// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// This file contains an implementation of a VP9 bitstream parser. The main
// purpose of this parser is to support hardware decode acceleration. Some
// accelerators, e.g. libva which implements VA-API, require the caller
// (chrome) to feed them parsed VP9 frame header.
//
// See media::VP9Decoder for example usage.
//
// Note: ported from Chromium commit head: ec6c6e0
#ifndef VP9_PARSER_H_
#define VP9_PARSER_H_
#include <stddef.h>
#include <stdint.h>
#include <sys/types.h>
#include <deque>
#include <memory>
#include "base/callback.h"
#include "base/macros.h"
#include "base/memory/weak_ptr.h"
namespace media {
const int kVp9MaxProfile = 4;
const int kVp9NumRefFramesLog2 = 3;
const size_t kVp9NumRefFrames = 1 << kVp9NumRefFramesLog2;
const uint8_t kVp9MaxProb = 255;
const size_t kVp9NumRefsPerFrame = 3;
const size_t kVp9NumFrameContextsLog2 = 2;
const size_t kVp9NumFrameContexts = 1 << kVp9NumFrameContextsLog2;
using Vp9Prob = uint8_t;
enum class Vp9ColorSpace {
UNKNOWN = 0,
BT_601 = 1,
BT_709 = 2,
SMPTE_170 = 3,
SMPTE_240 = 4,
BT_2020 = 5,
RESERVED = 6,
SRGB = 7,
};
enum Vp9InterpolationFilter {
EIGHTTAP = 0,
EIGHTTAP_SMOOTH = 1,
EIGHTTAP_SHARP = 2,
BILINEAR = 3,
SWITCHABLE = 4,
};
enum Vp9RefType {
VP9_FRAME_INTRA = 0,
VP9_FRAME_LAST = 1,
VP9_FRAME_GOLDEN = 2,
VP9_FRAME_ALTREF = 3,
VP9_FRAME_MAX = 4,
};
enum Vp9ReferenceMode {
SINGLE_REFERENCE = 0,
COMPOUND_REFERENCE = 1,
REFERENCE_MODE_SELECT = 2,
};
struct Vp9SegmentationParams {
static const size_t kNumSegments = 8;
static const size_t kNumTreeProbs = kNumSegments - 1;
static const size_t kNumPredictionProbs = 3;
enum SegmentLevelFeature {
SEG_LVL_ALT_Q = 0,
SEG_LVL_ALT_LF = 1,
SEG_LVL_REF_FRAME = 2,
SEG_LVL_SKIP = 3,
SEG_LVL_MAX
};
bool enabled;
bool update_map;
uint8_t tree_probs[kNumTreeProbs];
bool temporal_update;
uint8_t pred_probs[kNumPredictionProbs];
bool update_data;
bool abs_or_delta_update;
bool feature_enabled[kNumSegments][SEG_LVL_MAX];
int16_t feature_data[kNumSegments][SEG_LVL_MAX];
int16_t y_dequant[kNumSegments][2];
int16_t uv_dequant[kNumSegments][2];
bool FeatureEnabled(size_t seg_id, SegmentLevelFeature feature) const {
return feature_enabled[seg_id][feature];
}
int16_t FeatureData(size_t seg_id, SegmentLevelFeature feature) const {
return feature_data[seg_id][feature];
}
};
struct Vp9LoopFilterParams {
static const size_t kNumModeDeltas = 2;
uint8_t level;
uint8_t sharpness;
bool delta_enabled;
bool delta_update;
bool update_ref_deltas[VP9_FRAME_MAX];
int8_t ref_deltas[VP9_FRAME_MAX];
bool update_mode_deltas[kNumModeDeltas];
int8_t mode_deltas[kNumModeDeltas];
// Calculated from above fields.
uint8_t lvl[Vp9SegmentationParams::kNumSegments][VP9_FRAME_MAX]
[kNumModeDeltas];
};
// Members of Vp9FrameHeader will be 0-initialized by Vp9Parser::ParseNextFrame.
struct Vp9QuantizationParams {
bool IsLossless() const {
return base_q_idx == 0 && delta_q_y_dc == 0 && delta_q_uv_dc == 0 &&
delta_q_uv_ac == 0;
}
uint8_t base_q_idx;
int8_t delta_q_y_dc;
int8_t delta_q_uv_dc;
int8_t delta_q_uv_ac;
};
// Entropy context for frame parsing
struct Vp9FrameContext {
bool IsValid() const;
Vp9Prob tx_probs_8x8[2][1];
Vp9Prob tx_probs_16x16[2][2];
Vp9Prob tx_probs_32x32[2][3];
Vp9Prob coef_probs[4][2][2][6][6][3];
Vp9Prob skip_prob[3];
Vp9Prob inter_mode_probs[7][3];
Vp9Prob interp_filter_probs[4][2];
Vp9Prob is_inter_prob[4];
Vp9Prob comp_mode_prob[5];
Vp9Prob single_ref_prob[5][2];
Vp9Prob comp_ref_prob[5];
Vp9Prob y_mode_probs[4][9];
Vp9Prob uv_mode_probs[10][9];
Vp9Prob partition_probs[16][3];
Vp9Prob mv_joint_probs[3];
Vp9Prob mv_sign_prob[2];
Vp9Prob mv_class_probs[2][10];
Vp9Prob mv_class0_bit_prob[2];
Vp9Prob mv_bits_prob[2][10];
Vp9Prob mv_class0_fr_probs[2][2][3];
Vp9Prob mv_fr_probs[2][3];
Vp9Prob mv_class0_hp_prob[2];
Vp9Prob mv_hp_prob[2];
};
struct Vp9CompressedHeader {
enum Vp9TxMode {
ONLY_4X4 = 0,
ALLOW_8X8 = 1,
ALLOW_16X16 = 2,
ALLOW_32X32 = 3,
TX_MODE_SELECT = 4,
TX_MODES = 5,
};
Vp9TxMode tx_mode;
Vp9ReferenceMode reference_mode;
};
// VP9 frame header.
struct Vp9FrameHeader {
enum FrameType {
KEYFRAME = 0,
INTERFRAME = 1,
};
bool IsKeyframe() const;
bool IsIntra() const;
bool RefreshFlag(size_t i) const {
return !!(refresh_frame_flags & (1u << i));
}
uint8_t profile;
bool show_existing_frame;
uint8_t frame_to_show_map_idx;
FrameType frame_type;
bool show_frame;
bool error_resilient_mode;
uint8_t bit_depth;
Vp9ColorSpace color_space;
bool color_range;
uint8_t subsampling_x;
uint8_t subsampling_y;
// The range of frame_width and frame_height is 1..2^16.
uint32_t frame_width;
uint32_t frame_height;
uint32_t render_width;
uint32_t render_height;
bool intra_only;
uint8_t reset_frame_context;
uint8_t refresh_frame_flags;
uint8_t ref_frame_idx[kVp9NumRefsPerFrame];
bool ref_frame_sign_bias[Vp9RefType::VP9_FRAME_MAX];
bool allow_high_precision_mv;
Vp9InterpolationFilter interpolation_filter;
bool refresh_frame_context;
bool frame_parallel_decoding_mode;
uint8_t frame_context_idx;
// |frame_context_idx_to_save_probs| is to be used by save_probs() only, and
// |frame_context_idx| otherwise.
uint8_t frame_context_idx_to_save_probs;
Vp9QuantizationParams quant_params;
uint8_t tile_cols_log2;
uint8_t tile_rows_log2;
// Pointer to the beginning of frame data. It is a responsibility of the
// client of the Vp9Parser to maintain validity of this data while it is
// being used outside of that class.
const uint8_t* data;
// Size of |data| in bytes.
size_t frame_size;
// Size of compressed header in bytes.
size_t header_size_in_bytes;
// Size of uncompressed header in bytes.
size_t uncompressed_header_size;
Vp9CompressedHeader compressed_header;
// Initial frame entropy context after load_probs2(frame_context_idx).
Vp9FrameContext initial_frame_context;
// Current frame entropy context after header parsing.
Vp9FrameContext frame_context;
};
// A parser for VP9 bitstream.
class Vp9Parser {
public:
// If context update is needed after decoding a frame, the client must
// execute this callback, passing the updated context state.
using ContextRefreshCallback = base::Callback<void(const Vp9FrameContext&)>;
// ParseNextFrame() return values. See documentation for ParseNextFrame().
enum Result {
kOk,
kInvalidStream,
kEOStream,
kAwaitingRefresh,
};
// The parsing context to keep track of references.
struct ReferenceSlot {
bool initialized;
uint32_t frame_width;
uint32_t frame_height;
uint8_t subsampling_x;
uint8_t subsampling_y;
uint8_t bit_depth;
// More fields for consistency checking.
uint8_t profile;
Vp9ColorSpace color_space;
};
// The parsing context that persists across frames.
class Context {
public:
class Vp9FrameContextManager {
public:
Vp9FrameContextManager();
~Vp9FrameContextManager();
bool initialized() const { return initialized_; }
bool needs_client_update() const { return needs_client_update_; }
const Vp9FrameContext& frame_context() const;
// Resets to uninitialized state.
void Reset();
// Marks this context as requiring an update from parser's client.
void SetNeedsClientUpdate();
// Updates frame context.
void Update(const Vp9FrameContext& frame_context);
// Returns a callback to update frame context at a later time with.
ContextRefreshCallback GetUpdateCb();
private:
// Updates frame context from parser's client.
void UpdateFromClient(const Vp9FrameContext& frame_context);
bool initialized_ = false;
bool needs_client_update_ = false;
Vp9FrameContext frame_context_;
base::WeakPtrFactory<Vp9FrameContextManager> weak_ptr_factory_;
};
void Reset();
// Mark |frame_context_idx| as requiring update from the client.
void MarkFrameContextForUpdate(size_t frame_context_idx);
// Update frame context at |frame_context_idx| with the contents of
// |frame_context|.
void UpdateFrameContext(size_t frame_context_idx,
const Vp9FrameContext& frame_context);
// Return ReferenceSlot for frame at |ref_idx|.
const ReferenceSlot& GetRefSlot(size_t ref_idx) const;
// Update contents of ReferenceSlot at |ref_idx| with the contents of
// |ref_slot|.
void UpdateRefSlot(size_t ref_idx, const ReferenceSlot& ref_slot);
const Vp9SegmentationParams& segmentation() const { return segmentation_; }
const Vp9LoopFilterParams& loop_filter() const { return loop_filter_; }
private:
friend class Vp9UncompressedHeaderParser;
friend class Vp9Parser;
// Segmentation and loop filter state.
Vp9SegmentationParams segmentation_;
Vp9LoopFilterParams loop_filter_;
// Frame references.
ReferenceSlot ref_slots_[kVp9NumRefFrames];
Vp9FrameContextManager frame_context_managers_[kVp9NumFrameContexts];
};
// The constructor. See ParseNextFrame() for comments for
// |parsing_compressed_header|.
explicit Vp9Parser(bool parsing_compressed_header);
~Vp9Parser();
// Set a new stream buffer to read from, starting at |stream| and of size
// |stream_size| in bytes. |stream| must point to the beginning of a single
// frame or a single superframe, is owned by caller and must remain valid
// until the next call to SetStream().
void SetStream(const uint8_t* stream, off_t stream_size);
// Parse the next frame in the current stream buffer, filling |fhdr| with
// the parsed frame header and updating current segmentation and loop filter
// state.
// Return kOk if a frame has successfully been parsed,
// kEOStream if there is no more data in the current stream buffer,
// kAwaitingRefresh if this frame awaiting frame context update, or
// kInvalidStream on error.
Result ParseNextFrame(Vp9FrameHeader* fhdr);
// Return current parsing context.
const Context& context() const { return context_; }
// Return a ContextRefreshCallback, which, if not null, has to be called with
// the new context state after the frame associated with |frame_context_idx|
// is decoded.
ContextRefreshCallback GetContextRefreshCb(size_t frame_context_idx);
// Clear parser state and return to an initialized state.
void Reset();
private:
// Stores start pointer and size of each frame within the current superframe.
struct FrameInfo {
FrameInfo() = default;
FrameInfo(const uint8_t* ptr, off_t size);
bool IsValid() const { return ptr != nullptr; }
void Reset() { ptr = nullptr; }
// Starting address of the frame.
const uint8_t* ptr = nullptr;
// Size of the frame in bytes.
off_t size = 0;
};
std::deque<FrameInfo> ParseSuperframe();
// Returns true and populates |result| with the parsing result if parsing of
// current frame is finished (possibly unsuccessfully). |fhdr| will only be
// populated and valid if |result| is kOk. Otherwise return false, indicating
// that the compressed header must be parsed next.
bool ParseUncompressedHeader(const FrameInfo& frame_info,
Vp9FrameHeader* fhdr,
Result* result);
// Returns true if parsing of current frame is finished and |result| will be
// populated with value of parsing result. Otherwise, needs to continue setup
// current frame.
bool ParseCompressedHeader(const FrameInfo& frame_info, Result* result);
size_t GetQIndex(const Vp9QuantizationParams& quant, size_t segid) const;
// Returns true if the setup succeeded.
bool SetupSegmentationDequant();
void SetupLoopFilter();
void UpdateSlots();
// Current address in the bitstream buffer.
const uint8_t* stream_;
// Remaining bytes in stream_.
off_t bytes_left_;
const bool parsing_compressed_header_;
// FrameInfo for the remaining frames in the current superframe to be parsed.
std::deque<FrameInfo> frames_;
Context context_;
FrameInfo curr_frame_info_;
Vp9FrameHeader curr_frame_header_;
DISALLOW_COPY_AND_ASSIGN(Vp9Parser);
};
} // namespace media
#endif // VP9_PARSER_H_