/* "4cpp" Open C++ Parser v0.1: String no warranty implied; use at your own risk NOTES ON USE: OPTIONS: Set options by defining macros before including this file FCPP_STRING_IMPLEMENTATION - causes this file to output function implementations - this option is unset after use so that future includes of this file in the same unit do not continue to output implementations FSTRING_LINK - defines linkage of non-inline functions, defaults to static include the file "4cpp_clear_config.h" if yo want to undefine all options for some reason */ // TOP #ifndef FCPP_STRING_INC #define FCPP_STRING_INC #include #ifndef FSTRING_LINK # define FSTRING_LINK static #endif #ifndef FSTRING_INLINE # define FSTRING_INLINE inline #endif #ifndef FRED_STRING_STRUCT #define FRED_STRING_STRUCT struct String{ char *str; int32_t size; int32_t memory_size; }; struct Offset_String{ int32_t offset; int32_t size; }; #endif #ifndef fstr_bool # define fstr_bool int #endif #ifndef literal # define literal(s) (s), (sizeof(s)-1) #endif FSTRING_INLINE fstr_bool char_not_slash(char c) { return (c != '\\' && c != '/'); } FSTRING_INLINE fstr_bool char_is_slash(char c) { return (c == '\\' || c == '/'); } FSTRING_INLINE char char_to_upper(char c) { return (c >= 'a' && c <= 'z') ? c + (char)('A' - 'a') : c; } FSTRING_INLINE char char_to_lower(char c) { return (c >= 'A' && c <= 'Z') ? c - (char)('A' - 'a') : c; } FSTRING_INLINE int32_t char_to_int(char c) { return (c - '0'); } FSTRING_INLINE char int_to_char(int32_t x) { return (char)(x + '0'); } FSTRING_INLINE fstr_bool char_is_whitespace(char c) { return (c == ' ' || c == '\n' || c == '\r' || c == '\t'); } FSTRING_INLINE fstr_bool char_is_white_not_r(char c) { return (c == ' ' || c == '\n' || c == '\t'); } FSTRING_INLINE fstr_bool char_is_lower(char c) { return (c >= 'a' && c <= 'z'); } FSTRING_INLINE fstr_bool char_is_upper(char c) { return (c >= 'A' && c <= 'Z'); } FSTRING_INLINE fstr_bool char_is_alpha(char c) { return (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c == '_'); } FSTRING_INLINE fstr_bool char_is_alpha_true(char c) { return (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z'); } FSTRING_INLINE fstr_bool char_is_numeric(char c) { return (c >= '0' && c <= '9'); } FSTRING_INLINE fstr_bool char_is_alpha_numeric_true(char c) { return (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9'); } FSTRING_INLINE fstr_bool char_is_alpha_numeric(char c) { return (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || c == '_'); } FSTRING_INLINE fstr_bool char_is_hex(char c) { return c >= '0' && c <= '9' || c >= 'A' && c <= 'F' || c >= 'a' && c <= 'f'; } FSTRING_INLINE fstr_bool char_is_basic(char c) { return c >= ' ' && c <= '~'; } FSTRING_INLINE String string_zero(); FSTRING_INLINE String make_string(void *s, int32_t size, int32_t mem_size); FSTRING_INLINE String make_string(void *s, int32_t size); #define make_lit_string(str) (make_string((char*)(str), sizeof(str)-1, sizeof(str))) #define make_fixed_width_string(str) (make_string((char*)(str), 0, sizeof(str))) #define expand_str(s) ((s).str), ((s).size) FSTRING_INLINE String make_string_slowly(void *s); FSTRING_INLINE char* make_c_str(String s); FSTRING_INLINE String substr(String str, int32_t start); FSTRING_INLINE String substr(String str, int32_t start, int32_t size); FSTRING_INLINE String substr_slowly(char *s, int32_t start); FSTRING_INLINE String substr(char *s, int32_t start, int32_t size); FSTRING_INLINE String tailstr(String s); FSTRING_LINK int32_t str_size(char *s); FSTRING_LINK fstr_bool match(char *a, char *b); FSTRING_LINK fstr_bool match(String a, char *b); FSTRING_INLINE fstr_bool match(char *a, String b) { return match(b,a); } FSTRING_LINK fstr_bool match(String a, String b); FSTRING_LINK fstr_bool match_part(char *a, char *b, int32_t *len); FSTRING_LINK fstr_bool match_part(String a, char *b, int32_t *len); FSTRING_INLINE fstr_bool match_part(char *a, char *b) { int32_t x; return match_part(a,b,&x); } FSTRING_INLINE fstr_bool match_part(String a, char *b) { int32_t x; return match_part(a,b,&x); } FSTRING_LINK fstr_bool match_part(char *a, String b); FSTRING_LINK fstr_bool match_part(String a, String b); FSTRING_LINK fstr_bool match_insensitive(char *a, char *b); FSTRING_LINK fstr_bool match_insensitive(String a, char *b); FSTRING_INLINE fstr_bool match_insensitive(char *a, String b) { return match_insensitive(b,a); } FSTRING_LINK fstr_bool match_insensitive(String a, String b); FSTRING_LINK fstr_bool match_part_insensitive(char *a, char *b, int32_t *len); FSTRING_LINK fstr_bool match_part_insensitive(String a, char *b, int32_t *len); FSTRING_INLINE fstr_bool match_part_insensitive(char *a, char *b) { int32_t x; return match_part(a,b,&x); } FSTRING_INLINE fstr_bool match_part_insensitive(String a, char *b) { int32_t x; return match_part(a,b,&x); } FSTRING_LINK fstr_bool match_part_insensitive(char *a, String b); FSTRING_LINK fstr_bool match_part_insensitive(String a, String b); FSTRING_LINK int32_t find(char *s, int32_t start, char c); FSTRING_LINK int32_t find(String s, int32_t start, char c); FSTRING_LINK int32_t find(char *s, int32_t start, char *c); FSTRING_LINK int32_t find(String s, int32_t start, char *c); FSTRING_LINK int32_t find_substr(char *s, int32_t start, String seek); FSTRING_LINK int32_t find_substr(String s, int32_t start, String seek); FSTRING_LINK int32_t rfind_substr(String s, int32_t start, String seek); FSTRING_LINK int32_t find_substr_insensitive(char *s, int32_t start, String seek); FSTRING_LINK int32_t find_substr_insensitive(String s, int32_t start, String seek); FSTRING_INLINE fstr_bool has_substr(char *s, String seek) { return (s[find_substr(s, 0, seek)] != 0); } FSTRING_INLINE fstr_bool has_substr(String s, String seek) { return (find_substr(s, 0, seek) < s.size); } FSTRING_INLINE fstr_bool has_substr_insensitive(char *s, String seek) { return (s[find_substr_insensitive(s, 0, seek)] != 0); } FSTRING_INLINE fstr_bool has_substr_insensitive(String s, String seek) { return (find_substr_insensitive(s, 0, seek) < s.size); } FSTRING_LINK int32_t int_to_str_size(int32_t x); FSTRING_LINK fstr_bool int_to_str(String *s_out, int32_t x); FSTRING_LINK fstr_bool append_int_to_str(String *s_out, int32_t x); FSTRING_LINK int32_t u64_to_str_size(uint64_t x); FSTRING_LINK fstr_bool u64_to_str(String *s_out, uint64_t x); FSTRING_LINK fstr_bool append_u64_to_str(String *s_out, uint64_t x); FSTRING_LINK int32_t str_to_int(char *s); FSTRING_LINK int32_t str_to_int(String s); FSTRING_LINK int32_t hexchar_to_int(char c); FSTRING_LINK char int_to_hexchar(int32_t c); FSTRING_LINK uint32_t hexstr_to_int(String s); FSTRING_LINK fstr_bool color_to_hexstr(uint32_t color, String *s_out); FSTRING_LINK fstr_bool hexstr_to_color(String s, uint32_t *color); FSTRING_LINK int32_t copy_fast_unsafe(char *dest, char *src); FSTRING_LINK void copy_fast_unsafe(char *dest, String src); FSTRING_LINK fstr_bool copy_checked(String *dest, String src); FSTRING_LINK fstr_bool copy_partial(String *dest, char *src); FSTRING_LINK fstr_bool copy_partial(String *dest, String src); FSTRING_INLINE int32_t copy(char *dest, char *src) { return copy_fast_unsafe(dest, src); } FSTRING_INLINE void copy(String *dest, String src) { copy_checked(dest, src); } FSTRING_INLINE void copy(String *dest, char *src) { copy_partial(dest, src); } FSTRING_LINK fstr_bool append_checked(String *dest, String src); FSTRING_LINK fstr_bool append_partial(String *dest, char *src); FSTRING_LINK fstr_bool append_partial(String *dest, String src); FSTRING_LINK fstr_bool append(String *dest, char c); FSTRING_INLINE fstr_bool append(String *dest, String src) { return append_partial(dest, src); } FSTRING_INLINE fstr_bool append(String *dest, char *src) { return append_partial(dest, src); } FSTRING_INLINE fstr_bool terminate_with_null(String *str){ fstr_bool result; if (str->size < str->memory_size){ str->str[str->size] = 0; result = 1; } else{ str->str[str->size-1] = 0; result = 0; } return result; } FSTRING_LINK int32_t compare(char *a, char *b); FSTRING_LINK int32_t compare(String a, char *b); FSTRING_INLINE int32_t compare(char *a, String b) { return -compare(b,a); } FSTRING_LINK int32_t compare(String a, String b); FSTRING_LINK int32_t reverse_seek_slash(String str); FSTRING_LINK int32_t reverse_seek_slash(String str, int32_t start_pos); FSTRING_INLINE String front_of_directory(String dir) { return substr(dir, reverse_seek_slash(dir) + 1); } FSTRING_INLINE String path_of_directory(String dir) { return substr(dir, 0, reverse_seek_slash(dir) + 1); } FSTRING_INLINE fstr_bool get_front_of_directory(String *dest, String dir) { return append_checked(dest, front_of_directory(dir)); } FSTRING_INLINE fstr_bool get_path_of_directory(String *dest, String dir) { return append_checked(dest, path_of_directory(dir)); } FSTRING_LINK fstr_bool set_last_folder(String *dir, char *folder_name, char slash); FSTRING_LINK fstr_bool set_last_folder(String *dir, String folder_name, char slash); FSTRING_LINK String file_extension(String str); FSTRING_LINK String file_extension_slowly(char *str); FSTRING_LINK char * file_extension_c(String str); FSTRING_LINK fstr_bool remove_last_folder(String *str); FSTRING_LINK void replace_char(String str, char replace, char with); FSTRING_LINK void replace_char(char *str, char replace, char with); FSTRING_INLINE String string_zero(){ String str={0}; return(str); } FSTRING_INLINE String make_string(void *str, int32_t size, int32_t mem_size){ String result; result.str = (char*)str; result.size = size; result.memory_size = mem_size; return result; } FSTRING_INLINE String make_string(void *str, int32_t size){ String result; result.str = (char*)str; result.size = size; result.memory_size = size; return result; } FSTRING_INLINE String make_string_slowly(void *str){ String result; result.str = (char*)str; result.size = str_size((char*)str); result.memory_size = result.size; return result; } FSTRING_INLINE char* make_c_str(String str){ if (str.size < str.memory_size){ str.str[str.size] = 0; } else{ str.str[str.memory_size-1] = 0; } return (char*)str.str; } FSTRING_INLINE String substr(String str, int32_t start){ String result; result.str = str.str + start; result.size = str.size - start; return result; } FSTRING_INLINE String substr(String str, int32_t start, int32_t size){ String result; result.str = str.str + start; if (start + size > str.size){ result.size = str.size - start; } else{ result.size = size; } return result; } FSTRING_INLINE String substr_slowly(char *str, int32_t start){ String result; result.str = str + start; result.size = str_size(result.str); return result; } FSTRING_INLINE String substr(char *str, int32_t start, int32_t size){ String result; result.str = str + start; result.size = size; for (int32_t i = 0; i < size; ++i){ if (result.str[i] == 0){ result.size = i; break; } } return result; } FSTRING_INLINE String tailstr(String str){ String result; result.str = str.str + str.size; result.memory_size = str.memory_size - str.size; result.size = 0; return result; } #endif // #ifndef FCPP_STRING_INC #ifdef FCPP_STRING_IMPLEMENTATION #ifndef FCPP_DID_STRING_IMPLEMENTATION #define FCPP_DID_STRING_IMPLEMENTATION FSTRING_LINK int32_t str_size(char *str){ int32_t i = 0; while (str[i]) ++i; return i; } FSTRING_LINK fstr_bool match(char *a, char *b){ for (int32_t i = 0;; ++i){ if (a[i] != b[i]){ return 0; } if (a[i] == 0){ return 1; } } } FSTRING_LINK fstr_bool match(String a, char *b){ int32_t i = 0; for (; i < a.size; ++i){ if (a.str[i] != b[i]){ return 0; } } if (b[i] != 0){ return 0; } return 1; } FSTRING_LINK fstr_bool match(String a, String b){ if (a.size != b.size){ return 0; } for (int32_t i = 0; i < b.size; ++i){ if (a.str[i] != b.str[i]){ return 0; } } return 1; } FSTRING_LINK fstr_bool match_part(char *a, char *b, int32_t *len){ int32_t i; for (i = 0; b[i] != 0; ++i){ if (a[i] != b[i]){ return 0; } } *len = i; return 1; } FSTRING_LINK fstr_bool match_part(String a, char *b, int32_t *len){ int32_t i; for (i = 0; b[i] != 0; ++i){ if (a.str[i] != b[i] || i == a.size){ return 0; } } *len = i; return 1; } FSTRING_LINK fstr_bool match_part(char *a, String b){ for (int32_t i = 0; i != b.size; ++i){ if (a[i] != b.str[i]){ return 0; } } return 1; } FSTRING_LINK fstr_bool match_part(String a, String b){ if (a.size < b.size){ return 0; } for (int32_t i = 0; i < b.size; ++i){ if (a.str[i] != b.str[i]){ return 0; } } return 1; } FSTRING_LINK fstr_bool match_insensitive(char *a, char *b){ for (int32_t i = 0;; ++i){ if (char_to_upper(a[i]) != char_to_upper(b[i])){ return 0; } if (a[i] == 0){ return 1; } } } FSTRING_LINK fstr_bool match_insensitive(String a, char *b){ int32_t i = 0; for (; i < a.size; ++i){ if (char_to_upper(a.str[i]) != char_to_upper(b[i])){ return 0; } } if (b[i] != 0){ return 0; } return 1; } FSTRING_LINK fstr_bool match_insensitive(String a, String b){ if (a.size != b.size){ return 0; } for (int32_t i = 0; i < b.size; ++i){ if (char_to_upper(a.str[i]) != char_to_upper(b.str[i])){ return 0; } } return 1; } FSTRING_LINK fstr_bool match_part_insensitive(char *a, char *b, int32_t *len){ int32_t i; for (i = 0; b[i] != 0; ++i){ if (char_to_upper(a[i]) != char_to_upper(b[i])){ return 0; } } *len = i; return 1; } FSTRING_LINK fstr_bool match_part_insensitive(String a, char *b, int32_t *len){ int32_t i; for (i = 0; b[i] != 0; ++i){ if (char_to_upper(a.str[i]) != char_to_upper(b[i]) || i == a.size){ return 0; } } *len = i; return 1; } FSTRING_LINK fstr_bool match_part_insensitive(char *a, String b){ for (int32_t i = 0; i != b.size; ++i){ if (char_to_upper(a[i]) != char_to_upper(b.str[i])){ return 0; } } return 1; } FSTRING_LINK fstr_bool match_part_insensitive(String a, String b){ if (a.size < b.size){ return 0; } for (int32_t i = 0; i < b.size; ++i){ if (char_to_upper(a.str[i]) != char_to_upper(b.str[i])){ return 0; } } return 1; } FSTRING_LINK int32_t find(char *str, int32_t start, char character){ int32_t i = start; while (str[i] != character && str[i] != 0) ++i; return i; } FSTRING_LINK int32_t find(String str, int32_t start, char character){ int32_t i = start; while (i < str.size && str.str[i] != character) ++i; return i; } FSTRING_LINK int32_t find(char *str, int32_t start, char *characters){ int32_t i = start, j; while (str[i] != 0){ for (j = 0; characters[j]; ++j){ if (str[i] == characters[j]){ return i; } } ++i; } return i; } FSTRING_LINK int32_t find(String str, int32_t start, char *characters){ int32_t i = start, j; while (i < str.size){ for (j = 0; characters[j]; ++j){ if (str.str[i] == characters[j]){ return i; } } ++i; } return i; } FSTRING_LINK int32_t find_substr(char *str, int32_t start, String seek){ int32_t i, j, k; fstr_bool hit; if (seek.size == 0){ return str_size(str); } for (i = start; str[i]; ++i){ if (str[i] == seek.str[0]){ hit = 1; for (j = 1, k = i+1; j < seek.size; ++j, ++k){ if (str[k] != seek.str[j]){ hit = 0; break; } } if (hit){ return i; } } } return i; } FSTRING_LINK int32_t find_substr(String str, int32_t start, String seek){ int32_t stop_at, i, j, k; fstr_bool hit; if (seek.size == 0){ return str.size; } stop_at = str.size - seek.size + 1; for (i = start; i < stop_at; ++i){ if (str.str[i] == seek.str[0]){ hit = 1; for (j = 1, k = i+1; j < seek.size; ++j, ++k){ if (str.str[k] != seek.str[j]){ hit = 0; break; } } if (hit){ return i; } } } return str.size; } FSTRING_LINK int32_t rfind_substr(String str, int32_t start, String seek){ int32_t i, j, k; fstr_bool hit; if (seek.size == 0){ return -1; } if (start + seek.size > str.size){ start = str.size - seek.size; } for (i = start; i >= 0; --i){ if (str.str[i] == seek.str[0]){ hit = 1; for (j = 1, k = i+1; j < seek.size; ++j, ++k){ if (str.str[k] != seek.str[j]){ hit = 0; break; } } if (hit){ return i; } } } return -1; } FSTRING_LINK int32_t find_substr_insensitive(char *str, int32_t start, String seek){ int32_t i, j, k; fstr_bool hit; char a_upper, b_upper; if (seek.size == 0){ return str_size(str); } for (i = start; str[i]; ++i){ if (str[i] == seek.str[0]){ hit = 1; for (j = 1, k = i+1; j < seek.size; ++j, ++k){ a_upper = char_to_upper(str[k]); b_upper = char_to_upper(seek.str[j]); if (a_upper != b_upper){ hit = 0; break; } } if (hit){ return i; } } } return i; } FSTRING_LINK int32_t find_substr_insensitive(String str, int32_t start, String seek){ int32_t i, j, k; int32_t stop_at; fstr_bool hit; char a_upper, b_upper; if (seek.size == 0){ return str.size; } stop_at = str.size - seek.size + 1; for (i = start; i < stop_at; ++i){ if (str.str[i] == seek.str[0]){ hit = 1; for (j = 1, k = i+1; j < seek.size; ++j, ++k){ a_upper = char_to_upper(str.str[k]); b_upper = char_to_upper(seek.str[j]); if (a_upper != b_upper){ hit = 0; break; } } if (hit){ return i; } } } return str.size; } FSTRING_LINK int32_t int_to_str_size(int32_t x){ int32_t size = 1; if (x < 0){ size = 2; } x /= 10; while (x != 0){ x /= 10; ++size; } return(size); } FSTRING_LINK fstr_bool int_to_str(String *dest, int32_t x){ fstr_bool result = 1; char *str = dest->str; int32_t memory_size = dest->memory_size; int32_t size, i, j; fstr_bool negative; if (x == 0){ str[0] = '0'; dest->size = 1; } else{ size = 0; negative = 0; if (x < 0){ negative = 1; x = -x; str[size++] = '-'; } while (x != 0){ if (size == memory_size){ result = 0; break; } i = x % 10; x /= 10; str[size++] = (char)('0' + i); } if (result){ // NOTE(allen): Start i = 0 if not negative, start i = 1 if is negative // because - should not be flipped if it is negative :) for (i = negative, j = size-1; i < j; ++i, --j){ char temp = str[i]; str[i] = str[j]; str[j] = temp; } dest->size = size; } else{ dest->size = 0; } } return(result); } FSTRING_LINK fstr_bool append_int_to_str(String *dest, int32_t x){ String last_part = tailstr(*dest); fstr_bool result = int_to_str(&last_part, x); if (result){ dest->size += last_part.size; } return(result); } FSTRING_LINK int32_t u64_to_str_size(uint64_t x){ int32_t size; if (x < 0){ size = 0; } else{ size = 1; x /= 10; while (x != 0){ x /= 10; ++size; } } return(size); } FSTRING_LINK fstr_bool u64_to_str(String *dest, uint64_t x){ fstr_bool result = 1; char *str = dest->str; int32_t memory_size = dest->memory_size; int32_t size, i, j; if (x == 0){ str[0] = '0'; dest->size = 1; } else{ size = 0; while (x != 0){ if (size == memory_size){ result = 0; break; } i = x % 10; x /= 10; str[size++] = (char)('0' + i); } if (result){ for (i = 0, j = size-1; i < j; ++i, --j){ char temp = str[i]; str[i] = str[j]; str[j] = temp; } dest->size = size; } else{ dest->size = 0; } } return(result); } FSTRING_LINK fstr_bool append_u64_to_str(String *dest, uint64_t x){ String last_part = tailstr(*dest); fstr_bool result = u64_to_str(&last_part, x); if (result){ dest->size += last_part.size; } return(result); } FSTRING_LINK int32_t str_to_int(char *str){ int32_t x = 0; for (; *str; ++str){ if (*str >= '0' || *str <= '9'){ x *= 10; x += *str - '0'; } else{ x = 0; break; } } return(x); } FSTRING_LINK int32_t str_to_int(String str){ int32_t x, i; if (str.size == 0){ x = 0; } else{ x = str.str[0] - '0'; for (i = 1; i < str.size; ++i){ x *= 10; x += str.str[i] - '0'; } } return x; } FSTRING_LINK int32_t hexchar_to_int(char c){ int32_t x; if (c >= '0' && c <= '9'){ x = c-'0'; } else if (c > 'F'){ x = c+(10-'a'); } else{ x = c+(10-'A'); } return x; } FSTRING_LINK char int_to_hexchar(int32_t x){ return (x<10)?((char)x+'0'):((char)x+'a'-10); } FSTRING_LINK unsigned int hexstr_to_int(String str){ uint32_t x; int32_t i; if (str.size == 0){ x = 0; } else{ x = hexchar_to_int(str.str[0]); for (i = 1; i < str.size; ++i){ x *= 0x10; x += hexchar_to_int(str.str[i]); } } return x; } FSTRING_LINK fstr_bool color_to_hexstr(uint32_t color, String *s){ fstr_bool result = 0; int32_t i; if (s->memory_size == 7 || s->memory_size == 8){ result = 1; s->size = 6; s->str[6] = 0; color = color & 0x00FFFFFF; for (i = 5; i >= 0; --i){ s->str[i] = int_to_hexchar(color & 0xF); color >>= 4; } } else if (s->memory_size > 8){ result = 1; s->size = 8; s->str[8] = 0; for (i = 7; i >= 0; --i){ s->str[i] = int_to_hexchar(color & 0xF); color >>= 4; } } return(result); } FSTRING_LINK fstr_bool hexstr_to_color(String s, uint32_t *out){ fstr_bool result = 0; uint32_t color = 0; if (s.size == 6){ result = 1; color = (unsigned int)hexstr_to_int(s); color |= (0xFF << 24); *out = color; } else if (s.size == 8){ result = 1; color = (unsigned int)hexstr_to_int(s); *out = color; } return(result); } FSTRING_LINK int32_t copy_fast_unsafe(char *dest, char *src){ char *start = dest; while (*src != 0){ *dest = *src; ++dest; ++src; } return (int)(dest - start); } FSTRING_LINK void copy_fast_unsafe(char *dest, String src){ int32_t i = 0; while (i != src.size){ dest[i] = src.str[i]; ++i; } } FSTRING_LINK fstr_bool copy_checked(String *dest, String src){ char *dest_str; int32_t i; if (dest->memory_size < src.size){ return 0; } dest_str = dest->str; for (i = 0; i < src.size; ++i){ dest_str[i] = src.str[i]; } dest->size = src.size; return 1; } FSTRING_LINK fstr_bool copy_partial(String *dest, char *src){ int32_t i = 0; int32_t memory_size = dest->memory_size; char *dest_str = dest->str; while (src[i] != 0){ if (i >= memory_size){ return 0; } dest_str[i] = src[i]; ++i; } dest->size = i; return 1; } FSTRING_LINK fstr_bool copy_partial(String *dest, String src){ fstr_bool result; int32_t memory_size = dest->memory_size; char *dest_str = dest->str; if (memory_size < src.size){ result = 0; for (int32_t i = 0; i < memory_size; ++i){ dest_str[i] = src.str[i]; } dest->size = memory_size; } else{ result = 1; for (int32_t i = 0; i < src.size; ++i){ dest_str[i] = src.str[i]; } dest->size = src.size; } return result; } FSTRING_LINK fstr_bool append_checked(String *dest, String src){ String end; end = tailstr(*dest); fstr_bool result = copy_checked(&end, src); // NOTE(allen): This depends on end.size still being 0 if // the check failed and no coppy occurred. dest->size += end.size; return result; } FSTRING_LINK fstr_bool append_partial(String *dest, char *src){ String end = tailstr(*dest); fstr_bool result = copy_partial(&end, src); dest->size += end.size; return result; } FSTRING_LINK fstr_bool append_partial(String *dest, String src){ String end = tailstr(*dest); fstr_bool result = copy_partial(&end, src); dest->size += end.size; return result; } FSTRING_LINK fstr_bool append(String *dest, char c){ fstr_bool result = 0; if (dest->size < dest->memory_size){ dest->str[dest->size++] = c; result = 1; } return result; } FSTRING_LINK int32_t compare(char *a, char *b){ int32_t i = 0; while (a[i] == b[i] && a[i] != 0){ ++i; } return (a[i] > b[i]) - (a[i] < b[i]); } FSTRING_LINK int32_t compare(String a, char *b){ int32_t i = 0; while (i < a.size && a.str[i] == b[i]){ ++i; } if (i < a.size){ return (a.str[i] > b[i]) - (a.str[i] < b[i]); } else{ if (b[i] == 0){ return 0; } else{ return -1; } } } FSTRING_LINK int32_t compare(String a, String b){ int32_t i = 0; while (i < a.size && i < b.size && a.str[i] == b.str[i]){ ++i; } if (i < a.size && i < b.size){ return (a.str[i] > b.str[i]) - (a.str[i] < b.str[i]); } else{ return (a.size > b.size) - (a.size < b.size); } } FSTRING_LINK int32_t reverse_seek_slash(String str, int32_t pos){ int32_t i = str.size - 1 - pos; while (i >= 0 && char_not_slash(str.str[i])){ --i; } return i; } FSTRING_LINK int32_t reverse_seek_slash(String str){ return(reverse_seek_slash(str, 0)); } FSTRING_LINK fstr_bool set_last_folder(String *dir, char *folder_name, char slash){ char str[2]; fstr_bool result = 0; int32_t size = reverse_seek_slash(*dir) + 1; dir->size = size; str[0] = slash; str[1] = 0; if (append(dir, folder_name)){ if (append(dir, str)){ result = 1; } } if (!result){ dir->size = size; } return result; } FSTRING_LINK fstr_bool set_last_folder(String *dir, String folder_name, char slash){ char str[2]; fstr_bool result = 0; int32_t size = reverse_seek_slash(*dir) + 1; dir->size = size; str[0] = slash; str[1] = 0; if (append(dir, folder_name)){ if (append(dir, str)){ result = 1; } } if (!result){ dir->size = size; } return result; } FSTRING_LINK String file_extension(String str){ int32_t i; for (i = str.size - 1; i >= 0; --i){ if (str.str[i] == '.') break; } ++i; return make_string(str.str+i, str.size-i); } FSTRING_LINK String file_extension_slowly(char *str){ int32_t s, i; for (s = 0; str[s]; ++s); for (i = s - 1; i >= 0; --i){ if (str[i] == '.') break; } ++i; return make_string(str+i, s-i); } FSTRING_LINK char* file_extension_c(String str){ int32_t i; for (i = str.size - 1; i >= 0; --i){ if (str.str[i] == '.') break; } ++i; return str.str+i; } FSTRING_LINK fstr_bool remove_last_folder(String *str){ fstr_bool result = 0; int32_t end = reverse_seek_slash(*str, 1); if (end >= 0){ result = 1; str->size = end + 1; } return(result); } FSTRING_LINK void replace_char(String str, char replace, char with){ char *s = str.str; int32_t i; for (i = 0; i < str.size; ++i, ++s){ if (*s == replace) *s = with; } } FSTRING_LINK void replace_char(char *str, char replace, char with){ for (; *str; ++str){ if (*str == replace) *str = with; } } // NOTE(allen): experimental section, things below here are // not promoted to public API level yet. #ifndef ArrayCount #define ArrayCount(a) ((sizeof(a))/sizeof(*a)) #endif struct Absolutes{ String a[8]; int32_t count; }; FSTRING_LINK void get_absolutes(String name, Absolutes *absolutes, fstr_bool implicit_first, fstr_bool implicit_last){ int32_t count = 0; int32_t max = ArrayCount(absolutes->a) - 1; if (implicit_last) --max; String str; str.str = name.str; str.size = 0; str.memory_size = 0; fstr_bool prev_was_wild = 0; if (implicit_first){ absolutes->a[count++] = str; prev_was_wild = 1; } int32_t i; for (i = 0; i < name.size; ++i){ if (name.str[i] == '*' && count < max){ if (!prev_was_wild){ str.memory_size = str.size; absolutes->a[count++] = str; str.size = 0; } str.str = name.str + i + 1; prev_was_wild = 1; } else{ ++str.size; prev_was_wild = 0; } } str.memory_size = str.size; absolutes->a[count++] = str; if (implicit_last){ str.size = 0; str.memory_size = 0; absolutes->a[count++] = str; } absolutes->count = count; } FSTRING_LINK fstr_bool wildcard_match(Absolutes *absolutes, char *x, int32_t case_sensitive){ fstr_bool r = 1; String *a = absolutes->a; fstr_bool (*match_func)(char*, String); fstr_bool (*match_part_func)(char*, String); if (case_sensitive){ match_func = match; match_part_func = match_part; } else{ match_func = match_insensitive; match_part_func = match_part_insensitive; } if (absolutes->count == 1){ r = match_func(x, *a); } else{ if (!match_part_func(x, *a)){ r = 0; } else{ String *max = a + absolutes->count - 1; x += a->size; ++a; while (a < max){ if (*x == 0){ r = 0; break; } if (match_part_func(x, *a)){ x += a->size; ++a; } else{ ++x; } } if (r && a->size > 0){ r = 0; while (*x != 0){ if (match_part_func(x, *a) && *(x + a->size) == 0){ r = 1; break; } else{ ++x; } } } } } return r; } FSTRING_LINK fstr_bool wildcard_match(Absolutes *absolutes, String x, int32_t case_sensitive){ terminate_with_null(&x); return wildcard_match(absolutes, x.str, case_sensitive); } #endif // #ifndef FCPP_DID_STRING_IMPLEMENTATION #undef FCPP_STRING_IMPLEMENTATION #endif // #ifdef FCPP_STRING_IMPLEMENTATION // BOTTOM