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Working but messy DRO capture, including all OPL3 waveforms.

This commit is contained in:
bruce 2014-11-03 00:21:51 +09:00
parent f06c7147c7
commit edadd07397
5 changed files with 373 additions and 0 deletions

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@ -142,9 +142,11 @@ bool JuceOplvstiAudioProcessor::isRecording() {
void JuceOplvstiAudioProcessor::startRecording(File *outputFile) {
recordingFile = outputFile;
Opl->StartCapture(outputFile->getFullPathName().toUTF8());
}
void JuceOplvstiAudioProcessor::stopRecording() {
Opl->StopCapture();
recordingFile = NULL;
}

213
Source/drov1.cpp Normal file
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@ -0,0 +1,213 @@
#include "JuceHeader.h"
#include <stdio.h>
#include <string.h>
#include "drov1.h"
// http://sourceforge.net/p/dosbox/code-0/HEAD/tree/dosbox/tags/RELEASE_0_72/src/hardware/adlib.cpp#l196
// from mem.h
typedef Bit8u * HostPt;
#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
INLINE Bit8u host_readb(HostPt off) {
return off[0];
};
INLINE Bit16u host_readw(HostPt off) {
return off[0] | (off[1] << 8);
};
INLINE Bit32u host_readd(HostPt off) {
return off[0] | (off[1] << 8) | (off[2] << 16) | (off[3] << 24);
};
INLINE void host_writeb(HostPt off,Bit8u val) {
off[0]=val;
};
INLINE void host_writew(HostPt off,Bit16u val) {
off[0]=(Bit8u)(val);
off[1]=(Bit8u)(val >> 8);
};
INLINE void host_writed(HostPt off,Bit32u val) {
off[0]=(Bit8u)(val);
off[1]=(Bit8u)(val >> 8);
off[2]=(Bit8u)(val >> 16);
off[3]=(Bit8u)(val >> 24);
};
#else
INLINE Bit8u host_readb(HostPt off) {
return *(Bit8u *)off;
};
INLINE Bit16u host_readw(HostPt off) {
return *(Bit16u *)off;
};
INLINE Bit32u host_readd(HostPt off) {
return *(Bit32u *)off;
};
INLINE void host_writeb(HostPt off,Bit8u val) {
*(Bit8u *)(off)=val;
};
INLINE void host_writew(HostPt off,Bit16u val) {
*(Bit16u *)(off)=val;
};
INLINE void host_writed(HostPt off,Bit32u val) {
*(Bit32u *)(off)=val;
};
#endif
#define RAW_SIZE 1024
static struct {
struct {
FILE * handle;
bool capturing;
Bit64s start;
Bit64s last;
Bit8u index;
Bit8u buffer[RAW_SIZE+8];
Bit8u regs[2][256];
Bit32u used;
Bit32u done;
Bit8u cmd[2];
bool opl3;
bool dualopl2;
} raw;
} opl;
static void OPL_RawAdd(Bitu index,Bitu val);
static Bit8u dro_header[]={
'D','B','R','A', /* 0x00, Bit32u ID */
'W','O','P','L', /* 0x04, Bit32u ID */
0x0,0x00, /* 0x08, Bit16u version low */
0x1,0x00, /* 0x09, Bit16u version high */
0x0,0x0,0x0,0x0, /* 0x0c, Bit32u total milliseconds */
0x0,0x0,0x0,0x0, /* 0x10, Bit32u total data */
0x0,0x0,0x0,0x0 /* 0x14, Bit32u Type 0=opl2,1=opl3,2=dual-opl2 */
};
/* Commands
0x00 Bit8u, millisecond delay+1
0x02 none, Use the low index/data pair
0x03 none, Use the high index/data pair
0x10 Bit16u, millisecond delay+1
0xxx Bit8u, send command and data to current index/data pair
*/
static void OPL_RawEmptyBuffer(void) {
fwrite(opl.raw.buffer,1,opl.raw.used,opl.raw.handle);
opl.raw.done+=opl.raw.used;
opl.raw.used=0;
}
#define ADDBUF(_VAL_) opl.raw.buffer[opl.raw.used++]=_VAL_;
void OPL_CaptureReg(Bitu reg, Bitu val) { if (opl.raw.capturing) {
/* Check if we have yet to start */
if (!opl.raw.handle) {
if (reg<0xb0 || reg>0xb8) return;
if (!(val&0x20)) return;
Bitu i;
Bit64s t = Time::currentTimeMillis();
opl.raw.last=t;
opl.raw.start=t;
opl.raw.handle=fopen("c:\\temp\\cap.dro", "wb");
if (!opl.raw.handle) {
opl.raw.capturing=false;
return;
}
memset(opl.raw.buffer,0,sizeof(opl.raw.buffer));
fwrite(dro_header,1,sizeof(dro_header),opl.raw.handle);
/* Check the registers to add */
for (i=0;i<256;i++) {
if (!opl.raw.regs[0][i]) continue;
if (i>=0xb0 && i<=0xb8) continue;
ADDBUF((Bit8u)i);
ADDBUF(opl.raw.regs[0][i]);
}
bool donesecond=false;
/* Check if we already have an opl3 enable bit logged */
if (opl.raw.regs[1][5] & 1)
opl.raw.opl3 = true;
for (i=0;i<256;i++) {
if (!opl.raw.regs[1][i]) continue;
if (i>=0xb0 && i<=0xb8) continue;
if (!donesecond) {
/* Or already have dual opl2 */
opl.raw.dualopl2 = true;
donesecond=true;
ADDBUF(0x3);
}
ADDBUF((Bit8u)i);
ADDBUF(opl.raw.regs[1][i]);
}
if (donesecond) ADDBUF(0x2);
}
/* Check if we enable opl3 or access dual opl2 mode */
if (cmd == 5 && index && (val & 1)) {
opl.raw.opl3 = true;
}
if (index && val && cmd>=0xb0 && cmd<=0xb8) {
opl.raw.dualopl2 = true;
}
/* Check how much time has passed, Allow an extra 5 milliseconds? */
Bit64s t = Time::currentTimeMillis();
if (t > (opl.raw.last+5)) {
Bitu passed = (Bitu)(t - opl.raw.last);
opl.raw.last = t;
while (passed) {
passed-=1;
if (passed<256) {
ADDBUF(0x00); //8bit delay
ADDBUF((Bit8u)passed); //8bit delay
passed=0;
} else if (passed<0x10000) {
ADDBUF(0x01); //16bit delay
ADDBUF((Bit8u)(passed & 0xff)); //lo-byte
ADDBUF((Bit8u)(passed >> 8)); //hi-byte
passed=0;
} else {
ADDBUF(0x01); //16bit delay
ADDBUF(0xff); //lo-byte
ADDBUF(0xff); //hi-byte
passed-=0xffff;
}
}
}
/* Check if we're still sending to the correct index */
if (opl.raw.index != index) {
opl.raw.index=(Bit8u)index;
ADDBUF(opl.raw.index ? 0x3 : 0x2);
}
ADDBUF(cmd);
ADDBUF((Bit8u)val);
if (opl.raw.used>=RAW_SIZE) OPL_RawEmptyBuffer();
}}
void OPL_ToggleCapture() {
/* Check for previously opened file */
if (opl.raw.handle) {
OPL_RawEmptyBuffer();
/* Fill in the header with useful information */
host_writed(&dro_header[0x0c],(Bit32u)(opl.raw.last-opl.raw.start));
host_writed(&dro_header[0x10],opl.raw.done);
if (opl.raw.opl3 && opl.raw.dualopl2) host_writed(&dro_header[0x14],0x1);
else if (opl.raw.dualopl2) host_writed(&dro_header[0x14],0x2);
else host_writed(&dro_header[0x14],0x0);
fseek(opl.raw.handle,0,0);
fwrite(dro_header,1,sizeof(dro_header),opl.raw.handle);
fclose(opl.raw.handle);
opl.raw.handle=0;
}
if (opl.raw.capturing) {
opl.raw.capturing=false;
//LOG_MSG("Stopping Raw OPL capturing.");
} else {
//LOG_MSG("Preparing to capture Raw OPL, will start with first note played.");
opl.raw.capturing=true;
opl.raw.index=0;
opl.raw.used=0;
opl.raw.done=0;
opl.raw.start=0;
opl.raw.last=0;
}
}

5
Source/drov1.h Normal file
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@ -0,0 +1,5 @@
#include "dosbox.h"
extern void OPL_CaptureReg(Bitu index,Bitu val);
extern void OPL_ToggleCapture();

View file

@ -6,6 +6,9 @@
// A wrapper around the DOSBox and ZDoom OPL emulators.
Hiopl::Hiopl(int buflen, Emulator emulator) {
captureHandle = NULL;
StopCapture();
adlib = new DBOPL::Handler();
zdoom = JavaOPLCreate(false);
@ -74,6 +77,7 @@ void Hiopl::_WriteReg(Bit32u reg, Bit8u value, Bit8u mask) {
zdoom->WriteReg(reg, value);
//}
regCache[reg] = value;
_CaptureRegWriteWithDelay(reg, value);
}
void Hiopl::_ClearRegBits(Bit32u reg, Bit8u mask) {
@ -222,6 +226,142 @@ void Hiopl::_milliHertzToFnum(unsigned int milliHertz,
return;
}
static Bit8u dro_header[]={
'D','B','R','A', /* 0x00, Bit32u ID */
'W','O','P','L', /* 0x04, Bit32u ID */
0x0,0x00, /* 0x08, Bit16u version low */
0x1,0x00, /* 0x09, Bit16u version high */
0x0,0x0,0x0,0x0, /* 0x0c, Bit32u total milliseconds */
0x0,0x0,0x0,0x0, /* 0x10, Bit32u total data */
0x0,0x0,0x0,0x0 /* 0x14, Bit32u Type 0=opl2,1=opl3,2=dual-opl2 */
};
static Bit8u dro_opl3_enable[]={
0x03, // switch to extended register bank
0x05, // register 0x105
0x01, // value 0x1
0x02 // switch back to regular OPL2 registers
};
void Hiopl::StartCapture(const char* filepath) {
if (NULL != captureHandle) {
StopCapture();
} else {
lastWrite = -1;
captureLengthBytes = 0;
captureStart = Time::currentTimeMillis();
captureHandle = fopen(filepath, "wb");
fwrite(dro_header, 1, sizeof(dro_header), captureHandle);
for (int i = 0; i <= 0xff; i++) {
_CaptureRegWrite(i, 0);
}
//_CaptureRegWrite(0x1, 0x20);
/*
for (int ch = 1; ch <= CHANNELS; ch++) {
int offset1 = this->_GetOffset(ch, 1);
int offset2 = this->_GetOffset(ch, 2);
int offset0 = this->_GetOffset(ch);
_CaptureRegWrite(0x20 + offset1, regCache[0x20 + offset1]);
_CaptureRegWrite(0x20 + offset2, regCache[0x20 + offset2]);
_CaptureRegWrite(0x40 + offset1, regCache[0x40 + offset1]);
_CaptureRegWrite(0x40 + offset2, regCache[0x40 + offset2]);
_CaptureRegWrite(0x60 + offset1, regCache[0x60 + offset1]);
_CaptureRegWrite(0x60 + offset2, regCache[0x60 + offset2]);
_CaptureRegWrite(0x80 + offset1, regCache[0x80 + offset1]);
_CaptureRegWrite(0x80 + offset2, regCache[0x80 + offset2]);
_CaptureRegWrite(0xe0 + offset1, regCache[0xe0 + offset1]);
_CaptureRegWrite(0xe0 + offset2, regCache[0xe0 + offset2]);
_CaptureRegWrite(0xc0 + offset0, regCache[0xc0 + offset0]);
}
*/
_CaptureOpl3Enable();
for (Bit8u i = 0x20; i <= 0x35; i++) {
_CaptureRegWrite(i, regCache[i]);
}
for (Bit8u i = 0x40; i <= 0x55; i++) {
_CaptureRegWrite(i, regCache[i]);
}
for (Bit8u i = 0x60; i <= 0x75; i++) {
_CaptureRegWrite(i, regCache[i]);
}
for (Bit8u i = 0x80; i <= 0x95; i++) {
_CaptureRegWrite(i, regCache[i]);
}
_CaptureRegWrite(0xbd, regCache[0xbd]);
for (Bit8u i = 0xc0; i <= 0xc8; i++) {
_CaptureRegWrite(i, regCache[i] | 0x30); // enable L + R channels
}
for (Bit8u i = 0xe0; i <= 0xf5; i++) {
_CaptureRegWrite(i, regCache[i]);
}
}
}
INLINE void host_writed(Bit8u *off, Bit32u val) {
off[0]=(Bit8u)(val);
off[1]=(Bit8u)(val >> 8);
off[2]=(Bit8u)(val >> 16);
off[3]=(Bit8u)(val >> 24);
};
void Hiopl::StopCapture() {
if (NULL != captureHandle) {
Bit32u lengthMilliseconds = (Bit32u)(3000 + Time::currentTimeMillis() - captureStart);
host_writed(&dro_header[0x0c], lengthMilliseconds);
host_writed(&dro_header[0x10], captureLengthBytes);
//if (opl.raw.opl3 && opl.raw.dualopl2) host_writed(&dro_header[0x14],0x1);
//else if (opl.raw.dualopl2) host_writed(&dro_header[0x14],0x2);
//else host_writed(&dro_header[0x14],0x0);
host_writed(&dro_header[0x14], 0x1); // OPL3
fseek(captureHandle, 0, 0);
fwrite(dro_header, 1, sizeof(dro_header), captureHandle);
fclose(captureHandle);
}
captureHandle = NULL;
captureLengthBytes = 0;
lastWrite = -1;
captureStart = -1;
}
void Hiopl::_CaptureDelay(Bit16u delayMs) {
Bit8u delay[3];
delay[0] = 0x01;
delay[1] = delayMs & 0xff;
delay[2] = (delayMs >> 8) & 0xff;
fwrite(delay, 1, 3, captureHandle);
captureLengthBytes += 3;
}
void Hiopl::_CaptureRegWrite(Bit32u reg, Bit8u value) {
if (reg <= 0x4) {
Bit8u escape = 0x4;
fwrite(&escape, 1, 1, captureHandle);
captureLengthBytes += 1;
}
Bit8u regAndVal[2];
regAndVal[0] = (Bit8u)reg;
regAndVal[1] = value;
fwrite(regAndVal, 1, 2, captureHandle);
captureLengthBytes += 2;
}
void Hiopl::_CaptureRegWriteWithDelay(Bit32u reg, Bit8u value) {
if (NULL != captureHandle) {
Bit64s t = Time::currentTimeMillis();
if (lastWrite >= 0) {
// Delays of over 65 seconds will be truncated, but that kind of delay is a bit silly anyway..
_CaptureDelay((Bit16u)(t - lastWrite));
}
_CaptureRegWrite(reg, value);
lastWrite = t;
}
}
void Hiopl::_CaptureOpl3Enable() {
fwrite(dro_opl3_enable, 1, 4, captureHandle);
captureLengthBytes += 4;
}
Hiopl::~Hiopl() {
};

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@ -57,6 +57,10 @@ class Hiopl {
void SetFrequency(int ch, float frqHz, bool keyOn=false);
void _WriteReg(Bit32u reg, Bit8u value, Bit8u mask=0x0);
void _ClearRegBits(Bit32u reg, Bit8u mask);
void StartCapture(const char* filepath);
void StopCapture();
~Hiopl();
private:
Emulator emulator;
@ -68,6 +72,15 @@ class Hiopl {
int _GetOffset(int ch);
void _milliHertzToFnum(unsigned int milliHertz, unsigned int *fnum, unsigned int *block, unsigned int conversionFactor=49716);
void _ClearRegisters();
void _CaptureDelay(Bit16u delayMs);
void _CaptureRegWriteWithDelay(Bit32u reg, Bit8u value);
void _CaptureRegWrite(Bit32u reg, Bit8u value);
void _CaptureOpl3Enable();
std::map<int, int> _op1offset;
std::map<int, int> _op2offset;
FILE* captureHandle;
Bit64s captureStart;
Bit64s lastWrite;
Bit32u captureLengthBytes;
};