140 lines
6.0 KiB
C++
140 lines
6.0 KiB
C++
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef MEDIA_CODECS_AAC_AUDIO_SPECIFIC_CONFIG_H_
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#define MEDIA_CODECS_AAC_AUDIO_SPECIFIC_CONFIG_H_
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#include <stddef.h>
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#include <stdint.h>
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#include <vector>
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namespace shaka {
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namespace media {
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class BitReader;
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// Methods are virtual for mocking.
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/// This class parses the AAC information from decoder specific information
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/// embedded in the @b esds box in an ISO BMFF file.
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/// Please refer to ISO 14496 Part 3 Table 1.13 - Syntax of AudioSpecificConfig
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/// for more details.
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class AACAudioSpecificConfig {
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public:
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// Audio Object Types specified in ISO 14496-3 (2005), Table 1.3
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enum AudioObjectType {
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AOT_NULL = 0,
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AOT_AAC_MAIN = 1, // Main
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AOT_AAC_LC = 2, // Low Complexity
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AOT_AAC_SSR = 3, // Scalable Sample Rate
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AOT_AAC_LTP = 4, // Long Term Prediction
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AOT_SBR = 5, // Spectral Band Replication
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AOT_AAC_SCALABLE = 6, // Scalable
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AOT_TWINVQ = 7, // Twin Vector Quantizer
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AOT_CELP = 8, // Code Excited Linear Prediction
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AOT_HVXC = 9, // Harmonic Vector eXcitation Coding
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AOT_TTSI = 12, // Text-To-Speech Interface
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AOT_MAINSYNTH = 13, // Main Synthesis
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AOT_WAVESYNTH = 14, // Wavetable Synthesis
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AOT_MIDI = 15, // General MIDI
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AOT_SAFX = 16, // Algorithmic Synthesis and Audio Effects
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AOT_ER_AAC_LC = 17, // Error Resilient Low Complexity
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AOT_ER_AAC_LTP = 19, // Error Resilient Long Term Prediction
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AOT_ER_AAC_SCALABLE = 20, // Error Resilient Scalable
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AOT_ER_TWINVQ = 21, // Error Resilient Twin Vector Quantizer
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AOT_ER_BSAC = 22, // Error Resilient Bit-Sliced Arithmetic Coding
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AOT_ER_AAC_LD = 23, // Error Resilient Low Delay
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AOT_ER_CELP = 24, // Error Resilient Code Excited Linear
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// Prediction
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AOT_ER_HVXC = 25, // Error Resilient Harmonic Vector eXcitation
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// Coding
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AOT_ER_HILN = 26, // Error Resilient Harmonic and Individual Lines
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// plus Noise
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AOT_ER_PARAM = 27, // Error Resilient Parametric
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AOT_SSC = 28, // SinuSoidal Coding
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AOT_PS = 29, // Parametric Stereo
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AOT_SURROUND = 30, // MPEG Surround
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AOT_ESCAPE = 31, // Escape Value
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AOT_L1 = 32, // Layer 1
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AOT_L2 = 33, // Layer 2
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AOT_L3 = 34, // Layer 3
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AOT_DST = 35, // Direct Stream Transfer
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AOT_ALS = 36, // Audio LosslesS
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AOT_SLS = 37, // Scalable LosslesS
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AOT_SLS_NON_CORE = 38, // Scalable LosslesS (non core)
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AOT_ER_AAC_ELD = 39, // Error Resilient Enhanced Low Delay
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AOT_SMR_SIMPLE = 40, // Symbolic Music Representation Simple
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AOT_SMR_MAIN = 41, // Symbolic Music Representation Main
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AOT_USAC_NOSBR = 42, // Unified Speech and Audio Coding (no SBR)
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AOT_SAOC = 43, // Spatial Audio Object Coding
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AOT_LD_SURROUND = 44, // Low Delay MPEG Surround
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AOT_USAC = 45, // Unified Speech and Audio Coding
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};
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AACAudioSpecificConfig();
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virtual ~AACAudioSpecificConfig();
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/// Parse the AAC config from decoder specific information embedded in an @b
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/// esds box. The function will parse the data and get the
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/// ElementaryStreamDescriptor, then it will parse the
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/// ElementaryStreamDescriptor to get audio stream configurations.
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/// @param data contains decoder specific information from an @b esds box.
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/// @return true if successful, false otherwise.
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virtual bool Parse(const std::vector<uint8_t>& data);
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/// Convert a raw AAC frame into an AAC frame with an ADTS header.
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/// @param[in,out] buffer contains the raw AAC frame on input, and the
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/// converted frame on output if successful; it is untouched
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/// on failure.
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/// @return true on success, false otherwise.
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virtual bool ConvertToADTS(std::vector<uint8_t>* buffer) const;
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/// @return The audio object type for this AAC config, with possible extension
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/// considered.
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AudioObjectType GetAudioObjectType() const;
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/// @return Sample rate for the AAC stream, with possible extensions
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/// considered.
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uint32_t GetSamplesPerSecond() const;
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/// @return Number of channels for the AAC stream, with possible extensions
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/// considered.
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uint8_t GetNumChannels() const;
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/// Size in bytes of the ADTS header added by ConvertEsdsToADTS().
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static const size_t kADTSHeaderSize = 7;
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/// @return whether Spectral Band Repliation (SBR) is present in the stream.
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bool sbr_present() const { return sbr_present_; }
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/// Indicate whether SBR is present in the stream.
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void set_sbr_present(bool sbr_present) { sbr_present_ = sbr_present; }
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private:
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bool SkipDecoderGASpecificConfig(BitReader* bit_reader) const;
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bool SkipErrorSpecificConfig() const;
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bool SkipGASpecificConfig(BitReader* bit_reader) const;
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// The following variables store the AAC specific configuration information
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// that are used to generate the ADTS header.
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AudioObjectType audio_object_type_ = AOT_NULL;
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uint8_t frequency_index_ = 0;
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uint8_t channel_config_ = 0;
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// Is Spectral Band Replication (SBR) available?
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bool sbr_present_ = false;
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// Is Parametric Stereo available?
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bool ps_present_ = false;
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// The following variables store audio configuration information.
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// They are based on the AAC specific configuration but can be overridden
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// by extensions in elementary stream descriptor.
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uint32_t frequency_ = 0;
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uint32_t extension_frequency_ = 0;
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uint8_t num_channels_ = 0;
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};
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} // namespace media
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} // namespace shaka
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#endif // MEDIA_CODECS_AAC_AUDIO_SPECIFIC_CONFIG_H_
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