/* * Copyright (c) 2015 Andrew Kelley * * This file is part of libsoundio, which is MIT licensed. * See http://opensource.org/licenses/MIT */ #ifndef SOUNDIO_SOUNDIO_H #define SOUNDIO_SOUNDIO_H #include "config.h" #include #ifdef __cplusplus extern "C" { #endif enum SoundIoError { SoundIoErrorNone, SoundIoErrorNoMem, SoundIoErrorInitAudioBackend, SoundIoErrorSystemResources, SoundIoErrorOpeningDevice, SoundIoErrorInvalid, SoundIoErrorBackendUnavailable, SoundIoErrorStreaming, SoundIoErrorIncompatibleDevice, SoundIoErrorNoSuchClient, SoundIoErrorIncompatibleBackend, SoundIoErrorBackendDisconnected, SoundIoErrorInterrupted, SoundIoErrorUnderflow, SoundIoErrorEncodingString, }; enum SoundIoChannelId { // These channel ids are more commonly supported. SoundIoChannelIdInvalid, SoundIoChannelIdFrontLeft, SoundIoChannelIdFrontRight, SoundIoChannelIdFrontCenter, SoundIoChannelIdLfe, SoundIoChannelIdBackLeft, SoundIoChannelIdBackRight, SoundIoChannelIdFrontLeftCenter, SoundIoChannelIdFrontRightCenter, SoundIoChannelIdBackCenter, SoundIoChannelIdSideLeft, SoundIoChannelIdSideRight, SoundIoChannelIdTopCenter, SoundIoChannelIdTopFrontLeft, SoundIoChannelIdTopFrontCenter, SoundIoChannelIdTopFrontRight, SoundIoChannelIdTopBackLeft, SoundIoChannelIdTopBackCenter, SoundIoChannelIdTopBackRight, // These channel ids are less commonly supported. SoundIoChannelIdBackLeftCenter, SoundIoChannelIdBackRightCenter, SoundIoChannelIdFrontLeftWide, SoundIoChannelIdFrontRightWide, SoundIoChannelIdFrontLeftHigh, SoundIoChannelIdFrontCenterHigh, SoundIoChannelIdFrontRightHigh, SoundIoChannelIdTopFrontLeftCenter, SoundIoChannelIdTopFrontRightCenter, SoundIoChannelIdTopSideLeft, SoundIoChannelIdTopSideRight, SoundIoChannelIdLeftLfe, SoundIoChannelIdRightLfe, SoundIoChannelIdLfe2, SoundIoChannelIdBottomCenter, SoundIoChannelIdBottomLeftCenter, SoundIoChannelIdBottomRightCenter, // Mid/side recording SoundIoChannelIdMsMid, SoundIoChannelIdMsSide, // first order ambisonic channels SoundIoChannelIdAmbisonicW, SoundIoChannelIdAmbisonicX, SoundIoChannelIdAmbisonicY, SoundIoChannelIdAmbisonicZ, // X-Y Recording SoundIoChannelIdXyX, SoundIoChannelIdXyY, // Other SoundIoChannelIdHeadphonesLeft, SoundIoChannelIdHeadphonesRight, SoundIoChannelIdClickTrack, SoundIoChannelIdForeignLanguage, SoundIoChannelIdHearingImpaired, SoundIoChannelIdNarration, SoundIoChannelIdHaptic, SoundIoChannelIdDialogCentricMix, SoundIoChannelIdAux, SoundIoChannelIdAux0, SoundIoChannelIdAux1, SoundIoChannelIdAux2, SoundIoChannelIdAux3, SoundIoChannelIdAux4, SoundIoChannelIdAux5, SoundIoChannelIdAux6, SoundIoChannelIdAux7, SoundIoChannelIdAux8, SoundIoChannelIdAux9, SoundIoChannelIdAux10, SoundIoChannelIdAux11, SoundIoChannelIdAux12, SoundIoChannelIdAux13, SoundIoChannelIdAux14, SoundIoChannelIdAux15, }; enum SoundIoChannelLayoutId { SoundIoChannelLayoutIdMono, SoundIoChannelLayoutIdStereo, SoundIoChannelLayoutId2Point1, SoundIoChannelLayoutId3Point0, SoundIoChannelLayoutId3Point0Back, SoundIoChannelLayoutId3Point1, SoundIoChannelLayoutId4Point0, SoundIoChannelLayoutIdQuad, SoundIoChannelLayoutIdQuadSide, SoundIoChannelLayoutId4Point1, SoundIoChannelLayoutId5Point0Back, SoundIoChannelLayoutId5Point0Side, SoundIoChannelLayoutId5Point1, SoundIoChannelLayoutId5Point1Back, SoundIoChannelLayoutId6Point0Side, SoundIoChannelLayoutId6Point0Front, SoundIoChannelLayoutIdHexagonal, SoundIoChannelLayoutId6Point1, SoundIoChannelLayoutId6Point1Back, SoundIoChannelLayoutId6Point1Front, SoundIoChannelLayoutId7Point0, SoundIoChannelLayoutId7Point0Front, SoundIoChannelLayoutId7Point1, SoundIoChannelLayoutId7Point1Wide, SoundIoChannelLayoutId7Point1WideBack, SoundIoChannelLayoutIdOctagonal, }; enum SoundIoBackend { SoundIoBackendNone, SoundIoBackendJack, SoundIoBackendPulseAudio, SoundIoBackendAlsa, SoundIoBackendCoreAudio, SoundIoBackendDummy, }; enum SoundIoDeviceAim { SoundIoDeviceAimInput, SoundIoDeviceAimOutput, }; enum SoundIoFormat { SoundIoFormatInvalid, SoundIoFormatS8, // Signed 8 bit SoundIoFormatU8, // Unsigned 8 bit SoundIoFormatS16LE, // Signed 16 bit Little Endian SoundIoFormatS16BE, // Signed 16 bit Big Endian SoundIoFormatU16LE, // Unsigned 16 bit Little Endian SoundIoFormatU16BE, // Unsigned 16 bit Little Endian SoundIoFormatS24LE, // Signed 24 bit Little Endian using low three bytes in 32-bit word SoundIoFormatS24BE, // Signed 24 bit Big Endian using low three bytes in 32-bit word SoundIoFormatU24LE, // Unsigned 24 bit Little Endian using low three bytes in 32-bit word SoundIoFormatU24BE, // Unsigned 24 bit Big Endian using low three bytes in 32-bit word SoundIoFormatS32LE, // Signed 32 bit Little Endian SoundIoFormatS32BE, // Signed 32 bit Big Endian SoundIoFormatU32LE, // Unsigned 32 bit Little Endian SoundIoFormatU32BE, // Unsigned 32 bit Big Endian SoundIoFormatFloat32LE, // Float 32 bit Little Endian, Range -1.0 to 1.0 SoundIoFormatFloat32BE, // Float 32 bit Big Endian, Range -1.0 to 1.0 SoundIoFormatFloat64LE, // Float 64 bit Little Endian, Range -1.0 to 1.0 SoundIoFormatFloat64BE, // Float 64 bit Big Endian, Range -1.0 to 1.0 }; // For your convenience, Native Endian and Foreign Endian constants are defined // which point to the respective SoundIoFormat values. #if defined(SOUNDIO_OS_BIG_ENDIAN) #define SoundIoFormatS16NE SoundIoFormatS16BE #define SoundIoFormatU16NE SoundIoFormatU16BE #define SoundIoFormatS24NE SoundIoFormatS24BE #define SoundIoFormatU24NE SoundIoFormatU24BE #define SoundIoFormatS32NE SoundIoFormatS32BE #define SoundIoFormatU32NE SoundIoFormatU32BE #define SoundIoFormatFloat32NE SoundIoFormatFloat32BE #define SoundIoFormatFloat64NE SoundIoFormatFloat64BE #define SoundIoFormatS16FE SoundIoFormatS16LE #define SoundIoFormatU16FE SoundIoFormatU16LE #define SoundIoFormatS24FE SoundIoFormatS24LE #define SoundIoFormatU24FE SoundIoFormatU24LE #define SoundIoFormatS32FE SoundIoFormatS32LE #define SoundIoFormatU32FE SoundIoFormatU32LE #define SoundIoFormatFloat32FE SoundIoFormatFloat32LE #define SoundIoFormatFloat64FE SoundIoFormatFloat64LE #elif defined(SOUNDIO_OS_LITTLE_ENDIAN) #define SoundIoFormatS16NE SoundIoFormatS16LE #define SoundIoFormatU16NE SoundIoFormatU16LE #define SoundIoFormatS24NE SoundIoFormatS24LE #define SoundIoFormatU24NE SoundIoFormatU24LE #define SoundIoFormatS32NE SoundIoFormatS32LE #define SoundIoFormatU32NE SoundIoFormatU32LE #define SoundIoFormatFloat32NE SoundIoFormatFloat32LE #define SoundIoFormatFloat64NE SoundIoFormatFloat64LE #define SoundIoFormatS16FE SoundIoFormatS16BE #define SoundIoFormatU16FE SoundIoFormatU16BE #define SoundIoFormatS24FE SoundIoFormatS24BE #define SoundIoFormatU24FE SoundIoFormatU24BE #define SoundIoFormatS32FE SoundIoFormatS32BE #define SoundIoFormatU32FE SoundIoFormatU32BE #define SoundIoFormatFloat32FE SoundIoFormatFloat32BE #define SoundIoFormatFloat64FE SoundIoFormatFloat64BE #else #error unknown byte order #endif // The size of this struct is OK to use. #define SOUNDIO_MAX_CHANNELS 24 struct SoundIoChannelLayout { const char *name; int channel_count; enum SoundIoChannelId channels[SOUNDIO_MAX_CHANNELS]; }; // The size of this struct is not part of the API or ABI. struct SoundIoChannelArea { // Base address of buffer. char *ptr; // How many bytes it takes to get from the beginning of one sample to // the beginning of the next sample. int step; }; // The size of this struct is not part of the API or ABI. struct SoundIo { // Optional. Put whatever you want here. Defaults to NULL. void *userdata; // Optional callback. Called when the list of devices change. Only called // during a call to soundio_flush_events or soundio_wait_events. void (*on_devices_change)(struct SoundIo *); // Optional callback. Called when the backend disconnects. For example, // when the JACK server shuts down. When this happens, listing devices // and opening streams will always fail with // SoundIoErrorBackendDisconnected. This callback is only called during a // call to `soundio_flush_events` or `soundio_wait_events`. // If you do not supply a callback, the default will crash your program // with an error message. void (*on_backend_disconnect)(struct SoundIo *, int err); // Optional callback. Called from an unknown thread that you should not use // to call any soundio functions. You may use this to signal a condition // variable to wake up. Called when soundio_wait_events would be woken up. void (*on_events_signal)(struct SoundIo *); // Optional: Application name. // PulseAudio uses this for "application name". // JACK uses this for `client_name`. // Must not contain a colon (":"). const char *app_name; // Optional: JACK info and error callbacks. // By default, libsoundio sets these to empty functions in order to // silence stdio messages from JACK. You may override the behavior by // setting these to `NULL` or providing your own function. These are // registered with JACK regardless of whether `soundio_connect_backend` // succeeds. void (*jack_info_callback)(const char *msg); void (*jack_error_callback)(const char *msg); // Read-only. After calling `soundio_connect` or `soundio_connect_backend`, // this field tells which backend is currently connected. enum SoundIoBackend current_backend; }; // The size of this struct is not part of the API or ABI. struct SoundIoDevice { // Read-only. Set automatically. struct SoundIo *soundio; // `id` is a string of bytes that uniquely identifies this device. // `name` is user-friendly UTF-8 encoded text to describe the device. // If the same physical device supports both input and output, that makes // one SoundIoDevice for the input and one SoundIoDevice for the output. // In this case, the `id` of each SoundIoDevice will be the same, and the // `aim` field will be different. char *id; char *name; // Tells whether this device is an input device or an output device. enum SoundIoDeviceAim aim; // Channel layouts are handled similarly to sample format; see those docs. // If this information is missing due to a `probe_error`, `layouts` // will be NULL. It's OK to modify this data, for example calling // soundio_sort_channel_layouts on it. // Devices are guaranteed to have at least 1 channel layout. struct SoundIoChannelLayout *layouts; int layout_count; struct SoundIoChannelLayout current_layout; // A device is either a raw device or it is a virtual device that is // provided by a software mixing service such as dmix or PulseAudio (see // `is_raw`). If it is a raw device, `current_format` is meaningless; // the device has no current format until you open it. On the other hand, // if it is a virtual device, `current_format` describes the destination // sample format that your audio will be converted to. Or, if you're the // lucky first application to open the device, you might cause the // `current_format` to change to your format. Generally, you want to // ignore `current_format` and use whatever format is most convenient // for you which is supported by the device, because when you are the only // application left, the mixer might decide to switch `current_format` to // yours. You can learn the supported formats via `formats` and // `format_count`. If this information is missing due to a probe error, // `formats` will be `NULL`. If `current_format` is unavailable, it will be // set to `SoundIoFormatInvalid`. // Devices are guaranteed to have at least 1 format available. enum SoundIoFormat *formats; int format_count; enum SoundIoFormat current_format; // Sample rate is the number of frames per second. // Sample rate is handled very similar to sample format; see those docs. // If sample rate information is missing due to a probe error, the field // will be set to zero. // Devices are guaranteed to have at least 1 sample rate available. int sample_rate_min; int sample_rate_max; int sample_rate_current; // Buffer duration in seconds. If `buffer_duration_current` is unknown or // irrelevant, it is set to 0.0. // PulseAudio allows any value and so reasonable min/max of 0.10 and 4.0 // are used. You may check that the current backend is PulseAudio and // ignore these min/max values. // For JACK, buffer duration and period duration are the same. double buffer_duration_min; double buffer_duration_max; double buffer_duration_current; // Period duration in seconds. After this much time passes, write_callback // is called. If values are unknown, they are set to 0.0. These values are // meaningless for PulseAudio. For JACK, buffer duration and period duration // are the same. double period_duration_min; double period_duration_max; double period_duration_current; // Raw means that you are directly opening the hardware device and not // going through a proxy such as dmix, PulseAudio, or JACK. When you open a // raw device, other applications on the computer are not able to // simultaneously access the device. Raw devices do not perform automatic // resampling and thus tend to have fewer formats available. bool is_raw; // Devices are reference counted. See `soundio_device_ref` and // `soundio_device_unref`. int ref_count; // This is set to a SoundIoError representing the result of the device // probe. Ideally this will be SoundIoErrorNone in which case all the // fields of the device will be populated. If there is an error code here // then information about formats, sample rates, and channel layouts might // be missing. int probe_error; }; // The size of this struct is not part of the API or ABI. struct SoundIoOutStream { // Populated automatically when you call soundio_outstream_create. struct SoundIoDevice *device; // Defaults to SoundIoFormatFloat32NE, followed by the first one supported. enum SoundIoFormat format; // Sample rate is the number of frames per second. // Defaults to 48000 (and then clamped into range). int sample_rate; // Defaults to Stereo, if available, followed by the first layout supported. struct SoundIoChannelLayout layout; // Buffer duration in seconds. // After you call `soundio_outstream_open` this value is replaced with the // actual duration, as near to this value as possible. // Defaults to 1 second (and then clamped into range). // If the device has unknown buffer duration min and max values, you may // still set this. If you set this and the backend is PulseAudio, it // sets `PA_STREAM_ADJUST_LATENCY` and is the value used for `maxlength` // and `tlength`. With PulseAudio, this value is not replaced with the // actual duration until `soundio_outstream_start`. double buffer_duration; // `period_duration` is the latency; how much time it takes // for a sample put in the buffer to get played. // After you call `soundio_outstream_open` this value is replaced with the // actual period duration, as near to this value as possible. // Defaults to `buffer_duration / 2` (and then clamped into range). // If the device has unknown period duration min and max values, you may // still set this. This value is meaningless for PulseAudio. double period_duration; // Defaults to NULL. Put whatever you want here. void *userdata; // In this callback, you call `soundio_outstream_begin_write` and // `soundio_outstream_end_write`. `requested_frame_count` will always be // greater than 0. void (*write_callback)(struct SoundIoOutStream *, int requested_frame_count); // This optional callback happens when the sound device runs out of buffered // audio data to play. After this occurs, the outstream waits until the // buffer is full to resume playback. // This is called from the `write_callback` thread context. void (*underflow_callback)(struct SoundIoOutStream *); // Optional callback. `err` is always SoundIoErrorStreaming. // SoundIoErrorStreaming is an unrecoverable error. The stream is in an // invalid state and must be destroyed. // If you do not supply `error_callback`, the default callback will print // a message to stderr and then call `abort`. // This is called from the `write_callback` thread context. void (*error_callback)(struct SoundIoOutStream *, int err); // Optional: Name of the stream. Defaults to "SoundIoOutStream" // PulseAudio uses this for the stream name. // JACK uses this for the client name of the client that connects when you // open the stream. // Must not contain a colon (":"). const char *name; // Optional: Hint that this output stream is nonterminal. This is used by // JACK and it means that the output stream data originates from an input // stream. Defaults to `false`. bool non_terminal_hint; // computed automatically when you call soundio_outstream_open int bytes_per_frame; int bytes_per_sample; // If setting the channel layout fails for some reason, this field is set // to an error code. Possible error codes are: SoundIoErrorIncompatibleDevice int layout_error; }; // The size of this struct is not part of the API or ABI. struct SoundIoInStream { // Populated automatically when you call soundio_outstream_create. struct SoundIoDevice *device; // Defaults to SoundIoFormatFloat32NE, followed by the first one supported. enum SoundIoFormat format; // Sample rate is the number of frames per second. // Defaults to max(sample_rate_min, min(sample_rate_max, 48000)) int sample_rate; // Defaults to Stereo, if available, followed by the first layout supported. struct SoundIoChannelLayout layout; // Buffer duration in seconds. // After you call `soundio_instream_open` this value is replaced with the // actual duration, as near to this value as possible. // If the captured audio frames exceeds this before they are read, a buffer // overrun occurs and the frames are lost. // Defaults to 1 second (and then clamped into range). For PulseAudio, // defaults to PulseAudio's default value, usually large. If you set this // and the backend is PulseAudio, it sets `PA_STREAM_ADJUST_LATENCY` and // is the value used for `maxlength`. With PulseAudio, this value is not // replaced with the actual duration until `soundio_instream_start`. double buffer_duration; // The latency of the captured audio. // After you call `soundio_instream_open` this value is replaced with the // actual duration, as near to this value as possible. // After this many seconds pass, `read_callback` is called. // Defaults to `buffer_duration / 8`. // If you set this and the backend is PulseAudio, it sets // `PA_STREAM_ADJUST_LATENCY` and is the value used for `fragsize`. // With PulseAudio, this value is not replaced with the actual duration // until `soundio_instream_start`. double period_duration; // Defaults to NULL. Put whatever you want here. void *userdata; // In this function call `soundio_instream_begin_read` and // `soundio_instream_end_read`. void (*read_callback)(struct SoundIoInStream *, int available_frame_count); // Optional callback. `err` is always SoundIoErrorStreaming. // SoundIoErrorStreaming is an unrecoverable error. The stream is in an // invalid state and must be destroyed. // If you do not supply `error_callback`, the default callback will print // a message to stderr and then abort(). // This is called from the `read_callback` thread context. void (*error_callback)(struct SoundIoInStream *, int err); // Optional: Name of the stream. Defaults to "SoundIoInStream"; // PulseAudio uses this for the stream name. // JACK uses this for the client name of the client that connects when you // open the stream. // Must not contain a colon (":"). const char *name; // Optional: Hint that this input stream is nonterminal. This is used by // JACK and it means that the data received by the stream will be // passed on or made available to another stream. Defaults to `false`. // stream. Defaults to `false`. bool non_terminal_hint; // computed automatically when you call soundio_instream_open int bytes_per_frame; int bytes_per_sample; // If setting the channel layout fails for some reason, this field is set // to an error code. Possible error codes are: SoundIoErrorIncompatibleDevice int layout_error; }; // Main Context // Create a SoundIo context. You may create multiple instances of this to // connect to multiple backends. struct SoundIo * soundio_create(void); void soundio_destroy(struct SoundIo *soundio); // This is a convenience function you could implement yourself if you wanted // to. It tries `soundio_connect_backend` on all available backends in order. int soundio_connect(struct SoundIo *soundio); // Instead of calling `soundio_connect` you may call this function to try a // specific backend. int soundio_connect_backend(struct SoundIo *soundio, enum SoundIoBackend backend); void soundio_disconnect(struct SoundIo *soundio); const char *soundio_strerror(int error); const char *soundio_backend_name(enum SoundIoBackend backend); // Returns the number of available backends. int soundio_backend_count(struct SoundIo *soundio); // get the available backend at the specified index // (0 <= index < `soundio_backend_count`) enum SoundIoBackend soundio_get_backend(struct SoundIo *soundio, int index); // Returns whether libsoundio was compiled with `backend`. bool soundio_have_backend(enum SoundIoBackend backend); // When you call this, the `on_devices_change` and `on_events_signal` callbacks // might be called. This is the only time those callbacks will be called. // This must be called from the same thread as the thread in which you call // these functions: // * `soundio_input_device_count` // * `soundio_output_device_count` // * `soundio_get_input_device` // * `soundio_get_output_device` // * `soundio_default_input_device_index` // * `soundio_default_output_device_index` void soundio_flush_events(struct SoundIo *soundio); // This function calls `soundio_flush_events` then blocks until another event // is ready or you call `soundio_wakeup`. Be ready for spurious wakeups. void soundio_wait_events(struct SoundIo *soundio); // Makes `soundio_wait_events` stop blocking. void soundio_wakeup(struct SoundIo *soundio); // Channel Layouts // Returns whether the channel count field and each channel id matches in // the supplied channel layouts. bool soundio_channel_layout_equal( const struct SoundIoChannelLayout *a, const struct SoundIoChannelLayout *b); const char *soundio_get_channel_name(enum SoundIoChannelId id); // Given UTF-8 encoded text which is the name of a channel such as // "Front Left", "FL", or "front-left", return the corresponding // SoundIoChannelId. Returns SoundIoChannelIdInvalid for no match. enum SoundIoChannelId soundio_parse_channel_id(const char *str, int str_len); int soundio_channel_layout_builtin_count(void); const struct SoundIoChannelLayout *soundio_channel_layout_get_builtin(int index); // Get the default builtin channel layout for the given number of channels. const struct SoundIoChannelLayout *soundio_channel_layout_get_default(int channel_count); int soundio_channel_layout_find_channel( const struct SoundIoChannelLayout *layout, enum SoundIoChannelId channel); // Populates the name field of layout if it matches a builtin one. // returns whether it found a match bool soundio_channel_layout_detect_builtin(struct SoundIoChannelLayout *layout); // Iterates over preferred_layouts. Returns the first channel layout in // preferred_layouts which matches one of the channel layouts in // available_layouts. Returns NULL if none matches. const struct SoundIoChannelLayout *soundio_best_matching_channel_layout( const struct SoundIoChannelLayout *preferred_layouts, int preferred_layout_count, const struct SoundIoChannelLayout *available_layouts, int available_layout_count); // Sorts by channel count, descending. void soundio_sort_channel_layouts(struct SoundIoChannelLayout *layouts, int layout_count); // Sample Formats // Returns -1 on invalid format. int soundio_get_bytes_per_sample(enum SoundIoFormat format); static inline int soundio_get_bytes_per_frame(enum SoundIoFormat format, int channel_count) { return soundio_get_bytes_per_sample(format) * channel_count; } // Sample rate is the number of frames per second. static inline int soundio_get_bytes_per_second(enum SoundIoFormat format, int channel_count, int sample_rate) { return soundio_get_bytes_per_frame(format, channel_count) * sample_rate; } const char * soundio_format_string(enum SoundIoFormat format); // Devices // When you call `soundio_flush_events`, a snapshot of all device state is // saved and these functions merely access the snapshot data. When you want // to check for new devices, call `soundio_flush_events`. Or you can call // `soundio_wait_events` to block until devices change. If an error occurs // scanning devices in a background thread, `on_backend_disconnect` is called // with the error code. // Get the number of input devices. // Returns -1 if you never called `soundio_flush_events`. int soundio_input_device_count(struct SoundIo *soundio); // Get the number of output devices. // Returns -1 if you never called `soundio_flush_events`. int soundio_output_device_count(struct SoundIo *soundio); // Always returns a device. Call soundio_device_unref when done. // `index` must be 0 <= index < soundio_input_device_count // Returns NULL if you never called `soundio_flush_events`. struct SoundIoDevice *soundio_get_input_device(struct SoundIo *soundio, int index); // Always returns a device. Call soundio_device_unref when done. // `index` must be 0 <= index < soundio_output_device_count // Returns NULL if you never called `soundio_flush_events`. struct SoundIoDevice *soundio_get_output_device(struct SoundIo *soundio, int index); // returns the index of the default input device // returns -1 if there are no devices or if you never called // `soundio_flush_events`. int soundio_default_input_device_index(struct SoundIo *soundio); // returns the index of the default output device // returns -1 if there are no devices or if you never called // `soundio_flush_events`. int soundio_default_output_device_index(struct SoundIo *soundio); void soundio_device_ref(struct SoundIoDevice *device); void soundio_device_unref(struct SoundIoDevice *device); bool soundio_device_equal( const struct SoundIoDevice *a, const struct SoundIoDevice *b); // Sorts channel layouts by channel count, descending. void soundio_device_sort_channel_layouts(struct SoundIoDevice *device); // Convenience function. Returns whether `format` is included in the device's // supported formats. bool soundio_device_supports_format(struct SoundIoDevice *device, enum SoundIoFormat format); // Convenience function. Returns whether `layout` is included in the device's // supported channel layouts. bool soundio_device_supports_layout(struct SoundIoDevice *device, const struct SoundIoChannelLayout *layout); // Output Streams // Allocates memory and sets defaults. Next you should fill out the struct fields // and then call `soundio_outstream_open`. struct SoundIoOutStream *soundio_outstream_create(struct SoundIoDevice *device); // You may not call this function from the `write_callback` thread context. void soundio_outstream_destroy(struct SoundIoOutStream *outstream); // After you call this function, `buffer_duration` and `period_duration` are // set to the correct values, if available. // The next thing to do is call `soundio_instream_start`. int soundio_outstream_open(struct SoundIoOutStream *outstream); // After you call this function, `write_callback` will be called. int soundio_outstream_start(struct SoundIoOutStream *outstream); // Call this function when you are ready to begin writing to the device buffer. // * `outstream` - (in) The output stream you want to write to. // * `areas` - (out) The memory addresses you can write data to. It is OK to // modify the pointers if that helps you iterate. // * `frame_count` - (in/out) Provide the number of frames you want to write. // Returned will be the number of frames you actually can write. Must be // greater than 0 frames. // It is your responsibility to call this function no more and no fewer than the // correct number of times as determined by `requested_frame_count` from // `write_callback`. See sio_sine.c for an example. // You must call this function only from the `write_callback` thread context. // After calling this function, write data to `areas` and then call `soundio_outstream_end_write`. int soundio_outstream_begin_write(struct SoundIoOutStream *outstream, struct SoundIoChannelArea **areas, int *frame_count); // Commits the write that you began with `soundio_outstream_begin_write`. // You must call this function only from the `write_callback` thread context. // This function might return `SoundIoErrorUnderflow` but don't count on it. int soundio_outstream_end_write(struct SoundIoOutStream *outstream, int frame_count); // Clears the output stream buffer. // You must call this function only from the `write_callback` thread context. int soundio_outstream_clear_buffer(struct SoundIoOutStream *outstream); // If the underyling device supports pausing, this pauses the stream and // prevents `write_callback` from being called. Otherwise this returns // `SoundIoErrorIncompatibleDevice`. // You must call this function only from the `write_callback` thread context. int soundio_outstream_pause(struct SoundIoOutStream *outstream, bool pause); // Input Streams // Allocates memory and sets defaults. Next you should fill out the struct fields // and then call `soundio_instream_open`. struct SoundIoInStream *soundio_instream_create(struct SoundIoDevice *device); // You may not call this function from `read_callback`. void soundio_instream_destroy(struct SoundIoInStream *instream); // After you call this function, `buffer_duration` and `period_duration` are // set to the correct values, if available. // The next thing to do is call `soundio_instream_start`. int soundio_instream_open(struct SoundIoInStream *instream); // After you call this function, `read_callback` will be called. int soundio_instream_start(struct SoundIoInStream *instream); // Call this function when you are ready to begin reading from the device // buffer. // * `instream` - (in) The input stream you want to read from. // * `areas` - (out) The memory addresses you can read data from. It is OK // to modify the pointers if that helps you iterate. If a buffer overflow // occurred, there will be a "hole" in the buffer. To indicate this, // `areas` will be `NULL` and `frame_count` tells how big the hole is in // frames. // * `frame_count` - (in/out) - Provide the number of frames you want to read. // Returned will be the number of frames you can actually read. // It is your responsibility to call this function no more and no fewer than the // correct number of times as determined by `available_frame_count` from // `read_callback`. See sio_microphone.c for an example. // You must call this function only from the `read_callback` thread context. // After calling this function, read data from `areas` and then use // `soundio_instream_end_read` to actually remove the data from the buffer // and move the read index forward. `soundio_instream_end_read` should not be // called if the buffer is empty (`frame_count` == 0), but it should be called // if there is a hole. int soundio_instream_begin_read(struct SoundIoInStream *instream, struct SoundIoChannelArea **areas, int *frame_count); // This will drop all of the frames from when you called // `soundio_instream_begin_read`. // You must call this function only from the `read_callback` thread context. // You must call this function only after a successful call to // `soundio_instream_begin_read`. int soundio_instream_end_read(struct SoundIoInStream *instream); // If the underyling device supports pausing, this pauses the stream and // prevents `read_callback` from being called. Otherwise this returns // `SoundIoErrorIncompatibleDevice`. // You must call this function only from the `read_callback` thread context. int soundio_instream_pause(struct SoundIoInStream *instream, bool pause); // Ring Buffer struct SoundIoRingBuffer; // `requested_capacity` in bytes. struct SoundIoRingBuffer *soundio_ring_buffer_create(struct SoundIo *soundio, int requested_capacity); void soundio_ring_buffer_destroy(struct SoundIoRingBuffer *ring_buffer); int soundio_ring_buffer_capacity(struct SoundIoRingBuffer *ring_buffer); // don't write more than capacity char *soundio_ring_buffer_write_ptr(struct SoundIoRingBuffer *ring_buffer); // `count` in bytes. void soundio_ring_buffer_advance_write_ptr(struct SoundIoRingBuffer *ring_buffer, int count); // don't read more than capacity char *soundio_ring_buffer_read_ptr(struct SoundIoRingBuffer *ring_buffer); // `count` in bytes. void soundio_ring_buffer_advance_read_ptr(struct SoundIoRingBuffer *ring_buffer, int count); // Returns how many bytes of the buffer is used, ready for reading. int soundio_ring_buffer_fill_count(struct SoundIoRingBuffer *ring_buffer); // Returns how many bytes of the buffer is free, ready for writing. int soundio_ring_buffer_free_count(struct SoundIoRingBuffer *ring_buffer); // Must be called by the writer. void soundio_ring_buffer_clear(struct SoundIoRingBuffer *ring_buffer); #ifdef __cplusplus } #endif #endif