#include "vector.h" #include #include /***************************************************************************** * VECTOR IMPLEMENTATIONS * ***************************************************************************/ struct vector { size_t m_size; void *m_data; size_t m_capacity; size_t m_item_size; }; static int vector_reallocate_(vector_t *vector, size_t new_capacity) { assert(vector); assert(new_capacity > vector->m_capacity); size_t new_size = new_capacity * vector->m_item_size; vector->m_data = F_REALLOC(vector->m_data, new_size); if (vector->m_data == NULL) return -1; return 0; } /* ------------ Constructors & Destructors ----------------------------- */ vector_t *create_vector(size_t item_size, size_t capacity) { vector_t *vector = (vector_t *)F_MALLOC(sizeof(vector_t)); if (vector == NULL) { SYS_LOG_ERROR("Failed to allocate memory for asock vector"); return NULL; } size_t init_size = MAX(item_size * capacity, 1); vector->m_data = F_MALLOC(init_size); if (vector->m_data == NULL) { SYS_LOG_ERROR("Failed to allocate memory for asock vector inern. buffer"); F_FREE(vector); return NULL; } vector->m_size = 0; vector->m_capacity = capacity; vector->m_item_size = item_size; return vector; } void destroy_vector(vector_t *vector) { assert(vector); F_FREE(vector->m_data); F_FREE(vector); } vector_t *copy_vector(vector_t *v) { if (v == NULL) return NULL; vector_t *new_vector = create_vector(v->m_item_size, v->m_capacity); if (new_vector == NULL) return NULL; memcpy(new_vector->m_data, v->m_data, v->m_item_size * v->m_size); new_vector->m_size = v->m_size ; new_vector->m_item_size = v->m_item_size ; return new_vector; } /* ----------- Nonmodifying functions --------------------------------- */ size_t vector_size(const vector_t *vector) { assert(vector); return vector->m_size; } size_t vector_capacity(const vector_t *vector) { assert(vector); return vector->m_capacity; } size_t vector_index_of(const vector_t *vector, const void *item) { assert(vector); assert(item); size_t i = 0; for (i = 0; i < vector->m_size; ++i) { void *data_pos = (char *)vector->m_data + i * vector->m_item_size; if (memcmp(data_pos, item, vector->m_item_size) == 0) { return i; } } return INVALID_VEC_INDEX; } /* ----------- Modifying functions ------------------------------------- */ int vector_push(vector_t *vector, const void *item) { assert(vector); assert(item); if (vector->m_size == vector->m_capacity) { if (vector_reallocate_(vector, vector->m_capacity * 2) == -1) return FT_ERROR; vector->m_capacity = vector->m_capacity * 2; } ptrdiff_t deviation = vector->m_size * vector->m_item_size; memcpy((char *)vector->m_data + deviation, item, vector->m_item_size); ++(vector->m_size); return FT_SUCCESS; } int vector_erase(vector_t *vector, size_t index) { assert(vector); if (vector->m_size == 0 || index >= vector->m_size) return FT_ERROR; memmove((char *)vector->m_data + vector->m_item_size * index, (char *)vector->m_data + vector->m_item_size * (index + 1), (vector->m_size - 1 - index) * vector->m_item_size); vector->m_size--; return FT_SUCCESS; } void vector_clear(vector_t *vector) { vector->m_size = 0; } const void *vector_at_c(const vector_t *vector, size_t index) { if (index >= vector->m_size) return NULL; return (char *)vector->m_data + index * vector->m_item_size; } void *vector_at(vector_t *vector, size_t index) { if (index >= vector->m_size) return NULL; return (char *)vector->m_data + index * vector->m_item_size; } fort_status_t vector_swap(vector_t *cur_vec, vector_t *mv_vec, size_t pos) { assert(cur_vec); assert(mv_vec); assert(cur_vec != mv_vec); assert(cur_vec->m_item_size == mv_vec->m_item_size); size_t cur_sz = vector_size(cur_vec); size_t mv_sz = vector_size(mv_vec); if (mv_sz == 0) { return FT_SUCCESS; } size_t min_targ_size = pos + mv_sz; if (vector_capacity(cur_vec) < min_targ_size) { if (vector_reallocate_(cur_vec, min_targ_size) == -1) return FT_ERROR; cur_vec->m_capacity = min_targ_size; } ptrdiff_t deviation = pos * cur_vec->m_item_size; void *tmp = NULL; size_t new_mv_sz = 0; if (cur_sz > pos) { new_mv_sz = MIN(cur_sz - pos, mv_sz); tmp = F_MALLOC(cur_vec->m_item_size * new_mv_sz); if (tmp == NULL) { return FT_MEMORY_ERROR; } } memcpy(tmp, (char *)cur_vec->m_data + deviation, cur_vec->m_item_size * new_mv_sz); memcpy((char *)cur_vec->m_data + deviation, mv_vec->m_data, cur_vec->m_item_size * mv_sz); memcpy(mv_vec->m_data, tmp, cur_vec->m_item_size * new_mv_sz); cur_vec->m_size = MAX(cur_vec->m_size, min_targ_size); mv_vec->m_size = new_mv_sz; F_FREE(tmp); return FT_SUCCESS; }