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189 lines
6.1 KiB
C++
189 lines
6.1 KiB
C++
#include "c_crossfader.h"
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C_CROSSFADER::C_CROSSFADER(int length, int nCh, int sRate) : C_DATAPUMP<short>(length * 1 * 1) { // in milliseconds
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BufferLength = 0;
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srate = sRate;
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nch = nCh;
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crossfade = 0;
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mode = 0;
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SetBufferLength(length);
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}
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C_CROSSFADER::~C_CROSSFADER() {
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C_DATAPUMP<short>::~C_DATAPUMP();
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}
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// protected interfaces
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void C_CROSSFADER::SampleRateConvert(int newsrate) { // in samples per second // this needs work
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srate = newsrate;
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SetBufferLength(BufferLength);
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/*
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if (BufferBottom && BufferTop) {
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int newsratestep = srate != 0 ? newsrate / srate : 0;
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int oldsratestep = newsrate != 0 ? srate / newsrate : 0;
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if (newsratestep && oldsratestep) {
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int newbuflength = (BufferLength * newsrate) / srate;
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int newbufsize = (newbuflength * nch * srate * sizeof(short)) / 1000;
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short *newbuf = (short *)malloc(newbufsize);
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short *newbufptr = newbuf;
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short *endbufptr = newbufptr+(newbufsize/sizeof(short));
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short *oldbufptr = BufferBottom;
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do {
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for(int i = 0; i < newsratestep; i++, newbufptr+=nch) {
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if (newbufptr >= endbufptr) break;
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*newbufptr = *oldbufptr;
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if (nch == 2) *(newbufptr+1) = *(oldbufptr+1);
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}
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oldbufptr += oldsratestep * nch;
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} while(newbufptr < endbufptr);
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free(BufferBottom);
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BufferLength = newbuflength;
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BufferBottom = newbuf;
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BufferTop = endbufptr;
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BufferStart = BufferEnd = BufferBottom;
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}
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}
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*/
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}
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void C_CROSSFADER::ChannelConvert(int newnch) { // this needs work
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nch = newnch;
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SetBufferLength(BufferLength);
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/*
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if (BufferBottom && BufferTop) {
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int newbuflength = (BufferLength * newnch) / nch;
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int newbufsize = (newbuflength * nch * srate * sizeof(short)) / 1000;
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short *newbuf = (short *)malloc(newbufsize);
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short *newbufptr = newbuf;
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short *endbufptr = newbufptr+(newbufsize/sizeof(short));
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short *oldbufptr = BufferBottom;
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for(; newbufptr < endbufptr; newbufptr+=newnch, oldbufptr+=nch) {
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if (newnch == 1) *newbufptr = (*oldbufptr + *(oldbufptr+1)) >> 1;
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else *(newbufptr+1) = *newbufptr = *oldbufptr;
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}
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free(BufferBottom);
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BufferLength = newbuflength;
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BufferBottom = newbuf;
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BufferTop = endbufptr;
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BufferStart = BufferEnd = BufferBottom;
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}
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*/
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}
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// human interfaces
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void C_CROSSFADER::SetSampleRate(int sRate) { // in samples per second
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if (sRate != srate) {
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if (srate && sRate) SampleRateConvert(sRate);
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}
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if (sRate) srate = sRate;
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}
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void C_CROSSFADER::SetChannels(int nCh) {
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if (nCh != nch) {
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if (nch && nCh) ChannelConvert(nCh);
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}
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if (nCh) nch = nCh;
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}
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void C_CROSSFADER::SetBufferLength(int bufferLength) { // in milliseconds
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BufferLength = bufferLength;
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resizeBuffer((BufferLength * srate * nch) / 1000);
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}
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void C_CROSSFADER::SetCrossfading(int onoff) {
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if (crossfade == 0) {
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crossfade = onoff ? 1 : 0;
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if (onoff) BufferEnd = BufferStart;
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}
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}
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void C_CROSSFADER::SetCrossfadeMode(int Mode) {
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mode = Mode;
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}
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void C_CROSSFADER::addItems(short *inputBuffer, size_t inputSize) {
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if (inputBuffer && inputSize) {
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size_t numsamps = inputSize*nch;
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if (crossfade==0) {
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memcpy(BufferEnd,inputBuffer,numsamps*sizeof(short)); // copy our records in
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BufferEnd += numsamps;
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} else { // do our crappy crossfade
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short *smpptr = inputBuffer;
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size_t bufsamps = (BufferTop-BufferBottom)/nch;
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size_t bufpos = (BufferEnd >= BufferStart ? BufferEnd-BufferStart : (BufferEnd-BufferBottom)+(BufferTop-BufferStart)) / nch;
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size_t dist = ((BufferTop - BufferBottom) / nch) - bufpos;
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for(size_t i = 0; i != numsamps; i++) {
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if (BufferEnd >= BufferTop) BufferEnd = BufferBottom + (BufferEnd-BufferTop);
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if (mode == 0) { // X-style (techno mix-style)
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*BufferEnd = (short)(((((double)*BufferEnd++)*dist) + (((double)*smpptr++)*bufpos)) / bufsamps);
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if (nch==1 || i&1) { // every-other I or always when mono.
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bufpos++;
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dist--;
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}
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} else if (mode == 1) { // h-style (rock radio station-style)
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*BufferEnd = (short)(((((double)*BufferEnd++)*dist) + ((double)*smpptr++)) / bufsamps);
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if (nch==1 || i&1) dist--; // every-other I or always when mono.
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}
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}
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if (dist < inputSize) crossfade = 0;
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}
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if (BufferEnd >= BufferTop) BufferEnd = BufferBottom + (BufferEnd-BufferTop);
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}
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}
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size_t C_CROSSFADER::put(short *inputBuffer, size_t inputSize) { // in channel-less shorts
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// returns number of <T> records added to logical buffer
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size_t retval = 0;
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if (inputBuffer && inputSize) {
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size_t fitting = (((BufferTop-BufferBottom)-1) - size()) / nch; // can't go over our logical boundary.... blah
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if (fitting > inputSize) fitting = inputSize; // the entire thing can fit. yeay!
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retval = fitting;
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if (fitting > 0) {
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short *bufptr = inputBuffer;
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size_t top = (BufferEnd >= BufferStart ? BufferTop-BufferEnd : 0) / nch; // number of <T> records free at top of physical buffer
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size_t bottom = (BufferEnd >= BufferStart ? BufferStart-BufferBottom : (BufferStart-BufferEnd)) / nch; // number of <T> records free at bottom of physical buffer
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if (top > 0) {
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if (top > fitting) top = fitting;
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addItems(bufptr,top);
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fitting -= top;
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bufptr += top*nch;
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}
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if (bottom > 0 && fitting > 0) {
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if (bottom > fitting) bottom = fitting;
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addItems(bufptr,bottom);
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}
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}
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}
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return retval;
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}
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size_t C_CROSSFADER::get(short *outputBuffer, size_t outputSize, int nCh) { // in channel-less shorts
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// returns number of <T> records pulled from the logical buffer
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size_t retval = 0;
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nch = nCh;
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if (outputBuffer && outputSize) {
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size_t fitting = size() / nch;
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if (fitting > outputSize) fitting = outputSize;
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retval = fitting;
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if (fitting > 0) {
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short *bufptr = outputBuffer;
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size_t top = (BufferEnd >= BufferStart ? BufferEnd-BufferStart : BufferTop-BufferStart) / nch; // number of <T> records at top of physical buffer
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size_t bottom = (BufferEnd >= BufferStart ? 0 : BufferEnd-BufferBottom) / nch; // number of <T> records at bottom of physical buffer
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if (top > 0) {
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if (top > fitting) top = fitting;
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getItems(bufptr,top*nch);
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delItems(0,top*nch);
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fitting -= top;
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bufptr += top*nch;
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}
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if (bottom > 0 && fitting > 0) {
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if (bottom > fitting) bottom = fitting;
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getItems(bufptr,bottom*nch);
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delItems(0,bottom*nch);
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}
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}
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}
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return retval;
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} |