1ef026fa8SDirk Helbig /* 2ef026fa8SDirk Helbig * Copyright (C) 2023 BlueKitchen GmbH 3ef026fa8SDirk Helbig * 4ef026fa8SDirk Helbig * Redistribution and use in source and binary forms, with or without 5ef026fa8SDirk Helbig * modification, are permitted provided that the following conditions 6ef026fa8SDirk Helbig * are met: 7ef026fa8SDirk Helbig * 8ef026fa8SDirk Helbig * 1. Redistributions of source code must retain the above copyright 9ef026fa8SDirk Helbig * notice, this list of conditions and the following disclaimer. 10ef026fa8SDirk Helbig * 2. Redistributions in binary form must reproduce the above copyright 11ef026fa8SDirk Helbig * notice, this list of conditions and the following disclaimer in the 12ef026fa8SDirk Helbig * documentation and/or other materials provided with the distribution. 13ef026fa8SDirk Helbig * 3. Neither the name of the copyright holders nor the names of 14ef026fa8SDirk Helbig * contributors may be used to endorse or promote products derived 15ef026fa8SDirk Helbig * from this software without specific prior written permission. 16ef026fa8SDirk Helbig * 4. Any redistribution, use, or modification is done solely for 17ef026fa8SDirk Helbig * personal benefit and not for any commercial purpose or for 18ef026fa8SDirk Helbig * monetary gain. 19ef026fa8SDirk Helbig * 20ef026fa8SDirk Helbig * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS 21ef026fa8SDirk Helbig * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 22ef026fa8SDirk Helbig * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 23ef026fa8SDirk Helbig * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN 24ef026fa8SDirk Helbig * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 25ef026fa8SDirk Helbig * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 26ef026fa8SDirk Helbig * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS 27ef026fa8SDirk Helbig * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 28ef026fa8SDirk Helbig * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 29ef026fa8SDirk Helbig * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF 30ef026fa8SDirk Helbig * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31ef026fa8SDirk Helbig * SUCH DAMAGE. 32ef026fa8SDirk Helbig * 33ef026fa8SDirk Helbig * Please inquire about commercial licensing options at 34ef026fa8SDirk Helbig * [email protected] 35ef026fa8SDirk Helbig * 36ef026fa8SDirk Helbig */ 37ef026fa8SDirk Helbig 38ef026fa8SDirk Helbig #define BTSTACK_FILE__ "btstack_sample_rate_comnpensation.h" 39ef026fa8SDirk Helbig 40*0d212321SDirk Helbig #include "btstack.h" 41ef026fa8SDirk Helbig #include "btstack_sample_rate_compensation.h" 42ef026fa8SDirk Helbig 43ef026fa8SDirk Helbig void btstack_sample_rate_compensation_reset(btstack_sample_rate_compensation_t *self, uint32_t timestamp_ms) { 44ef026fa8SDirk Helbig self->count = 0; 45ef026fa8SDirk Helbig self->last = timestamp_ms; 46ef026fa8SDirk Helbig } 47ef026fa8SDirk Helbig 48*0d212321SDirk Helbig void btstack_sample_rate_compensation_init(btstack_sample_rate_compensation_t *self, uint32_t timestamp_ms, uint32_t sample_rate, uint32_t ratio_Q15) { 49ef026fa8SDirk Helbig btstack_sample_rate_compensation_reset( self, timestamp_ms ); 50*0d212321SDirk Helbig self->ratio_state = ratio_Q15 << 1; // Q15 to Q16 is one left shift 51ef026fa8SDirk Helbig self->rate_state = sample_rate << 8; 52ef026fa8SDirk Helbig #ifdef DEBUG_RATIO_CALCULATION 53ef026fa8SDirk Helbig self->ratio = Q15_TO_FLOAT(ratioQ15); 54ef026fa8SDirk Helbig self->sample_rate = sample_rate; 55ef026fa8SDirk Helbig #endif 56ef026fa8SDirk Helbig } 57ef026fa8SDirk Helbig 58ef026fa8SDirk Helbig uint32_t btstack_sample_rate_compensation_update(btstack_sample_rate_compensation_t *self, uint32_t timestamp_ms, uint32_t samples, uint32_t playback_sample_rate) { 59ef026fa8SDirk Helbig int32_t delta = timestamp_ms - self->last; 60ef026fa8SDirk Helbig if( delta >= 1000 ) { 61*0d212321SDirk Helbig log_debug("current playback sample rate: %d", playback_sample_rate ); 62ef026fa8SDirk Helbig 63ef026fa8SDirk Helbig #ifdef DEBUG_RATIO_CALCULATION 64ef026fa8SDirk Helbig { 65ef026fa8SDirk Helbig double current_sample_rate = self->count*(1000./delta); 66ef026fa8SDirk Helbig double current_ratio = self->sample_rate/playback_sample_rate; 67ef026fa8SDirk Helbig 68ef026fa8SDirk Helbig // exponential weighted moving average 69ef026fa8SDirk Helbig const double rate_decay = 0.025; 70ef026fa8SDirk Helbig self->sample_rate += rate_decay * (current_sample_rate-self->sample_rate); 71ef026fa8SDirk Helbig 72ef026fa8SDirk Helbig // exponential weighted moving average 73ef026fa8SDirk Helbig static const double ratio_decay = 1.3; 74ef026fa8SDirk Helbig self->ratio += ratio_decay * (current_ratio-self->ratio); 75ef026fa8SDirk Helbig 76ef026fa8SDirk Helbig log_debug("current l2cap sample rate: %f (%d %d)", current_sample_rate, delta, self->count ); 77ef026fa8SDirk Helbig log_debug("current ratio: %f", current_ratio); 78ef026fa8SDirk Helbig log_debug("calculated ratio: %f", self->ratio ); 79ef026fa8SDirk Helbig } 80ef026fa8SDirk Helbig #endif 81ef026fa8SDirk Helbig uint32_t fixed_rate = (self->count*(UINT16_C(1)<<15))/delta*1000; // sample rate as Q15 82ef026fa8SDirk Helbig uint32_t fixed_ratio = (self->rate_state<<7)/playback_sample_rate; // Q15 83*0d212321SDirk Helbig log_debug("fp current l2cap sample rate: %f (%d %d)", Q15_TO_FLOAT(fixed_rate), delta, self->count); 84ef026fa8SDirk Helbig 85ef026fa8SDirk Helbig self->last = timestamp_ms; 86ef026fa8SDirk Helbig self->count = 0; 87ef026fa8SDirk Helbig 88ef026fa8SDirk Helbig // fixed point exponential weighted moving average 89ef026fa8SDirk Helbig const int16_t rate_decay = FLOAT_TO_Q15(0.025f); 90ef026fa8SDirk Helbig uint32_t rate = self->rate_state >> 8; // integer part only 91ef026fa8SDirk Helbig self->rate_state += (rate_decay * (int32_t)((fixed_rate>>15)-rate)) >> (15-8); // Q8; 92ef026fa8SDirk Helbig 93ef026fa8SDirk Helbig // fixed point exponential weighted moving average 94ef026fa8SDirk Helbig const int16_t ratio_decay = FLOAT_TO_Q8(1.3f); 95ef026fa8SDirk Helbig self->ratio_state += (ratio_decay * (int32_t)((fixed_ratio<<1)-self->ratio_state)) >> (16-8); // Q16 96ef026fa8SDirk Helbig 97*0d212321SDirk Helbig log_debug("fp current ratio : %f", Q15_TO_FLOAT(fixed_ratio)); 98*0d212321SDirk Helbig log_debug("fp calculated ratio: %f", Q16_TO_FLOAT(self->ratio_state)); 99*0d212321SDirk Helbig log_debug("scale factor Q16: %d", self->ratio_state); 100ef026fa8SDirk Helbig } 101ef026fa8SDirk Helbig 102ef026fa8SDirk Helbig self->count += samples; 103ef026fa8SDirk Helbig return self->ratio_state; 104ef026fa8SDirk Helbig } 105