#include "regex.h" bool is_case_on = true; static bool is_next_valid(const char * const s) { return *(s + 1); } static bool char_in_range(const char start, const char end, const char character) { if (start > end){ return false; } for (char c = start; c != end; c++) { if (character == c) { return true; } } return false; } static bool is_word_separator(const char character) { return (( isascii(character)) && (!isalnum(character)) && ( character != '_')); } static bool magic(const char magic_char, const char to_enchant) { switch(magic_char){ // \i identifier character (see 'isident' option) // \I like "\i", but excluding digits // \k keyword character (see 'iskeyword' option) // \K like "\k", but excluding digits // \f file name character (see 'isfname' option) // \F like "\f", but excluding digits // \p printable character (see 'isprint' option) // \P like "\p", but excluding digits case 's': { return ((to_enchant == ' ') || (to_enchant == '\t')); } case 'S': { return !((to_enchant == ' ') || (to_enchant == '\t')); } case 'd': { // [0-9] return char_in_range('0', '9', to_enchant); }; case 'D': { // [^0-9] return !char_in_range('0', '9', to_enchant); }; case 'x': { // [0-9A-Fa-f] return char_in_range('0', '9', to_enchant) || char_in_range('A', 'F', to_enchant) || char_in_range('a', 'f', to_enchant); }; case 'X': { // [^0-9A-Fa-f] return !char_in_range('0', '9', to_enchant) && !char_in_range('A', 'F', to_enchant) && !char_in_range('a', 'f', to_enchant); }; case 'o': { // [0-7] return char_in_range('0', '7', to_enchant); }; case 'O': { // [^0-7] return !char_in_range('0', '7', to_enchant); }; case 'w': { // [0-9A-Za-z_] return char_in_range('0', '9', to_enchant) || char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant) || (to_enchant == '_'); }; case 'W': { // [^0-9A-Za-z_] return !(char_in_range('0', '9', to_enchant) || char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant) || (to_enchant == '_')); }; case 'h': { // [A-Za-z_] return char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant) || (to_enchant == '_'); }; case 'H': { // [^A-Za-z_] return !(char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant) || (to_enchant == '_')); }; case 'a': { // [A-Za-z] return char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant); }; case 'A': { // [A-Za-z] return !(char_in_range('A', 'Z', to_enchant) || char_in_range('a', 'z', to_enchant)); }; case 'l': { // [a-z] return char_in_range('a', 'z', to_enchant); }; case 'L': { // [^a-z] return !(char_in_range('a', 'z', to_enchant)); }; case 'u': { // [A-Z] return char_in_range('A', 'Z', to_enchant); }; case 'U': { // [^A-Z] return !(char_in_range('A', 'Z', to_enchant)); }; } return false; } int regex_match(const char * const pattern, const char * const string) { const char * pattern_pointer = pattern; const char * string_pointer = string; while (1488) { // End of one of the arguments if (!(*pattern_pointer)) { break; } if (!(*string_pointer)) { return false; } // Escape character if (*pattern_pointer == '\\') { if (!is_next_valid(pattern_pointer)) { return false; } switch(*(pattern_pointer + 1)){ case 't': { if (*(string_pointer + 1) == '\t') { pattern_pointer += 2; string_pointer += 1; } else { return false; } } break; case 'r': { if (*(string_pointer + 1) == '\r') { pattern_pointer += 2; string_pointer += 1; } else { return false; } } break; case 'e': { if (*(string_pointer + 1) == '\033') { pattern_pointer += 2; string_pointer += 1; } else { return false; } } break; case 'b': { if (*(string_pointer + 1) == '\010') { pattern_pointer += 2; string_pointer += 1; } else { return false; } } break; } if (*(pattern_pointer + 1) == '\\') { if (*string_pointer == '\\') { pattern_pointer += 2; string_pointer += 1; continue; } } if (*(pattern_pointer + 1) == '<' && is_word_separator(*string_pointer)) { pattern_pointer += 2; string_pointer += 1; continue; } if (*(pattern_pointer + 1) == '>') { if (is_word_separator(*(string_pointer + 1))) { pattern_pointer += 2; continue; } if (*(string_pointer + 1) == '\00') { break; } } if (magic(*(pattern_pointer + 1), *string_pointer)) { pattern_pointer += 2; string_pointer += 1; continue; } return false; } // Literal if (*pattern_pointer != *string_pointer) { return false; } else { ++pattern_pointer; ++string_pointer; } } return (string_pointer - string); }