mirror of
https://github.com/Ryujinx/libsoundio.git
synced 2024-12-23 04:45:40 +00:00
ee7c0d3e11
List<T> is now a really ugly macro. Added a workaround for jack.h not putting `void` in function prototypes for functions that take no arguments. I made upstream pull requests to jack1 and jack2 but I don't have high hopes about them getting merged. I removed the lock-free atomic asserts. clang reports non-lock-free atomics when in fact it does have lock-free atomics. I inspected the generated code for gcc and clang for fetch_add, load, and store, on x86_64 and armhf, and it's all lock free. Closes #45.
251 lines
8 KiB
C
251 lines
8 KiB
C
#undef NDEBUG
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#include "soundio_private.h"
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#include "os.h"
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#include "util.h"
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#include "atomics.h"
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#include <stdio.h>
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#include <string.h>
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#include <assert.h>
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#include <limits.h>
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static inline void ok_or_panic(int err) {
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if (err)
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soundio_panic("%s", soundio_strerror(err));
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}
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static void test_os_get_time(void) {
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ok_or_panic(soundio_os_init());
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double prev_time = soundio_os_get_time();
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for (int i = 0; i < 1000; i += 1) {
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double time = soundio_os_get_time();
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assert(time >= prev_time);
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prev_time = time;
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}
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}
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static void write_callback(struct SoundIoOutStream *device, int frame_count_min, int frame_count_max) { }
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static void error_callback(struct SoundIoOutStream *device, int err) { }
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static void test_create_outstream(void) {
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struct SoundIo *soundio = soundio_create();
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assert(soundio);
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ok_or_panic(soundio_connect(soundio));
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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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assert(default_out_device_index >= 0);
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struct SoundIoDevice *device = soundio_get_output_device(soundio, default_out_device_index);
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assert(device);
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struct SoundIoOutStream *outstream = soundio_outstream_create(device);
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outstream->format = SoundIoFormatFloat32NE;
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outstream->sample_rate = 48000;
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outstream->layout = device->layouts[0];
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outstream->software_latency = 0.1;
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outstream->write_callback = write_callback;
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outstream->error_callback = error_callback;
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ok_or_panic(soundio_outstream_open(outstream));
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soundio_outstream_destroy(outstream);
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soundio_device_unref(device);
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soundio_destroy(soundio);
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soundio = NULL;
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soundio_destroy(soundio);
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}
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static void test_ring_buffer_basic(void) {
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struct SoundIo *soundio = soundio_create();
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assert(soundio);
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struct SoundIoRingBuffer *rb = soundio_ring_buffer_create(soundio, 10);
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assert(rb);
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int page_size = soundio_os_page_size();
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assert(soundio_ring_buffer_capacity(rb) == page_size);
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char *write_ptr = soundio_ring_buffer_write_ptr(rb);
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int amt = sprintf(write_ptr, "hello") + 1;
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soundio_ring_buffer_advance_write_ptr(rb, amt);
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assert(soundio_ring_buffer_fill_count(rb) == amt);
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assert(soundio_ring_buffer_free_count(rb) == page_size - amt);
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char *read_ptr = soundio_ring_buffer_read_ptr(rb);
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assert(strcmp(read_ptr, "hello") == 0);
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soundio_ring_buffer_advance_read_ptr(rb, amt);
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assert(soundio_ring_buffer_fill_count(rb) == 0);
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assert(soundio_ring_buffer_free_count(rb) == soundio_ring_buffer_capacity(rb));
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soundio_ring_buffer_advance_write_ptr(rb, page_size - 2);
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soundio_ring_buffer_advance_read_ptr(rb, page_size - 2);
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amt = sprintf(soundio_ring_buffer_write_ptr(rb), "writing past the end") + 1;
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soundio_ring_buffer_advance_write_ptr(rb, amt);
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assert(soundio_ring_buffer_fill_count(rb) == amt);
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assert(strcmp(soundio_ring_buffer_read_ptr(rb), "writing past the end") == 0);
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soundio_ring_buffer_advance_read_ptr(rb, amt);
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assert(soundio_ring_buffer_fill_count(rb) == 0);
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assert(soundio_ring_buffer_free_count(rb) == soundio_ring_buffer_capacity(rb));
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soundio_ring_buffer_destroy(rb);
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soundio_destroy(soundio);
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}
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static struct SoundIoRingBuffer *rb = NULL;
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static const int rb_size = 3528;
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static long expected_write_head;
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static long expected_read_head;
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static struct SoundIoAtomicBool rb_done;
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static struct SoundIoAtomicInt rb_write_it;
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static struct SoundIoAtomicInt rb_read_it;
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// just for testing purposes; does not need to be high quality random
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static double random_double(void) {
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return ((double)rand() / (double)RAND_MAX);
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}
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static void reader_thread_run(void *arg) {
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while (!SOUNDIO_ATOMIC_LOAD(rb_done)) {
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SOUNDIO_ATOMIC_FETCH_ADD(rb_read_it, 1);
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int fill_count = soundio_ring_buffer_fill_count(rb);
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assert(fill_count >= 0);
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assert(fill_count <= rb_size);
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int amount_to_read = soundio_int_min(random_double() * 2.0 * fill_count, fill_count);
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soundio_ring_buffer_advance_read_ptr(rb, amount_to_read);
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expected_read_head += amount_to_read;
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}
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}
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static void writer_thread_run(void *arg) {
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while (!SOUNDIO_ATOMIC_LOAD(rb_done)) {
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SOUNDIO_ATOMIC_FETCH_ADD(rb_write_it, 1);
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int fill_count = soundio_ring_buffer_fill_count(rb);
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assert(fill_count >= 0);
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assert(fill_count <= rb_size);
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int free_count = rb_size - fill_count;
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assert(free_count >= 0);
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assert(free_count <= rb_size);
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int value = soundio_int_min(random_double() * 2.0 * free_count, free_count);
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soundio_ring_buffer_advance_write_ptr(rb, value);
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expected_write_head += value;
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}
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}
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static void test_ring_buffer_threaded(void) {
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struct SoundIo *soundio = soundio_create();
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assert(soundio);
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rb = soundio_ring_buffer_create(soundio, rb_size);
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expected_write_head = 0;
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expected_read_head = 0;
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SOUNDIO_ATOMIC_STORE(rb_read_it, 0);
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SOUNDIO_ATOMIC_STORE(rb_write_it, 0);
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SOUNDIO_ATOMIC_STORE(rb_done, false);
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struct SoundIoOsThread *reader_thread;
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ok_or_panic(soundio_os_thread_create(reader_thread_run, NULL, NULL, &reader_thread));
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struct SoundIoOsThread *writer_thread;
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ok_or_panic(soundio_os_thread_create(writer_thread_run, NULL, NULL, &writer_thread));
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while (SOUNDIO_ATOMIC_LOAD(rb_read_it) < 100000 || SOUNDIO_ATOMIC_LOAD(rb_write_it) < 100000) {}
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SOUNDIO_ATOMIC_STORE(rb_done, true);
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soundio_os_thread_destroy(reader_thread);
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soundio_os_thread_destroy(writer_thread);
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int fill_count = soundio_ring_buffer_fill_count(rb);
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int expected_fill_count = expected_write_head - expected_read_head;
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assert(fill_count == expected_fill_count);
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soundio_destroy(soundio);
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}
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static void test_mirrored_memory(void) {
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struct SoundIoOsMirroredMemory mem;
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ok_or_panic(soundio_os_init());
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static const int requested_bytes = 1024;
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ok_or_panic(soundio_os_init_mirrored_memory(&mem, requested_bytes));
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const int size_bytes = mem.capacity;
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for (int i = 0; i < size_bytes; i += 1) {
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mem.address[i] = rand() % CHAR_MAX;
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}
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for (int i = 0; i < size_bytes; i += 1) {
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assert(mem.address[i] == mem.address[size_bytes+i]);
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}
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soundio_os_deinit_mirrored_memory(&mem);
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}
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static void test_nearest_sample_rate(void) {
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struct SoundIoDevice device;
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struct SoundIoSampleRateRange sample_rates[2] = {
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{
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44100,
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48000
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},
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{
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96000,
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96000,
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},
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};
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device.sample_rate_count = 2;
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device.sample_rates = sample_rates;
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assert(soundio_device_nearest_sample_rate(&device, 100) == 44100);
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assert(soundio_device_nearest_sample_rate(&device, 44099) == 44100);
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assert(soundio_device_nearest_sample_rate(&device, 44100) == 44100);
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assert(soundio_device_nearest_sample_rate(&device, 45000) == 45000);
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assert(soundio_device_nearest_sample_rate(&device, 48000) == 48000);
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assert(soundio_device_nearest_sample_rate(&device, 48001) == 96000);
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assert(soundio_device_nearest_sample_rate(&device, 90000) == 96000);
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assert(soundio_device_nearest_sample_rate(&device, 96001) == 96000);
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assert(soundio_device_nearest_sample_rate(&device, 9999999) == 96000);
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}
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struct Test {
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const char *name;
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void (*fn)(void);
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};
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static struct Test tests[] = {
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{"os_get_time", test_os_get_time},
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{"create output stream", test_create_outstream},
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{"mirrored memory", test_mirrored_memory},
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{"soundio_device_nearest_sample_rate", test_nearest_sample_rate},
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{"ring buffer basic", test_ring_buffer_basic},
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{"ring buffer threaded", test_ring_buffer_threaded},
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{NULL, NULL},
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};
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static void exec_test(struct Test *test) {
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fprintf(stderr, "testing %s...", test->name);
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test->fn();
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fprintf(stderr, "OK\n");
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}
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int main(int argc, char *argv[]) {
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const char *match = NULL;
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if (argc == 2)
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match = argv[1];
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struct Test *test = &tests[0];
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while (test->name) {
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if (!match || strstr(test->name, match))
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exec_test(test);
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test += 1;
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}
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return 0;
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}
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