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/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/common/array_list.h>
#include <aws/common/private/array_list.h>
#include <stdlib.h> /* qsort */
int aws_array_list_calc_necessary_size(struct aws_array_list *AWS_RESTRICT list, size_t index, size_t *necessary_size) {
AWS_PRECONDITION(aws_array_list_is_valid(list));
size_t index_inc;
if (aws_add_size_checked(index, 1, &index_inc)) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
if (aws_mul_size_checked(index_inc, list->item_size, necessary_size)) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_SUCCESS;
}
int aws_array_list_shrink_to_fit(struct aws_array_list *AWS_RESTRICT list) {
AWS_PRECONDITION(aws_array_list_is_valid(list));
if (list->alloc) {
size_t ideal_size;
if (aws_mul_size_checked(list->length, list->item_size, &ideal_size)) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
if (ideal_size < list->current_size) {
void *raw_data = NULL;
if (ideal_size > 0) {
raw_data = aws_mem_acquire(list->alloc, ideal_size);
if (!raw_data) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
memcpy(raw_data, list->data, ideal_size);
aws_mem_release(list->alloc, list->data);
}
list->data = raw_data;
list->current_size = ideal_size;
}
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_SUCCESS;
}
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return aws_raise_error(AWS_ERROR_LIST_STATIC_MODE_CANT_SHRINK);
}
int aws_array_list_copy(const struct aws_array_list *AWS_RESTRICT from, struct aws_array_list *AWS_RESTRICT to) {
AWS_FATAL_PRECONDITION(from->item_size == to->item_size);
AWS_FATAL_PRECONDITION(from->data);
AWS_PRECONDITION(aws_array_list_is_valid(from));
AWS_PRECONDITION(aws_array_list_is_valid(to));
size_t copy_size;
if (aws_mul_size_checked(from->length, from->item_size, ©_size)) {
AWS_POSTCONDITION(aws_array_list_is_valid(from));
AWS_POSTCONDITION(aws_array_list_is_valid(to));
return AWS_OP_ERR;
}
if (to->current_size >= copy_size) {
if (copy_size > 0) {
memcpy(to->data, from->data, copy_size);
}
to->length = from->length;
AWS_POSTCONDITION(aws_array_list_is_valid(from));
AWS_POSTCONDITION(aws_array_list_is_valid(to));
return AWS_OP_SUCCESS;
}
/* if to is in dynamic mode, we can just reallocate it and copy */
if (to->alloc != NULL) {
void *tmp = aws_mem_acquire(to->alloc, copy_size);
if (!tmp) {
AWS_POSTCONDITION(aws_array_list_is_valid(from));
AWS_POSTCONDITION(aws_array_list_is_valid(to));
return AWS_OP_ERR;
}
memcpy(tmp, from->data, copy_size);
if (to->data) {
aws_mem_release(to->alloc, to->data);
}
to->data = tmp;
to->length = from->length;
to->current_size = copy_size;
AWS_POSTCONDITION(aws_array_list_is_valid(from));
AWS_POSTCONDITION(aws_array_list_is_valid(to));
return AWS_OP_SUCCESS;
}
return aws_raise_error(AWS_ERROR_DEST_COPY_TOO_SMALL);
}
int aws_array_list_ensure_capacity(struct aws_array_list *AWS_RESTRICT list, size_t index) {
AWS_PRECONDITION(aws_array_list_is_valid(list));
size_t necessary_size;
if (aws_array_list_calc_necessary_size(list, index, &necessary_size)) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
if (list->current_size < necessary_size) {
if (!list->alloc) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return aws_raise_error(AWS_ERROR_INVALID_INDEX);
}
/* this will double capacity if the index isn't bigger than what the
* next allocation would be, but allocates the exact requested size if
* it is. This is largely because we don't have a good way to predict
* the usage pattern to make a smart decision about it. However, if the
* user
* is doing this in an iterative fashion, necessary_size will never be
* used.*/
size_t next_allocation_size = list->current_size << 1;
size_t new_size = next_allocation_size > necessary_size ? next_allocation_size : necessary_size;
if (new_size < list->current_size) {
/* this means new_size overflowed. The only way this happens is on a
* 32-bit system where size_t is 32 bits, in which case we're out of
* addressable memory anyways, or we're on a 64 bit system and we're
* most certainly out of addressable memory. But since we're simply
* going to fail fast and say, sorry can't do it, we'll just tell
* the user they can't grow the list anymore. */
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return aws_raise_error(AWS_ERROR_LIST_EXCEEDS_MAX_SIZE);
}
void *temp = aws_mem_acquire(list->alloc, new_size);
if (!temp) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_ERR;
}
if (list->data) {
memcpy(temp, list->data, list->current_size);
#ifdef DEBUG_BUILD
memset(
(void *)((uint8_t *)temp + list->current_size),
AWS_ARRAY_LIST_DEBUG_FILL,
new_size - list->current_size);
#endif
aws_mem_release(list->alloc, list->data);
}
list->data = temp;
list->current_size = new_size;
}
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return AWS_OP_SUCCESS;
}
static void aws_array_list_mem_swap(void *AWS_RESTRICT item1, void *AWS_RESTRICT item2, size_t item_size) {
enum { SLICE = 128 };
AWS_FATAL_PRECONDITION(item1);
AWS_FATAL_PRECONDITION(item2);
/* copy SLICE sized bytes at a time */
size_t slice_count = item_size / SLICE;
uint8_t temp[SLICE];
for (size_t i = 0; i < slice_count; i++) {
memcpy((void *)temp, (void *)item1, SLICE);
memcpy((void *)item1, (void *)item2, SLICE);
memcpy((void *)item2, (void *)temp, SLICE);
item1 = (uint8_t *)item1 + SLICE;
item2 = (uint8_t *)item2 + SLICE;
}
size_t remainder = item_size & (SLICE - 1); /* item_size % SLICE */
memcpy((void *)temp, (void *)item1, remainder);
memcpy((void *)item1, (void *)item2, remainder);
memcpy((void *)item2, (void *)temp, remainder);
}
void aws_array_list_swap(struct aws_array_list *AWS_RESTRICT list, size_t a, size_t b) {
AWS_FATAL_PRECONDITION(a < list->length);
AWS_FATAL_PRECONDITION(b < list->length);
AWS_PRECONDITION(aws_array_list_is_valid(list));
if (a == b) {
AWS_POSTCONDITION(aws_array_list_is_valid(list));
return;
}
void *item1 = NULL;
void *item2 = NULL;
aws_array_list_get_at_ptr(list, &item1, a);
aws_array_list_get_at_ptr(list, &item2, b);
aws_array_list_mem_swap(item1, item2, list->item_size);
AWS_POSTCONDITION(aws_array_list_is_valid(list));
}
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