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OPL/Source/hiopl.cpp

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#include "Hiopl.h"
#include <assert.h>
#include "../JuceLibraryCode/JuceHeader.h"
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// A higher level wrapper around the DOSBox OPL emulator.
Hiopl::Hiopl(int buflen) {
adlib = new DBOPL::Handler();
Buf32 = new Bit32s[buflen];
_op1offset[1] = 0x0;
_op1offset[2] = 0x1;
_op1offset[3] = 0x2;
_op1offset[4] = 0x8;
_op1offset[5] = 0x9;
_op1offset[6] = 0xa;
_op1offset[7] = 0x10;
_op1offset[8] = 0x11;
_op1offset[9] = 0x12;
_op2offset[1] = 0x3;
_op2offset[2] = 0x4;
_op2offset[3] = 0x5;
_op2offset[4] = 0xb;
_op2offset[5] = 0xc;
_op2offset[6] = 0xd;
_op2offset[7] = 0x13;
_op2offset[8] = 0x14;
_op2offset[9] = 0x15;
for (int i = 0; i < 256; i++) {
_WriteReg(i, 0);
}
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}
void Hiopl::Generate(int length, short* buffer) {
//printf("Generating %d samples\n", length);
adlib->Generate(length, Buf32);
for (int i = 0; i < length; i++) {
buffer[i] = (short)(Buf32[i]);
}
}
void Hiopl::Generate(int length, float* buffer) {
// This would be better done using Juce's built in audio format conversion.
adlib->Generate(length, Buf32);
for (int i = 0; i < length; i++) {
buffer[i] = (float)(Buf32[i])/32768.0f;
}
/*
AudioData::ConverterInstance<
AudioData::Pointer <AudioData::Int16,
AudioData::NativeEndian,
AudioData::Interleaved,
AudioData::Const>,
AudioData::Pointer <AudioData::Float32,
AudioData::NativeEndian,
AudioData::NonInterleaved,
AudioData::NonConst>
>converter;
converter.convertSamples(buffer, 0, Buf32, 0, length);
*/
}
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void Hiopl::SetSampleRate(int hz) {
adlib->Init(hz);
}
void Hiopl::_WriteReg(Bit32u reg, Bit8u value, Bit8u mask) {
if (mask > 0) {
value = (regCache[reg] & (~mask)) | (value & mask);
}
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adlib->WriteReg(reg, value);
regCache[reg] = value;
}
void Hiopl::_ClearRegBits(Bit32u reg, Bit8u mask) {
_WriteReg(reg, regCache[reg] & ~mask);
}
void Hiopl::EnableWaveformControl() {
_WriteReg(0x01, 0x20);
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}
void Hiopl::SetWaveform(int ch, int osc, Waveform wave) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0xe0+offset, (Bit8u)wave, 0x3);
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}
void Hiopl::SetAttenuation(int ch, int osc, int level) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x40+offset, (Bit8u)level, 0x3f);
}
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void Hiopl::SetKsr(int ch, int osc, int level) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x40+offset, (Bit8u)level<<6, 0xc0);
}
void Hiopl::SetFrequencyMultiple(int ch, int osc, FreqMultiple mult) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x20+offset, (Bit8u)mult, 0xf);
}
void Hiopl::SetEnvelopeAttack(int ch, int osc, int t) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x60+offset, (Bit8u)t<<4, 0xf0);
}
void Hiopl::SetEnvelopeDecay(int ch, int osc, int t) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x60+offset, (Bit8u)t, 0x0f);
}
void Hiopl::SetEnvelopeSustain(int ch, int osc, int level) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x80+offset, (Bit8u)level<<4, 0xf0);
}
void Hiopl::SetEnvelopeRelease(int ch, int osc, int t) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x80+offset, (Bit8u)t, 0x0f);
}
void Hiopl::EnableSustain(int ch, int osc) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x20+offset, (Bit8u)0x20, 0x20);
}
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void Hiopl::EnableKeyscaling(int ch, int osc) {
int offset = this->_GetOffset(ch, osc);
_WriteReg(0x20+offset, (Bit8u)0x10, 0x10);
}
void Hiopl::SetModulatorFeedback(int ch, int level) {
int offset = this->_GetOffset(ch);
_WriteReg(0xc0+offset, (Bit8u)level, 0x0e);
}
void Hiopl::KeyOn(int ch, float frqHz) {
unsigned int fnum, block;
int offset = this->_GetOffset(ch);
_milliHertzToFnum((unsigned int)(frqHz * 1000.0), &fnum, &block);
_WriteReg(0xa0+offset, fnum % 0x100);
_WriteReg(0xb0+offset, 0x20|((block&0x7)<<2)|(0x3&(fnum/0x100)));
}
void Hiopl::KeyOff(int ch) {
int offset = this->_GetOffset(ch);
_ClearRegBits(0xb0+offset, 0x20);
}
// from libgamemusic, opl-util.cpp
void Hiopl::_milliHertzToFnum(unsigned int milliHertz,
unsigned int *fnum, unsigned int *block, unsigned int conversionFactor)
{
// Special case to avoid divide by zero
if (milliHertz == 0) {
*block = 0; // actually any block will work
*fnum = 0;
return;
}
// Special case for frequencies too high to produce
if (milliHertz > 6208431) {
*block = 7;
*fnum = 1023;
return;
}
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// This is a bit more efficient and doesn't need log2() from math.h
if (milliHertz > 3104215) *block = 7;
else if (milliHertz > 1552107) *block = 6;
else if (milliHertz > 776053) *block = 5;
else if (milliHertz > 388026) *block = 4;
else if (milliHertz > 194013) *block = 3;
else if (milliHertz > 97006) *block = 2;
else if (milliHertz > 48503) *block = 1;
else *block = 0;
// Slightly more efficient version
*fnum = ((unsigned long long)milliHertz << (20 - *block)) / (conversionFactor * 1000.0) + 0.5;
if ((*block == 7) && (*fnum > 1023)) {
// frequency out of range, clipping to maximum value.
*fnum = 1023;
}
assert(*block <= 7);
assert(*fnum < 1024);
return;
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}
Hiopl::~Hiopl() {
delete Buf32;
};
bool Hiopl::_CheckParams(int ch, int osc=OSCILLATORS) {
return ch > 0 && ch <= CHANNELS && osc > 0 && osc <= OSCILLATORS;
}
int Hiopl::_GetOffset(int ch, int osc) {
assert(_CheckParams(ch, osc));
return (1 == osc) ? _op1offset[ch] : _op2offset[ch];
}
int Hiopl::_GetOffset(int ch) {
assert(_CheckParams(ch));
return ch - 1;
}