cras/src/server/cras_dsp_mod_builtin.c - platform/external/adhd - Git at Google

 /* Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include <stdlib.h>
 #include "cras_dsp_module.h"
 #include "drc.h"
 #include "dsp_util.h"
 #include "dcblock.h"
 #include "eq.h"
 #include "eq2.h"

 /*
  *  empty module functions (for source and sink)
  */
 static int empty_instantiate(struct dsp_module *module,
 			     unsigned long sample_rate)
 {
 	return 0;
 }

 static void empty_connect_port(struct dsp_module *module, unsigned long port,
 			       float *data_location)
 {
 }

 static int empty_get_delay(struct dsp_module *module)
 {
 	return 0;
 }

 static void empty_run(struct dsp_module *module, unsigned long sample_count)
 {
 }

 static void empty_deinstantiate(struct dsp_module *module)
 {
 }

 static void empty_free_module(struct dsp_module *module)
 {
 	free(module);
 }

 static int empty_get_properties(struct dsp_module *module)
 {
 	return 0;
 }

 static void empty_dump(struct dsp_module *module, struct dumper *d)
 {
 	dumpf(d, "built-in module\n");
 }

 static void empty_init_module(struct dsp_module *module)
 {
 	module->instantiate = &empty_instantiate;
 	module->connect_port = &empty_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &empty_run;
 	module->deinstantiate = &empty_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  *  swap_lr module functions
  */
 static int swap_lr_instantiate(struct dsp_module *module,
 			       unsigned long sample_rate)
 {
 	module->data = calloc(4, sizeof(float *));
 	return 0;
 }

 static void swap_lr_connect_port(struct dsp_module *module, unsigned long port,
 				 float *data_location)
 {
 	float **ports;
 	ports = (float **)module->data;
 	ports[port] = data_location;
 }

 static void swap_lr_run(struct dsp_module *module, unsigned long sample_count)
 {
 	size_t i;
 	float **ports = (float **)module->data;

 	/* This module runs dsp in-place, so ports[0] == ports[2],
 	 * ports[1] == ports[3]. Here we swap data on two channels.
 	 */
 	for (i = 0; i < sample_count; i++) {
 		float temp = ports[0][i];
 		ports[2][i] = ports[1][i];
 		ports[3][i] = temp;
 	}
 }

 static void swap_lr_deinstantiate(struct dsp_module *module)
 {
 	free(module->data);
 }

 static void swap_lr_init_module(struct dsp_module *module)
 {
 	module->instantiate = &swap_lr_instantiate;
 	module->connect_port = &swap_lr_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &swap_lr_run;
 	module->deinstantiate = &swap_lr_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 }

 /*
  *  invert_lr module functions
  */
 static int invert_lr_instantiate(struct dsp_module *module,
 				 unsigned long sample_rate)
 {
 	module->data = calloc(4, sizeof(float *));
 	return 0;
 }

 static void invert_lr_connect_port(struct dsp_module *module,
 				   unsigned long port, float *data_location)
 {
 	float **ports;
 	ports = (float **)module->data;
 	ports[port] = data_location;
 }

 static void invert_lr_run(struct dsp_module *module, unsigned long sample_count)
 {
 	size_t i;
 	float **ports = (float **)module->data;

 	for (i = 0; i < sample_count; i++) {
 		ports[2][i] = -ports[0][i];
 		ports[3][i] = ports[1][i];
 	}
 }

 static void invert_lr_deinstantiate(struct dsp_module *module)
 {
 	free(module->data);
 }

 static void invert_lr_init_module(struct dsp_module *module)
 {
 	module->instantiate = &invert_lr_instantiate;
 	module->connect_port = &invert_lr_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &invert_lr_run;
 	module->deinstantiate = &invert_lr_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 }

 /*
  *  mix_stereo module functions
  */
 static int mix_stereo_instantiate(struct dsp_module *module,
 				  unsigned long sample_rate)
 {
 	module->data = calloc(4, sizeof(float *));
 	return 0;
 }

 static void mix_stereo_connect_port(struct dsp_module *module,
 				    unsigned long port, float *data_location)
 {
 	float **ports;
 	ports = (float **)module->data;
 	ports[port] = data_location;
 }

 static void mix_stereo_run(struct dsp_module *module,
 			   unsigned long sample_count)
 {
 	size_t i;
 	float tmp;
 	float **ports = (float **)module->data;

 	for (i = 0; i < sample_count; i++) {
 		tmp = ports[0][i] + ports[1][i];
 		ports[2][i] = tmp;
 		ports[3][i] = tmp;
 	}
 }

 static void mix_stereo_deinstantiate(struct dsp_module *module)
 {
 	free(module->data);
 }

 static void mix_stereo_init_module(struct dsp_module *module)
 {
 	module->instantiate = &mix_stereo_instantiate;
 	module->connect_port = &mix_stereo_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &mix_stereo_run;
 	module->deinstantiate = &mix_stereo_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  *  dcblock module functions
  */
 struct dcblock_data {
 	struct dcblock *dcblockl;
 	struct dcblock *dcblockr;
 	unsigned long sample_rate;

 	/* One port for input, one for output, and 1 parameter */
 	float *ports[5];
 };

 static int dcblock_instantiate(struct dsp_module *module,
 			       unsigned long sample_rate)
 {
 	struct dcblock_data *data;

 	module->data = calloc(1, sizeof(struct dcblock_data));
 	data = (struct dcblock_data *)module->data;
 	data->sample_rate = sample_rate;

 	return 0;
 }

 static void dcblock_connect_port(struct dsp_module *module, unsigned long port,
 				 float *data_location)
 {
 	struct dcblock_data *data = (struct dcblock_data *)module->data;
 	data->ports[port] = data_location;
 }

 static void dcblock_run(struct dsp_module *module, unsigned long sample_count)
 {
 	struct dcblock_data *data = (struct dcblock_data *)module->data;
 	if (!data->dcblockl)
 		data->dcblockl =
 			dcblock_new(*data->ports[4], data->sample_rate);
 	if (!data->dcblockr)
 		data->dcblockr =
 			dcblock_new(*data->ports[4], data->sample_rate);
 	if (data->ports[0] != data->ports[2])
 		memcpy(data->ports[2], data->ports[0],
 		       sizeof(float) * sample_count);
 	if (data->ports[1] != data->ports[3])
 		memcpy(data->ports[3], data->ports[1],
 		       sizeof(float) * sample_count);

 	dcblock_process(data->dcblockl, data->ports[2], (int)sample_count);
 	dcblock_process(data->dcblockr, data->ports[3], (int)sample_count);
 }

 static void dcblock_deinstantiate(struct dsp_module *module)
 {
 	struct dcblock_data *data = (struct dcblock_data *)module->data;
 	if (data->dcblockl)
 		dcblock_free(data->dcblockl);
 	if (data->dcblockr)
 		dcblock_free(data->dcblockr);
 	free(data);
 }

 static void dcblock_init_module(struct dsp_module *module)
 {
 	module->instantiate = &dcblock_instantiate;
 	module->connect_port = &dcblock_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &dcblock_run;
 	module->deinstantiate = &dcblock_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  *  eq module functions
  */
 struct eq_data {
 	int sample_rate;
 	struct eq *eq; /* Initialized in the first call of eq_run() */

 	/* One port for input, one for output, and 4 parameters per eq */
 	float *ports[2 + MAX_BIQUADS_PER_EQ * 4];
 };

 static int eq_instantiate(struct dsp_module *module, unsigned long sample_rate)
 {
 	struct eq_data *data;

 	module->data = calloc(1, sizeof(struct eq_data));
 	data = (struct eq_data *)module->data;
 	data->sample_rate = (int)sample_rate;
 	return 0;
 }

 static void eq_connect_port(struct dsp_module *module, unsigned long port,
 			    float *data_location)
 {
 	struct eq_data *data = (struct eq_data *)module->data;
 	data->ports[port] = data_location;
 }

 static void eq_run(struct dsp_module *module, unsigned long sample_count)
 {
 	struct eq_data *data = (struct eq_data *)module->data;
 	if (!data->eq) {
 		float nyquist = data->sample_rate / 2;
 		int i;

 		data->eq = eq_new();
 		for (i = 2; i < 2 + MAX_BIQUADS_PER_EQ * 4; i += 4) {
 			if (!data->ports[i])
 				break;
 			int type = (int)*data->ports[i];
 			float freq = *data->ports[i + 1];
 			float Q = *data->ports[i + 2];
 			float gain = *data->ports[i + 3];
 			eq_append_biquad(data->eq, type, freq / nyquist, Q,
 					 gain);
 		}
 	}
 	if (data->ports[0] != data->ports[1])
 		memcpy(data->ports[1], data->ports[0],
 		       sizeof(float) * sample_count);
 	eq_process(data->eq, data->ports[1], (int)sample_count);
 }

 static void eq_deinstantiate(struct dsp_module *module)
 {
 	struct eq_data *data = (struct eq_data *)module->data;
 	if (data->eq)
 		eq_free(data->eq);
 	free(data);
 }

 static void eq_init_module(struct dsp_module *module)
 {
 	module->instantiate = &eq_instantiate;
 	module->connect_port = &eq_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &eq_run;
 	module->deinstantiate = &eq_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  *  eq2 module functions
  */
 struct eq2_data {
 	int sample_rate;
 	struct eq2 *eq2; /* Initialized in the first call of eq2_run() */

 	/* Two ports for input, two for output, and 8 parameters per eq pair */
 	float *ports[4 + MAX_BIQUADS_PER_EQ2 * 8];
 };

 static int eq2_instantiate(struct dsp_module *module, unsigned long sample_rate)
 {
 	struct eq2_data *data;

 	module->data = calloc(1, sizeof(struct eq2_data));
 	data = (struct eq2_data *)module->data;
 	data->sample_rate = (int)sample_rate;
 	return 0;
 }

 static void eq2_connect_port(struct dsp_module *module, unsigned long port,
 			     float *data_location)
 {
 	struct eq2_data *data = (struct eq2_data *)module->data;
 	data->ports[port] = data_location;
 }

 static void eq2_run(struct dsp_module *module, unsigned long sample_count)
 {
 	struct eq2_data *data = (struct eq2_data *)module->data;
 	if (!data->eq2) {
 		float nyquist = data->sample_rate / 2;
 		int i, channel;

 		data->eq2 = eq2_new();
 		for (i = 4; i < 4 + MAX_BIQUADS_PER_EQ2 * 8; i += 8) {
 			if (!data->ports[i])
 				break;
 			for (channel = 0; channel < 2; channel++) {
 				int k = i + channel * 4;
 				int type = (int)*data->ports[k];
 				float freq = *data->ports[k + 1];
 				float Q = *data->ports[k + 2];
 				float gain = *data->ports[k + 3];
 				eq2_append_biquad(data->eq2, channel, type,
 						  freq / nyquist, Q, gain);
 			}
 		}
 	}

 	if (data->ports[0] != data->ports[2])
 		memcpy(data->ports[2], data->ports[0],
 		       sizeof(float) * sample_count);
 	if (data->ports[3] != data->ports[1])
 		memcpy(data->ports[3], data->ports[1],
 		       sizeof(float) * sample_count);

 	eq2_process(data->eq2, data->ports[2], data->ports[3],
 		    (int)sample_count);
 }

 static void eq2_deinstantiate(struct dsp_module *module)
 {
 	struct eq2_data *data = (struct eq2_data *)module->data;
 	if (data->eq2)
 		eq2_free(data->eq2);
 	free(data);
 }

 static void eq2_init_module(struct dsp_module *module)
 {
 	module->instantiate = &eq2_instantiate;
 	module->connect_port = &eq2_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &eq2_run;
 	module->deinstantiate = &eq2_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  *  drc module functions
  */
 struct drc_data {
 	int sample_rate;
 	struct drc *drc; /* Initialized in the first call of drc_run() */

 	/* Two ports for input, two for output, one for disable_emphasis,
 	 * and 8 parameters each band */
 	float *ports[4 + 1 + 8 * 3];
 };

 static int drc_instantiate(struct dsp_module *module, unsigned long sample_rate)
 {
 	struct drc_data *data;

 	module->data = calloc(1, sizeof(struct drc_data));
 	data = (struct drc_data *)module->data;
 	data->sample_rate = (int)sample_rate;
 	return 0;
 }

 static void drc_connect_port(struct dsp_module *module, unsigned long port,
 			     float *data_location)
 {
 	struct drc_data *data = (struct drc_data *)module->data;
 	data->ports[port] = data_location;
 }

 static int drc_get_delay(struct dsp_module *module)
 {
 	struct drc_data *data = (struct drc_data *)module->data;
 	return DRC_DEFAULT_PRE_DELAY * data->sample_rate;
 }

 static void drc_run(struct dsp_module *module, unsigned long sample_count)
 {
 	struct drc_data *data = (struct drc_data *)module->data;
 	if (!data->drc) {
 		int i;
 		float nyquist = data->sample_rate / 2;
 		struct drc *drc = drc_new(data->sample_rate);

 		data->drc = drc;
 		drc->emphasis_disabled = (int)*data->ports[4];
 		for (i = 0; i < 3; i++) {
 			int k = 5 + i * 8;
 			float f = *data->ports[k];
 			float enable = *data->ports[k + 1];
 			float threshold = *data->ports[k + 2];
 			float knee = *data->ports[k + 3];
 			float ratio = *data->ports[k + 4];
 			float attack = *data->ports[k + 5];
 			float release = *data->ports[k + 6];
 			float boost = *data->ports[k + 7];
 			drc_set_param(drc, i, PARAM_CROSSOVER_LOWER_FREQ,
 				      f / nyquist);
 			drc_set_param(drc, i, PARAM_ENABLED, enable);
 			drc_set_param(drc, i, PARAM_THRESHOLD, threshold);
 			drc_set_param(drc, i, PARAM_KNEE, knee);
 			drc_set_param(drc, i, PARAM_RATIO, ratio);
 			drc_set_param(drc, i, PARAM_ATTACK, attack);
 			drc_set_param(drc, i, PARAM_RELEASE, release);
 			drc_set_param(drc, i, PARAM_POST_GAIN, boost);
 		}
 		drc_init(drc);
 	}
 	if (data->ports[0] != data->ports[2])
 		memcpy(data->ports[2], data->ports[0],
 		       sizeof(float) * sample_count);
 	if (data->ports[1] != data->ports[3])
 		memcpy(data->ports[3], data->ports[1],
 		       sizeof(float) * sample_count);

 	drc_process(data->drc, &data->ports[2], (int)sample_count);
 }

 static void drc_deinstantiate(struct dsp_module *module)
 {
 	struct drc_data *data = (struct drc_data *)module->data;
 	if (data->drc)
 		drc_free(data->drc);
 	free(data);
 }

 static void drc_init_module(struct dsp_module *module)
 {
 	module->instantiate = &drc_instantiate;
 	module->connect_port = &drc_connect_port;
 	module->get_delay = &drc_get_delay;
 	module->run = &drc_run;
 	module->deinstantiate = &drc_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 /*
  * sink module functions
  */
 struct sink_data {
 	struct ext_dsp_module *ext_module;
 	float *ports[MAX_EXT_DSP_PORTS];
 };

 static int sink_instantiate(struct dsp_module *module,
 			    unsigned long sample_rate)
 {
 	module->data = (struct sink_data *)calloc(1, sizeof(struct sink_data));
 	return 0;
 }

 static void sink_deinstantiate(struct dsp_module *module)
 {
 	struct sink_data *data = (struct sink_data *)module->data;
 	free(data);
 }

 static void sink_connect_port(struct dsp_module *module, unsigned long port,
 			      float *data_location)
 {
 	struct sink_data *data = (struct sink_data *)module->data;
 	data->ports[port] = data_location;
 }

 static void sink_run(struct dsp_module *module, unsigned long sample_count)
 {
 	struct sink_data *data = (struct sink_data *)module->data;

 	if (!data->ext_module)
 		return;
 	data->ext_module->run(data->ext_module, sample_count);
 }

 static void sink_init_module(struct dsp_module *module)
 {
 	module->instantiate = &sink_instantiate;
 	module->connect_port = &sink_connect_port;
 	module->get_delay = &empty_get_delay;
 	module->run = &sink_run;
 	module->deinstantiate = &sink_deinstantiate;
 	module->free_module = &empty_free_module;
 	module->get_properties = &empty_get_properties;
 	module->dump = &empty_dump;
 }

 void cras_dsp_module_set_sink_ext_module(struct dsp_module *module,
 					 struct ext_dsp_module *ext_module)
 {
 	struct sink_data *data = (struct sink_data *)module->data;
 	int i;
 	data->ext_module = ext_module;

 	if (data->ext_module == NULL)
 		return;

 	for (i = 0; i < MAX_EXT_DSP_PORTS; i++)
 		ext_module->ports[i] = data->ports[i];
 }

 /*
  *  builtin module dispatcher
  */
 struct dsp_module *cras_dsp_module_load_builtin(struct plugin *plugin)
 {
 	struct dsp_module *module;
 	if (strcmp(plugin->library, "builtin") != 0)
 		return NULL;

 	module = calloc(1, sizeof(struct dsp_module));

 	if (strcmp(plugin->label, "mix_stereo") == 0) {
 		mix_stereo_init_module(module);
 	} else if (strcmp(plugin->label, "invert_lr") == 0) {
 		invert_lr_init_module(module);
 	} else if (strcmp(plugin->label, "dcblock") == 0) {
 		dcblock_init_module(module);
 	} else if (strcmp(plugin->label, "eq") == 0) {
 		eq_init_module(module);
 	} else if (strcmp(plugin->label, "eq2") == 0) {
 		eq2_init_module(module);
 	} else if (strcmp(plugin->label, "drc") == 0) {
 		drc_init_module(module);
 	} else if (strcmp(plugin->label, "swap_lr") == 0) {
 		swap_lr_init_module(module);
 	} else if (strcmp(plugin->label, "sink") == 0) {
 		sink_init_module(module);
 	} else {
 		empty_init_module(module);
 	}

 	return module;
 }
	/* Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include <stdlib.h>
	#include "cras_dsp_module.h"
	#include "drc.h"
	#include "dsp_util.h"
	#include "dcblock.h"
	#include "eq.h"
	#include "eq2.h"

	/*
	* empty module functions (for source and sink)
	*/
	static int empty_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	return 0;
	}

	static void empty_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	}

	static int empty_get_delay(struct dsp_module *module)
	{
	return 0;
	}

	static void empty_run(struct dsp_module *module, unsigned long sample_count)
	{
	}

	static void empty_deinstantiate(struct dsp_module *module)
	{
	}

	static void empty_free_module(struct dsp_module *module)
	{
	free(module);
	}

	static int empty_get_properties(struct dsp_module *module)
	{
	return 0;
	}

	static void empty_dump(struct dsp_module module, struct dumper d)
	{
	dumpf(d, "built-in module\n");
	}

	static void empty_init_module(struct dsp_module *module)
	{
	module->instantiate = &empty_instantiate;
	module->connect_port = &empty_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &empty_run;
	module->deinstantiate = &empty_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* swap_lr module functions
	*/
	static int swap_lr_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	module->data = calloc(4, sizeof(float *));
	return 0;
	}

	static void swap_lr_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	float **ports;
	ports = (float **)module->data;
	ports[port] = data_location;
	}

	static void swap_lr_run(struct dsp_module *module, unsigned long sample_count)
	{
	size_t i;
	float ports = (float )module->data;

	/* This module runs dsp in-place, so ports[0] == ports[2],
	* ports[1] == ports[3]. Here we swap data on two channels.
	*/
	for (i = 0; i < sample_count; i++) {
	float temp = ports[0][i];
	ports[2][i] = ports[1][i];
	ports[3][i] = temp;
	}
	}

	static void swap_lr_deinstantiate(struct dsp_module *module)
	{
	free(module->data);
	}

	static void swap_lr_init_module(struct dsp_module *module)
	{
	module->instantiate = &swap_lr_instantiate;
	module->connect_port = &swap_lr_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &swap_lr_run;
	module->deinstantiate = &swap_lr_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	}

	/*
	* invert_lr module functions
	*/
	static int invert_lr_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	module->data = calloc(4, sizeof(float *));
	return 0;
	}

	static void invert_lr_connect_port(struct dsp_module *module,
	unsigned long port, float *data_location)
	{
	float **ports;
	ports = (float **)module->data;
	ports[port] = data_location;
	}

	static void invert_lr_run(struct dsp_module *module, unsigned long sample_count)
	{
	size_t i;
	float ports = (float )module->data;

	for (i = 0; i < sample_count; i++) {
	ports[2][i] = -ports[0][i];
	ports[3][i] = ports[1][i];
	}
	}

	static void invert_lr_deinstantiate(struct dsp_module *module)
	{
	free(module->data);
	}

	static void invert_lr_init_module(struct dsp_module *module)
	{
	module->instantiate = &invert_lr_instantiate;
	module->connect_port = &invert_lr_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &invert_lr_run;
	module->deinstantiate = &invert_lr_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	}

	/*
	* mix_stereo module functions
	*/
	static int mix_stereo_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	module->data = calloc(4, sizeof(float *));
	return 0;
	}

	static void mix_stereo_connect_port(struct dsp_module *module,
	unsigned long port, float *data_location)
	{
	float **ports;
	ports = (float **)module->data;
	ports[port] = data_location;
	}

	static void mix_stereo_run(struct dsp_module *module,
	unsigned long sample_count)
	{
	size_t i;
	float tmp;
	float ports = (float )module->data;

	for (i = 0; i < sample_count; i++) {
	tmp = ports[0][i] + ports[1][i];
	ports[2][i] = tmp;
	ports[3][i] = tmp;
	}
	}

	static void mix_stereo_deinstantiate(struct dsp_module *module)
	{
	free(module->data);
	}

	static void mix_stereo_init_module(struct dsp_module *module)
	{
	module->instantiate = &mix_stereo_instantiate;
	module->connect_port = &mix_stereo_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &mix_stereo_run;
	module->deinstantiate = &mix_stereo_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* dcblock module functions
	*/
	struct dcblock_data {
	struct dcblock *dcblockl;
	struct dcblock *dcblockr;
	unsigned long sample_rate;

	/* One port for input, one for output, and 1 parameter */
	float *ports[5];
	};

	static int dcblock_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	struct dcblock_data *data;

	module->data = calloc(1, sizeof(struct dcblock_data));
	data = (struct dcblock_data *)module->data;
	data->sample_rate = sample_rate;

	return 0;
	}

	static void dcblock_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	struct dcblock_data data = (struct dcblock_data )module->data;
	data->ports[port] = data_location;
	}

	static void dcblock_run(struct dsp_module *module, unsigned long sample_count)
	{
	struct dcblock_data data = (struct dcblock_data )module->data;
	if (!data->dcblockl)
	data->dcblockl =
	dcblock_new(*data->ports[4], data->sample_rate);
	if (!data->dcblockr)
	data->dcblockr =
	dcblock_new(*data->ports[4], data->sample_rate);
	if (data->ports[0] != data->ports[2])
	memcpy(data->ports[2], data->ports[0],
	sizeof(float) * sample_count);
	if (data->ports[1] != data->ports[3])
	memcpy(data->ports[3], data->ports[1],
	sizeof(float) * sample_count);

	dcblock_process(data->dcblockl, data->ports[2], (int)sample_count);
	dcblock_process(data->dcblockr, data->ports[3], (int)sample_count);
	}

	static void dcblock_deinstantiate(struct dsp_module *module)
	{
	struct dcblock_data data = (struct dcblock_data )module->data;
	if (data->dcblockl)
	dcblock_free(data->dcblockl);
	if (data->dcblockr)
	dcblock_free(data->dcblockr);
	free(data);
	}

	static void dcblock_init_module(struct dsp_module *module)
	{
	module->instantiate = &dcblock_instantiate;
	module->connect_port = &dcblock_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &dcblock_run;
	module->deinstantiate = &dcblock_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* eq module functions
	*/
	struct eq_data {
	int sample_rate;
	struct eq eq; / Initialized in the first call of eq_run() */

	/* One port for input, one for output, and 4 parameters per eq */
	float ports[2 + MAX_BIQUADS_PER_EQ 4];
	};

	static int eq_instantiate(struct dsp_module *module, unsigned long sample_rate)
	{
	struct eq_data *data;

	module->data = calloc(1, sizeof(struct eq_data));
	data = (struct eq_data *)module->data;
	data->sample_rate = (int)sample_rate;
	return 0;
	}

	static void eq_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	struct eq_data data = (struct eq_data )module->data;
	data->ports[port] = data_location;
	}

	static void eq_run(struct dsp_module *module, unsigned long sample_count)
	{
	struct eq_data data = (struct eq_data )module->data;
	if (!data->eq) {
	float nyquist = data->sample_rate / 2;
	int i;

	data->eq = eq_new();
	for (i = 2; i < 2 + MAX_BIQUADS_PER_EQ * 4; i += 4) {
	if (!data->ports[i])
	break;
	int type = (int)*data->ports[i];
	float freq = *data->ports[i + 1];
	float Q = *data->ports[i + 2];
	float gain = *data->ports[i + 3];
	eq_append_biquad(data->eq, type, freq / nyquist, Q,
	gain);
	}
	}
	if (data->ports[0] != data->ports[1])
	memcpy(data->ports[1], data->ports[0],
	sizeof(float) * sample_count);
	eq_process(data->eq, data->ports[1], (int)sample_count);
	}

	static void eq_deinstantiate(struct dsp_module *module)
	{
	struct eq_data data = (struct eq_data )module->data;
	if (data->eq)
	eq_free(data->eq);
	free(data);
	}

	static void eq_init_module(struct dsp_module *module)
	{
	module->instantiate = &eq_instantiate;
	module->connect_port = &eq_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &eq_run;
	module->deinstantiate = &eq_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* eq2 module functions
	*/
	struct eq2_data {
	int sample_rate;
	struct eq2 eq2; / Initialized in the first call of eq2_run() */

	/* Two ports for input, two for output, and 8 parameters per eq pair */
	float ports[4 + MAX_BIQUADS_PER_EQ2 8];
	};

	static int eq2_instantiate(struct dsp_module *module, unsigned long sample_rate)
	{
	struct eq2_data *data;

	module->data = calloc(1, sizeof(struct eq2_data));
	data = (struct eq2_data *)module->data;
	data->sample_rate = (int)sample_rate;
	return 0;
	}

	static void eq2_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	struct eq2_data data = (struct eq2_data )module->data;
	data->ports[port] = data_location;
	}

	static void eq2_run(struct dsp_module *module, unsigned long sample_count)
	{
	struct eq2_data data = (struct eq2_data )module->data;
	if (!data->eq2) {
	float nyquist = data->sample_rate / 2;
	int i, channel;

	data->eq2 = eq2_new();
	for (i = 4; i < 4 + MAX_BIQUADS_PER_EQ2 * 8; i += 8) {
	if (!data->ports[i])
	break;
	for (channel = 0; channel < 2; channel++) {
	int k = i + channel * 4;
	int type = (int)*data->ports[k];
	float freq = *data->ports[k + 1];
	float Q = *data->ports[k + 2];
	float gain = *data->ports[k + 3];
	eq2_append_biquad(data->eq2, channel, type,
	freq / nyquist, Q, gain);
	}
	}
	}

	if (data->ports[0] != data->ports[2])
	memcpy(data->ports[2], data->ports[0],
	sizeof(float) * sample_count);
	if (data->ports[3] != data->ports[1])
	memcpy(data->ports[3], data->ports[1],
	sizeof(float) * sample_count);

	eq2_process(data->eq2, data->ports[2], data->ports[3],
	(int)sample_count);
	}

	static void eq2_deinstantiate(struct dsp_module *module)
	{
	struct eq2_data data = (struct eq2_data )module->data;
	if (data->eq2)
	eq2_free(data->eq2);
	free(data);
	}

	static void eq2_init_module(struct dsp_module *module)
	{
	module->instantiate = &eq2_instantiate;
	module->connect_port = &eq2_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &eq2_run;
	module->deinstantiate = &eq2_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* drc module functions
	*/
	struct drc_data {
	int sample_rate;
	struct drc drc; / Initialized in the first call of drc_run() */

	/* Two ports for input, two for output, one for disable_emphasis,
	* and 8 parameters each band */
	float ports[4 + 1 + 8 3];
	};

	static int drc_instantiate(struct dsp_module *module, unsigned long sample_rate)
	{
	struct drc_data *data;

	module->data = calloc(1, sizeof(struct drc_data));
	data = (struct drc_data *)module->data;
	data->sample_rate = (int)sample_rate;
	return 0;
	}

	static void drc_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	struct drc_data data = (struct drc_data )module->data;
	data->ports[port] = data_location;
	}

	static int drc_get_delay(struct dsp_module *module)
	{
	struct drc_data data = (struct drc_data )module->data;
	return DRC_DEFAULT_PRE_DELAY * data->sample_rate;
	}

	static void drc_run(struct dsp_module *module, unsigned long sample_count)
	{
	struct drc_data data = (struct drc_data )module->data;
	if (!data->drc) {
	int i;
	float nyquist = data->sample_rate / 2;
	struct drc *drc = drc_new(data->sample_rate);

	data->drc = drc;
	drc->emphasis_disabled = (int)*data->ports[4];
	for (i = 0; i < 3; i++) {
	int k = 5 + i * 8;
	float f = *data->ports[k];
	float enable = *data->ports[k + 1];
	float threshold = *data->ports[k + 2];
	float knee = *data->ports[k + 3];
	float ratio = *data->ports[k + 4];
	float attack = *data->ports[k + 5];
	float release = *data->ports[k + 6];
	float boost = *data->ports[k + 7];
	drc_set_param(drc, i, PARAM_CROSSOVER_LOWER_FREQ,
	f / nyquist);
	drc_set_param(drc, i, PARAM_ENABLED, enable);
	drc_set_param(drc, i, PARAM_THRESHOLD, threshold);
	drc_set_param(drc, i, PARAM_KNEE, knee);
	drc_set_param(drc, i, PARAM_RATIO, ratio);
	drc_set_param(drc, i, PARAM_ATTACK, attack);
	drc_set_param(drc, i, PARAM_RELEASE, release);
	drc_set_param(drc, i, PARAM_POST_GAIN, boost);
	}
	drc_init(drc);
	}
	if (data->ports[0] != data->ports[2])
	memcpy(data->ports[2], data->ports[0],
	sizeof(float) * sample_count);
	if (data->ports[1] != data->ports[3])
	memcpy(data->ports[3], data->ports[1],
	sizeof(float) * sample_count);

	drc_process(data->drc, &data->ports[2], (int)sample_count);
	}

	static void drc_deinstantiate(struct dsp_module *module)
	{
	struct drc_data data = (struct drc_data )module->data;
	if (data->drc)
	drc_free(data->drc);
	free(data);
	}

	static void drc_init_module(struct dsp_module *module)
	{
	module->instantiate = &drc_instantiate;
	module->connect_port = &drc_connect_port;
	module->get_delay = &drc_get_delay;
	module->run = &drc_run;
	module->deinstantiate = &drc_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	/*
	* sink module functions
	*/
	struct sink_data {
	struct ext_dsp_module *ext_module;
	float *ports[MAX_EXT_DSP_PORTS];
	};

	static int sink_instantiate(struct dsp_module *module,
	unsigned long sample_rate)
	{
	module->data = (struct sink_data *)calloc(1, sizeof(struct sink_data));
	return 0;
	}

	static void sink_deinstantiate(struct dsp_module *module)
	{
	struct sink_data data = (struct sink_data )module->data;
	free(data);
	}

	static void sink_connect_port(struct dsp_module *module, unsigned long port,
	float *data_location)
	{
	struct sink_data data = (struct sink_data )module->data;
	data->ports[port] = data_location;
	}

	static void sink_run(struct dsp_module *module, unsigned long sample_count)
	{
	struct sink_data data = (struct sink_data )module->data;

	if (!data->ext_module)
	return;
	data->ext_module->run(data->ext_module, sample_count);
	}

	static void sink_init_module(struct dsp_module *module)
	{
	module->instantiate = &sink_instantiate;
	module->connect_port = &sink_connect_port;
	module->get_delay = &empty_get_delay;
	module->run = &sink_run;
	module->deinstantiate = &sink_deinstantiate;
	module->free_module = &empty_free_module;
	module->get_properties = &empty_get_properties;
	module->dump = &empty_dump;
	}

	void cras_dsp_module_set_sink_ext_module(struct dsp_module *module,
	struct ext_dsp_module *ext_module)
	{
	struct sink_data data = (struct sink_data )module->data;
	int i;
	data->ext_module = ext_module;

	if (data->ext_module == NULL)
	return;

	for (i = 0; i < MAX_EXT_DSP_PORTS; i++)
	ext_module->ports[i] = data->ports[i];
	}

	/*
	* builtin module dispatcher
	*/
	struct dsp_module cras_dsp_module_load_builtin(struct plugin plugin)
	{
	struct dsp_module *module;
	if (strcmp(plugin->library, "builtin") != 0)
	return NULL;

	module = calloc(1, sizeof(struct dsp_module));

	if (strcmp(plugin->label, "mix_stereo") == 0) {
	mix_stereo_init_module(module);
	} else if (strcmp(plugin->label, "invert_lr") == 0) {
	invert_lr_init_module(module);
	} else if (strcmp(plugin->label, "dcblock") == 0) {
	dcblock_init_module(module);
	} else if (strcmp(plugin->label, "eq") == 0) {
	eq_init_module(module);
	} else if (strcmp(plugin->label, "eq2") == 0) {
	eq2_init_module(module);
	} else if (strcmp(plugin->label, "drc") == 0) {
	drc_init_module(module);
	} else if (strcmp(plugin->label, "swap_lr") == 0) {
	swap_lr_init_module(module);
	} else if (strcmp(plugin->label, "sink") == 0) {
	sink_init_module(module);
	} else {
	empty_init_module(module);
	}

	return module;
	}