512 lines
18 KiB
C
512 lines
18 KiB
C
///////////////////////////////////////////////////////////////////////////////
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// sts_mixer.h - v0.02
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// written 2016 by Sebastian Steinhauer
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//
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// LICENSE
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// Public domain. See "unlicense" statement at the end of this file.
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//
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// ABOUT
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// A simple stereo audio mixer which is capable of mixing samples and audio streams.
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// Samples can be played with different gain, pitch and panning.
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// Streams can be played with different gain.
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// This library has no malloc/free. All structs have to be "prepared" by the user. So you can enroll your own memory management.
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// You have to implement/provide a real audio-backend to hear something from the speakers.
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// A good starting point would be SDL2 where you can use an audio callback to feed the audio device.
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//
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// USAGE
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// Please note that most audio systems will run in a separate thread. So you have to take care about locking before modifying the sts_mixer_t state.
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// See the example at the end of the file.
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//
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// VERSION HISTORY
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// 0.02 (2022-05-10) allow voice queueing in same channel. ie, chain another sample on same voice channel after current sample playback is done (@r-lyeh)
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// 0.01 (2016-05-01) initial version
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//
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#ifndef __INCLUDED__STS_MIXER_H__
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#define __INCLUDED__STS_MIXER_H__
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// The number of concurrent voices (channels) which are used to mix the audio.
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// If you need more, use a higher number by setting #define STS_MIXER_VOICE n before including this header.
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#ifndef STS_MIXER_VOICES
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#define STS_MIXER_VOICES 32
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#endif // STS_MIXER_VOICES
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// Defines the various audio formats. Note that they are all on system endianess.
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enum {
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STS_MIXER_SAMPLE_FORMAT_NONE, // no format
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STS_MIXER_SAMPLE_FORMAT_8, // signed 8-bit
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STS_MIXER_SAMPLE_FORMAT_16, // signed 16-bit
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STS_MIXER_SAMPLE_FORMAT_32, // signed 32-bit
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STS_MIXER_SAMPLE_FORMAT_FLOAT // floats
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};
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////////////////////////////////////////////////////////////////////////////////
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//
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// SAMPLES
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//
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// A sample is a *MONO* piece of audio which is loaded fully to memory.
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// It can be played with various gains, pitches and pannings.
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//
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typedef struct {
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unsigned int length; // length in samples (so 1024 samples of STS_MIXER_SAMPLE_FORMAT_16 would be 2048 bytes)
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unsigned int frequency; // frequency of this sample (e.g. 44100, 22000 ...)
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int audio_format; // one of STS_MIXER_SAMPLE_FORMAT_*
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void* data; // pointer to the sample data, sts_mixer makes no copy, so you have to keep them in memory
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void* next; // next sample in chain (if any) //< @r-lyeh
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} sts_mixer_sample_t;
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////////////////////////////////////////////////////////////////////////////////
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//
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// STREAMS
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//
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// A stream is *STEREO* audio which will be decoded/loaded as needed.
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// It can be played with various gains. No panning or pitching.
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//
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// The callback which will be called when the stream needs more data.
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typedef void (*sts_mixer_stream_callback)(sts_mixer_sample_t* sample, void* userdata);
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typedef struct {
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void* userdata; // a userdata pointer which will passed to the callback
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sts_mixer_stream_callback callback; // this callback will be called when the stream needs more data
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sts_mixer_sample_t sample; // the current stream "sample" which holds the current piece of audio
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} sts_mixer_stream_t;
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////////////////////////////////////////////////////////////////////////////////
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//
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// VOICES
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//
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// A voice is an audio source which will be used during mixing.
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// It can play nothing, a sample or a stream.
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// Most of those fields are considered "private" and you should not play around with those.
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//
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typedef struct {
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int state;
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sts_mixer_sample_t* sample;
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sts_mixer_stream_t* stream;
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float position;
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float gain;
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float pitch;
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float pan;
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} sts_mixer_voice_t;
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////////////////////////////////////////////////////////////////////////////////
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//
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// MIXER
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//
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// The mixer state.
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//
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typedef struct {
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float gain; // the global gain (you can change it if you want to change to overall volume)
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unsigned int frequency; // the frequency for the output of mixed audio data
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int audio_format; // the audio format for the output of mixed audio data
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sts_mixer_voice_t voices[STS_MIXER_VOICES]; // holding all audio voices for this state
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} sts_mixer_t;
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////////////////////////////////////////////////////////////////////////////////
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//
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// API
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//
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// "Initializes" a new sts_mixer state.
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void sts_mixer_init(sts_mixer_t* mixer, unsigned int frequency, int audio_format);
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// "Shutdown" the mixer state. It will simply reset all fields.
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void sts_mixer_shutdown(sts_mixer_t* mixer);
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// Return the number of active voices. Active voices are voices that play either a stream or a sample.
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int sts_mixer_get_active_voices(sts_mixer_t* mixer);
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// Play the given sample with the gain, pitch and panning.
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// Panning can be something between -1.0f (fully left) ... +1.0f (fully right)
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// Please note that pitch will be clamped so it cannot reach 0.0f (would be useless).
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// Returns the number of the voice where this sample will be played or -1 if no voice was free.
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int sts_mixer_play_sample(sts_mixer_t* mixer, sts_mixer_sample_t* sample, float gain, float pitch, float pan);
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// Plays the given stream with the gain.
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// Returns the number of the voice where this stream will be played or -1 if no voice was free.
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int sts_mixer_play_stream(sts_mixer_t* mixer, sts_mixer_stream_t* stream, float gain);
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// Stops voice with the given voice no. You can pass the returned number of sts_mixer_play_sample / sts_mixer_play_stream here.
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void sts_mixer_stop_voice(sts_mixer_t* mixer, int voice);
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// Stops all voices playing the given sample. Useful when you want to delete the sample and make sure it is not used anymore.
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void sts_mixer_stop_sample(sts_mixer_t* mixer, sts_mixer_sample_t* sample);
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// Stops all voices playing the given stream. Useful when you want to delete the stream and make sure it is not used anymore.
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void sts_mixer_stop_stream(sts_mixer_t* mixer, sts_mixer_stream_t* stream);
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// The mixing function. You should call the function if you need to pass more audio data to the audio device.
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// Typically this function is called in a separate thread or something like that.
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// It will write audio data in the specified format and frequency of the mixer state.
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void sts_mixer_mix_audio(sts_mixer_t* mixer, void* output, unsigned int samples);
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#endif // __INCLUDED__STS_MIXER_H__
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///////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////
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////
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//// IMPLEMENTATION
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////
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////
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#ifdef STS_MIXER_IMPLEMENTATION
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enum {
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STS_MIXER_VOICE_STOPPED,
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STS_MIXER_VOICE_PLAYING,
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STS_MIXER_VOICE_STREAMING
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};
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static float sts_mixer__clamp(const float value, const float min, const float max) {
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if (value < min) return min;
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else if (value > max) return max;
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else return value;
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}
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static float sts_mixer__clamp_sample(const float sample) {
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if (sample < -1.0f) return -1.0f;
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else if (sample > 1.0f) return 1.0f;
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else return sample;
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}
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static float sts_mixer__get_sample(sts_mixer_sample_t* sample, unsigned int position) {
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switch (sample->audio_format) {
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case STS_MIXER_SAMPLE_FORMAT_8:
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return (float)((char*)sample->data)[position] / 127.0f;
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case STS_MIXER_SAMPLE_FORMAT_16:
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return (float)((short*)sample->data)[position] / 32767.0f;
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case STS_MIXER_SAMPLE_FORMAT_32:
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return (float)((int*)sample->data)[position] / 2147483647.0f;
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case STS_MIXER_SAMPLE_FORMAT_FLOAT:
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return ((float*)sample->data)[position];
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default:
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return 0.0f;
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}
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}
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static void sts_mixer__reset_voice(sts_mixer_t* mixer, const int i) {
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sts_mixer_voice_t* voice = &mixer->voices[i];
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voice->state = STS_MIXER_VOICE_STOPPED;
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voice->sample = 0;
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voice->stream = 0;
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voice->position = voice->gain = voice->pitch = voice->pan = 0.0f;
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}
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static int sts_mixer__find_free_voice(sts_mixer_t* mixer) {
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int i;
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for (i = 0; i < STS_MIXER_VOICES; ++i) {
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if (mixer->voices[i].state == STS_MIXER_VOICE_STOPPED) return i;
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}
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return -1;
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}
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void sts_mixer_init(sts_mixer_t* mixer, unsigned int frequency, int audio_format) {
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int i;
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for (i = 0; i < STS_MIXER_VOICES; ++i) sts_mixer__reset_voice(mixer, i);
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mixer->frequency = frequency;
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mixer->gain = 1.0f;
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mixer->audio_format = audio_format;
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}
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void sts_mixer_shutdown(sts_mixer_t* mixer) {
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sts_mixer_init(mixer, 0, 0);
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}
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int sts_mixer_get_active_voices(sts_mixer_t* mixer) {
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int i, active;
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for (i = 0, active = 0; i < STS_MIXER_VOICES; ++i) {
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if (mixer->voices[i].state != STS_MIXER_VOICE_STOPPED) ++active;
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}
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return active;
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}
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int sts_mixer_play_sample(sts_mixer_t* mixer, sts_mixer_sample_t* sample, float gain, float pitch, float pan) {
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int i;
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sts_mixer_voice_t* voice;
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i = sts_mixer__find_free_voice(mixer);
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if (i >= 0) {
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voice = &mixer->voices[i];
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voice->gain = gain;
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voice->pitch = sts_mixer__clamp(pitch, 0.1f, 10.0f);
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voice->pan = sts_mixer__clamp(pan * 0.5f, -0.5f, 0.5f);
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voice->position = 0.0f;
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voice->sample = sample;
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voice->stream = 0;
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voice->state = STS_MIXER_VOICE_PLAYING;
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}
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return i;
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}
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int sts_mixer_play_stream(sts_mixer_t* mixer, sts_mixer_stream_t* stream, float gain) {
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int i;
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sts_mixer_voice_t* voice;
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i = sts_mixer__find_free_voice(mixer);
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if (i >= 0) {
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voice = &mixer->voices[i];
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voice->gain = gain;
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voice->position = 0.0f;
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voice->sample = 0;
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voice->stream = stream;
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voice->state = STS_MIXER_VOICE_STREAMING;
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}
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return i;
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}
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void sts_mixer_stop_voice(sts_mixer_t* mixer, int voice) {
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if (voice >= 0 && voice < STS_MIXER_VOICES) sts_mixer__reset_voice(mixer, voice);
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}
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void sts_mixer_stop_sample(sts_mixer_t* mixer, sts_mixer_sample_t* sample) {
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int i;
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for (i = 0; i < STS_MIXER_VOICES; ++i) {
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if (mixer->voices[i].sample == sample) sts_mixer__reset_voice(mixer, i);
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}
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}
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void sts_mixer_stop_stream(sts_mixer_t* mixer, sts_mixer_stream_t* stream) {
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int i;
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for (i = 0; i < STS_MIXER_VOICES; ++i) {
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if (mixer->voices[i].stream == stream) sts_mixer__reset_voice(mixer, i);
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}
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}
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void sts_mixer_mix_audio(sts_mixer_t* mixer, void* output, unsigned int samples) {
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sts_mixer_voice_t* voice;
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unsigned int i, position;
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float left, right, advance, sample;
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char* out_8 = (char*)output;
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short* out_16 = (short*)output;
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int* out_32 = (int*)output;
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float* out_float = (float*)output;
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// mix all voices
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advance = 1.0f / (float)mixer->frequency;
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for (; samples > 0; --samples) {
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left = right = 0.0f;
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for (i = 0; i < STS_MIXER_VOICES; ++i) {
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voice = &mixer->voices[i];
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if (voice->state == STS_MIXER_VOICE_PLAYING) {
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position = (int)voice->position;
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if (position < voice->sample->length) {
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sample = sts_mixer__clamp_sample(sts_mixer__get_sample(voice->sample, position) * voice->gain);
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left += sts_mixer__clamp_sample(sample * (0.5f - voice->pan));
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right += sts_mixer__clamp_sample(sample * (0.5f + voice->pan));
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voice->position += (float)voice->sample->frequency * advance * voice->pitch;
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} else if( voice->sample->next ) { //< @r-lyeh
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*voice->sample = *(sts_mixer_sample_t*)voice->sample->next; //< @r-lyeh
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voice->position = 0; //< @r-lyeh
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} else sts_mixer__reset_voice(mixer, i);
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} else if (voice->state == STS_MIXER_VOICE_STREAMING) {
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position = ((int)voice->position) * 2;
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if (position >= voice->stream->sample.length) {
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// buffer empty...refill
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voice->stream->callback(&voice->stream->sample, voice->stream->userdata);
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voice->position = 0.0f;
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position = 0;
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}
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left += sts_mixer__clamp_sample(sts_mixer__get_sample(&voice->stream->sample, position) * voice->gain);
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right += sts_mixer__clamp_sample(sts_mixer__get_sample(&voice->stream->sample, position + 1) * voice->gain);
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voice->position += (float)voice->stream->sample.frequency * advance;
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}
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}
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// write to buffer.
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float _g = mixer->gain; //< @r-lyeh: added master gain
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float _127 = 127.0f * _g; //< @r-lyeh: added master gain
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float _32767 = 32767.0f * _g; //< @r-lyeh: added master gain
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float _2147483647 = 2147483647.0f * _g; //< @r-lyeh: added master gain
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left = sts_mixer__clamp_sample(left);
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right = sts_mixer__clamp_sample(right);
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switch (mixer->audio_format) {
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case STS_MIXER_SAMPLE_FORMAT_8:
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*out_8++ = (char)(left * _127); //< @r-lyeh: added master gain
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*out_8++ = (char)(right * _127); //< @r-lyeh: added master gain
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break;
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case STS_MIXER_SAMPLE_FORMAT_16:
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*out_16++ = (short)(left * _32767); //< @r-lyeh: added master gain
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*out_16++ = (short)(right * _32767); //< @r-lyeh: added master gain
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break;
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case STS_MIXER_SAMPLE_FORMAT_32:
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*out_32++ = (int)(left * _2147483647); //< @r-lyeh: added master gain
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*out_32++ = (int)(right * _2147483647); //< @r-lyeh: added master gain
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break;
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case STS_MIXER_SAMPLE_FORMAT_FLOAT:
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*out_float++ = left * _g; //< @r-lyeh: added master gain
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*out_float++ = right * _g; //< @r-lyeh: added master gain
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break;
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}
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}
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}
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#endif // STS_MIXER_IMPLEMENTATION
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////////////////////////////////////////////////////////////////////////////////
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// EXAMPLE
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// This is a very simple example loading a stream and a sample using
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// dr_flac.h (https://github.com/mackron/dr_libs) and SDL2. You can of course also use stb_vorbis or something similar :)
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// Please note how the audio thread of SDL2 will be locked when the mixer state get's modified. This is important!
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// Also there's no error checking in the entire example code, so beware.
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//
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#if 0
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#include "SDL.h"
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#define DR_FLAC_IMPLEMENTATION
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#include "dr_flac.h"
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#define STS_MIXER_IMPLEMENTATION
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#include "sts_mixer.h"
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SDL_AudioDeviceID audio_device = 0;
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sts_mixer_t mixer;
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// encapsulate drflac and some buffer with the sts_mixer_stream_t
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typedef struct {
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drflac* flac; // FLAC decoder state
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sts_mixer_stream_t stream; // mixer stream
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int32_t data[4096*2]; // static sample buffer
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} mystream_t;
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// SDL2 audio callback
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static void audio_callback(void* userdata, Uint8* stream, int len) {
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(void)(userdata);
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sts_mixer_mix_audio(&mixer, stream, len / (sizeof(int) * 2));
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}
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// load a sample
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static void load_sample(sts_mixer_sample_t* sample, const char *filename) {
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drflac* flac = drflac_open_file(filename);
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sample->frequency = flac->sampleRate;
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sample->audio_format = STS_MIXER_SAMPLE_FORMAT_32;
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sample->length = flac->totalSampleCount;
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sample->data = malloc(sample->length * sizeof(int32_t));
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drflac_read_s32(flac, sample->length, (int32_t*)sample->data);
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drflac_close(flac);
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}
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// the callback to refill the stream data
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static void refill_stream(sts_mixer_sample_t* sample, void* userdata) {
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mystream_t* stream = (mystream_t*)userdata;
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if (drflac_read_s32(stream->flac, sample->length, stream->data) < sample->length) drflac_seek_to_sample(stream->flac, 0);
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}
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// load a stream
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static void load_stream(mystream_t* stream, const char *filename) {
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stream->flac = drflac_open_file(filename);
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stream->stream.userdata = stream;
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stream->stream.callback = refill_stream;
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stream->stream.sample.frequency = stream->flac->sampleRate;
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stream->stream.sample.audio_format = STS_MIXER_SAMPLE_FORMAT_32;
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stream->stream.sample.length = 4096*2;
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stream->stream.sample.data = stream->data;
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refill_stream(&stream->stream.sample, stream);
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}
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// helper to get random [0.0f..1.0f values
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static float randf() {
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return (float)(rand()) / (float)RAND_MAX;
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}
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int main(int argc, char *argv[]) {
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SDL_AudioSpec want, have;
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sts_mixer_sample_t sample;
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mystream_t stream;
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(void)(argc); (void)(argv);
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// init SDL2 + audio
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want.format = AUDIO_S32SYS;
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want.freq = 44100;
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want.channels = 2;
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want.userdata = NULL;
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want.samples = 4096;
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want.callback = audio_callback;
|
|
SDL_Init(SDL_INIT_AUDIO);
|
|
audio_device = SDL_OpenAudioDevice(NULL, 0, &want, &have, 0);
|
|
|
|
// init sts_mixer and load things
|
|
sts_mixer_init(&mixer, 44100, STS_MIXER_SAMPLE_FORMAT_32);
|
|
load_sample(&sample, "effect.flac");
|
|
load_stream(&stream, "music.flac");
|
|
|
|
// play the stream
|
|
sts_mixer_play_stream(&mixer, &stream.stream, 0.7f);
|
|
|
|
// start audio processing and do a loop for audio effects
|
|
SDL_PauseAudioDevice(audio_device, 0);
|
|
for (;;) {
|
|
// !!!IMPORTANT!!! lock the audio thread before modifying data in the sts_mixer !!!
|
|
SDL_LockAudioDevice(audio_device);
|
|
// play a sample with random gain, pitch and panning
|
|
sts_mixer_play_sample(&mixer, &sample, randf(), 0.5f + randf(), -1.0f + randf() * 2.0f);
|
|
// unlock audio thread again
|
|
SDL_UnlockAudioDevice(audio_device);
|
|
|
|
// wait ...
|
|
SDL_Delay(76);
|
|
}
|
|
SDL_PauseAudioDevice(audio_device, 1);
|
|
SDL_CloseAudioDevice(audio_device);
|
|
|
|
SDL_Quit();
|
|
return 0;
|
|
}
|
|
#endif // 0
|
|
/*
|
|
This is free and unencumbered software released into the public domain.
|
|
|
|
Anyone is free to copy, modify, publish, use, compile, sell, or
|
|
distribute this software, either in source code form or as a compiled
|
|
binary, for any purpose, commercial or non-commercial, and by any
|
|
means.
|
|
|
|
In jurisdictions that recognize copyright laws, the author or authors
|
|
of this software dedicate any and all copyright interest in the
|
|
software to the public domain. We make this dedication for the benefit
|
|
of the public at large and to the detriment of our heirs and
|
|
successors. We intend this dedication to be an overt act of
|
|
relinquishment in perpetuity of all present and future rights to this
|
|
software under copyright law.
|
|
|
|
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
|
|
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
|
|
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
|
|
IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
|
|
OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
|
|
ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
|
|
OTHER DEALINGS IN THE SOFTWARE.
|
|
|
|
For more information, please refer to <http://unlicense.org/>
|
|
*/
|