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f87961275d
CoreAudio and JACK both have this limitation
329 lines
12 KiB
C
329 lines
12 KiB
C
/*
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* Copyright (c) 2015 Andrew Kelley
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*
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* This file is part of libsoundio, which is MIT licensed.
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* See http://opensource.org/licenses/MIT
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*/
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#include <soundio/soundio.h>
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#include <stdio.h>
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#include <stdarg.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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static const double microphone_latency = 0.2; // seconds
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static enum SoundIoFormat prioritized_formats[] = {
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SoundIoFormatFloat32NE,
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SoundIoFormatFloat32FE,
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SoundIoFormatS32NE,
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SoundIoFormatS32FE,
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SoundIoFormatS24NE,
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SoundIoFormatS24FE,
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SoundIoFormatS16NE,
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SoundIoFormatS16FE,
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SoundIoFormatFloat64NE,
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SoundIoFormatFloat64FE,
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SoundIoFormatU32NE,
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SoundIoFormatU32FE,
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SoundIoFormatU24NE,
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SoundIoFormatU24FE,
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SoundIoFormatU16NE,
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SoundIoFormatU16FE,
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SoundIoFormatS8,
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SoundIoFormatU8,
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SoundIoFormatInvalid,
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};
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__attribute__ ((cold))
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__attribute__ ((noreturn))
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__attribute__ ((format (printf, 1, 2)))
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static void panic(const char *format, ...) {
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va_list ap;
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va_start(ap, format);
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vfprintf(stderr, format, ap);
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fprintf(stderr, "\n");
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va_end(ap);
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abort();
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}
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struct SoundIoRingBuffer *ring_buffer = NULL;
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static void read_callback(struct SoundIoInStream *instream, int available_frame_count) {
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struct SoundIoChannelArea *areas;
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int frame_count;
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int err;
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char *write_ptr = soundio_ring_buffer_write_ptr(ring_buffer);
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int free_bytes = soundio_ring_buffer_free_count(ring_buffer);
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int free_count = free_bytes / instream->bytes_per_frame;
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//fprintf(stderr, "read_callback %d free %d\n", available_frame_count, free_count);
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if (available_frame_count > free_count)
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panic("ring buffer overflow");
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for (;;) {
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if ((err = soundio_instream_begin_read(instream, &areas, &frame_count)))
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panic("begin read error: %s", soundio_strerror(err));
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if (!frame_count)
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break;
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if (!areas) {
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// Due to an overflow there is a hole. Fill the ring buffer with
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// silence for the size of the hole.
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memset(write_ptr, 0, frame_count * instream->bytes_per_frame);
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fprintf(stderr, "Dropped %d frames due to internal overflow\n", frame_count);
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} else {
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for (int frame = 0; frame < frame_count; frame += 1) {
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for (int ch = 0; ch < instream->layout.channel_count; ch += 1) {
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memcpy(write_ptr, areas[ch].ptr, instream->bytes_per_sample);
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areas[ch].ptr += areas[ch].step;
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write_ptr += instream->bytes_per_sample;
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}
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}
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}
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if ((err = soundio_instream_end_read(instream)))
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panic("end read error: %s", soundio_strerror(err));
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}
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int advance_bytes = available_frame_count * instream->bytes_per_frame;
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soundio_ring_buffer_advance_write_ptr(ring_buffer, advance_bytes);
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}
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static void write_callback(struct SoundIoOutStream *outstream, int requested_frame_count) {
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struct SoundIoChannelArea *areas;
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int frame_count;
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int err;
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char *read_ptr = soundio_ring_buffer_read_ptr(ring_buffer);
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int fill_bytes = soundio_ring_buffer_fill_count(ring_buffer);
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int fill_count = fill_bytes / outstream->bytes_per_frame;
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//fprintf(stderr, "write_callback %d fill %d\n", requested_frame_count, fill_count);
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if (requested_frame_count > fill_count) {
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// Ring buffer does not have enough data, fill with zeroes.
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for (;;) {
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if ((err = soundio_outstream_begin_write(outstream, &areas, &frame_count)))
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panic("begin write error: %s", soundio_strerror(err));
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if (frame_count <= 0)
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return;
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for (int frame = 0; frame < frame_count; frame += 1) {
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for (int ch = 0; ch < outstream->layout.channel_count; ch += 1) {
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memset(areas[ch].ptr, 0, outstream->bytes_per_sample);
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areas[ch].ptr += areas[ch].step;
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}
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}
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if ((err = soundio_outstream_end_write(outstream)))
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panic("end write error: %s", soundio_strerror(err));
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}
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}
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for (;;) {
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if ((err = soundio_outstream_begin_write(outstream, &areas, &frame_count)))
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panic("begin write error: %s", soundio_strerror(err));
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if (frame_count <= 0)
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break;
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for (int frame = 0; frame < frame_count; frame += 1) {
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for (int ch = 0; ch < outstream->layout.channel_count; ch += 1) {
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memcpy(areas[ch].ptr, read_ptr, outstream->bytes_per_sample);
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areas[ch].ptr += areas[ch].step;
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read_ptr += outstream->bytes_per_sample;
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}
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}
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if ((err = soundio_outstream_end_write(outstream)))
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panic("end write error: %s", soundio_strerror(err));
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}
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soundio_ring_buffer_advance_read_ptr(ring_buffer, requested_frame_count * outstream->bytes_per_frame);
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}
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static void underflow_callback(struct SoundIoOutStream *outstream) {
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static int count = 0;
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fprintf(stderr, "underflow %d\n", ++count);
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}
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static int usage(char *exe) {
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fprintf(stderr, "Usage: %s [--dummy] [--alsa] [--pulseaudio] [--jack] [--in-device id] [--out-device id]\n", exe);
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return 1;
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}
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int main(int argc, char **argv) {
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char *exe = argv[0];
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enum SoundIoBackend backend = SoundIoBackendNone;
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char *in_device_id = NULL;
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char *out_device_id = NULL;
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for (int i = 1; i < argc; i += 1) {
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char *arg = argv[i];
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if (strcmp("--dummy", arg) == 0) {
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backend = SoundIoBackendDummy;
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} else if (strcmp("--alsa", arg) == 0) {
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backend = SoundIoBackendAlsa;
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} else if (strcmp("--pulseaudio", arg) == 0) {
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backend = SoundIoBackendPulseAudio;
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} else if (strcmp("--jack", arg) == 0) {
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backend = SoundIoBackendJack;
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} else if (strcmp("--in-device", arg) == 0) {
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if (++i >= argc) {
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return usage(exe);
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} else {
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in_device_id = argv[i];
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}
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} else if (strcmp("--out-device", arg) == 0) {
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if (++i >= argc) {
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return usage(exe);
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} else {
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out_device_id = argv[i];
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}
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} else {
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return usage(exe);
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}
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}
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struct SoundIo *soundio = soundio_create();
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if (!soundio)
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panic("out of memory");
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int err = (backend == SoundIoBackendNone) ?
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soundio_connect(soundio) : soundio_connect_backend(soundio, backend);
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if (err)
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panic("error connecting: %s", soundio_strerror(err));
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soundio_flush_events(soundio);
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int default_out_device_index = soundio_default_output_device_index(soundio);
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if (default_out_device_index < 0)
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panic("no output device found");
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int default_in_device_index = soundio_default_input_device_index(soundio);
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if (default_in_device_index < 0)
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panic("no output device found");
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int in_device_index = default_in_device_index;
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if (in_device_id) {
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bool found = false;
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for (int i = 0; i < soundio_input_device_count(soundio); i += 1) {
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struct SoundIoDevice *device = soundio_get_input_device(soundio, i);
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if (strcmp(device->id, in_device_id) == 0) {
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in_device_index = i;
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found = true;
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soundio_device_unref(device);
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break;
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}
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soundio_device_unref(device);
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}
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if (!found)
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panic("invalid input device id: %s", in_device_id);
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}
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int out_device_index = default_out_device_index;
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if (out_device_id) {
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bool found = false;
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for (int i = 0; i < soundio_output_device_count(soundio); i += 1) {
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struct SoundIoDevice *device = soundio_get_output_device(soundio, i);
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if (strcmp(device->id, out_device_id) == 0) {
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out_device_index = i;
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found = true;
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soundio_device_unref(device);
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break;
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}
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soundio_device_unref(device);
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}
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if (!found)
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panic("invalid output device id: %s", out_device_id);
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}
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struct SoundIoDevice *out_device = soundio_get_output_device(soundio, out_device_index);
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if (!out_device)
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panic("could not get output device: out of memory");
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struct SoundIoDevice *in_device = soundio_get_input_device(soundio, in_device_index);
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if (!in_device)
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panic("could not get input device: out of memory");
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fprintf(stderr, "Input device: %s\n", in_device->name);
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fprintf(stderr, "Output device: %s\n", out_device->name);
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soundio_device_sort_channel_layouts(out_device);
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const struct SoundIoChannelLayout *layout = soundio_best_matching_channel_layout(
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out_device->layouts, out_device->layout_count,
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in_device->layouts, in_device->layout_count);
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if (!layout)
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panic("channel layouts not compatible");
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int sample_rate = 48000;
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if (in_device->sample_rate_max < sample_rate) sample_rate = in_device->sample_rate_max;
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if (out_device->sample_rate_max < sample_rate) sample_rate = out_device->sample_rate_max;
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if (in_device->sample_rate_min > sample_rate || out_device->sample_rate_min > sample_rate)
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panic("incompatible sample rates");
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enum SoundIoFormat *fmt;
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for (fmt = prioritized_formats; *fmt != SoundIoFormatInvalid; fmt += 1) {
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if (soundio_device_supports_format(in_device, *fmt) &&
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soundio_device_supports_format(out_device, *fmt))
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{
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break;
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}
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}
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if (*fmt == SoundIoFormatInvalid)
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panic("incompatible sample formats");
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struct SoundIoInStream *instream = soundio_instream_create(in_device);
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if (!instream)
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panic("out of memory");
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instream->format = *fmt;
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instream->sample_rate = sample_rate;
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instream->layout = *layout;
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instream->period_duration = microphone_latency / 4.0;
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instream->read_callback = read_callback;
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if ((err = soundio_instream_open(instream)))
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panic("unable to open input stream: %s", soundio_strerror(err));
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struct SoundIoOutStream *outstream = soundio_outstream_create(out_device);
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if (!outstream)
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panic("out of memory");
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outstream->format = *fmt;
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outstream->sample_rate = sample_rate;
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outstream->layout = *layout;
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outstream->buffer_duration = microphone_latency;
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outstream->write_callback = write_callback;
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outstream->underflow_callback = underflow_callback;
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if ((err = soundio_outstream_open(outstream)))
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panic("unable to open output stream: %s", soundio_strerror(err));
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int capacity = microphone_latency * 2 * instream->sample_rate * instream->bytes_per_frame;
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ring_buffer = soundio_ring_buffer_create(soundio, capacity);
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if (!ring_buffer)
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panic("unable to create ring buffer: out of memory");
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char *buf = soundio_ring_buffer_write_ptr(ring_buffer);
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int fill_count = microphone_latency * outstream->sample_rate * outstream->bytes_per_frame;
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memset(buf, 0, fill_count);
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soundio_ring_buffer_advance_write_ptr(ring_buffer, fill_count);
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if ((err = soundio_instream_start(instream)))
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panic("unable to start input device: %s", soundio_strerror(err));
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if ((err = soundio_outstream_start(outstream)))
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panic("unable to start output device: %s", soundio_strerror(err));
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for (;;)
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soundio_wait_events(soundio);
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soundio_outstream_destroy(outstream);
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soundio_instream_destroy(instream);
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soundio_device_unref(in_device);
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soundio_device_unref(out_device);
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soundio_destroy(soundio);
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return 0;
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}
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