/* * Copyright (c) 2013 Hugh Bailey * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include "c99defs.h" #include "dstr.h" #include "darray.h" #include "bmem.h" #include "utf8.h" #include "lexer.h" #include "platform.h" static const char *astrblank = ""; static const wchar_t *wstrblank = L""; int astrcmpi(const char *str1, const char *str2) { if (!str1) str1 = astrblank; if (!str2) str2 = astrblank; do { char ch1 = (char)toupper(*str1); char ch2 = (char)toupper(*str2); if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++); return 0; } int wstrcmpi(const wchar_t *str1, const wchar_t *str2) { if (!str1) str1 = wstrblank; if (!str2) str2 = wstrblank; do { wchar_t ch1 = (wchar_t)towupper(*str1); wchar_t ch2 = (wchar_t)towupper(*str2); if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++); return 0; } int astrcmp_n(const char *str1, const char *str2, size_t n) { if (!n) return 0; if (!str1) str1 = astrblank; if (!str2) str2 = astrblank; do { char ch1 = *str1; char ch2 = *str2; if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++ && --n); return 0; } int wstrcmp_n(const wchar_t *str1, const wchar_t *str2, size_t n) { if (!n) return 0; if (!str1) str1 = wstrblank; if (!str2) str2 = wstrblank; do { wchar_t ch1 = *str1; wchar_t ch2 = *str2; if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++ && --n); return 0; } int astrcmpi_n(const char *str1, const char *str2, size_t n) { if (!n) return 0; if (!str1) str1 = astrblank; if (!str2) str2 = astrblank; do { char ch1 = (char)toupper(*str1); char ch2 = (char)toupper(*str2); if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++ && --n); return 0; } int wstrcmpi_n(const wchar_t *str1, const wchar_t *str2, size_t n) { if (!n) return 0; if (!str1) str1 = wstrblank; if (!str2) str2 = wstrblank; do { wchar_t ch1 = (wchar_t)towupper(*str1); wchar_t ch2 = (wchar_t)towupper(*str2); if (ch1 < ch2) return -1; else if (ch1 > ch2) return 1; } while (*str1++ && *str2++ && --n); return 0; } char *astrstri(const char *str, const char *find) { size_t len; if (!str || !find) return NULL; len = strlen(find); do { if (astrcmpi_n(str, find, len) == 0) return (char *)str; } while (*str++); return NULL; } wchar_t *wstrstri(const wchar_t *str, const wchar_t *find) { size_t len; if (!str || !find) return NULL; len = wcslen(find); do { if (wstrcmpi_n(str, find, len) == 0) return (wchar_t *)str; } while (*str++); return NULL; } static inline bool is_padding(char ch) { return ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r'; } char *strdepad(char *str) { char *temp; size_t len; if (!str) return str; if (!*str) return str; temp = str; /* remove preceding spaces/tabs */ while (is_padding(*temp)) ++temp; len = strlen(str); if (temp != str) memmove(str, temp, len + 1); if (len) { temp = str + (len - 1); while (is_padding(*temp)) *(temp--) = 0; } return str; } wchar_t *wcsdepad(wchar_t *str) { wchar_t *temp; size_t len; if (!str) return str; if (!*str) return str; temp = str; /* remove preceding spaces/tabs */ while (*temp == ' ' || *temp == '\t') ++temp; len = wcslen(str); if (temp != str) memmove(str, temp, (len + 1) * sizeof(wchar_t)); if (len) { temp = str + (len - 1); while (*temp == ' ' || *temp == '\t') *(temp--) = 0; } return str; } char **strlist_split(const char *str, char split_ch, bool include_empty) { const char *cur_str = str; const char *next_str; char *out = NULL; size_t count = 0; size_t total_size = 0; if (str) { char **table; char *offset; size_t cur_idx = 0; size_t cur_pos = 0; next_str = strchr(str, split_ch); while (next_str) { size_t size = next_str - cur_str; if (size || include_empty) { ++count; total_size += size + 1; } cur_str = next_str + 1; next_str = strchr(cur_str, split_ch); } if (*cur_str || include_empty) { ++count; total_size += strlen(cur_str) + 1; } /* ------------------ */ cur_pos = (count + 1) * sizeof(char *); total_size += cur_pos; out = bmalloc(total_size); offset = out + cur_pos; table = (char **)out; /* ------------------ */ next_str = strchr(str, split_ch); cur_str = str; while (next_str) { size_t size = next_str - cur_str; if (size || include_empty) { table[cur_idx++] = offset; strncpy(offset, cur_str, size); offset[size] = 0; offset += size + 1; } cur_str = next_str + 1; next_str = strchr(cur_str, split_ch); } if (*cur_str || include_empty) { table[cur_idx++] = offset; strcpy(offset, cur_str); } table[cur_idx] = NULL; } return (char **)out; } void strlist_free(char **strlist) { bfree(strlist); } void dstr_init_copy_strref(struct dstr *dst, const struct strref *src) { dstr_init(dst); dstr_copy_strref(dst, src); } void dstr_copy(struct dstr *dst, const char *array) { size_t len; if (!array || !*array) { dstr_free(dst); return; } len = strlen(array); dstr_ensure_capacity(dst, len + 1); memcpy(dst->array, array, len + 1); dst->len = len; } void dstr_copy_strref(struct dstr *dst, const struct strref *src) { if (dst->array) dstr_free(dst); dstr_ncopy(dst, src->array, src->len); } static inline size_t size_min(size_t a, size_t b) { return (a < b) ? a : b; } void dstr_ncopy(struct dstr *dst, const char *array, const size_t len) { if (dst->array) dstr_free(dst); if (!len) return; dst->array = bmemdup(array, len + 1); dst->len = len; dst->capacity = len + 1; dst->array[len] = 0; } void dstr_ncopy_dstr(struct dstr *dst, const struct dstr *str, const size_t len) { size_t newlen; if (dst->array) dstr_free(dst); if (!len) return; newlen = size_min(len, str->len); dst->array = bmemdup(str->array, newlen + 1); dst->len = newlen; dst->capacity = newlen + 1; dst->array[newlen] = 0; } void dstr_cat_dstr(struct dstr *dst, const struct dstr *str) { size_t new_len; if (!str->len) return; new_len = dst->len + str->len; dstr_ensure_capacity(dst, new_len + 1); memcpy(dst->array + dst->len, str->array, str->len + 1); dst->len = new_len; } void dstr_cat_strref(struct dstr *dst, const struct strref *str) { dstr_ncat(dst, str->array, str->len); } void dstr_ncat(struct dstr *dst, const char *array, const size_t len) { size_t new_len; if (!array || !*array || !len) return; new_len = dst->len + len; dstr_ensure_capacity(dst, new_len + 1); memcpy(dst->array + dst->len, array, len); dst->len = new_len; dst->array[new_len] = 0; } void dstr_ncat_dstr(struct dstr *dst, const struct dstr *str, const size_t len) { size_t new_len, in_len; if (!str->array || !*str->array || !len) return; in_len = size_min(len, str->len); new_len = dst->len + in_len; dstr_ensure_capacity(dst, new_len + 1); memcpy(dst->array + dst->len, str->array, in_len); dst->len = new_len; dst->array[new_len] = 0; } void dstr_insert(struct dstr *dst, const size_t idx, const char *array) { size_t new_len, len; if (!array || !*array) return; if (idx == dst->len) { dstr_cat(dst, array); return; } len = strlen(array); new_len = dst->len + len; dstr_ensure_capacity(dst, new_len + 1); memmove(dst->array + idx + len, dst->array + idx, dst->len - idx + 1); memcpy(dst->array + idx, array, len); dst->len = new_len; } void dstr_insert_dstr(struct dstr *dst, const size_t idx, const struct dstr *str) { size_t new_len; if (!str->len) return; if (idx == dst->len) { dstr_cat_dstr(dst, str); return; } new_len = dst->len + str->len; dstr_ensure_capacity(dst, (new_len + 1)); memmove(dst->array + idx + str->len, dst->array + idx, dst->len - idx + 1); memcpy(dst->array + idx, str->array, str->len); dst->len = new_len; } void dstr_insert_ch(struct dstr *dst, const size_t idx, const char ch) { if (idx == dst->len) { dstr_cat_ch(dst, ch); return; } dstr_ensure_capacity(dst, (++dst->len + 1)); memmove(dst->array + idx + 1, dst->array + idx, dst->len - idx + 1); dst->array[idx] = ch; } void dstr_remove(struct dstr *dst, const size_t idx, const size_t count) { size_t end; if (!count) return; if (count == dst->len) { dstr_free(dst); return; } end = idx + count; if (end == dst->len) dst->array[idx] = 0; else memmove(dst->array + idx, dst->array + end, dst->len - end + 1); dst->len -= count; } void dstr_printf(struct dstr *dst, const char *format, ...) { va_list args; va_start(args, format); dstr_vprintf(dst, format, args); va_end(args); } void dstr_catf(struct dstr *dst, const char *format, ...) { va_list args; va_start(args, format); dstr_vcatf(dst, format, args); va_end(args); } void dstr_vprintf(struct dstr *dst, const char *format, va_list args) { va_list args_cp; va_copy(args_cp, args); int len = vsnprintf(NULL, 0, format, args_cp); va_end(args_cp); if (len < 0) len = 4095; dstr_ensure_capacity(dst, ((size_t)len) + 1); len = vsnprintf(dst->array, ((size_t)len) + 1, format, args); if (!*dst->array) { dstr_free(dst); return; } dst->len = len < 0 ? strlen(dst->array) : (size_t)len; } void dstr_vcatf(struct dstr *dst, const char *format, va_list args) { va_list args_cp; va_copy(args_cp, args); int len = vsnprintf(NULL, 0, format, args_cp); va_end(args_cp); if (len < 0) len = 4095; dstr_ensure_capacity(dst, dst->len + ((size_t)len) + 1); len = vsnprintf(dst->array + dst->len, ((size_t)len) + 1, format, args); if (!*dst->array) { dstr_free(dst); return; } dst->len += len < 0 ? strlen(dst->array + dst->len) : (size_t)len; } void dstr_safe_printf(struct dstr *dst, const char *format, const char *val1, const char *val2, const char *val3, const char *val4) { dstr_copy(dst, format); if (val1) dstr_replace(dst, "$1", val1); if (val2) dstr_replace(dst, "$2", val2); if (val3) dstr_replace(dst, "$3", val3); if (val4) dstr_replace(dst, "$4", val4); } void dstr_replace(struct dstr *str, const char *find, const char *replace) { size_t find_len, replace_len; char *temp; if (dstr_is_empty(str)) return; if (!replace) replace = ""; find_len = strlen(find); replace_len = strlen(replace); temp = str->array; if (replace_len < find_len) { unsigned long count = 0; while ((temp = strstr(temp, find)) != NULL) { char *end = temp + find_len; size_t end_len = strlen(end); if (end_len) { memmove(temp + replace_len, end, end_len + 1); if (replace_len) memcpy(temp, replace, replace_len); } else { strcpy(temp, replace); } temp += replace_len; ++count; } if (count) str->len += (replace_len - find_len) * count; } else if (replace_len > find_len) { unsigned long count = 0; while ((temp = strstr(temp, find)) != NULL) { temp += find_len; ++count; } if (!count) return; str->len += (replace_len - find_len) * count; dstr_ensure_capacity(str, str->len + 1); temp = str->array; while ((temp = strstr(temp, find)) != NULL) { char *end = temp + find_len; size_t end_len = strlen(end); if (end_len) { memmove(temp + replace_len, end, end_len + 1); memcpy(temp, replace, replace_len); } else { strcpy(temp, replace); } temp += replace_len; } } else { while ((temp = strstr(temp, find)) != NULL) { memcpy(temp, replace, replace_len); temp += replace_len; } } } void dstr_depad(struct dstr *str) { if (str->array) { str->array = strdepad(str->array); if (*str->array) str->len = strlen(str->array); else dstr_free(str); } } void dstr_left(struct dstr *dst, const struct dstr *str, const size_t pos) { dstr_resize(dst, pos); if (dst != str) memcpy(dst->array, str->array, pos); } void dstr_mid(struct dstr *dst, const struct dstr *str, const size_t start, const size_t count) { struct dstr temp; dstr_init(&temp); dstr_copy_dstr(&temp, str); dstr_ncopy(dst, temp.array + start, count); dstr_free(&temp); } void dstr_right(struct dstr *dst, const struct dstr *str, const size_t pos) { struct dstr temp; dstr_init(&temp); dstr_ncopy(&temp, str->array + pos, str->len - pos); dstr_copy_dstr(dst, &temp); dstr_free(&temp); } void dstr_from_mbs(struct dstr *dst, const char *mbstr) { dstr_free(dst); dst->len = os_mbs_to_utf8_ptr(mbstr, 0, &dst->array); } char *dstr_to_mbs(const struct dstr *str) { char *dst; os_mbs_to_utf8_ptr(str->array, str->len, &dst); return dst; } wchar_t *dstr_to_wcs(const struct dstr *str) { wchar_t *dst; os_utf8_to_wcs_ptr(str->array, str->len, &dst); return dst; } void dstr_from_wcs(struct dstr *dst, const wchar_t *wstr) { size_t len = wchar_to_utf8(wstr, 0, NULL, 0, 0); if (len) { dstr_resize(dst, len); wchar_to_utf8(wstr, 0, dst->array, len + 1, 0); } else { dstr_free(dst); } } void dstr_to_upper(struct dstr *str) { wchar_t *wstr; wchar_t *temp; if (dstr_is_empty(str)) return; wstr = dstr_to_wcs(str); temp = wstr; if (!wstr) return; while (*temp) { *temp = (wchar_t)towupper(*temp); temp++; } dstr_from_wcs(str, wstr); bfree(wstr); } void dstr_to_lower(struct dstr *str) { wchar_t *wstr; wchar_t *temp; if (dstr_is_empty(str)) return; wstr = dstr_to_wcs(str); temp = wstr; if (!wstr) return; while (*temp) { *temp = (wchar_t)towlower(*temp); temp++; } dstr_from_wcs(str, wstr); bfree(wstr); }