmap *, basic_block);
extern void bitmap_union_of_succs (sbitmap, sbitmap *, basic_block);
extern void bitmap_union_of_preds (sbitmap, sbitmap *, basic_block);
/* In lcm.c */
extern struct edge_list *pre_edge_lcm (int, sbitmap *, sbitmap *,
sbitmap *, sbitmap *, sbitmap **,
sbitmap **);
extern struct edge_list *pre_edge_rev_lcm (int, sbitmap *,
sbitmap *, sbitmap *,
sbitmap *, sbitmap **,
sbitmap **);
extern void compute_available (sbitmap *, sbitmap *, sbitmap *, sbitmap *);
/* In predict.c */
extern bool maybe_hot_bb_p (struct function *, const_basic_block);
extern bool maybe_hot_edge_p (edge);
extern bool probably_never_executed_bb_p (struct function *, const_basic_block);
extern bool optimize_bb_for_size_p (const_basic_block);
extern bool optimize_bb_for_speed_p (const_basic_block);
extern bool optimize_edge_for_size_p (edge);
extern bool optimize_edge_for_speed_p (edge);
extern bool optimize_loop_for_size_p (struct loop *);
extern bool optimize_loop_for_speed_p (struct loop *);
extern bool optimize_loop_nest_for_size_p (struct loop *);
extern bool optimize_loop_nest_for_speed_p (struct loop *);
extern bool gimple_predicted_by_p (const_basic_block, enum br_predictor);
extern bool rtl_predicted_by_p (const_basic_block, enum br_predictor);
extern void gimple_predict_edge (edge, enum br_predictor, int);
extern void rtl_predict_edge (edge, enum br_predictor, int);
extern void predict_edge_def (edge, enum br_predictor, enum prediction);
extern void guess_outgoing_edge_probabilities (basic_block);
extern void remove_predictions_associated_with_edge (edge);
extern bool edge_probability_reliable_p (const_edge);
extern bool br_prob_note_reliable_p (const_rtx);
extern bool predictable_edge_p (edge);
/* In cfg.c */
extern void init_flow (struct function *);
extern void debug_bb (basic_block);
extern basic_block debug_bb_n (int);
extern void dump_flow_info (FILE *, int);
extern void expunge_block (basic_block);
extern void link_block (basic_block, basic_block);
extern void unlink_block (basic_block);
extern void compact_blocks (void);
extern basic_block alloc_block (void);
extern void alloc_aux_for_blocks (int);
extern void clear_aux_for_blocks (void);
extern void free_aux_for_blocks (void);
extern void alloc_aux_for_edge (edge, int);
extern void alloc_aux_for_edges (int);
extern void clear_aux_for_edges (void);
extern void free_aux_for_edges (void);
/* In cfganal.c */
extern void find_unreachable_blocks (void);
extern bool mark_dfs_back_edges (void);
struct edge_list * create_edge_list (void);
void free_edge_list (struct edge_list *);
void print_edge_list (FILE *, struct edge_list *);
void verify_edge_list (FILE *, struct edge_list *);
int find_edge_index (struct edge_list *, basic_block, basic_block);
edge find_edge (basic_block, basic_block);
extern void remove_fake_edges (void);
extern void remove_fake_exit_edges (void);
extern void add_noreturn_fake_exit_edges (void);
extern void connect_infinite_loops_to_exit (void);
extern int post_order_compute (int *, bool, bool);
extern basic_block dfs_find_deadend (basic_block);
extern int inverted_post_order_compute (int *);
extern int pre_and_rev_post_order_compute (int *, int *, bool);
extern int dfs_enumerate_from (basic_block, int,
bool (*)(const_basic_block, const void *),
basic_block *, int, const void *);
extern void compute_dominance_frontiers (struct bitmap_head_def *);
extern bitmap compute_idf (bitmap, struct bitmap_head_def *);
/* In cfgrtl.c */
extern rtx block_label (basic_block);
extern rtx bb_note (basic_block);
extern bool purge_all_dead_edges (void);
extern bool purge_dead_edges (basic_block);
extern bool fixup_abnormal_edges (void);
extern basic_block force_nonfallthru_and_redirect (edge, basic_block, rtx);
extern bool contains_no_active_insn_p (const_basic_block);
extern bool forwarder_block_p (const_basic_block);
extern bool can_fallthru (basic_block, basic_block);
/* In cfgbuild.c. */
extern void find_many_sub_basic_blocks (sbitmap);
extern void rtl_make_eh_edge (sbitmap, basic_block, rtx);
enum replace_direction { dir_none, dir_forward, dir_backward, dir_both };
/* In cfgcleanup.c. */
extern bool cleanup_cfg (int);
extern int flow_find_cross_jump (basic_block, basic_block, rtx *, rtx *,
enum replace_direction*);
extern int flow_find_head_matching_sequence (basic_block, basic_block,
rtx *, rtx *, int);
extern bool delete_unreachable_blocks (void);
extern void update_br_prob_note (basic_block);
extern bool inside_basic_block_p (const_rtx);
extern bool control_flow_insn_p (const_rtx);
extern rtx get_last_bb_insn (basic_block);
/* In dominance.c */
enum cdi_direction
{
CDI_DOMINATORS = 1,
CDI_POST_DOMINATORS = 2
};
extern enum dom_state dom_info_state (enum cdi_direction);
extern void set_dom_info_availability (enum cdi_direction, enum dom_state);
extern bool dom_info_available_p (enum cdi_direction);
extern void calculate_dominance_info (enum cdi_direction);
extern void free_dominance_info (enum cdi_direction);
extern basic_block nearest_common_dominator (enum cdi_direction,
basic_block, basic_block);
extern basic_block nearest_common_dominator_for_set (enum cdi_direction,
bitmap);
extern void set_immediate_dominator (enum cdi_direction, basic_block,
basic_block);
extern basic_block get_immediate_dominator (enum cdi_direction, basic_block);
extern bool dominated_by_p (enum cdi_direction, const_basic_block, const_basic_block);
extern vec<basic_block> get_dominated_by (enum cdi_direction, basic_block);
extern vec<basic_block> get_dominated_by_region (enum cdi_direction,
basic_block *,
unsigned);
extern vec<basic_block> get_dominated_to_depth (enum cdi_direction,
basic_block, int);
extern vec<basic_block> get_all_dominated_blocks (enum cdi_direction,
basic_block);
extern void add_to_dominance_info (enum cdi_direction, basic_block);
extern void delete_from_dominance_info (enum cdi_direction, basic_block);
basic_block recompute_dominator (enum cdi_direction, basic_block);
extern void redirect_immediate_dominators (enum cdi_direction, basic_block,
basic_block);
extern void iterate_fix_dominators (enum cdi_direction,
vec<basic_block> , bool);
extern void verify_dominators (enum cdi_direction);
extern basic_block first_dom_son (enum cdi_direction, basic_block);
extern basic_block next_dom_son (enum cdi_direction, basic_block);
unsigned bb_dom_dfs_in (enum cdi_direction, basic_block);
unsigned bb_dom_dfs_out (enum cdi_direction, basic_block);
extern edge try_redirect_by_replacing_jump (edge, basic_block, bool);
extern void break_superblocks (void);
extern void relink_block_chain (bool);
extern void update_bb_profile_for_threading (basic_block, int, gcov_type, edge);
extern void init_rtl_bb_info (basic_block);
extern void initialize_original_copy_tables (void);
extern void free_original_copy_tables (void);
extern void set_bb_original (basic_block, basic_block);
extern basic_block get_bb_original (basic_block);
extern void set_bb_copy (basic_block, basic_block);
extern basic_block get_bb_copy (basic_block);
void set_loop_copy (struct loop *, struct loop *);
struct loop *get_loop_copy (struct loop *);
#include "cfghooks.h"
/* Return true when one of the predecessor edges of BB is marked with EDGE_EH. */
static inline bool
bb_has_eh_pred (basic_block bb)
{
edge e;
edge_iterator ei;
FOR_EACH_EDGE (e, ei, bb->preds)
{
if (e->flags & EDGE_EH)
return true;
}
return false;
}
/* Return true when one of the predecessor edges of BB is marked with EDGE_ABNORMAL. */
static inline bool
bb_has_abnormal_pred (basic_block bb)
{
edge e;
edge_iterator ei;
FOR_EACH_EDGE (e, ei, bb->preds)
{
if (e->flags & EDGE_ABNORMAL)
return true;
}
return false;
}
/* Return the fallthru edge in EDGES if it exists, NULL otherwise. */
static inline edge
find_fallthru_edge (vec<edge, va_gc> *edges)
{
edge e;
edge_iterator ei;
FOR_EACH_EDGE (e, ei, edges)
if (e->flags & EDGE_FALLTHRU)
break;
return e;
}
/* In cfgloopmanip.c. */
extern edge mfb_kj_edge;
extern bool mfb_keep_just (edge);
/* In cfgexpand.c. */
extern void rtl_profile_for_bb (basic_block);
extern void rtl_profile_for_edge (edge);
extern void default_rtl_profile (void);
/* In profile.c. */
extern gcov_working_set_t *find_working_set(unsigned pct_times_10);
/* Check tha probability is sane. */
static inline void
check_probability (int prob)
{
gcc_checking_assert (prob >= 0 && prob <= REG_BR_PROB_BASE);
}
/* Given PROB1 and PROB2, return PROB1*PROB2/REG_BR_PROB_BASE.
Used to combine BB probabilities. */
static inline int
combine_probabilities (int prob1, int prob2)
{
check_probability (prob1);
check_probability (prob2);
return RDIV (prob1 * prob2, REG_BR_PROB_BASE);
}
/* Apply probability PROB on frequency or count FREQ. */
static inline gcov_type
apply_probability (gcov_type freq, int prob)
{
check_probability (prob);
return RDIV (freq * prob, REG_BR_PROB_BASE);
}
/* Return inverse probability for PROB. */
static inline int
inverse_probability (int prob1)
{
check_probability (prob1);
return REG_BR_PROB_BASE - prob1;
}
#endif /* GCC_BASIC_BLOCK_H */

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@ -0,0 +1,713 @@
/* Functions to support general ended bitmaps.
Copyright (C) 1997-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_BITMAP_H
#define GCC_BITMAP_H
/* Implementation of sparse integer sets as a linked list.
This sparse set representation is suitable for sparse sets with an
unknown (a priori) universe. The set is represented as a double-linked
list of container nodes (struct bitmap_element_def). Each node consists
of an index for the first member that could be held in the container,
a small array of integers that represent the members in the container,
and pointers to the next and previous element in the linked list. The
elements in the list are sorted in ascending order, i.e. the head of
the list holds the element with the smallest member of the set.
For a given member I in the set:
- the element for I will have index is I / (bits per element)
- the position for I within element is I % (bits per element)
This representation is very space-efficient for large sparse sets, and
the size of the set can be changed dynamically without much overhead.
An important parameter is the number of bits per element. In this
implementation, there are 128 bits per element. This results in a
high storage overhead *per element*, but a small overall overhead if
the set is very sparse.
The downside is that many operations are relatively slow because the
linked list has to be traversed to test membership (i.e. member_p/
add_member/remove_member). To improve the performance of this set
representation, the last accessed element and its index are cached.
For membership tests on members close to recently accessed members,
the cached last element improves membership test to a constant-time
operation.
The following operations can always be performed in O(1) time:
* clear : bitmap_clear
* choose_one : (not implemented, but could be
implemented in constant time)
The following operations can be performed in O(E) time worst-case (with
E the number of elements in the linked list), but in O(1) time with a
suitable access patterns:
* member_p : bitmap_bit_p
* add_member : bitmap_set_bit
* remove_member : bitmap_clear_bit
The following operations can be performed in O(E) time:
* cardinality : bitmap_count_bits
* set_size : bitmap_last_set_bit (but this could
in constant time with a pointer to
the last element in the chain)
Additionally, the linked-list sparse set representation supports
enumeration of the members in O(E) time:
* forall : EXECUTE_IF_SET_IN_BITMAP
* set_copy : bitmap_copy
* set_intersection : bitmap_intersect_p /
bitmap_and / bitmap_and_into /
EXECUTE_IF_AND_IN_BITMAP
* set_union : bitmap_ior / bitmap_ior_into
* set_difference : bitmap_intersect_compl_p /
bitmap_and_comp / bitmap_and_comp_into /
EXECUTE_IF_AND_COMPL_IN_BITMAP
* set_disjuction : bitmap_xor_comp / bitmap_xor_comp_into
* set_compare : bitmap_equal_p
Some operations on 3 sets that occur frequently in in data flow problems
are also implemented:
* A | (B & C) : bitmap_ior_and_into
* A | (B & ~C) : bitmap_ior_and_compl /
bitmap_ior_and_compl_into
The storage requirements for linked-list sparse sets are O(E), with E->N
in the worst case (a sparse set with large distances between the values
of the set members).
The linked-list set representation works well for problems involving very
sparse sets. The canonical example in GCC is, of course, the "set of
sets" for some CFG-based data flow problems (liveness analysis, dominance
frontiers, etc.).
This representation also works well for data flow problems where the size
of the set may grow dynamically, but care must be taken that the member_p,
add_member, and remove_member operations occur with a suitable access
pattern.
For random-access sets with a known, relatively small universe size, the
SparseSet or simple bitmap representations may be more efficient than a
linked-list set. For random-access sets of unknown universe, a hash table
or a balanced binary tree representation is likely to be a more suitable
choice.
Traversing linked lists is usually cache-unfriendly, even with the last
accessed element cached.
Cache performance can be improved by keeping the elements in the set
grouped together in memory, using a dedicated obstack for a set (or group
of related sets). Elements allocated on obstacks are released to a
free-list and taken off the free list. If multiple sets are allocated on
the same obstack, elements freed from one set may be re-used for one of
the other sets. This usually helps avoid cache misses.
A single free-list is used for all sets allocated in GGC space. This is
bad for persistent sets, so persistent sets should be allocated on an
obstack whenever possible. */
#include "hashtab.h"
#include "statistics.h"
#include "obstack.h"
/* Fundamental storage type for bitmap. */
typedef unsigned long BITMAP_WORD;
/* BITMAP_WORD_BITS needs to be unsigned, but cannot contain casts as
it is used in preprocessor directives -- hence the 1u. */
#define BITMAP_WORD_BITS (CHAR_BIT * SIZEOF_LONG * 1u)
/* Number of words to use for each element in the linked list. */
#ifndef BITMAP_ELEMENT_WORDS
#define BITMAP_ELEMENT_WORDS ((128 + BITMAP_WORD_BITS - 1) / BITMAP_WORD_BITS)
#endif
/* Number of bits in each actual element of a bitmap. */
#define BITMAP_ELEMENT_ALL_BITS (BITMAP_ELEMENT_WORDS * BITMAP_WORD_BITS)
/* Obstack for allocating bitmaps and elements from. */
typedef struct GTY (()) bitmap_obstack {
struct bitmap_element_def *elements;
struct bitmap_head_def *heads;
struct obstack GTY ((skip)) obstack;
} bitmap_obstack;
/* Bitmap set element. We use a linked list to hold only the bits that
are set. This allows for use to grow the bitset dynamically without
having to realloc and copy a giant bit array.
The free list is implemented as a list of lists. There is one
outer list connected together by prev fields. Each element of that
outer is an inner list (that may consist only of the outer list
element) that are connected by the next fields. The prev pointer
is undefined for interior elements. This allows
bitmap_elt_clear_from to be implemented in unit time rather than
linear in the number of elements to be freed. */
typedef struct GTY((chain_next ("%h.next"), chain_prev ("%h.prev"))) bitmap_element_def {
struct bitmap_element_def *next; /* Next element. */
struct bitmap_element_def *prev; /* Previous element. */
unsigned int indx; /* regno/BITMAP_ELEMENT_ALL_BITS. */
BITMAP_WORD bits[BITMAP_ELEMENT_WORDS]; /* Bits that are set. */
} bitmap_element;
/* Head of bitmap linked list. The 'current' member points to something
already pointed to by the chain started by first, so GTY((skip)) it. */
typedef struct GTY(()) bitmap_head_def {
unsigned int indx; /* Index of last element looked at. */
unsigned int descriptor_id; /* Unique identifier for the allocation
site of this bitmap, for detailed
statistics gathering. */
bitmap_element *first; /* First element in linked list. */
bitmap_element * GTY((skip(""))) current; /* Last element looked at. */
bitmap_obstack *obstack; /* Obstack to allocate elements from.
If NULL, then use GGC allocation. */
} bitmap_head;
/* Global data */
extern bitmap_element bitmap_zero_bits; /* Zero bitmap element */
extern bitmap_obstack bitmap_default_obstack; /* Default bitmap obstack */
/* Clear a bitmap by freeing up the linked list. */
extern void bitmap_clear (bitmap);
/* Copy a bitmap to another bitmap. */
extern void bitmap_copy (bitmap, const_bitmap);
/* True if two bitmaps are identical. */
extern bool bitmap_equal_p (const_bitmap, const_bitmap);
/* True if the bitmaps intersect (their AND is non-empty). */
extern bool bitmap_intersect_p (const_bitmap, const_bitmap);
/* True if the complement of the second intersects the first (their
AND_COMPL is non-empty). */
extern bool bitmap_intersect_compl_p (const_bitmap, const_bitmap);
/* True if MAP is an empty bitmap. */
inline bool bitmap_empty_p (const_bitmap map)
{
return !map->first;
}
/* True if the bitmap has only a single bit set. */
extern bool bitmap_single_bit_set_p (const_bitmap);
/* Count the number of bits set in the bitmap. */
extern unsigned long bitmap_count_bits (const_bitmap);
/* Boolean operations on bitmaps. The _into variants are two operand
versions that modify the first source operand. The other variants
are three operand versions that to not destroy the source bitmaps.
The operations supported are &, & ~, |, ^. */
extern void bitmap_and (bitmap, const_bitmap, const_bitmap);
extern bool bitmap_and_into (bitmap, const_bitmap);
extern bool bitmap_and_compl (bitmap, const_bitmap, const_bitmap);
extern bool bitmap_and_compl_into (bitmap, const_bitmap);
#define bitmap_compl_and(DST, A, B) bitmap_and_compl (DST, B, A)
extern void bitmap_compl_and_into (bitmap, const_bitmap);
extern void bitmap_clear_range (bitmap, unsigned int, unsigned int);
extern void bitmap_set_range (bitmap, unsigned int, unsigned int);
extern bool bitmap_ior (bitmap, const_bitmap, const_bitmap);
extern bool bitmap_ior_into (bitmap, const_bitmap);
extern void bitmap_xor (bitmap, const_bitmap, const_bitmap);
extern void bitmap_xor_into (bitmap, const_bitmap);
/* DST = A | (B & C). Return true if DST changes. */
extern bool bitmap_ior_and_into (bitmap DST, const_bitmap B, const_bitmap C);
/* DST = A | (B & ~C). Return true if DST changes. */
extern bool bitmap_ior_and_compl (bitmap DST, const_bitmap A,
const_bitmap B, const_bitmap C);
/* A |= (B & ~C). Return true if A changes. */
extern bool bitmap_ior_and_compl_into (bitmap A,
const_bitmap B, const_bitmap C);
/* Clear a single bit in a bitmap. Return true if the bit changed. */
extern bool bitmap_clear_bit (bitmap, int);
/* Set a single bit in a bitmap. Return true if the bit changed. */
extern bool bitmap_set_bit (bitmap, int);
/* Return true if a register is set in a register set. */
extern int bitmap_bit_p (bitmap, int);
/* Debug functions to print a bitmap linked list. */
extern void debug_bitmap (const_bitmap);
extern void debug_bitmap_file (FILE *, const_bitmap);
/* Print a bitmap. */
extern void bitmap_print (FILE *, const_bitmap, const char *, const char *);
/* Initialize and release a bitmap obstack. */
extern void bitmap_obstack_initialize (bitmap_obstack *);
extern void bitmap_obstack_release (bitmap_obstack *);
extern void bitmap_register (bitmap MEM_STAT_DECL);
extern void dump_bitmap_statistics (void);
/* Initialize a bitmap header. OBSTACK indicates the bitmap obstack
to allocate from, NULL for GC'd bitmap. */
static inline void
bitmap_initialize_stat (bitmap head, bitmap_obstack *obstack MEM_STAT_DECL)
{
head->first = head->current = NULL;
head->obstack = obstack;
if (GATHER_STATISTICS)
bitmap_register (head PASS_MEM_STAT);
}
#define bitmap_initialize(h,o) bitmap_initialize_stat (h,o MEM_STAT_INFO)
/* Allocate and free bitmaps from obstack, malloc and gc'd memory. */
extern bitmap bitmap_obstack_alloc_stat (bitmap_obstack *obstack MEM_STAT_DECL);
#define bitmap_obstack_alloc(t) bitmap_obstack_alloc_stat (t MEM_STAT_INFO)
extern bitmap bitmap_gc_alloc_stat (ALONE_MEM_STAT_DECL);
#define bitmap_gc_alloc() bitmap_gc_alloc_stat (ALONE_MEM_STAT_INFO)
extern void bitmap_obstack_free (bitmap);
/* A few compatibility/functions macros for compatibility with sbitmaps */
inline void dump_bitmap (FILE *file, const_bitmap map)
{
bitmap_print (file, map, "", "\n");
}
extern unsigned bitmap_first_set_bit (const_bitmap);
extern unsigned bitmap_last_set_bit (const_bitmap);
/* Compute bitmap hash (for purposes of hashing etc.) */
extern hashval_t bitmap_hash(const_bitmap);
/* Allocate a bitmap from a bit obstack. */
#define BITMAP_ALLOC(OBSTACK) bitmap_obstack_alloc (OBSTACK)
/* Allocate a gc'd bitmap. */
#define BITMAP_GGC_ALLOC() bitmap_gc_alloc ()
/* Do any cleanup needed on a bitmap when it is no longer used. */
#define BITMAP_FREE(BITMAP) \
((void) (bitmap_obstack_free ((bitmap) BITMAP), (BITMAP) = (bitmap) NULL))
/* Iterator for bitmaps. */
typedef struct
{
/* Pointer to the current bitmap element. */
bitmap_element *elt1;
/* Pointer to 2nd bitmap element when two are involved. */
bitmap_element *elt2;
/* Word within the current element. */
unsigned word_no;
/* Contents of the actually processed word. When finding next bit
it is shifted right, so that the actual bit is always the least
significant bit of ACTUAL. */
BITMAP_WORD bits;
} bitmap_iterator;
/* Initialize a single bitmap iterator. START_BIT is the first bit to
iterate from. */
static inline void
bmp_iter_set_init (bitmap_iterator *bi, const_bitmap map,
unsigned start_bit, unsigned *bit_no)
{
bi->elt1 = map->first;
bi->elt2 = NULL;
/* Advance elt1 until it is not before the block containing start_bit. */
while (1)
{
if (!bi->elt1)
{
bi->elt1 = &bitmap_zero_bits;
break;
}
if (bi->elt1->indx >= start_bit / BITMAP_ELEMENT_ALL_BITS)
break;
bi->elt1 = bi->elt1->next;
}
/* We might have gone past the start bit, so reinitialize it. */
if (bi->elt1->indx != start_bit / BITMAP_ELEMENT_ALL_BITS)
start_bit = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
/* Initialize for what is now start_bit. */
bi->word_no = start_bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
bi->bits = bi->elt1->bits[bi->word_no];
bi->bits >>= start_bit % BITMAP_WORD_BITS;
/* If this word is zero, we must make sure we're not pointing at the
first bit, otherwise our incrementing to the next word boundary
will fail. It won't matter if this increment moves us into the
next word. */
start_bit += !bi->bits;
*bit_no = start_bit;
}
/* Initialize an iterator to iterate over the intersection of two
bitmaps. START_BIT is the bit to commence from. */
static inline void
bmp_iter_and_init (bitmap_iterator *bi, const_bitmap map1, const_bitmap map2,
unsigned start_bit, unsigned *bit_no)
{
bi->elt1 = map1->first;
bi->elt2 = map2->first;
/* Advance elt1 until it is not before the block containing
start_bit. */
while (1)
{
if (!bi->elt1)
{
bi->elt2 = NULL;
break;
}
if (bi->elt1->indx >= start_bit / BITMAP_ELEMENT_ALL_BITS)
break;
bi->elt1 = bi->elt1->next;
}
/* Advance elt2 until it is not before elt1. */
while (1)
{
if (!bi->elt2)
{
bi->elt1 = bi->elt2 = &bitmap_zero_bits;
break;
}
if (bi->elt2->indx >= bi->elt1->indx)
break;
bi->elt2 = bi->elt2->next;
}
/* If we're at the same index, then we have some intersecting bits. */
if (bi->elt1->indx == bi->elt2->indx)
{
/* We might have advanced beyond the start_bit, so reinitialize
for that. */
if (bi->elt1->indx != start_bit / BITMAP_ELEMENT_ALL_BITS)
start_bit = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
bi->word_no = start_bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
bi->bits = bi->elt1->bits[bi->word_no] & bi->elt2->bits[bi->word_no];
bi->bits >>= start_bit % BITMAP_WORD_BITS;
}
else
{
/* Otherwise we must immediately advance elt1, so initialize for
that. */
bi->word_no = BITMAP_ELEMENT_WORDS - 1;
bi->bits = 0;
}
/* If this word is zero, we must make sure we're not pointing at the
first bit, otherwise our incrementing to the next word boundary
will fail. It won't matter if this increment moves us into the
next word. */
start_bit += !bi->bits;
*bit_no = start_bit;
}
/* Initialize an iterator to iterate over the bits in MAP1 & ~MAP2.
*/
static inline void
bmp_iter_and_compl_init (bitmap_iterator *bi,
const_bitmap map1, const_bitmap map2,
unsigned start_bit, unsigned *bit_no)
{
bi->elt1 = map1->first;
bi->elt2 = map2->first;
/* Advance elt1 until it is not before the block containing start_bit. */
while (1)
{
if (!bi->elt1)
{
bi->elt1 = &bitmap_zero_bits;
break;
}
if (bi->elt1->indx >= start_bit / BITMAP_ELEMENT_ALL_BITS)
break;
bi->elt1 = bi->elt1->next;
}
/* Advance elt2 until it is not before elt1. */
while (bi->elt2 && bi->elt2->indx < bi->elt1->indx)
bi->elt2 = bi->elt2->next;
/* We might have advanced beyond the start_bit, so reinitialize for
that. */
if (bi->elt1->indx != start_bit / BITMAP_ELEMENT_ALL_BITS)
start_bit = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
bi->word_no = start_bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
bi->bits = bi->elt1->bits[bi->word_no];
if (bi->elt2 && bi->elt1->indx == bi->elt2->indx)
bi->bits &= ~bi->elt2->bits[bi->word_no];
bi->bits >>= start_bit % BITMAP_WORD_BITS;
/* If this word is zero, we must make sure we're not pointing at the
first bit, otherwise our incrementing to the next word boundary
will fail. It won't matter if this increment moves us into the
next word. */
start_bit += !bi->bits;
*bit_no = start_bit;
}
/* Advance to the next bit in BI. We don't advance to the next
nonzero bit yet. */
static inline void
bmp_iter_next (bitmap_iterator *bi, unsigned *bit_no)
{
bi->bits >>= 1;
*bit_no += 1;
}
/* Advance to first set bit in BI. */
static inline void
bmp_iter_next_bit (bitmap_iterator * bi, unsigned *bit_no)
{
#if (GCC_VERSION >= 3004)
{
unsigned int n = __builtin_ctzl (bi->bits);
gcc_assert (sizeof (unsigned long) == sizeof (BITMAP_WORD));
bi->bits >>= n;
*bit_no += n;
}
#else
while (!(bi->bits & 1))
{
bi->bits >>= 1;
*bit_no += 1;
}
#endif
}
/* Advance to the next nonzero bit of a single bitmap, we will have
already advanced past the just iterated bit. Return true if there
is a bit to iterate. */
static inline bool
bmp_iter_set (bitmap_iterator *bi, unsigned *bit_no)
{
/* If our current word is nonzero, it contains the bit we want. */
if (bi->bits)
{
next_bit:
bmp_iter_next_bit (bi, bit_no);
return true;
}
/* Round up to the word boundary. We might have just iterated past
the end of the last word, hence the -1. It is not possible for
bit_no to point at the beginning of the now last word. */
*bit_no = ((*bit_no + BITMAP_WORD_BITS - 1)
/ BITMAP_WORD_BITS * BITMAP_WORD_BITS);
bi->word_no++;
while (1)
{
/* Find the next nonzero word in this elt. */
while (bi->word_no != BITMAP_ELEMENT_WORDS)
{
bi->bits = bi->elt1->bits[bi->word_no];
if (bi->bits)
goto next_bit;
*bit_no += BITMAP_WORD_BITS;
bi->word_no++;
}
/* Advance to the next element. */
bi->elt1 = bi->elt1->next;
if (!bi->elt1)
return false;
*bit_no = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
bi->word_no = 0;
}
}
/* Advance to the next nonzero bit of an intersecting pair of
bitmaps. We will have already advanced past the just iterated bit.
Return true if there is a bit to iterate. */
static inline bool
bmp_iter_and (bitmap_iterator *bi, unsigned *bit_no)
{
/* If our current word is nonzero, it contains the bit we want. */
if (bi->bits)
{
next_bit:
bmp_iter_next_bit (bi, bit_no);
return true;
}
/* Round up to the word boundary. We might have just iterated past
the end of the last word, hence the -1. It is not possible for
bit_no to point at the beginning of the now last word. */
*bit_no = ((*bit_no + BITMAP_WORD_BITS - 1)
/ BITMAP_WORD_BITS * BITMAP_WORD_BITS);
bi->word_no++;
while (1)
{
/* Find the next nonzero word in this elt. */
while (bi->word_no != BITMAP_ELEMENT_WORDS)
{
bi->bits = bi->elt1->bits[bi->word_no] & bi->elt2->bits[bi->word_no];
if (bi->bits)
goto next_bit;
*bit_no += BITMAP_WORD_BITS;
bi->word_no++;
}
/* Advance to the next identical element. */
do
{
/* Advance elt1 while it is less than elt2. We always want
to advance one elt. */
do
{
bi->elt1 = bi->elt1->next;
if (!bi->elt1)
return false;
}
while (bi->elt1->indx < bi->elt2->indx);
/* Advance elt2 to be no less than elt1. This might not
advance. */
while (bi->elt2->indx < bi->elt1->indx)
{
bi->elt2 = bi->elt2->next;
if (!bi->elt2)
return false;
}
}
while (bi->elt1->indx != bi->elt2->indx);
*bit_no = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
bi->word_no = 0;
}
}
/* Advance to the next nonzero bit in the intersection of
complemented bitmaps. We will have already advanced past the just
iterated bit. */
static inline bool
bmp_iter_and_compl (bitmap_iterator *bi, unsigned *bit_no)
{
/* If our current word is nonzero, it contains the bit we want. */
if (bi->bits)
{
next_bit:
bmp_iter_next_bit (bi, bit_no);
return true;
}
/* Round up to the word boundary. We might have just iterated past
the end of the last word, hence the -1. It is not possible for
bit_no to point at the beginning of the now last word. */
*bit_no = ((*bit_no + BITMAP_WORD_BITS - 1)
/ BITMAP_WORD_BITS * BITMAP_WORD_BITS);
bi->word_no++;
while (1)
{
/* Find the next nonzero word in this elt. */
while (bi->word_no != BITMAP_ELEMENT_WORDS)
{
bi->bits = bi->elt1->bits[bi->word_no];
if (bi->elt2 && bi->elt2->indx == bi->elt1->indx)
bi->bits &= ~bi->elt2->bits[bi->word_no];
if (bi->bits)
goto next_bit;
*bit_no += BITMAP_WORD_BITS;
bi->word_no++;
}
/* Advance to the next element of elt1. */
bi->elt1 = bi->elt1->next;
if (!bi->elt1)
return false;
/* Advance elt2 until it is no less than elt1. */
while (bi->elt2 && bi->elt2->indx < bi->elt1->indx)
bi->elt2 = bi->elt2->next;
*bit_no = bi->elt1->indx * BITMAP_ELEMENT_ALL_BITS;
bi->word_no = 0;
}
}
/* Loop over all bits set in BITMAP, starting with MIN and setting
BITNUM to the bit number. ITER is a bitmap iterator. BITNUM
should be treated as a read-only variable as it contains loop
state. */
#ifndef EXECUTE_IF_SET_IN_BITMAP
/* See sbitmap.h for the other definition of EXECUTE_IF_SET_IN_BITMAP. */
#define EXECUTE_IF_SET_IN_BITMAP(BITMAP, MIN, BITNUM, ITER) \
for (bmp_iter_set_init (&(ITER), (BITMAP), (MIN), &(BITNUM)); \
bmp_iter_set (&(ITER), &(BITNUM)); \
bmp_iter_next (&(ITER), &(BITNUM)))
#endif
/* Loop over all the bits set in BITMAP1 & BITMAP2, starting with MIN
and setting BITNUM to the bit number. ITER is a bitmap iterator.
BITNUM should be treated as a read-only variable as it contains
loop state. */
#define EXECUTE_IF_AND_IN_BITMAP(BITMAP1, BITMAP2, MIN, BITNUM, ITER) \
for (bmp_iter_and_init (&(ITER), (BITMAP1), (BITMAP2), (MIN), \
&(BITNUM)); \
bmp_iter_and (&(ITER), &(BITNUM)); \
bmp_iter_next (&(ITER), &(BITNUM)))
/* Loop over all the bits set in BITMAP1 & ~BITMAP2, starting with MIN
and setting BITNUM to the bit number. ITER is a bitmap iterator.
BITNUM should be treated as a read-only variable as it contains
loop state. */
#define EXECUTE_IF_AND_COMPL_IN_BITMAP(BITMAP1, BITMAP2, MIN, BITNUM, ITER) \
for (bmp_iter_and_compl_init (&(ITER), (BITMAP1), (BITMAP2), (MIN), \
&(BITNUM)); \
bmp_iter_and_compl (&(ITER), &(BITNUM)); \
bmp_iter_next (&(ITER), &(BITNUM)))
#endif /* GCC_BITMAP_H */

View file

@ -0,0 +1,839 @@
/* This file contains the definitions and documentation for the
builtins used in the GNU compiler.
Copyright (C) 2000-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Before including this file, you should define a macro:
DEF_BUILTIN (ENUM, NAME, CLASS, TYPE, LIBTYPE, BOTH_P,
FALLBACK_P, NONANSI_P, ATTRS, IMPLICIT, COND)
This macro will be called once for each builtin function. The
ENUM will be of type `enum built_in_function', and will indicate
which builtin function is being processed. The NAME of the builtin
function (which will always start with `__builtin_') is a string
literal. The CLASS is of type `enum built_in_class' and indicates
what kind of builtin is being processed.
Some builtins are actually two separate functions. For example,
for `strcmp' there are two builtin functions; `__builtin_strcmp'
and `strcmp' itself. Both behave identically. Other builtins
define only the `__builtin' variant. If BOTH_P is TRUE, then this
builtin has both variants; otherwise, it is has only the first
variant.
TYPE indicates the type of the function. The symbols correspond to
enumerals from builtin-types.def. If BOTH_P is true, then LIBTYPE
is the type of the non-`__builtin_' variant. Otherwise, LIBTYPE
should be ignored.
If FALLBACK_P is true then, if for some reason, the compiler cannot
expand the builtin function directly, it will call the
corresponding library function (which does not have the
`__builtin_' prefix.
If NONANSI_P is true, then the non-`__builtin_' variant is not an
ANSI/ISO library function, and so we should pretend it does not
exist when compiling in ANSI conformant mode.
ATTRs is an attribute list as defined in builtin-attrs.def that
describes the attributes of this builtin function.
IMPLICIT specifies condition when the builtin can be produced by
compiler. For instance C90 reserves floorf function, but does not
define it's meaning. When user uses floorf we may assume that the
floorf has the meaning we expect, but we can't produce floorf by
simplifying floor((double)float) since the runtime need not implement
it.
The builtins is registered only if COND is true. */
/* A GCC builtin (like __builtin_saveregs) is provided by the
compiler, but does not correspond to a function in the standard
library. */
#undef DEF_GCC_BUILTIN
#define DEF_GCC_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, BT_LAST, \
false, false, false, ATTRS, true, true)
/* Like DEF_GCC_BUILTIN, except we don't prepend "__builtin_". */
#undef DEF_SYNC_BUILTIN
#define DEF_SYNC_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, NAME, BUILT_IN_NORMAL, TYPE, BT_LAST, \
false, false, false, ATTRS, true, true)
/* A library builtin (like __builtin_strchr) is a builtin equivalent
of an ANSI/ISO standard library function. In addition to the
`__builtin' version, we will create an ordinary version (e.g,
`strchr') as well. If we cannot compute the answer using the
builtin function, we will fall back to the standard library
version. */
#undef DEF_LIB_BUILTIN
#define DEF_LIB_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, false, ATTRS, true, true)
/* Like DEF_LIB_BUILTIN, except that the function is not one that is
specified by ANSI/ISO C. So, when we're being fully conformant we
ignore the version of these builtins that does not begin with
__builtin. */
#undef DEF_EXT_LIB_BUILTIN
#define DEF_EXT_LIB_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, true, ATTRS, false, true)
/* Like DEF_LIB_BUILTIN, except that the function is only a part of
the standard in C94 or above. */
#undef DEF_C94_BUILTIN
#define DEF_C94_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, !flag_isoc94, ATTRS, TARGET_C99_FUNCTIONS, true)
/* Like DEF_LIB_BUILTIN, except that the function is only a part of
the standard in C99 or above. */
#undef DEF_C99_BUILTIN
#define DEF_C99_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, !flag_isoc99, ATTRS, TARGET_C99_FUNCTIONS, true)
/* Builtin that is specified by C99 and C90 reserve the name for future use.
We can still recognize the builtin in C90 mode but we can't produce it
implicitly. */
#undef DEF_C99_C90RES_BUILTIN
#define DEF_C99_C90RES_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, !flag_isoc99, ATTRS, TARGET_C99_FUNCTIONS, true)
/* Builtin that C99 reserve the name for future use. We can still recognize
the builtin in C99 mode but we can't produce it implicitly. */
#undef DEF_EXT_C99RES_BUILTIN
#define DEF_EXT_C99RES_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, true, ATTRS, false, true)
/* Allocate the enum and the name for a builtin, but do not actually
define it here at all. */
#undef DEF_BUILTIN_STUB
#define DEF_BUILTIN_STUB(ENUM, NAME) \
DEF_BUILTIN (ENUM, NAME, BUILT_IN_NORMAL, BT_LAST, BT_LAST, false, false, \
false, ATTR_LAST, false, false)
/* Builtin used by the implementation of GNU OpenMP. None of these are
actually implemented in the compiler; they're all in libgomp. */
#undef DEF_GOMP_BUILTIN
#define DEF_GOMP_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
false, true, true, ATTRS, false, \
(flag_openmp || flag_tree_parallelize_loops))
/* Builtin used by the implementation of GNU TM. These
functions are mapped to the actual implementation of the STM library. */
#undef DEF_TM_BUILTIN
#define DEF_TM_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, true, ATTRS, false, flag_tm)
/* Builtin used by the implementation of libsanitizer. These
functions are mapped to the actual implementation of the
libtsan library. */
#undef DEF_SANITIZER_BUILTIN
#define DEF_SANITIZER_BUILTIN(ENUM, NAME, TYPE, ATTRS) \
DEF_BUILTIN (ENUM, "__builtin_" NAME, BUILT_IN_NORMAL, TYPE, TYPE, \
true, true, true, ATTRS, true, \
(flag_asan || flag_tsan))
/* Define an attribute list for math functions that are normally
"impure" because some of them may write into global memory for
`errno'. If !flag_errno_math they are instead "const". */
#undef ATTR_MATHFN_ERRNO
#define ATTR_MATHFN_ERRNO (flag_errno_math ? \
ATTR_NOTHROW_LEAF_LIST : ATTR_CONST_NOTHROW_LEAF_LIST)
/* Define an attribute list for math functions that are normally
"const" but if flag_rounding_math is set they are instead "pure".
This distinction accounts for the fact that some math functions
check the rounding mode which is akin to examining global
memory. */
#undef ATTR_MATHFN_FPROUNDING
#define ATTR_MATHFN_FPROUNDING (flag_rounding_math ? \
ATTR_PURE_NOTHROW_LEAF_LIST : ATTR_CONST_NOTHROW_LEAF_LIST)
/* Define an attribute list for math functions that are normally
"impure" because some of them may write into global memory for
`errno'. If !flag_errno_math, we can possibly use "pure" or
"const" depending on whether we care about FP rounding. */
#undef ATTR_MATHFN_FPROUNDING_ERRNO
#define ATTR_MATHFN_FPROUNDING_ERRNO (flag_errno_math ? \
ATTR_NOTHROW_LEAF_LIST : ATTR_MATHFN_FPROUNDING)
/* Define an attribute list for math functions that need to mind FP
rounding, but because they store into memory they are never "const"
or "pure". Use of this macro is mainly for documentation and
maintenance purposes. */
#undef ATTR_MATHFN_FPROUNDING_STORE
#define ATTR_MATHFN_FPROUNDING_STORE ATTR_NOTHROW_LEAF_LIST
/* Make sure 0 is not a legitimate builtin. */
DEF_BUILTIN_STUB(BUILT_IN_NONE, (const char *)0)
/* Category: math builtins. */
DEF_LIB_BUILTIN (BUILT_IN_ACOS, "acos", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ACOSF, "acosf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ACOSH, "acosh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ACOSHF, "acoshf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ACOSHL, "acoshl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ACOSL, "acosl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_ASIN, "asin", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ASINF, "asinf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ASINH, "asinh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_ASINHF, "asinhf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_ASINHL, "asinhl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ASINL, "asinl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_ATAN, "atan", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_ATAN2, "atan2", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ATAN2F, "atan2f", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ATAN2L, "atan2l", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ATANF, "atanf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_ATANH, "atanh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ATANHF, "atanhf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ATANHL, "atanhl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ATANL, "atanl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CBRT, "cbrt", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CBRTF, "cbrtf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CBRTL, "cbrtl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_CEIL, "ceil", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_CEILF, "ceilf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_CEILL, "ceill", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_COPYSIGN, "copysign", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_COPYSIGNF, "copysignf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_COPYSIGNL, "copysignl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_COS, "cos", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_COSF, "cosf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_COSH, "cosh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_COSHF, "coshf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_COSHL, "coshl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_COSL, "cosl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_EXT_LIB_BUILTIN (BUILT_IN_DREM, "drem", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_DREMF, "dremf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_DREML, "dreml", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ERF, "erf", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_ERFC, "erfc", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ERFCF, "erfcf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ERFCL, "erfcl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ERFF, "erff", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_ERFL, "erfl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_EXP, "exp", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXP10, "exp10", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXP10F, "exp10f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXP10L, "exp10l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXP2, "exp2", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXP2F, "exp2f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXP2L, "exp2l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_EXPF, "expf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_EXPL, "expl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXPM1, "expm1", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXPM1F, "expm1f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_EXPM1L, "expm1l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_FABS, "fabs", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FABSF, "fabsf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FABSL, "fabsl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FDIM, "fdim", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_FDIMF, "fdimf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_FDIML, "fdiml", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_FLOOR, "floor", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FLOORF, "floorf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FLOORL, "floorl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMA, "fma", BT_FN_DOUBLE_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_FMAF, "fmaf", BT_FN_FLOAT_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_FMAL, "fmal", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_FMAX, "fmax", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMAXF, "fmaxf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMAXL, "fmaxl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMIN, "fmin", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMINF, "fminf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_FMINL, "fminl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_FMOD, "fmod", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FMODF, "fmodf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FMODL, "fmodl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_FREXP, "frexp", BT_FN_DOUBLE_DOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FREXPF, "frexpf", BT_FN_FLOAT_FLOAT_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_C90RES_BUILTIN (BUILT_IN_FREXPL, "frexpl", BT_FN_LONGDOUBLE_LONGDOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMA, "gamma", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMAF, "gammaf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMAL, "gammal", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMA_R, "gamma_r", BT_FN_DOUBLE_DOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMAF_R, "gammaf_r", BT_FN_FLOAT_FLOAT_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GAMMAL_R, "gammal_r", BT_FN_LONGDOUBLE_LONGDOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_GCC_BUILTIN (BUILT_IN_HUGE_VAL, "huge_val", BT_FN_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_HUGE_VALF, "huge_valf", BT_FN_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_HUGE_VALL, "huge_vall", BT_FN_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_HYPOT, "hypot", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_HYPOTF, "hypotf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_HYPOTL, "hypotl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_ICEIL, "iceil", BT_FN_INT_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_ICEILF, "iceilf", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_ICEILL, "iceill", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_IFLOOR, "ifloor", BT_FN_INT_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_IFLOORF, "ifloorf", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_IFLOORL, "ifloorl", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_ILOGB, "ilogb", BT_FN_INT_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ILOGBF, "ilogbf", BT_FN_INT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ILOGBL, "ilogbl", BT_FN_INT_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_INF, "inf", BT_FN_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INFF, "inff", BT_FN_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INFL, "infl", BT_FN_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INFD32, "infd32", BT_FN_DFLOAT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INFD64, "infd64", BT_FN_DFLOAT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INFD128, "infd128", BT_FN_DFLOAT128, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_IRINT, "irint", BT_FN_INT_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_IRINTF, "irintf", BT_FN_INT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_IRINTL, "irintl", BT_FN_INT_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_IROUND, "iround", BT_FN_INT_DOUBLE, ATTR_MATHFN_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_IROUNDF, "iroundf", BT_FN_INT_FLOAT, ATTR_MATHFN_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_IROUNDL, "iroundl", BT_FN_INT_LONGDOUBLE, ATTR_MATHFN_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J0, "j0", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J0F, "j0f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J0L, "j0l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J1, "j1", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J1F, "j1f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_J1L, "j1l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_JN, "jn", BT_FN_DOUBLE_INT_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_JNF, "jnf", BT_FN_FLOAT_INT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_JNL, "jnl", BT_FN_LONGDOUBLE_INT_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_LCEIL, "lceil", BT_FN_LONG_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LCEILF, "lceilf", BT_FN_LONG_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LCEILL, "lceill", BT_FN_LONG_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_LDEXP, "ldexp", BT_FN_DOUBLE_DOUBLE_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LDEXPF, "ldexpf", BT_FN_FLOAT_FLOAT_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LDEXPL, "ldexpl", BT_FN_LONGDOUBLE_LONGDOUBLE_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_LFLOOR, "lfloor", BT_FN_LONG_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LFLOORF, "lfloorf", BT_FN_LONG_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LFLOORL, "lfloorl", BT_FN_LONG_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_LGAMMA, "lgamma", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_LGAMMAF, "lgammaf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_LGAMMAL, "lgammal", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_LGAMMA_R, "lgamma_r", BT_FN_DOUBLE_DOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_LGAMMAF_R, "lgammaf_r", BT_FN_FLOAT_FLOAT_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_LGAMMAL_R, "lgammal_r", BT_FN_LONGDOUBLE_LONGDOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_GCC_BUILTIN (BUILT_IN_LLCEIL, "llceil", BT_FN_LONGLONG_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LLCEILF, "llceilf", BT_FN_LONGLONG_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LLCEILL, "llceill", BT_FN_LONGLONG_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LLFLOOR, "llfloor", BT_FN_LONGLONG_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LLFLOORF, "llfloorf", BT_FN_LONGLONG_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LLFLOORL, "llfloorl", BT_FN_LONGLONG_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_LLRINT, "llrint", BT_FN_LONGLONG_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LLRINTF, "llrintf", BT_FN_LONGLONG_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LLRINTL, "llrintl", BT_FN_LONGLONG_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LLROUND, "llround", BT_FN_LONGLONG_DOUBLE, ATTR_MATHFN_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LLROUNDF, "llroundf", BT_FN_LONGLONG_FLOAT, ATTR_MATHFN_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LLROUNDL, "llroundl", BT_FN_LONGLONG_LONGDOUBLE, ATTR_MATHFN_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_LOG, "log", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_LOG10, "log10", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LOG10F, "log10f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LOG10L, "log10l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG1P, "log1p", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG1PF, "log1pf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG1PL, "log1pl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG2, "log2", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG2F, "log2f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOG2L, "log2l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOGB, "logb", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOGBF, "logbf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LOGBL, "logbl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LOGF, "logf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_LOGL, "logl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LRINT, "lrint", BT_FN_LONG_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LRINTF, "lrintf", BT_FN_LONG_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LRINTL, "lrintl", BT_FN_LONG_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LROUND, "lround", BT_FN_LONG_DOUBLE, ATTR_MATHFN_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LROUNDF, "lroundf", BT_FN_LONG_FLOAT, ATTR_MATHFN_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_LROUNDL, "lroundl", BT_FN_LONG_LONGDOUBLE, ATTR_MATHFN_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_MODF, "modf", BT_FN_DOUBLE_DOUBLE_DOUBLEPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_C90RES_BUILTIN (BUILT_IN_MODFF, "modff", BT_FN_FLOAT_FLOAT_FLOATPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_C90RES_BUILTIN (BUILT_IN_MODFL, "modfl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLEPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_NAN, "nan", BT_FN_DOUBLE_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_C99_BUILTIN (BUILT_IN_NANF, "nanf", BT_FN_FLOAT_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_C99_BUILTIN (BUILT_IN_NANL, "nanl", BT_FN_LONGDOUBLE_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NAND32, "nand32", BT_FN_DFLOAT32_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NAND64, "nand64", BT_FN_DFLOAT64_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NAND128, "nand128", BT_FN_DFLOAT128_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NANS, "nans", BT_FN_DOUBLE_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NANSF, "nansf", BT_FN_FLOAT_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_GCC_BUILTIN (BUILT_IN_NANSL, "nansl", BT_FN_LONGDOUBLE_CONST_STRING, ATTR_CONST_NOTHROW_NONNULL)
DEF_C99_BUILTIN (BUILT_IN_NEARBYINT, "nearbyint", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_NEARBYINTF, "nearbyintf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_NEARBYINTL, "nearbyintl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_NEXTAFTER, "nextafter", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_NEXTAFTERF, "nextafterf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_NEXTAFTERL, "nextafterl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_NEXTTOWARD, "nexttoward", BT_FN_DOUBLE_DOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_NEXTTOWARDF, "nexttowardf", BT_FN_FLOAT_FLOAT_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_NEXTTOWARDL, "nexttowardl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_POW, "pow", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_POW10, "pow10", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_POW10F, "pow10f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_POW10L, "pow10l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_POWF, "powf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_GCC_BUILTIN (BUILT_IN_POWI, "powi", BT_FN_DOUBLE_DOUBLE_INT, ATTR_MATHFN_FPROUNDING)
DEF_GCC_BUILTIN (BUILT_IN_POWIF, "powif", BT_FN_FLOAT_FLOAT_INT, ATTR_MATHFN_FPROUNDING)
DEF_GCC_BUILTIN (BUILT_IN_POWIL, "powil", BT_FN_LONGDOUBLE_LONGDOUBLE_INT, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_POWL, "powl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_REMAINDER, "remainder", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_REMAINDERF, "remainderf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_REMAINDERL, "remainderl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_REMQUO, "remquo", BT_FN_DOUBLE_DOUBLE_DOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_REMQUOF, "remquof", BT_FN_FLOAT_FLOAT_FLOAT_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_REMQUOL, "remquol", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE_INTPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_BUILTIN (BUILT_IN_RINT, "rint", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_RINTF, "rintf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_RINTL, "rintl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_ROUND, "round", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_ROUNDF, "roundf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_ROUNDL, "roundl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SCALB, "scalb", BT_FN_DOUBLE_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SCALBF, "scalbf", BT_FN_FLOAT_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SCALBL, "scalbl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBLN, "scalbln", BT_FN_DOUBLE_DOUBLE_LONG, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBLNF, "scalblnf", BT_FN_FLOAT_FLOAT_LONG, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBLNL, "scalblnl", BT_FN_LONGDOUBLE_LONGDOUBLE_LONG, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBN, "scalbn", BT_FN_DOUBLE_DOUBLE_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBNF, "scalbnf", BT_FN_FLOAT_FLOAT_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_SCALBNL, "scalbnl", BT_FN_LONGDOUBLE_LONGDOUBLE_INT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBIT, "signbit", BT_FN_INT_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBITF, "signbitf", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBITL, "signbitl", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBITD32, "signbitd32", BT_FN_INT_DFLOAT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBITD64, "signbitd64", BT_FN_INT_DFLOAT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNBITD128, "signbitd128", BT_FN_INT_DFLOAT128, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNIFICAND, "significand", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNIFICANDF, "significandf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SIGNIFICANDL, "significandl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_SIN, "sin", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SINCOS, "sincos", BT_FN_VOID_DOUBLE_DOUBLEPTR_DOUBLEPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SINCOSF, "sincosf", BT_FN_VOID_FLOAT_FLOATPTR_FLOATPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SINCOSL, "sincosl", BT_FN_VOID_LONGDOUBLE_LONGDOUBLEPTR_LONGDOUBLEPTR, ATTR_MATHFN_FPROUNDING_STORE)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SINF, "sinf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_SINH, "sinh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SINHF, "sinhf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SINHL, "sinhl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SINL, "sinl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_SQRT, "sqrt", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SQRTF, "sqrtf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_C90RES_BUILTIN (BUILT_IN_SQRTL, "sqrtl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_LIB_BUILTIN (BUILT_IN_TAN, "tan", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_TANF, "tanf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_LIB_BUILTIN (BUILT_IN_TANH, "tanh", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_TANHF, "tanhf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_TANHL, "tanhl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_C90RES_BUILTIN (BUILT_IN_TANL, "tanl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_TGAMMA, "tgamma", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_TGAMMAF, "tgammaf", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_TGAMMAL, "tgammal", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_C99_BUILTIN (BUILT_IN_TRUNC, "trunc", BT_FN_DOUBLE_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_TRUNCF, "truncf", BT_FN_FLOAT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_TRUNCL, "truncl", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y0, "y0", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y0F, "y0f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y0L, "y0l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y1, "y1", BT_FN_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y1F, "y1f", BT_FN_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_Y1L, "y1l", BT_FN_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_YN, "yn", BT_FN_DOUBLE_INT_DOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_YNF, "ynf", BT_FN_FLOAT_INT_FLOAT, ATTR_MATHFN_FPROUNDING_ERRNO)
DEF_EXT_LIB_BUILTIN (BUILT_IN_YNL, "ynl", BT_FN_LONGDOUBLE_INT_LONGDOUBLE, ATTR_MATHFN_FPROUNDING_ERRNO)
/* Category: _Complex math builtins. */
DEF_C99_BUILTIN (BUILT_IN_CABS, "cabs", BT_FN_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CABSF, "cabsf", BT_FN_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CABSL, "cabsl", BT_FN_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOS, "cacos", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOSF, "cacosf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOSH, "cacosh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOSHF, "cacoshf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOSHL, "cacoshl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CACOSL, "cacosl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CARG, "carg", BT_FN_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CARGF, "cargf", BT_FN_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CARGL, "cargl", BT_FN_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASIN, "casin", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASINF, "casinf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASINH, "casinh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASINHF, "casinhf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASINHL, "casinhl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CASINL, "casinl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATAN, "catan", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATANF, "catanf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATANH, "catanh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATANHF, "catanhf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATANHL, "catanhl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CATANL, "catanl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOS, "ccos", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOSF, "ccosf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOSH, "ccosh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOSHF, "ccoshf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOSHL, "ccoshl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CCOSL, "ccosl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CEXP, "cexp", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CEXPF, "cexpf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CEXPL, "cexpl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_GCC_BUILTIN (BUILT_IN_CEXPI, "cexpi", BT_FN_COMPLEX_DOUBLE_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_GCC_BUILTIN (BUILT_IN_CEXPIF, "cexpif", BT_FN_COMPLEX_FLOAT_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_GCC_BUILTIN (BUILT_IN_CEXPIL, "cexpil", BT_FN_COMPLEX_LONGDOUBLE_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CIMAG, "cimag", BT_FN_DOUBLE_COMPLEX_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CIMAGF, "cimagf", BT_FN_FLOAT_COMPLEX_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CIMAGL, "cimagl", BT_FN_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CLOG, "clog", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CLOGF, "clogf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CLOGL, "clogl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_EXT_C99RES_BUILTIN (BUILT_IN_CLOG10, "clog10", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_EXT_C99RES_BUILTIN (BUILT_IN_CLOG10F, "clog10f", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_EXT_C99RES_BUILTIN (BUILT_IN_CLOG10L, "clog10l", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CONJ, "conj", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CONJF, "conjf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CONJL, "conjl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CPOW, "cpow", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CPOWF, "cpowf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CPOWL, "cpowl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CPROJ, "cproj", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CPROJF, "cprojf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CPROJL, "cprojl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CREAL, "creal", BT_FN_DOUBLE_COMPLEX_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CREALF, "crealf", BT_FN_FLOAT_COMPLEX_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CREALL, "creall", BT_FN_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_CSIN, "csin", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSINF, "csinf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSINH, "csinh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSINHF, "csinhf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSINHL, "csinhl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSINL, "csinl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSQRT, "csqrt", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSQRTF, "csqrtf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CSQRTL, "csqrtl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTAN, "ctan", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTANF, "ctanf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTANH, "ctanh", BT_FN_COMPLEX_DOUBLE_COMPLEX_DOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTANHF, "ctanhf", BT_FN_COMPLEX_FLOAT_COMPLEX_FLOAT, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTANHL, "ctanhl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
DEF_C99_BUILTIN (BUILT_IN_CTANL, "ctanl", BT_FN_COMPLEX_LONGDOUBLE_COMPLEX_LONGDOUBLE, ATTR_MATHFN_FPROUNDING)
/* Category: string/memory builtins. */
/* bcmp, bcopy and bzero have traditionally accepted NULL pointers
when the length parameter is zero, so don't apply attribute "nonnull". */
DEF_EXT_LIB_BUILTIN (BUILT_IN_BCMP, "bcmp", BT_FN_INT_CONST_PTR_CONST_PTR_SIZE, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_BCOPY, "bcopy", BT_FN_VOID_CONST_PTR_PTR_SIZE, ATTR_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_BZERO, "bzero", BT_FN_VOID_PTR_SIZE, ATTR_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_INDEX, "index", BT_FN_STRING_CONST_STRING_INT, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_MEMCHR, "memchr", BT_FN_PTR_CONST_PTR_INT_SIZE, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_MEMCMP, "memcmp", BT_FN_INT_CONST_PTR_CONST_PTR_SIZE, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_MEMCPY, "memcpy", BT_FN_PTR_PTR_CONST_PTR_SIZE, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_MEMMOVE, "memmove", BT_FN_PTR_PTR_CONST_PTR_SIZE, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_MEMPCPY, "mempcpy", BT_FN_PTR_PTR_CONST_PTR_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_MEMSET, "memset", BT_FN_PTR_PTR_INT_SIZE, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_RINDEX, "rindex", BT_FN_STRING_CONST_STRING_INT, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STPCPY, "stpcpy", BT_FN_STRING_STRING_CONST_STRING, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STPNCPY, "stpncpy", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRCASECMP, "strcasecmp", BT_FN_INT_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRCAT, "strcat", BT_FN_STRING_STRING_CONST_STRING, ATTR_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRCHR, "strchr", BT_FN_STRING_CONST_STRING_INT, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRCMP, "strcmp", BT_FN_INT_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRCPY, "strcpy", BT_FN_STRING_STRING_CONST_STRING, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRCSPN, "strcspn", BT_FN_SIZE_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRDUP, "strdup", BT_FN_STRING_CONST_STRING, ATTR_MALLOC_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRNDUP, "strndup", BT_FN_STRING_CONST_STRING_SIZE, ATTR_MALLOC_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRLEN, "strlen", BT_FN_SIZE_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRNCASECMP, "strncasecmp", BT_FN_INT_CONST_STRING_CONST_STRING_SIZE, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRNCAT, "strncat", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRNCMP, "strncmp", BT_FN_INT_CONST_STRING_CONST_STRING_SIZE, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRNCPY, "strncpy", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRPBRK, "strpbrk", BT_FN_STRING_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRRCHR, "strrchr", BT_FN_STRING_CONST_STRING_INT, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRSPN, "strspn", BT_FN_SIZE_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_STRSTR, "strstr", BT_FN_STRING_CONST_STRING_CONST_STRING, ATTR_PURE_NOTHROW_NONNULL_LEAF)
/* Category: stdio builtins. */
DEF_LIB_BUILTIN (BUILT_IN_FPRINTF, "fprintf", BT_FN_INT_FILEPTR_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_2_3)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FPRINTF_UNLOCKED, "fprintf_unlocked", BT_FN_INT_FILEPTR_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_2_3)
DEF_LIB_BUILTIN (BUILT_IN_PUTC, "putc", BT_FN_INT_INT_FILEPTR, ATTR_NONNULL_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_PUTC_UNLOCKED, "putc_unlocked", BT_FN_INT_INT_FILEPTR, ATTR_NONNULL_LIST)
DEF_LIB_BUILTIN (BUILT_IN_FPUTC, "fputc", BT_FN_INT_INT_FILEPTR, ATTR_NONNULL_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FPUTC_UNLOCKED, "fputc_unlocked", BT_FN_INT_INT_FILEPTR, ATTR_NONNULL_LIST)
DEF_LIB_BUILTIN (BUILT_IN_FPUTS, "fputs", BT_FN_INT_CONST_STRING_FILEPTR, ATTR_NONNULL_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FPUTS_UNLOCKED, "fputs_unlocked", BT_FN_INT_CONST_STRING_FILEPTR, ATTR_NONNULL_LIST)
DEF_LIB_BUILTIN (BUILT_IN_FSCANF, "fscanf", BT_FN_INT_FILEPTR_CONST_STRING_VAR, ATTR_FORMAT_SCANF_2_3)
DEF_LIB_BUILTIN (BUILT_IN_FWRITE, "fwrite", BT_FN_SIZE_CONST_PTR_SIZE_SIZE_FILEPTR, ATTR_NONNULL_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FWRITE_UNLOCKED, "fwrite_unlocked", BT_FN_SIZE_CONST_PTR_SIZE_SIZE_FILEPTR, ATTR_NONNULL_LIST)
DEF_LIB_BUILTIN (BUILT_IN_PRINTF, "printf", BT_FN_INT_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_1_2)
DEF_EXT_LIB_BUILTIN (BUILT_IN_PRINTF_UNLOCKED, "printf_unlocked", BT_FN_INT_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_1_2)
DEF_LIB_BUILTIN (BUILT_IN_PUTCHAR, "putchar", BT_FN_INT_INT, ATTR_NULL)
DEF_EXT_LIB_BUILTIN (BUILT_IN_PUTCHAR_UNLOCKED, "putchar_unlocked", BT_FN_INT_INT, ATTR_NULL)
DEF_LIB_BUILTIN (BUILT_IN_PUTS, "puts", BT_FN_INT_CONST_STRING, ATTR_NONNULL_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_PUTS_UNLOCKED, "puts_unlocked", BT_FN_INT_CONST_STRING, ATTR_NONNULL_LIST)
DEF_LIB_BUILTIN (BUILT_IN_SCANF, "scanf", BT_FN_INT_CONST_STRING_VAR, ATTR_FORMAT_SCANF_1_2)
DEF_C99_BUILTIN (BUILT_IN_SNPRINTF, "snprintf", BT_FN_INT_STRING_SIZE_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_NOTHROW_3_4)
DEF_LIB_BUILTIN (BUILT_IN_SPRINTF, "sprintf", BT_FN_INT_STRING_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_NOTHROW_2_3)
DEF_LIB_BUILTIN (BUILT_IN_SSCANF, "sscanf", BT_FN_INT_CONST_STRING_CONST_STRING_VAR, ATTR_FORMAT_SCANF_NOTHROW_2_3)
DEF_LIB_BUILTIN (BUILT_IN_VFPRINTF, "vfprintf", BT_FN_INT_FILEPTR_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_2_0)
DEF_C99_BUILTIN (BUILT_IN_VFSCANF, "vfscanf", BT_FN_INT_FILEPTR_CONST_STRING_VALIST_ARG, ATTR_FORMAT_SCANF_2_0)
DEF_LIB_BUILTIN (BUILT_IN_VPRINTF, "vprintf", BT_FN_INT_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_1_0)
DEF_C99_BUILTIN (BUILT_IN_VSCANF, "vscanf", BT_FN_INT_CONST_STRING_VALIST_ARG, ATTR_FORMAT_SCANF_1_0)
DEF_C99_BUILTIN (BUILT_IN_VSNPRINTF, "vsnprintf", BT_FN_INT_STRING_SIZE_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_NOTHROW_3_0)
DEF_LIB_BUILTIN (BUILT_IN_VSPRINTF, "vsprintf", BT_FN_INT_STRING_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_NOTHROW_2_0)
DEF_C99_BUILTIN (BUILT_IN_VSSCANF, "vsscanf", BT_FN_INT_CONST_STRING_CONST_STRING_VALIST_ARG, ATTR_FORMAT_SCANF_NOTHROW_2_0)
/* Category: ctype builtins. */
DEF_LIB_BUILTIN (BUILT_IN_ISALNUM, "isalnum", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISALPHA, "isalpha", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISASCII, "isascii", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_ISBLANK, "isblank", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISCNTRL, "iscntrl", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISDIGIT, "isdigit", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISGRAPH, "isgraph", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISLOWER, "islower", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISPRINT, "isprint", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISPUNCT, "ispunct", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISSPACE, "isspace", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISUPPER, "isupper", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ISXDIGIT, "isxdigit", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_TOASCII, "toascii", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_TOLOWER, "tolower", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_TOUPPER, "toupper", BT_FN_INT_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
/* Category: wctype builtins. */
DEF_C94_BUILTIN (BUILT_IN_ISWALNUM, "iswalnum", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWALPHA, "iswalpha", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_ISWBLANK, "iswblank", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWCNTRL, "iswcntrl", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWDIGIT, "iswdigit", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWGRAPH, "iswgraph", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWLOWER, "iswlower", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWPRINT, "iswprint", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWPUNCT, "iswpunct", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWSPACE, "iswspace", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWUPPER, "iswupper", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_ISWXDIGIT, "iswxdigit", BT_FN_INT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_TOWLOWER, "towlower", BT_FN_WINT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_C94_BUILTIN (BUILT_IN_TOWUPPER, "towupper", BT_FN_WINT_WINT, ATTR_PURE_NOTHROW_LEAF_LIST)
/* Category: miscellaneous builtins. */
DEF_LIB_BUILTIN (BUILT_IN_ABORT, "abort", BT_FN_VOID, ATTR_NORETURN_NOTHROW_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_ABS, "abs", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_AGGREGATE_INCOMING_ADDRESS, "aggregate_incoming_address", BT_FN_PTR_VAR, ATTR_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ALLOCA, "alloca", BT_FN_PTR_SIZE, ATTR_MALLOC_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_APPLY, "apply", BT_FN_PTR_PTR_FN_VOID_VAR_PTR_SIZE, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_APPLY_ARGS, "apply_args", BT_FN_PTR_VAR, ATTR_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_BSWAP16, "bswap16", BT_FN_UINT16_UINT16, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_BSWAP32, "bswap32", BT_FN_UINT32_UINT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_BSWAP64, "bswap64", BT_FN_UINT64_UINT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_CLEAR_CACHE, "__clear_cache", BT_FN_VOID_PTR_PTR, ATTR_NOTHROW_LEAF_LIST)
/* [trans-mem]: Adjust BUILT_IN_TM_CALLOC if BUILT_IN_CALLOC is changed. */
DEF_LIB_BUILTIN (BUILT_IN_CALLOC, "calloc", BT_FN_PTR_SIZE_SIZE, ATTR_MALLOC_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLASSIFY_TYPE, "classify_type", BT_FN_INT_VAR, ATTR_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLZ, "clz", BT_FN_INT_UINT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLZIMAX, "clzimax", BT_FN_INT_UINTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLZL, "clzl", BT_FN_INT_ULONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLZLL, "clzll", BT_FN_INT_ULONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CONSTANT_P, "constant_p", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CTZ, "ctz", BT_FN_INT_UINT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CTZIMAX, "ctzimax", BT_FN_INT_UINTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CTZL, "ctzl", BT_FN_INT_ULONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CTZLL, "ctzll", BT_FN_INT_ULONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLRSB, "clrsb", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLRSBIMAX, "clrsbimax", BT_FN_INT_INTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLRSBL, "clrsbl", BT_FN_INT_LONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_CLRSBLL, "clrsbll", BT_FN_INT_LONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_DCGETTEXT, "dcgettext", BT_FN_STRING_CONST_STRING_CONST_STRING_INT, ATTR_FORMAT_ARG_2)
DEF_EXT_LIB_BUILTIN (BUILT_IN_DGETTEXT, "dgettext", BT_FN_STRING_CONST_STRING_CONST_STRING, ATTR_FORMAT_ARG_2)
DEF_GCC_BUILTIN (BUILT_IN_DWARF_CFA, "dwarf_cfa", BT_FN_PTR, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_DWARF_SP_COLUMN, "dwarf_sp_column", BT_FN_UINT, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_EH_RETURN, "eh_return", BT_FN_VOID_PTRMODE_PTR, ATTR_NORETURN_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_EH_RETURN_DATA_REGNO, "eh_return_data_regno", BT_FN_INT_INT, ATTR_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECL, "execl", BT_FN_INT_CONST_STRING_CONST_STRING_VAR, ATTR_SENTINEL_NOTHROW_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECLP, "execlp", BT_FN_INT_CONST_STRING_CONST_STRING_VAR, ATTR_SENTINEL_NOTHROW_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECLE, "execle", BT_FN_INT_CONST_STRING_CONST_STRING_VAR, ATTR_NOTHROW_SENTINEL_1)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECV, "execv", BT_FN_INT_CONST_STRING_PTR_CONST_STRING, ATTR_NOTHROW_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECVP, "execvp", BT_FN_INT_CONST_STRING_PTR_CONST_STRING, ATTR_NOTHROW_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_EXECVE, "execve", BT_FN_INT_CONST_STRING_PTR_CONST_STRING_PTR_CONST_STRING, ATTR_NOTHROW_LIST)
DEF_LIB_BUILTIN (BUILT_IN_EXIT, "exit", BT_FN_VOID_INT, ATTR_NORETURN_NOTHROW_LIST)
DEF_GCC_BUILTIN (BUILT_IN_EXPECT, "expect", BT_FN_LONG_LONG_LONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_ASSUME_ALIGNED, "assume_aligned", BT_FN_PTR_CONST_PTR_SIZE_VAR, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_EXTEND_POINTER, "extend_pointer", BT_FN_UNWINDWORD_PTR, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_EXTRACT_RETURN_ADDR, "extract_return_addr", BT_FN_PTR_PTR, ATTR_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FFS, "ffs", BT_FN_INT_INT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FFSIMAX, "ffsimax", BT_FN_INT_INTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FFSL, "ffsl", BT_FN_INT_LONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FFSLL, "ffsll", BT_FN_INT_LONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FORK, "fork", BT_FN_PID, ATTR_NOTHROW_LIST)
DEF_GCC_BUILTIN (BUILT_IN_FRAME_ADDRESS, "frame_address", BT_FN_PTR_UINT, ATTR_NULL)
/* [trans-mem]: Adjust BUILT_IN_TM_FREE if BUILT_IN_FREE is changed. */
DEF_LIB_BUILTIN (BUILT_IN_FREE, "free", BT_FN_VOID_PTR, ATTR_NOTHROW_LIST)
DEF_GCC_BUILTIN (BUILT_IN_FROB_RETURN_ADDR, "frob_return_addr", BT_FN_PTR_PTR, ATTR_NULL)
DEF_EXT_LIB_BUILTIN (BUILT_IN_GETTEXT, "gettext", BT_FN_STRING_CONST_STRING, ATTR_FORMAT_ARG_1)
DEF_C99_BUILTIN (BUILT_IN_IMAXABS, "imaxabs", BT_FN_INTMAX_INTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_INIT_DWARF_REG_SIZES, "init_dwarf_reg_size_table", BT_FN_VOID_PTR, ATTR_NULL)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITE, "finite", BT_FN_INT_DOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITEF, "finitef", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITEL, "finitel", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITED32, "finited32", BT_FN_INT_DFLOAT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITED64, "finited64", BT_FN_INT_DFLOAT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FINITED128, "finited128", BT_FN_INT_DFLOAT128, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_FPCLASSIFY, "fpclassify", BT_FN_INT_INT_INT_INT_INT_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISFINITE, "isfinite", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISINF_SIGN, "isinf_sign", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ISINF, "isinf", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISINFF, "isinff", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISINFL, "isinfl", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISINFD32, "isinfd32", BT_FN_INT_DFLOAT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISINFD64, "isinfd64", BT_FN_INT_DFLOAT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISINFD128, "isinfd128", BT_FN_INT_DFLOAT128, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_C90RES_BUILTIN (BUILT_IN_ISNAN, "isnan", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISNANF, "isnanf", BT_FN_INT_FLOAT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISNANL, "isnanl", BT_FN_INT_LONGDOUBLE, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISNAND32, "isnand32", BT_FN_INT_DFLOAT32, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISNAND64, "isnand64", BT_FN_INT_DFLOAT64, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_ISNAND128, "isnand128", BT_FN_INT_DFLOAT128, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_ISNORMAL, "isnormal", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISGREATER, "isgreater", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISGREATEREQUAL, "isgreaterequal", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISLESS, "isless", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISLESSEQUAL, "islessequal", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISLESSGREATER, "islessgreater", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_GCC_BUILTIN (BUILT_IN_ISUNORDERED, "isunordered", BT_FN_INT_VAR, ATTR_CONST_NOTHROW_TYPEGENERIC_LEAF)
DEF_LIB_BUILTIN (BUILT_IN_LABS, "labs", BT_FN_LONG_LONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN_LLABS, "llabs", BT_FN_LONGLONG_LONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LONGJMP, "longjmp", BT_FN_VOID_PTR_INT, ATTR_NORETURN_NOTHROW_LEAF_LIST)
/* [trans-mem]: Adjust BUILT_IN_TM_MALLOC if BUILT_IN_MALLOC is changed. */
DEF_LIB_BUILTIN (BUILT_IN_MALLOC, "malloc", BT_FN_PTR_SIZE, ATTR_MALLOC_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_NEXT_ARG, "next_arg", BT_FN_PTR_VAR, ATTR_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_PARITY, "parity", BT_FN_INT_UINT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_PARITYIMAX, "parityimax", BT_FN_INT_UINTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_PARITYL, "parityl", BT_FN_INT_ULONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_PARITYLL, "parityll", BT_FN_INT_ULONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_POPCOUNT, "popcount", BT_FN_INT_UINT, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_POPCOUNTIMAX, "popcountimax", BT_FN_INT_UINTMAX, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_POPCOUNTL, "popcountl", BT_FN_INT_ULONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_POPCOUNTLL, "popcountll", BT_FN_INT_ULONGLONG, ATTR_CONST_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_PREFETCH, "prefetch", BT_FN_VOID_CONST_PTR_VAR, ATTR_NOVOPS_LEAF_LIST)
DEF_LIB_BUILTIN (BUILT_IN_REALLOC, "realloc", BT_FN_PTR_PTR_SIZE, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_RETURN, "return", BT_FN_VOID_PTR, ATTR_NORETURN_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_RETURN_ADDRESS, "return_address", BT_FN_PTR_UINT, ATTR_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_SAVEREGS, "saveregs", BT_FN_PTR_VAR, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_SETJMP, "setjmp", BT_FN_INT_PTR, ATTR_NULL)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRFMON, "strfmon", BT_FN_SSIZE_STRING_SIZE_CONST_STRING_VAR, ATTR_FORMAT_STRFMON_NOTHROW_3_4)
DEF_LIB_BUILTIN (BUILT_IN_STRFTIME, "strftime", BT_FN_SIZE_STRING_SIZE_CONST_STRING_CONST_PTR, ATTR_FORMAT_STRFTIME_NOTHROW_3_0)
DEF_GCC_BUILTIN (BUILT_IN_TRAP, "trap", BT_FN_VOID, ATTR_NORETURN_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_UNREACHABLE, "unreachable", BT_FN_VOID, ATTR_CONST_NORETURN_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_UNWIND_INIT, "unwind_init", BT_FN_VOID, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_UPDATE_SETJMP_BUF, "update_setjmp_buf", BT_FN_VOID_PTR_INT, ATTR_NULL)
DEF_GCC_BUILTIN (BUILT_IN_VA_COPY, "va_copy", BT_FN_VOID_VALIST_REF_VALIST_ARG, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_VA_END, "va_end", BT_FN_VOID_VALIST_REF, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_VA_START, "va_start", BT_FN_VOID_VALIST_REF_VAR, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_VA_ARG_PACK, "va_arg_pack", BT_FN_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_VA_ARG_PACK_LEN, "va_arg_pack_len", BT_FN_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN__EXIT, "_exit", BT_FN_VOID_INT, ATTR_NORETURN_NOTHROW_LEAF_LIST)
DEF_C99_BUILTIN (BUILT_IN__EXIT2, "_Exit", BT_FN_VOID_INT, ATTR_NORETURN_NOTHROW_LEAF_LIST)
/* Implementing nested functions. */
DEF_BUILTIN_STUB (BUILT_IN_INIT_TRAMPOLINE, "__builtin_init_trampoline")
DEF_BUILTIN_STUB (BUILT_IN_INIT_HEAP_TRAMPOLINE, "__builtin_init_heap_trampoline")
DEF_BUILTIN_STUB (BUILT_IN_ADJUST_TRAMPOLINE, "__builtin_adjust_trampoline")
DEF_BUILTIN_STUB (BUILT_IN_NONLOCAL_GOTO, "__builtin_nonlocal_goto")
/* Implementing __builtin_setjmp. */
DEF_BUILTIN_STUB (BUILT_IN_SETJMP_SETUP, "__builtin_setjmp_setup")
DEF_BUILTIN_STUB (BUILT_IN_SETJMP_DISPATCHER, "__builtin_setjmp_dispatcher")
DEF_BUILTIN_STUB (BUILT_IN_SETJMP_RECEIVER, "__builtin_setjmp_receiver")
/* Implementing variable sized local variables. */
DEF_BUILTIN_STUB (BUILT_IN_STACK_SAVE, "__builtin_stack_save")
DEF_BUILTIN_STUB (BUILT_IN_STACK_RESTORE, "__builtin_stack_restore")
DEF_BUILTIN_STUB (BUILT_IN_ALLOCA_WITH_ALIGN, "__builtin_alloca_with_align")
/* Object size checking builtins. */
DEF_GCC_BUILTIN (BUILT_IN_OBJECT_SIZE, "object_size", BT_FN_SIZE_CONST_PTR_INT, ATTR_PURE_NOTHROW_LEAF_LIST)
DEF_EXT_LIB_BUILTIN (BUILT_IN_MEMCPY_CHK, "__memcpy_chk", BT_FN_PTR_PTR_CONST_PTR_SIZE_SIZE, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_MEMMOVE_CHK, "__memmove_chk", BT_FN_PTR_PTR_CONST_PTR_SIZE_SIZE, ATTR_RET1_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_MEMPCPY_CHK, "__mempcpy_chk", BT_FN_PTR_PTR_CONST_PTR_SIZE_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_MEMSET_CHK, "__memset_chk", BT_FN_PTR_PTR_INT_SIZE_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STPCPY_CHK, "__stpcpy_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STPNCPY_CHK, "__stpncpy_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRCAT_CHK, "__strcat_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRCPY_CHK, "__strcpy_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRNCAT_CHK, "__strncat_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_STRNCPY_CHK, "__strncpy_chk", BT_FN_STRING_STRING_CONST_STRING_SIZE_SIZE, ATTR_NOTHROW_NONNULL_LEAF)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SNPRINTF_CHK, "__snprintf_chk", BT_FN_INT_STRING_SIZE_INT_SIZE_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_NOTHROW_5_6)
DEF_EXT_LIB_BUILTIN (BUILT_IN_SPRINTF_CHK, "__sprintf_chk", BT_FN_INT_STRING_INT_SIZE_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_NOTHROW_4_5)
DEF_EXT_LIB_BUILTIN (BUILT_IN_VSNPRINTF_CHK, "__vsnprintf_chk", BT_FN_INT_STRING_SIZE_INT_SIZE_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_NOTHROW_5_0)
DEF_EXT_LIB_BUILTIN (BUILT_IN_VSPRINTF_CHK, "__vsprintf_chk", BT_FN_INT_STRING_INT_SIZE_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_NOTHROW_4_0)
DEF_EXT_LIB_BUILTIN (BUILT_IN_FPRINTF_CHK, "__fprintf_chk", BT_FN_INT_FILEPTR_INT_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_3_4)
DEF_EXT_LIB_BUILTIN (BUILT_IN_PRINTF_CHK, "__printf_chk", BT_FN_INT_INT_CONST_STRING_VAR, ATTR_FORMAT_PRINTF_2_3)
DEF_EXT_LIB_BUILTIN (BUILT_IN_VFPRINTF_CHK, "__vfprintf_chk", BT_FN_INT_FILEPTR_INT_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_3_0)
DEF_EXT_LIB_BUILTIN (BUILT_IN_VPRINTF_CHK, "__vprintf_chk", BT_FN_INT_INT_CONST_STRING_VALIST_ARG, ATTR_FORMAT_PRINTF_2_0)
/* Profiling hooks. */
DEF_BUILTIN (BUILT_IN_PROFILE_FUNC_ENTER, "__cyg_profile_func_enter", BUILT_IN_NORMAL, BT_FN_VOID_PTR_PTR, BT_LAST,
false, false, false, ATTR_NULL, true, true)
DEF_BUILTIN (BUILT_IN_PROFILE_FUNC_EXIT, "__cyg_profile_func_exit", BUILT_IN_NORMAL, BT_FN_VOID_PTR_PTR, BT_LAST,
false, false, false, ATTR_NULL, true, true)
/* TLS thread pointer related builtins. */
DEF_BUILTIN (BUILT_IN_THREAD_POINTER, "__builtin_thread_pointer",
BUILT_IN_NORMAL, BT_FN_PTR, BT_LAST,
false, false, true, ATTR_CONST_NOTHROW_LIST, true,
targetm.have_tls)
DEF_BUILTIN (BUILT_IN_SET_THREAD_POINTER, "__builtin_set_thread_pointer",
BUILT_IN_NORMAL, BT_FN_VOID_PTR, BT_LAST,
false, false, true, ATTR_NOTHROW_LIST, true,
targetm.have_tls)
/* TLS emulation. */
DEF_BUILTIN (BUILT_IN_EMUTLS_GET_ADDRESS, targetm.emutls.get_address,
BUILT_IN_NORMAL,
BT_FN_PTR_PTR, BT_FN_PTR_PTR,
true, true, true, ATTR_CONST_NOTHROW_NONNULL_LEAF, false,
!targetm.have_tls)
DEF_BUILTIN (BUILT_IN_EMUTLS_REGISTER_COMMON,
targetm.emutls.register_common, BUILT_IN_NORMAL,
BT_FN_VOID_PTR_WORD_WORD_PTR, BT_FN_VOID_PTR_WORD_WORD_PTR,
true, true, true, ATTR_NOTHROW_LEAF_LIST, false,
!targetm.have_tls)
/* Exception support. */
DEF_BUILTIN_STUB (BUILT_IN_UNWIND_RESUME, "__builtin_unwind_resume")
DEF_BUILTIN_STUB (BUILT_IN_CXA_END_CLEANUP, "__builtin_cxa_end_cleanup")
DEF_BUILTIN_STUB (BUILT_IN_EH_POINTER, "__builtin_eh_pointer")
DEF_BUILTIN_STUB (BUILT_IN_EH_FILTER, "__builtin_eh_filter")
DEF_BUILTIN_STUB (BUILT_IN_EH_COPY_VALUES, "__builtin_eh_copy_values")
/* __FILE__, __LINE__, __FUNCTION__ as builtins. */
DEF_GCC_BUILTIN (BUILT_IN_FILE, "FILE", BT_FN_CONST_STRING, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_FUNCTION, "FUNCTION", BT_FN_CONST_STRING, ATTR_NOTHROW_LEAF_LIST)
DEF_GCC_BUILTIN (BUILT_IN_LINE, "LINE", BT_FN_INT, ATTR_NOTHROW_LEAF_LIST)
/* Synchronization Primitives. */
#include "sync-builtins.def"
/* OpenMP builtins. */
#include "omp-builtins.def"
/* GTM builtins. */
#include "gtm-builtins.def"
/* Sanitizer builtins. */
#include "sanitizer.def"

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@ -0,0 +1,4 @@
#define BUILDING_GCC_MAJOR 4
#define BUILDING_GCC_MINOR 8
#define BUILDING_GCC_PATCHLEVEL 3
#define BUILDING_GCC_VERSION (BUILDING_GCC_MAJOR * 1000 + BUILDING_GCC_MINOR)

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/* This file contains the definitions and documentation for the
additional tree codes used in the GNU C compiler (see tree.def
for the standard codes).
Copyright (C) 1987-2013 Free Software Foundation, Inc.
Written by Benjamin Chelf <chelf@codesourcery.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Tree nodes used in the C frontend. These are also shared with the
C++ and Objective C frontends. */
/* A C_MAYBE_CONST_EXPR, currently only used for C and Objective C,
tracks information about constancy of an expression and VLA type
sizes or VM expressions from typeof that need to be evaluated
before the main expression. It is used during parsing and removed
in c_fully_fold. C_MAYBE_CONST_EXPR_PRE is the expression to
evaluate first, if not NULL; C_MAYBE_CONST_EXPR_EXPR is the main
expression. If C_MAYBE_CONST_EXPR_INT_OPERANDS is set then the
expression may be used in an unevaluated part of an integer
constant expression, but not in an evaluated part. If
C_MAYBE_CONST_EXPR_NON_CONST is set then the expression contains
something that cannot occur in an evaluated part of a constant
expression (or outside of sizeof in C90 mode); otherwise it does
not. */
DEFTREECODE (C_MAYBE_CONST_EXPR, "c_maybe_const_expr", tcc_expression, 2)
/* An EXCESS_PRECISION_EXPR, currently only used for C and Objective
C, represents an expression evaluated in greater range or precision
than its type. The type of the EXCESS_PRECISION_EXPR is the
semantic type while the operand represents what is actually being
evaluated. */
DEFTREECODE (EXCESS_PRECISION_EXPR, "excess_precision_expr", tcc_expression, 1)
/* Used to represent a user-defined literal.
The operands are an IDENTIFIER for the suffix, the VALUE of the literal,
and for numeric literals the original string representation of the
number. */
DEFTREECODE (USERDEF_LITERAL, "userdef_literal", tcc_exceptional, 3)
/* Represents a 'sizeof' expression during C++ template expansion,
or for the purpose of -Wsizeof-pointer-memaccess warning. */
DEFTREECODE (SIZEOF_EXPR, "sizeof_expr", tcc_expression, 1)
/*
Local variables:
mode:c
End:
*/

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@ -0,0 +1,114 @@
/* Definitions of Objective-C front-end entry points used for C and C++.
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_C_COMMON_OBJC_H
#define GCC_C_COMMON_OBJC_H
/* ObjC ivar visibility types. */
typedef enum objc_ivar_visibility_kind {
OBJC_IVAR_VIS_PROTECTED = 0,
OBJC_IVAR_VIS_PUBLIC = 1,
OBJC_IVAR_VIS_PRIVATE = 2,
OBJC_IVAR_VIS_PACKAGE = 3
} objc_ivar_visibility_kind;
/* Objective-C / Objective-C++ entry points. */
/* The following ObjC/ObjC++ functions are called by the C and/or C++
front-ends; they all must have corresponding stubs in stub-objc.c. */
extern void objc_write_global_declarations (void);
extern tree objc_is_class_name (tree);
extern tree objc_is_object_ptr (tree);
extern void objc_check_decl (tree);
extern void objc_check_global_decl (tree);
extern tree objc_common_type (tree, tree);
extern bool objc_compare_types (tree, tree, int, tree);
extern bool objc_have_common_type (tree, tree, int, tree);
extern bool objc_diagnose_private_ivar (tree);
extern void objc_volatilize_decl (tree);
extern tree objc_rewrite_function_call (tree, tree);
extern tree objc_message_selector (void);
extern tree objc_lookup_ivar (tree, tree);
extern void objc_clear_super_receiver (void);
extern int objc_is_public (tree, tree);
extern tree objc_is_id (tree);
extern void objc_declare_alias (tree, tree);
extern void objc_declare_class (tree);
extern void objc_declare_protocol (tree, tree);
extern tree objc_build_message_expr (tree, tree);
extern tree objc_finish_message_expr (tree, tree, tree, tree*);
extern tree objc_build_selector_expr (location_t, tree);
extern tree objc_build_protocol_expr (tree);
extern tree objc_build_encode_expr (tree);
extern tree objc_build_string_object (tree);
extern tree objc_get_protocol_qualified_type (tree, tree);
extern tree objc_get_class_reference (tree);
extern tree objc_get_class_ivars (tree);
extern bool objc_detect_field_duplicates (bool);
extern void objc_start_class_interface (tree, tree, tree, tree);
extern void objc_start_category_interface (tree, tree, tree, tree);
extern void objc_start_protocol (tree, tree, tree);
extern void objc_continue_interface (void);
extern void objc_finish_interface (void);
extern void objc_start_class_implementation (tree, tree);
extern void objc_start_category_implementation (tree, tree);
extern void objc_continue_implementation (void);
extern void objc_finish_implementation (void);
extern void objc_set_visibility (objc_ivar_visibility_kind);
extern tree objc_build_method_signature (bool, tree, tree, tree, bool);
extern void objc_add_method_declaration (bool, tree, tree);
extern bool objc_start_method_definition (bool, tree, tree, tree);
extern void objc_finish_method_definition (tree);
extern void objc_add_instance_variable (tree);
extern tree objc_build_keyword_decl (tree, tree, tree, tree);
extern tree objc_build_throw_stmt (location_t, tree);
extern void objc_begin_try_stmt (location_t, tree);
extern tree objc_finish_try_stmt (void);
extern void objc_begin_catch_clause (tree);
extern void objc_finish_catch_clause (void);
extern void objc_build_finally_clause (location_t, tree);
extern tree objc_build_synchronized (location_t, tree, tree);
extern int objc_static_init_needed_p (void);
extern tree objc_generate_static_init_call (tree);
extern tree objc_generate_write_barrier (tree, enum tree_code, tree);
extern void objc_set_method_opt (bool);
extern void objc_finish_foreach_loop (location_t, tree, tree, tree, tree, tree);
extern bool objc_method_decl (enum tree_code);
extern void objc_add_property_declaration (location_t, tree, bool, bool, bool,
bool, bool, bool, tree, tree);
extern tree objc_maybe_build_component_ref (tree, tree);
extern tree objc_build_class_component_ref (tree, tree);
extern tree objc_maybe_build_modify_expr (tree, tree);
extern tree objc_build_incr_expr_for_property_ref (location_t, enum tree_code,
tree, tree);
extern void objc_add_synthesize_declaration (location_t, tree);
extern void objc_add_dynamic_declaration (location_t, tree);
extern const char * objc_maybe_printable_name (tree, int);
extern bool objc_is_property_ref (tree);
extern bool objc_string_ref_type_p (tree);
extern void objc_check_format_arg (tree, tree);
extern void objc_finish_function (void);
extern void objc_maybe_warn_exceptions (location_t);
/* The following are provided by the C and C++ front-ends, and called by
ObjC/ObjC++. */
extern void *objc_get_current_scope (void);
extern void objc_mark_locals_volatile (void *);
#endif /* ! GCC_C_COMMON_OBJC_H */

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/* Pragma related interfaces.
Copyright (C) 1995-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_C_PRAGMA_H
#define GCC_C_PRAGMA_H
#include "cpplib.h" /* For enum cpp_ttype. */
/* Pragma identifiers built in to the front end parsers. Identifiers
for ancillary handlers will follow these. */
typedef enum pragma_kind {
PRAGMA_NONE = 0,
PRAGMA_OMP_ATOMIC,
PRAGMA_OMP_BARRIER,
PRAGMA_OMP_CRITICAL,
PRAGMA_OMP_FLUSH,
PRAGMA_OMP_FOR,
PRAGMA_OMP_MASTER,
PRAGMA_OMP_ORDERED,
PRAGMA_OMP_PARALLEL,
PRAGMA_OMP_PARALLEL_FOR,
PRAGMA_OMP_PARALLEL_SECTIONS,
PRAGMA_OMP_SECTION,
PRAGMA_OMP_SECTIONS,
PRAGMA_OMP_SINGLE,
PRAGMA_OMP_TASK,
PRAGMA_OMP_TASKWAIT,
PRAGMA_OMP_TASKYIELD,
PRAGMA_OMP_THREADPRIVATE,
PRAGMA_GCC_PCH_PREPROCESS,
PRAGMA_FIRST_EXTERNAL
} pragma_kind;
/* All clauses defined by OpenMP 2.5 and 3.0.
Used internally by both C and C++ parsers. */
typedef enum pragma_omp_clause {
PRAGMA_OMP_CLAUSE_NONE = 0,
PRAGMA_OMP_CLAUSE_COLLAPSE,
PRAGMA_OMP_CLAUSE_COPYIN,
PRAGMA_OMP_CLAUSE_COPYPRIVATE,
PRAGMA_OMP_CLAUSE_DEFAULT,
PRAGMA_OMP_CLAUSE_FIRSTPRIVATE,
PRAGMA_OMP_CLAUSE_IF,
PRAGMA_OMP_CLAUSE_LASTPRIVATE,
PRAGMA_OMP_CLAUSE_NOWAIT,
PRAGMA_OMP_CLAUSE_NUM_THREADS,
PRAGMA_OMP_CLAUSE_ORDERED,
PRAGMA_OMP_CLAUSE_PRIVATE,
PRAGMA_OMP_CLAUSE_REDUCTION,
PRAGMA_OMP_CLAUSE_SCHEDULE,
PRAGMA_OMP_CLAUSE_SHARED,
PRAGMA_OMP_CLAUSE_UNTIED,
PRAGMA_OMP_CLAUSE_FINAL,
PRAGMA_OMP_CLAUSE_MERGEABLE
} pragma_omp_clause;
extern struct cpp_reader* parse_in;
/* It's safe to always leave visibility pragma enabled as if
visibility is not supported on the host OS platform the
statements are ignored. */
extern void push_visibility (const char *, int);
extern bool pop_visibility (int);
extern void init_pragma (void);
/* Front-end wrappers for pragma registration. */
typedef void (*pragma_handler_1arg)(struct cpp_reader *);
/* A second pragma handler, which adds a void * argument allowing to pass extra
data to the handler. */
typedef void (*pragma_handler_2arg)(struct cpp_reader *, void *);
/* This union allows to abstract the different handlers. */
union gen_pragma_handler {
pragma_handler_1arg handler_1arg;
pragma_handler_2arg handler_2arg;
};
/* Internally used to keep the data of the handler. */
struct internal_pragma_handler_d {
union gen_pragma_handler handler;
/* Permits to know if handler is a pragma_handler_1arg (extra_data is false)
or a pragma_handler_2arg (extra_data is true). */
bool extra_data;
/* A data field which can be used when extra_data is true. */
void * data;
};
typedef struct internal_pragma_handler_d internal_pragma_handler;
extern void c_register_pragma (const char *space, const char *name,
pragma_handler_1arg handler);
extern void c_register_pragma_with_data (const char *space, const char *name,
pragma_handler_2arg handler,
void *data);
extern void c_register_pragma_with_expansion (const char *space,
const char *name,
pragma_handler_1arg handler);
extern void c_register_pragma_with_expansion_and_data (const char *space,
const char *name,
pragma_handler_2arg handler,
void *data);
extern void c_invoke_pragma_handler (unsigned int);
extern void maybe_apply_pragma_weak (tree);
extern void maybe_apply_pending_pragma_weaks (void);
extern tree maybe_apply_renaming_pragma (tree, tree);
extern void add_to_renaming_pragma_list (tree, tree);
extern enum cpp_ttype pragma_lex (tree *);
/* Flags for use with c_lex_with_flags. The values here were picked
so that 0 means to translate and join strings. */
#define C_LEX_STRING_NO_TRANSLATE 1 /* Do not lex strings into
execution character set. */
#define C_LEX_STRING_NO_JOIN 2 /* Do not concatenate strings
nor translate them into execution
character set. */
/* This is not actually available to pragma parsers. It's merely a
convenient location to declare this function for c-lex, after
having enum cpp_ttype declared. */
extern enum cpp_ttype c_lex_with_flags (tree *, location_t *, unsigned char *,
int);
extern void c_pp_lookup_pragma (unsigned int, const char **, const char **);
extern GTY(()) tree pragma_extern_prefix;
#endif /* GCC_C_PRAGMA_H */

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/* Various declarations for the C and C++ pretty-printers.
Copyright (C) 2002-2013 Free Software Foundation, Inc.
Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_C_PRETTY_PRINTER
#define GCC_C_PRETTY_PRINTER
#include "tree.h"
#include "c-family/c-common.h"
#include "pretty-print.h"
typedef enum
{
pp_c_flag_abstract = 1 << 1,
pp_c_flag_gnu_v3 = 1 << 2,
pp_c_flag_last_bit = 3
} pp_c_pretty_print_flags;
/* The data type used to bundle information necessary for pretty-printing
a C or C++ entity. */
typedef struct c_pretty_print_info c_pretty_printer;
/* The type of a C pretty-printer 'member' function. */
typedef void (*c_pretty_print_fn) (c_pretty_printer *, tree);
/* The datatype that contains information necessary for pretty-printing
a tree that represents a C construct. Any pretty-printer for a
language using C/c++ syntax can derive from this datatype and reuse
facilities provided here. It can do so by having a subobject of type
c_pretty_printer and override the macro pp_c_base to return a pointer
to that subobject. Such a pretty-printer has the responsibility to
initialize the pp_base() part, then call pp_c_pretty_printer_init
to set up the components that are specific to the C pretty-printer.
A derived pretty-printer can override any function listed in the
vtable below. See cp/cxx-pretty-print.h and cp/cxx-pretty-print.c
for an example of derivation. */
struct c_pretty_print_info
{
pretty_printer base;
/* Points to the first element of an array of offset-list.
Not used yet. */
int *offset_list;
pp_flags flags;
/* These must be overridden by each of the C and C++ front-end to
reflect their understanding of syntactic productions when they differ. */
c_pretty_print_fn declaration;
c_pretty_print_fn declaration_specifiers;
c_pretty_print_fn declarator;
c_pretty_print_fn abstract_declarator;
c_pretty_print_fn direct_abstract_declarator;
c_pretty_print_fn type_specifier_seq;
c_pretty_print_fn direct_declarator;
c_pretty_print_fn ptr_operator;
c_pretty_print_fn parameter_list;
c_pretty_print_fn type_id;
c_pretty_print_fn simple_type_specifier;
c_pretty_print_fn function_specifier;
c_pretty_print_fn storage_class_specifier;
c_pretty_print_fn initializer;
c_pretty_print_fn statement;
c_pretty_print_fn constant;
c_pretty_print_fn id_expression;
c_pretty_print_fn primary_expression;
c_pretty_print_fn postfix_expression;
c_pretty_print_fn unary_expression;
c_pretty_print_fn multiplicative_expression;
c_pretty_print_fn conditional_expression;
c_pretty_print_fn assignment_expression;
c_pretty_print_fn expression;
};
/* Override the pp_base macro. Derived pretty-printers should not
touch this macro. Instead they should override pp_c_base instead. */
#undef pp_base
#define pp_base(PP) (&pp_c_base (PP)->base)
#define pp_c_tree_identifier(PPI, ID) \
pp_c_identifier (PPI, IDENTIFIER_POINTER (ID))
#define pp_declaration(PPI, T) \
pp_c_base (PPI)->declaration (pp_c_base (PPI), T)
#define pp_declaration_specifiers(PPI, D) \
pp_c_base (PPI)->declaration_specifiers (pp_c_base (PPI), D)
#define pp_abstract_declarator(PP, D) \
pp_c_base (PP)->abstract_declarator (pp_c_base (PP), D)
#define pp_type_specifier_seq(PPI, D) \
pp_c_base (PPI)->type_specifier_seq (pp_c_base (PPI), D)
#define pp_declarator(PPI, D) \
pp_c_base (PPI)->declarator (pp_c_base (PPI), D)
#define pp_direct_declarator(PPI, D) \
pp_c_base (PPI)->direct_declarator (pp_c_base (PPI), D)
#define pp_direct_abstract_declarator(PP, D) \
pp_c_base (PP)->direct_abstract_declarator (pp_c_base (PP), D)
#define pp_ptr_operator(PP, D) \
pp_c_base (PP)->ptr_operator (pp_c_base (PP), D)
#define pp_parameter_list(PPI, T) \
pp_c_base (PPI)->parameter_list (pp_c_base (PPI), T)
#define pp_type_id(PPI, D) \
pp_c_base (PPI)->type_id (pp_c_base (PPI), D)
#define pp_simple_type_specifier(PP, T) \
pp_c_base (PP)->simple_type_specifier (pp_c_base (PP), T)
#define pp_function_specifier(PP, D) \
pp_c_base (PP)->function_specifier (pp_c_base (PP), D)
#define pp_storage_class_specifier(PP, D) \
pp_c_base (PP)->storage_class_specifier (pp_c_base (PP), D);
#define pp_statement(PPI, S) \
pp_c_base (PPI)->statement (pp_c_base (PPI), S)
#define pp_constant(PP, E) \
pp_c_base (PP)->constant (pp_c_base (PP), E)
#define pp_id_expression(PP, E) \
pp_c_base (PP)->id_expression (pp_c_base (PP), E)
#define pp_primary_expression(PPI, E) \
pp_c_base (PPI)->primary_expression (pp_c_base (PPI), E)
#define pp_postfix_expression(PPI, E) \
pp_c_base (PPI)->postfix_expression (pp_c_base (PPI), E)
#define pp_unary_expression(PPI, E) \
pp_c_base (PPI)->unary_expression (pp_c_base (PPI), E)
#define pp_initializer(PPI, E) \
pp_c_base (PPI)->initializer (pp_c_base (PPI), E)
#define pp_multiplicative_expression(PPI, E) \
pp_c_base (PPI)->multiplicative_expression (pp_c_base (PPI), E)
#define pp_conditional_expression(PPI, E) \
pp_c_base (PPI)->conditional_expression (pp_c_base (PPI), E)
#define pp_assignment_expression(PPI, E) \
pp_c_base (PPI)->assignment_expression (pp_c_base (PPI), E)
#define pp_expression(PP, E) \
pp_c_base (PP)->expression (pp_c_base (PP), E)
/* Returns the c_pretty_printer base object of PRETTY-PRINTER. This
macro must be overridden by any subclass of c_pretty_print_info. */
#define pp_c_base(PP) (PP)
extern void pp_c_pretty_printer_init (c_pretty_printer *);
void pp_c_whitespace (c_pretty_printer *);
void pp_c_left_paren (c_pretty_printer *);
void pp_c_right_paren (c_pretty_printer *);
void pp_c_left_brace (c_pretty_printer *);
void pp_c_right_brace (c_pretty_printer *);
void pp_c_left_bracket (c_pretty_printer *);
void pp_c_right_bracket (c_pretty_printer *);
void pp_c_dot (c_pretty_printer *);
void pp_c_ampersand (c_pretty_printer *);
void pp_c_star (c_pretty_printer *);
void pp_c_arrow (c_pretty_printer *);
void pp_c_semicolon (c_pretty_printer *);
void pp_c_complement (c_pretty_printer *);
void pp_c_exclamation (c_pretty_printer *);
void pp_c_space_for_pointer_operator (c_pretty_printer *, tree);
/* Declarations. */
void pp_c_tree_decl_identifier (c_pretty_printer *, tree);
void pp_c_function_definition (c_pretty_printer *, tree);
void pp_c_attributes (c_pretty_printer *, tree);
void pp_c_attributes_display (c_pretty_printer *, tree);
void pp_c_cv_qualifiers (c_pretty_printer *pp, int qualifiers, bool func_type);
void pp_c_type_qualifier_list (c_pretty_printer *, tree);
void pp_c_parameter_type_list (c_pretty_printer *, tree);
void pp_c_declaration (c_pretty_printer *, tree);
void pp_c_declaration_specifiers (c_pretty_printer *, tree);
void pp_c_declarator (c_pretty_printer *, tree);
void pp_c_direct_declarator (c_pretty_printer *, tree);
void pp_c_specifier_qualifier_list (c_pretty_printer *, tree);
void pp_c_function_specifier (c_pretty_printer *, tree);
void pp_c_type_id (c_pretty_printer *, tree);
void pp_c_direct_abstract_declarator (c_pretty_printer *, tree);
void pp_c_type_specifier (c_pretty_printer *, tree);
void pp_c_storage_class_specifier (c_pretty_printer *, tree);
/* Statements. */
void pp_c_statement (c_pretty_printer *, tree);
/* Expressions. */
void pp_c_expression (c_pretty_printer *, tree);
void pp_c_logical_or_expression (c_pretty_printer *, tree);
void pp_c_expression_list (c_pretty_printer *, tree);
void pp_c_constructor_elts (c_pretty_printer *, vec<constructor_elt, va_gc> *);
void pp_c_call_argument_list (c_pretty_printer *, tree);
void pp_c_unary_expression (c_pretty_printer *, tree);
void pp_c_cast_expression (c_pretty_printer *, tree);
void pp_c_postfix_expression (c_pretty_printer *, tree);
void pp_c_primary_expression (c_pretty_printer *, tree);
void pp_c_init_declarator (c_pretty_printer *, tree);
void pp_c_constant (c_pretty_printer *, tree);
void pp_c_id_expression (c_pretty_printer *, tree);
void pp_c_ws_string (c_pretty_printer *, const char *);
void pp_c_identifier (c_pretty_printer *, const char *);
void pp_c_string_literal (c_pretty_printer *, tree);
void print_c_tree (FILE *file, tree t);
#endif /* GCC_C_PRETTY_PRINTER */

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/* Definitions for C parsing and type checking.
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_C_TREE_H
#define GCC_C_TREE_H
#include "c-family/c-common.h"
#include "diagnostic.h"
/* struct lang_identifier is private to c-decl.c, but langhooks.c needs to
know how big it is. This is sanity-checked in c-decl.c. */
#define C_SIZEOF_STRUCT_LANG_IDENTIFIER \
(sizeof (struct c_common_identifier) + 3 * sizeof (void *))
/* In a RECORD_TYPE or UNION_TYPE, nonzero if any component is read-only. */
#define C_TYPE_FIELDS_READONLY(TYPE) TREE_LANG_FLAG_1 (TYPE)
/* In a RECORD_TYPE or UNION_TYPE, nonzero if any component is volatile. */
#define C_TYPE_FIELDS_VOLATILE(TYPE) TREE_LANG_FLAG_2 (TYPE)
/* In a RECORD_TYPE or UNION_TYPE or ENUMERAL_TYPE
nonzero if the definition of the type has already started. */
#define C_TYPE_BEING_DEFINED(TYPE) TYPE_LANG_FLAG_0 (TYPE)
/* In an incomplete RECORD_TYPE or UNION_TYPE, a list of variable
declarations whose type would be completed by completing that type. */
#define C_TYPE_INCOMPLETE_VARS(TYPE) TYPE_VFIELD (TYPE)
/* In an IDENTIFIER_NODE, nonzero if this identifier is actually a
keyword. C_RID_CODE (node) is then the RID_* value of the keyword,
and C_RID_YYCODE is the token number wanted by Yacc. */
#define C_IS_RESERVED_WORD(ID) TREE_LANG_FLAG_0 (ID)
/* Record whether a type or decl was written with nonconstant size.
Note that TYPE_SIZE may have simplified to a constant. */
#define C_TYPE_VARIABLE_SIZE(TYPE) TYPE_LANG_FLAG_1 (TYPE)
#define C_DECL_VARIABLE_SIZE(TYPE) DECL_LANG_FLAG_0 (TYPE)
/* Record whether a type is defined inside a struct or union type.
This is used for -Wc++-compat. */
#define C_TYPE_DEFINED_IN_STRUCT(TYPE) TYPE_LANG_FLAG_2 (TYPE)
/* Record whether a typedef for type `int' was actually `signed int'. */
#define C_TYPEDEF_EXPLICITLY_SIGNED(EXP) DECL_LANG_FLAG_1 (EXP)
/* For a FUNCTION_DECL, nonzero if it was defined without an explicit
return type. */
#define C_FUNCTION_IMPLICIT_INT(EXP) DECL_LANG_FLAG_1 (EXP)
/* For a FUNCTION_DECL, nonzero if it was an implicit declaration. */
#define C_DECL_IMPLICIT(EXP) DECL_LANG_FLAG_2 (EXP)
/* For FUNCTION_DECLs, evaluates true if the decl is built-in but has
been declared. */
#define C_DECL_DECLARED_BUILTIN(EXP) \
DECL_LANG_FLAG_3 (FUNCTION_DECL_CHECK (EXP))
/* For FUNCTION_DECLs, evaluates true if the decl is built-in, has a
built-in prototype and does not have a non-built-in prototype. */
#define C_DECL_BUILTIN_PROTOTYPE(EXP) \
DECL_LANG_FLAG_6 (FUNCTION_DECL_CHECK (EXP))
/* Record whether a decl was declared register. This is strictly a
front-end flag, whereas DECL_REGISTER is used for code generation;
they may differ for structures with volatile fields. */
#define C_DECL_REGISTER(EXP) DECL_LANG_FLAG_4 (EXP)
/* Record whether a decl was used in an expression anywhere except an
unevaluated operand of sizeof / typeof / alignof. This is only
used for functions declared static but not defined, though outside
sizeof and typeof it is set for other function decls as well. */
#define C_DECL_USED(EXP) DECL_LANG_FLAG_5 (FUNCTION_DECL_CHECK (EXP))
/* Record whether a variable has been declared threadprivate by
#pragma omp threadprivate. */
#define C_DECL_THREADPRIVATE_P(DECL) DECL_LANG_FLAG_3 (VAR_DECL_CHECK (DECL))
/* Nonzero for a decl which either doesn't exist or isn't a prototype.
N.B. Could be simplified if all built-in decls had complete prototypes
(but this is presently difficult because some of them need FILE*). */
#define C_DECL_ISNT_PROTOTYPE(EXP) \
(EXP == 0 \
|| (!prototype_p (TREE_TYPE (EXP)) \
&& !DECL_BUILT_IN (EXP)))
/* For FUNCTION_TYPE, a hidden list of types of arguments. The same as
TYPE_ARG_TYPES for functions with prototypes, but created for functions
without prototypes. */
#define TYPE_ACTUAL_ARG_TYPES(NODE) TYPE_LANG_SLOT_1 (NODE)
/* For a CONSTRUCTOR, whether some initializer contains a
subexpression meaning it is not a constant expression. */
#define CONSTRUCTOR_NON_CONST(EXPR) TREE_LANG_FLAG_1 (CONSTRUCTOR_CHECK (EXPR))
/* Record parser information about an expression that is irrelevant
for code generation alongside a tree representing its value. */
struct c_expr
{
/* The value of the expression. */
tree value;
/* Record the original unary/binary operator of an expression, which may
have been changed by fold, STRING_CST for unparenthesized string
constants, C_MAYBE_CONST_EXPR for __builtin_constant_p calls
(even if parenthesized), for subexpressions, and for non-constant
initializers, or ERROR_MARK for other expressions (including
parenthesized expressions). */
enum tree_code original_code;
/* If not NULL, the original type of an expression. This will
differ from the type of the value field for an enum constant.
The type of an enum constant is a plain integer type, but this
field will be the enum type. */
tree original_type;
};
/* Type alias for struct c_expr. This allows to use the structure
inside the VEC types. */
typedef struct c_expr c_expr_t;
/* A varray of c_expr_t. */
/* Append a new c_expr_t element to V. */
#define C_EXPR_APPEND(V, ELEM) \
do { \
c_expr_t __elem = (ELEM); \
vec_safe_push (V, __elem); \
} while (0)
/* A kind of type specifier. Note that this information is currently
only used to distinguish tag definitions, tag references and typeof
uses. */
enum c_typespec_kind {
/* No typespec. This appears only in struct c_declspec. */
ctsk_none,
/* A reserved keyword type specifier. */
ctsk_resword,
/* A reference to a tag, previously declared, such as "struct foo".
This includes where the previous declaration was as a different
kind of tag, in which case this is only valid if shadowing that
tag in an inner scope. */
ctsk_tagref,
/* A reference to a tag, not previously declared in a visible
scope. */
ctsk_tagfirstref,
/* A definition of a tag such as "struct foo { int a; }". */
ctsk_tagdef,
/* A typedef name. */
ctsk_typedef,
/* An ObjC-specific kind of type specifier. */
ctsk_objc,
/* A typeof specifier. */
ctsk_typeof
};
/* A type specifier: this structure is created in the parser and
passed to declspecs_add_type only. */
struct c_typespec {
/* What kind of type specifier this is. */
enum c_typespec_kind kind;
/* Whether the expression has operands suitable for use in constant
expressions. */
bool expr_const_operands;
/* The specifier itself. */
tree spec;
/* An expression to be evaluated before the type specifier, in the
case of typeof specifiers, or NULL otherwise or if no such
expression is required for a particular typeof specifier. In
particular, when typeof is applied to an expression of variably
modified type, that expression must be evaluated in order to
determine array sizes that form part of the type, but the
expression itself (as opposed to the array sizes) forms no part
of the type and so needs to be recorded separately. */
tree expr;
};
/* A storage class specifier. */
enum c_storage_class {
csc_none,
csc_auto,
csc_extern,
csc_register,
csc_static,
csc_typedef
};
/* A type specifier keyword "void", "_Bool", "char", "int", "float",
"double", "_Decimal32", "_Decimal64", "_Decimal128", "_Fract", "_Accum",
or none of these. */
enum c_typespec_keyword {
cts_none,
cts_void,
cts_bool,
cts_char,
cts_int,
cts_float,
cts_int128,
cts_double,
cts_dfloat32,
cts_dfloat64,
cts_dfloat128,
cts_fract,
cts_accum
};
/* This enum lists all the possible declarator specifiers, storage
class or attribute that a user can write. There is at least one
enumerator per possible declarator specifier in the struct
c_declspecs below.
It is used to index the array of declspec locations in struct
c_declspecs. */
enum c_declspec_word {
cdw_typespec /* A catch-all for a typespec. */,
cdw_storage_class /* A catch-all for a storage class */,
cdw_attributes,
cdw_typedef,
cdw_explicit_signed,
cdw_deprecated,
cdw_default_int,
cdw_long,
cdw_long_long,
cdw_short,
cdw_signed,
cdw_unsigned,
cdw_complex,
cdw_inline,
cdw_noreturn,
cdw_thread,
cdw_const,
cdw_volatile,
cdw_restrict,
cdw_saturating,
cdw_alignas,
cdw_address_space,
cdw_number_of_elements /* This one must always be the last
enumerator. */
};
/* A sequence of declaration specifiers in C. When a new declaration
specifier is added, please update the enum c_declspec_word above
accordingly. */
struct c_declspecs {
source_location locations[cdw_number_of_elements];
/* The type specified, if a single type specifier such as a struct,
union or enum specifier, typedef name or typeof specifies the
whole type, or NULL_TREE if none or a keyword such as "void" or
"char" is used. Does not include qualifiers. */
tree type;
/* Any expression to be evaluated before the type, from a typeof
specifier. */
tree expr;
/* The attributes from a typedef decl. */
tree decl_attr;
/* When parsing, the attributes. Outside the parser, this will be
NULL; attributes (possibly from multiple lists) will be passed
separately. */
tree attrs;
/* The base-2 log of the greatest alignment required by an _Alignas
specifier, in bytes, or -1 if no such specifiers with nonzero
alignment. */
int align_log;
/* The storage class specifier, or csc_none if none. */
enum c_storage_class storage_class;
/* Any type specifier keyword used such as "int", not reflecting
modifiers such as "short", or cts_none if none. */
ENUM_BITFIELD (c_typespec_keyword) typespec_word : 8;
/* The kind of type specifier if one has been seen, ctsk_none
otherwise. */
ENUM_BITFIELD (c_typespec_kind) typespec_kind : 3;
/* Whether any expressions in typeof specifiers may appear in
constant expressions. */
BOOL_BITFIELD expr_const_operands : 1;
/* Whether any declaration specifiers have been seen at all. */
BOOL_BITFIELD declspecs_seen_p : 1;
/* Whether something other than a storage class specifier or
attribute has been seen. This is used to warn for the
obsolescent usage of storage class specifiers other than at the
start of the list. (Doing this properly would require function
specifiers to be handled separately from storage class
specifiers.) */
BOOL_BITFIELD non_sc_seen_p : 1;
/* Whether the type is specified by a typedef or typeof name. */
BOOL_BITFIELD typedef_p : 1;
/* Whether the type is explicitly "signed" or specified by a typedef
whose type is explicitly "signed". */
BOOL_BITFIELD explicit_signed_p : 1;
/* Whether the specifiers include a deprecated typedef. */
BOOL_BITFIELD deprecated_p : 1;
/* Whether the type defaulted to "int" because there were no type
specifiers. */
BOOL_BITFIELD default_int_p : 1;
/* Whether "long" was specified. */
BOOL_BITFIELD long_p : 1;
/* Whether "long" was specified more than once. */
BOOL_BITFIELD long_long_p : 1;
/* Whether "short" was specified. */
BOOL_BITFIELD short_p : 1;
/* Whether "signed" was specified. */
BOOL_BITFIELD signed_p : 1;
/* Whether "unsigned" was specified. */
BOOL_BITFIELD unsigned_p : 1;
/* Whether "complex" was specified. */
BOOL_BITFIELD complex_p : 1;
/* Whether "inline" was specified. */
BOOL_BITFIELD inline_p : 1;
/* Whether "_Noreturn" was speciied. */
BOOL_BITFIELD noreturn_p : 1;
/* Whether "__thread" was specified. */
BOOL_BITFIELD thread_p : 1;
/* Whether "const" was specified. */
BOOL_BITFIELD const_p : 1;
/* Whether "volatile" was specified. */
BOOL_BITFIELD volatile_p : 1;
/* Whether "restrict" was specified. */
BOOL_BITFIELD restrict_p : 1;
/* Whether "_Sat" was specified. */
BOOL_BITFIELD saturating_p : 1;
/* Whether any alignment specifier (even with zero alignment) was
specified. */
BOOL_BITFIELD alignas_p : 1;
/* The address space that the declaration belongs to. */
addr_space_t address_space;
};
/* The various kinds of declarators in C. */
enum c_declarator_kind {
/* An identifier. */
cdk_id,
/* A function. */
cdk_function,
/* An array. */
cdk_array,
/* A pointer. */
cdk_pointer,
/* Parenthesized declarator with nested attributes. */
cdk_attrs
};
typedef struct c_arg_tag_d {
/* The argument name. */
tree id;
/* The type of the argument. */
tree type;
} c_arg_tag;
/* Information about the parameters in a function declarator. */
struct c_arg_info {
/* A list of parameter decls. */
tree parms;
/* A list of structure, union and enum tags defined. */
vec<c_arg_tag, va_gc> *tags;
/* A list of argument types to go in the FUNCTION_TYPE. */
tree types;
/* A list of non-parameter decls (notably enumeration constants)
defined with the parameters. */
tree others;
/* A compound expression of VLA sizes from the parameters, or NULL.
In a function definition, these are used to ensure that
side-effects in sizes of arrays converted to pointers (such as a
parameter int i[n++]) take place; otherwise, they are
ignored. */
tree pending_sizes;
/* True when these arguments had [*]. */
BOOL_BITFIELD had_vla_unspec : 1;
};
/* A declarator. */
struct c_declarator {
/* The kind of declarator. */
enum c_declarator_kind kind;
location_t id_loc; /* Currently only set for cdk_id, cdk_array. */
/* Except for cdk_id, the contained declarator. For cdk_id, NULL. */
struct c_declarator *declarator;
union {
/* For identifiers, an IDENTIFIER_NODE or NULL_TREE if an abstract
declarator. */
tree id;
/* For functions. */
struct c_arg_info *arg_info;
/* For arrays. */
struct {
/* The array dimension, or NULL for [] and [*]. */
tree dimen;
/* The qualifiers inside []. */
int quals;
/* The attributes (currently ignored) inside []. */
tree attrs;
/* Whether [static] was used. */
BOOL_BITFIELD static_p : 1;
/* Whether [*] was used. */
BOOL_BITFIELD vla_unspec_p : 1;
} array;
/* For pointers, the qualifiers on the pointer type. */
int pointer_quals;
/* For attributes. */
tree attrs;
} u;
};
/* A type name. */
struct c_type_name {
/* The declaration specifiers. */
struct c_declspecs *specs;
/* The declarator. */
struct c_declarator *declarator;
};
/* A parameter. */
struct c_parm {
/* The declaration specifiers, minus any prefix attributes. */
struct c_declspecs *specs;
/* The attributes. */
tree attrs;
/* The declarator. */
struct c_declarator *declarator;
};
/* Used when parsing an enum. Initialized by start_enum. */
struct c_enum_contents
{
/* While defining an enum type, this is 1 plus the last enumerator
constant value. */
tree enum_next_value;
/* Nonzero means that there was overflow computing enum_next_value. */
int enum_overflow;
};
/* A type of reference to a static identifier in an inline
function. */
enum c_inline_static_type {
/* Identifier with internal linkage used in function that may be an
inline definition (i.e., file-scope static). */
csi_internal,
/* Modifiable object with static storage duration defined in
function that may be an inline definition (i.e., local
static). */
csi_modifiable
};
/* in c-parser.c */
extern void c_parse_init (void);
/* in c-aux-info.c */
extern void gen_aux_info_record (tree, int, int, int);
/* in c-decl.c */
struct c_spot_bindings;
struct c_struct_parse_info;
extern struct obstack parser_obstack;
extern tree c_break_label;
extern tree c_cont_label;
extern bool global_bindings_p (void);
extern void push_scope (void);
extern tree pop_scope (void);
extern void c_bindings_start_stmt_expr (struct c_spot_bindings *);
extern void c_bindings_end_stmt_expr (struct c_spot_bindings *);
extern void record_inline_static (location_t, tree, tree,
enum c_inline_static_type);
extern void c_init_decl_processing (void);
extern void c_print_identifier (FILE *, tree, int);
extern int quals_from_declspecs (const struct c_declspecs *);
extern struct c_declarator *build_array_declarator (location_t, tree,
struct c_declspecs *,
bool, bool);
extern tree build_enumerator (location_t, location_t, struct c_enum_contents *,
tree, tree);
extern tree check_for_loop_decls (location_t, bool);
extern void mark_forward_parm_decls (void);
extern void declare_parm_level (void);
extern void undeclared_variable (location_t, tree);
extern tree lookup_label_for_goto (location_t, tree);
extern tree declare_label (tree);
extern tree define_label (location_t, tree);
extern struct c_spot_bindings *c_get_switch_bindings (void);
extern void c_release_switch_bindings (struct c_spot_bindings *);
extern bool c_check_switch_jump_warnings (struct c_spot_bindings *,
location_t, location_t);
extern void finish_decl (tree, location_t, tree, tree, tree);
extern tree finish_enum (tree, tree, tree);
extern void finish_function (void);
extern tree finish_struct (location_t, tree, tree, tree,
struct c_struct_parse_info *);
extern struct c_arg_info *build_arg_info (void);
extern struct c_arg_info *get_parm_info (bool, tree);
extern tree grokfield (location_t, struct c_declarator *,
struct c_declspecs *, tree, tree *);
extern tree groktypename (struct c_type_name *, tree *, bool *);
extern tree grokparm (const struct c_parm *, tree *);
extern tree implicitly_declare (location_t, tree);
extern void keep_next_level (void);
extern void pending_xref_error (void);
extern void c_push_function_context (void);
extern void c_pop_function_context (void);
extern void push_parm_decl (const struct c_parm *, tree *);
extern struct c_declarator *set_array_declarator_inner (struct c_declarator *,
struct c_declarator *);
extern tree c_builtin_function (tree);
extern tree c_builtin_function_ext_scope (tree);
extern void shadow_tag (const struct c_declspecs *);
extern void shadow_tag_warned (const struct c_declspecs *, int);
extern tree start_enum (location_t, struct c_enum_contents *, tree);
extern int start_function (struct c_declspecs *, struct c_declarator *, tree);
extern tree start_decl (struct c_declarator *, struct c_declspecs *, bool,
tree);
extern tree start_struct (location_t, enum tree_code, tree,
struct c_struct_parse_info **);
extern void store_parm_decls (void);
extern void store_parm_decls_from (struct c_arg_info *);
extern tree xref_tag (enum tree_code, tree);
extern struct c_typespec parser_xref_tag (location_t, enum tree_code, tree);
extern struct c_parm *build_c_parm (struct c_declspecs *, tree,
struct c_declarator *);
extern struct c_declarator *build_attrs_declarator (tree,
struct c_declarator *);
extern struct c_declarator *build_function_declarator (struct c_arg_info *,
struct c_declarator *);
extern struct c_declarator *build_id_declarator (tree);
extern struct c_declarator *make_pointer_declarator (struct c_declspecs *,
struct c_declarator *);
extern struct c_declspecs *build_null_declspecs (void);
extern struct c_declspecs *declspecs_add_qual (source_location,
struct c_declspecs *, tree);
extern struct c_declspecs *declspecs_add_type (location_t,
struct c_declspecs *,
struct c_typespec);
extern struct c_declspecs *declspecs_add_scspec (source_location,
struct c_declspecs *, tree);
extern struct c_declspecs *declspecs_add_attrs (source_location,
struct c_declspecs *, tree);
extern struct c_declspecs *declspecs_add_addrspace (source_location,
struct c_declspecs *,
addr_space_t);
extern struct c_declspecs *declspecs_add_alignas (source_location,
struct c_declspecs *, tree);
extern struct c_declspecs *finish_declspecs (struct c_declspecs *);
/* in c-objc-common.c */
extern bool c_objc_common_init (void);
extern bool c_missing_noreturn_ok_p (tree);
extern bool c_warn_unused_global_decl (const_tree);
extern void c_initialize_diagnostics (diagnostic_context *);
extern bool c_vla_unspec_p (tree x, tree fn);
/* in c-typeck.c */
extern int in_alignof;
extern int in_sizeof;
extern int in_typeof;
extern tree c_last_sizeof_arg;
extern struct c_switch *c_switch_stack;
extern tree c_objc_common_truthvalue_conversion (location_t, tree);
extern tree require_complete_type (tree);
extern int same_translation_unit_p (const_tree, const_tree);
extern int comptypes (tree, tree);
extern int comptypes_check_different_types (tree, tree, bool *);
extern bool c_vla_type_p (const_tree);
extern bool c_mark_addressable (tree);
extern void c_incomplete_type_error (const_tree, const_tree);
extern tree c_type_promotes_to (tree);
extern struct c_expr default_function_array_conversion (location_t,
struct c_expr);
extern struct c_expr default_function_array_read_conversion (location_t,
struct c_expr);
extern void mark_exp_read (tree);
extern tree composite_type (tree, tree);
extern tree build_component_ref (location_t, tree, tree);
extern tree build_array_ref (location_t, tree, tree);
extern tree build_external_ref (location_t, tree, int, tree *);
extern void pop_maybe_used (bool);
extern struct c_expr c_expr_sizeof_expr (location_t, struct c_expr);
extern struct c_expr c_expr_sizeof_type (location_t, struct c_type_name *);
extern struct c_expr parser_build_unary_op (location_t, enum tree_code,
struct c_expr);
extern struct c_expr parser_build_binary_op (location_t,
enum tree_code, struct c_expr,
struct c_expr);
extern tree build_conditional_expr (location_t, tree, bool, tree, tree,
tree, tree);
extern tree build_compound_expr (location_t, tree, tree);
extern tree c_cast_expr (location_t, struct c_type_name *, tree);
extern tree build_c_cast (location_t, tree, tree);
extern void store_init_value (location_t, tree, tree, tree);
extern void error_init (const char *);
extern void pedwarn_init (location_t, int opt, const char *);
extern void maybe_warn_string_init (tree, struct c_expr);
extern void start_init (tree, tree, int);
extern void finish_init (void);
extern void really_start_incremental_init (tree);
extern void push_init_level (int, struct obstack *);
extern struct c_expr pop_init_level (int, struct obstack *);
extern void set_init_index (tree, tree, struct obstack *);
extern void set_init_label (tree, struct obstack *);
extern void process_init_element (struct c_expr, bool, struct obstack *);
extern tree build_compound_literal (location_t, tree, tree, bool);
extern void check_compound_literal_type (location_t, struct c_type_name *);
extern tree c_start_case (location_t, location_t, tree);
extern void c_finish_case (tree);
extern tree build_asm_expr (location_t, tree, tree, tree, tree, tree, bool);
extern tree build_asm_stmt (tree, tree);
extern int c_types_compatible_p (tree, tree);
extern tree c_begin_compound_stmt (bool);
extern tree c_end_compound_stmt (location_t, tree, bool);
extern void c_finish_if_stmt (location_t, tree, tree, tree, bool);
extern void c_finish_loop (location_t, tree, tree, tree, tree, tree, bool);
extern tree c_begin_stmt_expr (void);
extern tree c_finish_stmt_expr (location_t, tree);
extern tree c_process_expr_stmt (location_t, tree);
extern tree c_finish_expr_stmt (location_t, tree);
extern tree c_finish_return (location_t, tree, tree);
extern tree c_finish_bc_stmt (location_t, tree *, bool);
extern tree c_finish_goto_label (location_t, tree);
extern tree c_finish_goto_ptr (location_t, tree);
extern tree c_expr_to_decl (tree, bool *, bool *);
extern tree c_begin_omp_parallel (void);
extern tree c_finish_omp_parallel (location_t, tree, tree);
extern tree c_begin_omp_task (void);
extern tree c_finish_omp_task (location_t, tree, tree);
extern tree c_finish_omp_clauses (tree);
extern tree c_build_va_arg (location_t, tree, tree);
extern tree c_finish_transaction (location_t, tree, int);
/* Set to 0 at beginning of a function definition, set to 1 if
a return statement that specifies a return value is seen. */
extern int current_function_returns_value;
/* Set to 0 at beginning of a function definition, set to 1 if
a return statement with no argument is seen. */
extern int current_function_returns_null;
/* Set to 0 at beginning of a function definition, set to 1 if
a call to a noreturn function is seen. */
extern int current_function_returns_abnormally;
/* Mode used to build pointers (VOIDmode means ptr_mode). */
extern enum machine_mode c_default_pointer_mode;
/* In c-decl.c */
extern void c_finish_incomplete_decl (tree);
extern void c_write_global_declarations (void);
/* In c-errors.c */
extern void pedwarn_c90 (location_t, int opt, const char *, ...) ATTRIBUTE_GCC_DIAG(3,4);
extern void pedwarn_c99 (location_t, int opt, const char *, ...) ATTRIBUTE_GCC_DIAG(3,4);
#endif /* ! GCC_C_TREE_H */

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@ -0,0 +1,186 @@
/* Flags on basic blocks and edges.
Copyright (C) 2012-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* This file defines flags that may appear on basic blocks or on
edges. Source files define DEF_BASIC_BLOCK_FLAG or DEF_EDGE_FLAG
appropriately before including this file. */
#if !defined(DEF_BASIC_BLOCK_FLAG) && !defined(DEF_EDGE_FLAG)
#error "You must define DEF_BASIC_BLOCK_FLAG or DEF_EDGE_FLAG"
#endif
#ifdef DEF_BASIC_BLOCK_FLAG
/* Masks for basic_block.flags.
The format of this file is: DEF_BASIC_BLOCK_FLAG(NAME, IDX).
NAME is the name of the basic block flag. A flag BB_#NAME will be
created and the name is used in dump_edge_info.
IDX is a sequence number that is used to determine the value
of the flag, which is 1 << IDX).
BB_HOT_PARTITION and BB_COLD_PARTITION should be preserved throughout
the compilation, so they are never cleared.
All other flags may be cleared by clear_bb_flags(). It is generally
a bad idea to rely on any flags being up-to-date. */
/* Only set on blocks that have just been created by create_bb. */
DEF_BASIC_BLOCK_FLAG(NEW, 0)
/* Set by find_unreachable_blocks. Do not rely on this being set in any
pass. */
DEF_BASIC_BLOCK_FLAG(REACHABLE, 1)
/* Set for blocks in an irreducible loop by loop analysis. */
DEF_BASIC_BLOCK_FLAG(IRREDUCIBLE_LOOP, 2)
/* Set on blocks that may actually not be single-entry single-exit block. */
DEF_BASIC_BLOCK_FLAG(SUPERBLOCK, 3)
/* Set on basic blocks that the scheduler should not touch. This is used
by SMS to prevent other schedulers from messing with the loop schedule. */
DEF_BASIC_BLOCK_FLAG(DISABLE_SCHEDULE, 4)
/* Set on blocks that should be put in a hot section. */
DEF_BASIC_BLOCK_FLAG(HOT_PARTITION, 5)
/* Set on blocks that should be put in a cold section. */
DEF_BASIC_BLOCK_FLAG(COLD_PARTITION, 6)
/* Set on block that was duplicated. */
DEF_BASIC_BLOCK_FLAG(DUPLICATED, 7)
/* Set if the label at the top of this block is the target of a non-local goto. */
DEF_BASIC_BLOCK_FLAG(NON_LOCAL_GOTO_TARGET, 8)
/* Set on blocks that are in RTL format. */
DEF_BASIC_BLOCK_FLAG(RTL, 9)
/* Set on blocks that are forwarder blocks.
Only used in cfgcleanup.c. */
DEF_BASIC_BLOCK_FLAG(FORWARDER_BLOCK, 10)
/* Set on blocks that cannot be threaded through.
Only used in cfgcleanup.c. */
DEF_BASIC_BLOCK_FLAG(NONTHREADABLE_BLOCK, 11)
/* Set on blocks that were modified in some way. This bit is set in
df_set_bb_dirty, but not cleared by df_analyze, so it can be used
to test whether a block has been modified prior to a df_analyze call. */
DEF_BASIC_BLOCK_FLAG(MODIFIED, 12)
/* A general visited flag for passes to use. */
DEF_BASIC_BLOCK_FLAG(VISITED, 13)
/* Set on blocks that are in a transaction. This is calculated on
demand, and is available after calling compute_transaction_bits(). */
DEF_BASIC_BLOCK_FLAG(IN_TRANSACTION, 14)
#endif
#ifdef DEF_EDGE_FLAG
/* Masks for edge.flags.
The format of this file is: DEF_EDGE_FLAG(NAME, IDX, STRING).
NAME is the name of the edge flag. A flag EDGE_#NAME will be
created and the name is used in dump_edge_info.
IDX is a sequence number that is used to determine the value
of the flag, which is 1 << IDX). */
/* 'Straight line' flow. In GIMPLE and in cfglayout mode, all normal
edges are fallthru edges. In cfgrtl mode, this flag really means
that control flow falls through to the next basic block in the line. */
DEF_EDGE_FLAG(FALLTHRU, 0)
/* Strange flow, like a computed jump or exception handling. Usually
this means that the edge cannot be split. */
DEF_EDGE_FLAG(ABNORMAL, 1)
/* Edge out of a basic block that ends with a CALL_INSN with abnormal
exit, like an exception or a non-local goto.
ABNORMAL_CALL edges also have ABNORMAL set.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(ABNORMAL_CALL, 2)
/* Exception edge. Exception handling edges represent possible control
transfers from a trapping instruction to an exception handler.
EH edges also have ABNORMAL set for the RTL CFG. */
DEF_EDGE_FLAG(EH, 3)
/* Never merge blocks via this edge. This is used for exception handling,
to prevent merging away edges to the post-landing-pad basic block.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(PRESERVE, 4)
/* Not a real edge. This is used to connect parts of the CFG that do
not halt, such as infinite loops and noreturn functions, to the
EXIT_BLOCK, so that traversing of the reverse CFG is possible. */
DEF_EDGE_FLAG(FAKE, 5)
/* A back edge, marked in a depth-first search of the CFG. Back edges
are hints that this edge may be part of a loop in the CFG. */
DEF_EDGE_FLAG(DFS_BACK, 6)
/* Edge in a part of the CFG that is an irreducible loop. */
DEF_EDGE_FLAG(IRREDUCIBLE_LOOP, 7)
/* Edge taken when controlling predicate is nonzero.
This is only used for the GIMPLE CFG. */
DEF_EDGE_FLAG(TRUE_VALUE, 8)
/* Edge taken when controlling predicate is zero.
This is only used for the GIMPLE CFG. */
DEF_EDGE_FLAG(FALSE_VALUE, 9)
/* Edge is executable. This is only used in GIMPLE SSA-CCP and VRP.
This is only used for the GIMPLE CFG. */
DEF_EDGE_FLAG(EXECUTABLE, 10)
/* Edge crosses between hot and cold sections, when we do partitioning.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(CROSSING, 11)
/* Edge from a sibcall CALL_INSN to exit.
SIBCALL edges also have ABNORMAL set.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(SIBCALL, 12)
/* Candidate for straight line flow. Only used in bb-reorder.c.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(CAN_FALLTHRU, 13)
/* Exit of a loop. This is only used in ifcvt.c.
This flag is only used for the RTL CFG. */
DEF_EDGE_FLAG(LOOP_EXIT, 14)
/* Uninstrumented edge out of a GIMPLE_TRANSACTION statement. */
DEF_EDGE_FLAG(TM_UNINSTRUMENTED, 15)
/* Abort (over) edge out of a GIMPLE_TRANSACTION statement. */
DEF_EDGE_FLAG(TM_ABORT, 16)
#endif
/*
Local variables:
mode:c
End:
*/

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@ -0,0 +1,223 @@
/* Hooks for cfg representation specific functions.
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Contributed by Sebastian Pop <s.pop@laposte.net>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Only basic-block.h includes this. */
struct cfg_hooks
{
/* Name of the corresponding ir. */
const char *name;
/* Debugging. */
int (*verify_flow_info) (void);
void (*dump_bb) (FILE *, basic_block, int, int);
void (*dump_bb_for_graph) (pretty_printer *, basic_block);
/* Basic CFG manipulation. */
/* Return new basic block. */
basic_block (*create_basic_block) (void *head, void *end, basic_block after);
/* Redirect edge E to the given basic block B and update underlying program
representation. Returns edge representing redirected branch (that may not
be equivalent to E in the case of duplicate edges being removed) or NULL
if edge is not easily redirectable for whatever reason. */
edge (*redirect_edge_and_branch) (edge e, basic_block b);
/* Same as the above but allows redirecting of fallthru edges. In that case
newly created forwarder basic block is returned. The edge must
not be abnormal. */
basic_block (*redirect_edge_and_branch_force) (edge, basic_block);
/* Returns true if it is possible to remove the edge by redirecting it
to the destination of the other edge going from its source. */
bool (*can_remove_branch_p) (const_edge);
/* Remove statements corresponding to a given basic block. */
void (*delete_basic_block) (basic_block);
/* Creates a new basic block just after basic block B by splitting
everything after specified instruction I. */
basic_block (*split_block) (basic_block b, void * i);
/* Move block B immediately after block A. */
bool (*move_block_after) (basic_block b, basic_block a);
/* Return true when blocks A and B can be merged into single basic block. */
bool (*can_merge_blocks_p) (basic_block a, basic_block b);
/* Merge blocks A and B. */
void (*merge_blocks) (basic_block a, basic_block b);
/* Predict edge E using PREDICTOR to given PROBABILITY. */
void (*predict_edge) (edge e, enum br_predictor predictor, int probability);
/* Return true if the one of outgoing edges is already predicted by
PREDICTOR. */
bool (*predicted_by_p) (const_basic_block bb, enum br_predictor predictor);
/* Return true when block A can be duplicated. */
bool (*can_duplicate_block_p) (const_basic_block a);
/* Duplicate block A. */
basic_block (*duplicate_block) (basic_block a);
/* Higher level functions representable by primitive operations above if
we didn't have some oddities in RTL and Tree representations. */
basic_block (*split_edge) (edge);
void (*make_forwarder_block) (edge);
/* Try to make the edge fallthru. */
void (*tidy_fallthru_edge) (edge);
/* Make the edge non-fallthru. */
basic_block (*force_nonfallthru) (edge);
/* Say whether a block ends with a call, possibly followed by some
other code that must stay with the call. */
bool (*block_ends_with_call_p) (basic_block);
/* Say whether a block ends with a conditional branch. Switches
and unconditional branches do not qualify. */
bool (*block_ends_with_condjump_p) (const_basic_block);
/* Add fake edges to the function exit for any non constant and non noreturn
calls, volatile inline assembly in the bitmap of blocks specified by
BLOCKS or to the whole CFG if BLOCKS is zero. Return the number of blocks
that were split.
The goal is to expose cases in which entering a basic block does not imply
that all subsequent instructions must be executed. */
int (*flow_call_edges_add) (sbitmap);
/* This function is called immediately after edge E is added to the
edge vector E->dest->preds. */
void (*execute_on_growing_pred) (edge);
/* This function is called immediately before edge E is removed from
the edge vector E->dest->preds. */
void (*execute_on_shrinking_pred) (edge);
/* A hook for duplicating loop in CFG, currently this is used
in loop versioning. */
bool (*cfg_hook_duplicate_loop_to_header_edge) (struct loop *, edge,
unsigned, sbitmap,
edge, vec<edge> *,
int);
/* Add condition to new basic block and update CFG used in loop
versioning. */
void (*lv_add_condition_to_bb) (basic_block, basic_block, basic_block,
void *);
/* Update the PHI nodes in case of loop versioning. */
void (*lv_adjust_loop_header_phi) (basic_block, basic_block,
basic_block, edge);
/* Given a condition BB extract the true/false taken/not taken edges
(depending if we are on tree's or RTL). */
void (*extract_cond_bb_edges) (basic_block, edge *, edge *);
/* Add PHI arguments queued in PENDINT_STMT list on edge E to edge
E->dest (only in tree-ssa loop versioning. */
void (*flush_pending_stmts) (edge);
/* True if a block contains no executable instructions. */
bool (*empty_block_p) (basic_block);
/* Split a basic block if it ends with a conditional branch and if
the other part of the block is not empty. */
basic_block (*split_block_before_cond_jump) (basic_block);
/* Do book-keeping of a basic block for the profile consistency checker. */
void (*account_profile_record) (basic_block, int, struct profile_record *);
};
extern void verify_flow_info (void);
extern void dump_bb (FILE *, basic_block, int, int);
extern void dump_bb_for_graph (pretty_printer *, basic_block);
extern edge redirect_edge_and_branch (edge, basic_block);
extern basic_block redirect_edge_and_branch_force (edge, basic_block);
extern bool can_remove_branch_p (const_edge);
extern void remove_branch (edge);
extern void remove_edge (edge);
extern edge split_block (basic_block, void *);
extern edge split_block_after_labels (basic_block);
extern bool move_block_after (basic_block, basic_block);
extern void delete_basic_block (basic_block);
extern basic_block split_edge (edge);
extern basic_block create_basic_block (void *, void *, basic_block);
extern basic_block create_empty_bb (basic_block);
extern bool can_merge_blocks_p (basic_block, basic_block);
extern void merge_blocks (basic_block, basic_block);
extern edge make_forwarder_block (basic_block, bool (*)(edge),
void (*) (basic_block));
extern basic_block force_nonfallthru (edge);
extern void tidy_fallthru_edge (edge);
extern void tidy_fallthru_edges (void);
extern void predict_edge (edge e, enum br_predictor predictor, int probability);
extern bool predicted_by_p (const_basic_block bb, enum br_predictor predictor);
extern bool can_duplicate_block_p (const_basic_block);
extern basic_block duplicate_block (basic_block, edge, basic_block);
extern bool block_ends_with_call_p (basic_block bb);
extern bool empty_block_p (basic_block);
extern basic_block split_block_before_cond_jump (basic_block);
extern bool block_ends_with_condjump_p (const_basic_block bb);
extern int flow_call_edges_add (sbitmap);
extern void execute_on_growing_pred (edge);
extern void execute_on_shrinking_pred (edge);
extern bool cfg_hook_duplicate_loop_to_header_edge (struct loop *loop, edge,
unsigned int ndupl,
sbitmap wont_exit,
edge orig,
vec<edge> *to_remove,
int flags);
extern void lv_flush_pending_stmts (edge);
extern void extract_cond_bb_edges (basic_block, edge *, edge*);
extern void lv_adjust_loop_header_phi (basic_block, basic_block, basic_block,
edge);
extern void lv_add_condition_to_bb (basic_block, basic_block, basic_block,
void *);
extern bool can_copy_bbs_p (basic_block *, unsigned);
extern void copy_bbs (basic_block *, unsigned, basic_block *,
edge *, unsigned, edge *, struct loop *,
basic_block, bool);
void account_profile_record (struct profile_record *, int);
extern void cfg_layout_initialize (unsigned int);
extern void cfg_layout_finalize (void);
/* Hooks containers. */
extern struct cfg_hooks gimple_cfg_hooks;
extern struct cfg_hooks rtl_cfg_hooks;
extern struct cfg_hooks cfg_layout_rtl_cfg_hooks;
/* Declarations. */
extern enum ir_type current_ir_type (void);
extern void rtl_register_cfg_hooks (void);
extern void cfg_layout_rtl_register_cfg_hooks (void);
extern void gimple_register_cfg_hooks (void);
extern struct cfg_hooks get_cfg_hooks (void);
extern void set_cfg_hooks (struct cfg_hooks);

View file

@ -0,0 +1,733 @@
/* Natural loop functions
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_CFGLOOP_H
#define GCC_CFGLOOP_H
#include "basic-block.h"
#include "double-int.h"
#include "bitmap.h"
#include "sbitmap.h"
/* Structure to hold decision about unrolling/peeling. */
enum lpt_dec
{
LPT_NONE,
LPT_PEEL_COMPLETELY,
LPT_PEEL_SIMPLE,
LPT_UNROLL_CONSTANT,
LPT_UNROLL_RUNTIME,
LPT_UNROLL_STUPID
};
struct GTY (()) lpt_decision {
enum lpt_dec decision;
unsigned times;
};
/* The type of extend applied to an IV. */
enum iv_extend_code
{
IV_SIGN_EXTEND,
IV_ZERO_EXTEND,
IV_UNKNOWN_EXTEND
};
/* The structure describing a bound on number of iterations of a loop. */
struct GTY ((chain_next ("%h.next"))) nb_iter_bound {
/* The statement STMT is executed at most ... */
gimple stmt;
/* ... BOUND + 1 times (BOUND must be an unsigned constant).
The + 1 is added for the following reasons:
a) 0 would otherwise be unused, while we would need to care more about
overflows (as MAX + 1 is sometimes produced as the estimate on number
of executions of STMT).
b) it is consistent with the result of number_of_iterations_exit. */
double_int bound;
/* True if the statement will cause the loop to be leaved the (at most)
BOUND + 1-st time it is executed, that is, all the statements after it
are executed at most BOUND times. */
bool is_exit;
/* The next bound in the list. */
struct nb_iter_bound *next;
};
/* Description of the loop exit. */
struct GTY (()) loop_exit {
/* The exit edge. */
edge e;
/* Previous and next exit in the list of the exits of the loop. */
struct loop_exit *prev;
struct loop_exit *next;
/* Next element in the list of loops from that E exits. */
struct loop_exit *next_e;
};
typedef struct loop *loop_p;
/* An integer estimation of the number of iterations. Estimate_state
describes what is the state of the estimation. */
enum loop_estimation
{
/* Estimate was not computed yet. */
EST_NOT_COMPUTED,
/* Estimate is ready. */
EST_AVAILABLE
};
/* Structure to hold information for each natural loop. */
struct GTY ((chain_next ("%h.next"))) loop {
/* Index into loops array. */
int num;
/* Number of loop insns. */
unsigned ninsns;
/* Basic block of loop header. */
basic_block header;
/* Basic block of loop latch. */
basic_block latch;
/* For loop unrolling/peeling decision. */
struct lpt_decision lpt_decision;
/* Average number of executed insns per iteration. */
unsigned av_ninsns;
/* Number of blocks contained within the loop. */
unsigned num_nodes;
/* Superloops of the loop, starting with the outermost loop. */
vec<loop_p, va_gc> *superloops;
/* The first inner (child) loop or NULL if innermost loop. */
struct loop *inner;
/* Link to the next (sibling) loop. */
struct loop *next;
/* Auxiliary info specific to a pass. */
PTR GTY ((skip (""))) aux;
/* The number of times the latch of the loop is executed. This can be an
INTEGER_CST, or a symbolic expression representing the number of
iterations like "N - 1", or a COND_EXPR containing the runtime
conditions under which the number of iterations is non zero.
Don't access this field directly: number_of_latch_executions
computes and caches the computed information in this field. */
tree nb_iterations;
/* An integer guaranteed to be greater or equal to nb_iterations. Only
valid if any_upper_bound is true. */
double_int nb_iterations_upper_bound;
/* An integer giving an estimate on nb_iterations. Unlike
nb_iterations_upper_bound, there is no guarantee that it is at least
nb_iterations. */
double_int nb_iterations_estimate;
bool any_upper_bound;
bool any_estimate;
/* True if the loop can be parallel. */
bool can_be_parallel;
/* True if -Waggressive-loop-optimizations warned about this loop
already. */
bool warned_aggressive_loop_optimizations;
/* An integer estimation of the number of iterations. Estimate_state
describes what is the state of the estimation. */
enum loop_estimation estimate_state;
/* Upper bound on number of iterations of a loop. */
struct nb_iter_bound *bounds;
/* Head of the cyclic list of the exits of the loop. */
struct loop_exit *exits;
};
/* Flags for state of loop structure. */
enum
{
LOOPS_HAVE_PREHEADERS = 1,
LOOPS_HAVE_SIMPLE_LATCHES = 2,
LOOPS_HAVE_MARKED_IRREDUCIBLE_REGIONS = 4,
LOOPS_HAVE_RECORDED_EXITS = 8,
LOOPS_MAY_HAVE_MULTIPLE_LATCHES = 16,
LOOP_CLOSED_SSA = 32,
LOOPS_NEED_FIXUP = 64,
LOOPS_HAVE_FALLTHRU_PREHEADERS = 128
};
#define LOOPS_NORMAL (LOOPS_HAVE_PREHEADERS | LOOPS_HAVE_SIMPLE_LATCHES \
| LOOPS_HAVE_MARKED_IRREDUCIBLE_REGIONS)
#define AVOID_CFG_MODIFICATIONS (LOOPS_MAY_HAVE_MULTIPLE_LATCHES)
/* Structure to hold CFG information about natural loops within a function. */
struct GTY (()) loops {
/* State of loops. */
int state;
/* Array of the loops. */
vec<loop_p, va_gc> *larray;
/* Maps edges to the list of their descriptions as loop exits. Edges
whose sources or destinations have loop_father == NULL (which may
happen during the cfg manipulations) should not appear in EXITS. */
htab_t GTY((param_is (struct loop_exit))) exits;
/* Pointer to root of loop hierarchy tree. */
struct loop *tree_root;
};
/* Loop recognition. */
bool bb_loop_header_p (basic_block);
extern struct loops *flow_loops_find (struct loops *);
extern void disambiguate_loops_with_multiple_latches (void);
extern void flow_loops_free (struct loops *);
extern void flow_loops_dump (FILE *,
void (*)(const struct loop *, FILE *, int), int);
extern void flow_loop_dump (const struct loop *, FILE *,
void (*)(const struct loop *, FILE *, int), int);
struct loop *alloc_loop (void);
extern void flow_loop_free (struct loop *);
int flow_loop_nodes_find (basic_block, struct loop *);
unsigned fix_loop_structure (bitmap changed_bbs);
bool mark_irreducible_loops (void);
void release_recorded_exits (void);
void record_loop_exits (void);
void rescan_loop_exit (edge, bool, bool);
/* Loop data structure manipulation/querying. */
extern void flow_loop_tree_node_add (struct loop *, struct loop *);
extern void flow_loop_tree_node_remove (struct loop *);
extern void add_loop (struct loop *, struct loop *);
extern bool flow_loop_nested_p (const struct loop *, const struct loop *);
extern bool flow_bb_inside_loop_p (const struct loop *, const_basic_block);
extern struct loop * find_common_loop (struct loop *, struct loop *);
struct loop *superloop_at_depth (struct loop *, unsigned);
struct eni_weights_d;
extern unsigned tree_num_loop_insns (struct loop *, struct eni_weights_d *);
extern int num_loop_insns (const struct loop *);
extern int average_num_loop_insns (const struct loop *);
extern unsigned get_loop_level (const struct loop *);
extern bool loop_exit_edge_p (const struct loop *, const_edge);
extern bool loop_exits_to_bb_p (struct loop *, basic_block);
extern bool loop_exits_from_bb_p (struct loop *, basic_block);
extern void mark_loop_exit_edges (void);
extern location_t get_loop_location (struct loop *loop);
/* Loops & cfg manipulation. */
extern basic_block *get_loop_body (const struct loop *);
extern unsigned get_loop_body_with_size (const struct loop *, basic_block *,
unsigned);
extern basic_block *get_loop_body_in_dom_order (const struct loop *);
extern basic_block *get_loop_body_in_bfs_order (const struct loop *);
extern basic_block *get_loop_body_in_custom_order (const struct loop *,
int (*) (const void *, const void *));
extern vec<edge> get_loop_exit_edges (const struct loop *);
extern edge single_exit (const struct loop *);
extern edge single_likely_exit (struct loop *loop);
extern unsigned num_loop_branches (const struct loop *);
extern edge loop_preheader_edge (const struct loop *);
extern edge loop_latch_edge (const struct loop *);
extern void add_bb_to_loop (basic_block, struct loop *);
extern void remove_bb_from_loops (basic_block);
extern void cancel_loop_tree (struct loop *);
extern void delete_loop (struct loop *);
enum
{
CP_SIMPLE_PREHEADERS = 1,
CP_FALLTHRU_PREHEADERS = 2
};
basic_block create_preheader (struct loop *, int);
extern void create_preheaders (int);
extern void force_single_succ_latches (void);
extern void verify_loop_structure (void);
/* Loop analysis. */
extern bool just_once_each_iteration_p (const struct loop *, const_basic_block);
gcov_type expected_loop_iterations_unbounded (const struct loop *);
extern unsigned expected_loop_iterations (const struct loop *);
extern rtx doloop_condition_get (rtx);
void estimate_numbers_of_iterations_loop (struct loop *);
void record_niter_bound (struct loop *, double_int, bool, bool);
bool estimated_loop_iterations (struct loop *, double_int *);
bool max_loop_iterations (struct loop *, double_int *);
HOST_WIDE_INT estimated_loop_iterations_int (struct loop *);
HOST_WIDE_INT max_loop_iterations_int (struct loop *);
bool max_stmt_executions (struct loop *, double_int *);
bool estimated_stmt_executions (struct loop *, double_int *);
HOST_WIDE_INT max_stmt_executions_int (struct loop *);
HOST_WIDE_INT estimated_stmt_executions_int (struct loop *);
/* Loop manipulation. */
extern bool can_duplicate_loop_p (const struct loop *loop);
#define DLTHE_FLAG_UPDATE_FREQ 1 /* Update frequencies in
duplicate_loop_to_header_edge. */
#define DLTHE_RECORD_COPY_NUMBER 2 /* Record copy number in the aux
field of newly create BB. */
#define DLTHE_FLAG_COMPLETTE_PEEL 4 /* Update frequencies expecting
a complete peeling. */
extern edge create_empty_if_region_on_edge (edge, tree);
extern struct loop *create_empty_loop_on_edge (edge, tree, tree, tree, tree,
tree *, tree *, struct loop *);
extern struct loop * duplicate_loop (struct loop *, struct loop *);
extern void copy_loop_info (struct loop *loop, struct loop *target);
extern void duplicate_subloops (struct loop *, struct loop *);
extern bool duplicate_loop_to_header_edge (struct loop *, edge,
unsigned, sbitmap, edge,
vec<edge> *, int);
extern struct loop *loopify (edge, edge,
basic_block, edge, edge, bool,
unsigned, unsigned);
struct loop * loop_version (struct loop *, void *,
basic_block *, unsigned, unsigned, unsigned, bool);
extern bool remove_path (edge);
extern void unloop (struct loop *, bool *, bitmap);
extern void scale_loop_frequencies (struct loop *, int, int);
/* Induction variable analysis. */
/* The description of induction variable. The things are a bit complicated
due to need to handle subregs and extends. The value of the object described
by it can be obtained as follows (all computations are done in extend_mode):
Value in i-th iteration is
delta + mult * extend_{extend_mode} (subreg_{mode} (base + i * step)).
If first_special is true, the value in the first iteration is
delta + mult * base
If extend = UNKNOWN, first_special must be false, delta 0, mult 1 and value is
subreg_{mode} (base + i * step)
The get_iv_value function can be used to obtain these expressions.
??? Add a third mode field that would specify the mode in that inner
computation is done, which would enable it to be different from the
outer one? */
struct rtx_iv
{
/* Its base and step (mode of base and step is supposed to be extend_mode,
see the description above). */
rtx base, step;
/* The type of extend applied to it (IV_SIGN_EXTEND, IV_ZERO_EXTEND,
or IV_UNKNOWN_EXTEND). */
enum iv_extend_code extend;
/* Operations applied in the extended mode. */
rtx delta, mult;
/* The mode it is extended to. */
enum machine_mode extend_mode;
/* The mode the variable iterates in. */
enum machine_mode mode;
/* Whether the first iteration needs to be handled specially. */
unsigned first_special : 1;
};
/* The description of an exit from the loop and of the number of iterations
till we take the exit. */
struct niter_desc
{
/* The edge out of the loop. */
edge out_edge;
/* The other edge leading from the condition. */
edge in_edge;
/* True if we are able to say anything about number of iterations of the
loop. */
bool simple_p;
/* True if the loop iterates the constant number of times. */
bool const_iter;
/* Number of iterations if constant. */
unsigned HOST_WIDEST_INT niter;
/* Assumptions under that the rest of the information is valid. */
rtx assumptions;
/* Assumptions under that the loop ends before reaching the latch,
even if value of niter_expr says otherwise. */
rtx noloop_assumptions;
/* Condition under that the loop is infinite. */
rtx infinite;
/* Whether the comparison is signed. */
bool signed_p;
/* The mode in that niter_expr should be computed. */
enum machine_mode mode;
/* The number of iterations of the loop. */
rtx niter_expr;
};
extern void iv_analysis_loop_init (struct loop *);
extern bool iv_analyze (rtx, rtx, struct rtx_iv *);
extern bool iv_analyze_result (rtx, rtx, struct rtx_iv *);
extern bool iv_analyze_expr (rtx, rtx, enum machine_mode, struct rtx_iv *);
extern rtx get_iv_value (struct rtx_iv *, rtx);
extern bool biv_p (rtx, rtx);
extern void find_simple_exit (struct loop *, struct niter_desc *);
extern void iv_analysis_done (void);
extern struct niter_desc *get_simple_loop_desc (struct loop *loop);
extern void free_simple_loop_desc (struct loop *loop);
static inline struct niter_desc *
simple_loop_desc (struct loop *loop)
{
return (struct niter_desc *) loop->aux;
}
/* Accessors for the loop structures. */
/* Returns the loop with index NUM from current_loops. */
static inline struct loop *
get_loop (unsigned num)
{
return (*current_loops->larray)[num];
}
/* Returns the number of superloops of LOOP. */
static inline unsigned
loop_depth (const struct loop *loop)
{
return vec_safe_length (loop->superloops);
}
/* Returns the loop depth of the loop BB belongs to. */
static inline int
bb_loop_depth (const_basic_block bb)
{
return bb->loop_father ? loop_depth (bb->loop_father) : 0;
}
/* Returns the immediate superloop of LOOP, or NULL if LOOP is the outermost
loop. */
static inline struct loop *
loop_outer (const struct loop *loop)
{
unsigned n = vec_safe_length (loop->superloops);
if (n == 0)
return NULL;
return (*loop->superloops)[n - 1];
}
/* Returns true if LOOP has at least one exit edge. */
static inline bool
loop_has_exit_edges (const struct loop *loop)
{
return loop->exits->next->e != NULL;
}
/* Returns the list of loops in current_loops. */
static inline vec<loop_p, va_gc> *
get_loops (void)
{
if (!current_loops)
return NULL;
return current_loops->larray;
}
/* Returns the number of loops in current_loops (including the removed
ones and the fake loop that forms the root of the loop tree). */
static inline unsigned
number_of_loops (void)
{
if (!current_loops)
return 0;
return vec_safe_length (current_loops->larray);
}
/* Returns true if state of the loops satisfies all properties
described by FLAGS. */
static inline bool
loops_state_satisfies_p (unsigned flags)
{
return (current_loops->state & flags) == flags;
}
/* Sets FLAGS to the loops state. */
static inline void
loops_state_set (unsigned flags)
{
current_loops->state |= flags;
}
/* Clears FLAGS from the loops state. */
static inline void
loops_state_clear (unsigned flags)
{
if (!current_loops)
return;
current_loops->state &= ~flags;
}
/* Loop iterators. */
/* Flags for loop iteration. */
enum li_flags
{
LI_INCLUDE_ROOT = 1, /* Include the fake root of the loop tree. */
LI_FROM_INNERMOST = 2, /* Iterate over the loops in the reverse order,
starting from innermost ones. */
LI_ONLY_INNERMOST = 4 /* Iterate only over innermost loops. */
};
/* The iterator for loops. */
typedef struct
{
/* The list of loops to visit. */
vec<int> to_visit;
/* The index of the actual loop. */
unsigned idx;
} loop_iterator;
static inline void
fel_next (loop_iterator *li, loop_p *loop)
{
int anum;
while (li->to_visit.iterate (li->idx, &anum))
{
li->idx++;
*loop = get_loop (anum);
if (*loop)
return;
}
li->to_visit.release ();
*loop = NULL;
}
static inline void
fel_init (loop_iterator *li, loop_p *loop, unsigned flags)
{
struct loop *aloop;
unsigned i;
int mn;
li->idx = 0;
if (!current_loops)
{
li->to_visit.create (0);
*loop = NULL;
return;
}
li->to_visit.create (number_of_loops ());
mn = (flags & LI_INCLUDE_ROOT) ? 0 : 1;
if (flags & LI_ONLY_INNERMOST)
{
for (i = 0; vec_safe_iterate (current_loops->larray, i, &aloop); i++)
if (aloop != NULL
&& aloop->inner == NULL
&& aloop->num >= mn)
li->to_visit.quick_push (aloop->num);
}
else if (flags & LI_FROM_INNERMOST)
{
/* Push the loops to LI->TO_VISIT in postorder. */
for (aloop = current_loops->tree_root;
aloop->inner != NULL;
aloop = aloop->inner)
continue;
while (1)
{
if (aloop->num >= mn)
li->to_visit.quick_push (aloop->num);
if (aloop->next)
{
for (aloop = aloop->next;
aloop->inner != NULL;
aloop = aloop->inner)
continue;
}
else if (!loop_outer (aloop))
break;
else
aloop = loop_outer (aloop);
}
}
else
{
/* Push the loops to LI->TO_VISIT in preorder. */
aloop = current_loops->tree_root;
while (1)
{
if (aloop->num >= mn)
li->to_visit.quick_push (aloop->num);
if (aloop->inner != NULL)
aloop = aloop->inner;
else
{
while (aloop != NULL && aloop->next == NULL)
aloop = loop_outer (aloop);
if (aloop == NULL)
break;
aloop = aloop->next;
}
}
}
fel_next (li, loop);
}
#define FOR_EACH_LOOP(LI, LOOP, FLAGS) \
for (fel_init (&(LI), &(LOOP), FLAGS); \
(LOOP); \
fel_next (&(LI), &(LOOP)))
#define FOR_EACH_LOOP_BREAK(LI) \
{ \
(LI).to_visit.release (); \
break; \
}
/* The properties of the target. */
struct target_cfgloop {
/* Number of available registers. */
unsigned x_target_avail_regs;
/* Number of available registers that are call-clobbered. */
unsigned x_target_clobbered_regs;
/* Number of registers reserved for temporary expressions. */
unsigned x_target_res_regs;
/* The cost for register when there still is some reserve, but we are
approaching the number of available registers. */
unsigned x_target_reg_cost[2];
/* The cost for register when we need to spill. */
unsigned x_target_spill_cost[2];
};
extern struct target_cfgloop default_target_cfgloop;
#if SWITCHABLE_TARGET
extern struct target_cfgloop *this_target_cfgloop;
#else
#define this_target_cfgloop (&default_target_cfgloop)
#endif
#define target_avail_regs \
(this_target_cfgloop->x_target_avail_regs)
#define target_clobbered_regs \
(this_target_cfgloop->x_target_clobbered_regs)
#define target_res_regs \
(this_target_cfgloop->x_target_res_regs)
#define target_reg_cost \
(this_target_cfgloop->x_target_reg_cost)
#define target_spill_cost \
(this_target_cfgloop->x_target_spill_cost)
/* Register pressure estimation for induction variable optimizations & loop
invariant motion. */
extern unsigned estimate_reg_pressure_cost (unsigned, unsigned, bool, bool);
extern void init_set_costs (void);
/* Loop optimizer initialization. */
extern void loop_optimizer_init (unsigned);
extern void loop_optimizer_finalize (void);
/* Optimization passes. */
extern void unswitch_loops (void);
enum
{
UAP_PEEL = 1, /* Enables loop peeling. */
UAP_UNROLL = 2, /* Enables unrolling of loops if it seems profitable. */
UAP_UNROLL_ALL = 4 /* Enables unrolling of all loops. */
};
extern void unroll_and_peel_loops (int);
extern void doloop_optimize_loops (void);
extern void move_loop_invariants (void);
extern bool finite_loop_p (struct loop *);
extern void scale_loop_profile (struct loop *loop, int scale, gcov_type iteration_bound);
extern vec<basic_block> get_loop_hot_path (const struct loop *loop);
/* Returns the outermost loop of the loop nest that contains LOOP.*/
static inline struct loop *
loop_outermost (struct loop *loop)
{
unsigned n = vec_safe_length (loop->superloops);
if (n <= 1)
return loop;
return (*loop->superloops)[1];
}
#endif /* GCC_CFGLOOP_H */

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/* This file contains the definitions of the cgraph_inline_failed_t
enums used in GCC.
Copyright (C) 2008-2013 Free Software Foundation, Inc.
Contributed by Doug Kwan <dougkwan@google.com>
This file is part of GCC.
GCC is free software you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* The format of this file is
DEFCIFCODE(code, string).
Where symbol is the enumeration name without the ``''.
The argument STRING is a explain the failure. Except for OK,
which is a NULL pointer. */
/* Inlining successful. This must be the first code. */
DEFCIFCODE(OK , NULL)
/* Inlining failed for an unspecified reason. */
DEFCIFCODE(UNSPECIFIED , "")
/* Function has not be considered for inlining. This is the code for
functions that have not been rejected for inlining yet. */
DEFCIFCODE(FUNCTION_NOT_CONSIDERED, N_("function not considered for inlining"))
/* Inlining failed owing to unavailable function body. */
DEFCIFCODE(BODY_NOT_AVAILABLE, N_("function body not available"))
/* Extern inline function that has been redefined. */
DEFCIFCODE(REDEFINED_EXTERN_INLINE,
N_("redefined extern inline functions are not considered for "
"inlining"))
/* Function is not inlinable. */
DEFCIFCODE(FUNCTION_NOT_INLINABLE, N_("function not inlinable"))
/* Function is not overwritable. */
DEFCIFCODE(OVERWRITABLE, N_("function body can be overwritten at link time"))
/* Function is not an inlining candidate. */
DEFCIFCODE(FUNCTION_NOT_INLINE_CANDIDATE, N_("function not inline candidate"))
/* Inlining failed because of various limit parameters. */
DEFCIFCODE(LARGE_FUNCTION_GROWTH_LIMIT,
N_("--param large-function-growth limit reached"))
DEFCIFCODE(LARGE_STACK_FRAME_GROWTH_LIMIT,
N_("--param large-stack-frame-growth limit reached"))
DEFCIFCODE(MAX_INLINE_INSNS_SINGLE_LIMIT,
N_("--param max-inline-insns-single limit reached"))
DEFCIFCODE(MAX_INLINE_INSNS_AUTO_LIMIT,
N_("--param max-inline-insns-auto limit reached"))
DEFCIFCODE(INLINE_UNIT_GROWTH_LIMIT,
N_("--param inline-unit-growth limit reached"))
/* Recursive inlining. */
DEFCIFCODE(RECURSIVE_INLINING, N_("recursive inlining"))
/* Call is unlikely. */
DEFCIFCODE(UNLIKELY_CALL, N_("call is unlikely and code size would grow"))
/* Function is not declared as inline. */
DEFCIFCODE(NOT_DECLARED_INLINED,
N_("function not declared inline and code size would grow"))
/* Inlining suppressed due to size optimization. */
DEFCIFCODE(OPTIMIZING_FOR_SIZE,
N_("optimizing for size and code size would grow"))
/* Caller and callee disagree on the arguments. */
DEFCIFCODE(MISMATCHED_ARGUMENTS, N_("mismatched arguments"))
/* Call was originally indirect. */
DEFCIFCODE(ORIGINALLY_INDIRECT_CALL,
N_("originally indirect function call not considered for inlining"))
/* Ths edge represents an indirect edge with a yet-undetermined callee . */
DEFCIFCODE(INDIRECT_UNKNOWN_CALL,
N_("indirect function call with a yet undetermined callee"))
/* We can't inline different EH personalities together. */
DEFCIFCODE(EH_PERSONALITY, N_("exception handling personality mismatch"))
/* We can't inline if the callee can throw non-call exceptions but the
caller cannot. */
DEFCIFCODE(NON_CALL_EXCEPTIONS, N_("non-call exception handling mismatch"))
/* We can't inline because of mismatched target specific options. */
DEFCIFCODE(TARGET_OPTION_MISMATCH, N_("target specific option mismatch"))
/* We can't inline because of mismatched optimization levels. */
DEFCIFCODE(OPTIMIZATION_MISMATCH, N_("optimization level attribute mismatch"))

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#ifndef GCC_CONFIG_H
#define GCC_CONFIG_H
#ifdef GENERATOR_FILE
#error config.h is for the host, not build, machine.
#endif
#include "auto-host.h"
#ifdef IN_GCC
# include "ansidecl.h"
#endif
#endif /* GCC_CONFIG_H */

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/* Functions and structures shared between arm and aarch64.
Copyright (C) 1991-2013 Free Software Foundation, Inc.
Contributed by ARM Ltd.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_AARCH_COMMON_PROTOS_H
#define GCC_AARCH_COMMON_PROTOS_H
extern int arm_early_load_addr_dep (rtx, rtx);
extern int arm_early_store_addr_dep (rtx, rtx);
extern int arm_mac_accumulator_is_mul_result (rtx, rtx);
extern int arm_mac_accumulator_is_result (rtx, rtx);
extern int arm_no_early_alu_shift_dep (rtx, rtx);
extern int arm_no_early_alu_shift_value_dep (rtx, rtx);
extern int arm_no_early_mul_dep (rtx, rtx);
extern int arm_no_early_store_addr_dep (rtx, rtx);
extern bool arm_rtx_shift_left_p (rtx);
/* RTX cost table definitions. These are used when tuning for speed rather
than for size and should reflect the _additional_ cost over the cost
of the fastest instruction in the machine, which is COSTS_N_INSNS (1).
Therefore it's okay for some costs to be 0.
Costs may not have a negative value. */
struct alu_cost_table
{
const int arith; /* ADD/SUB. */
const int logical; /* AND/ORR/EOR/BIC, etc. */
const int shift; /* Simple shift. */
const int shift_reg; /* Simple shift by reg. */
const int arith_shift; /* Additional when arith also shifts... */
const int arith_shift_reg; /* ... and when the shift is by a reg. */
const int log_shift; /* Additional when logic also shifts... */
const int log_shift_reg; /* ... and when the shift is by a reg. */
const int extnd; /* Zero/sign extension. */
const int extnd_arith; /* Extend and arith. */
const int bfi; /* Bit-field insert. */
const int bfx; /* Bit-field extraction. */
const int clz; /* Count Leading Zeros. */
const int non_exec; /* Extra cost when not executing insn. */
const bool non_exec_costs_exec; /* True if non-execution must add the exec
cost. */
};
struct mult_cost_table
{
const int simple;
const int flag_setting; /* Additional cost if multiply sets flags. */
const int extend;
const int add;
const int extend_add;
const int idiv;
};
/* Calculations of LDM costs are complex. We assume an initial cost
(ldm_1st) which will load the number of registers mentioned in
ldm_regs_per_insn_1st registers; then each additional
ldm_regs_per_insn_subsequent registers cost one more insn.
Similarly for STM operations.
Therefore the ldm_regs_per_insn_1st/stm_regs_per_insn_1st and
ldm_regs_per_insn_subsequent/stm_regs_per_insn_subsequent fields indicate
the number of registers loaded/stored and are expressed by a simple integer
and not by a COSTS_N_INSNS (N) expression.
*/
struct mem_cost_table
{
const int load;
const int load_sign_extend; /* Additional to load cost. */
const int ldrd; /* Cost of LDRD. */
const int ldm_1st;
const int ldm_regs_per_insn_1st;
const int ldm_regs_per_insn_subsequent;
const int loadf; /* SFmode. */
const int loadd; /* DFmode. */
const int load_unaligned; /* Extra for unaligned loads. */
const int store;
const int strd;
const int stm_1st;
const int stm_regs_per_insn_1st;
const int stm_regs_per_insn_subsequent;
const int storef; /* SFmode. */
const int stored; /* DFmode. */
const int store_unaligned; /* Extra for unaligned stores. */
};
struct fp_cost_table
{
const int div;
const int mult;
const int mult_addsub; /* Non-fused. */
const int fma; /* Fused. */
const int addsub;
const int fpconst; /* Immediate. */
const int neg; /* NEG and ABS. */
const int compare;
const int widen; /* Widen to this size. */
const int narrow; /* Narrow from this size. */
const int toint;
const int fromint;
const int roundint; /* V8 round to integral, remains FP format. */
};
struct vector_cost_table
{
const int alu;
};
struct cpu_cost_table
{
const struct alu_cost_table alu;
const struct mult_cost_table mult[2]; /* SImode and DImode. */
const struct mem_cost_table ldst;
const struct fp_cost_table fp[2]; /* SFmode and DFmode. */
const struct vector_cost_table vect;
};
#endif /* GCC_AARCH_COMMON_PROTOS_H */

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/* Definitions of target machine for GNU compiler, for ARM with a.out
Copyright (C) 1995-2013 Free Software Foundation, Inc.
Contributed by Richard Earnshaw (rearnsha@armltd.co.uk).
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef ASM_APP_ON
#define ASM_APP_ON ""
#endif
#ifndef ASM_APP_OFF
#define ASM_APP_OFF ""
#endif
/* Switch to the text or data segment. */
#define TEXT_SECTION_ASM_OP "\t.text"
#define DATA_SECTION_ASM_OP "\t.data"
#define BSS_SECTION_ASM_OP "\t.bss"
/* Note: If USER_LABEL_PREFIX or LOCAL_LABEL_PREFIX are changed,
make sure that this change is reflected in the function
coff_arm_is_local_label_name() in bfd/coff-arm.c. */
#ifndef REGISTER_PREFIX
#define REGISTER_PREFIX ""
#endif
#ifndef USER_LABEL_PREFIX
#define USER_LABEL_PREFIX "_"
#endif
#ifndef LOCAL_LABEL_PREFIX
#define LOCAL_LABEL_PREFIX ""
#endif
/* The assembler's names for the registers. Note that the ?xx registers are
there so that VFPv3/NEON registers D16-D31 have the same spacing as D0-D15
(each of which is overlaid on two S registers), although there are no
actual single-precision registers which correspond to D16-D31. */
#ifndef REGISTER_NAMES
#define REGISTER_NAMES \
{ \
"r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", \
"r8", "r9", "r10", "fp", "ip", "sp", "lr", "pc", \
"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7", \
"s8", "s9", "s10", "s11", "s12", "s13", "s14", "s15", \
"s16", "s17", "s18", "s19", "s20", "s21", "s22", "s23", \
"s24", "s25", "s26", "s27", "s28", "s29", "s30", "s31", \
"d16", "?16", "d17", "?17", "d18", "?18", "d19", "?19", \
"d20", "?20", "d21", "?21", "d22", "?22", "d23", "?23", \
"d24", "?24", "d25", "?25", "d26", "?26", "d27", "?27", \
"d28", "?28", "d29", "?29", "d30", "?30", "d31", "?31", \
"wr0", "wr1", "wr2", "wr3", \
"wr4", "wr5", "wr6", "wr7", \
"wr8", "wr9", "wr10", "wr11", \
"wr12", "wr13", "wr14", "wr15", \
"wcgr0", "wcgr1", "wcgr2", "wcgr3", \
"cc", "vfpcc", "sfp", "afp" \
}
#endif
#ifndef ADDITIONAL_REGISTER_NAMES
#define ADDITIONAL_REGISTER_NAMES \
{ \
{"a1", 0}, \
{"a2", 1}, \
{"a3", 2}, \
{"a4", 3}, \
{"v1", 4}, \
{"v2", 5}, \
{"v3", 6}, \
{"v4", 7}, \
{"v5", 8}, \
{"v6", 9}, \
{"rfp", 9}, /* Historical. */ \
{"sb", 9}, /* Historical. */ \
{"v7", 10}, \
{"sl", 10}, /* Historical. */ \
{"r11", 11}, /* fp */ \
{"r12", 12}, /* ip */ \
{"r13", 13}, /* sp */ \
{"r14", 14}, /* lr */ \
{"r15", 15} /* pc */ \
}
#endif
#ifndef OVERLAPPING_REGISTER_NAMES
#define OVERLAPPING_REGISTER_NAMES \
{ \
{"d0", FIRST_VFP_REGNUM + 0, 2}, \
{"d1", FIRST_VFP_REGNUM + 2, 2}, \
{"d2", FIRST_VFP_REGNUM + 4, 2}, \
{"d3", FIRST_VFP_REGNUM + 6, 2}, \
{"d4", FIRST_VFP_REGNUM + 8, 2}, \
{"d5", FIRST_VFP_REGNUM + 10, 2}, \
{"d6", FIRST_VFP_REGNUM + 12, 2}, \
{"d7", FIRST_VFP_REGNUM + 14, 2}, \
{"d8", FIRST_VFP_REGNUM + 16, 2}, \
{"d9", FIRST_VFP_REGNUM + 18, 2}, \
{"d10", FIRST_VFP_REGNUM + 20, 2}, \
{"d11", FIRST_VFP_REGNUM + 22, 2}, \
{"d12", FIRST_VFP_REGNUM + 24, 2}, \
{"d13", FIRST_VFP_REGNUM + 26, 2}, \
{"d14", FIRST_VFP_REGNUM + 28, 2}, \
{"d15", FIRST_VFP_REGNUM + 30, 2}, \
{"q0", FIRST_VFP_REGNUM + 0, 4}, \
{"q1", FIRST_VFP_REGNUM + 4, 4}, \
{"q2", FIRST_VFP_REGNUM + 8, 4}, \
{"q3", FIRST_VFP_REGNUM + 12, 4}, \
{"q4", FIRST_VFP_REGNUM + 16, 4}, \
{"q5", FIRST_VFP_REGNUM + 20, 4}, \
{"q6", FIRST_VFP_REGNUM + 24, 4}, \
{"q7", FIRST_VFP_REGNUM + 28, 4}, \
{"q8", FIRST_VFP_REGNUM + 32, 4}, \
{"q9", FIRST_VFP_REGNUM + 36, 4}, \
{"q10", FIRST_VFP_REGNUM + 40, 4}, \
{"q11", FIRST_VFP_REGNUM + 44, 4}, \
{"q12", FIRST_VFP_REGNUM + 48, 4}, \
{"q13", FIRST_VFP_REGNUM + 52, 4}, \
{"q14", FIRST_VFP_REGNUM + 56, 4}, \
{"q15", FIRST_VFP_REGNUM + 60, 4} \
}
#endif
#ifndef NO_DOLLAR_IN_LABEL
#define NO_DOLLAR_IN_LABEL 1
#endif
/* Generate DBX debugging information. riscix.h will undefine this because
the native assembler does not support stabs. */
#define DBX_DEBUGGING_INFO 1
/* Acorn dbx moans about continuation chars, so don't use any. */
#ifndef DBX_CONTIN_LENGTH
#define DBX_CONTIN_LENGTH 0
#endif
/* Output a function label definition. */
#ifndef ASM_DECLARE_FUNCTION_NAME
#define ASM_DECLARE_FUNCTION_NAME(STREAM, NAME, DECL) \
do \
{ \
ARM_DECLARE_FUNCTION_NAME (STREAM, NAME, DECL); \
ASM_OUTPUT_LABEL (STREAM, NAME); \
} \
while (0)
#endif
/* Globalizing directive for a label. */
#define GLOBAL_ASM_OP "\t.global\t"
/* Make an internal label into a string. */
#ifndef ASM_GENERATE_INTERNAL_LABEL
#define ASM_GENERATE_INTERNAL_LABEL(STRING, PREFIX, NUM) \
sprintf (STRING, "*%s%s%u", LOCAL_LABEL_PREFIX, PREFIX, (unsigned int)(NUM))
#endif
/* Output an element of a dispatch table. */
#define ASM_OUTPUT_ADDR_VEC_ELT(STREAM, VALUE) \
do \
{ \
gcc_assert (!TARGET_THUMB2); \
asm_fprintf (STREAM, "\t.word\t%LL%d\n", VALUE); \
} \
while (0)
/* Thumb-2 always uses addr_diff_elf so that the Table Branch instructions
can be used. For non-pic code where the offsets do not suitable for
TBB/TBH the elements are output as absolute labels. */
#define ASM_OUTPUT_ADDR_DIFF_ELT(STREAM, BODY, VALUE, REL) \
do \
{ \
if (TARGET_ARM) \
asm_fprintf (STREAM, "\tb\t%LL%d\n", VALUE); \
else if (TARGET_THUMB1) \
{ \
if (flag_pic || optimize_size) \
{ \
switch (GET_MODE(body)) \
{ \
case QImode: \
asm_fprintf (STREAM, "\t.byte\t(%LL%d-%LL%d)/2\n", \
VALUE, REL); \
break; \
case HImode: /* TBH */ \
asm_fprintf (STREAM, "\t.2byte\t(%LL%d-%LL%d)/2\n", \
VALUE, REL); \
break; \
case SImode: \
asm_fprintf (STREAM, "\t.word\t%LL%d-%LL%d\n", \
VALUE, REL); \
break; \
default: \
gcc_unreachable(); \
} \
} \
else \
asm_fprintf (STREAM, "\t.word\t%LL%d+1\n", VALUE); \
} \
else /* Thumb-2 */ \
{ \
switch (GET_MODE(body)) \
{ \
case QImode: /* TBB */ \
asm_fprintf (STREAM, "\t.byte\t(%LL%d-%LL%d)/2\n", \
VALUE, REL); \
break; \
case HImode: /* TBH */ \
asm_fprintf (STREAM, "\t.2byte\t(%LL%d-%LL%d)/2\n", \
VALUE, REL); \
break; \
case SImode: \
if (flag_pic) \
asm_fprintf (STREAM, "\t.word\t%LL%d+1-%LL%d\n", VALUE, REL); \
else \
asm_fprintf (STREAM, "\t.word\t%LL%d+1\n", VALUE); \
break; \
default: \
gcc_unreachable(); \
} \
} \
} \
while (0)
#undef ASM_OUTPUT_ASCII
#define ASM_OUTPUT_ASCII(STREAM, PTR, LEN) \
output_ascii_pseudo_op (STREAM, (const unsigned char *) (PTR), LEN)
/* Output a gap. In fact we fill it with nulls. */
#undef ASM_OUTPUT_SKIP
#define ASM_OUTPUT_SKIP(STREAM, NBYTES) \
fprintf (STREAM, "\t.space\t%d\n", (int) (NBYTES))
/* Align output to a power of two. Horrible /bin/as. */
#ifndef ASM_OUTPUT_ALIGN
#define ASM_OUTPUT_ALIGN(STREAM, POWER) \
do \
{ \
register int amount = 1 << (POWER); \
\
if (amount == 2) \
fprintf (STREAM, "\t.even\n"); \
else if (amount != 1) \
fprintf (STREAM, "\t.align\t%d\n", amount - 4); \
} \
while (0)
#endif
/* Output a common block. */
#ifndef ASM_OUTPUT_COMMON
#define ASM_OUTPUT_COMMON(STREAM, NAME, SIZE, ROUNDED) \
do \
{ \
fprintf (STREAM, "\t.comm\t"); \
assemble_name (STREAM, NAME); \
asm_fprintf (STREAM, ", %d\t%@ %d\n", \
(int)(ROUNDED), (int)(SIZE)); \
} \
while (0)
#endif
/* Output a local common block. /bin/as can't do this, so hack a
`.space' into the bss segment. Note that this is *bad* practice,
which is guaranteed NOT to work since it doesn't define STATIC
COMMON space but merely STATIC BSS space. */
#ifndef ASM_OUTPUT_ALIGNED_LOCAL
#define ASM_OUTPUT_ALIGNED_LOCAL(STREAM, NAME, SIZE, ALIGN) \
do \
{ \
switch_to_section (bss_section); \
ASM_OUTPUT_ALIGN (STREAM, floor_log2 (ALIGN / BITS_PER_UNIT)); \
ASM_OUTPUT_LABEL (STREAM, NAME); \
fprintf (STREAM, "\t.space\t%d\n", (int)(SIZE)); \
} \
while (0)
#endif
/* Output a zero-initialized block. */
#ifndef ASM_OUTPUT_ALIGNED_BSS
#define ASM_OUTPUT_ALIGNED_BSS(STREAM, DECL, NAME, SIZE, ALIGN) \
asm_output_aligned_bss (STREAM, DECL, NAME, SIZE, ALIGN)
#endif
#ifndef ASM_COMMENT_START
#define ASM_COMMENT_START "@"
#endif
/* This works for GAS and some other assemblers. */
#define SET_ASM_OP "\t.set\t"

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@ -0,0 +1,141 @@
/* ARM CPU Cores
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Written by CodeSourcery, LLC
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Before using #include to read this file, define a macro:
ARM_CORE(CORE_NAME, CORE_IDENT, ARCH, FLAGS, COSTS)
The CORE_NAME is the name of the core, represented as a string constant.
The CORE_IDENT is the name of the core, represented as an identifier.
ARCH is the architecture revision implemented by the chip.
FLAGS are the bitwise-or of the traits that apply to that core.
This need not include flags implied by the architecture.
COSTS is the name of the rtx_costs routine to use.
If you update this table, you must update the "tune" attribute in
arm.md.
Some tools assume no whitespace up to the first "," in each entry. */
/* V2/V2A Architecture Processors */
ARM_CORE("arm2", arm2, 2, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm250", arm250, 2, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm3", arm3, 2, FL_CO_PROC | FL_MODE26, slowmul)
/* V3 Architecture Processors */
ARM_CORE("arm6", arm6, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm60", arm60, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm600", arm600, 3, FL_CO_PROC | FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm610", arm610, 3, FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm620", arm620, 3, FL_CO_PROC | FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm7", arm7, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm7d", arm7d, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm7di", arm7di, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm70", arm70, 3, FL_CO_PROC | FL_MODE26, slowmul)
ARM_CORE("arm700", arm700, 3, FL_CO_PROC | FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm700i", arm700i, 3, FL_CO_PROC | FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm710", arm710, 3, FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm720", arm720, 3, FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm710c", arm710c, 3, FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm7100", arm7100, 3, FL_MODE26 | FL_WBUF, slowmul)
ARM_CORE("arm7500", arm7500, 3, FL_MODE26 | FL_WBUF, slowmul)
/* Doesn't have an external co-proc, but does have embedded fpa. */
ARM_CORE("arm7500fe", arm7500fe, 3, FL_CO_PROC | FL_MODE26 | FL_WBUF, slowmul)
/* V3M Architecture Processors */
/* arm7m doesn't exist on its own, but only with D, ("and", and I), but
those don't alter the code, so arm7m is sometimes used. */
ARM_CORE("arm7m", arm7m, 3M, FL_CO_PROC | FL_MODE26, fastmul)
ARM_CORE("arm7dm", arm7dm, 3M, FL_CO_PROC | FL_MODE26, fastmul)
ARM_CORE("arm7dmi", arm7dmi, 3M, FL_CO_PROC | FL_MODE26, fastmul)
/* V4 Architecture Processors */
ARM_CORE("arm8", arm8, 4, FL_MODE26 | FL_LDSCHED, fastmul)
ARM_CORE("arm810", arm810, 4, FL_MODE26 | FL_LDSCHED, fastmul)
ARM_CORE("strongarm", strongarm, 4, FL_MODE26 | FL_LDSCHED | FL_STRONG, strongarm)
ARM_CORE("strongarm110", strongarm110, 4, FL_MODE26 | FL_LDSCHED | FL_STRONG, strongarm)
ARM_CORE("strongarm1100", strongarm1100, 4, FL_MODE26 | FL_LDSCHED | FL_STRONG, strongarm)
ARM_CORE("strongarm1110", strongarm1110, 4, FL_MODE26 | FL_LDSCHED | FL_STRONG, strongarm)
ARM_CORE("fa526", fa526, 4, FL_LDSCHED, fastmul)
ARM_CORE("fa626", fa626, 4, FL_LDSCHED, fastmul)
/* V4T Architecture Processors */
ARM_CORE("arm7tdmi", arm7tdmi, 4T, FL_CO_PROC , fastmul)
ARM_CORE("arm7tdmi-s", arm7tdmis, 4T, FL_CO_PROC , fastmul)
ARM_CORE("arm710t", arm710t, 4T, FL_WBUF, fastmul)
ARM_CORE("arm720t", arm720t, 4T, FL_WBUF, fastmul)
ARM_CORE("arm740t", arm740t, 4T, FL_WBUF, fastmul)
ARM_CORE("arm9", arm9, 4T, FL_LDSCHED, fastmul)
ARM_CORE("arm9tdmi", arm9tdmi, 4T, FL_LDSCHED, fastmul)
ARM_CORE("arm920", arm920, 4T, FL_LDSCHED, fastmul)
ARM_CORE("arm920t", arm920t, 4T, FL_LDSCHED, fastmul)
ARM_CORE("arm922t", arm922t, 4T, FL_LDSCHED, fastmul)
ARM_CORE("arm940t", arm940t, 4T, FL_LDSCHED, fastmul)
ARM_CORE("ep9312", ep9312, 4T, FL_LDSCHED, fastmul)
/* V5T Architecture Processors */
ARM_CORE("arm10tdmi", arm10tdmi, 5T, FL_LDSCHED, fastmul)
ARM_CORE("arm1020t", arm1020t, 5T, FL_LDSCHED, fastmul)
/* V5TE Architecture Processors */
ARM_CORE("arm9e", arm9e, 5TE, FL_LDSCHED, 9e)
ARM_CORE("arm946e-s", arm946es, 5TE, FL_LDSCHED, 9e)
ARM_CORE("arm966e-s", arm966es, 5TE, FL_LDSCHED, 9e)
ARM_CORE("arm968e-s", arm968es, 5TE, FL_LDSCHED, 9e)
ARM_CORE("arm10e", arm10e, 5TE, FL_LDSCHED, fastmul)
ARM_CORE("arm1020e", arm1020e, 5TE, FL_LDSCHED, fastmul)
ARM_CORE("arm1022e", arm1022e, 5TE, FL_LDSCHED, fastmul)
ARM_CORE("xscale", xscale, 5TE, FL_LDSCHED | FL_STRONG | FL_XSCALE, xscale)
ARM_CORE("iwmmxt", iwmmxt, 5TE, FL_LDSCHED | FL_STRONG | FL_XSCALE | FL_IWMMXT, xscale)
ARM_CORE("iwmmxt2", iwmmxt2, 5TE, FL_LDSCHED | FL_STRONG | FL_XSCALE | FL_IWMMXT | FL_IWMMXT2, xscale)
ARM_CORE("fa606te", fa606te, 5TE, FL_LDSCHED, 9e)
ARM_CORE("fa626te", fa626te, 5TE, FL_LDSCHED, 9e)
ARM_CORE("fmp626", fmp626, 5TE, FL_LDSCHED, 9e)
ARM_CORE("fa726te", fa726te, 5TE, FL_LDSCHED, fa726te)
/* V5TEJ Architecture Processors */
ARM_CORE("arm926ej-s", arm926ejs, 5TEJ, FL_LDSCHED, 9e)
ARM_CORE("arm1026ej-s", arm1026ejs, 5TEJ, FL_LDSCHED, 9e)
/* V6 Architecture Processors */
ARM_CORE("arm1136j-s", arm1136js, 6J, FL_LDSCHED, 9e)
ARM_CORE("arm1136jf-s", arm1136jfs, 6J, FL_LDSCHED | FL_VFPV2, 9e)
ARM_CORE("arm1176jz-s", arm1176jzs, 6ZK, FL_LDSCHED, 9e)
ARM_CORE("arm1176jzf-s", arm1176jzfs, 6ZK, FL_LDSCHED | FL_VFPV2, 9e)
ARM_CORE("mpcorenovfp", mpcorenovfp, 6K, FL_LDSCHED, 9e)
ARM_CORE("mpcore", mpcore, 6K, FL_LDSCHED | FL_VFPV2, 9e)
ARM_CORE("arm1156t2-s", arm1156t2s, 6T2, FL_LDSCHED, v6t2)
ARM_CORE("arm1156t2f-s", arm1156t2fs, 6T2, FL_LDSCHED | FL_VFPV2, v6t2)
ARM_CORE("generic-armv7-a", genericv7a, 7A, FL_LDSCHED, cortex)
ARM_CORE("cortex-a5", cortexa5, 7A, FL_LDSCHED, cortex_a5)
ARM_CORE("cortex-a7", cortexa7, 7A, FL_LDSCHED | FL_THUMB_DIV | FL_ARM_DIV, cortex)
ARM_CORE("cortex-a8", cortexa8, 7A, FL_LDSCHED, cortex)
ARM_CORE("cortex-a9", cortexa9, 7A, FL_LDSCHED, cortex_a9)
ARM_CORE("cortex-a15", cortexa15, 7A, FL_LDSCHED | FL_THUMB_DIV | FL_ARM_DIV, cortex_a15)
ARM_CORE("cortex-r4", cortexr4, 7R, FL_LDSCHED, cortex)
ARM_CORE("cortex-r4f", cortexr4f, 7R, FL_LDSCHED, cortex)
ARM_CORE("cortex-r5", cortexr5, 7R, FL_LDSCHED | FL_ARM_DIV, cortex)
ARM_CORE("cortex-r7", cortexr7, 7R, FL_LDSCHED | FL_ARM_DIV, cortex)
ARM_CORE("cortex-m4", cortexm4, 7EM, FL_LDSCHED, v7m)
ARM_CORE("cortex-m3", cortexm3, 7M, FL_LDSCHED, v7m)
ARM_CORE("cortex-m1", cortexm1, 6M, FL_LDSCHED, v6m)
ARM_CORE("cortex-m0", cortexm0, 6M, FL_LDSCHED, v6m)
ARM_CORE("cortex-m0plus", cortexm0plus, 6M, FL_LDSCHED, v6m)
ARM_CORE("marvell-pj4", marvell_pj4, 7A, FL_LDSCHED, 9e)

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/* Definitions for option handling for ARM.
Copyright (C) 1991-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef ARM_OPTS_H
#define ARM_OPTS_H
/* The various ARM cores. */
enum processor_type
{
#define ARM_CORE(NAME, IDENT, ARCH, FLAGS, COSTS) \
IDENT,
#include "arm-cores.def"
#undef ARM_CORE
/* Used to indicate that no processor has been specified. */
arm_none
};
/* Which __fp16 format to use.
The enumeration values correspond to the numbering for the
Tag_ABI_FP_16bit_format attribute.
*/
enum arm_fp16_format_type
{
ARM_FP16_FORMAT_NONE = 0,
ARM_FP16_FORMAT_IEEE = 1,
ARM_FP16_FORMAT_ALTERNATIVE = 2
};
/* Which ABI to use. */
enum arm_abi_type
{
ARM_ABI_APCS,
ARM_ABI_ATPCS,
ARM_ABI_AAPCS,
ARM_ABI_IWMMXT,
ARM_ABI_AAPCS_LINUX
};
enum float_abi_type
{
ARM_FLOAT_ABI_SOFT,
ARM_FLOAT_ABI_SOFTFP,
ARM_FLOAT_ABI_HARD
};
/* Which thread pointer access sequence to use. */
enum arm_tp_type {
TP_AUTO,
TP_SOFT,
TP_CP15
};
/* Which TLS scheme to use. */
enum arm_tls_type {
TLS_GNU,
TLS_GNU2
};
#endif

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/* Prototypes for exported functions defined in arm.c and pe.c
Copyright (C) 1999-2013 Free Software Foundation, Inc.
Contributed by Richard Earnshaw (rearnsha@arm.com)
Minor hacks by Nick Clifton (nickc@cygnus.com)
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_ARM_PROTOS_H
#define GCC_ARM_PROTOS_H
extern enum unwind_info_type arm_except_unwind_info (struct gcc_options *);
extern int use_return_insn (int, rtx);
extern enum reg_class arm_regno_class (int);
extern void arm_load_pic_register (unsigned long);
extern int arm_volatile_func (void);
extern void arm_expand_prologue (void);
extern void arm_expand_epilogue (bool);
extern void thumb2_expand_return (void);
extern const char *arm_strip_name_encoding (const char *);
extern void arm_asm_output_labelref (FILE *, const char *);
extern void thumb2_asm_output_opcode (FILE *);
extern unsigned long arm_current_func_type (void);
extern HOST_WIDE_INT arm_compute_initial_elimination_offset (unsigned int,
unsigned int);
extern HOST_WIDE_INT thumb_compute_initial_elimination_offset (unsigned int,
unsigned int);
extern unsigned int arm_dbx_register_number (unsigned int);
extern void arm_output_fn_unwind (FILE *, bool);
#ifdef RTX_CODE
extern bool arm_vector_mode_supported_p (enum machine_mode);
extern bool arm_small_register_classes_for_mode_p (enum machine_mode);
extern int arm_hard_regno_mode_ok (unsigned int, enum machine_mode);
extern bool arm_modes_tieable_p (enum machine_mode, enum machine_mode);
extern int const_ok_for_arm (HOST_WIDE_INT);
extern int const_ok_for_op (HOST_WIDE_INT, enum rtx_code);
extern int const_ok_for_dimode_op (HOST_WIDE_INT, enum rtx_code);
extern int arm_split_constant (RTX_CODE, enum machine_mode, rtx,
HOST_WIDE_INT, rtx, rtx, int);
extern int legitimate_pic_operand_p (rtx);
extern rtx legitimize_pic_address (rtx, enum machine_mode, rtx);
extern rtx legitimize_tls_address (rtx, rtx);
extern int arm_legitimate_address_outer_p (enum machine_mode, rtx, RTX_CODE, int);
extern int thumb_legitimate_offset_p (enum machine_mode, HOST_WIDE_INT);
extern bool arm_legitimize_reload_address (rtx *, enum machine_mode, int, int,
int);
extern rtx thumb_legitimize_reload_address (rtx *, enum machine_mode, int, int,
int);
extern int thumb1_legitimate_address_p (enum machine_mode, rtx, int);
extern bool ldm_stm_operation_p (rtx, bool, enum machine_mode mode,
bool, bool);
extern int arm_const_double_rtx (rtx);
extern int vfp3_const_double_rtx (rtx);
extern int neon_immediate_valid_for_move (rtx, enum machine_mode, rtx *, int *);
extern int neon_immediate_valid_for_logic (rtx, enum machine_mode, int, rtx *,
int *);
extern int neon_immediate_valid_for_shift (rtx, enum machine_mode, rtx *,
int *, bool);
extern char *neon_output_logic_immediate (const char *, rtx *,
enum machine_mode, int, int);
extern char *neon_output_shift_immediate (const char *, char, rtx *,
enum machine_mode, int, bool);
extern void neon_pairwise_reduce (rtx, rtx, enum machine_mode,
rtx (*) (rtx, rtx, rtx));
extern rtx neon_make_constant (rtx);
extern void neon_expand_vector_init (rtx, rtx);
extern void neon_lane_bounds (rtx, HOST_WIDE_INT, HOST_WIDE_INT);
extern void neon_const_bounds (rtx, HOST_WIDE_INT, HOST_WIDE_INT);
extern HOST_WIDE_INT neon_element_bits (enum machine_mode);
extern void neon_reinterpret (rtx, rtx);
extern void neon_emit_pair_result_insn (enum machine_mode,
rtx (*) (rtx, rtx, rtx, rtx),
rtx, rtx, rtx);
extern void neon_disambiguate_copy (rtx *, rtx *, rtx *, unsigned int);
extern void neon_split_vcombine (rtx op[3]);
extern enum reg_class coproc_secondary_reload_class (enum machine_mode, rtx,
bool);
extern bool arm_tls_referenced_p (rtx);
extern int arm_coproc_mem_operand (rtx, bool);
extern int neon_vector_mem_operand (rtx, int);
extern int neon_struct_mem_operand (rtx);
extern int arm_no_early_store_addr_dep (rtx, rtx);
extern int arm_early_store_addr_dep (rtx, rtx);
extern int arm_early_load_addr_dep (rtx, rtx);
extern int arm_no_early_alu_shift_dep (rtx, rtx);
extern int arm_no_early_alu_shift_value_dep (rtx, rtx);
extern int arm_no_early_mul_dep (rtx, rtx);
extern int arm_mac_accumulator_is_result (rtx, rtx);
extern int arm_mac_accumulator_is_mul_result (rtx, rtx);
extern int tls_mentioned_p (rtx);
extern int symbol_mentioned_p (rtx);
extern int label_mentioned_p (rtx);
extern RTX_CODE minmax_code (rtx);
extern bool arm_sat_operator_match (rtx, rtx, int *, bool *);
extern int adjacent_mem_locations (rtx, rtx);
extern bool gen_ldm_seq (rtx *, int, bool);
extern bool gen_stm_seq (rtx *, int);
extern bool gen_const_stm_seq (rtx *, int);
extern rtx arm_gen_load_multiple (int *, int, rtx, int, rtx, HOST_WIDE_INT *);
extern rtx arm_gen_store_multiple (int *, int, rtx, int, rtx, HOST_WIDE_INT *);
extern bool offset_ok_for_ldrd_strd (HOST_WIDE_INT);
extern bool operands_ok_ldrd_strd (rtx, rtx, rtx, HOST_WIDE_INT, bool, bool);
extern int arm_gen_movmemqi (rtx *);
extern enum machine_mode arm_select_cc_mode (RTX_CODE, rtx, rtx);
extern enum machine_mode arm_select_dominance_cc_mode (rtx, rtx,
HOST_WIDE_INT);
extern rtx arm_gen_compare_reg (RTX_CODE, rtx, rtx, rtx);
extern rtx arm_gen_return_addr_mask (void);
extern void arm_reload_in_hi (rtx *);
extern void arm_reload_out_hi (rtx *);
extern int arm_max_const_double_inline_cost (void);
extern int arm_const_double_inline_cost (rtx);
extern bool arm_const_double_by_parts (rtx);
extern bool arm_const_double_by_immediates (rtx);
extern const char *fp_immediate_constant (rtx);
extern void arm_emit_call_insn (rtx, rtx);
extern const char *output_call (rtx *);
extern const char *output_call_mem (rtx *);
void arm_emit_movpair (rtx, rtx);
extern const char *output_mov_long_double_arm_from_arm (rtx *);
extern const char *output_move_double (rtx *, bool, int *count);
extern const char *output_move_quad (rtx *);
extern int arm_count_output_move_double_insns (rtx *);
extern const char *output_move_vfp (rtx *operands);
extern const char *output_move_neon (rtx *operands);
extern int arm_attr_length_move_neon (rtx);
extern int arm_address_offset_is_imm (rtx);
extern const char *output_add_immediate (rtx *);
extern const char *arithmetic_instr (rtx, int);
extern void output_ascii_pseudo_op (FILE *, const unsigned char *, int);
extern const char *output_return_instruction (rtx, bool, bool, bool);
extern void arm_poke_function_name (FILE *, const char *);
extern void arm_final_prescan_insn (rtx);
extern int arm_debugger_arg_offset (int, rtx);
extern bool arm_is_long_call_p (tree);
extern int arm_emit_vector_const (FILE *, rtx);
extern void arm_emit_fp16_const (rtx c);
extern const char * arm_output_load_gr (rtx *);
extern const char *vfp_output_fstmd (rtx *);
extern void arm_output_multireg_pop (rtx *, bool, rtx, bool, bool);
extern void arm_set_return_address (rtx, rtx);
extern int arm_eliminable_register (rtx);
extern const char *arm_output_shift(rtx *, int);
extern const char *arm_output_iwmmxt_shift_immediate (const char *, rtx *, bool);
extern const char *arm_output_iwmmxt_tinsr (rtx *);
extern unsigned int arm_sync_loop_insns (rtx , rtx *);
extern int arm_attr_length_push_multi(rtx, rtx);
extern void arm_expand_compare_and_swap (rtx op[]);
extern void arm_split_compare_and_swap (rtx op[]);
extern void arm_split_atomic_op (enum rtx_code, rtx, rtx, rtx, rtx, rtx, rtx);
extern rtx arm_load_tp (rtx);
#if defined TREE_CODE
extern void arm_init_cumulative_args (CUMULATIVE_ARGS *, tree, rtx, tree);
extern bool arm_pad_arg_upward (enum machine_mode, const_tree);
extern bool arm_pad_reg_upward (enum machine_mode, tree, int);
#endif
extern int arm_apply_result_size (void);
#endif /* RTX_CODE */
/* Thumb functions. */
extern void arm_init_expanders (void);
extern const char *thumb1_unexpanded_epilogue (void);
extern void thumb1_expand_prologue (void);
extern void thumb1_expand_epilogue (void);
extern const char *thumb1_output_interwork (void);
#ifdef TREE_CODE
extern int is_called_in_ARM_mode (tree);
#endif
extern int thumb_shiftable_const (unsigned HOST_WIDE_INT);
#ifdef RTX_CODE
extern enum arm_cond_code maybe_get_arm_condition_code (rtx);
extern void thumb1_final_prescan_insn (rtx);
extern void thumb2_final_prescan_insn (rtx);
extern const char *thumb_load_double_from_address (rtx *);
extern const char *thumb_output_move_mem_multiple (int, rtx *);
extern const char *thumb_call_via_reg (rtx);
extern void thumb_expand_movmemqi (rtx *);
extern rtx arm_return_addr (int, rtx);
extern void thumb_reload_out_hi (rtx *);
extern void thumb_reload_in_hi (rtx *);
extern void thumb_set_return_address (rtx, rtx);
extern const char *thumb1_output_casesi (rtx *);
extern const char *thumb2_output_casesi (rtx *);
#endif
/* Defined in pe.c. */
extern int arm_dllexport_name_p (const char *);
extern int arm_dllimport_name_p (const char *);
#ifdef TREE_CODE
extern void arm_pe_unique_section (tree, int);
extern void arm_pe_encode_section_info (tree, rtx, int);
extern int arm_dllexport_p (tree);
extern int arm_dllimport_p (tree);
extern void arm_mark_dllexport (tree);
extern void arm_mark_dllimport (tree);
#endif
extern void arm_pr_long_calls (struct cpp_reader *);
extern void arm_pr_no_long_calls (struct cpp_reader *);
extern void arm_pr_long_calls_off (struct cpp_reader *);
extern void arm_lang_object_attributes_init(void);
extern const char *arm_mangle_type (const_tree);
extern void arm_order_regs_for_local_alloc (void);
/* Vectorizer cost model implementation. */
struct cpu_vec_costs {
const int scalar_stmt_cost; /* Cost of any scalar operation, excluding
load and store. */
const int scalar_load_cost; /* Cost of scalar load. */
const int scalar_store_cost; /* Cost of scalar store. */
const int vec_stmt_cost; /* Cost of any vector operation, excluding
load, store, vector-to-scalar and
scalar-to-vector operation. */
const int vec_to_scalar_cost; /* Cost of vect-to-scalar operation. */
const int scalar_to_vec_cost; /* Cost of scalar-to-vector operation. */
const int vec_align_load_cost; /* Cost of aligned vector load. */
const int vec_unalign_load_cost; /* Cost of unaligned vector load. */
const int vec_unalign_store_cost; /* Cost of unaligned vector load. */
const int vec_store_cost; /* Cost of vector store. */
const int cond_taken_branch_cost; /* Cost of taken branch for vectorizer
cost model. */
const int cond_not_taken_branch_cost;/* Cost of not taken branch for
vectorizer cost model. */
};
#ifdef RTX_CODE
/* This needs to be here because we need RTX_CODE and similar. */
struct cpu_cost_table;
struct tune_params
{
bool (*rtx_costs) (rtx, RTX_CODE, RTX_CODE, int *, bool);
const struct cpu_cost_table *insn_extra_cost;
bool (*sched_adjust_cost) (rtx, rtx, rtx, int *);
int constant_limit;
/* Maximum number of instructions to conditionalise in
arm_final_prescan_insn. */
int max_insns_skipped;
int num_prefetch_slots;
int l1_cache_size;
int l1_cache_line_size;
bool prefer_constant_pool;
int (*branch_cost) (bool, bool);
/* Prefer STRD/LDRD instructions over PUSH/POP/LDM/STM. */
bool prefer_ldrd_strd;
/* The preference for non short cirtcuit operation when optimizing for
performance. The first element covers Thumb state and the second one
is for ARM state. */
bool logical_op_non_short_circuit[2];
/* Vectorizer costs. */
const struct cpu_vec_costs* vec_costs;
};
extern const struct tune_params *current_tune;
extern int vfp3_const_double_for_fract_bits (rtx);
extern void arm_emit_coreregs_64bit_shift (enum rtx_code, rtx, rtx, rtx, rtx,
rtx);
extern bool arm_validize_comparison (rtx *, rtx *, rtx *);
#endif /* RTX_CODE */
extern void arm_expand_vec_perm (rtx target, rtx op0, rtx op1, rtx sel);
extern bool arm_expand_vec_perm_const (rtx target, rtx op0, rtx op1, rtx sel);
extern bool arm_autoinc_modes_ok_p (enum machine_mode, enum arm_auto_incmodes);
extern void arm_emit_eabi_attribute (const char *, int, int);
#endif /* ! GCC_ARM_PROTOS_H */

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/* Configuration file for ARM BPABI targets.
Copyright (C) 2004-2013 Free Software Foundation, Inc.
Contributed by CodeSourcery, LLC
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Use the AAPCS ABI by default. */
#define ARM_DEFAULT_ABI ARM_ABI_AAPCS
/* Assume that AAPCS ABIs should adhere to the full BPABI. */
#define TARGET_BPABI (TARGET_AAPCS_BASED)
/* BPABI targets use EABI frame unwinding tables. */
#undef ARM_UNWIND_INFO
#define ARM_UNWIND_INFO 1
/* Section 4.1 of the AAPCS requires the use of VFP format. */
#undef FPUTYPE_DEFAULT
#define FPUTYPE_DEFAULT "vfp"
/* TARGET_BIG_ENDIAN_DEFAULT is set in
config.gcc for big endian configurations. */
#if TARGET_BIG_ENDIAN_DEFAULT
#define TARGET_ENDIAN_DEFAULT MASK_BIG_END
#else
#define TARGET_ENDIAN_DEFAULT 0
#endif
/* EABI targets should enable interworking by default. */
#undef TARGET_DEFAULT
#define TARGET_DEFAULT (MASK_INTERWORK | TARGET_ENDIAN_DEFAULT)
/* The ARM BPABI functions return a boolean; they use no special
calling convention. */
#define FLOAT_LIB_COMPARE_RETURNS_BOOL(MODE, COMPARISON) TARGET_BPABI
/* The BPABI integer comparison routines return { -1, 0, 1 }. */
#define TARGET_LIB_INT_CMP_BIASED !TARGET_BPABI
#define TARGET_FIX_V4BX_SPEC " %{mcpu=arm8|mcpu=arm810|mcpu=strongarm*"\
"|march=armv4|mcpu=fa526|mcpu=fa626:--fix-v4bx}"
#if TARGET_BIG_ENDIAN_DEFAULT
#define BE8_LINK_SPEC \
" %{!mlittle-endian:%{march=armv7-a|mcpu=cortex-a5 \
|mcpu=cortex-a7 \
|mcpu=cortex-a8|mcpu=cortex-a9|mcpu=cortex-a15 \
|mcpu=marvell-pj4 \
|mcpu=generic-armv7-a \
|march=armv7-m|mcpu=cortex-m3 \
|march=armv7e-m|mcpu=cortex-m4 \
|march=armv6-m|mcpu=cortex-m0 \
|march=armv8-a \
:%{!r:--be8}}}"
#else
#define BE8_LINK_SPEC \
" %{mbig-endian:%{march=armv7-a|mcpu=cortex-a5 \
|mcpu=cortex-a7 \
|mcpu=cortex-a8|mcpu=cortex-a9|mcpu=cortex-a15 \
|mcpu=marvell-pj4 \
|mcpu=generic-armv7-a \
|march=armv7-m|mcpu=cortex-m3 \
|march=armv7e-m|mcpu=cortex-m4 \
|march=armv6-m|mcpu=cortex-m0 \
|march=armv8-a \
:%{!r:--be8}}}"
#endif
/* Tell the assembler to build BPABI binaries. */
#undef SUBTARGET_EXTRA_ASM_SPEC
#define SUBTARGET_EXTRA_ASM_SPEC \
"%{mabi=apcs-gnu|mabi=atpcs:-meabi=gnu;:-meabi=5}" TARGET_FIX_V4BX_SPEC
#ifndef SUBTARGET_EXTRA_LINK_SPEC
#define SUBTARGET_EXTRA_LINK_SPEC ""
#endif
/* The generic link spec in elf.h does not support shared libraries. */
#define BPABI_LINK_SPEC \
"%{mbig-endian:-EB} %{mlittle-endian:-EL} " \
"%{static:-Bstatic} %{shared:-shared} %{symbolic:-Bsymbolic} " \
"-X" SUBTARGET_EXTRA_LINK_SPEC TARGET_FIX_V4BX_SPEC BE8_LINK_SPEC
#undef LINK_SPEC
#define LINK_SPEC BPABI_LINK_SPEC
/* The BPABI requires that we always use an out-of-line implementation
of RTTI comparison, even if the target supports weak symbols,
because the same object file might be used on a target that does
not support merging symbols across DLL boundaries. This macro is
broken out separately so that it can be used within
TARGET_OS_CPP_BUILTINS in configuration files for systems based on
the BPABI. */
#define TARGET_BPABI_CPP_BUILTINS() \
do \
{ \
builtin_define ("__GXX_TYPEINFO_EQUALITY_INLINE=0"); \
} \
while (false)
#undef TARGET_OS_CPP_BUILTINS
#define TARGET_OS_CPP_BUILTINS() \
TARGET_BPABI_CPP_BUILTINS()
/* The BPABI specifies the use of .{init,fini}_array. Therefore, we
do not want GCC to put anything into the .{init,fini} sections. */
#undef INIT_SECTION_ASM_OP
#undef FINI_SECTION_ASM_OP
#define INIT_ARRAY_SECTION_ASM_OP ARM_EABI_CTORS_SECTION_OP
#define FINI_ARRAY_SECTION_ASM_OP ARM_EABI_DTORS_SECTION_OP
/* The legacy _mcount implementation assumes r11 points to a
4-word APCS frame. This is generally not true for EABI targets,
particularly not in Thumb mode. We assume the mcount
implementation does not require a counter variable (No Counter).
Note that __gnu_mcount_nc will be entered with a misaligned stack.
This is OK because it uses a special calling convention anyway. */
#undef NO_PROFILE_COUNTERS
#define NO_PROFILE_COUNTERS 1
#undef ARM_FUNCTION_PROFILER
#define ARM_FUNCTION_PROFILER(STREAM, LABELNO) \
{ \
fprintf (STREAM, "\tpush\t{lr}\n"); \
fprintf (STREAM, "\tbl\t__gnu_mcount_nc\n"); \
}
#undef SUBTARGET_FRAME_POINTER_REQUIRED
#define SUBTARGET_FRAME_POINTER_REQUIRED 0
/* __gnu_mcount_nc restores the original LR value before returning. Ensure
that there is no unnecessary hook set up. */
#undef PROFILE_HOOK

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/* Definitions of target machine for GNU compiler.
For ARM with ELF obj format.
Copyright (C) 1995-2013 Free Software Foundation, Inc.
Contributed by Philip Blundell <philb@gnu.org> and
Catherine Moore <clm@cygnus.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef OBJECT_FORMAT_ELF
#error elf.h included before elfos.h
#endif
#ifndef LOCAL_LABEL_PREFIX
#define LOCAL_LABEL_PREFIX "."
#endif
#ifndef SUBTARGET_CPP_SPEC
#define SUBTARGET_CPP_SPEC "-D__ELF__"
#endif
#ifndef SUBTARGET_EXTRA_SPECS
#define SUBTARGET_EXTRA_SPECS \
{ "subtarget_extra_asm_spec", SUBTARGET_EXTRA_ASM_SPEC }, \
{ "subtarget_asm_float_spec", SUBTARGET_ASM_FLOAT_SPEC }, \
SUBSUBTARGET_EXTRA_SPECS
#endif
#ifndef SUBTARGET_EXTRA_ASM_SPEC
#define SUBTARGET_EXTRA_ASM_SPEC ""
#endif
#ifndef SUBTARGET_ASM_FLOAT_SPEC
#define SUBTARGET_ASM_FLOAT_SPEC "\
%{mapcs-float:-mfloat}"
#endif
#undef SUBSUBTARGET_EXTRA_SPECS
#define SUBSUBTARGET_EXTRA_SPECS
#ifndef ASM_SPEC
#define ASM_SPEC "\
%{mbig-endian:-EB} \
%{mlittle-endian:-EL} \
%(asm_cpu_spec) \
%{mapcs-*:-mapcs-%*} \
%(subtarget_asm_float_spec) \
%{mthumb-interwork:-mthumb-interwork} \
%{mfloat-abi=*} %{mfpu=*} \
%(subtarget_extra_asm_spec)"
#endif
/* The ARM uses @ are a comment character so we need to redefine
TYPE_OPERAND_FMT. */
#undef TYPE_OPERAND_FMT
#define TYPE_OPERAND_FMT "%%%s"
/* We might need a ARM specific header to function declarations. */
#undef ASM_DECLARE_FUNCTION_NAME
#define ASM_DECLARE_FUNCTION_NAME(FILE, NAME, DECL) \
do \
{ \
ARM_DECLARE_FUNCTION_NAME (FILE, NAME, DECL); \
ASM_OUTPUT_TYPE_DIRECTIVE (FILE, NAME, "function"); \
ASM_DECLARE_RESULT (FILE, DECL_RESULT (DECL)); \
ASM_OUTPUT_LABEL(FILE, NAME); \
ARM_OUTPUT_FN_UNWIND (FILE, TRUE); \
} \
while (0)
/* We might need an ARM specific trailer for function declarations. */
#undef ASM_DECLARE_FUNCTION_SIZE
#define ASM_DECLARE_FUNCTION_SIZE(FILE, FNAME, DECL) \
do \
{ \
ARM_OUTPUT_FN_UNWIND (FILE, FALSE); \
if (!flag_inhibit_size_directive) \
ASM_OUTPUT_MEASURED_SIZE (FILE, FNAME); \
} \
while (0)
/* Define this macro if jump tables (for `tablejump' insns) should be
output in the text section, along with the assembler instructions.
Otherwise, the readonly data section is used. */
/* We put ARM and Thumb-2 jump tables in the text section, because it makes
the code more efficient, but for Thumb-1 it's better to put them out of
band unless we are generating compressed tables. */
#define JUMP_TABLES_IN_TEXT_SECTION \
(TARGET_32BIT || (TARGET_THUMB && (optimize_size || flag_pic)))
#ifndef LINK_SPEC
#define LINK_SPEC "%{mbig-endian:-EB} %{mlittle-endian:-EL} -X"
#endif
/* Run-time Target Specification. */
#ifndef TARGET_DEFAULT
#define TARGET_DEFAULT (MASK_APCS_FRAME)
#endif
#ifndef MULTILIB_DEFAULTS
#define MULTILIB_DEFAULTS \
{ "marm", "mlittle-endian", "mfloat-abi=soft", "mno-thumb-interwork", "fno-leading-underscore" }
#endif
#define TARGET_ASM_FILE_START_APP_OFF true
#define TARGET_ASM_FILE_START_FILE_DIRECTIVE true
/* Output an element in the static constructor array. */
#undef TARGET_ASM_CONSTRUCTOR
#define TARGET_ASM_CONSTRUCTOR arm_elf_asm_constructor
#undef TARGET_ASM_DESTRUCTOR
#define TARGET_ASM_DESTRUCTOR arm_elf_asm_destructor
/* For PIC code we need to explicitly specify (PLT) and (GOT) relocs. */
#define NEED_PLT_RELOC flag_pic
#define NEED_GOT_RELOC flag_pic
/* The ELF assembler handles GOT addressing differently to NetBSD. */
#define GOT_PCREL 0
/* Align output to a power of two. Note ".align 0" is redundant,
and also GAS will treat it as ".align 2" which we do not want. */
#define ASM_OUTPUT_ALIGN(STREAM, POWER) \
do \
{ \
if ((POWER) > 0) \
fprintf (STREAM, "\t.align\t%d\n", POWER); \
} \
while (0)
/* Horrible hack: We want to prevent some libgcc routines being included
for some multilibs. */
#ifndef __ARM_ARCH_6M__
#undef L_fixdfsi
#undef L_fixunsdfsi
#undef L_truncdfsf2
#undef L_fixsfsi
#undef L_fixunssfsi
#undef L_floatdidf
#undef L_floatdisf
#undef L_floatundidf
#undef L_floatundisf
#endif

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/* Definitions for non-Linux based ARM systems using ELF
Copyright (C) 1998-2013 Free Software Foundation, Inc.
Contributed by Catherine Moore <clm@cygnus.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* elfos.h should have already been included. Now just override
any conflicting definitions and add any extras. */
/* Run-time Target Specification. */
/* Default to using software floating point. */
#ifndef TARGET_DEFAULT
#define TARGET_DEFAULT (0)
#endif
/* Now we define the strings used to build the spec file. */
#define UNKNOWN_ELF_STARTFILE_SPEC " crti%O%s crtbegin%O%s crt0%O%s"
#undef STARTFILE_SPEC
#define STARTFILE_SPEC UNKNOWN_ELF_STARTFILE_SPEC
#define UNKNOWN_ELF_ENDFILE_SPEC "crtend%O%s crtn%O%s"
#undef ENDFILE_SPEC
#define ENDFILE_SPEC UNKNOWN_ELF_ENDFILE_SPEC
/* The __USES_INITFINI__ define is tested in newlib/libc/sys/arm/crt0.S
to see if it needs to invoked _init() and _fini(). */
#undef SUBTARGET_CPP_SPEC
#define SUBTARGET_CPP_SPEC "-D__USES_INITFINI__"
#undef PREFERRED_DEBUGGING_TYPE
#define PREFERRED_DEBUGGING_TYPE DWARF2_DEBUG
/* Return a nonzero value if DECL has a section attribute. */
#define IN_NAMED_SECTION_P(DECL) \
((TREE_CODE (DECL) == FUNCTION_DECL || TREE_CODE (DECL) == VAR_DECL) \
&& DECL_SECTION_NAME (DECL) != NULL_TREE)
#undef ASM_OUTPUT_ALIGNED_BSS
#define ASM_OUTPUT_ALIGNED_BSS(FILE, DECL, NAME, SIZE, ALIGN) \
do \
{ \
if (IN_NAMED_SECTION_P (DECL)) \
switch_to_section (get_named_section (DECL, NULL, 0)); \
else \
switch_to_section (bss_section); \
\
ASM_OUTPUT_ALIGN (FILE, floor_log2 (ALIGN / BITS_PER_UNIT)); \
\
last_assemble_variable_decl = DECL; \
ASM_DECLARE_OBJECT_NAME (FILE, NAME, DECL); \
ASM_OUTPUT_SKIP (FILE, SIZE ? (int)(SIZE) : 1); \
} \
while (0)
#undef ASM_OUTPUT_ALIGNED_DECL_LOCAL
#define ASM_OUTPUT_ALIGNED_DECL_LOCAL(FILE, DECL, NAME, SIZE, ALIGN) \
do \
{ \
if ((DECL) != NULL && IN_NAMED_SECTION_P (DECL)) \
switch_to_section (get_named_section (DECL, NULL, 0)); \
else \
switch_to_section (bss_section); \
\
ASM_OUTPUT_ALIGN (FILE, floor_log2 (ALIGN / BITS_PER_UNIT)); \
ASM_OUTPUT_LABEL (FILE, NAME); \
fprintf (FILE, "\t.space\t%d\n", SIZE ? (int)(SIZE) : 1); \
} \
while (0)
#ifndef SUBTARGET_CPU_DEFAULT
#define SUBTARGET_CPU_DEFAULT TARGET_CPU_arm7tdmi
#endif
/* The libgcc udivmod functions may throw exceptions. If newlib is
configured to support long longs in I/O, then printf will depend on
udivmoddi4, which will depend on the exception unwind routines,
which will depend on abort, which is defined in libc. */
#undef LINK_GCC_C_SEQUENCE_SPEC
#define LINK_GCC_C_SEQUENCE_SPEC "--start-group %G %L --end-group"

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@ -0,0 +1,68 @@
/* Definitions needed when using stabs embedded in ELF sections.
Copyright (C) 1999-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* This file may be included by any ELF target which wishes to
support -gstabs generating stabs in sections, as produced by gas
and understood by gdb. */
#ifndef GCC_DBX_ELF_H
#define GCC_DBX_ELF_H
/* Output DBX (stabs) debugging information if doing -gstabs. */
#define DBX_DEBUGGING_INFO 1
/* Make LBRAC and RBRAC addresses relative to the start of the
function. The native Solaris stabs debugging format works this
way, gdb expects it, and it reduces the number of relocation
entries... */
#define DBX_BLOCKS_FUNCTION_RELATIVE 1
/* ... but, to make this work, functions must appear prior to line info. */
#define DBX_FUNCTION_FIRST
/* When generating stabs debugging, use N_BINCL entries. */
#define DBX_USE_BINCL
/* There is no limit to the length of stabs strings. */
#ifndef DBX_CONTIN_LENGTH
#define DBX_CONTIN_LENGTH 0
#endif
/* Like block addresses, stabs line numbers are relative to the
current function. */
#define DBX_LINES_FUNCTION_RELATIVE 1
/* Generate a blank trailing N_SO to mark the end of the .o file, since
we can't depend upon the linker to mark .o file boundaries with
embedded stabs. */
#define DBX_OUTPUT_NULL_N_SO_AT_MAIN_SOURCE_FILE_END
#endif /* ! GCC_DBX_ELF_H */

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@ -0,0 +1,435 @@
/* elfos.h -- operating system specific defines to be used when
targeting GCC for some generic ELF system
Copyright (C) 1991-2013 Free Software Foundation, Inc.
Based on svr4.h contributed by Ron Guilmette (rfg@netcom.com).
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#define TARGET_OBJFMT_CPP_BUILTINS() \
do \
{ \
builtin_define ("__ELF__"); \
} \
while (0)
/* Define a symbol indicating that we are using elfos.h.
Some CPU specific configuration files use this. */
#define USING_ELFOS_H
/* The prefix to add to user-visible assembler symbols.
For ELF systems the convention is *not* to prepend a leading
underscore onto user-level symbol names. */
#undef USER_LABEL_PREFIX
#define USER_LABEL_PREFIX ""
/* The biggest alignment supported by ELF in bits. 32-bit ELF
supports section alignment up to (0x80000000 * 8), while
64-bit ELF supports (0x8000000000000000 * 8). If this macro
is not defined, the default is the largest alignment supported
by 32-bit ELF and representable on a 32-bit host. Use this
macro to limit the alignment which can be specified using
the `__attribute__ ((aligned (N)))' construct. */
#ifndef MAX_OFILE_ALIGNMENT
#define MAX_OFILE_ALIGNMENT (((unsigned int) 1 << 28) * 8)
#endif
/* Use periods rather than dollar signs in special g++ assembler names. */
#define NO_DOLLAR_IN_LABEL
/* Writing `int' for a bit-field forces int alignment for the structure. */
#ifndef PCC_BITFIELD_TYPE_MATTERS
#define PCC_BITFIELD_TYPE_MATTERS 1
#endif
/* All ELF targets can support DWARF-2. */
#define DWARF2_DEBUGGING_INFO 1
/* The GNU tools operate better with dwarf2, and it is required by some
psABI's. Since we don't have any native tools to be compatible with,
default to dwarf2. */
#ifndef PREFERRED_DEBUGGING_TYPE
#define PREFERRED_DEBUGGING_TYPE DWARF2_DEBUG
#endif
/* All SVR4 targets use the ELF object file format. */
#define OBJECT_FORMAT_ELF
/* Output #ident as a .ident. */
#undef TARGET_ASM_OUTPUT_IDENT
#define TARGET_ASM_OUTPUT_IDENT default_asm_output_ident_directive
#undef SET_ASM_OP
#define SET_ASM_OP "\t.set\t"
/* Most svr4 assemblers want a .file directive at the beginning of
their input file. */
#define TARGET_ASM_FILE_START_FILE_DIRECTIVE true
/* This is how to allocate empty space in some section. The .zero
pseudo-op is used for this on most svr4 assemblers. */
#define SKIP_ASM_OP "\t.zero\t"
#undef ASM_OUTPUT_SKIP
#define ASM_OUTPUT_SKIP(FILE, SIZE) \
fprintf ((FILE), "%s"HOST_WIDE_INT_PRINT_UNSIGNED"\n",\
SKIP_ASM_OP, (SIZE))
/* This is how to store into the string LABEL
the symbol_ref name of an internal numbered label where
PREFIX is the class of label and NUM is the number within the class.
This is suitable for output with `assemble_name'.
For most svr4 systems, the convention is that any symbol which begins
with a period is not put into the linker symbol table by the assembler. */
#undef ASM_GENERATE_INTERNAL_LABEL
#define ASM_GENERATE_INTERNAL_LABEL(LABEL, PREFIX, NUM) \
do \
{ \
char *__p; \
(LABEL)[0] = '*'; \
(LABEL)[1] = '.'; \
__p = stpcpy (&(LABEL)[2], PREFIX); \
sprint_ul (__p, (unsigned long) (NUM)); \
} \
while (0)
/* Output the label which precedes a jumptable. Note that for all svr4
systems where we actually generate jumptables (which is to say every
svr4 target except i386, where we use casesi instead) we put the jump-
tables into the .rodata section and since other stuff could have been
put into the .rodata section prior to any given jumptable, we have to
make sure that the location counter for the .rodata section gets pro-
perly re-aligned prior to the actual beginning of the jump table. */
#undef ALIGN_ASM_OP
#define ALIGN_ASM_OP "\t.align\t"
#ifndef ASM_OUTPUT_BEFORE_CASE_LABEL
#define ASM_OUTPUT_BEFORE_CASE_LABEL(FILE, PREFIX, NUM, TABLE) \
ASM_OUTPUT_ALIGN ((FILE), 2);
#endif
#undef ASM_OUTPUT_CASE_LABEL
#define ASM_OUTPUT_CASE_LABEL(FILE, PREFIX, NUM, JUMPTABLE) \
do \
{ \
ASM_OUTPUT_BEFORE_CASE_LABEL (FILE, PREFIX, NUM, JUMPTABLE) \
(*targetm.asm_out.internal_label) (FILE, PREFIX, NUM); \
} \
while (0)
/* The standard SVR4 assembler seems to require that certain builtin
library routines (e.g. .udiv) be explicitly declared as .globl
in each assembly file where they are referenced. */
#define ASM_OUTPUT_EXTERNAL_LIBCALL(FILE, FUN) \
(*targetm.asm_out.globalize_label) (FILE, XSTR (FUN, 0))
/* This says how to output assembler code to declare an
uninitialized external linkage data object. Under SVR4,
the linker seems to want the alignment of data objects
to depend on their types. We do exactly that here. */
#define COMMON_ASM_OP "\t.comm\t"
#undef ASM_OUTPUT_ALIGNED_COMMON
#define ASM_OUTPUT_ALIGNED_COMMON(FILE, NAME, SIZE, ALIGN) \
do \
{ \
fprintf ((FILE), "%s", COMMON_ASM_OP); \
assemble_name ((FILE), (NAME)); \
fprintf ((FILE), ","HOST_WIDE_INT_PRINT_UNSIGNED",%u\n", \
(SIZE), (ALIGN) / BITS_PER_UNIT); \
} \
while (0)
/* This says how to output assembler code to declare an
uninitialized internal linkage data object. Under SVR4,
the linker seems to want the alignment of data objects
to depend on their types. We do exactly that here. */
#define LOCAL_ASM_OP "\t.local\t"
#undef ASM_OUTPUT_ALIGNED_LOCAL
#define ASM_OUTPUT_ALIGNED_LOCAL(FILE, NAME, SIZE, ALIGN) \
do \
{ \
fprintf ((FILE), "%s", LOCAL_ASM_OP); \
assemble_name ((FILE), (NAME)); \
fprintf ((FILE), "\n"); \
ASM_OUTPUT_ALIGNED_COMMON (FILE, NAME, SIZE, ALIGN); \
} \
while (0)
/* This is the pseudo-op used to generate a contiguous sequence of byte
values from a double-quoted string WITHOUT HAVING A TERMINATING NUL
AUTOMATICALLY APPENDED. This is the same for most svr4 assemblers. */
#undef ASCII_DATA_ASM_OP
#define ASCII_DATA_ASM_OP "\t.ascii\t"
/* Support a read-only data section. */
#define READONLY_DATA_SECTION_ASM_OP "\t.section\t.rodata"
/* On svr4, we *do* have support for the .init and .fini sections, and we
can put stuff in there to be executed before and after `main'. We let
crtstuff.c and other files know this by defining the following symbols.
The definitions say how to change sections to the .init and .fini
sections. This is the same for all known svr4 assemblers. */
#define INIT_SECTION_ASM_OP "\t.section\t.init"
#define FINI_SECTION_ASM_OP "\t.section\t.fini"
/* Output assembly directive to move to the beginning of current section. */
#ifdef HAVE_GAS_SUBSECTION_ORDERING
# define ASM_SECTION_START_OP "\t.subsection\t-1"
# define ASM_OUTPUT_SECTION_START(FILE) \
fprintf ((FILE), "%s\n", ASM_SECTION_START_OP)
#endif
#define MAKE_DECL_ONE_ONLY(DECL) (DECL_WEAK (DECL) = 1)
/* Switch into a generic section. */
#define TARGET_ASM_NAMED_SECTION default_elf_asm_named_section
#undef TARGET_ASM_SELECT_RTX_SECTION
#define TARGET_ASM_SELECT_RTX_SECTION default_elf_select_rtx_section
#undef TARGET_ASM_SELECT_SECTION
#define TARGET_ASM_SELECT_SECTION default_elf_select_section
#undef TARGET_HAVE_SWITCHABLE_BSS_SECTIONS
#define TARGET_HAVE_SWITCHABLE_BSS_SECTIONS true
/* Define the strings used for the special svr4 .type and .size directives.
These strings generally do not vary from one system running svr4 to
another, but if a given system (e.g. m88k running svr) needs to use
different pseudo-op names for these, they may be overridden in the
file which includes this one. */
#define TYPE_ASM_OP "\t.type\t"
#define SIZE_ASM_OP "\t.size\t"
/* This is how we tell the assembler that a symbol is weak. */
#define ASM_WEAKEN_LABEL(FILE, NAME) \
do \
{ \
fputs ("\t.weak\t", (FILE)); \
assemble_name ((FILE), (NAME)); \
fputc ('\n', (FILE)); \
} \
while (0)
/* The following macro defines the format used to output the second
operand of the .type assembler directive. Different svr4 assemblers
expect various different forms for this operand. The one given here
is just a default. You may need to override it in your machine-
specific tm.h file (depending upon the particulars of your assembler). */
#define TYPE_OPERAND_FMT "@%s"
/* Write the extra assembler code needed to declare a function's result.
Most svr4 assemblers don't require any special declaration of the
result value, but there are exceptions. */
#ifndef ASM_DECLARE_RESULT
#define ASM_DECLARE_RESULT(FILE, RESULT)
#endif
/* These macros generate the special .type and .size directives which
are used to set the corresponding fields of the linker symbol table
entries in an ELF object file under SVR4. These macros also output
the starting labels for the relevant functions/objects. */
/* Write the extra assembler code needed to declare a function properly.
Some svr4 assemblers need to also have something extra said about the
function's return value. We allow for that here. */
#ifndef ASM_DECLARE_FUNCTION_NAME
#define ASM_DECLARE_FUNCTION_NAME(FILE, NAME, DECL) \
do \
{ \
ASM_OUTPUT_TYPE_DIRECTIVE (FILE, NAME, "function"); \
ASM_DECLARE_RESULT (FILE, DECL_RESULT (DECL)); \
ASM_OUTPUT_FUNCTION_LABEL (FILE, NAME, DECL); \
} \
while (0)
#endif
/* Write the extra assembler code needed to declare an object properly. */
#ifdef HAVE_GAS_GNU_UNIQUE_OBJECT
#define USE_GNU_UNIQUE_OBJECT 1
#else
#define USE_GNU_UNIQUE_OBJECT 0
#endif
#define ASM_DECLARE_OBJECT_NAME(FILE, NAME, DECL) \
do \
{ \
HOST_WIDE_INT size; \
\
/* For template static data member instantiations or \
inline fn local statics and their guard variables, use \
gnu_unique_object so that they will be combined even under \
RTLD_LOCAL. Don't use gnu_unique_object for typeinfo, \
vtables and other read-only artificial decls. */ \
if (USE_GNU_UNIQUE_OBJECT && DECL_ONE_ONLY (DECL) \
&& (!DECL_ARTIFICIAL (DECL) || !TREE_READONLY (DECL))) \
ASM_OUTPUT_TYPE_DIRECTIVE (FILE, NAME, "gnu_unique_object"); \
else \
ASM_OUTPUT_TYPE_DIRECTIVE (FILE, NAME, "object"); \
\
size_directive_output = 0; \
if (!flag_inhibit_size_directive \
&& (DECL) && DECL_SIZE (DECL)) \
{ \
size_directive_output = 1; \
size = int_size_in_bytes (TREE_TYPE (DECL)); \
ASM_OUTPUT_SIZE_DIRECTIVE (FILE, NAME, size); \
} \
\
ASM_OUTPUT_LABEL (FILE, NAME); \
} \
while (0)
/* Output the size directive for a decl in rest_of_decl_compilation
in the case where we did not do so before the initializer.
Once we find the error_mark_node, we know that the value of
size_directive_output was set
by ASM_DECLARE_OBJECT_NAME when it was run for the same decl. */
#undef ASM_FINISH_DECLARE_OBJECT
#define ASM_FINISH_DECLARE_OBJECT(FILE, DECL, TOP_LEVEL, AT_END)\
do \
{ \
const char *name = XSTR (XEXP (DECL_RTL (DECL), 0), 0); \
HOST_WIDE_INT size; \
\
if (!flag_inhibit_size_directive \
&& DECL_SIZE (DECL) \
&& ! AT_END && TOP_LEVEL \
&& DECL_INITIAL (DECL) == error_mark_node \
&& !size_directive_output) \
{ \
size_directive_output = 1; \
size = int_size_in_bytes (TREE_TYPE (DECL)); \
ASM_OUTPUT_SIZE_DIRECTIVE (FILE, name, size); \
} \
} \
while (0)
/* This is how to declare the size of a function. */
#ifndef ASM_DECLARE_FUNCTION_SIZE
#define ASM_DECLARE_FUNCTION_SIZE(FILE, FNAME, DECL) \
do \
{ \
if (!flag_inhibit_size_directive) \
ASM_OUTPUT_MEASURED_SIZE (FILE, FNAME); \
} \
while (0)
#endif
/* A table of bytes codes used by the ASM_OUTPUT_ASCII and
ASM_OUTPUT_LIMITED_STRING macros. Each byte in the table
corresponds to a particular byte value [0..255]. For any
given byte value, if the value in the corresponding table
position is zero, the given character can be output directly.
If the table value is 1, the byte must be output as a \ooo
octal escape. If the tables value is anything else, then the
byte value should be output as a \ followed by the value
in the table. Note that we can use standard UN*X escape
sequences for many control characters, but we don't use
\a to represent BEL because some svr4 assemblers (e.g. on
the i386) don't know about that. Also, we don't use \v
since some versions of gas, such as 2.2 did not accept it. */
#define ELF_ASCII_ESCAPES \
"\1\1\1\1\1\1\1\1btn\1fr\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\
\0\0\"\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\
\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\\\0\0\0\
\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\1\
\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\
\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\
\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\
\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1\1"
/* Some svr4 assemblers have a limit on the number of characters which
can appear in the operand of a .string directive. If your assembler
has such a limitation, you should define STRING_LIMIT to reflect that
limit. Note that at least some svr4 assemblers have a limit on the
actual number of bytes in the double-quoted string, and that they
count each character in an escape sequence as one byte. Thus, an
escape sequence like \377 would count as four bytes.
If your target assembler doesn't support the .string directive, you
should define this to zero.
*/
#define ELF_STRING_LIMIT ((unsigned) 256)
#define STRING_ASM_OP "\t.string\t"
/* The routine used to output NUL terminated strings. We use a special
version of this for most svr4 targets because doing so makes the
generated assembly code more compact (and thus faster to assemble)
as well as more readable, especially for targets like the i386
(where the only alternative is to output character sequences as
comma separated lists of numbers). */
#define ASM_OUTPUT_LIMITED_STRING(FILE, STR) \
default_elf_asm_output_limited_string ((FILE), (STR))
/* The routine used to output sequences of byte values. We use a special
version of this for most svr4 targets because doing so makes the
generated assembly code more compact (and thus faster to assemble)
as well as more readable. Note that if we find subparts of the
character sequence which end with NUL (and which are shorter than
STRING_LIMIT) we output those using ASM_OUTPUT_LIMITED_STRING. */
#undef ASM_OUTPUT_ASCII
#define ASM_OUTPUT_ASCII(FILE, STR, LENGTH) \
default_elf_asm_output_ascii ((FILE), (STR), (LENGTH));
/* Allow the use of the -frecord-gcc-switches switch via the
elf_record_gcc_switches function defined in varasm.c. */
#undef TARGET_ASM_RECORD_GCC_SWITCHES
#define TARGET_ASM_RECORD_GCC_SWITCHES elf_record_gcc_switches
/* A C statement (sans semicolon) to output to the stdio stream STREAM
any text necessary for declaring the name of an external symbol
named NAME which is referenced in this compilation but not defined.
It is needed to properly support non-default visibility. */
#ifndef ASM_OUTPUT_EXTERNAL
#define ASM_OUTPUT_EXTERNAL(FILE, DECL, NAME) \
default_elf_asm_output_external (FILE, DECL, NAME)
#endif

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/* Definitions for ELF systems with .init_array/.fini_array section
support.
Copyright (C) 2011-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifdef HAVE_INITFINI_ARRAY_SUPPORT
#define USE_INITFINI_ARRAY
#undef INIT_SECTION_ASM_OP
#undef FINI_SECTION_ASM_OP
#undef INIT_ARRAY_SECTION_ASM_OP
#define INIT_ARRAY_SECTION_ASM_OP
#undef FINI_ARRAY_SECTION_ASM_OP
#define FINI_ARRAY_SECTION_ASM_OP
/* Use .init_array/.fini_array section for constructors and destructors. */
#undef TARGET_ASM_CONSTRUCTOR
#define TARGET_ASM_CONSTRUCTOR default_elf_init_array_asm_out_constructor
#undef TARGET_ASM_DESTRUCTOR
#define TARGET_ASM_DESTRUCTOR default_elf_fini_array_asm_out_destructor
#endif

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/* Definitions for <stdint.h> types on systems using newlib.
Copyright (C) 2008-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* newlib uses 32-bit long in certain cases for all non-SPU
targets. */
#ifndef STDINT_LONG32
#define STDINT_LONG32 (LONG_TYPE_SIZE == 32)
#endif
#define SIG_ATOMIC_TYPE "int"
/* The newlib logic actually checks for sizes greater than 32 rather
than equal to 64 for various 64-bit types. */
#define INT8_TYPE (CHAR_TYPE_SIZE == 8 ? "signed char" : 0)
#define INT16_TYPE (SHORT_TYPE_SIZE == 16 ? "short int" : INT_TYPE_SIZE == 16 ? "int" : CHAR_TYPE_SIZE == 16 ? "signed char" : 0)
#define INT32_TYPE (STDINT_LONG32 ? "long int" : INT_TYPE_SIZE == 32 ? "int" : SHORT_TYPE_SIZE == 32 ? "short int" : CHAR_TYPE_SIZE == 32 ? "signed char" : 0)
#define INT64_TYPE (LONG_TYPE_SIZE == 64 ? "long int" : LONG_LONG_TYPE_SIZE == 64 ? "long long int" : INT_TYPE_SIZE == 64 ? "int" : 0)
#define UINT8_TYPE (CHAR_TYPE_SIZE == 8 ? "unsigned char" : 0)
#define UINT16_TYPE (SHORT_TYPE_SIZE == 16 ? "short unsigned int" : INT_TYPE_SIZE == 16 ? "unsigned int" : CHAR_TYPE_SIZE == 16 ? "unsigned char" : 0)
#define UINT32_TYPE (STDINT_LONG32 ? "long unsigned int" : INT_TYPE_SIZE == 32 ? "unsigned int" : SHORT_TYPE_SIZE == 32 ? "short unsigned int" : CHAR_TYPE_SIZE == 32 ? "unsigned char" : 0)
#define UINT64_TYPE (LONG_TYPE_SIZE == 64 ? "long unsigned int" : LONG_LONG_TYPE_SIZE == 64 ? "long long unsigned int" : INT_TYPE_SIZE == 64 ? "unsigned int" : 0)
#define INT_LEAST8_TYPE (INT8_TYPE ? INT8_TYPE : INT16_TYPE ? INT16_TYPE : INT32_TYPE ? INT32_TYPE : INT64_TYPE ? INT64_TYPE : 0)
#define INT_LEAST16_TYPE (INT16_TYPE ? INT16_TYPE : INT32_TYPE ? INT32_TYPE : INT64_TYPE ? INT64_TYPE : 0)
#define INT_LEAST32_TYPE (INT32_TYPE ? INT32_TYPE : INT64_TYPE ? INT64_TYPE : 0)
#define INT_LEAST64_TYPE INT64_TYPE
#define UINT_LEAST8_TYPE (UINT8_TYPE ? UINT8_TYPE : UINT16_TYPE ? UINT16_TYPE : UINT32_TYPE ? UINT32_TYPE : UINT64_TYPE ? UINT64_TYPE : 0)
#define UINT_LEAST16_TYPE (UINT16_TYPE ? UINT16_TYPE : UINT32_TYPE ? UINT32_TYPE : UINT64_TYPE ? UINT64_TYPE : 0)
#define UINT_LEAST32_TYPE (UINT32_TYPE ? UINT32_TYPE : UINT64_TYPE ? UINT64_TYPE : 0)
#define UINT_LEAST64_TYPE UINT64_TYPE
#define INT_FAST8_TYPE (INT_TYPE_SIZE >= 8 ? "int" : INT_LEAST8_TYPE)
#define INT_FAST16_TYPE (INT_TYPE_SIZE >= 16 ? "int" : INT_LEAST16_TYPE)
#define INT_FAST32_TYPE (INT_TYPE_SIZE >= 32 ? "int" : INT_LEAST32_TYPE)
#define INT_FAST64_TYPE (INT_TYPE_SIZE >= 64 ? "int" : INT_LEAST64_TYPE)
#define UINT_FAST8_TYPE (INT_TYPE_SIZE >= 8 ? "unsigned int" : UINT_LEAST8_TYPE)
#define UINT_FAST16_TYPE (INT_TYPE_SIZE >= 16 ? "unsigned int" : UINT_LEAST16_TYPE)
#define UINT_FAST32_TYPE (INT_TYPE_SIZE >= 32 ? "unsigned int" : UINT_LEAST32_TYPE)
#define UINT_FAST64_TYPE (INT_TYPE_SIZE >= 64 ? "unsigned int" : UINT_LEAST64_TYPE)
/* Newlib uses the unsigned type corresponding to ptrdiff_t for
uintptr_t; this is the same as size_t for most newlib-using
targets. */
#define INTPTR_TYPE PTRDIFF_TYPE
#ifndef UINTPTR_TYPE
#define UINTPTR_TYPE SIZE_TYPE
#endif

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/* Dummy definitions of VxWorks-related macros
Copyright (C) 2007-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* True if we're targeting VxWorks. */
#ifndef TARGET_VXWORKS
#define TARGET_VXWORKS 0
#endif
/* True if generating code for a VxWorks RTP. */
#ifndef TARGET_VXWORKS_RTP
#define TARGET_VXWORKS_RTP false
#endif
/* The symbol that points to an RTP's table of GOTs. */
#define VXWORKS_GOTT_BASE (gcc_unreachable (), "")
/* The symbol that holds the index of the current module's GOT in
VXWORKS_GOTT_BASE. */
#define VXWORKS_GOTT_INDEX (gcc_unreachable (), "")

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/* Generated automatically. */
static const char configuration_arguments[] = "/home/build/work/GCC-4-8-build/src/gcc/configure --target=arm-none-eabi --prefix=/home/build/work/GCC-4-8-build/install-native --libexecdir=/home/build/work/GCC-4-8-build/install-native/lib --infodir=/home/build/work/GCC-4-8-build/install-native/share/doc/gcc-arm-none-eabi/info --mandir=/home/build/work/GCC-4-8-build/install-native/share/doc/gcc-arm-none-eabi/man --htmldir=/home/build/work/GCC-4-8-build/install-native/share/doc/gcc-arm-none-eabi/html --pdfdir=/home/build/work/GCC-4-8-build/install-native/share/doc/gcc-arm-none-eabi/pdf --enable-languages=c,c++ --enable-plugins --disable-decimal-float --disable-libffi --disable-libgomp --disable-libmudflap --disable-libquadmath --disable-libssp --disable-libstdcxx-pch --disable-nls --disable-shared --disable-threads --disable-tls --with-gnu-as --with-gnu-ld --with-newlib --with-headers=yes --with-python-dir=share/gcc-arm-none-eabi --with-sysroot=/home/build/work/GCC-4-8-build/install-native/arm-none-eabi --build=i686-linux-gnu --host=i686-linux-gnu --with-gmp=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-mpfr=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-mpc=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-isl=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-cloog=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-libelf=/home/build/work/GCC-4-8-build/build-native/host-libs/usr --with-host-libstdcxx='-static-libgcc -Wl,-Bstatic,-lstdc++,-Bdynamic -lm' --with-pkgversion='GNU Tools for ARM Embedded Processors' --with-multilib-list=armv6-m,armv7-m,armv7e-m,armv7-r";
static const char thread_model[] = "single";
static const struct {
const char *name, *value;
} configure_default_options[] = { { NULL, NULL} };

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/* GCC core type declarations.
Copyright (C) 2002-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
/* Provide forward declarations of core types which are referred to by
most of the compiler. This allows header files to use these types
(e.g. in function prototypes) without concern for whether the full
definitions are visible. Some other declarations that need to be
universally visible are here, too.
In the context of tconfig.h, most of these have special definitions
which prevent them from being used except in further type
declarations. This is a kludge; the right thing is to avoid
including the "tm.h" header set in the context of tconfig.h, but
we're not there yet. */
#ifndef GCC_CORETYPES_H
#define GCC_CORETYPES_H
#ifndef GTY
#define GTY(x) /* nothing - marker for gengtype */
#endif
#ifndef USED_FOR_TARGET
struct bitmap_head_def;
typedef struct bitmap_head_def *bitmap;
typedef const struct bitmap_head_def *const_bitmap;
struct simple_bitmap_def;
typedef struct simple_bitmap_def *sbitmap;
typedef const struct simple_bitmap_def *const_sbitmap;
struct rtx_def;
typedef struct rtx_def *rtx;
typedef const struct rtx_def *const_rtx;
struct rtvec_def;
typedef struct rtvec_def *rtvec;
typedef const struct rtvec_def *const_rtvec;
union tree_node;
typedef union tree_node *tree;
typedef const union tree_node *const_tree;
union gimple_statement_d;
typedef union gimple_statement_d *gimple;
typedef const union gimple_statement_d *const_gimple;
typedef gimple gimple_seq;
union section;
typedef union section section;
struct gcc_options;
struct cl_target_option;
struct cl_optimization;
struct cl_option;
struct cl_decoded_option;
struct cl_option_handlers;
struct diagnostic_context;
typedef struct diagnostic_context diagnostic_context;
struct pretty_print_info;
typedef struct pretty_print_info pretty_printer;
/* Address space number for named address space support. */
typedef unsigned char addr_space_t;
/* The value of addr_space_t that represents the generic address space. */
#define ADDR_SPACE_GENERIC 0
#define ADDR_SPACE_GENERIC_P(AS) ((AS) == ADDR_SPACE_GENERIC)
/* The major intermediate representations of GCC. */
enum ir_type {
IR_GIMPLE,
IR_RTL_CFGRTL,
IR_RTL_CFGLAYOUT
};
/* Provide forward struct declaration so that we don't have to include
all of cpplib.h whenever a random prototype includes a pointer.
Note that the cpp_reader and cpp_token typedefs remain part of
cpplib.h. */
struct cpp_reader;
struct cpp_token;
/* The thread-local storage model associated with a given VAR_DECL
or SYMBOL_REF. This isn't used much, but both trees and RTL refer
to it, so it's here. */
enum tls_model {
TLS_MODEL_NONE,
TLS_MODEL_EMULATED,
TLS_MODEL_REAL,
TLS_MODEL_GLOBAL_DYNAMIC = TLS_MODEL_REAL,
TLS_MODEL_LOCAL_DYNAMIC,
TLS_MODEL_INITIAL_EXEC,
TLS_MODEL_LOCAL_EXEC
};
/* Types of unwind/exception handling info that can be generated. */
enum unwind_info_type
{
UI_NONE,
UI_SJLJ,
UI_DWARF2,
UI_TARGET,
UI_SEH
};
/* Callgraph node profile representation. */
enum node_frequency {
/* This function most likely won't be executed at all.
(set only when profile feedback is available or via function attribute). */
NODE_FREQUENCY_UNLIKELY_EXECUTED,
/* For functions that are known to be executed once (i.e. constructors, destructors
and main function. */
NODE_FREQUENCY_EXECUTED_ONCE,
/* The default value. */
NODE_FREQUENCY_NORMAL,
/* Optimize this function hard
(set only when profile feedback is available or via function attribute). */
NODE_FREQUENCY_HOT
};
/* Possible initialization status of a variable. When requested
by the user, this information is tracked and recorded in the DWARF
debug information, along with the variable's location. */
enum var_init_status
{
VAR_INIT_STATUS_UNKNOWN,
VAR_INIT_STATUS_UNINITIALIZED,
VAR_INIT_STATUS_INITIALIZED
};
struct edge_def;
typedef struct edge_def *edge;
typedef const struct edge_def *const_edge;
struct basic_block_def;
typedef struct basic_block_def *basic_block;
typedef const struct basic_block_def *const_basic_block;
#define obstack_chunk_alloc ((void *(*) (long)) xmalloc)
#define obstack_chunk_free ((void (*) (void *)) free)
#define OBSTACK_CHUNK_SIZE 0
#define gcc_obstack_init(OBSTACK) \
_obstack_begin ((OBSTACK), OBSTACK_CHUNK_SIZE, 0, \
obstack_chunk_alloc, \
obstack_chunk_free)
/* enum reg_class is target specific, so it should not appear in
target-independent code or interfaces, like the target hook declarations
in target.h. */
typedef int reg_class_t;
#else
struct _dont_use_rtx_here_;
struct _dont_use_rtvec_here_;
union _dont_use_tree_here_;
#define rtx struct _dont_use_rtx_here_ *
#define const_rtx struct _dont_use_rtx_here_ *
#define rtvec struct _dont_use_rtvec_here *
#define const_rtvec struct _dont_use_rtvec_here *
#define tree union _dont_use_tree_here_ *
#define const_tree union _dont_use_tree_here_ *
#endif
/* Memory model types for the __atomic* builtins.
This must match the order in libstdc++-v3/include/bits/atomic_base.h. */
enum memmodel
{
MEMMODEL_RELAXED = 0,
MEMMODEL_CONSUME = 1,
MEMMODEL_ACQUIRE = 2,
MEMMODEL_RELEASE = 3,
MEMMODEL_ACQ_REL = 4,
MEMMODEL_SEQ_CST = 5,
MEMMODEL_LAST = 6
};
/* Suppose that higher bits are target dependant. */
#define MEMMODEL_MASK ((1<<16)-1)
/* Support for user-provided GGC and PCH markers. The first parameter
is a pointer to a pointer, the second a cookie. */
typedef void (*gt_pointer_operator) (void *, void *);
#if !defined (HAVE_UCHAR)
typedef unsigned char uchar;
#endif
#endif /* coretypes.h */

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/* This file contains the definitions and documentation for the
additional tree codes used in the GNU C++ compiler (see tree.def
for the standard codes).
Copyright (C) 1987-2013 Free Software Foundation, Inc.
Hacked by Michael Tiemann (tiemann@cygnus.com)
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* An OFFSET_REF is used in two situations:
1. An expression of the form `A::m' where `A' is a class and `m' is
a non-static member. In this case, operand 0 will be a TYPE
(corresponding to `A') and operand 1 will be a FIELD_DECL,
BASELINK, or TEMPLATE_ID_EXPR (corresponding to `m').
The expression is a pointer-to-member if its address is taken,
but simply denotes a member of the object if its address is not
taken.
This form is only used during the parsing phase; once semantic
analysis has taken place they are eliminated.
2. An expression of the form `x.*p'. In this case, operand 0 will
be an expression corresponding to `x' and operand 1 will be an
expression with pointer-to-member type. */
DEFTREECODE (OFFSET_REF, "offset_ref", tcc_reference, 2)
/* A pointer-to-member constant. For a pointer-to-member constant
`X::Y' The PTRMEM_CST_CLASS is the RECORD_TYPE for `X' and the
PTRMEM_CST_MEMBER is the _DECL for `Y'. */
DEFTREECODE (PTRMEM_CST, "ptrmem_cst", tcc_constant, 0)
/* For NEW_EXPR, operand 0 is the placement list.
Operand 1 is the new-declarator.
Operand 2 is the number of elements in the array.
Operand 3 is the initializer. */
DEFTREECODE (NEW_EXPR, "nw_expr", tcc_expression, 4)
DEFTREECODE (VEC_NEW_EXPR, "vec_nw_expr", tcc_expression, 3)
/* For DELETE_EXPR, operand 0 is the store to be destroyed.
Operand 1 is the value to pass to the destroying function
saying whether the store should be deallocated as well. */
DEFTREECODE (DELETE_EXPR, "dl_expr", tcc_expression, 2)
DEFTREECODE (VEC_DELETE_EXPR, "vec_dl_expr", tcc_expression, 2)
/* Value is reference to particular overloaded class method.
Operand 0 is the class, operand 1 is the field
The COMPLEXITY field holds the class level (usually 0). */
DEFTREECODE (SCOPE_REF, "scope_ref", tcc_reference, 2)
/* When composing an object with a member, this is the result.
Operand 0 is the object. Operand 1 is the member (usually
a dereferenced pointer to member). */
DEFTREECODE (MEMBER_REF, "member_ref", tcc_reference, 2)
/* Type conversion operator in C++. TREE_TYPE is type that this
operator converts to. Operand is expression to be converted. */
DEFTREECODE (TYPE_EXPR, "type_expr", tcc_expression, 1)
/* AGGR_INIT_EXPRs have a variably-sized representation similar to
that of CALL_EXPRs. Operand 0 is an INTEGER_CST node containing the
operand count, operand 1 is the function which performs initialization,
operand 2 is the slot which was allocated for this expression, and
the remaining operands are the arguments to the initialization function. */
DEFTREECODE (AGGR_INIT_EXPR, "aggr_init_expr", tcc_vl_exp, 3)
/* Initialization of an array from another array, expressed at a high level
so that it works with TARGET_EXPR. Operand 0 is the target, operand 1
is the initializer. */
DEFTREECODE (VEC_INIT_EXPR, "vec_init_expr", tcc_expression, 2)
/* A throw expression. operand 0 is the expression, if there was one,
else it is NULL_TREE. */
DEFTREECODE (THROW_EXPR, "throw_expr", tcc_expression, 1)
/* An empty class object. The TREE_TYPE gives the class type. We use
these to avoid actually creating instances of the empty classes. */
DEFTREECODE (EMPTY_CLASS_EXPR, "empty_class_expr", tcc_expression, 0)
/* A reference to a member function or member functions from a base
class. BASELINK_FUNCTIONS gives the FUNCTION_DECL,
TEMPLATE_DECL, OVERLOAD, or TEMPLATE_ID_EXPR corresponding to the
functions. BASELINK_BINFO gives the base from which the functions
come, i.e., the base to which the `this' pointer must be converted
before the functions are called. BASELINK_ACCESS_BINFO gives the
base used to name the functions.
A BASELINK is an expression; the TREE_TYPE of the BASELINK gives
the type of the expression. This type is either a FUNCTION_TYPE,
METHOD_TYPE, or `unknown_type_node' indicating that the function is
overloaded. */
DEFTREECODE (BASELINK, "baselink", tcc_exceptional, 0)
/* Template definition. The following fields have the specified uses,
although there are other macros in cp-tree.h that should be used for
accessing this data.
DECL_ARGUMENTS template parm vector
DECL_TEMPLATE_INFO template text &c
DECL_VINDEX list of instantiations already produced;
only done for functions so far
For class template:
DECL_INITIAL associated templates (methods &c)
DECL_TEMPLATE_RESULT null
For non-class templates:
TREE_TYPE type of object to be constructed
DECL_TEMPLATE_RESULT decl for object to be created
(e.g., FUNCTION_DECL with tmpl parms used)
*/
DEFTREECODE (TEMPLATE_DECL, "template_decl", tcc_declaration, 0)
/* Index into a template parameter list. The TEMPLATE_PARM_IDX gives
the index (from 0) of the parameter, while the TEMPLATE_PARM_LEVEL
gives the level (from 1) of the parameter.
Here's an example:
template <class T> // Index 0, Level 1.
struct S
{
template <class U, // Index 0, Level 2.
class V> // Index 1, Level 2.
void f();
};
The DESCENDANTS will be a chain of TEMPLATE_PARM_INDEXs descended
from this one. The first descendant will have the same IDX, but
its LEVEL will be one less. The TREE_CHAIN field is used to chain
together the descendants. The TEMPLATE_PARM_DECL is the
declaration of this parameter, either a TYPE_DECL or CONST_DECL.
The TEMPLATE_PARM_ORIG_LEVEL is the LEVEL of the most distant
parent, i.e., the LEVEL that the parameter originally had when it
was declared. For example, if we instantiate S<int>, we will have:
struct S<int>
{
template <class U, // Index 0, Level 1, Orig Level 2
class V> // Index 1, Level 1, Orig Level 2
void f();
};
The LEVEL is the level of the parameter when we are worrying about
the types of things; the ORIG_LEVEL is the level when we are
worrying about instantiating things. */
DEFTREECODE (TEMPLATE_PARM_INDEX, "template_parm_index", tcc_exceptional, 0)
/* Index into a template parameter list for template template parameters.
This parameter must be a type. The TYPE_FIELDS value will be a
TEMPLATE_PARM_INDEX.
It is used without template arguments like TT in C<TT>,
TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO is NULL_TREE
and TYPE_NAME is a TEMPLATE_DECL. */
DEFTREECODE (TEMPLATE_TEMPLATE_PARM, "template_template_parm", tcc_type, 0)
/* The ordering of the following codes is optimized for the checking
macros in tree.h. Changing the order will degrade the speed of the
compiler. TEMPLATE_TYPE_PARM, TYPENAME_TYPE, TYPEOF_TYPE,
BOUND_TEMPLATE_TEMPLATE_PARM. */
/* Index into a template parameter list. This parameter must be a type.
The type.values field will be a TEMPLATE_PARM_INDEX. */
DEFTREECODE (TEMPLATE_TYPE_PARM, "template_type_parm", tcc_type, 0)
/* A type designated by `typename T::t'. TYPE_CONTEXT is `T',
TYPE_NAME is an IDENTIFIER_NODE for `t'. If the type was named via
template-id, TYPENAME_TYPE_FULLNAME will hold the TEMPLATE_ID_EXPR.
TREE_TYPE is always NULL. */
DEFTREECODE (TYPENAME_TYPE, "typename_type", tcc_type, 0)
/* A type designated by `__typeof (expr)'. TYPEOF_TYPE_EXPR is the
expression in question. */
DEFTREECODE (TYPEOF_TYPE, "typeof_type", tcc_type, 0)
/* Like TEMPLATE_TEMPLATE_PARM it is used with bound template arguments
like TT<int>.
In this case, TEMPLATE_TEMPLATE_PARM_TEMPLATE_INFO contains the
template name and its bound arguments. TYPE_NAME is a TYPE_DECL. */
DEFTREECODE (BOUND_TEMPLATE_TEMPLATE_PARM, "bound_template_template_parm",
tcc_type, 0)
/* For template template argument of the form `T::template C'.
TYPE_CONTEXT is `T', the template parameter dependent object.
TYPE_NAME is an IDENTIFIER_NODE for `C', the member class template. */
DEFTREECODE (UNBOUND_CLASS_TEMPLATE, "unbound_class_template", tcc_type, 0)
/* A using declaration. USING_DECL_SCOPE contains the specified
scope. In a member using decl, unless DECL_DEPENDENT_P is true,
USING_DECL_DECLS contains the _DECL or OVERLOAD so named. This is
not an alias, but is later expanded into multiple aliases. */
DEFTREECODE (USING_DECL, "using_decl", tcc_declaration, 0)
/* A using directive. The operand is USING_STMT_NAMESPACE. */
DEFTREECODE (USING_STMT, "using_stmt", tcc_statement, 1)
/* An un-parsed default argument. Holds a vector of input tokens and
a vector of places where the argument was instantiated before
parsing had occurred. */
DEFTREECODE (DEFAULT_ARG, "default_arg", tcc_exceptional, 0)
/* An uninstantiated noexcept-specification. DEFERRED_NOEXCEPT_PATTERN is
the pattern from the template, and DEFERRED_NOEXCEPT_ARGS are the
template arguments to substitute into the pattern when needed. */
DEFTREECODE (DEFERRED_NOEXCEPT, "deferred_noexcept", tcc_exceptional, 0)
/* A template-id, like foo<int>. The first operand is the template.
The second is NULL if there are no explicit arguments, or a
TREE_VEC of arguments. The template will be a FUNCTION_DECL,
TEMPLATE_DECL, or an OVERLOAD. If the template-id refers to a
member template, the template may be an IDENTIFIER_NODE. */
DEFTREECODE (TEMPLATE_ID_EXPR, "template_id_expr", tcc_expression, 2)
/* A list-like node for chaining overloading candidates. TREE_TYPE is
the original name, and the parameter is the FUNCTION_DECL. */
DEFTREECODE (OVERLOAD, "overload", tcc_exceptional, 0)
/* A pseudo-destructor, of the form "OBJECT.~DESTRUCTOR" or
"OBJECT.SCOPE::~DESTRUCTOR. The first operand is the OBJECT. The
second operand (if non-NULL) is the SCOPE. The third operand is
the TYPE node corresponding to the DESTRUCTOR. The type of the
first operand will always be a scalar type.
The type of a PSEUDO_DTOR_EXPR is always "void", even though it can
be used as if it were a zero-argument function. We handle the
function-call case specially, and giving it "void" type prevents it
being used in expressions in ways that are not permitted. */
DEFTREECODE (PSEUDO_DTOR_EXPR, "pseudo_dtor_expr", tcc_expression, 3)
/* A whole bunch of tree codes for the initial, superficial parsing of
templates. */
DEFTREECODE (MODOP_EXPR, "modop_expr", tcc_expression, 3)
DEFTREECODE (CAST_EXPR, "cast_expr", tcc_unary, 1)
DEFTREECODE (REINTERPRET_CAST_EXPR, "reinterpret_cast_expr", tcc_unary, 1)
DEFTREECODE (CONST_CAST_EXPR, "const_cast_expr", tcc_unary, 1)
DEFTREECODE (STATIC_CAST_EXPR, "static_cast_expr", tcc_unary, 1)
DEFTREECODE (DYNAMIC_CAST_EXPR, "dynamic_cast_expr", tcc_unary, 1)
DEFTREECODE (IMPLICIT_CONV_EXPR, "implicit_conv_expr", tcc_unary, 1)
DEFTREECODE (DOTSTAR_EXPR, "dotstar_expr", tcc_expression, 2)
DEFTREECODE (TYPEID_EXPR, "typeid_expr", tcc_expression, 1)
DEFTREECODE (NOEXCEPT_EXPR, "noexcept_expr", tcc_unary, 1)
/* A placeholder for an expression that is not type-dependent, but
does occur in a template. When an expression that is not
type-dependent appears in a larger expression, we must compute the
type of that larger expression. That computation would normally
modify the original expression, which would change the mangling of
that expression if it appeared in a template argument list. In
that situation, we create a NON_DEPENDENT_EXPR to take the place of
the original expression. The expression is the only operand -- it
is only needed for diagnostics. */
DEFTREECODE (NON_DEPENDENT_EXPR, "non_dependent_expr", tcc_expression, 1)
/* CTOR_INITIALIZER is a placeholder in template code for a call to
setup_vtbl_pointer (and appears in all functions, not just ctors). */
DEFTREECODE (CTOR_INITIALIZER, "ctor_initializer", tcc_expression, 1)
DEFTREECODE (TRY_BLOCK, "try_block", tcc_statement, 2)
DEFTREECODE (EH_SPEC_BLOCK, "eh_spec_block", tcc_statement, 2)
/* A HANDLER wraps a catch handler for the HANDLER_TYPE. If this is
CATCH_ALL_TYPE, then the handler catches all types. The declaration of
the catch variable is in HANDLER_PARMS, and the body block in
HANDLER_BODY. */
DEFTREECODE (HANDLER, "handler", tcc_statement, 2)
/* A MUST_NOT_THROW_EXPR wraps an expression that may not
throw, and must call terminate if it does. The second argument
is a condition, used in templates to express noexcept (condition). */
DEFTREECODE (MUST_NOT_THROW_EXPR, "must_not_throw_expr", tcc_expression, 2)
/* A CLEANUP_STMT marks the point at which a declaration is fully
constructed. The CLEANUP_EXPR is run on behalf of CLEANUP_DECL
when CLEANUP_BODY completes. */
DEFTREECODE (CLEANUP_STMT, "cleanup_stmt", tcc_statement, 3)
/* Represents an 'if' statement. The operands are IF_COND,
THEN_CLAUSE, and ELSE_CLAUSE, and the current scope, respectively. */
/* ??? It is currently still necessary to distinguish between IF_STMT
and COND_EXPR for the benefit of templates. */
DEFTREECODE (IF_STMT, "if_stmt", tcc_statement, 4)
/* Used to represent a `for' statement. The operands are
FOR_INIT_STMT, FOR_COND, FOR_EXPR, and FOR_BODY, respectively. */
DEFTREECODE (FOR_STMT, "for_stmt", tcc_statement, 5)
/* Used to represent a range-based `for' statement. The operands are
RANGE_FOR_DECL, RANGE_FOR_EXPR, RANGE_FOR_BODY, and RANGE_FOR_SCOPE,
respectively. Only used in templates. */
DEFTREECODE (RANGE_FOR_STMT, "range_for_stmt", tcc_statement, 4)
/* Used to represent a 'while' statement. The operands are WHILE_COND
and WHILE_BODY, respectively. */
DEFTREECODE (WHILE_STMT, "while_stmt", tcc_statement, 2)
/* Used to represent a 'do' statement. The operands are DO_BODY and
DO_COND, respectively. */
DEFTREECODE (DO_STMT, "do_stmt", tcc_statement, 2)
/* Used to represent a 'break' statement. */
DEFTREECODE (BREAK_STMT, "break_stmt", tcc_statement, 0)
/* Used to represent a 'continue' statement. */
DEFTREECODE (CONTINUE_STMT, "continue_stmt", tcc_statement, 0)
/* Used to represent a 'switch' statement. The operands are
SWITCH_STMT_COND, SWITCH_STMT_BODY, SWITCH_STMT_TYPE, and
SWITCH_STMT_SCOPE, respectively. */
DEFTREECODE (SWITCH_STMT, "switch_stmt", tcc_statement, 4)
/* Used to represent an expression statement. Use `EXPR_STMT_EXPR' to
obtain the expression. */
DEFTREECODE (EXPR_STMT, "expr_stmt", tcc_expression, 1)
DEFTREECODE (TAG_DEFN, "tag_defn", tcc_expression, 0)
/* Represents an 'offsetof' expression during template expansion. */
DEFTREECODE (OFFSETOF_EXPR, "offsetof_expr", tcc_expression, 1)
/* Represents the -> operator during template expansion. */
DEFTREECODE (ARROW_EXPR, "arrow_expr", tcc_expression, 1)
/* Represents an '__alignof__' expression during template
expansion. */
DEFTREECODE (ALIGNOF_EXPR, "alignof_expr", tcc_expression, 1)
/* Represents an Objective-C++ '@encode' expression during template
expansion. */
DEFTREECODE (AT_ENCODE_EXPR, "at_encode_expr", tcc_expression, 1)
/* A STMT_EXPR represents a statement-expression during template
expansion. This is the GCC extension { ( ... ) }. The
STMT_EXPR_STMT is the statement given by the expression. */
DEFTREECODE (STMT_EXPR, "stmt_expr", tcc_expression, 1)
/* Unary plus. Operand 0 is the expression to which the unary plus
is applied. */
DEFTREECODE (UNARY_PLUS_EXPR, "unary_plus_expr", tcc_unary, 1)
/** C++0x extensions. */
/* A static assertion. This is a C++0x extension.
STATIC_ASSERT_CONDITION contains the condition that is being
checked. STATIC_ASSERT_MESSAGE contains the message (a string
literal) to be displayed if the condition fails to hold. */
DEFTREECODE (STATIC_ASSERT, "static_assert", tcc_exceptional, 0)
/* Represents an argument pack of types (or templates). An argument
pack stores zero or more arguments that will be used to instantiate
a parameter pack.
ARGUMENT_PACK_ARGS retrieves the arguments stored in the argument
pack.
Example:
template<typename... Values>
class tuple { ... };
tuple<int, float, double> t;
Values is a (template) parameter pack. When tuple<int, float,
double> is instantiated, the Values parameter pack is instantiated
with the argument pack <int, float, double>. ARGUMENT_PACK_ARGS will
be a TREE_VEC containing int, float, and double. */
DEFTREECODE (TYPE_ARGUMENT_PACK, "type_argument_pack", tcc_type, 0)
/* Represents an argument pack of values, which can be used either for
non-type template arguments or function call arguments.
NONTYPE_ARGUMENT_PACK plays precisely the same role as
TYPE_ARGUMENT_PACK, but will be used for packing non-type template
arguments (e.g., "int... Dimensions") or function arguments ("const
Args&... args"). */
DEFTREECODE (NONTYPE_ARGUMENT_PACK, "nontype_argument_pack", tcc_expression, 1)
/* Represents a type expression that will be expanded into a list of
types when instantiated with one or more argument packs.
PACK_EXPANSION_PATTERN retrieves the expansion pattern. This is
the type or expression that we will substitute into with each
argument in an argument pack.
SET_PACK_EXPANSION_PATTERN sets the expansion pattern.
PACK_EXPANSION_PARAMETER_PACKS contains a TREE_LIST of the parameter
packs that are used in this pack expansion.
Example:
template<typename... Values>
struct tied : tuple<Values&...> {
// ...
};
The derivation from tuple contains a TYPE_PACK_EXPANSION for the
template arguments. Its PACK_EXPANSION_PATTERN is "Values&" and its
PACK_EXPANSION_PARAMETER_PACKS will contain "Values". */
DEFTREECODE (TYPE_PACK_EXPANSION, "type_pack_expansion", tcc_type, 0)
/* Represents an expression that will be expanded into a list of
expressions when instantiated with one or more argument packs.
EXPR_PACK_EXPANSION plays precisely the same role as TYPE_PACK_EXPANSION,
but will be used for expressions. */
DEFTREECODE (EXPR_PACK_EXPANSION, "expr_pack_expansion", tcc_expression, 3)
/* Selects the Ith parameter out of an argument pack. This node will
be used when instantiating pack expansions; see
tsubst_pack_expansion.
ARGUMENT_PACK_SELECT_FROM_PACK contains the *_ARGUMENT_PACK node
from which the argument will be selected.
ARGUMENT_PACK_SELECT_INDEX contains the index into the argument
pack that will be returned by this ARGUMENT_PACK_SELECT node. The
index is a machine integer. */
DEFTREECODE (ARGUMENT_PACK_SELECT, "argument_pack_select", tcc_exceptional, 0)
/** C++ extensions. */
/* Represents a trait expression during template expansion. */
DEFTREECODE (TRAIT_EXPR, "trait_expr", tcc_exceptional, 0)
/* A lambda expression. This is a C++0x extension.
LAMBDA_EXPR_DEFAULT_CAPTURE_MODE is an enum for the default, which may be
none.
LAMBDA_EXPR_CAPTURE_LIST holds the capture-list, including `this'.
LAMBDA_EXPR_THIS_CAPTURE goes straight to the capture of `this', if it exists.
LAMBDA_EXPR_PENDING_PROXIES is a vector of capture proxies which need to
be pushed once scope returns to the lambda.
LAMBDA_EXPR_MUTABLE_P signals whether this lambda was declared mutable.
LAMBDA_EXPR_RETURN_TYPE holds the return type, if it was specified. */
DEFTREECODE (LAMBDA_EXPR, "lambda_expr", tcc_exceptional, 0)
/* The declared type of an expression. This is a C++0x extension.
DECLTYPE_TYPE_EXPR is the expression whose type we are computing.
DECLTYPE_TYPE_ID_EXPR_OR_MEMBER_ACCESS_P states whether the
expression was parsed as an id-expression or a member access
expression. When false, it was parsed as a full expression.
DECLTYPE_FOR_LAMBDA_CAPTURE is set if we want lambda capture semantics.
DECLTYPE_FOR_LAMBDA_RETURN is set if we want lambda return deduction. */
DEFTREECODE (DECLTYPE_TYPE, "decltype_type", tcc_type, 0)
/* A type designated by `__underlying_type (type)'.
UNDERLYING_TYPE_TYPE is the type in question. */
DEFTREECODE (UNDERLYING_TYPE, "underlying_type", tcc_type, 0)
/* A type designated by one of the bases type traits.
BASES_TYPE is the type in question. */
DEFTREECODE (BASES, "bases", tcc_type, 0)
/* Used to represent the template information stored by template
specializations.
The accessors are:
TI_TEMPLATE the template declaration associated to the specialization
TI_ARGS the arguments of the template specialization
TI_TYPEDEFS_NEEDING_ACCESS_CHECKING the vector of typedefs used in
the pattern of the template for which access check is needed at template
instantiation time. */
DEFTREECODE (TEMPLATE_INFO, "template_info", tcc_exceptional, 0)
/*
Local variables:
mode:c
End:
*/

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@ -0,0 +1,79 @@
/* Interface for the GNU C++ pretty-printer.
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_CXX_PRETTY_PRINT_H
#define GCC_CXX_PRETTY_PRINT_H
#include "c-family/c-pretty-print.h"
#undef pp_c_base
#define pp_c_base(PP) (&(PP)->c_base)
typedef enum
{
/* Ask for a qualified-id. */
pp_cxx_flag_default_argument = 1 << pp_c_flag_last_bit
} cxx_pretty_printer_flags;
typedef struct
{
c_pretty_printer c_base;
/* This is the enclosing scope of the entity being pretty-printed. */
tree enclosing_scope;
} cxx_pretty_printer;
#define pp_cxx_cv_qualifier_seq(PP, T) \
pp_c_type_qualifier_list (pp_c_base (PP), T)
#define pp_cxx_whitespace(PP) pp_c_whitespace (pp_c_base (PP))
#define pp_cxx_left_paren(PP) pp_c_left_paren (pp_c_base (PP))
#define pp_cxx_right_paren(PP) pp_c_right_paren (pp_c_base (PP))
#define pp_cxx_left_brace(PP) pp_c_left_brace (pp_c_base (PP))
#define pp_cxx_right_brace(PP) pp_c_right_brace (pp_c_base (PP))
#define pp_cxx_left_bracket(PP) pp_c_left_bracket (pp_c_base (PP))
#define pp_cxx_right_bracket(PP) pp_c_right_bracket (pp_c_base (PP))
#define pp_cxx_dot(PP) pp_c_dot (pp_c_base (PP))
#define pp_cxx_ampersand(PP) pp_c_ampersand (pp_c_base (PP))
#define pp_cxx_star(PP) pp_c_star (pp_c_base (PP))
#define pp_cxx_arrow(PP) pp_c_arrow (pp_c_base (PP))
#define pp_cxx_semicolon(PP) pp_c_semicolon (pp_c_base (PP))
#define pp_cxx_complement(PP) pp_c_complement (pp_c_base (PP))
#define pp_cxx_ws_string(PP, I) pp_c_ws_string (pp_c_base (PP), I)
#define pp_cxx_identifier(PP, I) pp_c_identifier (pp_c_base (PP), I)
#define pp_cxx_tree_identifier(PP, T) \
pp_c_tree_identifier (pp_c_base (PP), T)
void pp_cxx_pretty_printer_init (cxx_pretty_printer *);
void pp_cxx_begin_template_argument_list (cxx_pretty_printer *);
void pp_cxx_end_template_argument_list (cxx_pretty_printer *);
void pp_cxx_colon_colon (cxx_pretty_printer *);
void pp_cxx_separate_with (cxx_pretty_printer *, int);
void pp_cxx_declaration (cxx_pretty_printer *, tree);
void pp_cxx_canonical_template_parameter (cxx_pretty_printer *, tree);
void pp_cxx_trait_expression (cxx_pretty_printer *, tree);
void pp_cxx_va_arg_expression (cxx_pretty_printer *, tree);
void pp_cxx_offsetof_expression (cxx_pretty_printer *, tree);
void pp_cxx_userdef_literal (cxx_pretty_printer *, tree);
#endif /* GCC_CXX_PRETTY_PRINT_H */

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@ -0,0 +1,369 @@
/* Declarations for C++ name lookup routines.
Copyright (C) 2003-2013 Free Software Foundation, Inc.
Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_CP_NAME_LOOKUP_H
#define GCC_CP_NAME_LOOKUP_H
#include "c-family/c-common.h"
/* The type of dictionary used to map names to types declared at
a given scope. */
typedef struct binding_table_s *binding_table;
typedef struct binding_entry_s *binding_entry;
/* The type of a routine repeatedly called by binding_table_foreach. */
typedef void (*bt_foreach_proc) (binding_entry, void *);
struct GTY(()) binding_entry_s {
binding_entry chain;
tree name;
tree type;
};
/* These macros indicate the initial chains count for binding_table. */
#define SCOPE_DEFAULT_HT_SIZE (1 << 3)
#define CLASS_SCOPE_HT_SIZE (1 << 3)
#define NAMESPACE_ORDINARY_HT_SIZE (1 << 5)
#define NAMESPACE_STD_HT_SIZE (1 << 8)
#define GLOBAL_SCOPE_HT_SIZE (1 << 8)
extern void binding_table_foreach (binding_table, bt_foreach_proc, void *);
extern binding_entry binding_table_find (binding_table, tree);
/* Datatype that represents binding established by a declaration between
a name and a C++ entity. */
typedef struct cxx_binding cxx_binding;
/* The datatype used to implement C++ scope. */
typedef struct cp_binding_level cp_binding_level;
/* Nonzero if this binding is for a local scope, as opposed to a class
or namespace scope. */
#define LOCAL_BINDING_P(NODE) ((NODE)->is_local)
/* True if NODE->value is from a base class of the class which is
currently being defined. */
#define INHERITED_VALUE_BINDING_P(NODE) ((NODE)->value_is_inherited)
struct GTY(()) cxx_binding {
/* Link to chain together various bindings for this name. */
cxx_binding *previous;
/* The non-type entity this name is bound to. */
tree value;
/* The type entity this name is bound to. */
tree type;
/* The scope at which this binding was made. */
cp_binding_level *scope;
unsigned value_is_inherited : 1;
unsigned is_local : 1;
};
/* Datatype used to temporarily save C++ bindings (for implicit
instantiations purposes and like). Implemented in decl.c. */
typedef struct GTY(()) cxx_saved_binding {
/* The name of the current binding. */
tree identifier;
/* The binding we're saving. */
cxx_binding *binding;
tree real_type_value;
} cxx_saved_binding;
extern tree identifier_type_value (tree);
extern void set_identifier_type_value (tree, tree);
extern void pop_binding (tree, tree);
extern tree constructor_name (tree);
extern bool constructor_name_p (tree, tree);
/* The kinds of scopes we recognize. */
typedef enum scope_kind {
sk_block = 0, /* An ordinary block scope. This enumerator must
have the value zero because "cp_binding_level"
is initialized by using "memset" to set the
contents to zero, and the default scope kind
is "sk_block". */
sk_cleanup, /* A scope for (pseudo-)scope for cleanup. It is
pseudo in that it is transparent to name lookup
activities. */
sk_try, /* A try-block. */
sk_catch, /* A catch-block. */
sk_for, /* The scope of the variable declared in a
for-init-statement. */
sk_cond, /* The scope of the variable declared in the condition
of an if or switch statement. */
sk_function_parms, /* The scope containing function parameters. */
sk_class, /* The scope containing the members of a class. */
sk_scoped_enum, /* The scope containing the enumertors of a C++0x
scoped enumeration. */
sk_namespace, /* The scope containing the members of a
namespace, including the global scope. */
sk_template_parms, /* A scope for template parameters. */
sk_template_spec, /* Like sk_template_parms, but for an explicit
specialization. Since, by definition, an
explicit specialization is introduced by
"template <>", this scope is always empty. */
sk_omp /* An OpenMP structured block. */
} scope_kind;
/* The scope where the class/struct/union/enum tag applies. */
typedef enum tag_scope {
ts_current = 0, /* Current scope only. This is for the
class-key identifier;
case mentioned in [basic.lookup.elab]/2,
or the class/enum definition
class-key identifier { ... }; */
ts_global = 1, /* All scopes. This is the 3.4.1
[basic.lookup.unqual] lookup mentioned
in [basic.lookup.elab]/2. */
ts_within_enclosing_non_class = 2, /* Search within enclosing non-class
only, for friend class lookup
according to [namespace.memdef]/3
and [class.friend]/9. */
ts_lambda = 3 /* Declaring a lambda closure. */
} tag_scope;
typedef struct GTY(()) cp_class_binding {
cxx_binding *base;
/* The bound name. */
tree identifier;
} cp_class_binding;
typedef struct GTY(()) cp_label_binding {
/* The bound LABEL_DECL. */
tree label;
/* The previous IDENTIFIER_LABEL_VALUE. */
tree prev_value;
} cp_label_binding;
/* For each binding contour we allocate a binding_level structure
which records the names defined in that contour.
Contours include:
0) the global one
1) one for each function definition,
where internal declarations of the parameters appear.
2) one for each compound statement,
to record its declarations.
The current meaning of a name can be found by searching the levels
from the current one out to the global one.
Off to the side, may be the class_binding_level. This exists only
to catch class-local declarations. It is otherwise nonexistent.
Also there may be binding levels that catch cleanups that must be
run when exceptions occur. Thus, to see whether a name is bound in
the current scope, it is not enough to look in the
CURRENT_BINDING_LEVEL. You should use lookup_name_current_level
instead. */
/* Note that the information in the `names' component of the global contour
is duplicated in the IDENTIFIER_GLOBAL_VALUEs of all identifiers. */
struct GTY(()) cp_binding_level {
/* A chain of _DECL nodes for all variables, constants, functions,
and typedef types. These are in the reverse of the order
supplied. There may be OVERLOADs on this list, too, but they
are wrapped in TREE_LISTs; the TREE_VALUE is the OVERLOAD. */
tree names;
/* A chain of NAMESPACE_DECL nodes. */
tree namespaces;
/* An array of static functions and variables (for namespaces only) */
vec<tree, va_gc> *static_decls;
/* A list of USING_DECL nodes. */
tree usings;
/* A list of used namespaces. PURPOSE is the namespace,
VALUE the common ancestor with this binding_level's namespace. */
tree using_directives;
/* For the binding level corresponding to a class, the entities
declared in the class or its base classes. */
vec<cp_class_binding, va_gc> *class_shadowed;
/* Similar to class_shadowed, but for IDENTIFIER_TYPE_VALUE, and
is used for all binding levels. The TREE_PURPOSE is the name of
the entity, the TREE_TYPE is the associated type. In addition
the TREE_VALUE is the IDENTIFIER_TYPE_VALUE before we entered
the class. */
tree type_shadowed;
/* Similar to class_shadowed, but for IDENTIFIER_LABEL_VALUE, and
used for all binding levels. */
vec<cp_label_binding, va_gc> *shadowed_labels;
/* For each level (except not the global one),
a chain of BLOCK nodes for all the levels
that were entered and exited one level down. */
tree blocks;
/* The entity (namespace, class, function) the scope of which this
binding contour corresponds to. Otherwise NULL. */
tree this_entity;
/* The binding level which this one is contained in (inherits from). */
cp_binding_level *level_chain;
/* List of VAR_DECLS saved from a previous for statement.
These would be dead in ISO-conforming code, but might
be referenced in ARM-era code. */
vec<tree, va_gc> *dead_vars_from_for;
/* STATEMENT_LIST for statements in this binding contour.
Only used at present for SK_CLEANUP temporary bindings. */
tree statement_list;
/* Binding depth at which this level began. */
int binding_depth;
/* The kind of scope that this object represents. However, a
SK_TEMPLATE_SPEC scope is represented with KIND set to
SK_TEMPLATE_PARMS and EXPLICIT_SPEC_P set to true. */
ENUM_BITFIELD (scope_kind) kind : 4;
/* True if this scope is an SK_TEMPLATE_SPEC scope. This field is
only valid if KIND == SK_TEMPLATE_PARMS. */
BOOL_BITFIELD explicit_spec_p : 1;
/* true means make a BLOCK for this level regardless of all else. */
unsigned keep : 1;
/* Nonzero if this level can safely have additional
cleanup-needing variables added to it. */
unsigned more_cleanups_ok : 1;
unsigned have_cleanups : 1;
/* 24 bits left to fill a 32-bit word. */
};
/* The binding level currently in effect. */
#define current_binding_level \
(*(cfun && cp_function_chain && cp_function_chain->bindings \
? &cp_function_chain->bindings \
: &scope_chain->bindings))
/* The binding level of the current class, if any. */
#define class_binding_level scope_chain->class_bindings
/* The tree node representing the global scope. */
extern GTY(()) tree global_namespace;
extern GTY(()) tree global_scope_name;
/* Indicates that there is a type value in some namespace, although
that is not necessarily in scope at the moment. */
extern GTY(()) tree global_type_node;
/* True if SCOPE designates the global scope binding contour. */
#define global_scope_p(SCOPE) \
((SCOPE) == NAMESPACE_LEVEL (global_namespace))
extern cp_binding_level *leave_scope (void);
extern bool kept_level_p (void);
extern bool global_bindings_p (void);
extern bool toplevel_bindings_p (void);
extern bool namespace_bindings_p (void);
extern bool local_bindings_p (void);
extern bool template_parm_scope_p (void);
extern scope_kind innermost_scope_kind (void);
extern cp_binding_level *begin_scope (scope_kind, tree);
extern void print_binding_stack (void);
extern void push_to_top_level (void);
extern void pop_from_top_level (void);
extern void pop_everything (void);
extern void keep_next_level (bool);
extern bool is_ancestor (tree, tree);
extern tree push_scope (tree);
extern void pop_scope (tree);
extern tree push_inner_scope (tree);
extern void pop_inner_scope (tree, tree);
extern void push_binding_level (cp_binding_level *);
extern void push_namespace (tree);
extern void pop_namespace (void);
extern void push_nested_namespace (tree);
extern void pop_nested_namespace (tree);
extern bool handle_namespace_attrs (tree, tree);
extern void pushlevel_class (void);
extern void poplevel_class (void);
extern tree pushdecl_with_scope (tree, cp_binding_level *, bool);
extern tree lookup_name_prefer_type (tree, int);
extern tree lookup_name_real (tree, int, int, bool, int, int);
extern tree lookup_type_scope (tree, tag_scope);
extern tree namespace_binding (tree, tree);
extern void set_namespace_binding (tree, tree, tree);
extern bool hidden_name_p (tree);
extern tree remove_hidden_names (tree);
extern tree lookup_qualified_name (tree, tree, bool, bool);
extern tree lookup_name_nonclass (tree);
extern tree lookup_name_innermost_nonclass_level (tree);
extern bool is_local_extern (tree);
extern tree lookup_function_nonclass (tree, vec<tree, va_gc> *, bool);
extern void push_local_binding (tree, tree, int);
extern bool pushdecl_class_level (tree);
extern tree pushdecl_namespace_level (tree, bool);
extern bool push_class_level_binding (tree, tree);
extern tree getdecls (void);
extern int function_parm_depth (void);
extern tree cp_namespace_decls (tree);
extern void set_decl_namespace (tree, tree, bool);
extern void push_decl_namespace (tree);
extern void pop_decl_namespace (void);
extern void do_namespace_alias (tree, tree);
extern void do_toplevel_using_decl (tree, tree, tree);
extern void do_local_using_decl (tree, tree, tree);
extern tree do_class_using_decl (tree, tree);
extern void do_using_directive (tree);
extern tree lookup_arg_dependent (tree, tree, vec<tree, va_gc> *, bool);
extern bool is_associated_namespace (tree, tree);
extern void parse_using_directive (tree, tree);
extern tree innermost_non_namespace_value (tree);
extern cxx_binding *outer_binding (tree, cxx_binding *, bool);
extern void cp_emit_debug_info_for_using (tree, tree);
/* Set *DECL to the (non-hidden) declaration for ID at global scope,
if present and return true; otherwise return false. */
static inline bool
get_global_value_if_present (tree id, tree *decl)
{
tree global_value = namespace_binding (id, global_namespace);
if (global_value)
*decl = global_value;
return global_value != NULL;
}
/* True is the binding of IDENTIFIER at global scope names a type. */
static inline bool
is_typename_at_global_scope (tree id)
{
tree global_value = namespace_binding (id, global_namespace);
return global_value && TREE_CODE (global_value) == TYPE_DECL;
}
#endif /* GCC_CP_NAME_LOOKUP_H */

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/* CPP Library.
Copyright (C) 1986-2013 Free Software Foundation, Inc.
Contributed by Per Bothner, 1994-95.
Based on CCCP program by Paul Rubin, June 1986
Adapted to ANSI C, Richard Stallman, Jan 1987
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_CPPDEFAULT_H
#define GCC_CPPDEFAULT_H
/* This is the default list of directories to search for include files.
It may be overridden by the various -I and -ixxx options.
#include "file" looks in the same directory as the current file,
then this list.
#include <file> just looks in this list.
All these directories are treated as `system' include directories
(they are not subject to pedantic warnings in some cases). */
struct default_include
{
const char *const fname; /* The name of the directory. */
const char *const component; /* The component containing the directory
(see update_path in prefix.c) */
const char cplusplus; /* Only look here if we're compiling C++. */
const char cxx_aware; /* Includes in this directory don't need to
be wrapped in extern "C" when compiling
C++. */
const char add_sysroot; /* FNAME should be prefixed by
cpp_SYSROOT. */
const char multilib; /* FNAME should have appended
- the multilib path specified with -imultilib
when set to 1,
- the multiarch path specified with
-imultiarch, when set to 2. */
};
extern const struct default_include cpp_include_defaults[];
extern const char cpp_GCC_INCLUDE_DIR[];
extern const size_t cpp_GCC_INCLUDE_DIR_len;
/* The configure-time prefix, i.e., the value supplied as the argument
to --prefix=. */
extern const char cpp_PREFIX[];
/* The length of the configure-time prefix. */
extern const size_t cpp_PREFIX_len;
/* The configure-time execution prefix. This is typically the lib/gcc
subdirectory of cpp_PREFIX. */
extern const char cpp_EXEC_PREFIX[];
/* The run-time execution prefix. This is typically the lib/gcc
subdirectory of the actual installation. */
extern const char *gcc_exec_prefix;
/* Return true if the toolchain is relocated. */
bool cpp_relocated (void);
#endif /* ! GCC_CPPDEFAULT_H */

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/* Debug hooks for GCC.
Copyright (C) 2001-2013 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_DEBUG_H
#define GCC_DEBUG_H
/* This structure contains hooks for the debug information output
functions, accessed through the global instance debug_hooks set in
toplev.c according to command line options. */
struct gcc_debug_hooks
{
/* Initialize debug output. MAIN_FILENAME is the name of the main
input file. */
void (* init) (const char *main_filename);
/* Output debug symbols. */
void (* finish) (const char *main_filename);
/* Called from cgraph_optimize before starting to assemble
functions/variables/toplevel asms. */
void (* assembly_start) (void);
/* Macro defined on line LINE with name and expansion TEXT. */
void (* define) (unsigned int line, const char *text);
/* MACRO undefined on line LINE. */
void (* undef) (unsigned int line, const char *macro);
/* Record the beginning of a new source file FILE from LINE number
in the previous one. */
void (* start_source_file) (unsigned int line, const char *file);
/* Record the resumption of a source file. LINE is the line number
in the source file we are returning to. */
void (* end_source_file) (unsigned int line);
/* Record the beginning of block N, counting from 1 and not
including the function-scope block, at LINE. */
void (* begin_block) (unsigned int line, unsigned int n);
/* Record the end of a block. Arguments as for begin_block. */
void (* end_block) (unsigned int line, unsigned int n);
/* Returns nonzero if it is appropriate not to emit any debugging
information for BLOCK, because it doesn't contain any
instructions. This may not be the case for blocks containing
nested functions, since we may actually call such a function even
though the BLOCK information is messed up. Defaults to true. */
bool (* ignore_block) (const_tree);
/* Record a source file location at (FILE, LINE, DISCRIMINATOR). */
void (* source_line) (unsigned int line, const char *file,
int discriminator, bool is_stmt);
/* Called at start of prologue code. LINE is the first line in the
function. */
void (* begin_prologue) (unsigned int line, const char *file);
/* Called at end of prologue code. LINE is the first line in the
function. */
void (* end_prologue) (unsigned int line, const char *file);
/* Called at beginning of epilogue code. */
void (* begin_epilogue) (unsigned int line, const char *file);
/* Record end of epilogue code. */
void (* end_epilogue) (unsigned int line, const char *file);
/* Called at start of function DECL, before it is declared. */
void (* begin_function) (tree decl);
/* Record end of function. LINE is highest line number in function. */
void (* end_function) (unsigned int line);
/* Debug information for a function DECL. This might include the
function name (a symbol), its parameters, and the block that
makes up the function's body, and the local variables of the
function. */
void (* function_decl) (tree decl);
/* Debug information for a global DECL. Called from toplev.c after
compilation proper has finished. */
void (* global_decl) (tree decl);
/* Debug information for a type DECL. Called from toplev.c after
compilation proper, also from various language front ends to
record built-in types. The second argument is properly a
boolean, which indicates whether or not the type is a "local"
type as determined by the language. (It's not a boolean for
legacy reasons.) */
void (* type_decl) (tree decl, int local);
/* Debug information for imported modules and declarations. */
void (* imported_module_or_decl) (tree decl, tree name,
tree context, bool child);
/* DECL is an inline function, whose body is present, but which is
not being output at this point. */
void (* deferred_inline_function) (tree decl);
/* DECL is an inline function which is about to be emitted out of
line. The hook is useful to, e.g., emit abstract debug info for
the inline before it gets mangled by optimization. */
void (* outlining_inline_function) (tree decl);
/* Called from final_scan_insn for any CODE_LABEL insn whose
LABEL_NAME is non-null. */
void (* label) (rtx);
/* Called after the start and before the end of writing a PCH file.
The parameter is 0 if after the start, 1 if before the end. */
void (* handle_pch) (unsigned int);
/* Called from final_scan_insn for any NOTE_INSN_VAR_LOCATION note. */
void (* var_location) (rtx);
/* Called from final_scan_insn if there is a switch between hot and cold
text sections. */
void (* switch_text_section) (void);
/* Called from grokdeclarator. Replaces the anonymous name with the
type name. */
void (* set_name) (tree, tree);
/* This is 1 if the debug writer wants to see start and end commands for the
main source files, and 0 otherwise. */
int start_end_main_source_file;
/* The type of symtab field used by these debug hooks. This is one
of the TYPE_SYMTAB_IS_xxx values defined in tree.h. */
int tree_type_symtab_field;
};
extern const struct gcc_debug_hooks *debug_hooks;
/* The do-nothing hooks. */
extern void debug_nothing_void (void);
extern void debug_nothing_charstar (const char *);
extern void debug_nothing_int_charstar (unsigned int, const char *);
extern void debug_nothing_int_charstar_int_bool (unsigned int, const char *,
int, bool);
extern void debug_nothing_int (unsigned int);
extern void debug_nothing_int_int (unsigned int, unsigned int);
extern void debug_nothing_tree (tree);
extern void debug_nothing_tree_tree (tree, tree);
extern void debug_nothing_tree_int (tree, int);
extern void debug_nothing_tree_tree_tree_bool (tree, tree, tree, bool);
extern bool debug_true_const_tree (const_tree);
extern void debug_nothing_rtx (rtx);
extern void debug_nothing_rtx_rtx (rtx, rtx);
/* Hooks for various debug formats. */
extern const struct gcc_debug_hooks do_nothing_debug_hooks;
extern const struct gcc_debug_hooks dbx_debug_hooks;
extern const struct gcc_debug_hooks sdb_debug_hooks;
extern const struct gcc_debug_hooks xcoff_debug_hooks;
extern const struct gcc_debug_hooks dwarf2_debug_hooks;
extern const struct gcc_debug_hooks vmsdbg_debug_hooks;
/* Dwarf2 frame information. */
extern void dwarf2out_begin_prologue (unsigned int, const char *);
extern void dwarf2out_vms_end_prologue (unsigned int, const char *);
extern void dwarf2out_vms_begin_epilogue (unsigned int, const char *);
extern void dwarf2out_end_epilogue (unsigned int, const char *);
extern void dwarf2out_frame_finish (void);
/* Decide whether we want to emit frame unwind information for the current
translation unit. */
extern bool dwarf2out_do_frame (void);
extern bool dwarf2out_do_cfi_asm (void);
extern void dwarf2out_switch_text_section (void);
const char *remap_debug_filename (const char *);
void add_debug_prefix_map (const char *);
/* For -fdump-go-spec. */
extern const struct gcc_debug_hooks *
dump_go_spec_init (const char *, const struct gcc_debug_hooks *);
#endif /* !GCC_DEBUG_H */

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/* Declarations of core diagnostic functionality for code that does
not need to deal with diagnostic contexts or diagnostic info
structures.
Copyright (C) 1998-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_DIAGNOSTIC_CORE_H
#define GCC_DIAGNOSTIC_CORE_H
#include "input.h"
#include "bversion.h"
/* Constants used to discriminate diagnostics. */
typedef enum
{
#define DEFINE_DIAGNOSTIC_KIND(K, msgid) K,
#include "diagnostic.def"
#undef DEFINE_DIAGNOSTIC_KIND
DK_LAST_DIAGNOSTIC_KIND,
/* This is used for tagging pragma pops in the diagnostic
classification history chain. */
DK_POP
} diagnostic_t;
extern const char *progname;
extern const char *trim_filename (const char *);
/* If we haven't already defined a front-end-specific diagnostics
style, use the generic one. */
#ifndef GCC_DIAG_STYLE
#define GCC_DIAG_STYLE __gcc_tdiag__
#endif
/* None of these functions are suitable for ATTRIBUTE_PRINTF, because
each language front end can extend them with its own set of format
specifiers. We must use custom format checks. */
#if (ENABLE_CHECKING && GCC_VERSION >= 4001) || GCC_VERSION == BUILDING_GCC_VERSION
#define ATTRIBUTE_GCC_DIAG(m, n) __attribute__ ((__format__ (GCC_DIAG_STYLE, m, n))) ATTRIBUTE_NONNULL(m)
#else
#define ATTRIBUTE_GCC_DIAG(m, n) ATTRIBUTE_NONNULL(m)
#endif
extern void internal_error (const char *, ...) ATTRIBUTE_GCC_DIAG(1,2)
ATTRIBUTE_NORETURN;
/* Pass one of the OPT_W* from options.h as the first parameter. */
extern bool warning (int, const char *, ...) ATTRIBUTE_GCC_DIAG(2,3);
extern bool warning_at (location_t, int, const char *, ...)
ATTRIBUTE_GCC_DIAG(3,4);
extern void error (const char *, ...) ATTRIBUTE_GCC_DIAG(1,2);
extern void error_n (location_t, int, const char *, const char *, ...)
ATTRIBUTE_GCC_DIAG(3,5) ATTRIBUTE_GCC_DIAG(4,5);
extern void error_at (location_t, const char *, ...) ATTRIBUTE_GCC_DIAG(2,3);
extern void fatal_error (const char *, ...) ATTRIBUTE_GCC_DIAG(1,2)
ATTRIBUTE_NORETURN;
/* Pass one of the OPT_W* from options.h as the second parameter. */
extern bool pedwarn (location_t, int, const char *, ...)
ATTRIBUTE_GCC_DIAG(3,4);
extern bool permerror (location_t, const char *, ...) ATTRIBUTE_GCC_DIAG(2,3);
extern void sorry (const char *, ...) ATTRIBUTE_GCC_DIAG(1,2);
extern void inform (location_t, const char *, ...) ATTRIBUTE_GCC_DIAG(2,3);
extern void inform_n (location_t, int, const char *, const char *, ...)
ATTRIBUTE_GCC_DIAG(3,5) ATTRIBUTE_GCC_DIAG(4,5);
extern void verbatim (const char *, ...) ATTRIBUTE_GCC_DIAG(1,2);
extern bool emit_diagnostic (diagnostic_t, location_t, int,
const char *, ...) ATTRIBUTE_GCC_DIAG(4,5);
extern bool seen_error (void);
#ifdef BUFSIZ
/* N.B. Unlike all the others, fnotice is just gettext+fprintf, and
therefore it can have ATTRIBUTE_PRINTF. */
extern void fnotice (FILE *, const char *, ...)
ATTRIBUTE_PRINTF_2;
#endif
#endif /* ! GCC_DIAGNOSTIC_CORE_H */

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/* Copyright (C) 2001-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* DK_UNSPECIFIED must be first so it has a value of zero. We never
assign this kind to an actual diagnostic, we only use this in
variables that can hold a kind, to mean they have yet to have a
kind specified. I.e. they're uninitialized. Within the diagnostic
machinery, this kind also means "don't change the existing kind",
meaning "no change is specified". */
DEFINE_DIAGNOSTIC_KIND (DK_UNSPECIFIED, "")
/* If a diagnostic is set to DK_IGNORED, it won't get reported at all.
This is used by the diagnostic machinery when it wants to disable a
diagnostic without disabling the option which causes it. */
DEFINE_DIAGNOSTIC_KIND (DK_IGNORED, "")
/* The remainder are real diagnostic types. */
DEFINE_DIAGNOSTIC_KIND (DK_FATAL, "fatal error: ")
DEFINE_DIAGNOSTIC_KIND (DK_ICE, "internal compiler error: ")
DEFINE_DIAGNOSTIC_KIND (DK_ERROR, "error: ")
DEFINE_DIAGNOSTIC_KIND (DK_SORRY, "sorry, unimplemented: ")
DEFINE_DIAGNOSTIC_KIND (DK_WARNING, "warning: ")
DEFINE_DIAGNOSTIC_KIND (DK_ANACHRONISM, "anachronism: ")
DEFINE_DIAGNOSTIC_KIND (DK_NOTE, "note: ")
DEFINE_DIAGNOSTIC_KIND (DK_DEBUG, "debug: ")
/* These two would be re-classified as DK_WARNING or DK_ERROR, so the
prefix does not matter. */
DEFINE_DIAGNOSTIC_KIND (DK_PEDWARN, "pedwarn: ")
DEFINE_DIAGNOSTIC_KIND (DK_PERMERROR, "permerror: ")

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/* Various declarations for language-independent diagnostics subroutines.
Copyright (C) 2000-2013 Free Software Foundation, Inc.
Contributed by Gabriel Dos Reis <gdr@codesourcery.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_DIAGNOSTIC_H
#define GCC_DIAGNOSTIC_H
#include "pretty-print.h"
#include "diagnostic-core.h"
/* A diagnostic is described by the MESSAGE to send, the FILE and LINE of
its context and its KIND (ice, error, warning, note, ...) See complete
list in diagnostic.def. */
typedef struct diagnostic_info
{
text_info message;
location_t location;
unsigned int override_column;
/* Auxiliary data for client. */
void *x_data;
/* The kind of diagnostic it is about. */
diagnostic_t kind;
/* Which OPT_* directly controls this diagnostic. */
int option_index;
} diagnostic_info;
/* Each time a diagnostic's classification is changed with a pragma,
we record the change and the location of the change in an array of
these structs. */
typedef struct diagnostic_classification_change_t
{
location_t location;
int option;
diagnostic_t kind;
} diagnostic_classification_change_t;
/* Forward declarations. */
typedef void (*diagnostic_starter_fn) (diagnostic_context *,
diagnostic_info *);
typedef diagnostic_starter_fn diagnostic_finalizer_fn;
/* This data structure bundles altogether any information relevant to
the context of a diagnostic message. */
struct diagnostic_context
{
/* Where most of the diagnostic formatting work is done. */
pretty_printer *printer;
/* The number of times we have issued diagnostics. */
int diagnostic_count[DK_LAST_DIAGNOSTIC_KIND];
/* True if we should display the "warnings are being tread as error"
message, usually displayed once per compiler run. */
bool some_warnings_are_errors;
/* True if it has been requested that warnings be treated as errors. */
bool warning_as_error_requested;
/* The number of option indexes that can be passed to warning() et
al. */
int n_opts;
/* For each option index that can be passed to warning() et al
(OPT_* from options.h when using this code with the core GCC
options), this array may contain a new kind that the diagnostic
should be changed to before reporting, or DK_UNSPECIFIED to leave
it as the reported kind, or DK_IGNORED to not report it at
all. */
diagnostic_t *classify_diagnostic;
/* History of all changes to the classifications above. This list
is stored in location-order, so we can search it, either
binary-wise or end-to-front, to find the most recent
classification for a given diagnostic, given the location of the
diagnostic. */
diagnostic_classification_change_t *classification_history;
/* The size of the above array. */
int n_classification_history;
/* For pragma push/pop. */
int *push_list;
int n_push;
/* True if we should print the source line with a caret indicating
the location. */
bool show_caret;
/* Maximum width of the source line printed. */
int caret_max_width;
/* True if we should print the command line option which controls
each diagnostic, if known. */
bool show_option_requested;
/* True if we should raise a SIGABRT on errors. */
bool abort_on_error;
/* True if we should show the column number on diagnostics. */
bool show_column;
/* True if pedwarns are errors. */
bool pedantic_errors;
/* True if permerrors are warnings. */
bool permissive;
/* The index of the option to associate with turning permerrors into
warnings. */
int opt_permissive;
/* True if errors are fatal. */
bool fatal_errors;
/* True if all warnings should be disabled. */
bool dc_inhibit_warnings;
/* True if warnings should be given in system headers. */
bool dc_warn_system_headers;
/* Maximum number of errors to report. */
unsigned int max_errors;
/* This function is called before any message is printed out. It is
responsible for preparing message prefix and such. For example, it
might say:
In file included from "/usr/local/include/curses.h:5:
from "/home/gdr/src/nifty_printer.h:56:
...
*/
diagnostic_starter_fn begin_diagnostic;
/* This function is called after the diagnostic message is printed. */
diagnostic_finalizer_fn end_diagnostic;
/* Client hook to report an internal error. */
void (*internal_error) (diagnostic_context *, const char *, va_list *);
/* Client hook to say whether the option controlling a diagnostic is
enabled. Returns nonzero if enabled, zero if disabled. */
int (*option_enabled) (int, void *);
/* Client information to pass as second argument to
option_enabled. */
void *option_state;
/* Client hook to return the name of an option that controls a
diagnostic. Returns malloced memory. The first diagnostic_t
argument is the kind of diagnostic before any reclassification
(of warnings as errors, etc.); the second is the kind after any
reclassification. May return NULL if no name is to be printed.
May be passed 0 as well as the index of a particular option. */
char *(*option_name) (diagnostic_context *, int, diagnostic_t, diagnostic_t);
/* Auxiliary data for client. */
void *x_data;
/* Used to detect that the last caret was printed at the same location. */
location_t last_location;
/* Used to detect when the input file stack has changed since last
described. */
const struct line_map *last_module;
int lock;
bool inhibit_notes_p;
};
static inline void
diagnostic_inhibit_notes (diagnostic_context * context)
{
context->inhibit_notes_p = true;
}
/* Client supplied function to announce a diagnostic. */
#define diagnostic_starter(DC) (DC)->begin_diagnostic
/* Client supplied function called after a diagnostic message is
displayed. */
#define diagnostic_finalizer(DC) (DC)->end_diagnostic
/* Extension hooks for client. */
#define diagnostic_context_auxiliary_data(DC) (DC)->x_data
#define diagnostic_info_auxiliary_data(DI) (DI)->x_data
/* Same as pp_format_decoder. Works on 'diagnostic_context *'. */
#define diagnostic_format_decoder(DC) ((DC)->printer->format_decoder)
/* Same as output_prefixing_rule. Works on 'diagnostic_context *'. */
#define diagnostic_prefixing_rule(DC) ((DC)->printer->wrapping.rule)
/* Maximum characters per line in automatic line wrapping mode.
Zero means don't wrap lines. */
#define diagnostic_line_cutoff(DC) ((DC)->printer->wrapping.line_cutoff)
#define diagnostic_flush_buffer(DC) pp_base_flush ((DC)->printer)
/* True if the last module or file in which a diagnostic was reported is
different from the current one. */
#define diagnostic_last_module_changed(DC, MAP) \
((DC)->last_module != MAP)
/* Remember the current module or file as being the last one in which we
report a diagnostic. */
#define diagnostic_set_last_module(DC, MAP) \
(DC)->last_module = MAP
/* Raise SIGABRT on any diagnostic of severity DK_ERROR or higher. */
#define diagnostic_abort_on_error(DC) \
(DC)->abort_on_error = true
/* This diagnostic_context is used by front-ends that directly output
diagnostic messages without going through `error', `warning',
and similar functions. */
extern diagnostic_context *global_dc;
/* The total count of a KIND of diagnostics emitted so far. */
#define diagnostic_kind_count(DC, DK) (DC)->diagnostic_count[(int) (DK)]
/* The number of errors that have been issued so far. Ideally, these
would take a diagnostic_context as an argument. */
#define errorcount diagnostic_kind_count (global_dc, DK_ERROR)
/* Similarly, but for warnings. */
#define warningcount diagnostic_kind_count (global_dc, DK_WARNING)
/* Similarly, but for sorrys. */
#define sorrycount diagnostic_kind_count (global_dc, DK_SORRY)
/* Returns nonzero if warnings should be emitted. */
#define diagnostic_report_warnings_p(DC, LOC) \
(!(DC)->dc_inhibit_warnings \
&& !(in_system_header_at (LOC) && !(DC)->dc_warn_system_headers))
#define report_diagnostic(D) diagnostic_report_diagnostic (global_dc, D)
/* Override the column number to be used for reporting a
diagnostic. */
#define diagnostic_override_column(DI, COL) (DI)->override_column = (COL)
/* Override the option index to be used for reporting a
diagnostic. */
#define diagnostic_override_option_index(DI, OPTIDX) \
((DI)->option_index = (OPTIDX))
/* Diagnostic related functions. */
extern void diagnostic_initialize (diagnostic_context *, int);
extern void diagnostic_finish (diagnostic_context *);
extern void diagnostic_report_current_module (diagnostic_context *, location_t);
extern void diagnostic_show_locus (diagnostic_context *, const diagnostic_info *);
/* Force diagnostics controlled by OPTIDX to be kind KIND. */
extern diagnostic_t diagnostic_classify_diagnostic (diagnostic_context *,
int /* optidx */,
diagnostic_t /* kind */,
location_t);
extern void diagnostic_push_diagnostics (diagnostic_context *, location_t);
extern void diagnostic_pop_diagnostics (diagnostic_context *, location_t);
extern bool diagnostic_report_diagnostic (diagnostic_context *,
diagnostic_info *);
#ifdef ATTRIBUTE_GCC_DIAG
extern void diagnostic_set_info (diagnostic_info *, const char *, va_list *,
location_t, diagnostic_t) ATTRIBUTE_GCC_DIAG(2,0);
extern void diagnostic_set_info_translated (diagnostic_info *, const char *,
va_list *, location_t,
diagnostic_t)
ATTRIBUTE_GCC_DIAG(2,0);
extern void diagnostic_append_note (diagnostic_context *, location_t,
const char *, ...) ATTRIBUTE_GCC_DIAG(3,4);
#endif
extern char *diagnostic_build_prefix (diagnostic_context *, const diagnostic_info *);
void default_diagnostic_starter (diagnostic_context *, diagnostic_info *);
void default_diagnostic_finalizer (diagnostic_context *, diagnostic_info *);
void diagnostic_set_caret_max_width (diagnostic_context *context, int value);
/* Pure text formatting support functions. */
extern char *file_name_as_prefix (const char *);
#endif /* ! GCC_DIAGNOSTIC_H */

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/* Operations with long integers.
Copyright (C) 2006-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
GCC is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef DOUBLE_INT_H
#define DOUBLE_INT_H
/* A large integer is currently represented as a pair of HOST_WIDE_INTs.
It therefore represents a number with precision of
2 * HOST_BITS_PER_WIDE_INT bits (it is however possible that the
internal representation will change, if numbers with greater precision
are needed, so the users should not rely on it). The representation does
not contain any information about signedness of the represented value, so
it can be used to represent both signed and unsigned numbers. For
operations where the results depend on signedness (division, comparisons),
it must be specified separately. For each such operation, there are three
versions of the function -- double_int_op, that takes an extra UNS argument
giving the signedness of the values, and double_int_sop and double_int_uop
that stand for its specializations for signed and unsigned values.
You may also represent with numbers in smaller precision using double_int.
You however need to use double_int_ext (that fills in the bits of the
number over the prescribed precision with zeros or with the sign bit) before
operations that do not perform arithmetics modulo 2^precision (comparisons,
division), and possibly before storing the results, if you want to keep
them in some canonical form). In general, the signedness of double_int_ext
should match the signedness of the operation.
??? The components of double_int differ in signedness mostly for
historical reasons (they replace an older structure used to represent
numbers with precision higher than HOST_WIDE_INT). It might be less
confusing to have them both signed or both unsigned. */
struct double_int
{
/* Normally, we would define constructors to create instances.
Two things prevent us from doing so.
First, defining a constructor makes the class non-POD in C++03,
and we certainly want double_int to be a POD.
Second, the GCC conding conventions prefer explicit conversion,
and explicit conversion operators are not available until C++11. */
static double_int from_uhwi (unsigned HOST_WIDE_INT cst);
static double_int from_shwi (HOST_WIDE_INT cst);
static double_int from_pair (HOST_WIDE_INT high, unsigned HOST_WIDE_INT low);
/* Construct from a fuffer of length LEN. BUFFER will be read according
to byte endianess and word endianess. */
static double_int from_buffer (const unsigned char *buffer, int len);
/* No copy assignment operator or destructor to keep the type a POD. */
/* There are some special value-creation static member functions. */
static double_int mask (unsigned prec);
static double_int max_value (unsigned int prec, bool uns);
static double_int min_value (unsigned int prec, bool uns);
/* The following functions are mutating operations. */
double_int &operator ++ (); // prefix
double_int &operator -- (); // prefix
double_int &operator *= (double_int);
double_int &operator += (double_int);
double_int &operator -= (double_int);
double_int &operator &= (double_int);
double_int &operator ^= (double_int);
double_int &operator |= (double_int);
/* The following functions are non-mutating operations. */
/* Conversion functions. */
HOST_WIDE_INT to_shwi () const;
unsigned HOST_WIDE_INT to_uhwi () const;
/* Conversion query functions. */
bool fits_uhwi () const;
bool fits_shwi () const;
bool fits_hwi (bool uns) const;
/* Attribute query functions. */
int trailing_zeros () const;
int popcount () const;
/* Arithmetic query operations. */
bool multiple_of (double_int, bool, double_int *) const;
/* Arithmetic operation functions. */
/* The following operations perform arithmetics modulo 2^precision, so you
do not need to call .ext between them, even if you are representing
numbers with precision less than HOST_BITS_PER_DOUBLE_INT bits. */
double_int set_bit (unsigned) const;
double_int mul_with_sign (double_int, bool unsigned_p, bool *overflow) const;
double_int wide_mul_with_sign (double_int, bool unsigned_p,
double_int *higher, bool *overflow) const;
double_int add_with_sign (double_int, bool unsigned_p, bool *overflow) const;
double_int sub_with_overflow (double_int, bool *overflow) const;
double_int neg_with_overflow (bool *overflow) const;
double_int operator * (double_int) const;
double_int operator + (double_int) const;
double_int operator - (double_int) const;
double_int operator - () const;
double_int operator ~ () const;
double_int operator & (double_int) const;
double_int operator | (double_int) const;
double_int operator ^ (double_int) const;
double_int and_not (double_int) const;
double_int lshift (HOST_WIDE_INT count, unsigned int prec, bool arith) const;
double_int rshift (HOST_WIDE_INT count, unsigned int prec, bool arith) const;
double_int alshift (HOST_WIDE_INT count, unsigned int prec) const;
double_int arshift (HOST_WIDE_INT count, unsigned int prec) const;
double_int llshift (HOST_WIDE_INT count, unsigned int prec) const;
double_int lrshift (HOST_WIDE_INT count, unsigned int prec) const;
double_int lrotate (HOST_WIDE_INT count, unsigned int prec) const;
double_int rrotate (HOST_WIDE_INT count, unsigned int prec) const;
/* You must ensure that double_int::ext is called on the operands
of the following operations, if the precision of the numbers
is less than HOST_BITS_PER_DOUBLE_INT bits. */
double_int div (double_int, bool, unsigned) const;
double_int sdiv (double_int, unsigned) const;
double_int udiv (double_int, unsigned) const;
double_int mod (double_int, bool, unsigned) const;
double_int smod (double_int, unsigned) const;
double_int umod (double_int, unsigned) const;
double_int divmod_with_overflow (double_int, bool, unsigned,
double_int *, bool *) const;
double_int divmod (double_int, bool, unsigned, double_int *) const;
double_int sdivmod (double_int, unsigned, double_int *) const;
double_int udivmod (double_int, unsigned, double_int *) const;
/* Precision control functions. */
double_int ext (unsigned prec, bool uns) const;
double_int zext (unsigned prec) const;
double_int sext (unsigned prec) const;
/* Comparative functions. */
bool is_zero () const;
bool is_one () const;
bool is_minus_one () const;
bool is_negative () const;
int cmp (double_int b, bool uns) const;
int ucmp (double_int b) const;
int scmp (double_int b) const;
bool ult (double_int b) const;
bool ule (double_int b) const;
bool ugt (double_int b) const;
bool slt (double_int b) const;
bool sle (double_int b) const;
bool sgt (double_int b) const;
double_int max (double_int b, bool uns);
double_int smax (double_int b);
double_int umax (double_int b);
double_int min (double_int b, bool uns);
double_int smin (double_int b);
double_int umin (double_int b);
bool operator == (double_int cst2) const;
bool operator != (double_int cst2) const;
/* Please migrate away from using these member variables publically. */
unsigned HOST_WIDE_INT low;
HOST_WIDE_INT high;
};
#define HOST_BITS_PER_DOUBLE_INT (2 * HOST_BITS_PER_WIDE_INT)
/* Constructors and conversions. */
/* Constructs double_int from integer CST. The bits over the precision of
HOST_WIDE_INT are filled with the sign bit. */
inline double_int
double_int::from_shwi (HOST_WIDE_INT cst)
{
double_int r;
r.low = (unsigned HOST_WIDE_INT) cst;
r.high = cst < 0 ? -1 : 0;
return r;
}
/* Some useful constants. */
/* FIXME(crowl): Maybe remove after converting callers?
The problem is that a named constant would not be as optimizable,
while the functional syntax is more verbose. */
#define double_int_minus_one (double_int::from_shwi (-1))
#define double_int_zero (double_int::from_shwi (0))
#define double_int_one (double_int::from_shwi (1))
#define double_int_two (double_int::from_shwi (2))
#define double_int_ten (double_int::from_shwi (10))
/* Constructs double_int from unsigned integer CST. The bits over the
precision of HOST_WIDE_INT are filled with zeros. */
inline double_int
double_int::from_uhwi (unsigned HOST_WIDE_INT cst)
{
double_int r;
r.low = cst;
r.high = 0;
return r;
}
inline double_int
double_int::from_pair (HOST_WIDE_INT high, unsigned HOST_WIDE_INT low)
{
double_int r;
r.low = low;
r.high = high;
return r;
}
inline double_int &
double_int::operator ++ ()
{
*this += double_int_one;
return *this;
}
inline double_int &
double_int::operator -- ()
{
*this -= double_int_one;
return *this;
}
inline double_int &
double_int::operator *= (double_int b)
{
*this = *this * b;
return *this;
}
inline double_int &
double_int::operator += (double_int b)
{
*this = *this + b;
return *this;
}
inline double_int &
double_int::operator -= (double_int b)
{
*this = *this - b;
return *this;
}
inline double_int &
double_int::operator &= (double_int b)
{
*this = *this & b;
return *this;
}
inline double_int &
double_int::operator ^= (double_int b)
{
*this = *this ^ b;
return *this;
}
inline double_int &
double_int::operator |= (double_int b)
{
*this = *this | b;
return *this;
}
/* Returns value of CST as a signed number. CST must satisfy
double_int::fits_signed. */
inline HOST_WIDE_INT
double_int::to_shwi () const
{
return (HOST_WIDE_INT) low;
}
/* Returns value of CST as an unsigned number. CST must satisfy
double_int::fits_unsigned. */
inline unsigned HOST_WIDE_INT
double_int::to_uhwi () const
{
return low;
}
/* Returns true if CST fits in unsigned HOST_WIDE_INT. */
inline bool
double_int::fits_uhwi () const
{
return high == 0;
}
/* Logical operations. */
/* Returns ~A. */
inline double_int
double_int::operator ~ () const
{
double_int result;
result.low = ~low;
result.high = ~high;
return result;
}
/* Returns A | B. */
inline double_int
double_int::operator | (double_int b) const
{
double_int result;
result.low = low | b.low;
result.high = high | b.high;
return result;
}
/* Returns A & B. */
inline double_int
double_int::operator & (double_int b) const
{
double_int result;
result.low = low & b.low;
result.high = high & b.high;
return result;
}
/* Returns A & ~B. */
inline double_int
double_int::and_not (double_int b) const
{
double_int result;
result.low = low & ~b.low;
result.high = high & ~b.high;
return result;
}
/* Returns A ^ B. */
inline double_int
double_int::operator ^ (double_int b) const
{
double_int result;
result.low = low ^ b.low;
result.high = high ^ b.high;
return result;
}
void dump_double_int (FILE *, double_int, bool);
#define ALL_ONES (~((unsigned HOST_WIDE_INT) 0))
/* The operands of the following comparison functions must be processed
with double_int_ext, if their precision is less than
HOST_BITS_PER_DOUBLE_INT bits. */
/* Returns true if CST is zero. */
inline bool
double_int::is_zero () const
{
return low == 0 && high == 0;
}
/* Returns true if CST is one. */
inline bool
double_int::is_one () const
{
return low == 1 && high == 0;
}
/* Returns true if CST is minus one. */
inline bool
double_int::is_minus_one () const
{
return low == ALL_ONES && high == -1;
}
/* Returns true if CST is negative. */
inline bool
double_int::is_negative () const
{
return high < 0;
}
/* Returns true if CST1 == CST2. */
inline bool
double_int::operator == (double_int cst2) const
{
return low == cst2.low && high == cst2.high;
}
/* Returns true if CST1 != CST2. */
inline bool
double_int::operator != (double_int cst2) const
{
return low != cst2.low || high != cst2.high;
}
/* Return number of set bits of CST. */
inline int
double_int::popcount () const
{
return popcount_hwi (high) + popcount_hwi (low);
}
#ifndef GENERATOR_FILE
/* Conversion to and from GMP integer representations. */
void mpz_set_double_int (mpz_t, double_int, bool);
double_int mpz_get_double_int (const_tree, mpz_t, bool);
#endif
#endif /* DOUBLE_INT_H */

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/* Definitions for the shared dumpfile.
Copyright (C) 2004-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_DUMPFILE_H
#define GCC_DUMPFILE_H 1
#include "line-map.h"
/* Different tree dump places. When you add new tree dump places,
extend the DUMP_FILES array in dumpfile.c. */
enum tree_dump_index
{
TDI_none, /* No dump */
TDI_cgraph, /* dump function call graph. */
TDI_tu, /* dump the whole translation unit. */
TDI_class, /* dump class hierarchy. */
TDI_original, /* dump each function before optimizing it */
TDI_generic, /* dump each function after genericizing it */
TDI_nested, /* dump each function after unnesting it */
TDI_tree_all, /* enable all the GENERIC/GIMPLE dumps. */
TDI_rtl_all, /* enable all the RTL dumps. */
TDI_ipa_all, /* enable all the IPA dumps. */
TDI_end
};
/* Bit masks to control dumping. Not all values are applicable to all
dumps. Add new ones at the end. When you define new values, extend
the DUMP_OPTIONS array in dumpfile.c. The TDF_* flags coexist with
MSG_* flags (for -fopt-info) and the bit values must be chosen to
allow that. */
#define TDF_ADDRESS (1 << 0) /* dump node addresses */
#define TDF_SLIM (1 << 1) /* don't go wild following links */
#define TDF_RAW (1 << 2) /* don't unparse the function */
#define TDF_DETAILS (1 << 3) /* show more detailed info about
each pass */
#define TDF_STATS (1 << 4) /* dump various statistics about
each pass */
#define TDF_BLOCKS (1 << 5) /* display basic block boundaries */
#define TDF_VOPS (1 << 6) /* display virtual operands */
#define TDF_LINENO (1 << 7) /* display statement line numbers */
#define TDF_UID (1 << 8) /* display decl UIDs */
#define TDF_TREE (1 << 9) /* is a tree dump */
#define TDF_RTL (1 << 10) /* is a RTL dump */
#define TDF_IPA (1 << 11) /* is an IPA dump */
#define TDF_STMTADDR (1 << 12) /* Address of stmt. */
#define TDF_GRAPH (1 << 13) /* a graph dump is being emitted */
#define TDF_MEMSYMS (1 << 14) /* display memory symbols in expr.
Implies TDF_VOPS. */
#define TDF_DIAGNOSTIC (1 << 15) /* A dump to be put in a diagnostic
message. */
#define TDF_VERBOSE (1 << 16) /* A dump that uses the full tree
dumper to print stmts. */
#define TDF_RHS_ONLY (1 << 17) /* a flag to only print the RHS of
a gimple stmt. */
#define TDF_ASMNAME (1 << 18) /* display asm names of decls */
#define TDF_EH (1 << 19) /* display EH region number
holding this gimple statement. */
#define TDF_NOUID (1 << 20) /* omit UIDs from dumps. */
#define TDF_ALIAS (1 << 21) /* display alias information */
#define TDF_ENUMERATE_LOCALS (1 << 22) /* Enumerate locals by uid. */
#define TDF_CSELIB (1 << 23) /* Dump cselib details. */
#define TDF_SCEV (1 << 24) /* Dump SCEV details. */
#define TDF_COMMENT (1 << 25) /* Dump lines with prefix ";;" */
#define MSG_OPTIMIZED_LOCATIONS (1 << 26) /* -fopt-info optimized sources */
#define MSG_MISSED_OPTIMIZATION (1 << 27) /* missed opportunities */
#define MSG_NOTE (1 << 28) /* general optimization info */
#define MSG_ALL (MSG_OPTIMIZED_LOCATIONS | MSG_MISSED_OPTIMIZATION \
| MSG_NOTE)
/* Flags to control high-level -fopt-info dumps. Usually these flags
define a group of passes. An optimization pass can be part of
multiple groups. */
#define OPTGROUP_NONE (0)
#define OPTGROUP_IPA (1 << 1) /* IPA optimization passes */
#define OPTGROUP_LOOP (1 << 2) /* Loop optimization passes */
#define OPTGROUP_INLINE (1 << 3) /* Inlining passes */
#define OPTGROUP_VEC (1 << 4) /* Vectorization passes */
#define OPTGROUP_ALL (OPTGROUP_IPA | OPTGROUP_LOOP | OPTGROUP_INLINE \
| OPTGROUP_VEC)
/* Define a tree dump switch. */
struct dump_file_info
{
const char *suffix; /* suffix to give output file. */
const char *swtch; /* command line dump switch */
const char *glob; /* command line glob */
const char *pfilename; /* filename for the pass-specific stream */
const char *alt_filename; /* filename for the -fopt-info stream */
FILE *pstream; /* pass-specific dump stream */
FILE *alt_stream; /* -fopt-info stream */
int pflags; /* dump flags */
int optgroup_flags; /* optgroup flags for -fopt-info */
int alt_flags; /* flags for opt-info */
int pstate; /* state of pass-specific stream */
int alt_state; /* state of the -fopt-info stream */
int num; /* dump file number */
};
/* In dumpfile.c */
extern char *get_dump_file_name (int);
extern int dump_initialized_p (int);
extern FILE *dump_begin (int, int *);
extern void dump_end (int, FILE *);
extern int dump_start (int, int *);
extern void dump_finish (int);
extern void dump_node (const_tree, int, FILE *);
extern int dump_switch_p (const char *);
extern int opt_info_switch_p (const char *);
extern const char *dump_flag_name (int);
extern void dump_printf (int, const char *, ...) ATTRIBUTE_PRINTF_2;
extern void dump_printf_loc (int, source_location,
const char *, ...) ATTRIBUTE_PRINTF_3;
extern void dump_basic_block (int, basic_block, int);
extern void dump_generic_expr_loc (int, source_location, int, tree);
extern void dump_generic_expr (int, int, tree);
extern void dump_gimple_stmt_loc (int, source_location, int, gimple, int);
extern void dump_gimple_stmt (int, int, gimple, int);
extern void print_combine_total_stats (void);
extern unsigned int dump_register (const char *, const char *, const char *,
int, int);
extern bool enable_rtl_dump_file (void);
/* In combine.c */
extern void dump_combine_total_stats (FILE *);
/* In cfghooks.c */
extern void dump_bb (FILE *, basic_block, int, int);
/* Global variables used to communicate with passes. */
extern FILE *dump_file;
extern FILE *alt_dump_file;
extern int dump_flags;
extern const char *dump_file_name;
/* Return the dump_file_info for the given phase. */
extern struct dump_file_info *get_dump_file_info (int);
/* Return true if any of the dumps is enabled, false otherwise. */
static inline bool
dump_enabled_p (void)
{
return (dump_file || alt_dump_file);
}
#endif /* GCC_DUMPFILE_H */

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/* Exported functions from emit-rtl.c
Copyright (C) 2004-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_EMIT_RTL_H
#define GCC_EMIT_RTL_H
/* Set the alias set of MEM to SET. */
extern void set_mem_alias_set (rtx, alias_set_type);
/* Set the alignment of MEM to ALIGN bits. */
extern void set_mem_align (rtx, unsigned int);
/* Set the address space of MEM to ADDRSPACE. */
extern void set_mem_addr_space (rtx, addr_space_t);
/* Set the expr for MEM to EXPR. */
extern void set_mem_expr (rtx, tree);
/* Set the offset for MEM to OFFSET. */
extern void set_mem_offset (rtx, HOST_WIDE_INT);
/* Clear the offset recorded for MEM. */
extern void clear_mem_offset (rtx);
/* Set the size for MEM to SIZE. */
extern void set_mem_size (rtx, HOST_WIDE_INT);
/* Clear the size recorded for MEM. */
extern void clear_mem_size (rtx);
/* Set the attributes for MEM appropriate for a spill slot. */
extern void set_mem_attrs_for_spill (rtx);
extern tree get_spill_slot_decl (bool);
/* Return a memory reference like MEMREF, but with its address changed to
ADDR. The caller is asserting that the actual piece of memory pointed
to is the same, just the form of the address is being changed, such as
by putting something into a register. */
extern rtx replace_equiv_address (rtx, rtx);
/* Likewise, but the reference is not required to be valid. */
extern rtx replace_equiv_address_nv (rtx, rtx);
extern rtx gen_blockage (void);
extern rtvec gen_rtvec (int, ...);
extern rtx copy_insn_1 (rtx);
extern rtx copy_insn (rtx);
extern rtx copy_delay_slot_insn (rtx);
extern rtx gen_int_mode (HOST_WIDE_INT, enum machine_mode);
extern rtx emit_copy_of_insn_after (rtx, rtx);
extern void set_reg_attrs_from_value (rtx, rtx);
extern void set_reg_attrs_for_parm (rtx, rtx);
extern void set_reg_attrs_for_decl_rtl (tree t, rtx x);
extern void adjust_reg_mode (rtx, enum machine_mode);
extern int mem_expr_equal_p (const_tree, const_tree);
extern bool need_atomic_barrier_p (enum memmodel, bool);
/* Return the first insn of the current sequence or current function. */
static inline rtx
get_insns (void)
{
return crtl->emit.x_first_insn;
}
/* Specify a new insn as the first in the chain. */
static inline void
set_first_insn (rtx insn)
{
gcc_checking_assert (!insn || !PREV_INSN (insn));
crtl->emit.x_first_insn = insn;
}
/* Return the last insn emitted in current sequence or current function. */
static inline rtx
get_last_insn (void)
{
return crtl->emit.x_last_insn;
}
/* Specify a new insn as the last in the chain. */
static inline void
set_last_insn (rtx insn)
{
gcc_checking_assert (!insn || !NEXT_INSN (insn));
crtl->emit.x_last_insn = insn;
}
/* Return a number larger than any instruction's uid in this function. */
static inline int
get_max_uid (void)
{
return crtl->emit.x_cur_insn_uid;
}
#endif /* GCC_EMIT_RTL_H */

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/* Exception Handling interface routines.
Copyright (C) 1996-2013 Free Software Foundation, Inc.
Contributed by Mike Stump <mrs@cygnus.com>.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* No include guards here, but define an include file marker anyway, so
that the compiler can keep track of where this file is included. This
is e.g. used to avoid including this file in front-end specific files. */
#ifndef GCC_EXCEPT_H
# define GCC_EXCEPT_H
#endif
#include "hashtab.h"
struct function;
struct eh_region_d;
struct pointer_map_t;
/* The type of an exception region. */
enum eh_region_type
{
/* CLEANUP regions implement e.g. destructors run when exiting a block.
They can be generated from both GIMPLE_TRY_FINALLY and GIMPLE_TRY_CATCH
nodes. It is expected by the runtime that cleanup regions will *not*
resume normal program flow, but will continue propagation of the
exception. */
ERT_CLEANUP,
/* TRY regions implement catching an exception. The list of types associated
with the attached catch handlers is examined in order by the runtime and
control is transferred to the appropriate handler. Note that a NULL type
list is a catch-all handler, and that it will catch *all* exceptions
including those originating from a different language. */
ERT_TRY,
/* ALLOWED_EXCEPTIONS regions implement exception filtering, e.g. the
throw(type-list) specification that can be added to C++ functions.
The runtime examines the thrown exception vs the type list, and if
the exception does not match, transfers control to the handler. The
normal handler for C++ calls __cxa_call_unexpected. */
ERT_ALLOWED_EXCEPTIONS,
/* MUST_NOT_THROW regions prevent all exceptions from propagating. This
region type is used in C++ to surround destructors being run inside a
CLEANUP region. This differs from an ALLOWED_EXCEPTIONS region with
an empty type list in that the runtime is prepared to terminate the
program directly. We only generate code for MUST_NOT_THROW regions
along control paths that are already handling an exception within the
current function. */
ERT_MUST_NOT_THROW
};
/* A landing pad for a given exception region. Any transfer of control
from the EH runtime to the function happens at a landing pad. */
struct GTY(()) eh_landing_pad_d
{
/* The linked list of all landing pads associated with the region. */
struct eh_landing_pad_d *next_lp;
/* The region with which this landing pad is associated. */
struct eh_region_d *region;
/* At the gimple level, the location to which control will be transferred
for this landing pad. There can be both EH and normal edges into the
block containing the post-landing-pad label. */
tree post_landing_pad;
/* At the rtl level, the location to which the runtime will transfer
control. This differs from the post-landing-pad in that the target's
EXCEPTION_RECEIVER pattern will be expanded here, as well as other
bookkeeping specific to exceptions. There must not be normal edges
into the block containing the landing-pad label. */
rtx landing_pad;
/* The index of this landing pad within fun->eh->lp_array. */
int index;
};
/* A catch handler associated with an ERT_TRY region. */
struct GTY(()) eh_catch_d
{
/* The double-linked list of all catch handlers for the region. */
struct eh_catch_d *next_catch;
struct eh_catch_d *prev_catch;
/* A TREE_LIST of runtime type objects that this catch handler
will catch, or NULL if all exceptions are caught. */
tree type_list;
/* A TREE_LIST of INTEGER_CSTs that correspond to the type_list entries,
having been mapped by assign_filter_values. These integers are to be
compared against the __builtin_eh_filter value. */
tree filter_list;
/* The code that should be executed if this catch handler matches the
thrown exception. This label is only maintained until
pass_lower_eh_dispatch, at which point it is cleared. */
tree label;
};
/* Describes one exception region. */
struct GTY(()) eh_region_d
{
/* The immediately surrounding region. */
struct eh_region_d *outer;
/* The list of immediately contained regions. */
struct eh_region_d *inner;
struct eh_region_d *next_peer;
/* The index of this region within fun->eh->region_array. */
int index;
/* Each region does exactly one thing. */
enum eh_region_type type;
/* Holds the action to perform based on the preceding type. */
union eh_region_u {
struct eh_region_u_try {
/* The double-linked list of all catch handlers for this region. */
struct eh_catch_d *first_catch;
struct eh_catch_d *last_catch;
} GTY ((tag ("ERT_TRY"))) eh_try;
struct eh_region_u_allowed {
/* A TREE_LIST of runtime type objects allowed to pass. */
tree type_list;
/* The code that should be executed if the thrown exception does
not match the type list. This label is only maintained until
pass_lower_eh_dispatch, at which point it is cleared. */
tree label;
/* The integer that will be passed by the runtime to signal that
we should execute the code at LABEL. This integer is assigned
by assign_filter_values and is to be compared against the
__builtin_eh_filter value. */
int filter;
} GTY ((tag ("ERT_ALLOWED_EXCEPTIONS"))) allowed;
struct eh_region_u_must_not_throw {
/* A function decl to be invoked if this region is actually reachable
from within the function, rather than implementable from the runtime.
The normal way for this to happen is for there to be a CLEANUP region
contained within this MUST_NOT_THROW region. Note that if the
runtime handles the MUST_NOT_THROW region, we have no control over
what termination function is called; it will be decided by the
personality function in effect for this CIE. */
tree failure_decl;
/* The location assigned to the call of FAILURE_DECL, if expanded. */
location_t failure_loc;
} GTY ((tag ("ERT_MUST_NOT_THROW"))) must_not_throw;
} GTY ((desc ("%0.type"))) u;
/* The list of landing pads associated with this region. */
struct eh_landing_pad_d *landing_pads;
/* EXC_PTR and FILTER values copied from the runtime for this region.
Each region gets its own psuedos so that if there are nested exceptions
we do not overwrite the values of the first exception. */
rtx exc_ptr_reg, filter_reg;
/* True if this region should use __cxa_end_cleanup instead
of _Unwind_Resume. */
bool use_cxa_end_cleanup;
};
typedef struct eh_landing_pad_d *eh_landing_pad;
typedef struct eh_catch_d *eh_catch;
typedef struct eh_region_d *eh_region;
/* The exception status for each function. */
struct GTY(()) eh_status
{
/* The tree of all regions for this function. */
eh_region region_tree;
/* The same information as an indexable array. */
vec<eh_region, va_gc> *region_array;
/* The landing pads as an indexable array. */
vec<eh_landing_pad, va_gc> *lp_array;
/* At the gimple level, a mapping from gimple statement to landing pad
or must-not-throw region. See record_stmt_eh_region. */
htab_t GTY((param_is (struct throw_stmt_node))) throw_stmt_table;
/* All of the runtime type data used by the function. These objects
are emitted to the lang-specific-data-area for the function. */
vec<tree, va_gc> *ttype_data;
/* The table of all action chains. These encode the eh_region tree in
a compact form for use by the runtime, and is also emitted to the
lang-specific-data-area. Note that the ARM EABI uses a different
format for the encoding than all other ports. */
union eh_status_u {
vec<tree, va_gc> *GTY((tag ("1"))) arm_eabi;
vec<uchar, va_gc> *GTY((tag ("0"))) other;
} GTY ((desc ("targetm.arm_eabi_unwinder"))) ehspec_data;
};
/* Invokes CALLBACK for every exception handler label. Only used by old
loop hackery; should not be used by new code. */
extern void for_each_eh_label (void (*) (rtx));
extern void init_eh_for_function (void);
extern void remove_eh_landing_pad (eh_landing_pad);
extern void remove_eh_handler (eh_region);
extern void remove_unreachable_eh_regions (sbitmap);
extern bool current_function_has_exception_handlers (void);
extern void output_function_exception_table (const char *);
extern rtx expand_builtin_eh_pointer (tree);
extern rtx expand_builtin_eh_filter (tree);
extern rtx expand_builtin_eh_copy_values (tree);
extern void expand_builtin_unwind_init (void);
extern rtx expand_builtin_eh_return_data_regno (tree);
extern rtx expand_builtin_extract_return_addr (tree);
extern void expand_builtin_init_dwarf_reg_sizes (tree);
extern rtx expand_builtin_frob_return_addr (tree);
extern rtx expand_builtin_dwarf_sp_column (void);
extern void expand_builtin_eh_return (tree, tree);
extern void expand_eh_return (void);
extern rtx expand_builtin_extend_pointer (tree);
extern void expand_dw2_landing_pad_for_region (eh_region);
typedef tree (*duplicate_eh_regions_map) (tree, void *);
extern struct pointer_map_t *duplicate_eh_regions
(struct function *, eh_region, int, duplicate_eh_regions_map, void *);
extern void sjlj_emit_function_exit_after (rtx);
extern eh_region gen_eh_region_cleanup (eh_region);
extern eh_region gen_eh_region_try (eh_region);
extern eh_region gen_eh_region_allowed (eh_region, tree);
extern eh_region gen_eh_region_must_not_throw (eh_region);
extern eh_catch gen_eh_region_catch (eh_region, tree);
extern eh_landing_pad gen_eh_landing_pad (eh_region);
extern eh_region get_eh_region_from_number_fn (struct function *, int);
extern eh_region get_eh_region_from_number (int);
extern eh_landing_pad get_eh_landing_pad_from_number_fn (struct function*,int);
extern eh_landing_pad get_eh_landing_pad_from_number (int);
extern eh_region get_eh_region_from_lp_number_fn (struct function *, int);
extern eh_region get_eh_region_from_lp_number (int);
extern eh_region eh_region_outermost (struct function *, eh_region, eh_region);
extern void make_reg_eh_region_note (rtx insn, int ecf_flags, int lp_nr);
extern void make_reg_eh_region_note_nothrow_nononlocal (rtx);
extern void verify_eh_tree (struct function *);
extern void dump_eh_tree (FILE *, struct function *);
void debug_eh_tree (struct function *);
extern void add_type_for_runtime (tree);
extern tree lookup_type_for_runtime (tree);
extern void assign_filter_values (void);
extern eh_region get_eh_region_from_rtx (const_rtx);
extern eh_landing_pad get_eh_landing_pad_from_rtx (const_rtx);
extern void finish_eh_generation (void);
struct GTY(()) throw_stmt_node {
gimple stmt;
int lp_nr;
};
extern struct htab *get_eh_throw_stmt_table (struct function *);
extern void set_eh_throw_stmt_table (struct function *, struct htab *);
enum eh_personality_kind {
eh_personality_none,
eh_personality_any,
eh_personality_lang
};
extern enum eh_personality_kind
function_needs_eh_personality (struct function *);
/* Pre-order iteration within the eh_region tree. */
static inline eh_region
ehr_next (eh_region r, eh_region start)
{
if (r->inner)
r = r->inner;
else if (r->next_peer && r != start)
r = r->next_peer;
else
{
do
{
r = r->outer;
if (r == start)
return NULL;
}
while (r->next_peer == NULL);
r = r->next_peer;
}
return r;
}
#define FOR_ALL_EH_REGION_AT(R, START) \
for ((R) = (START); (R) != NULL; (R) = ehr_next (R, START))
#define FOR_ALL_EH_REGION_FN(R, FN) \
for ((R) = (FN)->eh->region_tree; (R) != NULL; (R) = ehr_next (R, NULL))
#define FOR_ALL_EH_REGION(R) FOR_ALL_EH_REGION_FN (R, cfun)

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/* Macros for taking apart, interpreting and processing file names.
These are here because some non-Posix (a.k.a. DOSish) systems have
drive letter brain-damage at the beginning of an absolute file name,
use forward- and back-slash in path names interchangeably, and
some of them have case-insensitive file names.
Copyright 2000, 2001, 2007, 2010 Free Software Foundation, Inc.
This file is part of BFD, the Binary File Descriptor library.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
#ifndef FILENAMES_H
#define FILENAMES_H
#include "hashtab.h" /* for hashval_t */
#ifdef __cplusplus
extern "C" {
#endif
#if defined(__MSDOS__) || defined(_WIN32) || defined(__OS2__) || defined (__CYGWIN__)
# ifndef HAVE_DOS_BASED_FILE_SYSTEM
# define HAVE_DOS_BASED_FILE_SYSTEM 1
# endif
# ifndef HAVE_CASE_INSENSITIVE_FILE_SYSTEM
# define HAVE_CASE_INSENSITIVE_FILE_SYSTEM 1
# endif
# define HAS_DRIVE_SPEC(f) HAS_DOS_DRIVE_SPEC (f)
# define IS_DIR_SEPARATOR(c) IS_DOS_DIR_SEPARATOR (c)
# define IS_ABSOLUTE_PATH(f) IS_DOS_ABSOLUTE_PATH (f)
#else /* not DOSish */
# if defined(__APPLE__)
# ifndef HAVE_CASE_INSENSITIVE_FILE_SYSTEM
# define HAVE_CASE_INSENSITIVE_FILE_SYSTEM 1
# endif
# endif /* __APPLE__ */
# define HAS_DRIVE_SPEC(f) (0)
# define IS_DIR_SEPARATOR(c) IS_UNIX_DIR_SEPARATOR (c)
# define IS_ABSOLUTE_PATH(f) IS_UNIX_ABSOLUTE_PATH (f)
#endif
#define IS_DIR_SEPARATOR_1(dos_based, c) \
(((c) == '/') \
|| (((c) == '\\') && (dos_based)))
#define HAS_DRIVE_SPEC_1(dos_based, f) \
((f)[0] && ((f)[1] == ':') && (dos_based))
/* Remove the drive spec from F, assuming HAS_DRIVE_SPEC (f).
The result is a pointer to the remainder of F. */
#define STRIP_DRIVE_SPEC(f) ((f) + 2)
#define IS_DOS_DIR_SEPARATOR(c) IS_DIR_SEPARATOR_1 (1, c)
#define IS_DOS_ABSOLUTE_PATH(f) IS_ABSOLUTE_PATH_1 (1, f)
#define HAS_DOS_DRIVE_SPEC(f) HAS_DRIVE_SPEC_1 (1, f)
#define IS_UNIX_DIR_SEPARATOR(c) IS_DIR_SEPARATOR_1 (0, c)
#define IS_UNIX_ABSOLUTE_PATH(f) IS_ABSOLUTE_PATH_1 (0, f)
/* Note that when DOS_BASED is true, IS_ABSOLUTE_PATH accepts d:foo as
well, although it is only semi-absolute. This is because the users
of IS_ABSOLUTE_PATH want to know whether to prepend the current
working directory to a file name, which should not be done with a
name like d:foo. */
#define IS_ABSOLUTE_PATH_1(dos_based, f) \
(IS_DIR_SEPARATOR_1 (dos_based, (f)[0]) \
|| HAS_DRIVE_SPEC_1 (dos_based, f))
extern int filename_cmp (const char *s1, const char *s2);
#define FILENAME_CMP(s1, s2) filename_cmp(s1, s2)
extern int filename_ncmp (const char *s1, const char *s2,
size_t n);
extern hashval_t filename_hash (const void *s);
extern int filename_eq (const void *s1, const void *s2);
#ifdef __cplusplus
}
#endif
#endif /* FILENAMES_H */

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/* Fixed-point arithmetic support.
Copyright (C) 2006-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_FIXED_VALUE_H
#define GCC_FIXED_VALUE_H
#include "machmode.h"
#include "real.h"
#include "double-int.h"
struct GTY(()) fixed_value
{
double_int data; /* Store data up to 2 wide integers. */
enum machine_mode mode; /* Use machine mode to know IBIT and FBIT. */
};
#define FIXED_VALUE_TYPE struct fixed_value
#define MAX_FCONST0 18 /* For storing 18 fixed-point zeros per
fract, ufract, accum, and uaccum modes . */
#define MAX_FCONST1 8 /* For storing 8 fixed-point ones per accum
and uaccum modes. */
/* Constant fixed-point values 0 and 1. */
extern FIXED_VALUE_TYPE fconst0[MAX_FCONST0];
extern FIXED_VALUE_TYPE fconst1[MAX_FCONST1];
/* Macros to access fconst0 and fconst1 via machine modes. */
#define FCONST0(mode) fconst0[mode - QQmode]
#define FCONST1(mode) fconst1[mode - HAmode]
/* Return a CONST_FIXED with value R and mode M. */
#define CONST_FIXED_FROM_FIXED_VALUE(r, m) \
const_fixed_from_fixed_value (r, m)
extern rtx const_fixed_from_fixed_value (FIXED_VALUE_TYPE, enum machine_mode);
/* Construct a FIXED_VALUE from a bit payload and machine mode MODE.
The bits in PAYLOAD are sign-extended/zero-extended according to MODE. */
extern FIXED_VALUE_TYPE fixed_from_double_int (double_int,
enum machine_mode);
/* Return a CONST_FIXED from a bit payload and machine mode MODE.
The bits in PAYLOAD are sign-extended/zero-extended according to MODE. */
static inline rtx
const_fixed_from_double_int (double_int payload,
enum machine_mode mode)
{
return
const_fixed_from_fixed_value (fixed_from_double_int (payload, mode),
mode);
}
/* Initialize from a decimal or hexadecimal string. */
extern void fixed_from_string (FIXED_VALUE_TYPE *, const char *,
enum machine_mode);
/* In tree.c: wrap up a FIXED_VALUE_TYPE in a tree node. */
extern tree build_fixed (tree, FIXED_VALUE_TYPE);
/* Extend or truncate to a new mode. */
extern bool fixed_convert (FIXED_VALUE_TYPE *, enum machine_mode,
const FIXED_VALUE_TYPE *, bool);
/* Convert to a fixed-point mode from an integer. */
extern bool fixed_convert_from_int (FIXED_VALUE_TYPE *, enum machine_mode,
double_int, bool, bool);
/* Convert to a fixed-point mode from a real. */
extern bool fixed_convert_from_real (FIXED_VALUE_TYPE *, enum machine_mode,
const REAL_VALUE_TYPE *, bool);
/* Convert to a real mode from a fixed-point. */
extern void real_convert_from_fixed (REAL_VALUE_TYPE *, enum machine_mode,
const FIXED_VALUE_TYPE *);
/* Compare two fixed-point objects for bitwise identity. */
extern bool fixed_identical (const FIXED_VALUE_TYPE *, const FIXED_VALUE_TYPE *);
/* Calculate a hash value. */
extern unsigned int fixed_hash (const FIXED_VALUE_TYPE *);
#define FIXED_VALUES_IDENTICAL(x, y) fixed_identical (&(x), &(y))
/* Determine whether a fixed-point value X is negative. */
#define FIXED_VALUE_NEGATIVE(x) fixed_isneg (&(x))
/* Render F as a decimal floating point constant. */
extern void fixed_to_decimal (char *str, const FIXED_VALUE_TYPE *, size_t);
/* Binary or unary arithmetic on tree_code. */
extern bool fixed_arithmetic (FIXED_VALUE_TYPE *, int, const FIXED_VALUE_TYPE *,
const FIXED_VALUE_TYPE *, bool);
/* Compare fixed-point values by tree_code. */
extern bool fixed_compare (int, const FIXED_VALUE_TYPE *,
const FIXED_VALUE_TYPE *);
/* Determine whether a fixed-point value X is negative. */
extern bool fixed_isneg (const FIXED_VALUE_TYPE *);
#endif /* GCC_FIXED_VALUE_H */

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/* Compilation switch flag type definitions for GCC.
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_FLAG_TYPES_H
#define GCC_FLAG_TYPES_H
enum debug_info_type
{
NO_DEBUG, /* Write no debug info. */
DBX_DEBUG, /* Write BSD .stabs for DBX (using dbxout.c). */
SDB_DEBUG, /* Write COFF for (old) SDB (using sdbout.c). */
DWARF2_DEBUG, /* Write Dwarf v2 debug info (using dwarf2out.c). */
XCOFF_DEBUG, /* Write IBM/Xcoff debug info (using dbxout.c). */
VMS_DEBUG, /* Write VMS debug info (using vmsdbgout.c). */
VMS_AND_DWARF2_DEBUG /* Write VMS debug info (using vmsdbgout.c).
and DWARF v2 debug info (using dwarf2out.c). */
};
enum debug_info_levels
{
DINFO_LEVEL_NONE, /* Write no debugging info. */
DINFO_LEVEL_TERSE, /* Write minimal info to support tracebacks only. */
DINFO_LEVEL_NORMAL, /* Write info for all declarations (and line table). */
DINFO_LEVEL_VERBOSE /* Write normal info plus #define/#undef info. */
};
/* A major contribution to object and executable size is debug
information size. A major contribution to debug information
size is struct descriptions replicated in several object files.
The following function determines whether or not debug information
should be generated for a given struct. The indirect parameter
indicates that the struct is being handled indirectly, via
a pointer. See opts.c for the implementation. */
enum debug_info_usage
{
DINFO_USAGE_DFN, /* A struct definition. */
DINFO_USAGE_DIR_USE, /* A direct use, such as the type of a variable. */
DINFO_USAGE_IND_USE, /* An indirect use, such as through a pointer. */
DINFO_USAGE_NUM_ENUMS /* The number of enumerators. */
};
/* A major contribution to object and executable size is debug
information size. A major contribution to debug information size
is struct descriptions replicated in several object files. The
following flags attempt to reduce this information. The basic
idea is to not emit struct debugging information in the current
compilation unit when that information will be generated by
another compilation unit.
Debug information for a struct defined in the current source
file should be generated in the object file. Likewise the
debug information for a struct defined in a header should be
generated in the object file of the corresponding source file.
Both of these case are handled when the base name of the file of
the struct definition matches the base name of the source file
of the current compilation unit. This matching emits minimal
struct debugging information.
The base file name matching rule above will fail to emit debug
information for structs defined in system headers. So a second
category of files includes system headers in addition to files
with matching bases.
The remaining types of files are library headers and application
headers. We cannot currently distinguish these two types. */
enum debug_struct_file
{
DINFO_STRUCT_FILE_NONE, /* Debug no structs. */
DINFO_STRUCT_FILE_BASE, /* Debug structs defined in files with the
same base name as the compilation unit. */
DINFO_STRUCT_FILE_SYS, /* Also debug structs defined in system
header files. */
DINFO_STRUCT_FILE_ANY /* Debug structs defined in all files. */
};
/* Enumerate visibility settings. This is deliberately ordered from most
to least visibility. */
#ifndef SYMBOL_VISIBILITY_DEFINED
#define SYMBOL_VISIBILITY_DEFINED
enum symbol_visibility
{
VISIBILITY_DEFAULT,
VISIBILITY_PROTECTED,
VISIBILITY_HIDDEN,
VISIBILITY_INTERNAL
};
#endif
/* The stack reuse level. */
enum stack_reuse_level
{
SR_NONE,
SR_NAMED_VARS,
SR_ALL
};
/* The algorithm used for the integrated register allocator (IRA). */
enum ira_algorithm
{
IRA_ALGORITHM_CB,
IRA_ALGORITHM_PRIORITY
};
/* The regions used for the integrated register allocator (IRA). */
enum ira_region
{
IRA_REGION_ONE,
IRA_REGION_ALL,
IRA_REGION_MIXED,
/* This value means that there were no options -fira-region on the
command line and that we should choose a value depending on the
used -O option. */
IRA_REGION_AUTODETECT
};
/* The options for excess precision. */
enum excess_precision
{
EXCESS_PRECISION_DEFAULT,
EXCESS_PRECISION_FAST,
EXCESS_PRECISION_STANDARD
};
/* Type of stack check. */
enum stack_check_type
{
/* Do not check the stack. */
NO_STACK_CHECK = 0,
/* Check the stack generically, i.e. assume no specific support
from the target configuration files. */
GENERIC_STACK_CHECK,
/* Check the stack and rely on the target configuration files to
check the static frame of functions, i.e. use the generic
mechanism only for dynamic stack allocations. */
STATIC_BUILTIN_STACK_CHECK,
/* Check the stack and entirely rely on the target configuration
files, i.e. do not use the generic mechanism at all. */
FULL_BUILTIN_STACK_CHECK
};
/* Names for the different levels of -Wstrict-overflow=N. The numeric
values here correspond to N. */
enum warn_strict_overflow_code
{
/* Overflow warning that should be issued with -Wall: a questionable
construct that is easy to avoid even when using macros. Example:
folding (x + CONSTANT > x) to 1. */
WARN_STRICT_OVERFLOW_ALL = 1,
/* Overflow warning about folding a comparison to a constant because
of undefined signed overflow, other than cases covered by
WARN_STRICT_OVERFLOW_ALL. Example: folding (abs (x) >= 0) to 1
(this is false when x == INT_MIN). */
WARN_STRICT_OVERFLOW_CONDITIONAL = 2,
/* Overflow warning about changes to comparisons other than folding
them to a constant. Example: folding (x + 1 > 1) to (x > 0). */
WARN_STRICT_OVERFLOW_COMPARISON = 3,
/* Overflow warnings not covered by the above cases. Example:
folding ((x * 10) / 5) to (x * 2). */
WARN_STRICT_OVERFLOW_MISC = 4,
/* Overflow warnings about reducing magnitude of constants in
comparison. Example: folding (x + 2 > y) to (x + 1 >= y). */
WARN_STRICT_OVERFLOW_MAGNITUDE = 5
};
/* Floating-point contraction mode. */
enum fp_contract_mode {
FP_CONTRACT_OFF = 0,
FP_CONTRACT_ON = 1,
FP_CONTRACT_FAST = 2
};
#endif /* ! GCC_FLAG_TYPES_H */

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/* Compilation switch flag definitions for GCC.
Copyright (C) 1987-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_FLAGS_H
#define GCC_FLAGS_H
#include "flag-types.h"
#include "options.h"
#if !defined(IN_LIBGCC2) && !defined(IN_TARGET_LIBS) && !defined(IN_RTS)
/* Names of debug_info_type, for error messages. */
extern const char *const debug_type_names[];
extern void strip_off_ending (char *, int);
extern int base_of_path (const char *path, const char **base_out);
/* Return true iff flags are set as if -ffast-math. */
extern bool fast_math_flags_set_p (const struct gcc_options *);
extern bool fast_math_flags_struct_set_p (struct cl_optimization *);
/* Now the symbols that are set with `-f' switches. */
/* True if printing into -fdump-final-insns= dump. */
extern bool final_insns_dump_p;
/* Other basic status info about current function. */
/* Target-dependent global state. */
struct target_flag_state {
/* Values of the -falign-* flags: how much to align labels in code.
0 means `use default', 1 means `don't align'.
For each variable, there is an _log variant which is the power
of two not less than the variable, for .align output. */
int x_align_loops_log;
int x_align_loops_max_skip;
int x_align_jumps_log;
int x_align_jumps_max_skip;
int x_align_labels_log;
int x_align_labels_max_skip;
int x_align_functions_log;
/* The excess precision currently in effect. */
enum excess_precision x_flag_excess_precision;
};
extern struct target_flag_state default_target_flag_state;
#if SWITCHABLE_TARGET
extern struct target_flag_state *this_target_flag_state;
#else
#define this_target_flag_state (&default_target_flag_state)
#endif
#define align_loops_log \
(this_target_flag_state->x_align_loops_log)
#define align_loops_max_skip \
(this_target_flag_state->x_align_loops_max_skip)
#define align_jumps_log \
(this_target_flag_state->x_align_jumps_log)
#define align_jumps_max_skip \
(this_target_flag_state->x_align_jumps_max_skip)
#define align_labels_log \
(this_target_flag_state->x_align_labels_log)
#define align_labels_max_skip \
(this_target_flag_state->x_align_labels_max_skip)
#define align_functions_log \
(this_target_flag_state->x_align_functions_log)
#define flag_excess_precision \
(this_target_flag_state->x_flag_excess_precision)
/* Returns TRUE if generated code should match ABI version N or
greater is in use. */
#define abi_version_at_least(N) \
(flag_abi_version == 0 || flag_abi_version >= (N))
/* Whether to emit an overflow warning whose code is C. */
#define issue_strict_overflow_warning(c) (warn_strict_overflow >= (int) (c))
#endif
#endif /* ! GCC_FLAGS_H */

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/* Structure for saving state for a nested function.
Copyright (C) 1989-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_FUNCTION_H
#define GCC_FUNCTION_H
#include "hashtab.h"
#include "vec.h"
#include "machmode.h"
#include "tm.h" /* For CUMULATIVE_ARGS. */
#include "hard-reg-set.h" /* For HARD_REG_SET in struct rtl_data. */
#include "input.h" /* For location_t. */
/* Stack of pending (incomplete) sequences saved by `start_sequence'.
Each element describes one pending sequence.
The main insn-chain is saved in the last element of the chain,
unless the chain is empty. */
struct GTY(()) sequence_stack {
/* First and last insns in the chain of the saved sequence. */
rtx first;
rtx last;
struct sequence_stack *next;
};
struct GTY(()) emit_status {
/* This is reset to LAST_VIRTUAL_REGISTER + 1 at the start of each function.
After rtl generation, it is 1 plus the largest register number used. */
int x_reg_rtx_no;
/* Lowest label number in current function. */
int x_first_label_num;
/* The ends of the doubly-linked chain of rtl for the current function.
Both are reset to null at the start of rtl generation for the function.
start_sequence saves both of these on `sequence_stack' and then starts
a new, nested sequence of insns. */
rtx x_first_insn;
rtx x_last_insn;
/* Stack of pending (incomplete) sequences saved by `start_sequence'.
Each element describes one pending sequence.
The main insn-chain is saved in the last element of the chain,
unless the chain is empty. */
struct sequence_stack *sequence_stack;
/* INSN_UID for next insn emitted.
Reset to 1 for each function compiled. */
int x_cur_insn_uid;
/* INSN_UID for next debug insn emitted. Only used if
--param min-nondebug-insn-uid=<value> is given with nonzero value. */
int x_cur_debug_insn_uid;
/* The length of the regno_pointer_align, regno_decl, and x_regno_reg_rtx
vectors. Since these vectors are needed during the expansion phase when
the total number of registers in the function is not yet known, the
vectors are copied and made bigger when necessary. */
int regno_pointer_align_length;
/* Indexed by pseudo register number, if nonzero gives the known alignment
for that pseudo (if REG_POINTER is set in x_regno_reg_rtx).
Allocated in parallel with x_regno_reg_rtx. */
unsigned char * GTY((skip)) regno_pointer_align;
};
/* Indexed by register number, gives an rtx for that register (and only
that register). For pseudo registers, it is the unique rtx for
that pseudo. For hard registers, it is an rtx of the mode specified
by reg_raw_mode.
FIXME: We could put it into emit_status struct, but gengtype is not
able to deal with length attribute nested in top level structures. */
extern GTY ((length ("crtl->emit.x_reg_rtx_no"))) rtx * regno_reg_rtx;
/* For backward compatibility... eventually these should all go away. */
#define reg_rtx_no (crtl->emit.x_reg_rtx_no)
#define seq_stack (crtl->emit.sequence_stack)
#define REGNO_POINTER_ALIGN(REGNO) (crtl->emit.regno_pointer_align[REGNO])
struct GTY(()) expr_status {
/* Number of units that we should eventually pop off the stack.
These are the arguments to function calls that have already returned. */
int x_pending_stack_adjust;
/* Under some ABIs, it is the caller's responsibility to pop arguments
pushed for function calls. A naive implementation would simply pop
the arguments immediately after each call. However, if several
function calls are made in a row, it is typically cheaper to pop
all the arguments after all of the calls are complete since a
single pop instruction can be used. Therefore, GCC attempts to
defer popping the arguments until absolutely necessary. (For
example, at the end of a conditional, the arguments must be popped,
since code outside the conditional won't know whether or not the
arguments need to be popped.)
When INHIBIT_DEFER_POP is nonzero, however, the compiler does not
attempt to defer pops. Instead, the stack is popped immediately
after each call. Rather then setting this variable directly, use
NO_DEFER_POP and OK_DEFER_POP. */
int x_inhibit_defer_pop;
/* If PREFERRED_STACK_BOUNDARY and PUSH_ROUNDING are defined, the stack
boundary can be momentarily unaligned while pushing the arguments.
Record the delta since last aligned boundary here in order to get
stack alignment in the nested function calls working right. */
int x_stack_pointer_delta;
/* Nonzero means __builtin_saveregs has already been done in this function.
The value is the pseudoreg containing the value __builtin_saveregs
returned. */
rtx x_saveregs_value;
/* Similarly for __builtin_apply_args. */
rtx x_apply_args_value;
/* List of labels that must never be deleted. */
rtx x_forced_labels;
};
typedef struct call_site_record_d *call_site_record;
/* RTL representation of exception handling. */
struct GTY(()) rtl_eh {
rtx ehr_stackadj;
rtx ehr_handler;
rtx ehr_label;
rtx sjlj_fc;
rtx sjlj_exit_after;
vec<uchar, va_gc> *action_record_data;
vec<call_site_record, va_gc> *call_site_record_v[2];
};
#define pending_stack_adjust (crtl->expr.x_pending_stack_adjust)
#define inhibit_defer_pop (crtl->expr.x_inhibit_defer_pop)
#define saveregs_value (crtl->expr.x_saveregs_value)
#define apply_args_value (crtl->expr.x_apply_args_value)
#define forced_labels (crtl->expr.x_forced_labels)
#define stack_pointer_delta (crtl->expr.x_stack_pointer_delta)
struct gimple_df;
struct temp_slot;
typedef struct temp_slot *temp_slot_p;
struct call_site_record_d;
struct dw_fde_struct;
struct ipa_opt_pass_d;
typedef struct ipa_opt_pass_d *ipa_opt_pass;
struct GTY(()) varasm_status {
/* If we're using a per-function constant pool, this is it. */
struct rtx_constant_pool *pool;
/* Number of tree-constants deferred during the expansion of this
function. */
unsigned int deferred_constants;
};
/* Information mainlined about RTL representation of incoming arguments. */
struct GTY(()) incoming_args {
/* Number of bytes of args popped by function being compiled on its return.
Zero if no bytes are to be popped.
May affect compilation of return insn or of function epilogue. */
int pops_args;
/* If function's args have a fixed size, this is that size, in bytes.
Otherwise, it is -1.
May affect compilation of return insn or of function epilogue. */
int size;
/* # bytes the prologue should push and pretend that the caller pushed them.
The prologue must do this, but only if parms can be passed in
registers. */
int pretend_args_size;
/* This is the offset from the arg pointer to the place where the first
anonymous arg can be found, if there is one. */
rtx arg_offset_rtx;
/* Quantities of various kinds of registers
used for the current function's args. */
CUMULATIVE_ARGS info;
/* The arg pointer hard register, or the pseudo into which it was copied. */
rtx internal_arg_pointer;
};
/* Data for function partitioning. */
struct GTY(()) function_subsections {
/* Assembly labels for the hot and cold text sections, to
be used by debugger functions for determining the size of text
sections. */
const char *hot_section_label;
const char *cold_section_label;
const char *hot_section_end_label;
const char *cold_section_end_label;
};
/* Describe an empty area of space in the stack frame. These can be chained
into a list; this is used to keep track of space wasted for alignment
reasons. */
struct GTY(()) frame_space
{
struct frame_space *next;
HOST_WIDE_INT start;
HOST_WIDE_INT length;
};
/* Datastructures maintained for currently processed function in RTL form. */
struct GTY(()) rtl_data {
struct expr_status expr;
struct emit_status emit;
struct varasm_status varasm;
struct incoming_args args;
struct function_subsections subsections;
struct rtl_eh eh;
/* For function.c */
/* # of bytes of outgoing arguments. If ACCUMULATE_OUTGOING_ARGS is
defined, the needed space is pushed by the prologue. */
int outgoing_args_size;
/* If nonzero, an RTL expression for the location at which the current
function returns its result. If the current function returns its
result in a register, current_function_return_rtx will always be
the hard register containing the result. */
rtx return_rtx;
/* Vector of initial-value pairs. Each pair consists of a pseudo
register of approprite mode that stores the initial value a hard
register REGNO, and that hard register itself. */
/* ??? This could be a VEC but there is currently no way to define an
opaque VEC type. */
struct initial_value_struct *hard_reg_initial_vals;
/* A variable living at the top of the frame that holds a known value.
Used for detecting stack clobbers. */
tree stack_protect_guard;
/* List (chain of EXPR_LIST) of labels heading the current handlers for
nonlocal gotos. */
rtx x_nonlocal_goto_handler_labels;
/* Label that will go on function epilogue.
Jumping to this label serves as a "return" instruction
on machines which require execution of the epilogue on all returns. */
rtx x_return_label;
/* Label that will go on the end of function epilogue.
Jumping to this label serves as a "naked return" instruction
on machines which require execution of the epilogue on all returns. */
rtx x_naked_return_label;
/* List (chain of EXPR_LISTs) of all stack slots in this function.
Made for the sake of unshare_all_rtl. */
rtx x_stack_slot_list;
/* List of empty areas in the stack frame. */
struct frame_space *frame_space_list;
/* Place after which to insert the tail_recursion_label if we need one. */
rtx x_stack_check_probe_note;
/* Location at which to save the argument pointer if it will need to be
referenced. There are two cases where this is done: if nonlocal gotos
exist, or if vars stored at an offset from the argument pointer will be
needed by inner routines. */
rtx x_arg_pointer_save_area;
/* Dynamic Realign Argument Pointer used for realigning stack. */
rtx drap_reg;
/* Offset to end of allocated area of stack frame.
If stack grows down, this is the address of the last stack slot allocated.
If stack grows up, this is the address for the next slot. */
HOST_WIDE_INT x_frame_offset;
/* Insn after which register parms and SAVE_EXPRs are born, if nonopt. */
rtx x_parm_birth_insn;
/* List of all used temporaries allocated, by level. */
vec<temp_slot_p, va_gc> *x_used_temp_slots;
/* List of available temp slots. */
struct temp_slot *x_avail_temp_slots;
/* Current nesting level for temporaries. */
int x_temp_slot_level;
/* The largest alignment needed on the stack, including requirement
for outgoing stack alignment. */
unsigned int stack_alignment_needed;
/* Preferred alignment of the end of stack frame, which is preferred
to call other functions. */
unsigned int preferred_stack_boundary;
/* The minimum alignment of parameter stack. */
unsigned int parm_stack_boundary;
/* The largest alignment of slot allocated on the stack. */
unsigned int max_used_stack_slot_alignment;
/* The stack alignment estimated before reload, with consideration of
following factors:
1. Alignment of local stack variables (max_used_stack_slot_alignment)
2. Alignment requirement to call other functions
(preferred_stack_boundary)
3. Alignment of non-local stack variables but might be spilled in
local stack. */
unsigned int stack_alignment_estimated;
/* For reorg. */
/* Nonzero if function being compiled called builtin_return_addr or
builtin_frame_address with nonzero count. */
bool accesses_prior_frames;
/* Nonzero if the function calls __builtin_eh_return. */
bool calls_eh_return;
/* Nonzero if function saves all registers, e.g. if it has a nonlocal
label that can reach the exit block via non-exceptional paths. */
bool saves_all_registers;
/* Nonzero if function being compiled has nonlocal gotos to parent
function. */
bool has_nonlocal_goto;
/* Nonzero if function being compiled has an asm statement. */
bool has_asm_statement;
/* This bit is used by the exception handling logic. It is set if all
calls (if any) are sibling calls. Such functions do not have to
have EH tables generated, as they cannot throw. A call to such a
function, however, should be treated as throwing if any of its callees
can throw. */
bool all_throwers_are_sibcalls;
/* Nonzero if stack limit checking should be enabled in the current
function. */
bool limit_stack;
/* Nonzero if profiling code should be generated. */
bool profile;
/* Nonzero if the current function uses the constant pool. */
bool uses_const_pool;
/* Nonzero if the current function uses pic_offset_table_rtx. */
bool uses_pic_offset_table;
/* Nonzero if the current function needs an lsda for exception handling. */
bool uses_eh_lsda;
/* Set when the tail call has been produced. */
bool tail_call_emit;
/* Nonzero if code to initialize arg_pointer_save_area has been emitted. */
bool arg_pointer_save_area_init;
/* Nonzero if current function must be given a frame pointer.
Set in reload1.c or lra-eliminations.c if anything is allocated
on the stack there. */
bool frame_pointer_needed;
/* When set, expand should optimize for speed. */
bool maybe_hot_insn_p;
/* Nonzero if function stack realignment is needed. This flag may be
set twice: before and after reload. It is set before reload wrt
stack alignment estimation before reload. It will be changed after
reload if by then criteria of stack realignment is different.
The value set after reload is the accurate one and is finalized. */
bool stack_realign_needed;
/* Nonzero if function stack realignment is tried. This flag is set
only once before reload. It affects register elimination. This
is used to generate DWARF debug info for stack variables. */
bool stack_realign_tried;
/* Nonzero if function being compiled needs dynamic realigned
argument pointer (drap) if stack needs realigning. */
bool need_drap;
/* Nonzero if function stack realignment estimation is done, namely
stack_realign_needed flag has been set before reload wrt estimated
stack alignment info. */
bool stack_realign_processed;
/* Nonzero if function stack realignment has been finalized, namely
stack_realign_needed flag has been set and finalized after reload. */
bool stack_realign_finalized;
/* True if dbr_schedule has already been called for this function. */
bool dbr_scheduled_p;
/* True if current function can not throw. Unlike
TREE_NOTHROW (current_function_decl) it is set even for overwritable
function where currently compiled version of it is nothrow. */
bool nothrow;
/* True if we performed shrink-wrapping for the current function. */
bool shrink_wrapped;
/* Nonzero if function being compiled doesn't modify the stack pointer
(ignoring the prologue and epilogue). This is only valid after
pass_stack_ptr_mod has run. */
bool sp_is_unchanging;
/* Nonzero if function being compiled doesn't contain any calls
(ignoring the prologue and epilogue). This is set prior to
local register allocation and is valid for the remaining
compiler passes. */
bool is_leaf;
/* Nonzero if the function being compiled is a leaf function which only
uses leaf registers. This is valid after reload (specifically after
sched2) and is useful only if the port defines LEAF_REGISTERS. */
bool uses_only_leaf_regs;
/* Like regs_ever_live, but 1 if a reg is set or clobbered from an
asm. Unlike regs_ever_live, elements of this array corresponding
to eliminable regs (like the frame pointer) are set if an asm
sets them. */
HARD_REG_SET asm_clobbers;
};
#define return_label (crtl->x_return_label)
#define naked_return_label (crtl->x_naked_return_label)
#define stack_slot_list (crtl->x_stack_slot_list)
#define parm_birth_insn (crtl->x_parm_birth_insn)
#define frame_offset (crtl->x_frame_offset)
#define stack_check_probe_note (crtl->x_stack_check_probe_note)
#define arg_pointer_save_area (crtl->x_arg_pointer_save_area)
#define used_temp_slots (crtl->x_used_temp_slots)
#define avail_temp_slots (crtl->x_avail_temp_slots)
#define temp_slot_level (crtl->x_temp_slot_level)
#define nonlocal_goto_handler_labels (crtl->x_nonlocal_goto_handler_labels)
#define frame_pointer_needed (crtl->frame_pointer_needed)
#define stack_realign_fp (crtl->stack_realign_needed && !crtl->need_drap)
#define stack_realign_drap (crtl->stack_realign_needed && crtl->need_drap)
extern GTY(()) struct rtl_data x_rtl;
/* Accessor to RTL datastructures. We keep them statically allocated now since
we never keep multiple functions. For threaded compiler we might however
want to do differently. */
#define crtl (&x_rtl)
struct GTY(()) stack_usage
{
/* # of bytes of static stack space allocated by the function. */
HOST_WIDE_INT static_stack_size;
/* # of bytes of dynamic stack space allocated by the function. This is
meaningful only if has_unbounded_dynamic_stack_size is zero. */
HOST_WIDE_INT dynamic_stack_size;
/* # of bytes of space pushed onto the stack after the prologue. If
!ACCUMULATE_OUTGOING_ARGS, it contains the outgoing arguments. */
int pushed_stack_size;
/* Nonzero if the amount of stack space allocated dynamically cannot
be bounded at compile-time. */
unsigned int has_unbounded_dynamic_stack_size : 1;
};
#define current_function_static_stack_size (cfun->su->static_stack_size)
#define current_function_dynamic_stack_size (cfun->su->dynamic_stack_size)
#define current_function_pushed_stack_size (cfun->su->pushed_stack_size)
#define current_function_has_unbounded_dynamic_stack_size \
(cfun->su->has_unbounded_dynamic_stack_size)
#define current_function_allocates_dynamic_stack_space \
(current_function_dynamic_stack_size != 0 \
|| current_function_has_unbounded_dynamic_stack_size)
/* This structure can save all the important global and static variables
describing the status of the current function. */
struct GTY(()) function {
struct eh_status *eh;
/* The control flow graph for this function. */
struct control_flow_graph *cfg;
/* GIMPLE body for this function. */
gimple_seq gimple_body;
/* SSA and dataflow information. */
struct gimple_df *gimple_df;
/* The loops in this function. */
struct loops *x_current_loops;
/* The stack usage of this function. */
struct stack_usage *su;
/* Value histograms attached to particular statements. */
htab_t GTY((skip)) value_histograms;
/* For function.c. */
/* Points to the FUNCTION_DECL of this function. */
tree decl;
/* A PARM_DECL that should contain the static chain for this function.
It will be initialized at the beginning of the function. */
tree static_chain_decl;
/* An expression that contains the non-local goto save area. The first
word is the saved frame pointer and the second is the saved stack
pointer. */
tree nonlocal_goto_save_area;
/* Vector of function local variables, functions, types and constants. */
vec<tree, va_gc> *local_decls;
/* For md files. */
/* tm.h can use this to store whatever it likes. */
struct machine_function * GTY ((maybe_undef)) machine;
/* Language-specific code can use this to store whatever it likes. */
struct language_function * language;
/* Used types hash table. */
htab_t GTY ((param_is (union tree_node))) used_types_hash;
/* Dwarf2 Frame Description Entry, containing the Call Frame Instructions
used for unwinding. Only set when either dwarf2 unwinding or dwarf2
debugging is enabled. */
struct dw_fde_struct *fde;
/* Last statement uid. */
int last_stmt_uid;
/* Function sequence number for profiling, debugging, etc. */
int funcdef_no;
/* Line number of the start of the function for debugging purposes. */
location_t function_start_locus;
/* Line number of the end of the function. */
location_t function_end_locus;
/* Properties used by the pass manager. */
unsigned int curr_properties;
unsigned int last_verified;
/* Non-null if the function does something that would prevent it from
being copied; this applies to both versioning and inlining. Set to
a string describing the reason for failure. */
const char * GTY((skip)) cannot_be_copied_reason;
/* Collected bit flags. */
/* Number of units of general registers that need saving in stdarg
function. What unit is depends on the backend, either it is number
of bytes, or it can be number of registers. */
unsigned int va_list_gpr_size : 8;
/* Number of units of floating point registers that need saving in stdarg
function. */
unsigned int va_list_fpr_size : 8;
/* Nonzero if function being compiled can call setjmp. */
unsigned int calls_setjmp : 1;
/* Nonzero if function being compiled can call alloca,
either as a subroutine or builtin. */
unsigned int calls_alloca : 1;
/* Nonzero if function being compiled receives nonlocal gotos
from nested functions. */
unsigned int has_nonlocal_label : 1;
/* Nonzero if we've set cannot_be_copied_reason. I.e. if
(cannot_be_copied_set && !cannot_be_copied_reason), the function
can in fact be copied. */
unsigned int cannot_be_copied_set : 1;
/* Nonzero if current function uses stdarg.h or equivalent. */
unsigned int stdarg : 1;
unsigned int after_inlining : 1;
unsigned int always_inline_functions_inlined : 1;
/* Nonzero if function being compiled can throw synchronous non-call
exceptions. */
unsigned int can_throw_non_call_exceptions : 1;
/* Nonzero if instructions that may throw exceptions but don't otherwise
contribute to the execution of the program can be deleted. */
unsigned int can_delete_dead_exceptions : 1;
/* Fields below this point are not set for abstract functions; see
allocate_struct_function. */
/* Nonzero if function being compiled needs to be given an address
where the value should be stored. */
unsigned int returns_struct : 1;
/* Nonzero if function being compiled needs to
return the address of where it has put a structure value. */
unsigned int returns_pcc_struct : 1;
/* Nonzero if this function has local DECL_HARD_REGISTER variables.
In this case code motion has to be done more carefully. */
unsigned int has_local_explicit_reg_vars : 1;
/* Nonzero if the current function is a thunk, i.e., a lightweight
function implemented by the output_mi_thunk hook) that just
adjusts one of its arguments and forwards to another
function. */
unsigned int is_thunk : 1;
};
/* Add the decl D to the local_decls list of FUN. */
static inline void
add_local_decl (struct function *fun, tree d)
{
vec_safe_push (fun->local_decls, d);
}
#define FOR_EACH_LOCAL_DECL(FUN, I, D) \
FOR_EACH_VEC_SAFE_ELT_REVERSE ((FUN)->local_decls, I, D)
/* If va_list_[gf]pr_size is set to this, it means we don't know how
many units need to be saved. */
#define VA_LIST_MAX_GPR_SIZE 255
#define VA_LIST_MAX_FPR_SIZE 255
/* The function currently being compiled. */
extern GTY(()) struct function *cfun;
/* In order to ensure that cfun is not set directly, we redefine it so
that it is not an lvalue. Rather than assign to cfun, use
push_cfun or set_cfun. */
#define cfun (cfun + 0)
/* Nonzero if we've already converted virtual regs to hard regs. */
extern int virtuals_instantiated;
/* Nonzero if at least one trampoline has been created. */
extern int trampolines_created;
struct GTY(()) types_used_by_vars_entry {
tree type;
tree var_decl;
};
/* Hash table making the relationship between a global variable
and the types it references in its initializer. The key of the
entry is a referenced type, and the value is the DECL of the global
variable. types_use_by_vars_do_hash and types_used_by_vars_eq below are
the hash and equality functions to use for this hash table. */
extern GTY((param_is (struct types_used_by_vars_entry))) htab_t
types_used_by_vars_hash;
hashval_t types_used_by_vars_do_hash (const void*);
int types_used_by_vars_eq (const void *, const void *);
void types_used_by_var_decl_insert (tree type, tree var_decl);
/* During parsing of a global variable, this vector contains the types
referenced by the global variable. */
extern GTY(()) vec<tree, va_gc> *types_used_by_cur_var_decl;
/* cfun shouldn't be set directly; use one of these functions instead. */
extern void set_cfun (struct function *new_cfun);
extern void push_cfun (struct function *new_cfun);
extern void pop_cfun (void);
extern void instantiate_decl_rtl (rtx x);
/* For backward compatibility... eventually these should all go away. */
#define current_function_funcdef_no (cfun->funcdef_no)
#define current_loops (cfun->x_current_loops)
#define dom_computed (cfun->cfg->x_dom_computed)
#define n_bbs_in_dom_tree (cfun->cfg->x_n_bbs_in_dom_tree)
#define VALUE_HISTOGRAMS(fun) (fun)->value_histograms
/* Identify BLOCKs referenced by more than one NOTE_INSN_BLOCK_{BEG,END},
and create duplicate blocks. */
extern void reorder_blocks (void);
/* Set BLOCK_NUMBER for all the blocks in FN. */
extern void number_blocks (tree);
extern void clear_block_marks (tree);
extern tree blocks_nreverse (tree);
extern tree block_chainon (tree, tree);
/* Return size needed for stack frame based on slots so far allocated.
This size counts from zero. It is not rounded to STACK_BOUNDARY;
the caller may have to do that. */
extern HOST_WIDE_INT get_frame_size (void);
/* Issue an error message and return TRUE if frame OFFSET overflows in
the signed target pointer arithmetics for function FUNC. Otherwise
return FALSE. */
extern bool frame_offset_overflow (HOST_WIDE_INT, tree);
/* A pointer to a function to create target specific, per-function
data structures. */
extern struct machine_function * (*init_machine_status) (void);
/* Save and restore status information for a nested function. */
extern void free_after_parsing (struct function *);
extern void free_after_compilation (struct function *);
extern void init_varasm_status (void);
#ifdef RTX_CODE
extern void diddle_return_value (void (*)(rtx, void*), void*);
extern void clobber_return_register (void);
#endif
extern rtx get_arg_pointer_save_area (void);
/* Returns the name of the current function. */
extern const char *fndecl_name (tree);
extern const char *function_name (struct function *);
extern const char *current_function_name (void);
extern void do_warn_unused_parameter (tree);
extern bool pass_by_reference (CUMULATIVE_ARGS *, enum machine_mode,
tree, bool);
extern bool reference_callee_copied (CUMULATIVE_ARGS *, enum machine_mode,
tree, bool);
extern void used_types_insert (tree);
extern int get_next_funcdef_no (void);
extern int get_last_funcdef_no (void);
#ifdef HAVE_simple_return
extern bool requires_stack_frame_p (rtx, HARD_REG_SET, HARD_REG_SET);
#endif
extern rtx get_hard_reg_initial_val (enum machine_mode, unsigned int);
extern rtx has_hard_reg_initial_val (enum machine_mode, unsigned int);
extern rtx get_hard_reg_initial_reg (rtx);
extern bool initial_value_entry (int i, rtx *, rtx *);
/* Called from gimple_expand_cfg. */
extern unsigned int emit_initial_value_sets (void);
/* In predict.c */
extern bool optimize_function_for_size_p (struct function *);
extern bool optimize_function_for_speed_p (struct function *);
#endif /* GCC_FUNCTION_H */

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@ -0,0 +1,166 @@
/* Public header file for plugins to include.
Copyright (C) 2009-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_PLUGIN_H
#define GCC_PLUGIN_H
#ifndef IN_GCC
#define IN_GCC
#endif
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "highlev-plugin-common.h"
#include "hashtab.h"
/* Event names. */
enum plugin_event
{
# define DEFEVENT(NAME) NAME,
# include "plugin.def"
# undef DEFEVENT
PLUGIN_EVENT_FIRST_DYNAMIC
};
/* All globals declared here have C linkage to reduce link compatibility
issues with implementation language choice and mangling. */
#ifdef __cplusplus
extern "C" {
#endif
extern const char **plugin_event_name;
struct plugin_argument
{
char *key; /* key of the argument. */
char *value; /* value is optional and can be NULL. */
};
/* Additional information about the plugin. Used by --help and --version. */
struct plugin_info
{
const char *version;
const char *help;
};
/* Represents the gcc version. Used to avoid using an incompatible plugin. */
struct plugin_gcc_version
{
const char *basever;
const char *datestamp;
const char *devphase;
const char *revision;
const char *configuration_arguments;
};
/* Object that keeps track of the plugin name and its arguments. */
struct plugin_name_args
{
char *base_name; /* Short name of the plugin (filename without
.so suffix). */
const char *full_name; /* Path to the plugin as specified with
-fplugin=. */
int argc; /* Number of arguments specified with
-fplugin-arg-... */
struct plugin_argument *argv; /* Array of ARGC key-value pairs. */
const char *version; /* Version string provided by plugin. */
const char *help; /* Help string provided by plugin. */
};
/* The default version check. Compares every field in VERSION. */
extern bool plugin_default_version_check (struct plugin_gcc_version *,
struct plugin_gcc_version *);
/* Function type for the plugin initialization routine. Each plugin module
should define this as an externally-visible function with name
"plugin_init."
PLUGIN_INFO - plugin invocation information.
VERSION - the plugin_gcc_version symbol of GCC.
Returns 0 if initialization finishes successfully. */
typedef int (*plugin_init_func) (struct plugin_name_args *plugin_info,
struct plugin_gcc_version *version);
/* Declaration for "plugin_init" function so that it doesn't need to be
duplicated in every plugin. */
extern int plugin_init (struct plugin_name_args *plugin_info,
struct plugin_gcc_version *version);
/* Function type for a plugin callback routine.
GCC_DATA - event-specific data provided by GCC
USER_DATA - plugin-specific data provided by the plugin */
typedef void (*plugin_callback_func) (void *gcc_data, void *user_data);
/* Called from the plugin's initialization code. Register a single callback.
This function can be called multiple times.
PLUGIN_NAME - display name for this plugin
EVENT - which event the callback is for
CALLBACK - the callback to be called at the event
USER_DATA - plugin-provided data.
*/
/* Number of event ids / names registered so far. */
extern int get_event_last (void);
int get_named_event_id (const char *name, enum insert_option insert);
/* This is also called without a callback routine for the
PLUGIN_PASS_MANAGER_SETUP, PLUGIN_INFO, PLUGIN_REGISTER_GGC_ROOTS and
PLUGIN_REGISTER_GGC_CACHES pseudo-events, with a specific user_data.
*/
extern void register_callback (const char *plugin_name,
int event,
plugin_callback_func callback,
void *user_data);
extern int unregister_callback (const char *plugin_name, int event);
/* Retrieve the plugin directory name, as returned by the
-fprint-file-name=plugin argument to the gcc program, which is the
-iplugindir program argument to cc1. */
extern const char* default_plugin_dir_name (void);
#ifdef __cplusplus
}
#endif
/* In case the C++ compiler does name mangling for globals, declare
plugin_is_GPL_compatible extern "C" so that a later definition
in a plugin file will have this linkage. */
#ifdef __cplusplus
extern "C" {
#endif
extern int plugin_is_GPL_compatible;
#ifdef __cplusplus
}
#endif
#endif /* GCC_PLUGIN_H */

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@ -0,0 +1,279 @@
/* Garbage collection for the GNU compiler.
Copyright (C) 1998-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_GGC_H
#define GCC_GGC_H
#include "statistics.h"
/* Symbols are marked with `ggc' for `gcc gc' so as not to interfere with
an external gc library that might be linked in. */
/* Constants for general use. */
extern const char empty_string[]; /* empty string */
/* Internal functions and data structures used by the GTY
machinery, including the generated gt*.[hc] files. */
#include "gtype-desc.h"
/* One of these applies its third parameter (with cookie in the fourth
parameter) to each pointer in the object pointed to by the first
parameter, using the second parameter. */
typedef void (*gt_note_pointers) (void *, void *, gt_pointer_operator,
void *);
/* One of these is called before objects are re-ordered in memory.
The first parameter is the original object, the second is the
subobject that has had its pointers reordered, the third parameter
can compute the new values of a pointer when given the cookie in
the fourth parameter. */
typedef void (*gt_handle_reorder) (void *, void *, gt_pointer_operator,
void *);
/* Used by the gt_pch_n_* routines. Register an object in the hash table. */
extern int gt_pch_note_object (void *, void *, gt_note_pointers);
/* Used by the gt_pch_n_* routines. Register that an object has a reorder
function. */
extern void gt_pch_note_reorder (void *, void *, gt_handle_reorder);
/* Mark the object in the first parameter and anything it points to. */
typedef void (*gt_pointer_walker) (void *);
/* Structures for the easy way to mark roots.
In an array, terminated by having base == NULL. */
struct ggc_root_tab {
void *base;
size_t nelt;
size_t stride;
gt_pointer_walker cb;
gt_pointer_walker pchw;
};
#define LAST_GGC_ROOT_TAB { NULL, 0, 0, NULL, NULL }
/* Pointers to arrays of ggc_root_tab, terminated by NULL. */
extern const struct ggc_root_tab * const gt_ggc_rtab[];
extern const struct ggc_root_tab * const gt_ggc_deletable_rtab[];
extern const struct ggc_root_tab * const gt_pch_cache_rtab[];
extern const struct ggc_root_tab * const gt_pch_scalar_rtab[];
/* Structure for hash table cache marking. */
struct htab;
struct ggc_cache_tab {
struct htab * *base;
size_t nelt;
size_t stride;
gt_pointer_walker cb;
gt_pointer_walker pchw;
int (*marked_p) (const void *);
};
#define LAST_GGC_CACHE_TAB { NULL, 0, 0, NULL, NULL, NULL }
/* Pointers to arrays of ggc_cache_tab, terminated by NULL. */
extern const struct ggc_cache_tab * const gt_ggc_cache_rtab[];
/* If EXPR is not NULL and previously unmarked, mark it and evaluate
to true. Otherwise evaluate to false. */
#define ggc_test_and_set_mark(EXPR) \
((EXPR) != NULL && ((void *) (EXPR)) != (void *) 1 && ! ggc_set_mark (EXPR))
#define ggc_mark(EXPR) \
do { \
const void *const a__ = (EXPR); \
if (a__ != NULL && a__ != (void *) 1) \
ggc_set_mark (a__); \
} while (0)
/* Actually set the mark on a particular region of memory, but don't
follow pointers. This function is called by ggc_mark_*. It
returns zero if the object was not previously marked; nonzero if
the object was already marked, or if, for any other reason,
pointers in this data structure should not be traversed. */
extern int ggc_set_mark (const void *);
/* Return 1 if P has been marked, zero otherwise.
P must have been allocated by the GC allocator; it mustn't point to
static objects, stack variables, or memory allocated with malloc. */
extern int ggc_marked_p (const void *);
/* PCH and GGC handling for strings, mostly trivial. */
extern void gt_pch_n_S (const void *);
extern void gt_ggc_m_S (const void *);
/* End of GTY machinery API. */
/* Initialize the string pool. */
extern void init_stringpool (void);
/* Initialize the garbage collector. */
extern void init_ggc (void);
/* When true, identifier nodes are considered as GC roots. When
false, identifier nodes are treated like any other GC-allocated
object, and the identifier hash table is treated as a weak
hash. */
extern bool ggc_protect_identifiers;
/* Write out all GCed objects to F. */
extern void gt_pch_save (FILE *f);
/* Allocation. */
/* The internal primitive. */
extern void *ggc_internal_alloc_stat (size_t MEM_STAT_DECL)
ATTRIBUTE_MALLOC;
extern size_t ggc_round_alloc_size (size_t requested_size);
#define ggc_internal_alloc(s) ggc_internal_alloc_stat (s MEM_STAT_INFO)
/* Allocates cleared memory. */
extern void *ggc_internal_cleared_alloc_stat (size_t MEM_STAT_DECL)
ATTRIBUTE_MALLOC;
/* Resize a block. */
extern void *ggc_realloc_stat (void *, size_t MEM_STAT_DECL);
/* Free a block. To be used when known for certain it's not reachable. */
extern void ggc_free (void *);
extern void dump_ggc_loc_statistics (bool);
/* Reallocators. */
#define GGC_RESIZEVEC(T, P, N) \
((T *) ggc_realloc_stat ((P), (N) * sizeof (T) MEM_STAT_INFO))
#define GGC_RESIZEVAR(T, P, N) \
((T *) ggc_realloc_stat ((P), (N) MEM_STAT_INFO))
static inline void *
ggc_internal_vec_alloc_stat (size_t s, size_t c MEM_STAT_DECL)
{
return ggc_internal_alloc_stat (c * s PASS_MEM_STAT);
}
static inline void *
ggc_internal_cleared_vec_alloc_stat (size_t s, size_t c MEM_STAT_DECL)
{
return ggc_internal_cleared_alloc_stat (c * s PASS_MEM_STAT);
}
#define ggc_internal_cleared_vec_alloc(s, c) \
(ggc_internal_cleared_vec_alloc_stat ((s), (c) MEM_STAT_INFO))
static inline void *
ggc_alloc_atomic_stat (size_t s MEM_STAT_DECL)
{
return ggc_internal_alloc_stat (s PASS_MEM_STAT);
}
#define ggc_alloc_atomic(S) (ggc_alloc_atomic_stat ((S) MEM_STAT_INFO))
#define ggc_alloc_cleared_atomic(S) \
(ggc_internal_cleared_alloc_stat ((S) MEM_STAT_INFO))
extern void *ggc_cleared_alloc_htab_ignore_args (size_t, size_t)
ATTRIBUTE_MALLOC;
extern void *ggc_cleared_alloc_ptr_array_two_args (size_t, size_t)
ATTRIBUTE_MALLOC;
#define htab_create_ggc(SIZE, HASH, EQ, DEL) \
htab_create_typed_alloc (SIZE, HASH, EQ, DEL, \
ggc_cleared_alloc_htab_ignore_args, \
ggc_cleared_alloc_ptr_array_two_args, \
ggc_free)
#define splay_tree_new_ggc(COMPARE, ALLOC_TREE, ALLOC_NODE) \
splay_tree_new_typed_alloc (COMPARE, NULL, NULL, &ALLOC_TREE, &ALLOC_NODE, \
&ggc_splay_dont_free, NULL)
extern void *ggc_splay_alloc (int, void *)
ATTRIBUTE_MALLOC;
extern void ggc_splay_dont_free (void *, void *);
/* Allocate a gc-able string, and fill it with LENGTH bytes from CONTENTS.
If LENGTH is -1, then CONTENTS is assumed to be a
null-terminated string and the memory sized accordingly. */
extern const char *ggc_alloc_string_stat (const char *contents, int length
MEM_STAT_DECL);
#define ggc_alloc_string(c, l) ggc_alloc_string_stat (c, l MEM_STAT_INFO)
/* Make a copy of S, in GC-able memory. */
#define ggc_strdup(S) ggc_alloc_string_stat ((S), -1 MEM_STAT_INFO)
/* Invoke the collector. Garbage collection occurs only when this
function is called, not during allocations. */
extern void ggc_collect (void);
/* Register an additional root table. This can be useful for some
plugins. Does nothing if the passed pointer is NULL. */
extern void ggc_register_root_tab (const struct ggc_root_tab *);
/* Register an additional cache table. This can be useful for some
plugins. Does nothing if the passed pointer is NULL. */
extern void ggc_register_cache_tab (const struct ggc_cache_tab *);
/* Read objects previously saved with gt_pch_save from F. */
extern void gt_pch_restore (FILE *f);
/* Statistics. */
/* Print allocation statistics. */
extern void ggc_print_statistics (void);
extern void stringpool_statistics (void);
/* Heuristics. */
extern void init_ggc_heuristics (void);
#define ggc_alloc_rtvec_sized(NELT) \
ggc_alloc_rtvec_def (sizeof (struct rtvec_def) \
+ ((NELT) - 1) * sizeof (rtx)) \
/* Memory statistics passing versions of some allocators. Too few of them to
make gengtype produce them, so just define the needed ones here. */
static inline struct rtx_def *
ggc_alloc_rtx_def_stat (size_t s MEM_STAT_DECL)
{
return (struct rtx_def *) ggc_internal_alloc_stat (s PASS_MEM_STAT);
}
static inline union tree_node *
ggc_alloc_tree_node_stat (size_t s MEM_STAT_DECL)
{
return (union tree_node *) ggc_internal_alloc_stat (s PASS_MEM_STAT);
}
static inline union tree_node *
ggc_alloc_cleared_tree_node_stat (size_t s MEM_STAT_DECL)
{
return (union tree_node *) ggc_internal_cleared_alloc_stat (s PASS_MEM_STAT);
}
static inline union gimple_statement_d *
ggc_alloc_cleared_gimple_statement_d_stat (size_t s MEM_STAT_DECL)
{
return (union gimple_statement_d *)
ggc_internal_cleared_alloc_stat (s PASS_MEM_STAT);
}
#endif

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@ -0,0 +1,36 @@
/* Various declarations for pretty formatting of GIMPLE statements and
expressions.
Copyright (C) 2000-2013 Free Software Foundation, Inc.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_GIMPLE_PRETTY_PRINT_H
#define GCC_GIMPLE_PRETTY_PRINT_H
#include "pretty-print.h"
#include "tree-pretty-print.h"
/* In gimple-pretty-print.c */
extern void debug_gimple_stmt (gimple);
extern void debug_gimple_seq (gimple_seq);
extern void print_gimple_seq (FILE *, gimple_seq, int, int);
extern void print_gimple_stmt (FILE *, gimple, int, int);
extern void print_gimple_expr (FILE *, gimple, int, int);
extern void pp_gimple_stmt_1 (pretty_printer *, gimple, int, int);
extern void gimple_dump_bb_for_graph (pretty_printer *, basic_block);
#endif /* ! GCC_GIMPLE_PRETTY_PRINT_H */

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