yolobs-studio/libobs/graphics/shader-parser.c

725 lines
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/******************************************************************************
Copyright (C) 2013 by Hugh Bailey <obs.jim@gmail.com>
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, see <http://www.gnu.org/licenses/>.
******************************************************************************/
#include "../util/platform.h"
#include "shader-parser.h"
enum gs_shader_param_type get_shader_param_type(const char *type)
{
if (strcmp(type, "float") == 0)
return GS_SHADER_PARAM_FLOAT;
else if (strcmp(type, "float2") == 0)
return GS_SHADER_PARAM_VEC2;
else if (strcmp(type, "float3") == 0)
return GS_SHADER_PARAM_VEC3;
else if (strcmp(type, "float4") == 0)
return GS_SHADER_PARAM_VEC4;
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else if (strcmp(type, "int2") == 0)
return GS_SHADER_PARAM_INT2;
else if (strcmp(type, "int3") == 0)
return GS_SHADER_PARAM_INT3;
else if (strcmp(type, "int4") == 0)
return GS_SHADER_PARAM_INT4;
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else if (astrcmp_n(type, "texture", 7) == 0)
return GS_SHADER_PARAM_TEXTURE;
else if (strcmp(type, "float4x4") == 0)
return GS_SHADER_PARAM_MATRIX4X4;
else if (strcmp(type, "bool") == 0)
return GS_SHADER_PARAM_BOOL;
else if (strcmp(type, "int") == 0)
return GS_SHADER_PARAM_INT;
else if (strcmp(type, "string") == 0)
return GS_SHADER_PARAM_STRING;
return GS_SHADER_PARAM_UNKNOWN;
}
enum gs_sample_filter get_sample_filter(const char *filter)
{
if (astrcmpi(filter, "Anisotropy") == 0)
return GS_FILTER_ANISOTROPIC;
else if (astrcmpi(filter, "Point") == 0 ||
strcmp(filter, "MIN_MAG_MIP_POINT") == 0)
return GS_FILTER_POINT;
else if (astrcmpi(filter, "Linear") == 0 ||
strcmp(filter, "MIN_MAG_MIP_LINEAR") == 0)
return GS_FILTER_LINEAR;
else if (strcmp(filter, "MIN_MAG_POINT_MIP_LINEAR") == 0)
return GS_FILTER_MIN_MAG_POINT_MIP_LINEAR;
else if (strcmp(filter, "MIN_POINT_MAG_LINEAR_MIP_POINT") == 0)
return GS_FILTER_MIN_POINT_MAG_LINEAR_MIP_POINT;
else if (strcmp(filter, "MIN_POINT_MAG_MIP_LINEAR") == 0)
return GS_FILTER_MIN_POINT_MAG_MIP_LINEAR;
else if (strcmp(filter, "MIN_LINEAR_MAG_MIP_POINT") == 0)
return GS_FILTER_MIN_LINEAR_MAG_MIP_POINT;
else if (strcmp(filter, "MIN_LINEAR_MAG_POINT_MIP_LINEAR") == 0)
return GS_FILTER_MIN_LINEAR_MAG_POINT_MIP_LINEAR;
else if (strcmp(filter, "MIN_MAG_LINEAR_MIP_POINT") == 0)
return GS_FILTER_MIN_MAG_LINEAR_MIP_POINT;
return GS_FILTER_LINEAR;
}
extern enum gs_address_mode get_address_mode(const char *mode)
{
if (astrcmpi(mode, "Wrap") == 0 || astrcmpi(mode, "Repeat") == 0)
return GS_ADDRESS_WRAP;
else if (astrcmpi(mode, "Clamp") == 0 || astrcmpi(mode, "None") == 0)
return GS_ADDRESS_CLAMP;
else if (astrcmpi(mode, "Mirror") == 0)
return GS_ADDRESS_MIRROR;
else if (astrcmpi(mode, "Border") == 0)
return GS_ADDRESS_BORDER;
else if (astrcmpi(mode, "MirrorOnce") == 0)
return GS_ADDRESS_MIRRORONCE;
return GS_ADDRESS_CLAMP;
}
void shader_sampler_convert(struct shader_sampler *ss,
struct gs_sampler_info *info)
{
size_t i;
memset(info, 0, sizeof(struct gs_sampler_info));
for (i = 0; i < ss->states.num; i++) {
const char *state = ss->states.array[i];
const char *value = ss->values.array[i];
if (astrcmpi(state, "Filter") == 0)
info->filter = get_sample_filter(value);
else if (astrcmpi(state, "AddressU") == 0)
info->address_u = get_address_mode(value);
else if (astrcmpi(state, "AddressV") == 0)
info->address_v = get_address_mode(value);
else if (astrcmpi(state, "AddressW") == 0)
info->address_w = get_address_mode(value);
else if (astrcmpi(state, "MaxAnisotropy") == 0)
info->max_anisotropy = (int)strtol(value, NULL, 10);
else if (astrcmpi(state, "BorderColor") == 0)
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info->border_color = strtol(value + 1, NULL, 16);
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}
}
/* ------------------------------------------------------------------------- */
static int sp_parse_sampler_state_item(struct shader_parser *sp,
struct shader_sampler *ss)
{
int ret;
char *state = NULL, *value = NULL;
ret = cf_next_name(&sp->cfp, &state, "state name", ";");
if (ret != PARSE_SUCCESS) goto fail;
ret = cf_next_token_should_be(&sp->cfp, "=", ";", NULL);
if (ret != PARSE_SUCCESS) goto fail;
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ret = cf_next_token_copy(&sp->cfp, &value);
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if (ret != PARSE_SUCCESS) goto fail;
ret = cf_next_token_should_be(&sp->cfp, ";", ";", NULL);
if (ret != PARSE_SUCCESS) goto fail;
da_push_back(ss->states, &state);
da_push_back(ss->values, &value);
return ret;
fail:
bfree(state);
bfree(value);
return ret;
}
static void sp_parse_sampler_state(struct shader_parser *sp)
{
struct shader_sampler ss;
struct cf_token peek;
shader_sampler_init(&ss);
if (cf_next_name(&sp->cfp, &ss.name, "name", ";") != PARSE_SUCCESS)
goto error;
if (cf_next_token_should_be(&sp->cfp, "{", ";", NULL) != PARSE_SUCCESS)
goto error;
if (!cf_peek_valid_token(&sp->cfp, &peek))
goto error;
while (strref_cmp(&peek.str, "}") != 0) {
int ret = sp_parse_sampler_state_item(sp, &ss);
if (ret == PARSE_EOF)
goto error;
if (!cf_peek_valid_token(&sp->cfp, &peek))
goto error;
}
if (cf_next_token_should_be(&sp->cfp, "}", ";", NULL) != PARSE_SUCCESS)
goto error;
if (cf_next_token_should_be(&sp->cfp, ";", NULL, NULL) != PARSE_SUCCESS)
goto error;
da_push_back(sp->samplers, &ss);
return;
error:
shader_sampler_free(&ss);
}
static inline int sp_parse_struct_var(struct shader_parser *sp,
struct shader_var *var)
{
int code;
/* -------------------------------------- */
/* variable type */
if (!cf_next_valid_token(&sp->cfp)) return PARSE_EOF;
if (cf_token_is(&sp->cfp, ";")) return PARSE_CONTINUE;
if (cf_token_is(&sp->cfp, "}")) return PARSE_BREAK;
code = cf_token_is_type(&sp->cfp, CFTOKEN_NAME, "type name", ";");
if (code != PARSE_SUCCESS)
return code;
cf_copy_token(&sp->cfp, &var->type);
/* -------------------------------------- */
/* variable name */
if (!cf_next_valid_token(&sp->cfp)) return PARSE_EOF;
if (cf_token_is(&sp->cfp, ";")) return PARSE_UNEXPECTED_CONTINUE;
if (cf_token_is(&sp->cfp, "}")) return PARSE_UNEXPECTED_BREAK;
code = cf_token_is_type(&sp->cfp, CFTOKEN_NAME, "variable name",
";");
if (code != PARSE_SUCCESS)
return code;
cf_copy_token(&sp->cfp, &var->name);
/* -------------------------------------- */
/* variable mapping if any (POSITION, TEXCOORD, etc) */
if (!cf_next_valid_token(&sp->cfp)) return PARSE_EOF;
if (cf_token_is(&sp->cfp, ":")) {
if (!cf_next_valid_token(&sp->cfp)) return PARSE_EOF;
if (cf_token_is(&sp->cfp, ";"))
return PARSE_UNEXPECTED_CONTINUE;
if (cf_token_is(&sp->cfp, "}"))
return PARSE_UNEXPECTED_BREAK;
code = cf_token_is_type(&sp->cfp, CFTOKEN_NAME,
"mapping name", ";");
if (code != PARSE_SUCCESS)
return code;
cf_copy_token(&sp->cfp, &var->mapping);
if (!cf_next_valid_token(&sp->cfp)) return PARSE_EOF;
}
/* -------------------------------------- */
if (!cf_token_is(&sp->cfp, ";")) {
if (!cf_go_to_valid_token(&sp->cfp, ";", "}"))
return PARSE_EOF;
return PARSE_CONTINUE;
}
return PARSE_SUCCESS;
}
static void sp_parse_struct(struct shader_parser *sp)
{
struct shader_struct ss;
shader_struct_init(&ss);
if (cf_next_name(&sp->cfp, &ss.name, "name", ";") != PARSE_SUCCESS)
goto error;
if (cf_next_token_should_be(&sp->cfp, "{", ";", NULL) != PARSE_SUCCESS)
goto error;
/* get structure variables */
while (true) {
bool do_break = false;
struct shader_var var;
shader_var_init(&var);
switch (sp_parse_struct_var(sp, &var)) {
case PARSE_UNEXPECTED_CONTINUE:
cf_adderror_syntax_error(&sp->cfp);
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/* Falls through. */
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case PARSE_CONTINUE:
shader_var_free(&var);
continue;
case PARSE_UNEXPECTED_BREAK:
cf_adderror_syntax_error(&sp->cfp);
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/* Falls through. */
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case PARSE_BREAK:
shader_var_free(&var);
do_break = true;
break;
case PARSE_EOF:
shader_var_free(&var);
goto error;
}
if (do_break)
break;
da_push_back(ss.vars, &var);
}
if (cf_next_token_should_be(&sp->cfp, ";", NULL, NULL) != PARSE_SUCCESS)
goto error;
da_push_back(sp->structs, &ss);
return;
error:
shader_struct_free(&ss);
}
static inline int sp_check_for_keyword(struct shader_parser *sp,
const char *keyword, bool *val)
{
bool new_val = cf_token_is(&sp->cfp, keyword);
if (new_val) {
if (!cf_next_valid_token(&sp->cfp))
return PARSE_EOF;
if (new_val && *val)
cf_adderror(&sp->cfp, "'$1' keyword already specified",
LEX_WARNING, keyword, NULL, NULL);
*val = new_val;
return PARSE_CONTINUE;
}
return PARSE_SUCCESS;
}
static inline int sp_parse_func_param(struct shader_parser *sp,
struct shader_var *var)
{
int code;
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bool var_type_keyword = false;
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if (!cf_next_valid_token(&sp->cfp))
return PARSE_EOF;
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code = sp_check_for_keyword(sp, "in", &var_type_keyword);
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if (code == PARSE_EOF)
return PARSE_EOF;
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else if (var_type_keyword)
var->var_type = SHADER_VAR_IN;
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if (!var_type_keyword) {
code = sp_check_for_keyword(sp, "inout", &var_type_keyword);
if (code == PARSE_EOF)
return PARSE_EOF;
else if (var_type_keyword)
var->var_type = SHADER_VAR_INOUT;
}
if (!var_type_keyword) {
code = sp_check_for_keyword(sp, "out", &var_type_keyword);
if (code == PARSE_EOF)
return PARSE_EOF;
else if (var_type_keyword)
var->var_type = SHADER_VAR_OUT;
}
if (!var_type_keyword) {
code = sp_check_for_keyword(sp, "uniform", &var_type_keyword);
if (code == PARSE_EOF)
return PARSE_EOF;
else if (var_type_keyword)
var->var_type = SHADER_VAR_UNIFORM;
}
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code = cf_get_name(&sp->cfp, &var->type, "type", ")");
if (code != PARSE_SUCCESS)
return code;
code = cf_next_name(&sp->cfp, &var->name, "name", ")");
if (code != PARSE_SUCCESS)
return code;
if (!cf_next_valid_token(&sp->cfp))
return PARSE_EOF;
if (cf_token_is(&sp->cfp, ":")) {
code = cf_next_name(&sp->cfp, &var->mapping,
"mapping specifier", ")");
if (code != PARSE_SUCCESS)
return code;
if (!cf_next_valid_token(&sp->cfp))
return PARSE_EOF;
}
return PARSE_SUCCESS;
}
static bool sp_parse_func_params(struct shader_parser *sp,
struct shader_func *func)
{
struct cf_token peek;
int code;
cf_token_clear(&peek);
if (!cf_peek_valid_token(&sp->cfp, &peek))
return false;
if (*peek.str.array == ')') {
cf_next_token(&sp->cfp);
goto exit;
}
do {
struct shader_var var;
shader_var_init(&var);
if (!cf_token_is(&sp->cfp, "(") && !cf_token_is(&sp->cfp, ","))
cf_adderror_syntax_error(&sp->cfp);
code = sp_parse_func_param(sp, &var);
if (code != PARSE_SUCCESS) {
shader_var_free(&var);
if (code == PARSE_CONTINUE)
goto exit;
else if (code == PARSE_EOF)
return false;
}
da_push_back(func->params, &var);
} while (!cf_token_is(&sp->cfp, ")"));
exit:
return true;
}
static void sp_parse_function(struct shader_parser *sp, char *type, char *name)
{
struct shader_func func;
shader_func_init(&func, type, name);
if (!sp_parse_func_params(sp, &func))
goto error;
if (!cf_next_valid_token(&sp->cfp))
goto error;
/* if function is mapped to something, for example COLOR */
if (cf_token_is(&sp->cfp, ":")) {
char *mapping = NULL;
int errorcode = cf_next_name(&sp->cfp, &mapping, "mapping",
"{");
if (errorcode != PARSE_SUCCESS)
goto error;
func.mapping = mapping;
if (!cf_next_valid_token(&sp->cfp))
goto error;
}
if (!cf_token_is(&sp->cfp, "{")) {
cf_adderror_expecting(&sp->cfp, "{");
goto error;
}
func.start = sp->cfp.cur_token;
if (!cf_pass_pair(&sp->cfp, '{', '}'))
goto error;
/* it is established that the current token is '}' if we reach this */
cf_next_token(&sp->cfp);
func.end = sp->cfp.cur_token;
da_push_back(sp->funcs, &func);
return;
error:
shader_func_free(&func);
}
/* parses "array[count]" */
static bool sp_parse_param_array(struct shader_parser *sp,
struct shader_var *param)
{
if (!cf_next_valid_token(&sp->cfp))
return false;
if (sp->cfp.cur_token->type != CFTOKEN_NUM ||
!valid_int_str(sp->cfp.cur_token->str.array,
sp->cfp.cur_token->str.len))
return false;
param->array_count =(int)strtol(sp->cfp.cur_token->str.array, NULL, 10);
if (cf_next_token_should_be(&sp->cfp, "]", ";", NULL) == PARSE_EOF)
return false;
if (!cf_next_valid_token(&sp->cfp))
return false;
return true;
}
static inline int sp_parse_param_assign_intfloat(struct shader_parser *sp,
struct shader_var *param, bool is_float)
{
int code;
bool is_negative = false;
if (!cf_next_valid_token(&sp->cfp))
return PARSE_EOF;
if (cf_token_is(&sp->cfp, "-")) {
is_negative = true;
if (!cf_next_token(&sp->cfp))
return PARSE_EOF;
}
code = cf_token_is_type(&sp->cfp, CFTOKEN_NUM, "numeric value", ";");
if (code != PARSE_SUCCESS)
return code;
if (is_float) {
float f = (float)os_strtod(sp->cfp.cur_token->str.array);
if (is_negative) f = -f;
da_push_back_array(param->default_val, &f, sizeof(float));
} else {
long l = strtol(sp->cfp.cur_token->str.array, NULL, 10);
if (is_negative) l = -l;
da_push_back_array(param->default_val, &l, sizeof(long));
}
return PARSE_SUCCESS;
}
/*
* parses assignment for float1, float2, float3, float4, and any combination
* for float3x3, float4x4, etc
*/
static inline int sp_parse_param_assign_float_array(struct shader_parser *sp,
struct shader_var *param)
{
const char *float_type = param->type+5;
int float_count = 0, code, i;
/* -------------------------------------------- */
if (float_type[0] < '1' || float_type[0] > '4')
cf_adderror(&sp->cfp, "Invalid row count", LEX_ERROR,
NULL, NULL, NULL);
float_count = float_type[0]-'0';
if (float_type[1] == 'x') {
if (float_type[2] < '1' || float_type[2] > '4')
cf_adderror(&sp->cfp, "Invalid column count",
LEX_ERROR, NULL, NULL, NULL);
float_count *= float_type[2]-'0';
}
/* -------------------------------------------- */
code = cf_next_token_should_be(&sp->cfp, "{", ";", NULL);
if (code != PARSE_SUCCESS) return code;
for (i = 0; i < float_count; i++) {
char *next = ((i+1) < float_count) ? "," : "}";
code = sp_parse_param_assign_intfloat(sp, param, true);
if (code != PARSE_SUCCESS) return code;
code = cf_next_token_should_be(&sp->cfp, next, ";", NULL);
if (code != PARSE_SUCCESS) return code;
}
return PARSE_SUCCESS;
}
static int sp_parse_param_assignment_val(struct shader_parser *sp,
struct shader_var *param)
{
if (strcmp(param->type, "int") == 0)
return sp_parse_param_assign_intfloat(sp, param, false);
else if (strcmp(param->type, "float") == 0)
return sp_parse_param_assign_intfloat(sp, param, true);
else if (astrcmp_n(param->type, "float", 5) == 0)
return sp_parse_param_assign_float_array(sp, param);
cf_adderror(&sp->cfp, "Invalid type '$1' used for assignment",
LEX_ERROR, param->type, NULL, NULL);
return PARSE_CONTINUE;
}
static inline bool sp_parse_param_assign(struct shader_parser *sp,
struct shader_var *param)
{
if (sp_parse_param_assignment_val(sp, param) != PARSE_SUCCESS)
return false;
if (!cf_next_valid_token(&sp->cfp))
return false;
return true;
}
static void sp_parse_param(struct shader_parser *sp,
char *type, char *name, bool is_const, bool is_uniform)
{
struct shader_var param;
shader_var_init_param(&param, type, name, is_uniform, is_const);
if (cf_token_is(&sp->cfp, ";"))
goto complete;
if (cf_token_is(&sp->cfp, "[") && !sp_parse_param_array(sp, &param))
goto error;
if (cf_token_is(&sp->cfp, "=") && !sp_parse_param_assign(sp, &param))
goto error;
if (!cf_token_is(&sp->cfp, ";"))
goto error;
complete:
da_push_back(sp->params, &param);
return;
error:
shader_var_free(&param);
}
static bool sp_get_var_specifiers(struct shader_parser *sp,
bool *is_const, bool *is_uniform)
{
while(true) {
int code = sp_check_for_keyword(sp, "const", is_const);
if (code == PARSE_EOF)
return false;
else if (code == PARSE_CONTINUE)
continue;
code = sp_check_for_keyword(sp, "uniform", is_uniform);
if (code == PARSE_EOF)
return false;
else if (code == PARSE_CONTINUE)
continue;
break;
}
return true;
}
static inline void report_invalid_func_keyword(struct shader_parser *sp,
const char *name, bool val)
{
if (val)
cf_adderror(&sp->cfp, "'$1' keyword cannot be used with a "
"function", LEX_ERROR,
name, NULL, NULL);
}
static void sp_parse_other(struct shader_parser *sp)
{
bool is_const = false, is_uniform = false;
char *type = NULL, *name = NULL;
if (!sp_get_var_specifiers(sp, &is_const, &is_uniform))
goto error;
if (cf_get_name(&sp->cfp, &type, "type", ";") != PARSE_SUCCESS)
goto error;
if (cf_next_name(&sp->cfp, &name, "name", ";") != PARSE_SUCCESS)
goto error;
if (!cf_next_valid_token(&sp->cfp))
goto error;
if (cf_token_is(&sp->cfp, "(")) {
report_invalid_func_keyword(sp, "const", is_const);
report_invalid_func_keyword(sp, "uniform", is_uniform);
sp_parse_function(sp, type, name);
return;
} else {
sp_parse_param(sp, type, name, is_const, is_uniform);
return;
}
error:
bfree(type);
bfree(name);
}
bool shader_parse(struct shader_parser *sp, const char *shader,
const char *file)
{
if (!cf_parser_parse(&sp->cfp, shader, file))
return false;
while (sp->cfp.cur_token && sp->cfp.cur_token->type != CFTOKEN_NONE) {
if (cf_token_is(&sp->cfp, ";") ||
is_whitespace(*sp->cfp.cur_token->str.array)) {
sp->cfp.cur_token++;
} else if (cf_token_is(&sp->cfp, "struct")) {
sp_parse_struct(sp);
} else if (cf_token_is(&sp->cfp, "sampler_state")) {
sp_parse_sampler_state(sp);
} else if (cf_token_is(&sp->cfp, "{")) {
cf_adderror(&sp->cfp, "Unexpected code segment",
LEX_ERROR, NULL, NULL, NULL);
cf_pass_pair(&sp->cfp, '{', '}');
} else {
/* parameters and functions */
sp_parse_other(sp);
}
}
return !error_data_has_errors(&sp->cfp.error_list);
}