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miniaudio
Commit 10f0aebe authored by David Reid's avatar David Reid
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Add 1-pole low-pass filter.

parent 63a1535e
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Showing with 279 additions and 4 deletions
miniaudio.h
View file @ 10f0aebe
...@@ -1662,10 +1662,23 @@ typedef struct ...@@ -1662,10 +1662,23 @@ typedef struct
ma_uint32 channels; ma_uint32 channels;
ma_uint32 sampleRate; ma_uint32 sampleRate;
double cutoffFrequency; double cutoffFrequency;
} ma_lpf_config; } ma_lpf_config, ma_lpf1_config;
ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency); ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency);
typedef struct
{
ma_format format;
ma_uint32 channels;
ma_biquad_coefficient a;
ma_biquad_coefficient r1[MA_MAX_CHANNELS];
} ma_lpf1;
ma_result ma_lpf1_init(const ma_lpf1_config* pConfig, ma_lpf1* pLPF);
ma_result ma_lpf1_reinit(const ma_lpf1_config* pConfig, ma_lpf1* pLPF);
ma_result ma_lpf1_process_pcm_frames(ma_lpf1* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount);
ma_uint32 ma_lpf1_get_latency(ma_lpf1* pLPF);
typedef struct typedef struct
{ {
ma_biquad bq; /* The low-pass filter is implemented as a biquad filter. */ ma_biquad bq; /* The low-pass filter is implemented as a biquad filter. */
...@@ -5508,6 +5521,12 @@ static MA_INLINE double ma_cos(double x) ...@@ -5508,6 +5521,12 @@ static MA_INLINE double ma_cos(double x)
return ma_sin((MA_PI*0.5) - x); return ma_sin((MA_PI*0.5) - x);
} }
static MA_INLINE double ma_exp(double x)
{
/* TODO: Implement custom exp(x). */
return exp(x);
}
static MA_INLINE double ma_log(double x) static MA_INLINE double ma_log(double x)
{ {
/* TODO: Implement custom log(x). */ /* TODO: Implement custom log(x). */
...@@ -29324,6 +29343,140 @@ ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 ...@@ -29324,6 +29343,140 @@ ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32
return config; return config;
} }
ma_result ma_lpf1_init(const ma_lpf1_config* pConfig, ma_lpf1* pLPF)
{
if (pLPF == NULL) {
return MA_INVALID_ARGS;
}
MA_ZERO_OBJECT(pLPF);
if (pConfig == NULL) {
return MA_INVALID_ARGS;
}
return ma_lpf1_reinit(pConfig, pLPF);
}
ma_result ma_lpf1_reinit(const ma_lpf1_config* pConfig, ma_lpf1* pLPF)
{
double a;
if (pLPF == NULL || pConfig == NULL) {
return MA_INVALID_ARGS;
}
/* Only supporting f32 and s16. */
if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) {
return MA_INVALID_ARGS;
}
/* The format cannot be changed after initialization. */
if (pLPF->format != ma_format_unknown && pLPF->format != pConfig->format) {
return MA_INVALID_OPERATION;
}
/* The channel count cannot be changed after initialization. */
if (pLPF->channels != 0 && pLPF->channels != pConfig->channels) {
return MA_INVALID_OPERATION;
}
pLPF->format = pConfig->format;
pLPF->channels = pConfig->channels;
a = ma_exp(-2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate);
if (pConfig->format == ma_format_f32) {
pLPF->a.f32 = (float)a;
} else {
pLPF->a.s32 = ma_biquad_float_to_fp(a);
}
return MA_SUCCESS;
}
static MA_INLINE void ma_lpf1_process_pcm_frame_f32(ma_lpf1* pLPF, float* pY, const float* pX)
{
ma_uint32 c;
const float a = pLPF->a.f32;
const float b = 1 - a;
for (c = 0; c < pLPF->channels; c += 1) {
float r1 = pLPF->r1[c].f32;
float x = pX[c];
float y;
y = b*x + a*r1;
pY[c] = y;
pLPF->r1[c].f32 = y;
}
}
static MA_INLINE void ma_lpf1_process_pcm_frame_s16(ma_lpf1* pLPF, ma_int16* pY, const ma_int16* pX)
{
ma_uint32 c;
const ma_int32 a = pLPF->a.s32;
const ma_int32 b = ((1 << MA_BIQUAD_FIXED_POINT_SHIFT) - a);
for (c = 0; c < pLPF->channels; c += 1) {
ma_int32 r1 = pLPF->r1[c].s32;
ma_int32 x = pX[c];
ma_int32 y;
y = (b*x + a*r1) >> MA_BIQUAD_FIXED_POINT_SHIFT;
pY[c] = (ma_int16)y;
pLPF->r1[c].s32 = (ma_int32)y;
}
}
ma_result ma_lpf1_process_pcm_frames(ma_lpf1* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount)
{
ma_uint32 n;
if (pLPF == NULL || pFramesOut == NULL || pFramesIn == NULL) {
return MA_INVALID_ARGS;
}
/* Note that the logic below needs to support in-place filtering. That is, it must support the case where pFramesOut and pFramesIn are the same. */
if (pLPF->format == ma_format_f32) {
/* */ float* pY = ( float*)pFramesOut;
const float* pX = (const float*)pFramesIn;
for (n = 0; n < frameCount; n += 1) {
ma_lpf1_process_pcm_frame_f32(pLPF, pY, pX);
pY += pLPF->channels;
pX += pLPF->channels;
}
} else if (pLPF->format == ma_format_s16) {
/* */ ma_int16* pY = ( ma_int16*)pFramesOut;
const ma_int16* pX = (const ma_int16*)pFramesIn;
for (n = 0; n < frameCount; n += 1) {
ma_lpf1_process_pcm_frame_s16(pLPF, pY, pX);
pY += pLPF->channels;
pX += pLPF->channels;
}
} else {
MA_ASSERT(MA_FALSE);
return MA_INVALID_ARGS; /* Format not supported. Should never hit this because it's checked in ma_biquad_init() and ma_biquad_reinit(). */
}
return MA_SUCCESS;
}
ma_uint32 ma_lpf1_get_latency(ma_lpf1* pLPF)
{
if (pLPF == NULL) {
return 0;
}
return 1;
}
static MA_INLINE ma_biquad_config ma_lpf__get_biquad_config(const ma_lpf_config* pConfig) static MA_INLINE ma_biquad_config ma_lpf__get_biquad_config(const ma_lpf_config* pConfig)
{ {
ma_biquad_config bqConfig; ma_biquad_config bqConfig;
tests/test_filtering/ma_test_filtering_lpf.c
View file @ 10f0aebe
ma_result test_lpf__f32(const char* pInputFilePath) ma_result test_lpf1__f32(const char* pInputFilePath)
{ {
const char* pOutputFilePath = "output/lpf_f32.wav"; const char* pOutputFilePath = "output/lpf1_f32.wav";
ma_result result;
ma_decoder_config decoderConfig;
ma_decoder decoder;
drwav_data_format wavFormat;
drwav wav;
ma_lpf1_config lpfConfig;
ma_lpf1 lpf;
decoderConfig = ma_decoder_config_init(ma_format_f32, 0, 0);
result = ma_decoder_init_file(pInputFilePath, &decoderConfig, &decoder);
if (result != MA_SUCCESS) {
return result;
}
lpfConfig = ma_lpf_config_init(decoder.outputFormat, decoder.outputChannels, decoder.outputSampleRate, 2000);
result = ma_lpf1_init(&lpfConfig, &lpf);
if (result != MA_SUCCESS) {
ma_decoder_uninit(&decoder);
return result;
}
wavFormat = drwav_data_format_from_minaudio_format(decoder.outputFormat, decoder.outputChannels, decoder.outputSampleRate);
if (!drwav_init_file_write(&wav, pOutputFilePath, &wavFormat, NULL)) {
ma_decoder_uninit(&decoder);
return MA_ERROR;
}
for (;;) {
ma_uint8 tempIn[4096];
ma_uint8 tempOut[4096];
ma_uint64 tempCapIn = sizeof(tempIn) / ma_get_bytes_per_frame(decoder.outputFormat, decoder.outputChannels);
ma_uint64 tempCapOut = sizeof(tempOut) / ma_get_bytes_per_frame(decoder.outputFormat, decoder.outputChannels);
ma_uint64 framesToRead;
ma_uint64 framesJustRead;
framesToRead = ma_min(tempCapIn, tempCapOut);
framesJustRead = ma_decoder_read_pcm_frames(&decoder, tempIn, framesToRead);
/* Filter */
ma_lpf1_process_pcm_frames(&lpf, tempOut, tempIn, framesJustRead);
/* Write to the WAV file. */
drwav_write_pcm_frames(&wav, framesJustRead, tempOut);
if (framesJustRead < framesToRead) {
break;
}
}
drwav_uninit(&wav);
return MA_SUCCESS;
}
ma_result test_lpf1__s16(const char* pInputFilePath)
{
const char* pOutputFilePath = "output/lpf1_s16.wav";
ma_result result;
ma_decoder_config decoderConfig;
ma_decoder decoder;
drwav_data_format wavFormat;
drwav wav;
ma_lpf1_config lpfConfig;
ma_lpf1 lpf;
decoderConfig = ma_decoder_config_init(ma_format_s16, 0, 0);
result = ma_decoder_init_file(pInputFilePath, &decoderConfig, &decoder);
if (result != MA_SUCCESS) {
return result;
}
lpfConfig = ma_lpf_config_init(decoder.outputFormat, decoder.outputChannels, decoder.outputSampleRate, 2000);
result = ma_lpf1_init(&lpfConfig, &lpf);
if (result != MA_SUCCESS) {
ma_decoder_uninit(&decoder);
return result;
}
wavFormat = drwav_data_format_from_minaudio_format(decoder.outputFormat, decoder.outputChannels, decoder.outputSampleRate);
if (!drwav_init_file_write(&wav, pOutputFilePath, &wavFormat, NULL)) {
ma_decoder_uninit(&decoder);
return MA_ERROR;
}
for (;;) {
ma_uint8 tempIn[4096];
ma_uint8 tempOut[4096];
ma_uint64 tempCapIn = sizeof(tempIn) / ma_get_bytes_per_frame(decoder.outputFormat, decoder.outputChannels);
ma_uint64 tempCapOut = sizeof(tempOut) / ma_get_bytes_per_frame(decoder.outputFormat, decoder.outputChannels);
ma_uint64 framesToRead;
ma_uint64 framesJustRead;
framesToRead = ma_min(tempCapIn, tempCapOut);
framesJustRead = ma_decoder_read_pcm_frames(&decoder, tempIn, framesToRead);
/* Filter */
ma_lpf1_process_pcm_frames(&lpf, tempOut, tempIn, framesJustRead);
/* Write to the WAV file. */
drwav_write_pcm_frames(&wav, framesJustRead, tempOut);
if (framesJustRead < framesToRead) {
break;
}
}
drwav_uninit(&wav);
return MA_SUCCESS;
}
ma_result test_lpf2__f32(const char* pInputFilePath)
{
const char* pOutputFilePath = "output/lpf2_f32.wav";
ma_result result; ma_result result;
ma_decoder_config decoderConfig; ma_decoder_config decoderConfig;
ma_decoder decoder; ma_decoder decoder;
...@@ -68,7 +180,17 @@ int test_entry__lpf(int argc, char** argv) ...@@ -68,7 +180,17 @@ int test_entry__lpf(int argc, char** argv)
pInputFilePath = argv[1]; pInputFilePath = argv[1];
result = test_lpf__f32(pInputFilePath); result = test_lpf1__f32(pInputFilePath);
if (result != MA_SUCCESS) {
hasError = MA_TRUE;
}
result = test_lpf1__s16(pInputFilePath);
if (result != MA_SUCCESS) {
hasError = MA_TRUE;
}
result = test_lpf2__f32(pInputFilePath);
if (result != MA_SUCCESS) { if (result != MA_SUCCESS) {
hasError = MA_TRUE; hasError = MA_TRUE;
} }
......
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