// Copyright (c) 2012 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. #ifndef MEDIA_BASE_AUDIO_BUS_H_ #define MEDIA_BASE_AUDIO_BUS_H_ #include #include "base/memory/aligned_memory.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "media/base/media_export.h" namespace media { class AudioParameters; // Scoped container for "busing" audio channel data around. Each channel is // stored in planar format and guaranteed to be aligned by kChannelAlignment. // AudioBus objects can be created normally or via wrapping. Normally, AudioBus // will dice up a contiguous memory block for channel data. When wrapped, // AudioBus instead routes requests for channel data to the wrapped object. class MEDIA_EXPORT AudioBus { public: // Guaranteed alignment of each channel's data; use 16-byte alignment for easy // SSE optimizations. enum { kChannelAlignment = 16 }; // Creates a new AudioBus and allocates |channels| of length |frames|. Uses // channels() and frames_per_buffer() from AudioParameters if given. static scoped_ptr Create(int channels, int frames); static scoped_ptr Create(const AudioParameters& params); // Creates a new AudioBus with the given number of channels, but zero length. // It's expected to be used with SetChannelData() and set_frames() to // wrap externally allocated memory. static scoped_ptr CreateWrapper(int channels); // Creates a new AudioBus from an existing channel vector. Does not transfer // ownership of |channel_data| to AudioBus; i.e., |channel_data| must outlive // the returned AudioBus. Each channel must be aligned by kChannelAlignment. static scoped_ptr WrapVector( int frames, const std::vector& channel_data); // Creates a new AudioBus by wrapping an existing block of memory. Block must // be at least CalculateMemorySize() bytes in size. |data| must outlive the // returned AudioBus. |data| must be aligned by kChannelAlignment. static scoped_ptr WrapMemory(int channels, int frames, void* data); static scoped_ptr WrapMemory(const AudioParameters& params, void* data); static int CalculateMemorySize(const AudioParameters& params); // Calculates the required size for an AudioBus given the number of channels // and frames. static int CalculateMemorySize(int channels, int frames); // Helper methods for converting an AudioBus from and to interleaved integer // data. Expects interleaving to be [ch0, ch1, ..., chN, ch0, ch1, ...] with // |bytes_per_sample| per value. Values are scaled and bias corrected during // conversion. ToInterleaved() will also clip values to format range. // Handles uint8, int16, and int32 currently. FromInterleaved() will zero out // any unfilled frames when |frames| is less than frames(). void FromInterleaved(const void* source, int frames, int bytes_per_sample); void ToInterleaved(int frames, int bytes_per_sample, void* dest) const; void ToInterleavedPartial(int start_frame, int frames, int bytes_per_sample, void* dest) const; // Similar to FromInterleaved() above, but meant for streaming sources. Does // not zero out remaining frames, the caller is responsible for doing so using // ZeroFramesPartial(). Frames are deinterleaved from the start of |source| // to channel(x)[start_frame]. void FromInterleavedPartial(const void* source, int start_frame, int frames, int bytes_per_sample); // Helper method for copying channel data from one AudioBus to another. Both // AudioBus object must have the same frames() and channels(). void CopyTo(AudioBus* dest) const; // Helper method to copy frames from one AudioBus to another. Both AudioBus // objects must have the same number of channels(). |source_start_frame| is // the starting offset. |dest_start_frame| is the starting offset in |dest|. // |frame_count| is the number of frames to copy. void CopyPartialFramesTo(int source_start_frame, int frame_count, int dest_start_frame, AudioBus* dest) const; // Returns a raw pointer to the requested channel. Pointer is guaranteed to // have a 16-byte alignment. Warning: Do not rely on having sane (i.e. not // inf, nan, or between [-1.0, 1.0]) values in the channel data. float* channel(int channel) { return channel_data_[channel]; } const float* channel(int channel) const { return channel_data_[channel]; } void SetChannelData(int channel, float* data); int channels() const { return static_cast(channel_data_.size()); } int frames() const { return frames_; } void set_frames(int frames); // Helper method for zeroing out all channels of audio data. void Zero(); void ZeroFrames(int frames); void ZeroFramesPartial(int start_frame, int frames); // Checks if all frames are zero. bool AreFramesZero() const; // Scale internal channel values by |volume| >= 0. If an invalid value // is provided, no adjustment is done. void Scale(float volume); // Swaps channels identified by |a| and |b|. The caller needs to make sure // the channels are valid. void SwapChannels(int a, int b); virtual ~AudioBus(); protected: AudioBus(int channels, int frames); AudioBus(int channels, int frames, float* data); AudioBus(int frames, const std::vector& channel_data); explicit AudioBus(int channels); private: // Helper method for building |channel_data_| from a block of memory. |data| // must be at least BlockSize() bytes in size. void BuildChannelData(int channels, int aligned_frame, float* data); // Contiguous block of channel memory. scoped_ptr data_; std::vector channel_data_; int frames_; // Protect SetChannelData() and set_frames() for use by CreateWrapper(). bool can_set_channel_data_; DISALLOW_COPY_AND_ASSIGN(AudioBus); }; // RefCounted version of AudioBus. This is not meant for general use. Only use // this when your lifetime requirements make it impossible to use an // AudioBus scoped_ptr. class MEDIA_EXPORT AudioBusRefCounted : public media::AudioBus, public base::RefCountedThreadSafe { public: static scoped_refptr Create(int channels, int frames); private: friend class base::RefCountedThreadSafe; AudioBusRefCounted(int channels, int frames); ~AudioBusRefCounted() override; DISALLOW_COPY_AND_ASSIGN(AudioBusRefCounted); }; } // namespace media #endif // MEDIA_BASE_AUDIO_BUS_H_