721 lines
21 KiB
C
721 lines
21 KiB
C
// Copyright 2010 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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// main entry for the decoder
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//
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// Author: Skal (pascal.massimino@gmail.com)
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#include <stdlib.h>
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#include "./alphai_dec.h"
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#include "./vp8i_dec.h"
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#include "./vp8li_dec.h"
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#include "./webpi_dec.h"
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#include "../utils/bit_reader_inl_utils.h"
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#include "../utils/utils.h"
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//------------------------------------------------------------------------------
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int WebPGetDecoderVersion(void) {
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return (DEC_MAJ_VERSION << 16) | (DEC_MIN_VERSION << 8) | DEC_REV_VERSION;
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}
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//------------------------------------------------------------------------------
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// Signature and pointer-to-function for GetCoeffs() variants below.
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typedef int (*GetCoeffsFunc)(VP8BitReader* const br,
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const VP8BandProbas* const prob[],
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int ctx, const quant_t dq, int n, int16_t* out);
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static volatile GetCoeffsFunc GetCoeffs = NULL;
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static void InitGetCoeffs(void);
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//------------------------------------------------------------------------------
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// VP8Decoder
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static void SetOk(VP8Decoder* const dec) {
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dec->status_ = VP8_STATUS_OK;
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dec->error_msg_ = "OK";
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}
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int VP8InitIoInternal(VP8Io* const io, int version) {
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if (WEBP_ABI_IS_INCOMPATIBLE(version, WEBP_DECODER_ABI_VERSION)) {
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return 0; // mismatch error
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}
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if (io != NULL) {
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memset(io, 0, sizeof(*io));
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}
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return 1;
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}
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VP8Decoder* VP8New(void) {
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VP8Decoder* const dec = (VP8Decoder*)WebPSafeCalloc(1ULL, sizeof(*dec));
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if (dec != NULL) {
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SetOk(dec);
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WebPGetWorkerInterface()->Init(&dec->worker_);
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dec->ready_ = 0;
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dec->num_parts_minus_one_ = 0;
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InitGetCoeffs();
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}
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return dec;
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}
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VP8StatusCode VP8Status(VP8Decoder* const dec) {
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if (!dec) return VP8_STATUS_INVALID_PARAM;
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return dec->status_;
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}
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const char* VP8StatusMessage(VP8Decoder* const dec) {
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if (dec == NULL) return "no object";
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if (!dec->error_msg_) return "OK";
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return dec->error_msg_;
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}
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void VP8Delete(VP8Decoder* const dec) {
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if (dec != NULL) {
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VP8Clear(dec);
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WebPSafeFree(dec);
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}
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}
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int VP8SetError(VP8Decoder* const dec,
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VP8StatusCode error, const char* const msg) {
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// The oldest error reported takes precedence over the new one.
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if (dec->status_ == VP8_STATUS_OK) {
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dec->status_ = error;
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dec->error_msg_ = msg;
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dec->ready_ = 0;
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}
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return 0;
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}
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//------------------------------------------------------------------------------
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int VP8CheckSignature(const uint8_t* const data, size_t data_size) {
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return (data_size >= 3 &&
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data[0] == 0x9d && data[1] == 0x01 && data[2] == 0x2a);
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}
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int VP8GetInfo(const uint8_t* data, size_t data_size, size_t chunk_size,
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int* const width, int* const height) {
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if (data == NULL || data_size < VP8_FRAME_HEADER_SIZE) {
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return 0; // not enough data
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}
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// check signature
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if (!VP8CheckSignature(data + 3, data_size - 3)) {
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return 0; // Wrong signature.
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} else {
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const uint32_t bits = data[0] | (data[1] << 8) | (data[2] << 16);
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const int key_frame = !(bits & 1);
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const int w = ((data[7] << 8) | data[6]) & 0x3fff;
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const int h = ((data[9] << 8) | data[8]) & 0x3fff;
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if (!key_frame) { // Not a keyframe.
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return 0;
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}
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if (((bits >> 1) & 7) > 3) {
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return 0; // unknown profile
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}
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if (!((bits >> 4) & 1)) {
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return 0; // first frame is invisible!
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}
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if (((bits >> 5)) >= chunk_size) { // partition_length
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return 0; // inconsistent size information.
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}
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if (w == 0 || h == 0) {
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return 0; // We don't support both width and height to be zero.
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}
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if (width) {
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*width = w;
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}
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if (height) {
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*height = h;
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}
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return 1;
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}
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}
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//------------------------------------------------------------------------------
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// Header parsing
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static void ResetSegmentHeader(VP8SegmentHeader* const hdr) {
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assert(hdr != NULL);
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hdr->use_segment_ = 0;
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hdr->update_map_ = 0;
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hdr->absolute_delta_ = 1;
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memset(hdr->quantizer_, 0, sizeof(hdr->quantizer_));
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memset(hdr->filter_strength_, 0, sizeof(hdr->filter_strength_));
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}
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// Paragraph 9.3
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static int ParseSegmentHeader(VP8BitReader* br,
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VP8SegmentHeader* hdr, VP8Proba* proba) {
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assert(br != NULL);
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assert(hdr != NULL);
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hdr->use_segment_ = VP8Get(br);
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if (hdr->use_segment_) {
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hdr->update_map_ = VP8Get(br);
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if (VP8Get(br)) { // update data
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int s;
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hdr->absolute_delta_ = VP8Get(br);
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for (s = 0; s < NUM_MB_SEGMENTS; ++s) {
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hdr->quantizer_[s] = VP8Get(br) ? VP8GetSignedValue(br, 7) : 0;
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}
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for (s = 0; s < NUM_MB_SEGMENTS; ++s) {
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hdr->filter_strength_[s] = VP8Get(br) ? VP8GetSignedValue(br, 6) : 0;
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}
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}
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if (hdr->update_map_) {
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int s;
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for (s = 0; s < MB_FEATURE_TREE_PROBS; ++s) {
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proba->segments_[s] = VP8Get(br) ? VP8GetValue(br, 8) : 255u;
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}
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}
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} else {
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hdr->update_map_ = 0;
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}
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return !br->eof_;
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}
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// Paragraph 9.5
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// This function returns VP8_STATUS_SUSPENDED if we don't have all the
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// necessary data in 'buf'.
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// This case is not necessarily an error (for incremental decoding).
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// Still, no bitreader is ever initialized to make it possible to read
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// unavailable memory.
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// If we don't even have the partitions' sizes, than VP8_STATUS_NOT_ENOUGH_DATA
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// is returned, and this is an unrecoverable error.
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// If the partitions were positioned ok, VP8_STATUS_OK is returned.
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static VP8StatusCode ParsePartitions(VP8Decoder* const dec,
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const uint8_t* buf, size_t size) {
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VP8BitReader* const br = &dec->br_;
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const uint8_t* sz = buf;
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const uint8_t* buf_end = buf + size;
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const uint8_t* part_start;
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size_t size_left = size;
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size_t last_part;
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size_t p;
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dec->num_parts_minus_one_ = (1 << VP8GetValue(br, 2)) - 1;
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last_part = dec->num_parts_minus_one_;
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if (size < 3 * last_part) {
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// we can't even read the sizes with sz[]! That's a failure.
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return VP8_STATUS_NOT_ENOUGH_DATA;
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}
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part_start = buf + last_part * 3;
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size_left -= last_part * 3;
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for (p = 0; p < last_part; ++p) {
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size_t psize = sz[0] | (sz[1] << 8) | (sz[2] << 16);
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if (psize > size_left) psize = size_left;
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VP8InitBitReader(dec->parts_ + p, part_start, psize);
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part_start += psize;
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size_left -= psize;
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sz += 3;
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}
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VP8InitBitReader(dec->parts_ + last_part, part_start, size_left);
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return (part_start < buf_end) ? VP8_STATUS_OK :
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VP8_STATUS_SUSPENDED; // Init is ok, but there's not enough data
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}
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// Paragraph 9.4
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static int ParseFilterHeader(VP8BitReader* br, VP8Decoder* const dec) {
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VP8FilterHeader* const hdr = &dec->filter_hdr_;
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hdr->simple_ = VP8Get(br);
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hdr->level_ = VP8GetValue(br, 6);
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hdr->sharpness_ = VP8GetValue(br, 3);
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hdr->use_lf_delta_ = VP8Get(br);
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if (hdr->use_lf_delta_) {
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if (VP8Get(br)) { // update lf-delta?
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int i;
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for (i = 0; i < NUM_REF_LF_DELTAS; ++i) {
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if (VP8Get(br)) {
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hdr->ref_lf_delta_[i] = VP8GetSignedValue(br, 6);
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}
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}
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for (i = 0; i < NUM_MODE_LF_DELTAS; ++i) {
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if (VP8Get(br)) {
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hdr->mode_lf_delta_[i] = VP8GetSignedValue(br, 6);
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}
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}
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}
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}
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dec->filter_type_ = (hdr->level_ == 0) ? 0 : hdr->simple_ ? 1 : 2;
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return !br->eof_;
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}
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// Topmost call
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int VP8GetHeaders(VP8Decoder* const dec, VP8Io* const io) {
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const uint8_t* buf;
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size_t buf_size;
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VP8FrameHeader* frm_hdr;
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VP8PictureHeader* pic_hdr;
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VP8BitReader* br;
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VP8StatusCode status;
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if (dec == NULL) {
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return 0;
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}
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SetOk(dec);
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if (io == NULL) {
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return VP8SetError(dec, VP8_STATUS_INVALID_PARAM,
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"null VP8Io passed to VP8GetHeaders()");
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}
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buf = io->data;
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buf_size = io->data_size;
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if (buf_size < 4) {
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return VP8SetError(dec, VP8_STATUS_NOT_ENOUGH_DATA,
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"Truncated header.");
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}
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// Paragraph 9.1
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{
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const uint32_t bits = buf[0] | (buf[1] << 8) | (buf[2] << 16);
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frm_hdr = &dec->frm_hdr_;
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frm_hdr->key_frame_ = !(bits & 1);
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frm_hdr->profile_ = (bits >> 1) & 7;
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frm_hdr->show_ = (bits >> 4) & 1;
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frm_hdr->partition_length_ = (bits >> 5);
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if (frm_hdr->profile_ > 3) {
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return VP8SetError(dec, VP8_STATUS_BITSTREAM_ERROR,
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"Incorrect keyframe parameters.");
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}
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if (!frm_hdr->show_) {
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return VP8SetError(dec, VP8_STATUS_UNSUPPORTED_FEATURE,
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"Frame not displayable.");
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}
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buf += 3;
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buf_size -= 3;
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}
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pic_hdr = &dec->pic_hdr_;
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if (frm_hdr->key_frame_) {
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// Paragraph 9.2
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if (buf_size < 7) {
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return VP8SetError(dec, VP8_STATUS_NOT_ENOUGH_DATA,
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"cannot parse picture header");
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}
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if (!VP8CheckSignature(buf, buf_size)) {
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return VP8SetError(dec, VP8_STATUS_BITSTREAM_ERROR,
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"Bad code word");
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}
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pic_hdr->width_ = ((buf[4] << 8) | buf[3]) & 0x3fff;
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pic_hdr->xscale_ = buf[4] >> 6; // ratio: 1, 5/4 5/3 or 2
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pic_hdr->height_ = ((buf[6] << 8) | buf[5]) & 0x3fff;
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pic_hdr->yscale_ = buf[6] >> 6;
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buf += 7;
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buf_size -= 7;
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dec->mb_w_ = (pic_hdr->width_ + 15) >> 4;
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dec->mb_h_ = (pic_hdr->height_ + 15) >> 4;
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// Setup default output area (can be later modified during io->setup())
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io->width = pic_hdr->width_;
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io->height = pic_hdr->height_;
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// IMPORTANT! use some sane dimensions in crop_* and scaled_* fields.
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// So they can be used interchangeably without always testing for
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// 'use_cropping'.
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io->use_cropping = 0;
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io->crop_top = 0;
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io->crop_left = 0;
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io->crop_right = io->width;
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io->crop_bottom = io->height;
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io->use_scaling = 0;
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io->scaled_width = io->width;
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io->scaled_height = io->height;
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io->mb_w = io->width; // sanity check
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io->mb_h = io->height; // ditto
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VP8ResetProba(&dec->proba_);
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ResetSegmentHeader(&dec->segment_hdr_);
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}
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// Check if we have all the partition #0 available, and initialize dec->br_
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// to read this partition (and this partition only).
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if (frm_hdr->partition_length_ > buf_size) {
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return VP8SetError(dec, VP8_STATUS_NOT_ENOUGH_DATA,
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"bad partition length");
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}
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br = &dec->br_;
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VP8InitBitReader(br, buf, frm_hdr->partition_length_);
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buf += frm_hdr->partition_length_;
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buf_size -= frm_hdr->partition_length_;
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if (frm_hdr->key_frame_) {
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pic_hdr->colorspace_ = VP8Get(br);
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pic_hdr->clamp_type_ = VP8Get(br);
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}
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if (!ParseSegmentHeader(br, &dec->segment_hdr_, &dec->proba_)) {
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return VP8SetError(dec, VP8_STATUS_BITSTREAM_ERROR,
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"cannot parse segment header");
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}
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// Filter specs
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if (!ParseFilterHeader(br, dec)) {
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return VP8SetError(dec, VP8_STATUS_BITSTREAM_ERROR,
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"cannot parse filter header");
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}
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status = ParsePartitions(dec, buf, buf_size);
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if (status != VP8_STATUS_OK) {
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return VP8SetError(dec, status, "cannot parse partitions");
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}
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// quantizer change
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VP8ParseQuant(dec);
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// Frame buffer marking
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if (!frm_hdr->key_frame_) {
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return VP8SetError(dec, VP8_STATUS_UNSUPPORTED_FEATURE,
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"Not a key frame.");
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}
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VP8Get(br); // ignore the value of update_proba_
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VP8ParseProba(br, dec);
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// sanitized state
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dec->ready_ = 1;
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return 1;
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}
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//------------------------------------------------------------------------------
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// Residual decoding (Paragraph 13.2 / 13.3)
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static const uint8_t kCat3[] = { 173, 148, 140, 0 };
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static const uint8_t kCat4[] = { 176, 155, 140, 135, 0 };
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static const uint8_t kCat5[] = { 180, 157, 141, 134, 130, 0 };
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static const uint8_t kCat6[] =
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{ 254, 254, 243, 230, 196, 177, 153, 140, 133, 130, 129, 0 };
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static const uint8_t* const kCat3456[] = { kCat3, kCat4, kCat5, kCat6 };
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static const uint8_t kZigzag[16] = {
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0, 1, 4, 8, 5, 2, 3, 6, 9, 12, 13, 10, 7, 11, 14, 15
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};
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// See section 13-2: http://tools.ietf.org/html/rfc6386#section-13.2
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static int GetLargeValue(VP8BitReader* const br, const uint8_t* const p) {
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int v;
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if (!VP8GetBit(br, p[3])) {
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if (!VP8GetBit(br, p[4])) {
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v = 2;
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} else {
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v = 3 + VP8GetBit(br, p[5]);
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}
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} else {
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if (!VP8GetBit(br, p[6])) {
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if (!VP8GetBit(br, p[7])) {
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v = 5 + VP8GetBit(br, 159);
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} else {
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v = 7 + 2 * VP8GetBit(br, 165);
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v += VP8GetBit(br, 145);
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}
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} else {
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const uint8_t* tab;
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const int bit1 = VP8GetBit(br, p[8]);
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const int bit0 = VP8GetBit(br, p[9 + bit1]);
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const int cat = 2 * bit1 + bit0;
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v = 0;
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for (tab = kCat3456[cat]; *tab; ++tab) {
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v += v + VP8GetBit(br, *tab);
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}
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v += 3 + (8 << cat);
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}
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}
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return v;
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}
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// Returns the position of the last non-zero coeff plus one
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static int GetCoeffsFast(VP8BitReader* const br,
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const VP8BandProbas* const prob[],
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int ctx, const quant_t dq, int n, int16_t* out) {
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const uint8_t* p = prob[n]->probas_[ctx];
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for (; n < 16; ++n) {
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if (!VP8GetBit(br, p[0])) {
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return n; // previous coeff was last non-zero coeff
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}
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while (!VP8GetBit(br, p[1])) { // sequence of zero coeffs
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p = prob[++n]->probas_[0];
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if (n == 16) return 16;
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}
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{ // non zero coeff
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const VP8ProbaArray* const p_ctx = &prob[n + 1]->probas_[0];
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int v;
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if (!VP8GetBit(br, p[2])) {
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v = 1;
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p = p_ctx[1];
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} else {
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v = GetLargeValue(br, p);
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p = p_ctx[2];
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}
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out[kZigzag[n]] = VP8GetSigned(br, v) * dq[n > 0];
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}
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}
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return 16;
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}
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// This version of GetCoeffs() uses VP8GetBitAlt() which is an alternate version
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// of VP8GetBitAlt() targeting specific platforms.
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static int GetCoeffsAlt(VP8BitReader* const br,
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const VP8BandProbas* const prob[],
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int ctx, const quant_t dq, int n, int16_t* out) {
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const uint8_t* p = prob[n]->probas_[ctx];
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for (; n < 16; ++n) {
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if (!VP8GetBitAlt(br, p[0])) {
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return n; // previous coeff was last non-zero coeff
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}
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while (!VP8GetBitAlt(br, p[1])) { // sequence of zero coeffs
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p = prob[++n]->probas_[0];
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if (n == 16) return 16;
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}
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{ // non zero coeff
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const VP8ProbaArray* const p_ctx = &prob[n + 1]->probas_[0];
|
|
int v;
|
|
if (!VP8GetBitAlt(br, p[2])) {
|
|
v = 1;
|
|
p = p_ctx[1];
|
|
} else {
|
|
v = GetLargeValue(br, p);
|
|
p = p_ctx[2];
|
|
}
|
|
out[kZigzag[n]] = VP8GetSigned(br, v) * dq[n > 0];
|
|
}
|
|
}
|
|
return 16;
|
|
}
|
|
|
|
WEBP_TSAN_IGNORE_FUNCTION static void InitGetCoeffs(void) {
|
|
if (GetCoeffs == NULL) {
|
|
if (VP8GetCPUInfo != NULL && VP8GetCPUInfo(kSlowSSSE3)) {
|
|
GetCoeffs = GetCoeffsAlt;
|
|
} else {
|
|
GetCoeffs = GetCoeffsFast;
|
|
}
|
|
}
|
|
}
|
|
|
|
static WEBP_INLINE uint32_t NzCodeBits(uint32_t nz_coeffs, int nz, int dc_nz) {
|
|
nz_coeffs <<= 2;
|
|
nz_coeffs |= (nz > 3) ? 3 : (nz > 1) ? 2 : dc_nz;
|
|
return nz_coeffs;
|
|
}
|
|
|
|
static int ParseResiduals(VP8Decoder* const dec,
|
|
VP8MB* const mb, VP8BitReader* const token_br) {
|
|
const VP8BandProbas* (* const bands)[16 + 1] = dec->proba_.bands_ptr_;
|
|
const VP8BandProbas* const * ac_proba;
|
|
VP8MBData* const block = dec->mb_data_ + dec->mb_x_;
|
|
const VP8QuantMatrix* const q = &dec->dqm_[block->segment_];
|
|
int16_t* dst = block->coeffs_;
|
|
VP8MB* const left_mb = dec->mb_info_ - 1;
|
|
uint8_t tnz, lnz;
|
|
uint32_t non_zero_y = 0;
|
|
uint32_t non_zero_uv = 0;
|
|
int x, y, ch;
|
|
uint32_t out_t_nz, out_l_nz;
|
|
int first;
|
|
|
|
memset(dst, 0, 384 * sizeof(*dst));
|
|
if (!block->is_i4x4_) { // parse DC
|
|
int16_t dc[16] = { 0 };
|
|
const int ctx = mb->nz_dc_ + left_mb->nz_dc_;
|
|
const int nz = GetCoeffs(token_br, bands[1], ctx, q->y2_mat_, 0, dc);
|
|
mb->nz_dc_ = left_mb->nz_dc_ = (nz > 0);
|
|
if (nz > 1) { // more than just the DC -> perform the full transform
|
|
VP8TransformWHT(dc, dst);
|
|
} else { // only DC is non-zero -> inlined simplified transform
|
|
int i;
|
|
const int dc0 = (dc[0] + 3) >> 3;
|
|
for (i = 0; i < 16 * 16; i += 16) dst[i] = dc0;
|
|
}
|
|
first = 1;
|
|
ac_proba = bands[0];
|
|
} else {
|
|
first = 0;
|
|
ac_proba = bands[3];
|
|
}
|
|
|
|
tnz = mb->nz_ & 0x0f;
|
|
lnz = left_mb->nz_ & 0x0f;
|
|
for (y = 0; y < 4; ++y) {
|
|
int l = lnz & 1;
|
|
uint32_t nz_coeffs = 0;
|
|
for (x = 0; x < 4; ++x) {
|
|
const int ctx = l + (tnz & 1);
|
|
const int nz = GetCoeffs(token_br, ac_proba, ctx, q->y1_mat_, first, dst);
|
|
l = (nz > first);
|
|
tnz = (tnz >> 1) | (l << 7);
|
|
nz_coeffs = NzCodeBits(nz_coeffs, nz, dst[0] != 0);
|
|
dst += 16;
|
|
}
|
|
tnz >>= 4;
|
|
lnz = (lnz >> 1) | (l << 7);
|
|
non_zero_y = (non_zero_y << 8) | nz_coeffs;
|
|
}
|
|
out_t_nz = tnz;
|
|
out_l_nz = lnz >> 4;
|
|
|
|
for (ch = 0; ch < 4; ch += 2) {
|
|
uint32_t nz_coeffs = 0;
|
|
tnz = mb->nz_ >> (4 + ch);
|
|
lnz = left_mb->nz_ >> (4 + ch);
|
|
for (y = 0; y < 2; ++y) {
|
|
int l = lnz & 1;
|
|
for (x = 0; x < 2; ++x) {
|
|
const int ctx = l + (tnz & 1);
|
|
const int nz = GetCoeffs(token_br, bands[2], ctx, q->uv_mat_, 0, dst);
|
|
l = (nz > 0);
|
|
tnz = (tnz >> 1) | (l << 3);
|
|
nz_coeffs = NzCodeBits(nz_coeffs, nz, dst[0] != 0);
|
|
dst += 16;
|
|
}
|
|
tnz >>= 2;
|
|
lnz = (lnz >> 1) | (l << 5);
|
|
}
|
|
// Note: we don't really need the per-4x4 details for U/V blocks.
|
|
non_zero_uv |= nz_coeffs << (4 * ch);
|
|
out_t_nz |= (tnz << 4) << ch;
|
|
out_l_nz |= (lnz & 0xf0) << ch;
|
|
}
|
|
mb->nz_ = out_t_nz;
|
|
left_mb->nz_ = out_l_nz;
|
|
|
|
block->non_zero_y_ = non_zero_y;
|
|
block->non_zero_uv_ = non_zero_uv;
|
|
|
|
// We look at the mode-code of each block and check if some blocks have less
|
|
// than three non-zero coeffs (code < 2). This is to avoid dithering flat and
|
|
// empty blocks.
|
|
block->dither_ = (non_zero_uv & 0xaaaa) ? 0 : q->dither_;
|
|
|
|
return !(non_zero_y | non_zero_uv); // will be used for further optimization
|
|
}
|
|
|
|
//------------------------------------------------------------------------------
|
|
// Main loop
|
|
|
|
int VP8DecodeMB(VP8Decoder* const dec, VP8BitReader* const token_br) {
|
|
VP8MB* const left = dec->mb_info_ - 1;
|
|
VP8MB* const mb = dec->mb_info_ + dec->mb_x_;
|
|
VP8MBData* const block = dec->mb_data_ + dec->mb_x_;
|
|
int skip = dec->use_skip_proba_ ? block->skip_ : 0;
|
|
|
|
if (!skip) {
|
|
skip = ParseResiduals(dec, mb, token_br);
|
|
} else {
|
|
left->nz_ = mb->nz_ = 0;
|
|
if (!block->is_i4x4_) {
|
|
left->nz_dc_ = mb->nz_dc_ = 0;
|
|
}
|
|
block->non_zero_y_ = 0;
|
|
block->non_zero_uv_ = 0;
|
|
block->dither_ = 0;
|
|
}
|
|
|
|
if (dec->filter_type_ > 0) { // store filter info
|
|
VP8FInfo* const finfo = dec->f_info_ + dec->mb_x_;
|
|
*finfo = dec->fstrengths_[block->segment_][block->is_i4x4_];
|
|
finfo->f_inner_ |= !skip;
|
|
}
|
|
|
|
return !token_br->eof_;
|
|
}
|
|
|
|
void VP8InitScanline(VP8Decoder* const dec) {
|
|
VP8MB* const left = dec->mb_info_ - 1;
|
|
left->nz_ = 0;
|
|
left->nz_dc_ = 0;
|
|
memset(dec->intra_l_, B_DC_PRED, sizeof(dec->intra_l_));
|
|
dec->mb_x_ = 0;
|
|
}
|
|
|
|
static int ParseFrame(VP8Decoder* const dec, VP8Io* io) {
|
|
for (dec->mb_y_ = 0; dec->mb_y_ < dec->br_mb_y_; ++dec->mb_y_) {
|
|
// Parse bitstream for this row.
|
|
VP8BitReader* const token_br =
|
|
&dec->parts_[dec->mb_y_ & dec->num_parts_minus_one_];
|
|
if (!VP8ParseIntraModeRow(&dec->br_, dec)) {
|
|
return VP8SetError(dec, VP8_STATUS_NOT_ENOUGH_DATA,
|
|
"Premature end-of-partition0 encountered.");
|
|
}
|
|
for (; dec->mb_x_ < dec->mb_w_; ++dec->mb_x_) {
|
|
if (!VP8DecodeMB(dec, token_br)) {
|
|
return VP8SetError(dec, VP8_STATUS_NOT_ENOUGH_DATA,
|
|
"Premature end-of-file encountered.");
|
|
}
|
|
}
|
|
VP8InitScanline(dec); // Prepare for next scanline
|
|
|
|
// Reconstruct, filter and emit the row.
|
|
if (!VP8ProcessRow(dec, io)) {
|
|
return VP8SetError(dec, VP8_STATUS_USER_ABORT, "Output aborted.");
|
|
}
|
|
}
|
|
if (dec->mt_method_ > 0) {
|
|
if (!WebPGetWorkerInterface()->Sync(&dec->worker_)) return 0;
|
|
}
|
|
|
|
return 1;
|
|
}
|
|
|
|
// Main entry point
|
|
int VP8Decode(VP8Decoder* const dec, VP8Io* const io) {
|
|
int ok = 0;
|
|
if (dec == NULL) {
|
|
return 0;
|
|
}
|
|
if (io == NULL) {
|
|
return VP8SetError(dec, VP8_STATUS_INVALID_PARAM,
|
|
"NULL VP8Io parameter in VP8Decode().");
|
|
}
|
|
|
|
if (!dec->ready_) {
|
|
if (!VP8GetHeaders(dec, io)) {
|
|
return 0;
|
|
}
|
|
}
|
|
assert(dec->ready_);
|
|
|
|
// Finish setting up the decoding parameter. Will call io->setup().
|
|
ok = (VP8EnterCritical(dec, io) == VP8_STATUS_OK);
|
|
if (ok) { // good to go.
|
|
// Will allocate memory and prepare everything.
|
|
if (ok) ok = VP8InitFrame(dec, io);
|
|
|
|
// Main decoding loop
|
|
if (ok) ok = ParseFrame(dec, io);
|
|
|
|
// Exit.
|
|
ok &= VP8ExitCritical(dec, io);
|
|
}
|
|
|
|
if (!ok) {
|
|
VP8Clear(dec);
|
|
return 0;
|
|
}
|
|
|
|
dec->ready_ = 0;
|
|
return ok;
|
|
}
|
|
|
|
void VP8Clear(VP8Decoder* const dec) {
|
|
if (dec == NULL) {
|
|
return;
|
|
}
|
|
WebPGetWorkerInterface()->End(&dec->worker_);
|
|
WebPDeallocateAlphaMemory(dec);
|
|
WebPSafeFree(dec->mem_);
|
|
dec->mem_ = NULL;
|
|
dec->mem_size_ = 0;
|
|
memset(&dec->br_, 0, sizeof(dec->br_));
|
|
dec->ready_ = 0;
|
|
}
|
|
|
|
//------------------------------------------------------------------------------
|