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/*
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Copyright (C) 2000 Stefan Westerfeld
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stefan@space.twc.de
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public License
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along with this library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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Boston, MA 02110-1301, USA.
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*/
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#include "resample.h"
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#include "debug.h"
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#include <math.h>
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#include <assert.h>
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#include <stdio.h>
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#define compose_16le(first,second) \
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(((((second)+128)&0xff) << 8)+(first))
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#define compose_16be(first,second) \
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(((((first)+128)&0xff) << 8)+(second))
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#define conv_16_float(x) \
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((float)((x)-32768)/32768.0)
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#define conv_8_float(x) \
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((float)((x)-128)/128.0)
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using namespace Arts;
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class Arts::ResamplerPrivate {
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public:
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bool underrun;
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Resampler::Endianness endianness;
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};
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const unsigned int Resampler::bufferSize;
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const unsigned int Resampler::bufferWrap;
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Resampler::Resampler(Refiller *refiller) :
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dropBytes(0), refiller(refiller), pos(0.0), step(1.0), channels(2),
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bits(16),
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block(0), haveBlock(-1)
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{
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d = new ResamplerPrivate();
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d->underrun = false;
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d->endianness = littleEndian;
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updateSampleSize();
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}
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Resampler::~Resampler()
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{
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delete d;
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}
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void Resampler::updateSampleSize()
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{
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sampleSize = channels * bits / 8;
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bufferSamples = bufferSize / sampleSize;
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}
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void Resampler::setStep(double newStep)
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{
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arts_return_if_fail(newStep > 0);
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step = newStep;
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}
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void Resampler::setChannels(int newChannels)
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{
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arts_return_if_fail(newChannels == 1 || newChannels == 2);
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channels = newChannels;
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updateSampleSize();
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}
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void Resampler::setBits(int newBits)
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{
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arts_return_if_fail(newBits == 8 || newBits == 16);
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bits = newBits;
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updateSampleSize();
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}
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void Resampler::setEndianness(Endianness newEndianness)
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{
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arts_return_if_fail(newEndianness == bigEndian || newEndianness == littleEndian);
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d->endianness = newEndianness;
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}
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bool Resampler::underrun()
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{
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return d->underrun;
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}
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void Resampler::ensureRefill()
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{
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if(haveBlock == block) return;
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unsigned long missing;
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if(block == 0)
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{
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missing = bufferSize+sampleSize
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- refiller->read(buffer,bufferSize+sampleSize);
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d->underrun = (missing == bufferSize+sampleSize);
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}
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else
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{
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/*
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* try to drop away "half-sample" reads from the last refill
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*/
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if(dropBytes > 0)
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dropBytes -= refiller->read(buffer,dropBytes);
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/*
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* only if this worked there is hope that we can read sane data
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*/
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if(dropBytes == 0)
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{
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missing = bufferSize
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- refiller->read(&buffer[sampleSize], bufferSize);
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d->underrun = (missing == bufferSize);
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}
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else
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{
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missing = bufferSize;
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d->underrun = true;
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}
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}
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haveBlock++;
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assert(haveBlock == block);
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/*
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* If we don't have enough input to fill the block fully, it might be
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* that the input stall occurred in the middle of a sample. For instance,
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* if samples are 4 bytes long, it might be that we would have needed
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* 13 more bytes to do a full refill.
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*
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* In this situation, there are four samples and one byte missing to
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* refill the buffer - the one byte is what we need to care about here:
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* on the next read, we'll have one byte too much (if we simply ignore
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* the fact, we end up with misaligned reading, causing noise, or
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* swapped stereo channels or similar).
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*
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* So we set dropBytes here, which is a variable which indicates how
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* many bytes to drop away upon next refill.
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*/
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if(missing & (sampleSize - 1))
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dropBytes = missing & (sampleSize - 1);
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unsigned int i = 0, wrap = (block == 0)?0:sampleSize;
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if(bits == 16)
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{
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// wrap the last part of the buffer back to the beginning (history)
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while(i<wrap)
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{
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fbuffer[i/2] = fbuffer[(bufferSize+i)/2];
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i += 2;
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}
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// convert data from incoming
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if(d->endianness == littleEndian)
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{
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while(i<bufferSize+sampleSize-missing)
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{
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fbuffer[i/2] = conv_16_float(compose_16le(buffer[i],buffer[i+1]));
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i += 2;
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}
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}
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else
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{
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while(i<bufferSize+sampleSize-missing)
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{
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fbuffer[i/2] = conv_16_float(compose_16be(buffer[i],buffer[i+1]));
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i += 2;
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}
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}
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// fill up missing bytes with zero samples
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while(i<bufferSize+sampleSize)
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{
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fbuffer[i/2] = 0.0;
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i += 2;
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}
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}
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else if(bits == 8)
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{
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// wrap the last part of the buffer back to the beginning (history)
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while(i<wrap)
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{
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fbuffer[i] = fbuffer[bufferSize+i];
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i++;
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}
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// convert data from incoming
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while(i<bufferSize+sampleSize-missing)
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{
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fbuffer[i] = conv_8_float(buffer[i]);
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i++;
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}
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// fill up missing bytes with zero samples
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while(i<bufferSize+sampleSize)
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{
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fbuffer[i++] = 0.0;
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}
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}
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else
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{
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assert(false);
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}
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}
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#define RESAMPLER_STEP() \
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pos += step; \
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i++; \
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while(pos >= bufferSamples) \
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{ \
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pos -= bufferSamples; \
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block++; \
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ensureRefill(); \
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}
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void Resampler::run(float *left, float *right, unsigned long samples)
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{
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ensureRefill();
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unsigned long i = 0;
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double delta = step - floor(step);
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bool interpolate = fabs(delta) > 0.001;
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if(channels == 2 && interpolate)
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{
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while(i < samples)
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{
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double error = pos - floor(pos);
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unsigned long offset = 2*(unsigned long)pos;
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left[i] = fbuffer[offset+0]*(1.0-error)+fbuffer[offset+2]*error;
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right[i] = fbuffer[offset+1]*(1.0-error)+fbuffer[offset+3]*error;
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RESAMPLER_STEP();
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}
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}
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else if(channels == 1 && interpolate)
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{
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while(i < samples)
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{
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double error = pos - floor(pos);
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unsigned long offset = (unsigned long)pos;
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left[i] = right[i] = fbuffer[offset]*(1.0-error)
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+ fbuffer[offset+1]*error;
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RESAMPLER_STEP();
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}
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}
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else if(channels == 2)
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{
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while(i < samples)
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{
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unsigned long offset = 2*(unsigned long)pos;
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left[i] = fbuffer[offset+0];
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right[i] = fbuffer[offset+1];
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RESAMPLER_STEP();
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}
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}
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else if(channels == 1)
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{
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while(i < samples)
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{
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unsigned long offset = (unsigned long)pos;
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left[i] = right[i] = fbuffer[offset];
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RESAMPLER_STEP();
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}
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}
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else
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{
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assert(false);
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}
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}
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Refiller::~Refiller()
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{
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}
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#undef RESAMPLER_STEP
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#undef compose_16le
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#undef compose_16be
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#undef conv_16_float
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#undef conv_8_float
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