2015-02-10 06:57:10 +01:00
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2015-01-07 04:51:39 +01:00
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#include "dft.h"
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#include <math.h>
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#include <stdio.h>
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2015-02-10 06:57:10 +01:00
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#include <stdint.h>
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#include <stdlib.h>
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#include <string.h>
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2015-01-07 04:51:39 +01:00
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void DoDFT( float * outbins, float * frequencies, int bins, float * databuffer, int place_in_data_buffer, int size_of_data_buffer, float q )
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{
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int i, j;
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for( i = 0; i < bins; i++ )
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{
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float freq = frequencies[i];
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float phi = 0;
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int sampleplace = place_in_data_buffer;
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float advance = 3.14159*2.0/freq;
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float binqtys = 0;
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float binqtyc = 0;
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for( j = 0; j <= freq * q; j++ )
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{
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float sample = databuffer[sampleplace];
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sampleplace = (sampleplace-1+size_of_data_buffer)%size_of_data_buffer;
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//printf( "%d\n", sampleplace );
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float sv = sin( phi ) * sample;
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float cv = cos( phi ) * sample;
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binqtys += sv;
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binqtyc += cv;
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phi += advance;
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}
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float amp = sqrtf( binqtys * binqtys + binqtyc * binqtyc );
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outbins[i] = amp / freq / q;
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}
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}
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void DoDFTQuick( float * outbins, float * frequencies, int bins, const float * databuffer, int place_in_data_buffer, int size_of_data_buffer, float q, float speedup )
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{
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int i, j;
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for( i = 0; i < bins; i++ )
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{
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2015-02-10 06:57:10 +01:00
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int flirts = 0;
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2015-01-07 04:51:39 +01:00
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float freq = frequencies[i];
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float phi = 0;
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int ftq = freq * q;
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int sampleplace = place_in_data_buffer;
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float advance = 3.14159*2.0/freq;
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float binqtys = 0;
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float binqtyc = 0;
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int skip = floor( ftq / speedup );
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if( skip == 0 ) skip = 1;
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advance *= skip;
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for( j = 0; j <= ftq; j += skip )
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{
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float sample = databuffer[sampleplace];
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sampleplace = (sampleplace-skip+size_of_data_buffer)%size_of_data_buffer;
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//printf( "%d\n", sampleplace );
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float sv = sinf( phi ) * sample;
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float cv = cosf( phi ) * sample;
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binqtys += sv;
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binqtyc += cv;
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phi += advance;
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2015-02-10 06:57:10 +01:00
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flirts++;
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2015-01-07 04:51:39 +01:00
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}
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float amp = sqrtf( binqtys * binqtys + binqtyc * binqtyc );
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outbins[i] = amp / freq / q * skip;
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}
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}
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2015-02-10 06:57:10 +01:00
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////////////////////////////DFT Progressive is for embedded systems, primarily.
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static float * gbinqtys;
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static float * gbinqtyc;
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static float * phis;
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static float * gfrequencies;
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static float * goutbins;
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static float * lastbins;
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static float * advances;
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static int gbins;
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static float gq;
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static float gspeedup;
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#define PROGIIR .005
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void HandleProgressive( float sample )
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{
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int i;
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for( i = 0; i < gbins; i++ )
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{
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float thiss = sinf( phis[i] ) * sample;
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float thisc = cosf( phis[i] ) * sample;
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float s = gbinqtys[i] = gbinqtys[i] * (1.-PROGIIR) + thiss * PROGIIR;
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float c = gbinqtyc[i] = gbinqtyc[i] * (1.-PROGIIR) + thisc * PROGIIR;
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phis[i] += advances[i];
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if( phis[i] > 6.283 ) phis[i]-=6.283;
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goutbins[i] = sqrtf( s * s + c * c );
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}
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}
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void DoDFTProgressive( float * outbins, float * frequencies, int bins, const float * databuffer, int place_in_data_buffer, int size_of_data_buffer, float q, float speedup )
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{
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int i;
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static int last_place;
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if( gbins != bins )
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{
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if( gbinqtys ) free( gbinqtys );
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if( gbinqtyc ) free( gbinqtyc );
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if( phis ) free( phis );
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if( lastbins ) free( lastbins );
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if( advances ) free( advances );
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gbinqtys = malloc( sizeof(float)*bins );
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gbinqtyc = malloc( sizeof(float)*bins );
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phis = malloc( sizeof(float)*bins );
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lastbins = malloc( sizeof(float)*bins );
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advances = malloc( sizeof(float)*bins );
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memset( gbinqtys, 0, sizeof(float)*bins );
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memset( gbinqtyc, 0, sizeof(float)*bins );
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memset( phis, 0, sizeof(float)*bins );
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memset( lastbins, 0, sizeof(float)*bins );
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}
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memcpy( outbins, lastbins, sizeof(float)*bins );
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for( i = 0; i < bins; i++ )
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{
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float freq = frequencies[i];
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advances[i] = 3.14159*2.0/freq;
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}
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gbins = bins;
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gfrequencies = frequencies;
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goutbins = outbins;
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gspeedup = speedup;
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gq = q;
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place_in_data_buffer = (place_in_data_buffer+1)%size_of_data_buffer;
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int didrun = 0;
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for( i = last_place; i != place_in_data_buffer; i = (i+1)%size_of_data_buffer )
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{
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float fin = ((float)((int)(databuffer[i] * 127))) / 127.0; //simulate 8-bit input (it looks FINE!)
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HandleProgressive( fin );
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didrun = 1;
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}
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last_place = place_in_data_buffer;
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if( didrun )
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{
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memcpy( lastbins, outbins, sizeof(float)*bins );
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}
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/* for( i = 0; i < bins; i++ )
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{
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printf( "%0.2f ", outbins[i]*100 );
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}
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printf( "\n" );*/
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}
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/////////////////////////////INTEGER DFT
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//NOTES to self:
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//
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// Let's say we want to try this on an AVR.
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// 24 bins, 5 octaves = 120 bins.
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// 20 MHz clock / 4.8k sps = 4096 IPS = 34 clocks per bin = :(
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// We can do two at the same time, this frees us up some
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static uint8_t donefirstrun;
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static int8_t sintable[512]; //Actually [sin][cos] pairs.
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//LDD instruction on AVR can read with constant offset. We can set Y to be the place in the buffer, and read with offset.
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static uint16_t * datspace; //(advances,places,isses,icses)
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void HandleProgressiveInt( int8_t sample1, int8_t sample2 )
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{
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int i;
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int16_t ts, tc;
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int16_t tmp1;
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int8_t s1, c1;
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uint16_t ipl, localipl, adv;
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2015-02-11 07:10:16 +01:00
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uint16_t * ds = &datspace[0];
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int8_t * st;
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//Clocks are listed for AVR.
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2015-02-10 06:57:10 +01:00
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2015-02-11 07:10:16 +01:00
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//Estimated 78 minimum instructions... So for two pairs each... just over 4ksps, theoretical.
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//Running overall at ~2kHz. With GCC: YUCK! 102 cycles!!!
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for( i = 0; i < gbins; i++ ) //Loop, fixed size = 3 + 2 cycles N/A
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{
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//12 cycles MIN
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adv = *(ds++); //Read, indirect from RAM (and increment) 2+2 cycles 4
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ipl = *(ds++); //Read, indirect from RAM (and increment) 2+2 cycles 4
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2015-02-10 06:57:10 +01:00
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//13 cycles MIN
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ipl += adv; //Advance, 16bit += 16bit, 1 + 1 cycles 2
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localipl = (ipl>>8)<<1; //Select upper 8 bits 1 cycles 1 *** AS/IS: 4
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2015-02-10 06:57:10 +01:00
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2015-02-11 07:10:16 +01:00
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st = &sintable[localipl];
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s1 = *(st++); //Read s1 component out of table. 2+2 cycles 2
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c1 = *st; //Read c1 component out of table. 2 cycles 2 *** AS/IS: 4
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2015-02-10 06:57:10 +01:00
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2015-02-11 07:10:16 +01:00
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ts = (s1 * sample1); // 8 x 8 multiply signed + copy R1 out. zero MSB ts 2 ->Deferred
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tc = (c1 * sample1); // 8 x 8 multiply signed + copy R1 out. zero MSB tc 2 ->Deferred
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2015-02-10 06:57:10 +01:00
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//15 cycles MIN
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ipl += adv; //Advance, 16bit += 16bit, 1 + 1 cycles 2
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localipl = (ipl>>8)<<1; //Select upper 8 bits 1 cycles 1 *** AS/IS: 4
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// need to load Z with 'sintable' and add localipl 2
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st = &sintable[localipl];
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s1 = *(st++); //Read s1 component out of table. 2 cycles 2
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c1 = *st; //Read c1 component out of table. 2 cycles 2 *** AS/IS: 4
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ts += (s1 * sample2); // 8 x 8 multiply signed + add R1 out. 3 ->Deferred
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tc += (c1 * sample2); // 8 x 8 multiply signed + add R1 out. 3 ->Deferred
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//Add TS and TC to the datspace stuff. (24 instructions)
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tmp1 = (*ds); //Read out, sin component. 4 Accurate.
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tmp1 -= tmp1>>7; //Subtract from the MSB (with carry) 2 -> 6 AS/IS: 7+7 = 14
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tmp1 += ts>>7; //Add MSBs with carry 2 -> 6 AS/IS: 6
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*(ds++) = tmp1; //Store values back 4
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tmp1 = *ds; //Read out, sin component. 4
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tmp1 -= tmp1>>7; //Subtract from the MSB (with carry) 2 -> 6 AS/IS: 7+7 = 14
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tmp1 += tc>>7; //Add MSBs with carry 2 -> 6 AS/IS: 6
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2015-02-11 07:10:16 +01:00
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*ds++ = tmp1; //Store values back 4
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*(ds-3) = ipl; //Store values back 4 AS/IS: 6
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//AS-IS: 8 loop overhead.
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2015-02-10 06:57:10 +01:00
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}
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}
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void DoDFTProgressiveInteger( float * outbins, float * frequencies, int bins, const float * databuffer, int place_in_data_buffer, int size_of_data_buffer, float q, float speedup )
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{
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int i;
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static int last_place;
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if( !donefirstrun )
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{
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donefirstrun = 1;
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for( i = 0; i < 256; i++ )
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{
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sintable[i*2+0] = (int8_t)((sinf( i / 256.0 * 6.283 ) * 127.0));
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sintable[i*2+1] = (int8_t)((cosf( i / 256.0 * 6.283 ) * 127.0));
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}
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}
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if( gbins != bins )
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{
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gbins = bins;
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if( datspace ) free( datspace );
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datspace = malloc( bins * 2 * 4 );
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}
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for( i = 0; i < bins; i++ )
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{
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float freq = frequencies[i];
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datspace[i*4] = 65536.0/freq;
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}
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for( i = last_place; i != ( place_in_data_buffer&0xffffe ); i = (i+2)%size_of_data_buffer )
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{
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int8_t ifr1 = (int8_t)( ((databuffer[i+0]) ) * 127 );
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int8_t ifr2 = (int8_t)( ((databuffer[i+1]) ) * 127 );
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// printf( "%d %d\n", i, place_in_data_buffer&0xffffe );
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HandleProgressiveInt( ifr1, ifr2 );
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}
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last_place = place_in_data_buffer&0xfffe;
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//Extract bins.
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for( i = 0; i < bins; i++ )
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{
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int16_t isps = datspace[i*4+2];
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int16_t ispc = datspace[i*4+3];
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int16_t mux = ( (isps/256) * (isps/256)) + ((ispc/256) * (ispc/256));
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// printf( "%d (%d %d)\n", mux, isps, ispc );
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outbins[i] = sqrt( mux )/100.0;
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}
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// printf( "\n");
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}
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2015-02-11 07:10:16 +01:00
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////////////////////////SKIPPY DFT
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//Skippy DFT is a very ood one.
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#define OCTAVES 5
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#define FIXBPERO 24
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#define FIXBINS (FIXBPERO*OCTAVES)
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#define BINCYCLE (1<<OCTAVES)
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//NOTES to self:
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//
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// Let's say we want to try this on an AVR.
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// 24 bins, 5 octaves = 120 bins.
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// 20 MHz clock / 4.8k sps = 4096 IPS = 34 clocks per bin = :(
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// We can do two at the same time, this frees us up some
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static uint8_t Sdonefirstrun;
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static int8_t Ssintable[512]; //Actually [sin][cos] pairs.
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static uint16_t Sdatspace[FIXBINS*4]; //(advances,places,isses,icses)
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//For
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static uint8_t Sdo_this_octave[BINCYCLE];
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static int16_t Saccum_octavebins[OCTAVES];
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static uint8_t Swhichoctaveplace;
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void HandleProgressiveIntSkippy( int8_t sample1 )
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{
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int i;
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int16_t ts, tc;
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int16_t tmp1;
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int8_t s1, c1;
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uint16_t ipl, localipl, adv;
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uint8_t oct = Sdo_this_octave[Swhichoctaveplace];
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Swhichoctaveplace ++;
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Swhichoctaveplace &= BINCYCLE-1;
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if( oct > 128 )
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{
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//Special: This is when we can update everything.
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/* if( (rand()%100) == 0 )
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{
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for( i = 0; i < FIXBINS; i++ )
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// printf( "%0.2f ",goutbins[i]*100 );
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printf( "(%d %d)",Sdatspace[i*4+2], Sdatspace[i*4+3] );
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printf( "\n" );
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} */
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for( i = 0; i < FIXBINS; i++ )
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{
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int16_t isps = Sdatspace[i*4+2];
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int16_t ispc = Sdatspace[i*4+3];
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int16_t mux = ( (isps/256) * (isps/256)) + ((ispc/256) * (ispc/256));
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// printf( "%d (%d %d)\n", mux, isps, ispc );
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int octave = i / FIXBPERO;
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// mux >>= octave;
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goutbins[i] = sqrt( mux );
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// goutbins[i]/=100.0;
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goutbins[i]/=100*(1<<octave);
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Sdatspace[i*4+2] -= isps>>5;
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Sdatspace[i*4+3] -= ispc>>5;
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}
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}
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for( i = 0; i < OCTAVES;i++ )
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{
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Saccum_octavebins[i] += sample1;
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}
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uint16_t * ds = &Sdatspace[oct*FIXBPERO*4];
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int8_t * st;
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sample1 = Saccum_octavebins[oct]>>(OCTAVES-oct);
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Saccum_octavebins[oct] = 0;
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for( i = 0; i < FIXBPERO; i++ ) //Loop, fixed size = 3 + 2 cycles N/A
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{
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//12 cycles MIN
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adv = *(ds++); //Read, indirect from RAM (and increment) 2+2 cycles 4
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ipl = *(ds++); //Read, indirect from RAM (and increment) 2+2 cycles 4
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//13 cycles MIN
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ipl += adv; //Advance, 16bit += 16bit, 1 + 1 cycles 2
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localipl = (ipl>>8)<<1; //Select upper 8 bits 1 cycles 1 *** AS/IS: 4
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st = &Ssintable[localipl];
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s1 = *(st++); //Read s1 component out of table. 2+2 cycles 2
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c1 = *st; //Read c1 component out of table. 2 cycles 2 *** AS/IS: 4
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ts = (s1 * sample1); // 8 x 8 multiply signed + copy R1 out. zero MSB ts 2 ->Deferred
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tc = (c1 * sample1); // 8 x 8 multiply signed + copy R1 out. zero MSB tc 2 ->Deferred
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//Add TS and TC to the datspace stuff. (24 instructions)
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tmp1 = (*ds); //Read out, sin component. 4 Accurate.
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// tmp1 -= tmp1>>4; //Subtract from the MSB (with carry) 2 -> 6 AS/IS: 7+7 = 14
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tmp1 += ts>>3; //Add MSBs with carry 2 -> 6 AS/IS: 6
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*(ds++) = tmp1; //Store values back 4
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tmp1 = *ds; //Read out, sin component. 4
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// tmp1 -= tmp1>>4; //Subtract from the MSB (with carry) 2 -> 6 AS/IS: 7+7 = 14
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tmp1 += tc>>3; //Add MSBs with carry 2 -> 6 AS/IS: 6
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*ds++ = tmp1; //Store values back 4
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*(ds-3) = ipl; //Store values back 4 AS/IS: 6
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//AS-IS: 8 loop overhead.
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}
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}
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void DoDFTProgressiveIntegerSkippy( float * outbins, float * frequencies, int bins, const float * databuffer, int place_in_data_buffer, int size_of_data_buffer, float q, float speedup )
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{
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static float backupbins[FIXBINS];
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int i, j;
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static int last_place;
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//printf( "SKIPPY\n" );
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if( !Sdonefirstrun )
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{
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memset( outbins, 0, bins * sizeof( float ) );
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goutbins = outbins;
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//Sdatspace = malloc(FIXBPERO*OCTAVES*8);
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//memset(Sdatspace,0,FIXBPERO*OCTAVES*8);
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//printf( "MS: %d\n", FIXBPERO*OCTAVES*8);
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Sdonefirstrun = 1;
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for( i = 0; i < 256; i++ )
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{
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Ssintable[i*2+0] = (int8_t)((sinf( i / 256.0 * 6.283 ) * 127.0));
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Ssintable[i*2+1] = (int8_t)((cosf( i / 256.0 * 6.283 ) * 127.0));
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}
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for( i = 0; i < BINCYCLE; i++ )
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{
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// Sdo_this_octave =
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// 4 3 4 2 4 3 4 ...
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//search for "first" zero
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for( j = 0; j <= OCTAVES; j++ )
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{
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if( ((1<<j) & i) == 0 ) break;
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}
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if( j > OCTAVES )
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{
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fprintf( stderr, "Error: algorithm fault.\n" );
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exit( -1 );
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}
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Sdo_this_octave[i] = OCTAVES-j-1;
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}
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}
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memcpy( outbins, backupbins, FIXBINS*4 );
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if( FIXBINS != bins )
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{
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fprintf( stderr, "Error: Bins was reconfigured. skippy requires a constant number of bins.\n" );
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return;
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}
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for( i = 0; i < bins; i++ )
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{
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float freq = frequencies[(i%FIXBPERO) + (FIXBPERO*(OCTAVES-1))];
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Sdatspace[i*4] = (65536.0/freq);// / oneoveroctave;
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}
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for( i = last_place; i != place_in_data_buffer; i = (i+1)%size_of_data_buffer )
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{
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int8_t ifr1 = (int8_t)( ((databuffer[i]) ) * 127 );
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HandleProgressiveIntSkippy( ifr1 );
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HandleProgressiveIntSkippy( ifr1 );
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}
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last_place = place_in_data_buffer;
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memcpy( backupbins, outbins, FIXBINS*4 );
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//Extract bins.
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/*
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for( i = 0; i < bins; i++ )
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{
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int16_t isps = Sdatspace[i*4+2];
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int16_t ispc = Sdatspace[i*4+3];
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int16_t mux = ( (isps/256) * (isps/256)) + ((ispc/256) * (ispc/256));
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// printf( "%d (%d %d)\n", mux, isps, ispc );
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outbins[i] = sqrt( mux )/100.0;
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}
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*/
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// printf( "\n");
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}
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