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https://github.com/KolibriOS/kolibrios.git
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a316fa7c9d
git-svn-id: svn://kolibrios.org@1905 a494cfbc-eb01-0410-851d-a64ba20cac60
214 lines
5.2 KiB
C
214 lines
5.2 KiB
C
/*
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synth_ntom.h: ntom-resampling synth functions
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This header is used multiple times to create different variants of this function.
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Hint: MONO_NAME, MONO2STEREO_NAME, SYNTH_NAME and SAMPLE_T as well as WRITE_SAMPLE do vary.
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copyright 1995-2008 by the mpg123 project - free software under the terms of the LGPL 2.1
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see COPYING and AUTHORS files in distribution or http://mpg123.org
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initially written by Michael Hipp, generalized by Thomas Orgis
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Well, this is very simple resampling... you may or may not like what you hear.
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But it's cheap.
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But still, we don't implement a non-autoincrement version of this one.
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*/
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/* Note: These mono functions would also work generically,
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it's just that they need a runtime calculation for the conversion loop...
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The fixed XtoY functions have the chance for loop unrolling... */
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int MONO_NAME(real *bandPtr, mpg123_handle *fr)
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{
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SAMPLE_T samples_tmp[8*64];
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SAMPLE_T *tmp1 = samples_tmp;
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size_t i;
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int ret;
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size_t pnt = fr->buffer.fill;
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unsigned char *samples = fr->buffer.data;
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fr->buffer.data = (unsigned char*) samples_tmp;
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fr->buffer.fill = 0;
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ret = SYNTH_NAME(bandPtr, 0, fr, 1);
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fr->buffer.data = samples;
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samples += pnt;
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for(i=0;i<(fr->buffer.fill/(2*sizeof(SAMPLE_T)));i++)
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{
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*( (SAMPLE_T *)samples) = *tmp1;
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samples += sizeof(SAMPLE_T);
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tmp1 += 2;
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}
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fr->buffer.fill = pnt + (fr->buffer.fill/2);
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return ret;
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}
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int MONO2STEREO_NAME(real *bandPtr, mpg123_handle *fr)
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{
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size_t i;
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int ret;
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size_t pnt1 = fr->buffer.fill;
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unsigned char *samples = fr->buffer.data + pnt1;
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ret = SYNTH_NAME(bandPtr, 0, fr, 1);
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for(i=0;i<((fr->buffer.fill-pnt1)/(2*sizeof(SAMPLE_T)));i++)
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{
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((SAMPLE_T *)samples)[1] = ((SAMPLE_T *)samples)[0];
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samples+=2*sizeof(SAMPLE_T);
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}
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return ret;
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}
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int SYNTH_NAME(real *bandPtr,int channel, mpg123_handle *fr, int final)
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{
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static const int step = 2;
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SAMPLE_T *samples = (SAMPLE_T *) (fr->buffer.data + fr->buffer.fill);
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real *b0, **buf; /* (*buf)[0x110]; */
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int clip = 0;
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int bo1;
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int ntom;
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if(fr->have_eq_settings) do_equalizer(bandPtr,channel,fr->equalizer);
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if(!channel)
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{
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fr->bo--;
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fr->bo &= 0xf;
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buf = fr->real_buffs[0];
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ntom = fr->ntom_val[1] = fr->ntom_val[0];
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}
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else
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{
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samples++;
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buf = fr->real_buffs[1];
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ntom = fr->ntom_val[1];
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}
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if(fr->bo & 0x1)
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{
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b0 = buf[0];
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bo1 = fr->bo;
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dct64(buf[1]+((fr->bo+1)&0xf),buf[0]+fr->bo,bandPtr);
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}
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else
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{
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b0 = buf[1];
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bo1 = fr->bo+1;
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dct64(buf[0]+fr->bo,buf[1]+fr->bo+1,bandPtr);
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}
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{
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register int j;
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real *window = fr->decwin + 16 - bo1;
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for (j=16;j;j--,window+=0x10)
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{
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real sum;
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ntom += fr->ntom_step;
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if(ntom < NTOM_MUL)
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{
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window += 16;
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b0 += 16;
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continue;
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}
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sum = REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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sum += REAL_MUL_SYNTH(*window++, *b0++);
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sum -= REAL_MUL_SYNTH(*window++, *b0++);
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while(ntom >= NTOM_MUL)
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{
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WRITE_SAMPLE(samples,sum,clip);
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samples += step;
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ntom -= NTOM_MUL;
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}
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}
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ntom += fr->ntom_step;
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if(ntom >= NTOM_MUL)
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{
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real sum;
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sum = REAL_MUL_SYNTH(window[0x0], b0[0x0]);
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sum += REAL_MUL_SYNTH(window[0x2], b0[0x2]);
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sum += REAL_MUL_SYNTH(window[0x4], b0[0x4]);
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sum += REAL_MUL_SYNTH(window[0x6], b0[0x6]);
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sum += REAL_MUL_SYNTH(window[0x8], b0[0x8]);
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sum += REAL_MUL_SYNTH(window[0xA], b0[0xA]);
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sum += REAL_MUL_SYNTH(window[0xC], b0[0xC]);
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sum += REAL_MUL_SYNTH(window[0xE], b0[0xE]);
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while(ntom >= NTOM_MUL)
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{
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WRITE_SAMPLE(samples,sum,clip);
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samples += step;
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ntom -= NTOM_MUL;
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}
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}
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b0-=0x10,window-=0x20;
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window += bo1<<1;
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for (j=15;j;j--,b0-=0x20,window-=0x10)
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{
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real sum;
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ntom += fr->ntom_step;
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if(ntom < NTOM_MUL)
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{
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window -= 16;
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b0 += 16;
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continue;
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}
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sum = REAL_MUL_SYNTH(-*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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sum -= REAL_MUL_SYNTH(*(--window), *b0++);
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while(ntom >= NTOM_MUL)
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{
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WRITE_SAMPLE(samples,sum,clip);
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samples += step;
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ntom -= NTOM_MUL;
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}
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}
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}
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fr->ntom_val[channel] = ntom;
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if(final) fr->buffer.fill = ((unsigned char *) samples - fr->buffer.data - (channel ? sizeof(SAMPLE_T) : 0));
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return clip;
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}
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