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https://github.com/google/brotli.git
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35e69fc7cf
* New feature: "Large Window Brotli" By setting special encoder/decoder flag it is now possible to extend LZ-window up to 30 bits; though produced stream will not be RFC7932 compliant. Added new dictionary generator - "DSH". It combines speed of "Sieve" and quality of "DM". Plus utilities to prepare train corpora (remove unique strings). Improved compression ratio: now two sub-blocks could be stitched: the last copy command could be extended to span the next sub-block. Fixed compression ineffectiveness caused by floating numbers rounding and wrong cost heuristic. Other C changes: - combined / moved `context.h` to `common` - moved transforms to `common` - unified some aspects of code formatting - added an abstraction for encoder (static) dictionary - moved default allocator/deallocator functions to `common` brotli CLI: - window size is auto-adjusted if not specified explicitly Java: - added "eager" decoding both to JNI wrapper and pure decoder - huge speed-up of `DictionaryData` initialization * Add dictionaryless compressed dictionary * Fix `sources.lst` * Fix `sources.lst` and add a note that `libtool` is also required. * Update setup.py * Fix `EagerStreamTest` * Fix BUILD file * Add missing `libdivsufsort` dependency * Fix "unused parameter" warning.
171 lines
4.8 KiB
C
171 lines
4.8 KiB
C
/* Copyright 2015 Google Inc. All Rights Reserved.
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Distributed under MIT license.
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See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
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*/
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/* Algorithms for distributing the literals and commands of a metablock between
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block types and contexts. */
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#include "./memory.h"
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#include <stdlib.h> /* exit, free, malloc */
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#include <string.h> /* memcpy */
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#include "../common/platform.h"
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#include <brotli/types.h>
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#if defined(__cplusplus) || defined(c_plusplus)
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extern "C" {
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#endif
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#define MAX_PERM_ALLOCATED 128
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#define MAX_NEW_ALLOCATED 64
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#define MAX_NEW_FREED 64
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#define PERM_ALLOCATED_OFFSET 0
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#define NEW_ALLOCATED_OFFSET MAX_PERM_ALLOCATED
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#define NEW_FREED_OFFSET (MAX_PERM_ALLOCATED + MAX_NEW_ALLOCATED)
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void BrotliInitMemoryManager(
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MemoryManager* m, brotli_alloc_func alloc_func, brotli_free_func free_func,
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void* opaque) {
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if (!alloc_func) {
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m->alloc_func = BrotliDefaultAllocFunc;
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m->free_func = BrotliDefaultFreeFunc;
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m->opaque = 0;
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} else {
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m->alloc_func = alloc_func;
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m->free_func = free_func;
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m->opaque = opaque;
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}
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#if !defined(BROTLI_ENCODER_EXIT_ON_OOM)
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m->is_oom = BROTLI_FALSE;
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m->perm_allocated = 0;
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m->new_allocated = 0;
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m->new_freed = 0;
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#endif /* BROTLI_ENCODER_EXIT_ON_OOM */
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}
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#if defined(BROTLI_ENCODER_EXIT_ON_OOM)
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void* BrotliAllocate(MemoryManager* m, size_t n) {
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void* result = m->alloc_func(m->opaque, n);
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if (!result) exit(EXIT_FAILURE);
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return result;
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}
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void BrotliFree(MemoryManager* m, void* p) {
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m->free_func(m->opaque, p);
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}
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void BrotliWipeOutMemoryManager(MemoryManager* m) {
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BROTLI_UNUSED(m);
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}
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#else /* BROTLI_ENCODER_EXIT_ON_OOM */
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static void SortPointers(void** items, const size_t n) {
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/* Shell sort. */
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static const size_t gaps[] = {23, 10, 4, 1};
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int g = 0;
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for (; g < 4; ++g) {
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size_t gap = gaps[g];
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size_t i;
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for (i = gap; i < n; ++i) {
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size_t j = i;
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void* tmp = items[i];
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for (; j >= gap && tmp < items[j - gap]; j -= gap) {
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items[j] = items[j - gap];
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}
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items[j] = tmp;
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}
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}
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}
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static size_t Annihilate(void** a, size_t a_len, void** b, size_t b_len) {
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size_t a_read_index = 0;
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size_t b_read_index = 0;
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size_t a_write_index = 0;
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size_t b_write_index = 0;
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size_t annihilated = 0;
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while (a_read_index < a_len && b_read_index < b_len) {
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if (a[a_read_index] == b[b_read_index]) {
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a_read_index++;
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b_read_index++;
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annihilated++;
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} else if (a[a_read_index] < b[b_read_index]) {
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a[a_write_index++] = a[a_read_index++];
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} else {
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b[b_write_index++] = b[b_read_index++];
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}
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}
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while (a_read_index < a_len) a[a_write_index++] = a[a_read_index++];
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while (b_read_index < b_len) b[b_write_index++] = b[b_read_index++];
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return annihilated;
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}
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static void CollectGarbagePointers(MemoryManager* m) {
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size_t annihilated;
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SortPointers(m->pointers + NEW_ALLOCATED_OFFSET, m->new_allocated);
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SortPointers(m->pointers + NEW_FREED_OFFSET, m->new_freed);
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annihilated = Annihilate(
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m->pointers + NEW_ALLOCATED_OFFSET, m->new_allocated,
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m->pointers + NEW_FREED_OFFSET, m->new_freed);
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m->new_allocated -= annihilated;
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m->new_freed -= annihilated;
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if (m->new_freed != 0) {
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annihilated = Annihilate(
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m->pointers + PERM_ALLOCATED_OFFSET, m->perm_allocated,
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m->pointers + NEW_FREED_OFFSET, m->new_freed);
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m->perm_allocated -= annihilated;
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m->new_freed -= annihilated;
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BROTLI_DCHECK(m->new_freed == 0);
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}
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if (m->new_allocated != 0) {
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BROTLI_DCHECK(m->perm_allocated + m->new_allocated <= MAX_PERM_ALLOCATED);
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memcpy(m->pointers + PERM_ALLOCATED_OFFSET + m->perm_allocated,
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m->pointers + NEW_ALLOCATED_OFFSET,
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sizeof(void*) * m->new_allocated);
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m->perm_allocated += m->new_allocated;
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m->new_allocated = 0;
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SortPointers(m->pointers + PERM_ALLOCATED_OFFSET, m->perm_allocated);
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}
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}
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void* BrotliAllocate(MemoryManager* m, size_t n) {
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void* result = m->alloc_func(m->opaque, n);
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if (!result) {
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m->is_oom = BROTLI_TRUE;
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return NULL;
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}
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if (m->new_allocated == MAX_NEW_ALLOCATED) CollectGarbagePointers(m);
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m->pointers[NEW_ALLOCATED_OFFSET + (m->new_allocated++)] = result;
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return result;
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}
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void BrotliFree(MemoryManager* m, void* p) {
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if (!p) return;
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m->free_func(m->opaque, p);
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if (m->new_freed == MAX_NEW_FREED) CollectGarbagePointers(m);
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m->pointers[NEW_FREED_OFFSET + (m->new_freed++)] = p;
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}
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void BrotliWipeOutMemoryManager(MemoryManager* m) {
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size_t i;
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CollectGarbagePointers(m);
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/* Now all unfreed pointers are in perm-allocated list. */
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for (i = 0; i < m->perm_allocated; ++i) {
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m->free_func(m->opaque, m->pointers[PERM_ALLOCATED_OFFSET + i]);
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}
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m->perm_allocated = 0;
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}
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#endif /* BROTLI_ENCODER_EXIT_ON_OOM */
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#if defined(__cplusplus) || defined(c_plusplus)
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} /* extern "C" */
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#endif
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