/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef OBOE_DEFINITIONS_H #define OBOE_DEFINITIONS_H #include #include // Oboe needs to be able to build on old NDKs so we use hard coded constants. // The correctness of these constants is verified in "aaudio/AAudioLoader.cpp". namespace oboe { /** * Represents any attribute, property or value which hasn't been specified. */ constexpr int32_t kUnspecified = 0; // TODO: Investigate using std::chrono /** * The number of nanoseconds in a microsecond. 1,000. */ constexpr int64_t kNanosPerMicrosecond = 1000; /** * The number of nanoseconds in a millisecond. 1,000,000. */ constexpr int64_t kNanosPerMillisecond = kNanosPerMicrosecond * 1000; /** * The number of milliseconds in a second. 1,000. */ constexpr int64_t kMillisPerSecond = 1000; /** * The number of nanoseconds in a second. 1,000,000,000. */ constexpr int64_t kNanosPerSecond = kNanosPerMillisecond * kMillisPerSecond; /** * The state of the audio stream. */ enum class StreamState : int32_t { // aaudio_stream_state_t Uninitialized = 0, // AAUDIO_STREAM_STATE_UNINITIALIZED, Unknown = 1, // AAUDIO_STREAM_STATE_UNKNOWN, Open = 2, // AAUDIO_STREAM_STATE_OPEN, Starting = 3, // AAUDIO_STREAM_STATE_STARTING, Started = 4, // AAUDIO_STREAM_STATE_STARTED, Pausing = 5, // AAUDIO_STREAM_STATE_PAUSING, Paused = 6, // AAUDIO_STREAM_STATE_PAUSED, Flushing = 7, // AAUDIO_STREAM_STATE_FLUSHING, Flushed = 8, // AAUDIO_STREAM_STATE_FLUSHED, Stopping = 9, // AAUDIO_STREAM_STATE_STOPPING, Stopped = 10, // AAUDIO_STREAM_STATE_STOPPED, Closing = 11, // AAUDIO_STREAM_STATE_CLOSING, Closed = 12, // AAUDIO_STREAM_STATE_CLOSED, Disconnected = 13, // AAUDIO_STREAM_STATE_DISCONNECTED, }; /** * The direction of the stream. */ enum class Direction : int32_t { // aaudio_direction_t /** * Used for playback. */ Output = 0, // AAUDIO_DIRECTION_OUTPUT, /** * Used for recording. */ Input = 1, // AAUDIO_DIRECTION_INPUT, }; /** * The format of audio samples. */ enum class AudioFormat : int32_t { // aaudio_format_t /** * Invalid format. */ Invalid = -1, // AAUDIO_FORMAT_INVALID, /** * Unspecified format. Format will be decided by Oboe. */ Unspecified = 0, // AAUDIO_FORMAT_UNSPECIFIED, /** * Signed 16-bit integers. */ I16 = 1, // AAUDIO_FORMAT_PCM_I16, /** * Single precision floating points. */ Float = 2, // AAUDIO_FORMAT_PCM_FLOAT, }; /** * The result of an audio callback. */ enum class DataCallbackResult : int32_t { // aaudio_data_callback_result_t // Indicates to the caller that the callbacks should continue. Continue = 0, // AAUDIO_CALLBACK_RESULT_CONTINUE, // Indicates to the caller that the callbacks should stop immediately. Stop = 1, // AAUDIO_CALLBACK_RESULT_STOP, }; /** * The result of an operation. All except the `OK` result indicates that an error occurred. * The `Result` can be converted into a human readable string using `convertToText`. */ enum class Result : int32_t { // aaudio_result_t OK = 0, // AAUDIO_OK ErrorBase = -900, // AAUDIO_ERROR_BASE, ErrorDisconnected = -899, // AAUDIO_ERROR_DISCONNECTED, ErrorIllegalArgument = -898, // AAUDIO_ERROR_ILLEGAL_ARGUMENT, ErrorInternal = -896, // AAUDIO_ERROR_INTERNAL, ErrorInvalidState = -895, // AAUDIO_ERROR_INVALID_STATE, ErrorInvalidHandle = -892, // AAUDIO_ERROR_INVALID_HANDLE, ErrorUnimplemented = -890, // AAUDIO_ERROR_UNIMPLEMENTED, ErrorUnavailable = -889, // AAUDIO_ERROR_UNAVAILABLE, ErrorNoFreeHandles = -888, // AAUDIO_ERROR_NO_FREE_HANDLES, ErrorNoMemory = -887, // AAUDIO_ERROR_NO_MEMORY, ErrorNull = -886, // AAUDIO_ERROR_NULL, ErrorTimeout = -885, // AAUDIO_ERROR_TIMEOUT, ErrorWouldBlock = -884, // AAUDIO_ERROR_WOULD_BLOCK, ErrorInvalidFormat = -883, // AAUDIO_ERROR_INVALID_FORMAT, ErrorOutOfRange = -882, // AAUDIO_ERROR_OUT_OF_RANGE, ErrorNoService = -881, // AAUDIO_ERROR_NO_SERVICE, ErrorInvalidRate = -880, // AAUDIO_ERROR_INVALID_RATE, // Reserved for future AAudio result types Reserved1, Reserved2, Reserved3, Reserved4, Reserved5, Reserved6, Reserved7, Reserved8, Reserved9, Reserved10, ErrorClosed, }; /** * The sharing mode of the audio stream. */ enum class SharingMode : int32_t { // aaudio_sharing_mode_t /** * This will be the only stream using a particular source or sink. * This mode will provide the lowest possible latency. * You should close EXCLUSIVE streams immediately when you are not using them. * * If you do not need the lowest possible latency then we recommend using Shared, * which is the default. */ Exclusive = 0, // AAUDIO_SHARING_MODE_EXCLUSIVE, /** * Multiple applications can share the same device. * The data from output streams will be mixed by the audio service. * The data for input streams will be distributed by the audio service. * * This will have higher latency than the EXCLUSIVE mode. */ Shared = 1, // AAUDIO_SHARING_MODE_SHARED, }; /** * The performance mode of the audio stream. */ enum class PerformanceMode : int32_t { // aaudio_performance_mode_t /** * No particular performance needs. Default. */ None = 10, // AAUDIO_PERFORMANCE_MODE_NONE, /** * Extending battery life is most important. */ PowerSaving = 11, // AAUDIO_PERFORMANCE_MODE_POWER_SAVING, /** * Reducing latency is most important. */ LowLatency = 12, // AAUDIO_PERFORMANCE_MODE_LOW_LATENCY }; /** * The underlying audio API used by the audio stream. */ enum class AudioApi : int32_t { /** * Try to use AAudio. If not available then use OpenSL ES. */ Unspecified = kUnspecified, /** * Use OpenSL ES. */ OpenSLES, /** * Try to use AAudio. Fail if unavailable. */ AAudio }; /** * Specifies the quality of the sample rate conversion performed by Oboe. * Higher quality will require more CPU load. * Higher quality conversion will probably be implemented using a sinc based resampler. */ enum class SampleRateConversionQuality : int32_t { /** * No conversion by Oboe. Underlying APIs may still do conversion. */ None, /** * Fastest conversion but may not sound great. * This may be implemented using bilinear interpolation. */ Fastest, Low, Medium, High, /** * Highest quality conversion, which may be expensive in terms of CPU. */ Best, }; /** * The Usage attribute expresses *why* you are playing a sound, what is this sound used for. * This information is used by certain platforms or routing policies * to make more refined volume or routing decisions. * * Note that these match the equivalent values in AudioAttributes in the Android Java API. * * This attribute only has an effect on Android API 28+. */ enum class Usage : int32_t { // aaudio_usage_t /** * Use this for streaming media, music performance, video, podcasts, etcetera. */ Media = 1, // AAUDIO_USAGE_MEDIA /** * Use this for voice over IP, telephony, etcetera. */ VoiceCommunication = 2, // AAUDIO_USAGE_VOICE_COMMUNICATION /** * Use this for sounds associated with telephony such as busy tones, DTMF, etcetera. */ VoiceCommunicationSignalling = 3, // AAUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING /** * Use this to demand the users attention. */ Alarm = 4, // AAUDIO_USAGE_ALARM /** * Use this for notifying the user when a message has arrived or some * other background event has occured. */ Notification = 5, // AAUDIO_USAGE_NOTIFICATION /** * Use this when the phone rings. */ NotificationRingtone = 6, // AAUDIO_USAGE_NOTIFICATION_RINGTONE /** * Use this to attract the users attention when, for example, the battery is low. */ NotificationEvent = 10, // AAUDIO_USAGE_NOTIFICATION_EVENT /** * Use this for screen readers, etcetera. */ AssistanceAccessibility = 11, // AAUDIO_USAGE_ASSISTANCE_ACCESSIBILITY /** * Use this for driving or navigation directions. */ AssistanceNavigationGuidance = 12, // AAUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE /** * Use this for user interface sounds, beeps, etcetera. */ AssistanceSonification = 13, // AAUDIO_USAGE_ASSISTANCE_SONIFICATION /** * Use this for game audio and sound effects. */ Game = 14, // AAUDIO_USAGE_GAME /** * Use this for audio responses to user queries, audio instructions or help utterances. */ Assistant = 16, // AAUDIO_USAGE_ASSISTANT }; /** * The ContentType attribute describes *what* you are playing. * It expresses the general category of the content. This information is optional. * But in case it is known (for instance {@link Movie} for a * movie streaming service or {@link Speech} for * an audio book application) this information might be used by the audio framework to * enforce audio focus. * * Note that these match the equivalent values in AudioAttributes in the Android Java API. * * This attribute only has an effect on Android API 28+. */ enum ContentType : int32_t { // aaudio_content_type_t /** * Use this for spoken voice, audio books, etcetera. */ Speech = 1, // AAUDIO_CONTENT_TYPE_SPEECH /** * Use this for pre-recorded or live music. */ Music = 2, // AAUDIO_CONTENT_TYPE_MUSIC /** * Use this for a movie or video soundtrack. */ Movie = 3, // AAUDIO_CONTENT_TYPE_MOVIE /** * Use this for sound is designed to accompany a user action, * such as a click or beep sound made when the user presses a button. */ Sonification = 4, // AAUDIO_CONTENT_TYPE_SONIFICATION }; /** * Defines the audio source. * An audio source defines both a default physical source of audio signal, and a recording * configuration. * * Note that these match the equivalent values in MediaRecorder.AudioSource in the Android Java API. * * This attribute only has an effect on Android API 28+. */ enum InputPreset : int32_t { // aaudio_input_preset_t /** * Use this preset when other presets do not apply. */ Generic = 1, // AAUDIO_INPUT_PRESET_GENERIC /** * Use this preset when recording video. */ Camcorder = 5, // AAUDIO_INPUT_PRESET_CAMCORDER /** * Use this preset when doing speech recognition. */ VoiceRecognition = 6, // AAUDIO_INPUT_PRESET_VOICE_RECOGNITION /** * Use this preset when doing telephony or voice messaging. */ VoiceCommunication = 7, // AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION /** * Use this preset to obtain an input with no effects. * Note that this input will not have automatic gain control * so the recorded volume may be very low. */ Unprocessed = 9, // AAUDIO_INPUT_PRESET_UNPROCESSED /** * Use this preset for capturing audio meant to be processed in real time * and played back for live performance (e.g karaoke). * The capture path will minimize latency and coupling with playback path. */ VoicePerformance = 10, // AAUDIO_INPUT_PRESET_VOICE_PERFORMANCE }; /** * This attribute can be used to allocate a session ID to the audio stream. * * This attribute only has an effect on Android API 28+. */ enum SessionId { /** * Do not allocate a session ID. * Effects cannot be used with this stream. * Default. */ None = -1, // AAUDIO_SESSION_ID_NONE /** * Allocate a session ID that can be used to attach and control * effects using the Java AudioEffects API. * Note that the use of this flag may result in higher latency. * * Note that this matches the value of AudioManager.AUDIO_SESSION_ID_GENERATE. */ Allocate = 0, // AAUDIO_SESSION_ID_ALLOCATE }; /** * The channel count of the audio stream. The underlying type is `int32_t`. * Use of this enum is convenient to avoid "magic" * numbers when specifying the channel count. * * For example, you can write * `builder.setChannelCount(ChannelCount::Stereo)` * rather than `builder.setChannelCount(2)` * */ enum ChannelCount : int32_t { /** * Audio channel count definition, use Mono or Stereo */ Unspecified = kUnspecified, /** * Use this for mono audio */ Mono = 1, /** * Use this for stereo audio. */ Stereo = 2, }; /** * On API 16 to 26 OpenSL ES will be used. When using OpenSL ES the optimal values for sampleRate and * framesPerBurst are not known by the native code. * On API 17+ these values should be obtained from the AudioManager using this code: * * 

     * // Note that this technique only works for built-in speakers and headphones.
     * AudioManager myAudioMgr = (AudioManager) getSystemService(Context.AUDIO_SERVICE);
     * String sampleRateStr = myAudioMgr.getProperty(AudioManager.PROPERTY_OUTPUT_SAMPLE_RATE);
     * int defaultSampleRate = Integer.parseInt(sampleRateStr);
     * String framesPerBurstStr = myAudioMgr.getProperty(AudioManager.PROPERTY_OUTPUT_FRAMES_PER_BUFFER);
     * int defaultFramesPerBurst = Integer.parseInt(framesPerBurstStr);
     *
* * It can then be passed down to Oboe through JNI. * * AAudio will get the optimal framesPerBurst from the HAL and will ignore this value. */ class DefaultStreamValues { public: /** The default sample rate to use when opening new audio streams */ static int32_t SampleRate; /** The default frames per burst to use when opening new audio streams */ static int32_t FramesPerBurst; /** The default channel count to use when opening new audio streams */ static int32_t ChannelCount; }; /** * The time at which the frame at `position` was presented */ struct FrameTimestamp { int64_t position; // in frames int64_t timestamp; // in nanoseconds }; class OboeGlobals { public: static bool areWorkaroundsEnabled() { return mWorkaroundsEnabled; } /** * Disable this when writing tests to reproduce bugs in AAudio or OpenSL ES * that have workarounds in Oboe. * @param enabled */ static void setWorkaroundsEnabled(bool enabled) { mWorkaroundsEnabled = enabled; } private: static bool mWorkaroundsEnabled; }; } // namespace oboe #endif // OBOE_DEFINITIONS_H