/* * blogc: A blog compiler. * Copyright (C) 2014-2016 Rafael G. Martins * * This program can be distributed under the terms of the BSD License. * See the file LICENSE. */ #ifdef HAVE_CONFIG_H #include #endif /* HAVE_CONFIG_H */ #define SB_STRING_CHUNK_SIZE 128 #include #include #include #include #include #include #include #include "utils.h" void* sb_malloc(size_t size) { // simple things simple! void *rv = malloc(size); if (rv == NULL) { fprintf(stderr, "fatal: Failed to allocate memory!\n"); abort(); } return rv; } void* sb_realloc(void *ptr, size_t size) { // simple things even simpler :P void *rv = realloc(ptr, size); if (rv == NULL && size != 0) { fprintf(stderr, "fatal: Failed to reallocate memory!\n"); free(ptr); abort(); } return rv; } sb_slist_t* sb_slist_append(sb_slist_t *l, void *data) { sb_slist_t *node = sb_malloc(sizeof(sb_slist_t)); node->data = data; node->next = NULL; if (l == NULL) { l = node; } else { sb_slist_t *tmp; for (tmp = l; tmp->next != NULL; tmp = tmp->next); tmp->next = node; } return l; } sb_slist_t* sb_slist_prepend(sb_slist_t *l, void *data) { sb_slist_t *node = sb_malloc(sizeof(sb_slist_t)); node->data = data; node->next = l; l = node; return l; } void sb_slist_free_full(sb_slist_t *l, sb_free_func_t free_func) { while (l != NULL) { sb_slist_t *tmp = l->next; if ((free_func != NULL) && (l->data != NULL)) free_func(l->data); free(l); l = tmp; } } void sb_slist_free(sb_slist_t *l) { sb_slist_free_full(l, NULL); } size_t sb_slist_length(sb_slist_t *l) { if (l == NULL) return 0; size_t i; sb_slist_t *tmp; for (tmp = l, i = 0; tmp != NULL; tmp = tmp->next, i++); return i; } char* sb_strdup(const char *s) { if (s == NULL) return NULL; size_t l = strlen(s); char *tmp = malloc(l + 1); if (tmp == NULL) return NULL; memcpy(tmp, s, l + 1); return tmp; } char* sb_strndup(const char *s, size_t n) { if (s == NULL) return NULL; size_t l = strnlen(s, n); char *tmp = malloc(l + 1); if (tmp == NULL) return NULL; memcpy(tmp, s, l); tmp[l] = '\0'; return tmp; } char* sb_strdup_vprintf(const char *format, va_list ap) { va_list ap2; va_copy(ap2, ap); int l = vsnprintf(NULL, 0, format, ap2); va_end(ap2); if (l < 0) return NULL; char *tmp = malloc(l + 1); if (!tmp) return NULL; int l2 = vsnprintf(tmp, l + 1, format, ap); if (l2 < 0) { free(tmp); return NULL; } return tmp; } char* sb_strdup_printf(const char *format, ...) { va_list ap; va_start(ap, format); char *tmp = sb_strdup_vprintf(format, ap); va_end(ap); return tmp; } bool sb_str_starts_with(const char *str, const char *prefix) { int str_l = strlen(str); int str_lp = strlen(prefix); if (str_lp > str_l) return false; return strncmp(str, prefix, str_lp) == 0; } bool sb_str_ends_with(const char *str, const char *suffix) { int str_l = strlen(str); int str_ls = strlen(suffix); if (str_ls > str_l) return false; return strcmp(str + str_l - str_ls, suffix) == 0; } char* sb_str_lstrip(char *str) { if (str == NULL) return NULL; int i; size_t str_len = strlen(str); for (i = 0; i < str_len; i++) { if ((str[i] != ' ') && (str[i] != '\t') && (str[i] != '\n') && (str[i] != '\r') && (str[i] != '\t') && (str[i] != '\f') && (str[i] != '\v')) { str += i; break; } if (i == str_len - 1) { str += str_len; break; } } return str; } char* sb_str_rstrip(char *str) { if (str == NULL) return NULL; int i; size_t str_len = strlen(str); for (i = str_len - 1; i >= 0; i--) { if ((str[i] != ' ') && (str[i] != '\t') && (str[i] != '\n') && (str[i] != '\r') && (str[i] != '\t') && (str[i] != '\f') && (str[i] != '\v')) { str[i + 1] = '\0'; break; } if (i == 0) { str[0] = '\0'; break; } } return str; } char* sb_str_strip(char *str) { return sb_str_lstrip(sb_str_rstrip(str)); } char** sb_str_split(const char *str, char c, unsigned int max_pieces) { if (str == NULL) return NULL; char **rv = sb_malloc(sizeof(char*)); unsigned int i, start = 0, count = 0; for (i = 0; i < strlen(str) + 1; i++) { if (str[0] == '\0') break; if ((str[i] == c && (!max_pieces || count + 1 < max_pieces)) || str[i] == '\0') { rv = sb_realloc(rv, (count + 1) * sizeof(char*)); rv[count] = sb_malloc(i - start + 1); memcpy(rv[count], str + start, i - start); rv[count++][i - start] = '\0'; start = i + 1; } } rv = sb_realloc(rv, (count + 1) * sizeof(char*)); rv[count] = NULL; return rv; } char* sb_str_replace(const char *str, const char search, const char *replace) { char **pieces = sb_str_split(str, search, 0); if (pieces == NULL) return NULL; char* rv = sb_strv_join(pieces, replace); sb_strv_free(pieces); if (rv == NULL) return sb_strdup(str); return rv; } void sb_strv_free(char **strv) { if (strv == NULL) return; for (size_t i = 0; strv[i] != NULL; i++) free(strv[i]); free(strv); } char* sb_strv_join(char **strv, const char *separator) { if (strv == NULL || separator == NULL) return NULL; sb_string_t *str = sb_string_new(); for (size_t i = 0; strv[i] != NULL; i++) { str = sb_string_append(str, strv[i]); if (strv[i + 1] != NULL) str = sb_string_append(str, separator); } return sb_string_free(str, false); } size_t sb_strv_length(char **strv) { if (strv == NULL) return 0; size_t i; for (i = 0; strv[i] != NULL; i++); return i; } sb_string_t* sb_string_new(void) { sb_string_t* rv = sb_malloc(sizeof(sb_string_t)); rv->str = NULL; rv->len = 0; rv->allocated_len = 0; // initialize with empty string rv = sb_string_append(rv, ""); return rv; } char* sb_string_free(sb_string_t *str, bool free_str) { if (str == NULL) return NULL; char *rv = NULL; if (free_str) free(str->str); else rv = str->str; free(str); return rv; } sb_string_t* sb_string_dup(sb_string_t *str) { if (str == NULL) return NULL; sb_string_t* new = sb_string_new(); return sb_string_append_len(new, str->str, str->len); } sb_string_t* sb_string_append_len(sb_string_t *str, const char *suffix, size_t len) { if (str == NULL) return NULL; if (suffix == NULL) return str; size_t old_len = str->len; str->len += len; if (str->len + 1 > str->allocated_len) { str->allocated_len = (((str->len + 1) / SB_STRING_CHUNK_SIZE) + 1) * SB_STRING_CHUNK_SIZE; str->str = sb_realloc(str->str, str->allocated_len); } memcpy(str->str + old_len, suffix, len); str->str[str->len] = '\0'; return str; } sb_string_t* sb_string_append(sb_string_t *str, const char *suffix) { if (str == NULL) return NULL; const char *my_suffix = suffix == NULL ? "" : suffix; return sb_string_append_len(str, my_suffix, strlen(my_suffix)); } sb_string_t* sb_string_append_c(sb_string_t *str, char c) { if (str == NULL) return NULL; size_t old_len = str->len; str->len += 1; if (str->len + 1 > str->allocated_len) { str->allocated_len = (((str->len + 1) / SB_STRING_CHUNK_SIZE) + 1) * SB_STRING_CHUNK_SIZE; str->str = sb_realloc(str->str, str->allocated_len); } str->str[old_len] = c; str->str[str->len] = '\0'; return str; } sb_string_t* sb_string_append_printf(sb_string_t *str, const char *format, ...) { if (str == NULL) return NULL; va_list ap; va_start(ap, format); char *tmp = sb_strdup_vprintf(format, ap); va_end(ap); str = sb_string_append(str, tmp); free(tmp); return str; } sb_trie_t* sb_trie_new(sb_free_func_t free_func) { sb_trie_t *trie = sb_malloc(sizeof(sb_trie_t)); trie->root = NULL; trie->free_func = free_func; return trie; } static void sb_trie_free_node(sb_trie_t *trie, sb_trie_node_t *node) { if (trie == NULL || node == NULL) return; if (node->data != NULL && trie->free_func != NULL) trie->free_func(node->data); sb_trie_free_node(trie, node->next); sb_trie_free_node(trie, node->child); free(node); } void sb_trie_free(sb_trie_t *trie) { if (trie == NULL) return; sb_trie_free_node(trie, trie->root); free(trie); } void sb_trie_insert(sb_trie_t *trie, const char *key, void *data) { if (trie == NULL || key == NULL || data == NULL) return; sb_trie_node_t *parent = NULL; sb_trie_node_t *previous; sb_trie_node_t *current; sb_trie_node_t *tmp; while (1) { if (trie->root == NULL || (parent != NULL && parent->child == NULL)) { current = sb_malloc(sizeof(sb_trie_node_t)); current->key = *key; current->data = NULL; current->next = NULL; current->child = NULL; if (trie->root == NULL) trie->root = current; else parent->child = current; parent = current; goto clean; } tmp = parent == NULL ? trie->root : parent->child; previous = NULL; while (tmp != NULL && tmp->key != *key) { previous = tmp; tmp = tmp->next; } parent = tmp; if (previous == NULL || parent != NULL) goto clean; current = sb_malloc(sizeof(sb_trie_node_t)); current->key = *key; current->data = NULL; current->next = NULL; current->child = NULL; previous->next = current; parent = current; clean: if (*key == '\0') { if (parent->data != NULL && trie->free_func != NULL) trie->free_func(parent->data); parent->data = data; break; } key++; } } void* sb_trie_lookup(sb_trie_t *trie, const char *key) { if (trie == NULL || trie->root == NULL || key == NULL) return NULL; sb_trie_node_t *parent = trie->root; sb_trie_node_t *tmp; while (1) { for (tmp = parent; tmp != NULL; tmp = tmp->next) { if (tmp->key == *key) { if (tmp->key == '\0') return tmp->data; parent = tmp->child; break; } } if (tmp == NULL) return NULL; if (*key == '\0') break; key++; } return NULL; } static void sb_trie_size_node(sb_trie_node_t *node, size_t *count) { if (node == NULL || count == NULL) return; if (node->key == '\0') (*count)++; sb_trie_size_node(node->next, count); sb_trie_size_node(node->child, count); } size_t sb_trie_size(sb_trie_t *trie) { if (trie == NULL) return 0; size_t count = 0; sb_trie_size_node(trie->root, &count); return count; } static void sb_trie_foreach_node(sb_trie_node_t *node, sb_string_t *str, sb_trie_foreach_func_t func, void *user_data) { if (node == NULL || str == NULL || func == NULL) return; if (node->key == '\0') { char *tmp = sb_string_free(str, false); func(tmp, node->data, user_data); free(tmp); } if (node->child != NULL) { sb_string_t *child = sb_string_dup(str); child = sb_string_append_c(child, node->key); sb_trie_foreach_node(node->child, child, func, user_data); } if (node->next != NULL) sb_trie_foreach_node(node->next, str, func, user_data); if (node->child != NULL && node->next == NULL) sb_string_free(str, true); } void sb_trie_foreach(sb_trie_t *trie, sb_trie_foreach_func_t func, void *user_data) { if (trie == NULL || trie->root == NULL || func == NULL) return; sb_string_t *str = sb_string_new(); sb_trie_foreach_node(trie->root, str, func, user_data); }