m48plus/Emulator/external.m

/*
 *   external.c
 *
 *   This file is part of Emu48
 *
 *   Copyright (C) 2005 Christoph Gießelink
 *
 */

#import "patchwinpch.h"
#import "emu48.h"
#import "ops.h"


#define MUSIC_FREQ 11025					// this can be adjusted for quality

//| 38G  | 39G  | 40G  | 48SX | 48GX | 49G  | Name
//#F0E4F #80F0F #80F0F #706D2 #80850 #80F0F =SFLAG53_56

// memory address for flags -53 to -56
#define SFLAG53_56	(  (cCurrentRomType=='6')								\
	                 ? 0xE0E4F												\
					 : (  (cCurrentRomType=='A')							\
					    ? 0xF0E4F											\
					    : (  (cCurrentRomType!='E' && cCurrentRomType!='X' && cCurrentRomType!='Q')	\
					       ? (  (cCurrentRomType=='S')						\
					          ? 0x706D2										\
						      : 0x80850										\
						     )												\
						   : 0x80F0F										\
					      )													\
					   )													\
					)

DWORD dwWaveVol = 64;						// wave sound volume

//static __inline VOID BeepWave(DWORD dwFrequency,DWORD dwDuration)
//{
//	HWAVEOUT     hSoundDevice;
//	WAVEFORMATEX wf;
//	WAVEHDR      wh;
//	HANDLE       hEventSound;
//	DWORD        i;
//	
//	if (dwFrequency == 0)					// this is just a delay
//	{
//		Sleep(dwDuration);
//		return;
//	}
//	
//	hEventSound = CreateEvent(NULL,FALSE,FALSE,NULL);
//	
//	wf.wFormatTag      = WAVE_FORMAT_PCM;
//	wf.nChannels       = 1;
//	wf.nSamplesPerSec  = MUSIC_FREQ;
//	wf.nAvgBytesPerSec = MUSIC_FREQ;
//	wf.nBlockAlign     = 1;
//	wf.wBitsPerSample  = 8;
//	wf.cbSize          = 0;
//	
//	if (waveOutOpen(&hSoundDevice,WAVE_MAPPER,&wf,(DWORD)hEventSound,0,CALLBACK_EVENT) != 0)
//	{
//		CloseHandle(hEventSound);			// no sound available
//		return;
//	}
//	
//	// (samp/sec) * msecs * (secs/msec) = samps
//	wh.dwBufferLength = (DWORD) ((QWORD) MUSIC_FREQ * dwDuration / 1000);
//	VERIFY(wh.lpData = HeapAlloc(hHeap,0,wh.dwBufferLength));
//	wh.dwBytesRecorded = 0;
//	wh.dwUser = 0;
//	wh.dwFlags = 0;
//	wh.dwLoops = 0;
//	
//	for (i = 0; i < wh.dwBufferLength; ++i)	// generate square wave
//	{
//		wh.lpData[i] = (BYTE) ((((QWORD) 2 * dwFrequency * i / MUSIC_FREQ) & 1) * dwWaveVol);
//	}
//	
//	VERIFY(waveOutPrepareHeader(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);
//	
//	ResetEvent(hEventSound);				// prepare event for finishing
//	VERIFY(waveOutWrite(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);
//	WaitForSingleObject(hEventSound,INFINITE); // wait for finishing
//	
//	VERIFY(waveOutUnprepareHeader(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);
//	VERIFY(waveOutClose(hSoundDevice) == MMSYSERR_NOERROR);
//	
//	HeapFree(hHeap,0,wh.lpData);
//	CloseHandle(hEventSound);
//	return;
//}
#import "m48EmulatorAudioEngine.h"

static inline VOID BeepWave(DWORD dwFrequency,DWORD dwDuration)
{
	playBeep(dwFrequency, dwDuration);
	
	// Easy version
	//[NSThread sleepForTimeInterval:(0.001*dwDuration)];

	double a, b;
	a = CFAbsoluteTimeGetCurrent();
	b = a + 0.001*dwDuration;
	// Check for ON-Key the hard way:
	while ((!((Chipset.IR15X)&0x8000)) && (a < b)) {
		[NSThread sleepForTimeInterval:0.02];
		a = CFAbsoluteTimeGetCurrent();
	}
	stopBeep();

	return;
}

VOID External(CHIPSET* w)					// Beep patch
{
	BYTE  fbeep;
	DWORD freq,dur;

	freq = Npack(w->D,5);					// frequency in Hz
	dur = Npack(w->C,5);					// duration in ms
	Nread(&fbeep,SFLAG53_56,1);				// fetch system flags -53 to -56

	w->carry = TRUE;						// setting of no beep
	if (!(fbeep & 0x8) && freq)				// bit -56 clear and frequency > 0 Hz
	{
		if (freq < 37)   freq = 37;			// low limit of freqency (NT)
		if (freq > 4400) freq = 4400;		// high limit of HP (SX)

		if (dur > 1048575)					// high limit of HP (SX)
			dur = 1048575;

		BeepWave(freq, dur);				// do it on the hard way

		// estimate cpu cycles for beeping time (2MHz / 4MHz)
		w->cycles += dur * ((cCurrentRomType=='S') ? 2000 : 4000);           

		// original routine return with...
		w->P = 0;							// P=0
		w->intk = TRUE;						// INTON
		w->carry = FALSE;					// RTNCC
	}
	w->pc = rstkpop();
	return;
}

VOID RCKBp(CHIPSET* w)						// ROM Check Beep patch
{
	DWORD dw2F,dwCpuFreq;
	DWORD freq,dur;
	BYTE f,d;

	f = w->C[1];							// f = freq ctl
	d = w->C[0];							// d = duration ctl
	
	if (cCurrentRomType == 'S')				// Clarke chip with 48S ROM
	{	
		// CPU strobe frequency @ RATE 14 = 1.97MHz
		dwCpuFreq = ((14 + 1) * 524288) >> 2;

		dw2F = f * 126 + 262;				// F=f*63+131
	}
	else									// York chip with 48G and later ROM
	{
		// CPU strobe frequency @ RATE 27 = 3.67MHz
		// CPU strobe frequency @ RATE 29 = 3.93MHz
		dwCpuFreq = ((27 + 1) * 524288) >> 2;

		dw2F = f * 180 + 367;				// F=f*90+183.5
	}

	freq = dwCpuFreq / dw2F;
	dur = (dw2F * (256 - 16 * d)) * 1000 / 2 / dwCpuFreq;

	if (freq > 4400) freq = 4400;			// high limit of HP

	BeepWave(freq, dur);					// do it on the hard way

	// estimate cpu cycles for beeping time (2MHz / 4MHz)
	w->cycles += dur * ((cCurrentRomType=='S') ? 2000 : 4000);           

	w->P = 0;								// P=0
	w->carry = FALSE;						// RTNCC
	w->pc = rstkpop();
	return;
}
Initial commit 2020-05-05 20:15:30 +02:00			`/*`
			`* external.c`
			`*`
			`* This file is part of Emu48`
			`*`
			`* Copyright (C) 2005 Christoph Gießelink`
			`*`
			`*/`

			`#import "patchwinpch.h"`
			`#import "emu48.h"`
			`#import "ops.h"`


			`#define MUSIC_FREQ 11025 // this can be adjusted for quality`

			`//\| 38G \| 39G \| 40G \| 48SX \| 48GX \| 49G \| Name`
			`//#F0E4F #80F0F #80F0F #706D2 #80850 #80F0F =SFLAG53_56`

			`// memory address for flags -53 to -56`
			`#define SFLAG53_56 ( (cCurrentRomType=='6') \`
			`? 0xE0E4F \`
			`: ( (cCurrentRomType=='A') \`
			`? 0xF0E4F \`
			`: ( (cCurrentRomType!='E' && cCurrentRomType!='X' && cCurrentRomType!='Q') \`
			`? ( (cCurrentRomType=='S') \`
			`? 0x706D2 \`
			`: 0x80850 \`
			`) \`
			`: 0x80F0F \`
			`) \`
			`) \`
			`)`

			`DWORD dwWaveVol = 64; // wave sound volume`

			`//static __inline VOID BeepWave(DWORD dwFrequency,DWORD dwDuration)`
			`//{`
			`// HWAVEOUT hSoundDevice;`
			`// WAVEFORMATEX wf;`
			`// WAVEHDR wh;`
			`// HANDLE hEventSound;`
			`// DWORD i;`
			`//`
			`// if (dwFrequency == 0) // this is just a delay`
			`// {`
			`// Sleep(dwDuration);`
			`// return;`
			`// }`
			`//`
			`// hEventSound = CreateEvent(NULL,FALSE,FALSE,NULL);`
			`//`
			`// wf.wFormatTag = WAVE_FORMAT_PCM;`
			`// wf.nChannels = 1;`
			`// wf.nSamplesPerSec = MUSIC_FREQ;`
			`// wf.nAvgBytesPerSec = MUSIC_FREQ;`
			`// wf.nBlockAlign = 1;`
			`// wf.wBitsPerSample = 8;`
			`// wf.cbSize = 0;`
			`//`
			`// if (waveOutOpen(&hSoundDevice,WAVE_MAPPER,&wf,(DWORD)hEventSound,0,CALLBACK_EVENT) != 0)`
			`// {`
			`// CloseHandle(hEventSound); // no sound available`
			`// return;`
			`// }`
			`//`
			`// // (samp/sec) * msecs * (secs/msec) = samps`
			`// wh.dwBufferLength = (DWORD) ((QWORD) MUSIC_FREQ * dwDuration / 1000);`
			`// VERIFY(wh.lpData = HeapAlloc(hHeap,0,wh.dwBufferLength));`
			`// wh.dwBytesRecorded = 0;`
			`// wh.dwUser = 0;`
			`// wh.dwFlags = 0;`
			`// wh.dwLoops = 0;`
			`//`
			`// for (i = 0; i < wh.dwBufferLength; ++i) // generate square wave`
			`// {`
			`// wh.lpData[i] = (BYTE) ((((QWORD) 2 * dwFrequency * i / MUSIC_FREQ) & 1) * dwWaveVol);`
			`// }`
			`//`
			`// VERIFY(waveOutPrepareHeader(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);`
			`//`
			`// ResetEvent(hEventSound); // prepare event for finishing`
			`// VERIFY(waveOutWrite(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);`
			`// WaitForSingleObject(hEventSound,INFINITE); // wait for finishing`
			`//`
			`// VERIFY(waveOutUnprepareHeader(hSoundDevice,&wh,sizeof(wh)) == MMSYSERR_NOERROR);`
			`// VERIFY(waveOutClose(hSoundDevice) == MMSYSERR_NOERROR);`
			`//`
			`// HeapFree(hHeap,0,wh.lpData);`
			`// CloseHandle(hEventSound);`
			`// return;`
			`//}`
			`#import "m48EmulatorAudioEngine.h"`

			`static inline VOID BeepWave(DWORD dwFrequency,DWORD dwDuration)`
			`{`
			`playBeep(dwFrequency, dwDuration);`

			`// Easy version`
			`//[NSThread sleepForTimeInterval:(0.001*dwDuration)];`

			`double a, b;`
			`a = CFAbsoluteTimeGetCurrent();`
			`b = a + 0.001*dwDuration;`
			`// Check for ON-Key the hard way:`
			`while ((!((Chipset.IR15X)&0x8000)) && (a < b)) {`
			`[NSThread sleepForTimeInterval:0.02];`
			`a = CFAbsoluteTimeGetCurrent();`
			`}`
			`stopBeep();`

			`return;`
			`}`

			`VOID External(CHIPSET* w) // Beep patch`
			`{`
			`BYTE fbeep;`
			`DWORD freq,dur;`

			`freq = Npack(w->D,5); // frequency in Hz`
			`dur = Npack(w->C,5); // duration in ms`
			`Nread(&fbeep,SFLAG53_56,1); // fetch system flags -53 to -56`

			`w->carry = TRUE; // setting of no beep`
			`if (!(fbeep & 0x8) && freq) // bit -56 clear and frequency > 0 Hz`
			`{`
			`if (freq < 37) freq = 37; // low limit of freqency (NT)`
			`if (freq > 4400) freq = 4400; // high limit of HP (SX)`

			`if (dur > 1048575) // high limit of HP (SX)`
			`dur = 1048575;`

			`BeepWave(freq, dur); // do it on the hard way`

			`// estimate cpu cycles for beeping time (2MHz / 4MHz)`
			`w->cycles += dur * ((cCurrentRomType=='S') ? 2000 : 4000);`

			`// original routine return with...`
			`w->P = 0; // P=0`
			`w->intk = TRUE; // INTON`
			`w->carry = FALSE; // RTNCC`
			`}`
			`w->pc = rstkpop();`
			`return;`
			`}`

			`VOID RCKBp(CHIPSET* w) // ROM Check Beep patch`
			`{`
			`DWORD dw2F,dwCpuFreq;`
			`DWORD freq,dur;`
			`BYTE f,d;`

			`f = w->C[1]; // f = freq ctl`
			`d = w->C[0]; // d = duration ctl`

			`if (cCurrentRomType == 'S') // Clarke chip with 48S ROM`
			`{`
			`// CPU strobe frequency @ RATE 14 = 1.97MHz`
			`dwCpuFreq = ((14 + 1) * 524288) >> 2;`

			`dw2F = f * 126 + 262; // F=f*63+131`
			`}`
			`else // York chip with 48G and later ROM`
			`{`
			`// CPU strobe frequency @ RATE 27 = 3.67MHz`
			`// CPU strobe frequency @ RATE 29 = 3.93MHz`
			`dwCpuFreq = ((27 + 1) * 524288) >> 2;`

			`dw2F = f * 180 + 367; // F=f*90+183.5`
			`}`

			`freq = dwCpuFreq / dw2F;`
			`dur = (dw2F * (256 - 16 * d)) * 1000 / 2 / dwCpuFreq;`

			`if (freq > 4400) freq = 4400; // high limit of HP`

			`BeepWave(freq, dur); // do it on the hard way`

			`// estimate cpu cycles for beeping time (2MHz / 4MHz)`
			`w->cycles += dur * ((cCurrentRomType=='S') ? 2000 : 4000);`

			`w->P = 0; // P=0`
			`w->carry = FALSE; // RTNCC`
			`w->pc = rstkpop();`
			`return;`
			`}`