#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <malloc.h>
#include <inttypes.h>
#include <switch.h>
#include <opus/opusfile.h>
#include "sample_opus.h"
// Sample comes from this website:
// https://www.soundjay.com/magic-sound-effect.html
//Example for playing audio decoded with hwopus using audren. This decodes Opus in hardware. For encoding this is not available with hwopus, hence that has to be done in software.
//Requires package switch-opusfile.
//This uses libopusfile, see also the docs for that.
//Note that actual apps should handle audio on a dedicated thread.
static size_t opuspkt_tmpbuf_size = sizeof(HwopusHeader) + 4096*48;
static u8* opuspkt_tmpbuf;
int hw_decode(void *_ctx, OpusMSDecoder *_decoder, void *_pcm, const ogg_packet *_op, int _nsamples, int _nchannels, int _format, int _li) {
HwopusDecoder *decoder = (HwopusDecoder*)_ctx;
HwopusHeader *hdr = NULL;
size_t pktsize, pktsize_extra;
Result rc = 0;
s32 DecodedDataSize = 0;
s32 DecodedSampleCount = 0;
if (_format != OP_DEC_FORMAT_SHORT) return OPUS_BAD_ARG;
pktsize = _op->bytes;//Opus packet size.
pktsize_extra = pktsize+8;//Packet size with HwopusHeader.
if (pktsize_extra > opuspkt_tmpbuf_size) return OPUS_INTERNAL_ERROR;
hdr = (HwopusHeader*)opuspkt_tmpbuf;
memset(opuspkt_tmpbuf, 0, pktsize_extra);
hdr->size = __builtin_bswap32(pktsize);
memcpy(&opuspkt_tmpbuf[sizeof(HwopusHeader)], _op->packet, pktsize);
rc = hwopusDecodeInterleaved(decoder, &DecodedDataSize, &DecodedSampleCount, opuspkt_tmpbuf, pktsize_extra, _pcm, _nsamples * _nchannels * sizeof(opus_int16));
if (R_FAILED(rc)) return OPUS_INTERNAL_ERROR;
if (DecodedDataSize != pktsize_extra || DecodedSampleCount != _nsamples) return OPUS_INVALID_PACKET;
return 0;
}
int main(void)
{
consoleInit(NULL);
printf("Simple hwopus-decoder example with audren\n");
static const AudioRendererConfig arConfig =
{
.output_rate = AudioRendererOutputRate_48kHz,
.num_voices = 24,
.num_effects = 0,
.num_sinks = 1,
.num_mix_objs = 1,
.num_mix_buffers = 2,
};
size_t num_channels = 1;
size_t samplerate = 48000;
size_t max_samples = samplerate;
size_t max_samples_datasize = max_samples*num_channels*sizeof(opus_int16);
size_t mempool_size = (max_samples_datasize*2 + 0xFFF) &~ 0xFFF;//*2 for 2 wavebufs.
void* mempool_ptr = memalign(0x1000, mempool_size);
void* tmpdata_ptr = malloc(max_samples_datasize);
opuspkt_tmpbuf = (u8*)malloc(opuspkt_tmpbuf_size);
opus_int16* curbuf = NULL;
AudioDriverWaveBuf wavebuf[2] = {0};
int i, wavei;
HwopusDecoder hwdecoder = {0};
AudioDriver drv;
Result res=0;
bool initedDriver = false;
bool initedAudren = false;
bool audio_playing = false;
int opret=0;
int total_samples_size=0;
OggOpusFile *of = NULL;
if (mempool_ptr) memset(mempool_ptr, 0, mempool_size);
if (tmpdata_ptr) memset(tmpdata_ptr, 0, max_samples_datasize);
if (opuspkt_tmpbuf) memset(opuspkt_tmpbuf, 0, opuspkt_tmpbuf_size);
if (mempool_ptr==NULL || tmpdata_ptr==NULL || opuspkt_tmpbuf==NULL) {
res = 1;
printf("Failed to allocate memory.\n");
}
if (R_SUCCEEDED(res)) {
res = hwopusDecoderInitialize(&hwdecoder, samplerate, num_channels);//This assumes that the opus file is <samplerate> with <num_channels>.
if (R_FAILED(res))
printf("hwopusDecoderInitialize: %08" PRIx32 "\n", res);
else
{
res = audrenInitialize(&arConfig);
initedAudren = R_SUCCEEDED(res);
if (!initedAudren)
printf("audrenInitialize: %08" PRIx32 "\n", res);
else
{
printf("audren initted!\n");
res = audrvCreate(&drv, &arConfig, 2);
initedDriver = R_SUCCEEDED(res);
if (R_FAILED(res))
printf("audrvCreate: %08" PRIx32 "\n", res);
else
{
int mpid = audrvMemPoolAdd(&drv, mempool_ptr, mempool_size);
audrvMemPoolAttach(&drv, mpid);
static const u8 sink_channels[] = { 0, 1 };
int sink = audrvDeviceSinkAdd(&drv, AUDREN_DEFAULT_DEVICE_NAME, 2, sink_channels);
res = audrvUpdate(&drv);
printf("audrvUpdate: %" PRIx32 "\n", res);
res = audrenStartAudioRenderer();
printf("audrenStartAudioRenderer: %" PRIx32 "\n", res);
audrvVoiceInit(&drv, 0, num_channels, PcmFormat_Int16, samplerate);
audrvVoiceSetDestinationMix(&drv, 0, AUDREN_FINAL_MIX_ID);
if (num_channels == 1) {//mono
audrvVoiceSetMixFactor(&drv, 0, 1.0f, 0, 0);
audrvVoiceSetMixFactor(&drv, 0, 1.0f, 0, 1);
}
else {//stereo
audrvVoiceSetMixFactor(&drv, 0, 1.0f, 0, 0);
audrvVoiceSetMixFactor(&drv, 0, 0.0f, 0, 1);
audrvVoiceSetMixFactor(&drv, 0, 0.0f, 1, 0);
audrvVoiceSetMixFactor(&drv, 0, 1.0f, 1, 1);
}
audrvVoiceStart(&drv, 0);
for(i=0; i<2; i++) {
wavebuf[i].data_raw = mempool_ptr;
wavebuf[i].size = max_samples_datasize*2;//*2 for 2 wavebufs.
wavebuf[i].start_sample_offset = i * max_samples;
wavebuf[i].end_sample_offset = wavebuf[i].start_sample_offset + max_samples;
}
}
}
}
}
if (initedDriver)
printf("done. Press A to play a sound.\n");
else
printf("Init failed.\n");
// Main loop
while (appletMainLoop())
{
hidScanInput();
u64 kDown = hidKeysDown(CONTROLLER_P1_AUTO);
if (kDown & KEY_PLUS)
break;
if (initedDriver)
{
if (kDown & KEY_A)
{
//Close the opus-file if needed and (re)open it, since libopusfile doesn't support seek-to-beginning.
if (of)
op_free(of);
of = op_open_memory (sample_opus, sample_opus_size, NULL);
if (of == NULL) {
printf("Failed to open OggOpusFile.\n");
}
else {
op_set_decode_callback(of, hw_decode, &hwdecoder);
audrvVoiceStop(&drv, 0);
audio_playing = true;
}
}
if (audio_playing) {
wavei = -1;
for(i=0; i<2; i++) {
if (wavebuf[i].state == AudioDriverWaveBufState_Free || wavebuf[i].state == AudioDriverWaveBufState_Done) {
wavei = i;
break;
}
}
if (wavei >= 0) {
curbuf = (opus_int16*)(mempool_ptr + wavebuf[wavei].start_sample_offset);
opret = op_read(of, tmpdata_ptr, max_samples * num_channels, NULL);//The buffer used here has to be seperate from mempool_ptr.
if (opret < 0)
printf("op_read() failed: %d\n", opret);
else if (opret == 0) {//End of file reached (see also libopusfile docs).
audio_playing = false;
if (of)
op_free(of);
of = NULL;
}
else {
if (opret > max_samples) opret = max_samples;//Should never happen.
total_samples_size = opret*sizeof(opus_int16);//Total samples data-size per channel.
memcpy(curbuf, tmpdata_ptr, total_samples_size);
armDCacheFlush(curbuf, total_samples_size);
wavebuf[wavei].end_sample_offset = wavebuf[wavei].start_sample_offset + total_samples_size/sizeof(opus_int16);
audrvVoiceAddWaveBuf(&drv, 0, &wavebuf[wavei]);
}
}
else {
if (!audrvVoiceIsPlaying(&drv, 0))
audrvVoiceStart(&drv, 0);
}
}
res = audrvUpdate(&drv);
if (R_FAILED(res))
printf("audrvUpdate: %" PRIx32 "\n", res);
if (audrvVoiceIsPlaying(&drv, 0))
printf("sample count = %" PRIu32 "\n", audrvVoiceGetPlayedSampleCount(&drv, 0));
}
consoleUpdate(NULL);
}
hwopusDecoderExit(&hwdecoder);
if (of)
op_free(of);
if (initedDriver)
audrvClose(&drv);
if (initedAudren)
audrenExit();
free(mempool_ptr);
free(tmpdata_ptr);
free(opuspkt_tmpbuf);
consoleExit(NULL);
return 0;
}