repo/android/audio_utils/resampler.c - nest-learning-thermostat/5.7/bluez - Git at Google

 /*
 ** Copyright 2011, The Android Open-Source Project
 **
 ** Licensed under the Apache License, Version 2.0 (the "License");
 ** you may not use this file except in compliance with the License.
 ** You may obtain a copy of the License at
 **
 **     http://www.apache.org/licenses/LICENSE-2.0
 **
 ** Unless required by applicable law or agreed to in writing, software
 ** distributed under the License is distributed on an "AS IS" BASIS,
 ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 ** See the License for the specific language governing permissions and
 ** limitations under the License.
 */

 //#define LOG_NDEBUG 0

 #include <errno.h>
 #include <stdlib.h>
 #include <string.h>
 #include <system/audio.h>
 #include <audio_utils/resampler.h>
 #include <speex/speex_resampler.h>

 #include "hal-log.h"

 struct resampler {
     struct resampler_itfe itfe;
     SpeexResamplerState *speex_resampler;       // handle on speex resampler
     struct resampler_buffer_provider *provider; // buffer provider installed by client
     uint32_t in_sample_rate;                    // input sampling rate in Hz
     uint32_t out_sample_rate;                   // output sampling rate in Hz
     uint32_t channel_count;                     // number of channels (interleaved)
     int16_t *in_buf;                            // input buffer
     size_t in_buf_size;                         // input buffer size
     size_t frames_in;                           // number of frames in input buffer
     size_t frames_rq;                           // cached number of output frames
     size_t frames_needed;                       // minimum number of input frames to produce
                                                 // frames_rq output frames
     int32_t speex_delay_ns;                     // delay introduced by speex resampler in ns
 };


 //------------------------------------------------------------------------------
 // speex based resampler
 //------------------------------------------------------------------------------

 static void resampler_reset(struct resampler_itfe *resampler)
 {
     struct resampler *rsmp = (struct resampler *)resampler;

     rsmp->frames_in = 0;
     rsmp->frames_rq = 0;

     if (rsmp != NULL && rsmp->speex_resampler != NULL) {
         speex_resampler_reset_mem(rsmp->speex_resampler);
     }
 }

 static int32_t resampler_delay_ns(struct resampler_itfe *resampler)
 {
     struct resampler *rsmp = (struct resampler *)resampler;

     int32_t delay = (int32_t)((1000000000 * (int64_t)rsmp->frames_in) / rsmp->in_sample_rate);
     delay += rsmp->speex_delay_ns;

     return delay;
 }

 // outputs a number of frames less or equal to *outFrameCount and updates *outFrameCount
 // with the actual number of frames produced.
 static int resampler_resample_from_provider(struct resampler_itfe *resampler,
                        int16_t *out,
                        size_t *outFrameCount)
 {
     struct resampler *rsmp = (struct resampler *)resampler;
     size_t framesRq;
     size_t framesWr;
     size_t inFrames;

     if (rsmp == NULL || out == NULL || outFrameCount == NULL) {
         return -EINVAL;
     }
     if (rsmp->provider == NULL) {
         *outFrameCount = 0;
         return -ENOSYS;
     }

     framesRq = *outFrameCount;
     // update and cache the number of frames needed at the input sampling rate to produce
     // the number of frames requested at the output sampling rate
     if (framesRq != rsmp->frames_rq) {
         rsmp->frames_needed = (framesRq * rsmp->in_sample_rate) / rsmp->out_sample_rate + 1;
         rsmp->frames_rq = framesRq;
     }

     framesWr = 0;
     inFrames = 0;
     while (framesWr < framesRq) {
         size_t outFrames;
         if (rsmp->frames_in < rsmp->frames_needed) {
             struct resampler_buffer buf;
             // make sure that the number of frames present in rsmp->in_buf (rsmp->frames_in) is at
             // least the number of frames needed to produce the number of frames requested at
             // the output sampling rate
             if (rsmp->in_buf_size < rsmp->frames_needed) {
                 rsmp->in_buf_size = rsmp->frames_needed;
                 rsmp->in_buf = (int16_t *)realloc(rsmp->in_buf,
                                         rsmp->in_buf_size * rsmp->channel_count * sizeof(int16_t));
             }
             buf.frame_count = rsmp->frames_needed - rsmp->frames_in;
             rsmp->provider->get_next_buffer(rsmp->provider, &buf);
             if (buf.raw == NULL) {
                 break;
             }
             memcpy(rsmp->in_buf + rsmp->frames_in * rsmp->channel_count,
                     buf.raw,
                     buf.frame_count * rsmp->channel_count * sizeof(int16_t));
             rsmp->frames_in += buf.frame_count;
             rsmp->provider->release_buffer(rsmp->provider, &buf);
         }

         outFrames = framesRq - framesWr;
         inFrames = rsmp->frames_in;
         if (rsmp->channel_count == 1) {
             speex_resampler_process_int(rsmp->speex_resampler,
                                         0,
                                         rsmp->in_buf,
                                         (void *) &inFrames,
                                         out + framesWr,
                                         (void *) &outFrames);
         } else {
             speex_resampler_process_interleaved_int(rsmp->speex_resampler,
                                         rsmp->in_buf,
                                         (void *) &inFrames,
                                         out + framesWr * rsmp->channel_count,
                                         (void *) &outFrames);
         }
         framesWr += outFrames;
         rsmp->frames_in -= inFrames;

         if ((framesWr != framesRq) && (rsmp->frames_in != 0))
             warn("ReSampler::resample() remaining %zd frames in and %zd out",
                 rsmp->frames_in, (framesRq - framesWr));
     }
     if (rsmp->frames_in) {
         memmove(rsmp->in_buf,
                 rsmp->in_buf + inFrames * rsmp->channel_count,
                 rsmp->frames_in * rsmp->channel_count * sizeof(int16_t));
     }
     *outFrameCount = framesWr;

     return 0;
 }

 static int resampler_resample_from_input(struct resampler_itfe *resampler,
                                   int16_t *in,
                                   size_t *inFrameCount,
                                   int16_t *out,
                                   size_t *outFrameCount)
 {
     struct resampler *rsmp = (struct resampler *)resampler;

     if (rsmp == NULL || in == NULL || inFrameCount == NULL ||
             out == NULL || outFrameCount == NULL) {
         return -EINVAL;
     }
     if (rsmp->provider != NULL) {
         *outFrameCount = 0;
         return -ENOSYS;
     }

     if (rsmp->channel_count == 1) {
         speex_resampler_process_int(rsmp->speex_resampler,
                                     0,
                                     in,
                                     (void *) inFrameCount,
                                     out,
                                     (void *) outFrameCount);
     } else {
         speex_resampler_process_interleaved_int(rsmp->speex_resampler,
                                                 in,
                                                 (void *) inFrameCount,
                                                 out,
                                                 (void *) outFrameCount);
     }

     DBG("resampler_resample_from_input() DONE in %zd out %zd", *inFrameCount, *outFrameCount);

     return 0;
 }

 int create_resampler(uint32_t inSampleRate,
                     uint32_t outSampleRate,
                     uint32_t channelCount,
                     uint32_t quality,
                     struct resampler_buffer_provider* provider,
                     struct resampler_itfe **resampler)
 {
     int error;
     struct resampler *rsmp;
     int frames;

     DBG("create_resampler() In SR %d Out SR %d channels %d",
          inSampleRate, outSampleRate, channelCount);

     if (resampler == NULL) {
         return -EINVAL;
     }

     *resampler = NULL;

     if (quality <= RESAMPLER_QUALITY_MIN || quality >= RESAMPLER_QUALITY_MAX) {
         return -EINVAL;
     }

     rsmp = (struct resampler *)calloc(1, sizeof(struct resampler));

     rsmp->speex_resampler = speex_resampler_init(channelCount,
                                       inSampleRate,
                                       outSampleRate,
                                       quality,
                                       &error);
     if (rsmp->speex_resampler == NULL) {
         error("ReSampler: Cannot create speex resampler: %s", speex_resampler_strerror(error));
         free(rsmp);
         return -ENODEV;
     }

     rsmp->itfe.reset = resampler_reset;
     rsmp->itfe.resample_from_provider = resampler_resample_from_provider;
     rsmp->itfe.resample_from_input = resampler_resample_from_input;
     rsmp->itfe.delay_ns = resampler_delay_ns;

     rsmp->provider = provider;
     rsmp->in_sample_rate = inSampleRate;
     rsmp->out_sample_rate = outSampleRate;
     rsmp->channel_count = channelCount;
     rsmp->in_buf = NULL;
     rsmp->in_buf_size = 0;

     resampler_reset(&rsmp->itfe);

     frames = speex_resampler_get_input_latency(rsmp->speex_resampler);
     rsmp->speex_delay_ns = (int32_t)((1000000000 * (int64_t)frames) / rsmp->in_sample_rate);
     frames = speex_resampler_get_output_latency(rsmp->speex_resampler);
     rsmp->speex_delay_ns += (int32_t)((1000000000 * (int64_t)frames) / rsmp->out_sample_rate);

     *resampler = &rsmp->itfe;
     DBG("create_resampler() DONE rsmp %p &rsmp->itfe %p speex %p",
          rsmp, &rsmp->itfe, rsmp->speex_resampler);
     return 0;
 }

 void release_resampler(struct resampler_itfe *resampler)
 {
     struct resampler *rsmp = (struct resampler *)resampler;

     if (rsmp == NULL) {
         return;
     }

     free(rsmp->in_buf);

     if (rsmp->speex_resampler != NULL) {
         speex_resampler_destroy(rsmp->speex_resampler);
     }
     free(rsmp);
 }
	/*
	** Copyright 2011, The Android Open-Source Project
	**
	** Licensed under the Apache License, Version 2.0 (the "License");
	** you may not use this file except in compliance with the License.
	** You may obtain a copy of the License at
	**
	** http://www.apache.org/licenses/LICENSE-2.0
	**
	** Unless required by applicable law or agreed to in writing, software
	** distributed under the License is distributed on an "AS IS" BASIS,
	** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	** See the License for the specific language governing permissions and
	** limitations under the License.
	*/

	//#define LOG_NDEBUG 0

	#include <errno.h>
	#include <stdlib.h>
	#include <string.h>
	#include <system/audio.h>
	#include <audio_utils/resampler.h>
	#include <speex/speex_resampler.h>

	#include "hal-log.h"

	struct resampler {
	struct resampler_itfe itfe;
	SpeexResamplerState *speex_resampler; // handle on speex resampler
	struct resampler_buffer_provider *provider; // buffer provider installed by client
	uint32_t in_sample_rate; // input sampling rate in Hz
	uint32_t out_sample_rate; // output sampling rate in Hz
	uint32_t channel_count; // number of channels (interleaved)
	int16_t *in_buf; // input buffer
	size_t in_buf_size; // input buffer size
	size_t frames_in; // number of frames in input buffer
	size_t frames_rq; // cached number of output frames
	size_t frames_needed; // minimum number of input frames to produce
	// frames_rq output frames
	int32_t speex_delay_ns; // delay introduced by speex resampler in ns
	};


	//------------------------------------------------------------------------------
	// speex based resampler
	//------------------------------------------------------------------------------

	static void resampler_reset(struct resampler_itfe *resampler)
	{
	struct resampler rsmp = (struct resampler )resampler;

	rsmp->frames_in = 0;
	rsmp->frames_rq = 0;

	if (rsmp != NULL && rsmp->speex_resampler != NULL) {
	speex_resampler_reset_mem(rsmp->speex_resampler);
	}
	}

	static int32_t resampler_delay_ns(struct resampler_itfe *resampler)
	{
	struct resampler rsmp = (struct resampler )resampler;

	int32_t delay = (int32_t)((1000000000 * (int64_t)rsmp->frames_in) / rsmp->in_sample_rate);
	delay += rsmp->speex_delay_ns;

	return delay;
	}

	// outputs a number of frames less or equal to outFrameCount and updates outFrameCount
	// with the actual number of frames produced.
	static int resampler_resample_from_provider(struct resampler_itfe *resampler,
	int16_t *out,
	size_t *outFrameCount)
	{
	struct resampler rsmp = (struct resampler )resampler;
	size_t framesRq;
	size_t framesWr;
	size_t inFrames;

	if (rsmp == NULL \|\| out == NULL \|\| outFrameCount == NULL) {
	return -EINVAL;
	}
	if (rsmp->provider == NULL) {
	*outFrameCount = 0;
	return -ENOSYS;
	}

	framesRq = *outFrameCount;
	// update and cache the number of frames needed at the input sampling rate to produce
	// the number of frames requested at the output sampling rate
	if (framesRq != rsmp->frames_rq) {
	rsmp->frames_needed = (framesRq * rsmp->in_sample_rate) / rsmp->out_sample_rate + 1;
	rsmp->frames_rq = framesRq;
	}

	framesWr = 0;
	inFrames = 0;
	while (framesWr < framesRq) {
	size_t outFrames;
	if (rsmp->frames_in < rsmp->frames_needed) {
	struct resampler_buffer buf;
	// make sure that the number of frames present in rsmp->in_buf (rsmp->frames_in) is at
	// least the number of frames needed to produce the number of frames requested at
	// the output sampling rate
	if (rsmp->in_buf_size < rsmp->frames_needed) {
	rsmp->in_buf_size = rsmp->frames_needed;
	rsmp->in_buf = (int16_t *)realloc(rsmp->in_buf,
	rsmp->in_buf_size * rsmp->channel_count * sizeof(int16_t));
	}
	buf.frame_count = rsmp->frames_needed - rsmp->frames_in;
	rsmp->provider->get_next_buffer(rsmp->provider, &buf);
	if (buf.raw == NULL) {
	break;
	}
	memcpy(rsmp->in_buf + rsmp->frames_in * rsmp->channel_count,
	buf.raw,
	buf.frame_count * rsmp->channel_count * sizeof(int16_t));
	rsmp->frames_in += buf.frame_count;
	rsmp->provider->release_buffer(rsmp->provider, &buf);
	}

	outFrames = framesRq - framesWr;
	inFrames = rsmp->frames_in;
	if (rsmp->channel_count == 1) {
	speex_resampler_process_int(rsmp->speex_resampler,
	0,
	rsmp->in_buf,
	(void *) &inFrames,
	out + framesWr,
	(void *) &outFrames);
	} else {
	speex_resampler_process_interleaved_int(rsmp->speex_resampler,
	rsmp->in_buf,
	(void *) &inFrames,
	out + framesWr * rsmp->channel_count,
	(void *) &outFrames);
	}
	framesWr += outFrames;
	rsmp->frames_in -= inFrames;

	if ((framesWr != framesRq) && (rsmp->frames_in != 0))
	warn("ReSampler::resample() remaining %zd frames in and %zd out",
	rsmp->frames_in, (framesRq - framesWr));
	}
	if (rsmp->frames_in) {
	memmove(rsmp->in_buf,
	rsmp->in_buf + inFrames * rsmp->channel_count,
	rsmp->frames_in * rsmp->channel_count * sizeof(int16_t));
	}
	*outFrameCount = framesWr;

	return 0;
	}

	static int resampler_resample_from_input(struct resampler_itfe *resampler,
	int16_t *in,
	size_t *inFrameCount,
	int16_t *out,
	size_t *outFrameCount)
	{
	struct resampler rsmp = (struct resampler )resampler;

	if (rsmp == NULL \|\| in == NULL \|\| inFrameCount == NULL \|\|
	out == NULL \|\| outFrameCount == NULL) {
	return -EINVAL;
	}
	if (rsmp->provider != NULL) {
	*outFrameCount = 0;
	return -ENOSYS;
	}

	if (rsmp->channel_count == 1) {
	speex_resampler_process_int(rsmp->speex_resampler,
	0,
	in,
	(void *) inFrameCount,
	out,
	(void *) outFrameCount);
	} else {
	speex_resampler_process_interleaved_int(rsmp->speex_resampler,
	in,
	(void *) inFrameCount,
	out,
	(void *) outFrameCount);
	}

	DBG("resampler_resample_from_input() DONE in %zd out %zd", inFrameCount, outFrameCount);

	return 0;
	}

	int create_resampler(uint32_t inSampleRate,
	uint32_t outSampleRate,
	uint32_t channelCount,
	uint32_t quality,
	struct resampler_buffer_provider* provider,
	struct resampler_itfe **resampler)
	{
	int error;
	struct resampler *rsmp;
	int frames;

	DBG("create_resampler() In SR %d Out SR %d channels %d",
	inSampleRate, outSampleRate, channelCount);

	if (resampler == NULL) {
	return -EINVAL;
	}

	*resampler = NULL;

	if (quality <= RESAMPLER_QUALITY_MIN \|\| quality >= RESAMPLER_QUALITY_MAX) {
	return -EINVAL;
	}

	rsmp = (struct resampler *)calloc(1, sizeof(struct resampler));

	rsmp->speex_resampler = speex_resampler_init(channelCount,
	inSampleRate,
	outSampleRate,
	quality,
	&error);
	if (rsmp->speex_resampler == NULL) {
	error("ReSampler: Cannot create speex resampler: %s", speex_resampler_strerror(error));
	free(rsmp);
	return -ENODEV;
	}

	rsmp->itfe.reset = resampler_reset;
	rsmp->itfe.resample_from_provider = resampler_resample_from_provider;
	rsmp->itfe.resample_from_input = resampler_resample_from_input;
	rsmp->itfe.delay_ns = resampler_delay_ns;

	rsmp->provider = provider;
	rsmp->in_sample_rate = inSampleRate;
	rsmp->out_sample_rate = outSampleRate;
	rsmp->channel_count = channelCount;
	rsmp->in_buf = NULL;
	rsmp->in_buf_size = 0;

	resampler_reset(&rsmp->itfe);

	frames = speex_resampler_get_input_latency(rsmp->speex_resampler);
	rsmp->speex_delay_ns = (int32_t)((1000000000 * (int64_t)frames) / rsmp->in_sample_rate);
	frames = speex_resampler_get_output_latency(rsmp->speex_resampler);
	rsmp->speex_delay_ns += (int32_t)((1000000000 * (int64_t)frames) / rsmp->out_sample_rate);

	*resampler = &rsmp->itfe;
	DBG("create_resampler() DONE rsmp %p &rsmp->itfe %p speex %p",
	rsmp, &rsmp->itfe, rsmp->speex_resampler);
	return 0;
	}

	void release_resampler(struct resampler_itfe *resampler)
	{
	struct resampler rsmp = (struct resampler )resampler;

	if (rsmp == NULL) {
	return;
	}

	free(rsmp->in_buf);

	if (rsmp->speex_resampler != NULL) {
	speex_resampler_destroy(rsmp->speex_resampler);
	}
	free(rsmp);
	}