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miniaudio
Commit a263cd97 authored by David Reid's avatar David Reid
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Add ma_lpf with support for configuring the number of poles.

parent e9234f88
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miniaudio.h
View file @ a263cd97
...@@ -1536,6 +1536,10 @@ typedef int ma_result; ...@@ -1536,6 +1536,10 @@ typedef int ma_result;
#define MA_MIN_SAMPLE_RATE MA_SAMPLE_RATE_8000 #define MA_MIN_SAMPLE_RATE MA_SAMPLE_RATE_8000
#define MA_MAX_SAMPLE_RATE MA_SAMPLE_RATE_384000 #define MA_MAX_SAMPLE_RATE MA_SAMPLE_RATE_384000
#ifndef MA_MAX_FILTER_POLES
#define MA_MAX_FILTER_POLES 8
#endif
typedef enum typedef enum
{ {
ma_stream_format_pcm = 0 ma_stream_format_pcm = 0
...@@ -1691,6 +1695,33 @@ ma_result ma_lpf2_process_pcm_frames(ma_lpf2* pLPF, void* pFramesOut, const void ...@@ -1691,6 +1695,33 @@ ma_result ma_lpf2_process_pcm_frames(ma_lpf2* pLPF, void* pFramesOut, const void
ma_uint32 ma_lpf2_get_latency(ma_lpf2* pLPF); ma_uint32 ma_lpf2_get_latency(ma_lpf2* pLPF);
typedef struct
{
ma_format format;
ma_uint32 channels;
ma_uint32 sampleRate;
double cutoffFrequency;
ma_uint32 poles; /* If set to 0, will be treated as a passthrough (no filtering will be applied). */
} ma_lpf_config;
ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 poles);
typedef struct
{
ma_format format;
ma_uint32 channels;
ma_uint32 lpf2Count;
ma_uint32 lpf1Count;
ma_lpf2 lpf2[MA_MAX_FILTER_POLES/2];
ma_lpf1 lpf1[1];
} ma_lpf;
ma_result ma_lpf_init(const ma_lpf_config* pConfig, ma_lpf* pLPF);
ma_result ma_lpf_reinit(const ma_lpf_config* pConfig, ma_lpf* pLPF);
ma_result ma_lpf_process_pcm_frames(ma_lpf* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount);
ma_uint32 ma_lpf_get_latency(ma_lpf* pLPF);
/************************************************************************************************************************************************************** /**************************************************************************************************************************************************************
High-Pass Filtering High-Pass Filtering
...@@ -29592,6 +29623,208 @@ ma_uint32 ma_lpf2_get_latency(ma_lpf2* pLPF) ...@@ -29592,6 +29623,208 @@ ma_uint32 ma_lpf2_get_latency(ma_lpf2* pLPF)
} }
ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 poles)
{
ma_lpf_config config;
MA_ZERO_OBJECT(&config);
config.format = format;
config.channels = channels;
config.sampleRate = sampleRate;
config.cutoffFrequency = cutoffFrequency;
config.poles = ma_min(poles, MA_MAX_FILTER_POLES);
return config;
}
static ma_result ma_lpf_reinit__internal(const ma_lpf_config* pConfig, ma_lpf* pLPF, ma_bool32 isNew)
{
ma_result result;
ma_uint32 lpf2Count;
ma_uint32 lpf1Count;
ma_uint32 ilpf2;
ma_uint32 ilpf1;
if (pLPF == NULL || pConfig == NULL) {
return MA_INVALID_ARGS;
}
if (pConfig->poles > MA_MAX_FILTER_POLES) {
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;
lpf2Count = pConfig->poles / 2;
lpf1Count = pConfig->poles % 2;
MA_ASSERT(lpf2Count <= ma_countof(pLPF->lpf2));
MA_ASSERT(lpf1Count <= ma_countof(pLPF->lpf1));
/* The pole count can't change between reinits. */
if (!isNew) {
if (pLPF->lpf2Count != lpf2Count || pLPF->lpf1Count != lpf1Count) {
return MA_INVALID_OPERATION;
}
}
for (ilpf2 = 0; ilpf2 < lpf2Count; ilpf2 += 1) {
ma_lpf2_config lpf2Config = ma_lpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency);
if (isNew) {
result = ma_lpf2_init(&lpf2Config, &pLPF->lpf2[ilpf2]);
} else {
result = ma_lpf2_reinit(&lpf2Config, &pLPF->lpf2[ilpf2]);
}
if (result != MA_SUCCESS) {
return result;
}
}
for (ilpf1 = 0; ilpf1 < lpf1Count; ilpf1 += 1) {
ma_lpf1_config lpf1Config = ma_lpf1_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency);
if (isNew) {
result = ma_lpf1_init(&lpf1Config, &pLPF->lpf1[ilpf1]);
} else {
result = ma_lpf1_reinit(&lpf1Config, &pLPF->lpf1[ilpf1]);
}
if (result != MA_SUCCESS) {
return result;
}
}
pLPF->lpf2Count = lpf2Count;
pLPF->lpf1Count = lpf1Count;
return MA_SUCCESS;
}
ma_result ma_lpf_init(const ma_lpf_config* pConfig, ma_lpf* pLPF)
{
if (pLPF == NULL) {
return MA_INVALID_ARGS;
}
MA_ZERO_OBJECT(pLPF);
if (pConfig == NULL) {
return MA_INVALID_ARGS;
}
return ma_lpf_reinit__internal(pConfig, pLPF, /*isNew*/MA_TRUE);
}
ma_result ma_lpf_reinit(const ma_lpf_config* pConfig, ma_lpf* pLPF)
{
return ma_lpf_reinit__internal(pConfig, pLPF, /*isNew*/MA_FALSE);
}
ma_result ma_lpf_process_pcm_frames(ma_lpf* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount)
{
ma_result result;
ma_uint32 ilpf2;
ma_uint32 ilpf1;
if (pLPF == NULL) {
return MA_INVALID_ARGS;
}
/* Faster path for in-place. */
if (pFramesOut == pFramesIn) {
for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) {
result = ma_lpf2_process_pcm_frames(&pLPF->lpf2[ilpf2], pFramesOut, pFramesOut, frameCount);
if (result != MA_SUCCESS) {
return result;
}
}
for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) {
result = ma_lpf1_process_pcm_frames(&pLPF->lpf1[ilpf1], pFramesOut, pFramesOut, frameCount);
if (result != MA_SUCCESS) {
return result;
}
}
}
/* Slightly slower path for copying. */
if (pFramesOut != pFramesIn) {
ma_uint32 iFrame;
/* */ if (pLPF->format == ma_format_f32) {
/* */ float* pFramesOutF32 = ( float*)pFramesOut;
const float* pFramesInF32 = (const float*)pFramesIn;
for (iFrame = 0; iFrame < frameCount; iFrame += 1) {
MA_COPY_MEMORY(pFramesOutF32, pFramesInF32, ma_get_bytes_per_frame(pLPF->format, pLPF->channels));
for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) {
ma_lpf2_process_pcm_frame_f32(&pLPF->lpf2[ilpf2], pFramesOutF32, pFramesOutF32);
}
for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) {
ma_lpf1_process_pcm_frame_f32(&pLPF->lpf1[ilpf1], pFramesOutF32, pFramesOutF32);
}
pFramesOutF32 += pLPF->channels;
pFramesInF32 += pLPF->channels;
}
} else if (pLPF->format == ma_format_s16) {
/* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut;
const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn;
for (iFrame = 0; iFrame < frameCount; iFrame += 1) {
MA_COPY_MEMORY(pFramesOutS16, pFramesInS16, ma_get_bytes_per_frame(pLPF->format, pLPF->channels));
for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) {
ma_lpf2_process_pcm_frame_s16(&pLPF->lpf2[ilpf2], pFramesOutS16, pFramesOutS16);
}
for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) {
ma_lpf1_process_pcm_frame_s16(&pLPF->lpf1[ilpf1], pFramesOutS16, pFramesOutS16);
}
pFramesOutS16 += pLPF->channels;
pFramesInS16 += pLPF->channels;
}
} else {
MA_ASSERT(MA_FALSE);
return MA_INVALID_OPERATION; /* Should never hit this. */
}
}
return MA_SUCCESS;
}
ma_uint32 ma_lpf_get_latency(ma_lpf* pLPF)
{
if (pLPF == NULL) {
return 0;
}
return pLPF->lpf2Count*2 + pLPF->lpf1Count;
}
/************************************************************************************************************************************************************** /**************************************************************************************************************************************************************
High-Pass Filtering High-Pass Filtering
tests/test_filtering/ma_test_filtering_lpf.c
View file @ a263cd97
...@@ -124,6 +124,67 @@ ma_result test_lpf2__s16(const char* pInputFilePath) ...@@ -124,6 +124,67 @@ ma_result test_lpf2__s16(const char* pInputFilePath)
} }
ma_result test_lpf3__by_format(const char* pInputFilePath, const char* pOutputFilePath, ma_format format)
{
ma_result result;
ma_decoder decoder;
drwav wav;
ma_lpf_config lpfConfig;
ma_lpf lpf;
printf(" %s\n", pOutputFilePath);
result = lpf_init_decoder_and_encoder(pInputFilePath, pOutputFilePath, format, &decoder, &wav);
if (result != MA_SUCCESS) {
return result;
}
lpfConfig = ma_lpf_config_init(decoder.outputFormat, decoder.outputChannels, decoder.outputSampleRate, 2000, /*poles*/3);
result = ma_lpf_init(&lpfConfig, &lpf);
if (result != MA_SUCCESS) {
ma_decoder_uninit(&decoder);
drwav_uninit(&wav);
return result;
}
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_lpf_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_lpf3__f32(const char* pInputFilePath)
{
return test_lpf3__by_format(pInputFilePath, "output/lpf3_f32.wav", ma_format_f32);
}
ma_result test_lpf3__s16(const char* pInputFilePath)
{
return test_lpf3__by_format(pInputFilePath, "output/lpf3_s16.wav", ma_format_s16);
}
int test_entry__lpf(int argc, char** argv) int test_entry__lpf(int argc, char** argv)
{ {
ma_result result; ma_result result;
...@@ -159,6 +220,17 @@ int test_entry__lpf(int argc, char** argv) ...@@ -159,6 +220,17 @@ int test_entry__lpf(int argc, char** argv)
} }
result = test_lpf3__f32(pInputFilePath);
if (result != MA_SUCCESS) {
hasError = MA_TRUE;
}
result = test_lpf3__s16(pInputFilePath);
if (result != MA_SUCCESS) {
hasError = MA_TRUE;
}
if (hasError) { if (hasError) {
return -1; return -1;
} else { } else {
......
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