#include "dynarray.h" #include <stdlib.h> #include <limits.h> void dynarray_init( dynarray_t *a ) { a->count = a->capacity = 0; a->items = NULL; } static void dynarray_reserve_more( dynarray_t *a, int count ) { int old_cap = a->capacity; int new_cap = old_cap; const int max_cap = INT_MAX/sizeof(void*); void** new_items; int new_count = a->count + count; if (count <= 0) return; if (count > max_cap - a->count) abort(); new_count = a->count + count; while (new_cap < new_count) { old_cap = new_cap; new_cap += (new_cap >> 2) + 4; if (new_cap < old_cap || new_cap > max_cap) { new_cap = max_cap; } } new_items = realloc(a->items, new_cap*sizeof(void*)); if (new_items == NULL) abort(); a->items = new_items; a->capacity = new_cap; } void dynarray_append( dynarray_t *a, void* item ) { if (a->count >= a->capacity) dynarray_reserve_more(a, 1); a->items[a->count++] = item; } void dynarray_done( dynarray_t *a ) { free(a->items); a->items = NULL; a->count = a->capacity = 0; } // string arrays void strlist_init( strlist_t *list ) { dynarray_init(list); } void strlist_append_b( strlist_t *list, const void* str, size_t slen ) { char *copy = malloc(slen+1); memcpy(copy, str, slen); copy[slen] = '\0'; dynarray_append(list, copy); } void strlist_append_dup( strlist_t *list, const char *str) { strlist_append_b(list, str, strlen(str)); } void strlist_done( strlist_t *list ) { STRLIST_FOREACH(list, string, free(string)); dynarray_done(list); } static int strlist_compare_strings(const void* a, const void* b) { const char *sa = *(const char **)a; const char *sb = *(const char **)b; return strcmp(sa, sb); } void strlist_sort( strlist_t *list ) { if (list->count > 0) { qsort(list->items, (size_t)list->count, sizeof(void*), strlist_compare_strings); } }