#include "string.h" size_t string_get_length(const string_t string) { size_t length = 0; while (string[length] != '\0') { length++; } return length; } void string_to_uppercase(string_t string) { size_t string_length = string_get_length(string); for (size_t index = 0; index < string_length; index++) { string[index] = character_to_upper(string[index]); } string[string_length] = '\0'; } void string_to_lowercase(string_t string) { size_t string_length = string_get_length(string); for (size_t index = 0; index < string_length; index++) { string[index] = character_to_lower(string[index]); } string[string_length] = '\0'; } void string_replace(string_t string, char search, char replace) { size_t string_length = string_get_length(string); for (size_t index = 0; index < string_length; index++) { bool is_search_value = search == string[index]; if (is_search_value) { string[index] = replace; } else { string[index] = string[index]; } } string[string_length] = '\0'; } void string_trim_start(string_t string, char character) { size_t string_length = string_get_length(string); size_t index_space = 0; while (string[index_space] == character) { index_space++; } for (size_t index = 0; index < string_length - index_space; index++) { string[index] = string[index + index_space]; } string[string_length - index_space] = '\0'; } void string_trim_end(string_t string, char character) { size_t string_length = string_get_length(string); size_t index_space = string_length - 1; while (string[index_space] == character) { index_space--; } string[index_space + 1] = '\0'; } void string_trim(string_t string, char character) { string_trim_start(string, character); string_trim_end(string, character); } string_t string_copy(const string_t string) { size_t source_length = string_get_length(string); string_t copy = malloc(sizeof(char) * (source_length + 1)); if (copy == NULL) { exit(EXIT_FAILURE); } size_t index; for (index = 0; index < source_length; index++) { copy[index] = string[index]; } copy[index] = '\0'; return copy; } void string_capitalize(string_t string) { size_t string_length = string_get_length(string); if (string_length == 0) { return; } string[0] = character_to_upper(string[0]); } size_t string_total_occurrences_of_character(string_t string, char character) { size_t result = 0; size_t string_length = string_get_length(string); for (size_t index = 0; index < string_length; index++) { char current_character = string[index]; if (current_character == character) { result += 1; } } return result; } void string_reverse(const string_t string) { size_t string_length = string_get_length(string); size_t index_start = 0; size_t index_end = string_length - 1; while (index_start < index_end) { char temporary = string[index_start]; string[index_start] = string[index_end]; string[index_end] = temporary; index_start++; index_end--; } } bool string_equals(const string_t string1, const string_t string2) { size_t string1_length = string_get_length(string1); size_t string2_length = string_get_length(string2); bool is_equal = string1_length == string2_length; for (size_t index = 0; index < string1_length && is_equal; index++) { if (string1[index] != string2[index]) { is_equal = false; } } return is_equal; } bool string_get_is_integer(const string_t string) { size_t index = 0; size_t string_length = string_get_length(string); bool is_integer = string_length >= 1; if (is_integer && string[0] == '-') { if (string_length == 1) { is_integer = false; } else { index++; } } while (index < string_length && is_integer) { if (!character_get_is_digit(string[index])) { is_integer = false; } index++; } return is_integer; } string_t* string_split(const string_t string, char separator, size_t* result_size) { size_t string_length = string_get_length(string); size_t index_string = 0; size_t index_current = 0; size_t index_result = 0; string_t current = malloc(sizeof(char) * (string_length + 1)); string_t* result = NULL; if (current == NULL) { exit(EXIT_FAILURE); } while (index_string < string_length) { if (string[index_string] == separator) { current[index_current] = '\0'; result = realloc(result, sizeof(string_t) * (index_result + 1)); if (result == NULL) { exit(EXIT_FAILURE); } result[index_result] = string_copy(current); index_result++; index_current = 0; } else { current[index_current] = string[index_string]; index_current++; } index_string++; } current[index_current] = '\0'; result = realloc(result, sizeof(string_t) * (index_result + 1)); if (result == NULL) { exit(EXIT_FAILURE); } result[index_result] = string_copy(current); free(current); *result_size = index_result + 1; return result; } string_t string_join(string_t* array, const char separator, size_t array_length) { size_t total_length = 0; for (size_t index_array = 0; index_array < array_length; index_array++) { total_length += string_get_length(array[index_array]); } size_t string_length = total_length + (array_length - 1); string_t string = malloc(sizeof(char) * (string_length + 1)); if (string == NULL) { exit(EXIT_FAILURE); } size_t current_index = 0; for (size_t index_array = 0; index_array < array_length; index_array++) { string_t substring = array[index_array]; size_t substring_length = string_get_length(substring); for (size_t index_substring = 0; index_substring < substring_length; index_substring++) { string[current_index] = substring[index_substring]; current_index++; } bool is_last_character = index_array == (array_length - 1); if (!is_last_character) { string[current_index] = separator; current_index++; } } string[string_length] = '\0'; return string; } string_t string_concatenate(string_t string1, string_t string2) { size_t string1_length = string_get_length(string1); size_t string2_length = string_get_length(string2); size_t result_length = string1_length + string2_length; string_t result = malloc(sizeof(char) * (result_length + 1)); if (result == NULL) { exit(EXIT_FAILURE); } size_t index_string1 = 0; for (; index_string1 < string1_length; index_string1++) { result[index_string1] = string1[index_string1]; } for (size_t index_string2 = 0; index_string2 < string2_length; index_string2++) { result[index_string1 + index_string2] = string2[index_string2]; } result[result_length] = '\0'; return result; } bool string_get_has_unique_characters(const string_t string) { bool has_unique = true; size_t string_length = string_get_length(string); struct hash_map* characters_already_seen = hash_map_initialization(); string_t* keys = malloc(sizeof(string_t) * string_length); for (size_t index = 0; index < string_length; index++) { keys[index] = NULL; } for (size_t index = 0; index < string_length && has_unique; index++) { char character = string[index]; keys[index] = convert_character_to_string(character); string_t key = keys[index]; if (hash_map_contains_key(characters_already_seen, key)) { has_unique = false; } else { hash_map_add(characters_already_seen, key, (void*)true); } } for (size_t index = 0; index < string_length; index++) { if (keys[index] != NULL) { free(keys[index]); } } free(keys); hash_map_free(characters_already_seen); return has_unique; } string_t string_substring(const string_t string, size_t index_start, size_t index_end) { size_t substring_length = index_end - index_start + 1; string_t result = malloc(sizeof(char) * (substring_length + 1)); for (size_t index = 0; index < substring_length; index++) { result[index] = string[index_start + index]; } result[substring_length] = '\0'; return result; } bool string_get_is_substring(const string_t string, const string_t substring) { bool is_substring = false; size_t string_length = string_get_length(string); size_t substring_length = string_get_length(substring); for (size_t index_string = 0; index_string < string_length && !is_substring; index_string++) { size_t index_substring = 0; size_t index_considered = index_string; while (index_substring < substring_length && string[index_considered] == substring[index_substring]) { index_substring++; index_considered++; } is_substring = index_substring == substring_length; } return is_substring; } string_t string_get_formatted_number(const long long number, string_t separator) { string_t number_string_temp = convert_number_to_string(number); string_t number_string = number_string_temp; bool is_negative = number_string_temp[0] == '-'; if (is_negative) { number_string = string_substring(number_string_temp, 1, string_get_length(number_string_temp)); free(number_string_temp); } size_t number_string_length = string_get_length(number_string); size_t formatted_length = number_string_length + (number_string_length - 1) / 3; string_t result = malloc(sizeof(char) * (formatted_length + 1)); if (result == NULL) { exit(EXIT_FAILURE); } size_t count = 0; size_t result_index = 0; for (size_t index = 0; index < number_string_length; index++) { size_t index_reversed = number_string_length - index - 1; result[result_index] = number_string[index_reversed]; count++; result_index++; if (count == 3 && index != number_string_length - 1) { for (size_t sep_index = 0; sep_index < string_get_length(separator); sep_index++) { result[result_index] = separator[sep_index]; result_index++; } count = 0; } } free(number_string); result[formatted_length] = '\0'; string_reverse(result); if (is_negative) { string_t dash = convert_character_to_string('-'); string_t negative_result = string_concatenate(dash, result); free(result); free(dash); return negative_result; } return result; } string_t string_get_last_occurence_of_character(const string_t string, char character) { size_t string_length = string_get_length(string); size_t index_last_occurrence = SIZE_MAX; for (size_t index = 0; index < string_length; index++) { if (string[index] == character) { index_last_occurrence = index; } } if (index_last_occurrence == SIZE_MAX) { return ""; } string_t result = malloc(sizeof(char) * (string_length - index_last_occurrence + 1)); if (result == NULL) { exit(EXIT_FAILURE); } size_t index_result = 0; for (size_t index = index_last_occurrence; index < string_length; index++) { result[index_result++] = string[index]; } result[index_result] = '\0'; return result; } bool string_starts_with(const string_t string, const string_t prefix) { bool starts_with = true; size_t prefix_length = string_get_length(prefix); for (size_t index = 0; index < prefix_length && starts_with; index++) { starts_with = string[index] == prefix[index]; } return starts_with; } bool string_ends_with(const string_t string, const string_t prefix) { bool ends_with = true; size_t string_length = string_get_length(string); size_t prefix_length = string_get_length(prefix); size_t index_string = string_length - 1; size_t index_prefix = prefix_length - 1; while (index_prefix > 0 && ends_with) { ends_with = string[index_string] == prefix[index_prefix]; index_string--; index_prefix--; } return ends_with; }