206 lines
6.6 KiB
C
206 lines
6.6 KiB
C
// Copyright 2012 Google Inc. All Rights Reserved.
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//
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// Use of this source code is governed by a BSD-style license
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// that can be found in the COPYING file in the root of the source
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// tree. An additional intellectual property rights grant can be found
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// in the file PATENTS. All contributing project authors may
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// be found in the AUTHORS file in the root of the source tree.
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// -----------------------------------------------------------------------------
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//
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// Utilities for building and looking up Huffman trees.
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//
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// Author: Urvang Joshi (urvang@google.com)
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#include <assert.h>
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#include <stdlib.h>
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#include <string.h>
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#include "./huffman.h"
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#include "webp/format_constants.h"
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#include "./utils.h"
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// Huffman data read via DecodeImageStream is represented in two (red and green)
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// bytes.
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#define MAX_HTREE_GROUPS 0x10000
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HTreeGroup* VP8LHtreeGroupsNew(int num_htree_groups) {
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HTreeGroup* const htree_groups =
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(HTreeGroup*)WebPSafeMalloc(num_htree_groups, sizeof(*htree_groups));
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if (htree_groups == NULL) {
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return NULL;
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}
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assert(num_htree_groups <= MAX_HTREE_GROUPS);
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return htree_groups;
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}
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void VP8LHtreeGroupsFree(HTreeGroup* const htree_groups) {
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if (htree_groups != NULL) {
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WebPSafeFree(htree_groups);
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}
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}
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// Returns reverse(reverse(key, len) + 1, len), where reverse(key, len) is the
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// bit-wise reversal of the len least significant bits of key.
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static WEBP_INLINE uint32_t GetNextKey(uint32_t key, int len) {
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uint32_t step = 1 << (len - 1);
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while (key & step) {
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step >>= 1;
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}
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return (key & (step - 1)) + step;
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}
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// Stores code in table[0], table[step], table[2*step], ..., table[end].
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// Assumes that end is an integer multiple of step.
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static WEBP_INLINE void ReplicateValue(HuffmanCode* table,
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int step, int end,
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HuffmanCode code) {
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assert(end % step == 0);
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do {
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end -= step;
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table[end] = code;
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} while (end > 0);
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}
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// Returns the table width of the next 2nd level table. count is the histogram
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// of bit lengths for the remaining symbols, len is the code length of the next
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// processed symbol
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static WEBP_INLINE int NextTableBitSize(const int* const count,
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int len, int root_bits) {
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int left = 1 << (len - root_bits);
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while (len < MAX_ALLOWED_CODE_LENGTH) {
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left -= count[len];
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if (left <= 0) break;
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++len;
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left <<= 1;
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}
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return len - root_bits;
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}
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int VP8LBuildHuffmanTable(HuffmanCode* const root_table, int root_bits,
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const int code_lengths[], int code_lengths_size) {
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HuffmanCode* table = root_table; // next available space in table
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int total_size = 1 << root_bits; // total size root table + 2nd level table
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int* sorted = NULL; // symbols sorted by code length
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int len; // current code length
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int symbol; // symbol index in original or sorted table
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// number of codes of each length:
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int count[MAX_ALLOWED_CODE_LENGTH + 1] = { 0 };
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// offsets in sorted table for each length:
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int offset[MAX_ALLOWED_CODE_LENGTH + 1];
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assert(code_lengths_size != 0);
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assert(code_lengths != NULL);
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assert(root_table != NULL);
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assert(root_bits > 0);
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// Build histogram of code lengths.
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for (symbol = 0; symbol < code_lengths_size; ++symbol) {
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if (code_lengths[symbol] > MAX_ALLOWED_CODE_LENGTH) {
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return 0;
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}
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++count[code_lengths[symbol]];
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}
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// Error, all code lengths are zeros.
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if (count[0] == code_lengths_size) {
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return 0;
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}
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// Generate offsets into sorted symbol table by code length.
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offset[1] = 0;
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for (len = 1; len < MAX_ALLOWED_CODE_LENGTH; ++len) {
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if (count[len] > (1 << len)) {
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return 0;
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}
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offset[len + 1] = offset[len] + count[len];
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}
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sorted = (int*)WebPSafeMalloc(code_lengths_size, sizeof(*sorted));
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if (sorted == NULL) {
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return 0;
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}
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// Sort symbols by length, by symbol order within each length.
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for (symbol = 0; symbol < code_lengths_size; ++symbol) {
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const int symbol_code_length = code_lengths[symbol];
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if (code_lengths[symbol] > 0) {
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sorted[offset[symbol_code_length]++] = symbol;
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}
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}
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// Special case code with only one value.
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if (offset[MAX_ALLOWED_CODE_LENGTH] == 1) {
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HuffmanCode code;
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code.bits = 0;
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code.value = (uint16_t)sorted[0];
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ReplicateValue(table, 1, total_size, code);
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WebPSafeFree(sorted);
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return total_size;
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}
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{
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int step; // step size to replicate values in current table
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uint32_t low = -1; // low bits for current root entry
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uint32_t mask = total_size - 1; // mask for low bits
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uint32_t key = 0; // reversed prefix code
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int num_nodes = 1; // number of Huffman tree nodes
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int num_open = 1; // number of open branches in current tree level
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int table_bits = root_bits; // key length of current table
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int table_size = 1 << table_bits; // size of current table
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symbol = 0;
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// Fill in root table.
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for (len = 1, step = 2; len <= root_bits; ++len, step <<= 1) {
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num_open <<= 1;
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num_nodes += num_open;
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num_open -= count[len];
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if (num_open < 0) {
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WebPSafeFree(sorted);
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return 0;
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}
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for (; count[len] > 0; --count[len]) {
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HuffmanCode code;
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code.bits = (uint8_t)len;
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code.value = (uint16_t)sorted[symbol++];
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ReplicateValue(&table[key], step, table_size, code);
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key = GetNextKey(key, len);
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}
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}
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// Fill in 2nd level tables and add pointers to root table.
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for (len = root_bits + 1, step = 2; len <= MAX_ALLOWED_CODE_LENGTH;
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++len, step <<= 1) {
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num_open <<= 1;
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num_nodes += num_open;
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num_open -= count[len];
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if (num_open < 0) {
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WebPSafeFree(sorted);
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return 0;
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}
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for (; count[len] > 0; --count[len]) {
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HuffmanCode code;
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if ((key & mask) != low) {
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table += table_size;
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table_bits = NextTableBitSize(count, len, root_bits);
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table_size = 1 << table_bits;
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total_size += table_size;
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low = key & mask;
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root_table[low].bits = (uint8_t)(table_bits + root_bits);
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root_table[low].value = (uint16_t)((table - root_table) - low);
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}
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code.bits = (uint8_t)(len - root_bits);
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code.value = (uint16_t)sorted[symbol++];
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ReplicateValue(&table[key >> root_bits], step, table_size, code);
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key = GetNextKey(key, len);
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}
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}
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// Check if tree is full.
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if (num_nodes != 2 * offset[MAX_ALLOWED_CODE_LENGTH] - 1) {
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WebPSafeFree(sorted);
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return 0;
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}
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}
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WebPSafeFree(sorted);
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return total_size;
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}
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