#ifndef STRING_UTILS_H #define STRING_UTILS_H #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include "collections.h" #include "utf8proc/utf8proc.h" #include "vector.h" // NOTE: this particular implementation works only for ASCII strings int string_compare_case_insensitive(const char *str1, const char *str2); int string_compare_n_case_insensitive(const char *str1, const char *str2, size_t len); int string_common_prefix(const char *str1, const char *str2); void string_lower(char *str); void string_upper(char *str); bool string_starts_with(const char *str, const char *start); bool string_ends_with(const char *str, const char *ending); uint string_translate(char *str, size_t len, char *word_chars, char *word_repls, size_t trans_len); char *utf8_reversed_string(const char *s); // returns a copy, caller frees ssize_t utf8proc_iterate_reversed(const uint8_t *str, const uint8_t *start, int32_t *dst); bool utf8_is_letter(int32_t ch); size_t string_ltrim(char *str); size_t string_rtrim(char *str); size_t string_trim(char *str); /* Caller has to free the original string, also keep in mind that after operating on a char array, the pointer to the original string may get realloc'd and change so need to set the char pointer to array.a when done. Consider a macro which does this consistently */ char_array *char_array_from_string(char *str); char *char_array_get_string(char_array *array); // Frees the char_array and returns a standard NUL-terminated string char *char_array_to_string(char_array *array); size_t char_array_len(char_array *array); void char_array_append(char_array *array, char *str); void char_array_append_len(char_array *array, char *str, size_t len); void char_array_terminate(char_array *array); char_array *char_array_copy(char_array *array); // Similar to strcat, strips NUL-byte and guarantees 0-terminated void char_array_cat(char_array *array, char *str); void char_array_cat_len(char_array *array, char *str, size_t len); // Strips NUL-byte but does not NUL-terminate void char_array_cat_unterminated(char_array *array, char *str); void char_array_cat_unterminated_len(char_array *array, char *str, size_t len); // Cat with printf args void char_array_cat_printf(char_array *array, char *format, ...); void char_array_add_joined(char_array *array, char *separator, int count, ...); void char_array_cat_joined(char_array *array, char *separator, int count, ...); /* cstring_arrays represent n strings stored contiguously, delimited by NUL-byte. Instead of storing an array of char pointers (char **), cstring_arrays use this format: array->indices = {0, 4, 9}; array->str = {'f', 'o', 'o', '\0', 'b', 'a', 'r', '\0', 'b', 'a', 'z', '\0'}; Each value in array->indices is the start position of a token in array->str. Each string is NUL-terminated, so array->str->a + 4 is "bar", a valid NUL-terminated C string array->str is a char_array, so all of the powerful methods like char_array_cat_printf above can be used when building the contiguous string arrays as well. */ typedef struct { uint32_array *indices; char_array *str; } cstring_array; cstring_array *cstring_array_new(void); cstring_array *cstring_array_new_size(size_t size); size_t cstring_array_capacity(cstring_array *self); size_t cstring_array_used(cstring_array *self); size_t cstring_array_num_strings(cstring_array *self); void cstring_array_resize(cstring_array *self, size_t size); cstring_array *cstring_array_from_char_array(char_array *str); cstring_array *cstring_array_split(char *str, const char *separator, size_t separator_len, int *count); void cstring_array_join_strings(cstring_array *self, char *separator, int count, ...); uint32_t cstring_array_start_token(cstring_array *self); uint32_t cstring_array_add_string(cstring_array *self, char *str); uint32_t cstring_array_add_string_len(cstring_array *self, char *str, size_t len); void cstring_array_append_string(cstring_array *self, char *str); void cstring_array_append_string_len(cstring_array *self, char *str, size_t len); int32_t cstring_array_get_offset(cstring_array *self, uint32_t i); char *cstring_array_get_token(cstring_array *self, uint32_t i); int64_t cstring_array_token_length(cstring_array *self, uint32_t i); void cstring_array_destroy(cstring_array *self); /* String trees are a way of storing alternative representations of a tokenized string concisely Particularly with hyphens, we may want the string "twenty-five" to normalize to both: twenty five twentyfive so when we encounter "twenty-five", we'd propose both alternative representations as possible normalizations of the token. string_tree is similar to a CSR (compressed sparse row) sparse matrix. @tokens - for token i, tree->tokens[i] is the index in strings->indices where token i's alternatives begin @strings - a contiguous string array which only contains as many tokens as there are alternatives Since we typically only normalize on mid-word hyphens, periods and non-ASCII characters, a string_tree might not need to store anything at all in many languages. */ typedef struct string_tree { uint32_array *token_indices; cstring_array *strings; } string_tree_t; string_tree_t *string_tree_new(void); string_tree_t *string_tree_new_size(size_t size); // finalize void string_tree_finalize_token(string_tree_t *self); // terminated void string_tree_add_string(string_tree_t *self, char *str); void string_tree_add_string_len(string_tree_t *self, char *str, size_t len); // unterminated void string_tree_append_string(string_tree_t *self, char *str); void string_tree_append_string_len(string_tree_t *self, char *str, size_t len); uint32_t string_tree_num_alternatives(string_tree_t *self, uint32_t i); void string_tree_destroy(string_tree_t *self); typedef struct string_tree_iterator { string_tree_t *tree; uint32_t *path; uint32_t *num_alternatives; uint32_t num_tokens; uint32_t cursor; int8_t direction; // 1 or -1 uint32_t remaining; } string_tree_iterator_t; string_tree_iterator_t *string_tree_iterator_new(string_tree_t *tree); void string_tree_iterator_next(string_tree_iterator_t *self); char *string_tree_iterator_get_string(string_tree_iterator_t *self, uint32_t i); bool string_tree_iterator_done(string_tree_iterator_t *self); void string_tree_iterator_destroy(string_tree_iterator_t *self); #ifdef __cplusplus } #endif #endif