windows Pico stuff wip

[picodrive.git] / cpu / mz80 / makez80.c

/* Multi-Z80 32 Bit emulator */\r
\r
/* Copyright 1996, 1997, 1998, 1999, 2000 Neil Bradley, All rights reserved\r
 *\r
 * License agreement:\r
 *\r
 * (MZ80 Refers to both the assembly and C code emitted by makeZ80.c and \r
 *	 makeZ80.c itself)\r
 *\r
 * MZ80 May be distributed in unmodified form to any medium.\r
 *\r
 * MZ80 May not be sold, or sold as a part of a commercial package without\r
 * the express written permission of Neil Bradley (neil@synthcom.com). This\r
 * includes shareware.\r
 *\r
 * Modified versions of MZ80 may not be publicly redistributed without author\r
 * approval (neil@synthcom.com). This includes distributing via a publicly\r
 * accessible LAN. You may make your own source modifications and distribute\r
 * MZ80 in source or object form, but if you make modifications to MZ80\r
 * then it should be noted in the top as a comment in makeZ80.c.\r
 *\r
 * MZ80 Licensing for commercial applications is available. Please email\r
 * neil@synthcom.com for details.\r
 *\r
 * Synthcom Systems, Inc, and Neil Bradley will not be held responsible for\r
 * any damage done by the use of MZ80. It is purely "as-is".\r
 *\r
 * If you use MZ80 in a freeware application, credit in the following text:\r
 *\r
 * "Multi-Z80 CPU emulator by Neil Bradley (neil@synthcom.com)"\r
 *\r
 * must accompany the freeware application within the application itself or\r
 * in the documentation.\r
 *\r
 * Legal stuff aside:\r
 *\r
 * If you find problems with MZ80, please email the author so they can get\r
 * resolved. If you find a bug and fix it, please also email the author so\r
 * that those bug fixes can be propogated to the installed base of MZ80\r
 * users. If you find performance improvements or problems with MZ80, please\r
 * email the author with your changes/suggestions and they will be rolled in\r
 * with subsequent releases of MZ80.\r
 *\r
 * The whole idea of this emulator is to have the fastest available 32 bit\r
 * Multi-Z80 emulator for the PC, giving maximum performance. \r
 *\r
 */ \r
\r
#include <stdio.h>\r
#include <stdlib.h>\r
#include <string.h>\r
#include <assert.h>\r
\r
#define	VERSION 					"3.4"\r
\r
#define TRUE            		0xff\r
#define FALSE           		0x0\r
#define INVALID					0xff\r
\r
#define UINT32          		unsigned long int\r
#define UINT8           		unsigned char\r
\r
#define	TIMING_REGULAR			0x00\r
#define	TIMING_XXCB				0x01\r
#define	TIMING_CB				0xcb\r
#define	TIMING_DDFD				0xdd\r
#define	TIMING_ED				0xed\r
#define	TIMING_EXCEPT			0x02\r
\r
FILE *fp = NULL;\r
char string[150];\r
char cpubasename[150];\r
static char mz80Index[50];\r
static char mz80IndexHalfHigh[50];\r
static char mz80IndexHalfLow[50];\r
char majorOp[50];\r
char procname[150];\r
UINT32 dwGlobalLabel = 0;\r
\r
enum\r
{\r
	MZ80_ASSEMBLY_X86,\r
	MZ80_C,\r
	MZ80_UNKNOWN\r
};\r
\r
UINT8 bPlain = FALSE;\r
UINT8 bNoTiming = FALSE;\r
UINT8 bUseStack = 0;\r
UINT8 bCurrentMode = TIMING_REGULAR;	// Current timing mode\r
UINT8 b16BitIo = FALSE;\r
UINT8 bThroughCallHandler = FALSE;\r
UINT8 bOS2 = FALSE;\r
UINT8 bWhat = MZ80_UNKNOWN;\r
\r
void ProcBegin(UINT32 dwOpcode);\r
\r
UINT8 *pbLocalReg[8] =\r
{\r
	"ch",\r
	"cl",\r
	"dh",\r
	"dl",\r
	"bh",\r
	"bl",\r
	"dl",\r
	"al"\r
};\r
\r
UINT8 *pbLocalRegC[8] =\r
{\r
	"cpu.z80B",\r
	"cpu.z80C",\r
	"cpu.z80D",\r
	"cpu.z80E",\r
	"cpu.z80H",\r
	"cpu.z80L",\r
	"barf",\r
	"cpu.z80A"\r
};\r
\r
UINT8 *pbPushReg[8] = \r
{\r
	"cl",\r
	"ch",\r
	"byte [_z80de]",\r
	"byte [_z80de + 1]",\r
	"bl",\r
	"bh",\r
	"ah",\r
	"al"\r
};\r
\r
UINT8 *pbFlags[8] =\r
{\r
	"nz",\r
	"z",\r
	"nc",\r
	"c",\r
	"po",\r
	"pe",\r
	"ns",\r
	"s"\r
};\r
\r
UINT8 *pbRegPairC[] =\r
{\r
	"cpu.z80BC",\r
	"cpu.z80DE",\r
	"cpu.z80HL",\r
	"cpu.z80sp"\r
};\r
\r
UINT8 *pbFlagsC[8] =\r
{\r
	"(!(cpu.z80F & Z80_FLAG_ZERO))",\r
	"(cpu.z80F & Z80_FLAG_ZERO)",\r
	"(!(cpu.z80F & Z80_FLAG_CARRY))",\r
	"(cpu.z80F & Z80_FLAG_CARRY)",\r
	"(!(cpu.z80F & Z80_FLAG_OVERFLOW_PARITY))",\r
	"(cpu.z80F & Z80_FLAG_OVERFLOW_PARITY)",\r
	"(!(cpu.z80F & Z80_FLAG_SIGN))",\r
	"(cpu.z80F & Z80_FLAG_SIGN)"\r
};\r
\r
UINT8 *pbMathReg[8] =\r
{\r
	"ch",\r
	"cl",\r
	"byte [_z80de + 1]",\r
	"byte [_z80de]",\r
	"bh",\r
	"bl",\r
	"INVALID",\r
	"al"\r
};\r
\r
UINT8 *pbMathRegC[8] =\r
{\r
	"cpu.z80B",\r
	"cpu.z80C",\r
	"cpu.z80D",\r
	"cpu.z80E",\r
	"cpu.z80H",\r
	"cpu.z80L",\r
	"bTemp",\r
	"cpu.z80A"\r
};\r
\r
UINT8 *pbRegPairs[4] = \r
{\r
	"cx",	// BC\r
	"word [_z80de]", // DE\r
	"bx",	// HL\r
	"word [_z80sp]"  // SP\r
};\r
\r
UINT8 *pbRegPairsC[4] = \r
{\r
	"cpu.z80BC",	// BC\r
	"cpu.z80DE", // DE\r
	"cpu.z80HL",	// HL\r
	"cpu.z80sp"  // SP\r
};\r
\r
UINT8 *pbPopRegPairs[4] = \r
{\r
	"cx",	// BC\r
	"word [_z80de]", // DE\r
	"bx",	// HL\r
	"ax"  // SP\r
};\r
\r
UINT8 *pbPopRegPairC[4] = \r
{\r
	"cpu.z80BC",\r
	"cpu.z80DE",\r
	"cpu.z80HL",\r
	"cpu.z80AF"\r
};\r
\r
UINT8 *pbIndexedRegPairs[4] = \r
{\r
	"cx",	// BC\r
	"word [_z80de]", // DE\r
	"di",	// IX/IY\r
	"word [_z80sp]"  // SP\r
};\r
\r
// Timing tables\r
\r
UINT8 bTimingRegular[0x100] =\r
{\r
	0x04, 0x0a, 0x07, 0x06, 0x04, 0x04, 0x07, 0x04, 0x04, 0x0b, 0x07, 0x06, 0x04, 0x04, 0x07, 0x04,\r
	0x08, 0x0a, 0x07, 0x06, 0x04, 0x04, 0x07, 0x04, 0x0c, 0x0b, 0x07, 0x06, 0x04, 0x04, 0x07, 0x04,\r
	0x07, 0x0a, 0x10, 0x06, 0x04, 0x04, 0x07, 0x04, 0x07, 0x0b, 0x10, 0x06, 0x04, 0x04, 0x07, 0x04,\r
	0x07, 0x0a, 0x0d, 0x06, 0x0b, 0x0b, 0x0a, 0x04, 0x07, 0x0b, 0x0d, 0x06, 0x04, 0x04, 0x07, 0x04,\r
\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x07, 0x07, 0x07, 0x07, 0x07, 0x07, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
	0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x04, 0x07, 0x04,\r
\r
	0x05, 0x0a, 0x0a, 0x0a, 0x0a, 0x0b, 0x07, 0x0b, 0x05, 0x0a, 0x0a, 0x00, 0x0a, 0x11, 0x07, 0x0b,\r
	0x05, 0x0a, 0x0a, 0x0b, 0x0a, 0x0b, 0x07, 0x0b, 0x05, 0x04, 0x0a, 0x0b, 0x0a, 0x00, 0x07, 0x0b,\r
	0x05, 0x0a, 0x0a, 0x13, 0x0a, 0x0b, 0x07, 0x0b, 0x05, 0x04, 0x0a, 0x04, 0x0a, 0x00, 0x07, 0x0b,\r
	0x05, 0x0a, 0x0a, 0x04, 0x0a, 0x0b, 0x07, 0x0b, 0x05, 0x06, 0x0a, 0x04, 0x0a, 0x00, 0x07, 0x0b\r
};\r
\r
UINT8 bTimingCB[0x100] =\r
{\r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
\r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0c, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, \r
	0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x0f, 0x08\r
};\r
\r
UINT8 bTimingXXCB[0x100] =\r
{\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14,\r
	0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14,\r
	0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14,\r
	0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14, 0x14,\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x17, 0x00\r
};\r
\r
UINT8 bTimingDDFD[0x100] =\r
{\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x0e, 0x14, 0x0a, 0x09, 0x09, 0x09, 0x00, 0x00, 0x0f, 0x14, 0x0a, 0x09, 0x09, 0x09, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x17, 0x17, 0x13, 0x00, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
\r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
\r
	0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x13, 0x09,	0x09, 0x09, 0x09, 0x09, 0x09, 0x09, 0x13, 0x09,\r
	0x13, 0x13, 0x13, 0x13, 0x13, 0x13, 0x13, 0x13,	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, 0x00, 0x00, 0x00, 0x00, 0x09, 0x09, 0x13, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x0e, 0x00, 0x17, 0x00, 0x0f, 0x00, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0a, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00\r
};\r
\r
UINT8 bTimingED[0x100] = \r
{\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
\r
	0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x0e, 0x08, 0x09, 0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x0e, 0x08, 0x09,\r
	0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x09, 0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x09,\r
	0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x12, 0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x12,\r
	0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x00, 0x0c, 0x0c, 0x0f, 0x14, 0x08, 0x08, 0x08, 0x00,\r
\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x10, 0x10, 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, 0x10, 0x10, 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, \r
	0x10, 0x10, 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, 0x10, 0x10, 0x10, 0x10, 0x00, 0x00, 0x00, 0x00, \r
\r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, \r
	0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 \r
};\r
\r
void EDHandler(UINT32 dwOpcode);\r
void DDHandler(UINT32 dwOpcode);\r
void FDHandler(UINT32 dwOpcode);\r
void CBHandler(UINT32 dwOpcode);\r
\r
void PushPopOperations(UINT32 dwOpcode);\r
void AddRegpairOperations(UINT32 dwOpcode);\r
void CallHandler(UINT32 dwOpcode);\r
void MiscHandler(UINT32 dwOpcode);\r
void IMHandler(UINT32 dwOpcode);\r
void IRHandler(UINT32 dwOpcode);\r
void LdRegPairImmediate(UINT32 dwOpcode);\r
void LoadImmediate(UINT32 dwOpcode);\r
void LdRegpairPtrByte(UINT32 dwOpcode);\r
void MathOperation(UINT32 dwOpcode);\r
void RegIntoMemory(UINT32 dwOpcode);\r
void JpHandler(UINT32 dwOpcode);\r
void LdRegImmediate(UINT32 dwOpcode);\r
void IncRegister(UINT32 dwOpcode);\r
void DecRegister(UINT32 dwOpcode);\r
void IncDecRegpair(UINT32 dwOpcode);\r
void LdRegReg(UINT32 dwOpcode);\r
void MathOperationDirect(UINT32 dwOpcode);\r
void JrHandler(UINT32 dwOpcode);\r
void RetHandler(UINT32 dwOpcode);\r
void RestartHandler(UINT32 dwOpcode);\r
void ToRegFromHl(UINT32);\r
void RraRlaHandler(UINT32);\r
void LdByteRegpair(UINT32);\r
void IncDecHLPtr(UINT32 dwOpcode);\r
void InOutHandler(UINT32 dwOpcode);\r
void RLCRRCRLRRSLASRASRLHandler(UINT32 dwOpcode);\r
void BITHandler(UINT32 dwOpcode);\r
void RESSETHandler(UINT32 dwOpcode);\r
void PushPopOperationsIndexed(UINT32 dwOpcode);\r
void LDILDRLDIRLDDRHandler(UINT32);\r
void LdRegpair(UINT32 dwOpcode);\r
void ExtendedRegIntoMemory(UINT32 dwOpcode);\r
void NegHandler(UINT32 dwOpcode);\r
void ExtendedInHandler(UINT32 dwOpcode);\r
void ExtendedOutHandler(UINT32 dwOpcode);\r
void RetIRetNHandler(UINT32 dwOcode);\r
void AdcSbcRegpair(UINT32 dwOpcode);\r
void CPICPDCPIRCPDRHandler(UINT32 dwOpcode);\r
void RRDRLDHandler(UINT32 dwOpcode);\r
void UndocRegToIndex(UINT32 dwOpcode);\r
void UndocIndexToReg(UINT32 dwOpcode);\r
void MathOperationIndexed(UINT32 dwOpcode);\r
void IncDecIndexed(UINT32 dwOpcode);\r
void DDFDCBHandler(UINT32 dwOpcode);\r
void JPIXIYHandler(UINT32 dwOpcode);\r
void AddIndexHandler(UINT32 dwOpcode);\r
void SPToIndex(UINT32 dwOpcode);\r
void LdByteToIndex(UINT32 dwOpcode);\r
void LdRegIndexOffset(UINT32 dwOpcode);\r
void IncDecIndexReg(UINT32 dwOpcode);\r
void ExIndexed(UINT32 dwOpcode);\r
void UndocIncDecIndexReg(UINT32 dwOpcode);\r
void UndocLoadHalfIndexReg(UINT32 dwOpcode);\r
void UndocMathIndex(UINT32 dwOpcode);\r
void ddcbBitWise(UINT32 dwOpcode);\r
void LdIndexPtrReg(UINT32 dwOpcode);\r
void StoreIndexReg(UINT32 dwOpcode);\r
void LoadIndexReg(UINT32 dwOpcode);\r
void OTIROTDROUTIOUTDHandler(UINT32 dwOpcode);\r
void INIRINDRINIINDHandler(UINT32 dwOpcode);\r
\r
struct sOp\r
{\r
	UINT32 bOpCode;\r
	void (*Emitter)(UINT32);\r
};\r
\r
struct sOp StandardOps[] =\r
{\r
	{0xd3,  InOutHandler},		// V\r
	{0xdb,  InOutHandler},		// V\r
\r
	{0x0a, LdByteRegpair},		// V\r
	{0x1a, LdByteRegpair},		// V\r
\r
	{0x17,  RraRlaHandler},		// V\r
	{0x1f,  RraRlaHandler},		// V\r
\r
	{0x05,  DecRegister},		// V\r
	{0x0d,  DecRegister},		// V\r
	{0x15,  DecRegister},		// V\r
	{0x1d,  DecRegister},		// V\r
	{0x25,  DecRegister},		// V\r
	{0x2d,  DecRegister},		// V\r
	{0x3d,  DecRegister},		// V\r
\r
	{0x04,  IncRegister},		// V\r
	{0x0c,  IncRegister},		// V\r
	{0x14,  IncRegister},		// V\r
	{0x1c,  IncRegister},		// V\r
	{0x24,  IncRegister},		// V\r
	{0x2c,  IncRegister},		// V\r
	{0x3c,  IncRegister},		// V\r
\r
	{0x32,	RegIntoMemory},	// V\r
	{0x22,	RegIntoMemory},	// V\r
\r
	{0xc3,	JpHandler},			// V\r
	{0xc2, JpHandler},			// V\r
	{0xca, JpHandler},			// V\r
	{0xd2, JpHandler},			// V\r
	{0xda, JpHandler},			// V\r
	{0xe2, JpHandler},			// V\r
	{0xea, JpHandler},			// V\r
	{0xf2, JpHandler},			// V\r
	{0xfa, JpHandler},			// V\r
\r
\r
	{0x06, LdRegImmediate},		// V\r
	{0x0e, LdRegImmediate},		// V\r
	{0x16, LdRegImmediate},		// V\r
	{0x1e, LdRegImmediate},		// V\r
	{0x26, LdRegImmediate},		// V\r
	{0x2e, LdRegImmediate},		// V\r
	{0x3e, LdRegImmediate},		// V\r
\r
	{0x0b,  IncDecRegpair},		// V\r
	{0x1b,  IncDecRegpair},		// V\r
	{0x2b,  IncDecRegpair},		// V\r
	{0x3b,  IncDecRegpair},		// V\r
\r
	{0x03,  IncDecRegpair},		// V\r
	{0x13,  IncDecRegpair},		// V\r
	{0x23,  IncDecRegpair},		// V\r
	{0x33,  IncDecRegpair},		// V\r
\r
	{0x34,	IncDecHLPtr},		// V\r
	{0x35,	IncDecHLPtr},		// V\r
\r
	{0xcb,	CBHandler},\r
	{0xdd,	DDHandler},\r
	{0xed,	EDHandler},\r
	{0xfd,	FDHandler},\r
\r
	{0x01,	LdRegPairImmediate},	// V\r
	{0x11,	LdRegPairImmediate},	// V\r
	{0x21,	LdRegPairImmediate},	// V\r
	{0x31,	LdRegPairImmediate},	// V\r
\r
	{0xe3,	MiscHandler},	// V\r
	{0x2a,	MiscHandler},	// V\r
	{0xfb,	MiscHandler},	// V\r
	{0xf9,	MiscHandler},	// V\r
	{0xd9,	MiscHandler},	// V\r
	{0x76,	MiscHandler},	// V\r
	{0x3f,	MiscHandler},	// V\r
	{0x37,	MiscHandler},	// V\r
	{0x27,	MiscHandler},	// V\r
	{0x07,	MiscHandler},	// V\r
	{0x08,	MiscHandler},	// V\r
	{0x00,	MiscHandler},	// V\r
	{0xe9,	MiscHandler},	// V\r
	{0xeb,	MiscHandler},	// V\r
	{0xf3,	MiscHandler},	// V\r
	{0x3a,	MiscHandler},	// V\r
	{0x10,	MiscHandler},	// V\r
	{0x2f,	MiscHandler},	// V\r
	{0x0f,	MiscHandler},	// V\r
\r
	{0x02, LdRegpairPtrByte},	// V\r
	{0x12, LdRegpairPtrByte},	// V\r
\r
	{0x70, LdRegpairPtrByte},	// V\r
	{0x71, LdRegpairPtrByte},	// V\r
	{0x72, LdRegpairPtrByte},	// V\r
	{0x73, LdRegpairPtrByte},	// V\r
	{0x74, LdRegpairPtrByte},	// V\r
	{0x75, LdRegpairPtrByte},	// V\r
	{0x77, LdRegpairPtrByte},	// V\r
\r
	{0x36, LdRegpairPtrByte},	// V\r
\r
	{0x80,  MathOperation},	// V\r
	{0x81,  MathOperation},	// V\r
	{0x82,  MathOperation},	// V\r
	{0x83,  MathOperation},	// V\r
	{0x84,  MathOperation},	// V\r
	{0x85,  MathOperation},	// V\r
	{0x86,  MathOperation},	// V\r
	{0x87,  MathOperation},	// V\r
	{0x88,  MathOperation},	// V\r
	{0x89,  MathOperation},	// V\r
	{0x8a,  MathOperation},	// V\r
	{0x8b,  MathOperation},	// V\r
	{0x8c,  MathOperation},	// V\r
	{0x8d,  MathOperation},	// V\r
	{0x8e,  MathOperation},	// V\r
	{0x8f,  MathOperation},	// V\r
	{0x90,  MathOperation},	// V\r
	{0x91,  MathOperation},	// V\r
	{0x92,  MathOperation},	// V\r
	{0x93,  MathOperation},	// V\r
	{0x94,  MathOperation},	// V\r
	{0x95,  MathOperation},	// V\r
	{0x96,  MathOperation},	// V\r
	{0x97,  MathOperation},	// V\r
	{0x98,  MathOperation},	// V\r
	{0x99,  MathOperation},	// V\r
	{0x9a,  MathOperation},	// V\r
	{0x9b,  MathOperation},	// V\r
	{0x9c,  MathOperation},	// V\r
	{0x9d,  MathOperation},	// V\r
	{0x9e,  MathOperation},	// V\r
	{0x9f,  MathOperation},	// V\r
	{0xa0,  MathOperation},	// V\r
	{0xa1,  MathOperation},	// V\r
	{0xa2,  MathOperation},	// V\r
	{0xa3,  MathOperation},	// V\r
	{0xa4,  MathOperation},	// V\r
	{0xa5,  MathOperation},	// V\r
	{0xa6,  MathOperation},	// V\r
	{0xa7,  MathOperation},	// V\r
	{0xa8,  MathOperation},	// V\r
	{0xa9,  MathOperation},	// V\r
	{0xaa,  MathOperation},	// V\r
	{0xab,  MathOperation},	// V\r
	{0xac,  MathOperation},	// V\r
	{0xad,  MathOperation},	// V\r
	{0xae,  MathOperation},	// V\r
	{0xaf,  MathOperation},	// V\r
	{0xb0,  MathOperation},	// V\r
	{0xb1,  MathOperation},	// V\r
	{0xb2,  MathOperation},	// V\r
	{0xb3,  MathOperation},	// V\r
	{0xb4,  MathOperation},	// V\r
	{0xb5,  MathOperation},	// V\r
	{0xb6,  MathOperation},	// V\r
	{0xb7,  MathOperation},	// V\r
	{0xb8,  MathOperation},	// V\r
	{0xb9,  MathOperation},	// V\r
	{0xba,  MathOperation},	// V\r
	{0xbb,  MathOperation},	// V\r
	{0xbc,  MathOperation},	// V\r
	{0xbd,  MathOperation},	// V\r
	{0xbe,  MathOperation},	// V\r
	{0xbf,  MathOperation},	// V\r
\r
	{0x40, LdRegReg},	// V\r
	{0x41, LdRegReg},	// V\r
	{0x42, LdRegReg},	// V\r
	{0x43, LdRegReg},	// V\r
	{0x44, LdRegReg},	// V\r
	{0x45, LdRegReg},	// V\r
	{0x47, LdRegReg},	// V\r
	{0x48, LdRegReg},	// V\r
	{0x49, LdRegReg},	// V\r
	{0x4a, LdRegReg},	// V\r
	{0x4b, LdRegReg},	// V\r
	{0x4c, LdRegReg},	// V\r
	{0x4d, LdRegReg},	// V\r
	{0x4f, LdRegReg},	// V\r
	{0x50, LdRegReg},	// V\r
	{0x51, LdRegReg},	// V\r
	{0x52, LdRegReg},	// V\r
	{0x53, LdRegReg},	// V\r
	{0x54, LdRegReg},	// V\r
	{0x55, LdRegReg},	// V\r
	{0x57, LdRegReg},	// V\r
	{0x58, LdRegReg},	// V\r
	{0x59, LdRegReg},	// V\r
	{0x5a, LdRegReg},	// V\r
	{0x5b, LdRegReg},	// V\r
	{0x5c, LdRegReg},	// V\r
	{0x5d, LdRegReg},	// V\r
	{0x5f, LdRegReg},	// V\r
	{0x60, LdRegReg},	// V\r
	{0x61, LdRegReg},	// V\r
	{0x62, LdRegReg},	// V\r
	{0x63, LdRegReg},	// V\r
	{0x64, LdRegReg},	// V\r
	{0x65, LdRegReg},	// V\r
	{0x67, LdRegReg},	// V\r
	{0x68, LdRegReg},	// V\r
	{0x69, LdRegReg},	// V\r
	{0x6a, LdRegReg},	// V\r
	{0x6b, LdRegReg},	// V\r
	{0x6c, LdRegReg},	// V\r
	{0x6d, LdRegReg},	// V\r
	{0x6f, LdRegReg},	// V\r
	{0x78, LdRegReg},	// V\r
	{0x79, LdRegReg},	// V\r
	{0x7a, LdRegReg},	// V\r
	{0x7b, LdRegReg},	// V\r
	{0x7c, LdRegReg},	// V\r
	{0x7d, LdRegReg},	// V\r
	{0x7f, LdRegReg},	// V\r
\r
	{0xc6,  MathOperationDirect},	// V\r
	{0xce,  MathOperationDirect},	// V\r
	{0xd6,  MathOperationDirect},	// V\r
	{0xde,  MathOperationDirect},	// V\r
	{0xe6,  MathOperationDirect},	// V\r
	{0xee,  MathOperationDirect},	// V\r
	{0xf6,  MathOperationDirect},	// V\r
	{0xfe,  MathOperationDirect},	// V\r
\r
	{0x18,  JrHandler},	// V\r
	{0x20,  JrHandler},	// V\r
	{0x28,  JrHandler},	// V\r
	{0x30,  JrHandler},	// V\r
	{0x38,  JrHandler},\r
\r
	{0xc4, CallHandler},	// V\r
	{0xcc, CallHandler},	// V\r
	{0xcd, CallHandler},	// V\r
	{0xd4, CallHandler},	// V\r
	{0xdc, CallHandler},	// V\r
	{0xe4, CallHandler},	// V\r
	{0xec, CallHandler},	// V\r
	{0xf4, CallHandler},	// V\r
	{0xfc, CallHandler},	// V\r
\r
	{0xc9,  RetHandler},	// V\r
	{0xc0,  RetHandler},	// V\r
	{0xc8,  RetHandler},	// V\r
	{0xd0,  RetHandler},	// V\r
	{0xd8,  RetHandler},	// V\r
	{0xe0,  RetHandler},	// V\r
	{0xe8,  RetHandler},	// V\r
	{0xf0,  RetHandler},	// V\r
	{0xf8,  RetHandler},	// V\r
\r
	{0xc7,  RestartHandler}, // V\r
	{0xcf,  RestartHandler}, // V\r
	{0xd7,  RestartHandler}, // V\r
	{0xdf,  RestartHandler}, // V\r
	{0xe7,  RestartHandler}, // V\r
	{0xef,  RestartHandler}, // V\r
	{0xf7,  RestartHandler}, // V\r
	{0xff,  RestartHandler}, // V\r
\r
	{0x46,  ToRegFromHl},	// V\r
	{0x4e,  ToRegFromHl},	// V\r
	{0x56,  ToRegFromHl},	// V\r
	{0x5e,  ToRegFromHl},	// V\r
	{0x66,  ToRegFromHl},	// V\r
	{0x6e,  ToRegFromHl},	// V\r
	{0x7e,  ToRegFromHl},\r
\r
	{0x09,  AddRegpairOperations},	// V\r
	{0x19,  AddRegpairOperations},	// V\r
	{0x29,  AddRegpairOperations},	// V\r
	{0x39,  AddRegpairOperations},	// V\r
\r
	{0xc5,  PushPopOperations},	// V\r
	{0xd5,  PushPopOperations},	// V\r
	{0xe5,  PushPopOperations},	// V\r
	{0xf5,  PushPopOperations},	// V\r
	{0xc1,  PushPopOperations},	// V\r
	{0xd1,  PushPopOperations},	// V\r
	{0xe1,  PushPopOperations},	// V\r
	{0xf1,  PushPopOperations},	// V\r
\r
	// Terminator\r
\r
	{0xffffffff, NULL}  \r
};\r
\r
struct sOp CBOps[] =\r
{\r
	{0x00,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x01,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x02,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x03,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x04,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x05,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x06,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x07,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x08,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x09,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0a,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0b,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0c,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0d,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0e,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x0f,  RLCRRCRLRRSLASRASRLHandler},\r
\r
	{0x10,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x11,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x12,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x13,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x14,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x15,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x16,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x17,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x18,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x19,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1a,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1b,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1c,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1d,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1e,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x1f,  RLCRRCRLRRSLASRASRLHandler},\r
\r
	{0x20,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x21,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x22,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x23,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x24,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x25,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x26,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x27,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x28,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x29,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2a,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2b,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2c,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2d,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2e,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x2f,  RLCRRCRLRRSLASRASRLHandler},\r
\r
	{0x30,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x31,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x32,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x33,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x34,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x35,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x36,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x37,  RLCRRCRLRRSLASRASRLHandler},\r
\r
	{0x38,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x39,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3a,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3b,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3c,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3d,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3e,  RLCRRCRLRRSLASRASRLHandler},\r
	{0x3f,  RLCRRCRLRRSLASRASRLHandler},\r
\r
	{0x40,  BITHandler},\r
	{0x41,  BITHandler},\r
	{0x42,  BITHandler},\r
	{0x43,  BITHandler},\r
	{0x44,  BITHandler},\r
	{0x45,  BITHandler},\r
	{0x46,  BITHandler},\r
	{0x47,  BITHandler},\r
	{0x48,  BITHandler},\r
	{0x49,  BITHandler},\r
	{0x4a,  BITHandler},\r
	{0x4b,  BITHandler},\r
	{0x4c,  BITHandler},\r
	{0x4d,  BITHandler},\r
	{0x4e,  BITHandler},\r
	{0x4f,  BITHandler},\r
\r
	{0x50,  BITHandler},\r
	{0x51,  BITHandler},\r
	{0x52,  BITHandler},\r
	{0x53,  BITHandler},\r
	{0x54,  BITHandler},\r
	{0x55,  BITHandler},\r
	{0x56,  BITHandler},\r
	{0x57,  BITHandler},\r
	{0x58,  BITHandler},\r
	{0x59,  BITHandler},\r
	{0x5a,  BITHandler},\r
	{0x5b,  BITHandler},\r
	{0x5c,  BITHandler},\r
	{0x5d,  BITHandler},\r
	{0x5e,  BITHandler},\r
	{0x5f,  BITHandler},\r
\r
	{0x60,  BITHandler},\r
	{0x61,  BITHandler},\r
	{0x62,  BITHandler},\r
	{0x63,  BITHandler},\r
	{0x64,  BITHandler},\r
	{0x65,  BITHandler},\r
	{0x66,  BITHandler},\r
	{0x67,  BITHandler},\r
	{0x68,  BITHandler},\r
	{0x69,  BITHandler},\r
	{0x6a,  BITHandler},\r
	{0x6b,  BITHandler},\r
	{0x6c,  BITHandler},\r
	{0x6d,  BITHandler},\r
	{0x6e,  BITHandler},\r
	{0x6f,  BITHandler},\r
\r
	{0x70,  BITHandler},\r
	{0x71,  BITHandler},\r
	{0x72,  BITHandler},\r
	{0x73,  BITHandler},\r
	{0x74,  BITHandler},\r
	{0x75,  BITHandler},\r
	{0x76,  BITHandler},\r
	{0x77,  BITHandler},\r
	{0x78,  BITHandler},\r
	{0x79,  BITHandler},\r
	{0x7a,  BITHandler},\r
	{0x7b,  BITHandler},\r
	{0x7c,  BITHandler},\r
	{0x7d,  BITHandler},\r
	{0x7e,  BITHandler},\r
	{0x7f,  BITHandler},\r
\r
	// RES\r
\r
	{0x80,  RESSETHandler},\r
	{0x81,  RESSETHandler},\r
	{0x82,  RESSETHandler},\r
	{0x83,  RESSETHandler},\r
	{0x84,  RESSETHandler},\r
	{0x85,  RESSETHandler},\r
	{0x86,  RESSETHandler},\r
	{0x87,  RESSETHandler},\r
	{0x88,  RESSETHandler},\r
	{0x89,  RESSETHandler},\r
	{0x8a,  RESSETHandler},\r
	{0x8b,  RESSETHandler},\r
	{0x8c,  RESSETHandler},\r
	{0x8d,  RESSETHandler},\r
	{0x8e,  RESSETHandler},\r
	{0x8f,  RESSETHandler},\r
\r
	{0x90,  RESSETHandler},\r
	{0x91,  RESSETHandler},\r
	{0x92,  RESSETHandler},\r
	{0x93,  RESSETHandler},\r
	{0x94,  RESSETHandler},\r
	{0x95,  RESSETHandler},\r
	{0x96,  RESSETHandler},\r
	{0x97,  RESSETHandler},\r
	{0x98,  RESSETHandler},\r
	{0x99,  RESSETHandler},\r
	{0x9a,  RESSETHandler},\r
	{0x9b,  RESSETHandler},\r
	{0x9c,  RESSETHandler},\r
	{0x9d,  RESSETHandler},\r
	{0x9e,  RESSETHandler},\r
	{0x9f,  RESSETHandler},\r
\r
	{0xa0,  RESSETHandler},\r
	{0xa1,  RESSETHandler},\r
	{0xa2,  RESSETHandler},\r
	{0xa3,  RESSETHandler},\r
	{0xa4,  RESSETHandler},\r
	{0xa5,  RESSETHandler},\r
	{0xa6,  RESSETHandler},\r
	{0xa7,  RESSETHandler},\r
	{0xa8,  RESSETHandler},\r
	{0xa9,  RESSETHandler},\r
	{0xaa,  RESSETHandler},\r
	{0xab,  RESSETHandler},\r
	{0xac,  RESSETHandler},\r
	{0xad,  RESSETHandler},\r
	{0xae,  RESSETHandler},\r
	{0xaf,  RESSETHandler},\r
\r
	{0xb0,  RESSETHandler},\r
	{0xb1,  RESSETHandler},\r
	{0xb2,  RESSETHandler},\r
	{0xb3,  RESSETHandler},\r
	{0xb4,  RESSETHandler},\r
	{0xb5,  RESSETHandler},\r
	{0xb6,  RESSETHandler},\r
	{0xb7,  RESSETHandler},\r
	{0xb8,  RESSETHandler},\r
	{0xb9,  RESSETHandler},\r
	{0xba,  RESSETHandler},\r
	{0xbb,  RESSETHandler},\r
	{0xbc,  RESSETHandler},\r
	{0xbd,  RESSETHandler},\r
	{0xbe,  RESSETHandler},\r
	{0xbf,  RESSETHandler},\r
\r
	// SET\r
\r
	{0xc0,  RESSETHandler},\r
	{0xc1,  RESSETHandler},\r
	{0xc2,  RESSETHandler},\r
	{0xc3,  RESSETHandler},\r
	{0xc4,  RESSETHandler},\r
	{0xc5,  RESSETHandler},\r
	{0xc6,  RESSETHandler},\r
	{0xc7,  RESSETHandler},\r
	{0xc8,  RESSETHandler},\r
	{0xc9,  RESSETHandler},\r
	{0xca,  RESSETHandler},\r
	{0xcb,  RESSETHandler},\r
	{0xcc,  RESSETHandler},\r
	{0xcd,  RESSETHandler},\r
	{0xce,  RESSETHandler},\r
	{0xcf,  RESSETHandler},\r
\r
	{0xd0,  RESSETHandler},\r
	{0xd1,  RESSETHandler},\r
	{0xd2,  RESSETHandler},\r
	{0xd3,  RESSETHandler},\r
	{0xd4,  RESSETHandler},\r
	{0xd5,  RESSETHandler},\r
	{0xd6,  RESSETHandler},\r
	{0xd7,  RESSETHandler},\r
	{0xd8,  RESSETHandler},\r
	{0xd9,  RESSETHandler},\r
	{0xda,  RESSETHandler},\r
	{0xdb,  RESSETHandler},\r
	{0xdc,  RESSETHandler},\r
	{0xdd,  RESSETHandler},\r
	{0xde,  RESSETHandler},\r
	{0xdf,  RESSETHandler},\r
\r
	{0xe0,  RESSETHandler},\r
	{0xe1,  RESSETHandler},\r
	{0xe2,  RESSETHandler},\r
	{0xe3,  RESSETHandler},\r
	{0xe4,  RESSETHandler},\r
	{0xe5,  RESSETHandler},\r
	{0xe6,  RESSETHandler},\r
	{0xe7,  RESSETHandler},\r
	{0xe8,  RESSETHandler},\r
	{0xe9,  RESSETHandler},\r
	{0xea,  RESSETHandler},\r
	{0xeb,  RESSETHandler},\r
	{0xec,  RESSETHandler},\r
	{0xed,  RESSETHandler},\r
	{0xee,  RESSETHandler},\r
	{0xef,  RESSETHandler},\r
\r
	{0xf0,  RESSETHandler},\r
	{0xf1,  RESSETHandler},\r
	{0xf2,  RESSETHandler},\r
	{0xf3,  RESSETHandler},\r
	{0xf4,  RESSETHandler},\r
	{0xf5,  RESSETHandler},\r
	{0xf6,  RESSETHandler},\r
	{0xf7,  RESSETHandler},\r
	{0xf8,  RESSETHandler},\r
	{0xf9,  RESSETHandler},\r
	{0xfa,  RESSETHandler},\r
	{0xfb,  RESSETHandler},\r
	{0xfc,  RESSETHandler},\r
	{0xfd,  RESSETHandler},\r
	{0xfe,  RESSETHandler},\r
	{0xff,  RESSETHandler},\r
\r
	// Terminator\r
\r
	{0xffffffff, NULL}  \r
};\r
\r
struct sOp EDOps[] =\r
{\r
	{0x67,  RRDRLDHandler},\r
	{0x6f,  RRDRLDHandler},\r
	{0x42,  AdcSbcRegpair},\r
	{0x4a,  AdcSbcRegpair},\r
	{0x52,  AdcSbcRegpair},\r
	{0x5a,  AdcSbcRegpair},\r
	{0x62,  AdcSbcRegpair},\r
	{0x6a,  AdcSbcRegpair},\r
	{0x72,  AdcSbcRegpair},\r
	{0x7a,  AdcSbcRegpair},  \r
	{0x45,  RetIRetNHandler},\r
	{0x4d,  RetIRetNHandler},\r
	{0x44,	NegHandler},\r
	{0xa0,  LDILDRLDIRLDDRHandler},\r
	{0xa8,  LDILDRLDIRLDDRHandler},\r
	{0xb0,  LDILDRLDIRLDDRHandler},\r
	{0xb8,  LDILDRLDIRLDDRHandler},\r
	{0x57, IRHandler},\r
	{0x5F, IRHandler},\r
	{0x47, IRHandler},\r
	{0x4F, IRHandler},\r
	{0x46,  IMHandler},\r
	{0x56,  IMHandler},\r
	{0x5e,  IMHandler},\r
	{0x4b,	LdRegpair},\r
	{0x5b,	LdRegpair},\r
	{0x7b,	LdRegpair},\r
	{0x43,	ExtendedRegIntoMemory},\r
	{0x53,	ExtendedRegIntoMemory},\r
	{0x63,	ExtendedRegIntoMemory},\r
	{0x73,	ExtendedRegIntoMemory},\r
	{0x40, ExtendedInHandler},\r
	{0x48, ExtendedInHandler},\r
	{0x50, ExtendedInHandler},\r
	{0x58, ExtendedInHandler},\r
	{0x60, ExtendedInHandler},\r
	{0x68, ExtendedInHandler},\r
	{0x78, ExtendedInHandler},\r
	{0x41, ExtendedOutHandler},\r
	{0x49, ExtendedOutHandler},\r
	{0x51, ExtendedOutHandler},\r
	{0x59, ExtendedOutHandler},\r
	{0x61, ExtendedOutHandler},\r
	{0x69, ExtendedOutHandler},\r
	{0x79, ExtendedOutHandler}, \r
	{0xa1,	CPICPDCPIRCPDRHandler},\r
	{0xa9,	CPICPDCPIRCPDRHandler},\r
	{0xb1,	CPICPDCPIRCPDRHandler},\r
	{0xb9,	CPICPDCPIRCPDRHandler},\r
\r
	{0xbb,	OTIROTDROUTIOUTDHandler},			// OTDR\r
	{0xb3,	OTIROTDROUTIOUTDHandler},			// OTIR\r
	{0xab,	OTIROTDROUTIOUTDHandler},			// OUTD\r
	{0xa3,	OTIROTDROUTIOUTDHandler},			// OUTI\r
\r
	{0xb2,	INIRINDRINIINDHandler},				// INIR\r
	{0xba,	INIRINDRINIINDHandler},				// INDR\r
	{0xa2,	INIRINDRINIINDHandler},				// INI\r
	{0xaa,	INIRINDRINIINDHandler},				// IND\r
\r
	// Terminator\r
\r
	{0xffffffff, NULL}  \r
};\r
\r
struct sOp DDFDOps[] =\r
{\r
	{0x35,  IncDecIndexed},\r
	{0x34,  IncDecIndexed},\r
 	{0xcb,  DDFDCBHandler},\r
	{0x86,  MathOperationIndexed},\r
	{0x8e,  MathOperationIndexed},\r
	{0x96,  MathOperationIndexed},\r
	{0x9e,  MathOperationIndexed},\r
	{0xa6,  MathOperationIndexed},\r
	{0xae,  MathOperationIndexed},\r
	{0xb6,  MathOperationIndexed},\r
	{0xbe,  MathOperationIndexed},\r
\r
	{0xe1,  PushPopOperationsIndexed},\r
	{0xe5,  PushPopOperationsIndexed},\r
	{0x21,  LoadImmediate},\r
	{0xe9,  JPIXIYHandler},\r
	{0x09,  AddIndexHandler},\r
	{0x19,  AddIndexHandler},\r
	{0x29,  AddIndexHandler},\r
	{0x39,  AddIndexHandler},\r
	{0xf9,  SPToIndex},\r
	{0x36,  LdByteToIndex},\r
	{0x46,  LdRegIndexOffset},\r
	{0x4e,  LdRegIndexOffset},\r
	{0x56,  LdRegIndexOffset},\r
	{0x5e,  LdRegIndexOffset},\r
	{0x66,  LdRegIndexOffset},\r
	{0x6e,  LdRegIndexOffset},\r
	{0x7e,  LdRegIndexOffset}, \r
\r
	{0x70,  LdIndexPtrReg},\r
	{0x71,  LdIndexPtrReg},\r
	{0x72,  LdIndexPtrReg},\r
	{0x73,  LdIndexPtrReg},\r
	{0x74,  LdIndexPtrReg},\r
	{0x75,  LdIndexPtrReg},\r
	{0x77,  LdIndexPtrReg},\r
\r
	{0x23,  IncDecIndexReg},\r
	{0x2b,  IncDecIndexReg},\r
\r
	{0x22,  StoreIndexReg},\r
	{0x2a,  LoadIndexReg},\r
	{0xe3,  ExIndexed},\r
\r
	{0x44,	UndocRegToIndex},\r
	{0x45,	UndocRegToIndex},\r
	{0x4c,	UndocRegToIndex},\r
	{0x4d,	UndocRegToIndex},\r
	{0x54,	UndocRegToIndex},\r
	{0x55,	UndocRegToIndex},\r
	{0x5c,	UndocRegToIndex},\r
	{0x5d,	UndocRegToIndex},\r
	{0x7c,	UndocRegToIndex},\r
	{0x7d,	UndocRegToIndex},\r
\r
	{0x60,	UndocIndexToReg},\r
	{0x61,	UndocIndexToReg},\r
	{0x62,	UndocIndexToReg},\r
	{0x63,	UndocIndexToReg},\r
	{0x64,	UndocIndexToReg},\r
	{0x65,	UndocIndexToReg},\r
	{0x67,	UndocIndexToReg},\r
	{0x68,	UndocIndexToReg},\r
	{0x69,	UndocIndexToReg},\r
	{0x6a,	UndocIndexToReg},\r
	{0x6b,	UndocIndexToReg},\r
	{0x6c,	UndocIndexToReg},\r
	{0x6d,	UndocIndexToReg},\r
	{0x6f,	UndocIndexToReg},\r
\r
	{0x24,	UndocIncDecIndexReg},\r
	{0x25,	UndocIncDecIndexReg},\r
	{0x2c,	UndocIncDecIndexReg},\r
	{0x2d,	UndocIncDecIndexReg},\r
\r
	{0x26,	UndocLoadHalfIndexReg},\r
	{0x2e,	UndocLoadHalfIndexReg},\r
\r
	{0x84,	UndocMathIndex},\r
	{0x85,	UndocMathIndex},\r
	{0x8c,	UndocMathIndex},\r
	{0x8d,	UndocMathIndex},\r
\r
	{0x94,	UndocMathIndex},\r
	{0x95,	UndocMathIndex},\r
	{0x9c,	UndocMathIndex},\r
	{0x9d,	UndocMathIndex},\r
\r
	{0xa4,	UndocMathIndex},\r
	{0xa5,	UndocMathIndex},\r
	{0xac,	UndocMathIndex},\r
	{0xad,	UndocMathIndex},\r
\r
	{0xb4,	UndocMathIndex},\r
	{0xb5,	UndocMathIndex},\r
	{0xbc,	UndocMathIndex},\r
	{0xbd,	UndocMathIndex},\r
\r
	// Terminator\r
\r
	{0xffffffff, NULL}\r
};\r
\r
struct sOp DDFDCBOps[] =\r
{\r
	{0x06,  ddcbBitWise},\r
	{0x0e,  ddcbBitWise},\r
	{0x16,  ddcbBitWise},\r
	{0x1e,  ddcbBitWise},\r
	{0x26,  ddcbBitWise},\r
	{0x2e,  ddcbBitWise},\r
	{0x3e,  ddcbBitWise},\r
	{0x46,  ddcbBitWise},\r
	{0x4e,  ddcbBitWise},\r
	{0x56,  ddcbBitWise},\r
	{0x5e,  ddcbBitWise},\r
	{0x66,  ddcbBitWise},\r
	{0x6e,  ddcbBitWise},\r
	{0x76,  ddcbBitWise},\r
	{0x7e,  ddcbBitWise},\r
	{0x86,  ddcbBitWise},\r
	{0x8e,  ddcbBitWise},\r
	{0x96,  ddcbBitWise},\r
	{0x9e,  ddcbBitWise},\r
	{0xa6,  ddcbBitWise},\r
	{0xae,  ddcbBitWise},\r
	{0xb6,  ddcbBitWise},\r
	{0xbe,  ddcbBitWise},\r
	{0xc6,  ddcbBitWise},\r
	{0xce,  ddcbBitWise},\r
	{0xd6,  ddcbBitWise},\r
	{0xde,  ddcbBitWise},\r
	{0xe6,  ddcbBitWise},\r
	{0xee,  ddcbBitWise},\r
	{0xf6,  ddcbBitWise},\r
	{0xfe,  ddcbBitWise},\r
\r
	// Terminator\r
\r
	{0xffffffff, NULL}\r
};\r
\r
void InvalidInstructionC(UINT32 dwCount)\r
{\r
	fprintf(fp, "				InvalidInstruction(%ld);\n", dwCount);\r
}\r
\r
UINT32 Timing(UINT8 bWho, UINT32 dwOpcode)\r
{\r
	UINT32 dwTiming = 0;\r
\r
	assert(dwOpcode < 0x100);\r
\r
	if (TIMING_REGULAR == bWho)	// Regular?\r
		dwTiming = bTimingRegular[dwOpcode];\r
	else\r
	if (TIMING_CB == bWho)\r
		dwTiming = bTimingCB[dwOpcode];\r
	else\r
	if (TIMING_DDFD == bWho)\r
		dwTiming = bTimingDDFD[dwOpcode];\r
	else\r
	if (TIMING_ED == bWho)\r
		dwTiming = bTimingED[dwOpcode];\r
	else\r
	if (TIMING_XXCB == bWho)\r
 		dwTiming = bTimingXXCB[dwOpcode];\r
	else\r
	if (TIMING_EXCEPT == bWho)\r
		dwTiming = dwOpcode;\r
	else\r
		assert(0);\r
\r
	if (0 == dwTiming)\r
	{	\r
		fprintf(stderr, "Opcode: %.2x:%.2x - Not zero!\n", bWho, dwOpcode);\r
		fclose(fp);\r
		exit(1);\r
	}\r
\r
	return(dwTiming);\r
}\r
\r
void IndexedOffset(UINT8 *Localmz80Index)\r
{\r
	fprintf(fp, "		mov	dl, [esi]	; Fetch our offset\n");\r
	fprintf(fp, "		inc	esi		; Move past the offset\n");\r
	fprintf(fp, "		or	dl, dl		; Is this bad boy signed?\n");\r
	fprintf(fp, "		jns	notSigned%ld	; Nope!\n", dwGlobalLabel);\r
	fprintf(fp, "		dec	dh			; Make it FFable\n");\r
	fprintf(fp, "notSigned%ld:\n", dwGlobalLabel);\r
	fprintf(fp, "		add	dx, [_z80%s]	; Our offset!\n", Localmz80Index);\r
	++dwGlobalLabel;\r
}\r
\r
void CBHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; Handler for all CBxx instructions\n");\r
		fprintf(fp, ";\n");\r
		sprintf(string, "RegInst%.2x", dwOpcode);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "		mov	dl, [esi]\n");\r
		fprintf(fp, "		inc	esi\n");\r
		fprintf(fp, "		jmp	dword [z80PrefixCB+edx*4]\n\n");\r
		fprintf(fp, "\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				CBHandler();\n");\r
	}\r
	else\r
	{\r
		assert(0);	\r
	}\r
}\r
\r
void EDHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; Handler for all EDxx instructions\n");\r
		fprintf(fp, ";\n");\r
		sprintf(string, "RegInst%.2x", dwOpcode);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp,     "		mov	dl, [esi]\n");\r
		fprintf(fp, "		inc	esi\n");\r
		fprintf(fp,     "		jmp	dword [z80PrefixED+edx*4]\n\n");\r
		fprintf(fp, "\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				EDHandler();\n");\r
	}\r
	else\r
	{\r
		assert(0);	\r
	}\r
}\r
\r
void DDHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; Handler for all DDxx instructions\n");\r
		fprintf(fp, ";\n");\r
		sprintf(string, "RegInst%.2x", dwOpcode);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp,     "		mov	dl, [esi]\n");\r
		fprintf(fp, "		inc	esi\n");\r
		fprintf(fp,     "		jmp	dword [z80PrefixDD+edx*4]\n\n");\r
		fprintf(fp, "\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				DDHandler();\n");\r
	}\r
	else\r
	{\r
		assert(0);	\r
	}\r
}\r
\r
void FDHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; Handler for all FDxx instructions\n");\r
		fprintf(fp, ";\n");\r
		sprintf(string, "RegInst%.2x", dwOpcode);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp,     "		mov	dl, [esi]\n");\r
		fprintf(fp, "		inc	esi\n");\r
		fprintf(fp,     "		jmp	dword [z80PrefixFD+edx*4]\n\n");\r
		fprintf(fp, "\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				FDHandler();\n");\r
	}\r
	else\r
	{\r
		assert(0);	\r
	}\r
}\r
\r
StandardHeader()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp,"; For assembly by NASM only\n");\r
		fprintf(fp,"bits 32\n\n");\r
\r
		fprintf(fp,"; Theory of operation\n\n");\r
		fprintf(fp,"; EDI=General purpose\n");\r
		fprintf(fp,"; ESI=Program counter + base address\n");\r
		fprintf(fp,"; EBP=z80Base\n");\r
		fprintf(fp,"; AX=AF\n");\r
		fprintf(fp,"; BX=HL\n");\r
		fprintf(fp,"; CX=BC\n");\r
		fprintf(fp,"; DX=General purpose\n\n"); \r
\r
		if (bUseStack)\r
			fprintf(fp, "; Using stack calling conventions\n");\r
		else\r
			fprintf(fp, "; Using register calling conventions\n");\r
\r
		if (b16BitIo)\r
			fprintf(fp, "; Extended input/output instructions treat (BC) as I/O address\n");\r
		else\r
			fprintf(fp, "; Extended input/output instructions treat (C) as I/O address\n\n");\r
\r
		fprintf(fp, "IFF1		equ	01h\n");\r
		fprintf(fp, "IFF2		equ	02h\n");\r
\r
		fprintf(fp, "CPUREG_PC		equ	00h\n");\r
		fprintf(fp, "CPUREG_SP		equ	01h\n");\r
		fprintf(fp, "CPUREG_AF		equ	02h\n");\r
		fprintf(fp, "CPUREG_BC		equ	03h\n");\r
		fprintf(fp, "CPUREG_DE		equ	04h\n");\r
		fprintf(fp, "CPUREG_HL		equ	05h\n");\r
		fprintf(fp, "CPUREG_AFPRIME		equ	06h\n");\r
		fprintf(fp, "CPUREG_BCPRIME		equ	07h\n");\r
		fprintf(fp, "CPUREG_DEPRIME		equ	08h\n");\r
		fprintf(fp, "CPUREG_HLPRIME		equ	09h\n");\r
		fprintf(fp, "CPUREG_IX		equ	0ah\n");\r
		fprintf(fp, "CPUREG_IY		equ	0bh\n");\r
		fprintf(fp, "CPUREG_I		equ	0ch\n");\r
		fprintf(fp, "CPUREG_A		equ	0dh\n");\r
		fprintf(fp, "CPUREG_F		equ	0eh\n");\r
		fprintf(fp, "CPUREG_B		equ	0fh\n");\r
		fprintf(fp, "CPUREG_C		equ	10h\n");\r
		fprintf(fp, "CPUREG_D		equ	11h\n");\r
		fprintf(fp, "CPUREG_E		equ	12h\n");\r
		fprintf(fp, "CPUREG_H		equ	13h\n");\r
		fprintf(fp, "CPUREG_L		equ	14h\n");\r
		fprintf(fp, "CPUREG_IFF1		equ	15h\n");\r
		fprintf(fp, "CPUREG_IFF2		equ	16h\n");\r
		fprintf(fp, "CPUREG_CARRY		equ	17h\n");\r
		fprintf(fp, "CPUREG_NEGATIVE		equ	18h\n");\r
		fprintf(fp, "CPUREG_PARITY		equ	19h\n");\r
		fprintf(fp, "CPUREG_OVERFLOW		equ	1ah\n");\r
		fprintf(fp, "CPUREG_HALFCARRY		equ	1bh\n");\r
		fprintf(fp, "CPUREG_ZERO		equ	1ch\n");\r
		fprintf(fp, "CPUREG_SIGN		equ	1dh\n");\r
		fprintf(fp, "CPUREG_MAXINDEX		equ	1eh\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Multi-Z80 32 Bit emulator */\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "/* Copyright 1996-2000 Neil Bradley, All rights reserved\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * License agreement:\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * (MZ80 Refers to both the assembly code emitted by makeZ80.c and makeZ80.c\n");\r
		fprintf(fp, " * itself)\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * MZ80 May be distributed in unmodified form to any medium.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * MZ80 May not be sold, or sold as a part of a commercial package without\n");\r
		fprintf(fp, " * the express written permission of Neil Bradley (neil@synthcom.com). This\n");\r
		fprintf(fp, " * includes shareware.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * Modified versions of MZ80 may not be publicly redistributed without author\n");\r
		fprintf(fp, " * approval (neil@synthcom.com). This includes distributing via a publicly\n");\r
		fprintf(fp, " * accessible LAN. You may make your own source modifications and distribute\n");\r
		fprintf(fp, " * MZ80 in source or object form, but if you make modifications to MZ80\n");\r
		fprintf(fp, " * then it should be noted in the top as a comment in makeZ80.c.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * MZ80 Licensing for commercial applications is available. Please email\n");\r
		fprintf(fp, " * neil@synthcom.com for details.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * Synthcom Systems, Inc, and Neil Bradley will not be held responsible for\n");\r
		fprintf(fp, " * any damage done by the use of MZ80. It is purely \"as-is\".\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * If you use MZ80 in a freeware application, credit in the following text:\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * \"Multi-Z80 CPU emulator by Neil Bradley (neil@synthcom.com)\"\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * must accompany the freeware application within the application itself or\n");\r
		fprintf(fp, " * in the documentation.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * Legal stuff aside:\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * If you find problems with MZ80, please email the author so they can get\n");\r
		fprintf(fp, " * resolved. If you find a bug and fix it, please also email the author so\n");\r
		fprintf(fp, " * that those bug fixes can be propogated to the installed base of MZ80\n");\r
		fprintf(fp, " * users. If you find performance improvements or problems with MZ80, please\n");\r
		fprintf(fp, " * email the author with your changes/suggestions and they will be rolled in\n");\r
		fprintf(fp, " * with subsequent releases of MZ80.\n");\r
		fprintf(fp, " *\n");\r
		fprintf(fp, " * The whole idea of this emulator is to have the fastest available 32 bit\n");\r
		fprintf(fp, " * Multi-Z80 emulator for the PC, giving maximum performance. \n");\r
		fprintf(fp, " */\n\n");\r
		fprintf(fp, "#include <stdio.h>\n");\r
		fprintf(fp, "#include <stdlib.h>\n");\r
		fprintf(fp, "#include <string.h>\n");\r
		fprintf(fp, "#include \"mz80.h\"\n");\r
\r
		// HACK HACK\r
\r
		fprintf(fp, "UINT32 z80intAddr;\n");\r
		fprintf(fp, "UINT32 z80pc;\n");\r
	}			  \r
	else\r
	{\r
		// Whoops. Unknown emission type.\r
\r
		assert(0);\r
	}\r
\r
	fprintf(fp, "\n\n");\r
}\r
\r
Alignment()\r
{\r
	fprintf(fp, "\ntimes ($$-$) & 3 nop	; pad with NOPs to 4-byte boundary\n\n");\r
}\r
\r
void ProcBegin(UINT32 dwOpcode)\r
{\r
	Alignment();\r
	fprintf(fp, "%s:\n", procname);\r
}\r
\r
void SetSubFlagsSZHVC(UINT8 *pszLeft, UINT8 *pszRight)\r
{\r
	fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | \n");\r
	fprintf(fp, "							   Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN)) |\n");\r
	fprintf(fp, "								pbSubSbcTable[((UINT32) %s << 8) | %s];\n", pszLeft, pszRight);\r
}\r
\r
void SetSbcFlagsSZHVC(UINT8 *pszLeft, UINT8 *pszRight)\r
{\r
	fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | \n");\r
	fprintf(fp, "							   Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN)) |\n");\r
	fprintf(fp, "								pbSubSbcTable[((UINT32) %s << 8) | %s | (((UINT32) cpu.z80F & Z80_FLAG_CARRY) << 16)];\n", pszLeft, pszRight);\r
}\r
\r
void SetAddFlagsSZHVC(UINT8 *pszLeft, UINT8 *pszRight)\r
{\r
	fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | \n");\r
	fprintf(fp, "							   Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN)) |\n");\r
	fprintf(fp, "								pbAddAdcTable[((UINT32) %s << 8) | %s];\n", pszLeft, pszRight);\r
}\r
\r
void SetAdcFlagsSZHVC(UINT8 *pszLeft, UINT8 *pszRight)\r
{\r
	fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | \n");\r
	fprintf(fp, "							   Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN)) |\n");\r
	fprintf(fp, "								pbAddAdcTable[((UINT32) %s << 8) | %s | (((UINT32) cpu.z80F & Z80_FLAG_CARRY) << 16)];\n", pszLeft, pszRight);\r
}\r
\r
UINT32 dwOverflowCount = 0;\r
\r
SetOverflow()\r
{\r
	fprintf(fp, "		seto	dl\n");\r
	fprintf(fp, "		and	ah, 0fbh	; Knock out parity/overflow\n");\r
	fprintf(fp, "		shl	dl, 2\n");\r
	fprintf(fp, "		or		ah, dl\n");\r
}\r
	\r
void FetchNextInstruction(UINT32 dwOpcode)\r
{\r
	if (0xffffffff != dwOpcode)\r
	{\r
		fprintf(fp, "		sub	edi, byte %ld\n", Timing(bCurrentMode, dwOpcode));\r
		\r
		if (bCurrentMode == TIMING_REGULAR)\r
			fprintf(fp, "		js	near noMoreExec\n");\r
		else\r
			fprintf(fp, "		js	near noMoreExec\n");\r
	}\r
\r
	fprintf(fp, "		mov	dl, byte [esi]	; Get our next instruction\n");\r
	fprintf(fp, "		inc	esi		; Increment PC\n");\r
	fprintf(fp, "		jmp	dword [z80regular+edx*4]\n\n");\r
}\r
\r
void WriteValueToMemory(UINT8 *pszAddress, UINT8 *pszValue)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	[_z80af], ax	; Store AF\n");\r
\r
		// First off, load our byte to write into al after we've saved AF\r
\r
		if (strcmp(pszValue, "al") != 0)\r
			fprintf(fp, "		mov	al, %s	; And our data to write\n", pszValue);\r
		if (strcmp(pszValue, "[esi]") == 0)	// Immediate value?\r
			fprintf(fp, "		inc	esi	; Increment our program counter\n");\r
\r
		// Now get the address in DX - regardless of what it is\r
\r
		if (strcmp(pszAddress, "[_z80de]") == 0 ||\r
			 strcmp(pszAddress, "[_orgval]") == 0 ||\r
			 strcmp(pszAddress, "[_z80ix]") == 0 ||\r
			 strcmp(pszAddress, "[_z80iy]") == 0)\r
			fprintf(fp, "		mov	dx, %s\n", pszAddress);\r
\r
		fprintf(fp, "		mov	edi, [_z80MemWrite]	; Point to the write array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	memoryWrite%ld	; Yes - go write it!\n", dwGlobalLabel);\r
\r
		if (strcmp(pszAddress, "[_z80de]") == 0 ||\r
			 strcmp(pszAddress, "[_orgval]") == 0 ||\r
			 strcmp(pszAddress, "[_z80ix]") == 0 ||\r
			 strcmp(pszAddress, "[_z80iy]") == 0)\r
			fprintf(fp, "		cmp	dx, [edi]	; Are we smaller?\n", pszAddress);\r
		else\r
			fprintf(fp, "		cmp	%s, [edi]	; Are we smaller?\n", pszAddress);\r
\r
		fprintf(fp, "		jb	nextAddr%ld	; Yes... go to the next addr\n", dwGlobalLabel);\r
\r
		if (strcmp(pszAddress, "[_z80de]") == 0 ||\r
			 strcmp(pszAddress, "[_orgval]") == 0 ||\r
			 strcmp(pszAddress, "[_z80ix]") == 0 ||\r
			 strcmp(pszAddress, "[_z80iy]") == 0)\r
			fprintf(fp, "		cmp	dx, [edi+4]	; Are we smaller?\n", pszAddress);\r
		else\r
			fprintf(fp, "		cmp	%s, [edi+4]	; Are we smaller?\n", pszAddress);\r
	\r
		fprintf(fp, "		jbe	callRoutine%ld	; If not, go call it!\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 10h		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
	\r
		// Save off our registers!\r
	\r
		if ((strcmp(pszAddress, "dx") != 0) && (strcmp(pszAddress, "[_z80de]") != 0) &&\r
			 (strcmp(pszAddress, "[_z80ix]") != 0) &&\r
			 (strcmp(pszAddress, "[_orgval]") != 0) &&\r
			 (strcmp(pszAddress, "[_z80iy]") != 0))\r
			fprintf(fp, "		mov	dx, %s	; Get our address to target\n", pszAddress);\r
	\r
		fprintf(fp, "		call	WriteMemoryByte	; Go write the data!\n");\r
		fprintf(fp, "		jmp	short WriteMacroExit%ld\n", dwGlobalLabel);\r
	\r
		fprintf(fp, "memoryWrite%ld:\n", dwGlobalLabel);\r
	\r
		if (strcmp(pszValue, "[esi]") == 0)\r
			fprintf(fp, "		mov	[ebp + e%s], al	; Store our direct value\n", pszAddress);\r
		else\r
		{\r
			if (pszValue[0] == 'b' && pszValue[1] == 'y' && pszValue[2] == 't')\r
			{\r
				fprintf(fp, "		mov	edi, edx\n");\r
				assert(strcmp(pszValue, "dl") != 0);\r
	\r
				fprintf(fp, "		mov	dl, %s\n", pszValue);\r
	\r
				if (strcmp(pszAddress, "dx") == 0)\r
					fprintf(fp, "		mov	[ebp + edi], dl\n");\r
				else\r
					fprintf(fp, "		mov	[ebp + e%s], dl\n", pszAddress);\r
	\r
				fprintf(fp, "		mov	edx, edi\n");\r
			}\r
			else\r
			{\r
				if (strcmp(pszAddress, "[_z80de]") != 0 &&\r
					 strcmp(pszAddress, "[_orgval]") != 0 &&\r
					 strcmp(pszAddress, "[_z80ix]") != 0 &&\r
					 strcmp(pszAddress, "[_z80iy]") != 0)\r
					fprintf(fp, "		mov	[ebp + e%s], %s\n", pszAddress, pszValue);\r
				else\r
					fprintf(fp, "		mov	[ebp + edx], al\n");\r
			}\r
		}\r
\r
		fprintf(fp, "		mov	ax, [_z80af] ; Get our accumulator and flags\n");\r
	\r
		fprintf(fp, "WriteMacroExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
\r
		++dwGlobalLabel;\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psMemWrite = cpu.z80MemWrite;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psMemWrite->lowAddr != 0xffffffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psMemWrite->lowAddr) && (%s <= psMemWrite->highAddr))\n", pszAddress, pszAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "						if (psMemWrite->memoryCall)\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							psMemWrite->memoryCall(%s, %s, psMemWrite);\n", pszAddress, pszValue);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						else\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							*((UINT8 *) psMemWrite->pUserArea + (%s - psMemWrite->lowAddr)) = %s;\n", pszAddress, pszValue);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						psMemWrite = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psMemWrite;\n");\r
		fprintf(fp, "				}\n\n");\r
		fprintf(fp, "				if (psMemWrite)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80Base[%s] = (UINT8) %s;\n", pszAddress, pszValue);\r
		fprintf(fp, "				}\n\n");\r
	}\r
}\r
\r
void WriteWordToMemory(UINT8 *pszAddress, UINT8 *pszTarget)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	edi, [_z80MemWrite]	; Point to the write array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of the list?\n");\r
		fprintf(fp, "		je		memoryWrite%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi]	; Are we smaller?\n", pszAddress);\r
		fprintf(fp, "		jb		nextAddr%ld		; Yes, go to the next address\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi+4]	; Are we bigger?\n", pszAddress);\r
		fprintf(fp, "		jbe	callRoutine%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 10h		; Next structure!\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
\r
		fprintf(fp, "		push	ax		; Save this for later\n");\r
\r
		// Write the LSB\r
\r
		fprintf(fp, "		push	dx\n");\r
\r
		if (strcmp(pszTarget, "ax") != 0)\r
		{\r
			fprintf(fp, "		mov	ax, %s\n", pszTarget);\r
		}\r
		else\r
		{\r
			fprintf(fp, "		xchg	ah, al\n");\r
		}\r
\r
		fprintf(fp, "		call	WriteMemoryByte\n");\r
		fprintf(fp, "		pop	dx\n");\r
		fprintf(fp, "		pop	ax\n");\r
		fprintf(fp, "		inc	dx\n\n");\r
\r
		fprintf(fp, "		push	ax\n");\r
		fprintf(fp, "		push	dx\n");\r
\r
		if (strcmp(pszTarget, "ax") != 0)\r
		{\r
			fprintf(fp, "		mov	ax, %s\n", pszTarget);\r
			fprintf(fp, "		xchg	ah, al\n");\r
		}\r
\r
		fprintf(fp, "		call	WriteMemoryByte\n");\r
		fprintf(fp, "		pop	dx\n");\r
		fprintf(fp, "		pop	ax	; Restore us!\n");\r
\r
		fprintf(fp, "		jmp	writeExit%ld\n\n", dwGlobalLabel);\r
\r
		fprintf(fp, "memoryWrite%ld:\n", dwGlobalLabel);\r
\r
		if (strlen(pszTarget) != 2)\r
		{\r
			fprintf(fp, "		mov	di, %s\n", pszTarget);\r
			fprintf(fp, "		mov	[ebp + e%s], di	; Store our word\n", pszAddress);\r
		}\r
		else\r
		{\r
			if (strcmp(pszTarget, "ax") != 0)\r
			{\r
				fprintf(fp, "		mov	[ebp + e%s], %s	; Store our word\n", pszAddress, pszTarget);\r
			}\r
			else\r
			{\r
				fprintf(fp, "		xchg	ah, al	; Swap for later\n");\r
				fprintf(fp, "		mov	[ebp + e%s], %s	; Store our word\n", pszAddress, pszTarget);\r
				fprintf(fp, "		xchg	ah, al	; Restore\n");\r
			}\r
		}\r
	\r
		fprintf(fp, "writeExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	\r
		dwGlobalLabel++;\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psMemWrite = cpu.z80MemWrite;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psMemWrite->lowAddr != 0xffffffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psMemWrite->lowAddr) && (%s <= psMemWrite->highAddr))\n", pszAddress, pszAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
\r
		fprintf(fp, "						if (psMemWrite->memoryCall)\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							psMemWrite->memoryCall(%s, (%s & 0xff), psMemWrite);\n", pszAddress, pszTarget);\r
		fprintf(fp, "							psMemWrite->memoryCall(%s + 1, (%s >> 8), psMemWrite);\n", pszAddress, pszTarget);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						else\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							*((UINT8 *) psMemWrite->pUserArea + (%s - psMemWrite->lowAddr)) = %s;\n", pszAddress, pszTarget);\r
		fprintf(fp, "							*((UINT8 *) psMemWrite->pUserArea + (%s - psMemWrite->lowAddr) + 1) = %s >> 8;\n", pszAddress, pszTarget);\r
		fprintf(fp, "						}\n");\r
\r
		fprintf(fp, "						psMemWrite = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psMemWrite;\n");\r
		fprintf(fp, "				}\n\n");\r
		fprintf(fp, "				if (psMemWrite)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80Base[%s] = (UINT8) %s;\n", pszAddress, pszTarget);\r
		fprintf(fp, "					cpu.z80Base[%s + 1] = (UINT8) ((UINT32) %s >> 8);\n", pszAddress, pszTarget);\r
		fprintf(fp, "				}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void WriteValueToIo(UINT8 *pszIoAddress, UINT8 *pszValue)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	[_z80af], ax	; Store AF\n");\r
\r
		if (strcmp(pszValue, "al") != 0)\r
			fprintf(fp, "		mov	al, %s	; And our data to write\n", pszValue);\r
		if (strcmp(pszValue, "[esi]") == 0)	// Immediate value?\r
			fprintf(fp, "		inc	esi	; Increment our program counter\n");\r
\r
		fprintf(fp, "		mov	edi, [_z80IoWrite]	; Point to the I/O write array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	WriteMacroExit%ld	; Yes - ignore it!\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi]	; Are we smaller?\n", pszIoAddress);\r
		fprintf(fp, "		jb	nextAddr%ld	; Yes... go to the next addr\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi+2]	; Are we bigger?\n", pszIoAddress);\r
		fprintf(fp, "		jbe	callRoutine%ld	; If not, go call it!\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 0ch		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
\r
		// Save off our registers!\r
\r
		if (strcmp(pszIoAddress, "dx") != 0)\r
			fprintf(fp, "		mov	dx, %s	; Get our address to target\n", pszIoAddress);\r
\r
		fprintf(fp, "		call	WriteIOByte	; Go write the data!\n");\r
	\r
		fprintf(fp, "WriteMacroExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psIoWrite = cpu.z80IoWrite;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psIoWrite->lowIoAddr != 0xffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psIoWrite->lowIoAddr) && (%s <= psIoWrite->highIoAddr))\n", pszIoAddress, pszIoAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "						psIoWrite->IOCall(%s, %s, psIoWrite);\n", pszIoAddress, pszValue);\r
		fprintf(fp, "						psIoWrite = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psIoWrite;\n");\r
		fprintf(fp, "				}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}	\r
	\r
	++dwGlobalLabel;\r
}\r
\r
void ReadValueFromMemory(UINT8 *pszAddress, UINT8 *pszTarget)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	edi, [_z80MemRead]	; Point to the read array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of the list?\n");\r
		fprintf(fp, "		je		memoryRead%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	e%s, [edi]	; Are we smaller?\n", pszAddress);\r
		fprintf(fp, "		jb		nextAddr%ld		; Yes, go to the next address\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	e%s, [edi+4]	; Are we bigger?\n", pszAddress);\r
		fprintf(fp, "		jbe	callRoutine%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 10h		; Next structure!\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
\r
		if (strcmp(pszAddress, "dx") != 0)\r
			fprintf(fp, "		mov	dx, %s	; Get our address\n", pszAddress);\r
	\r
		fprintf(fp, "		call	ReadMemoryByte	; Standard read routine\n");\r
	\r
		// Yes, these are intentionally reversed!\r
	\r
		if (strcmp(pszTarget, "al") == 0)\r
			fprintf(fp, "		mov	[_z80af], al	; Save our new accumulator\n");\r
		else\r
		if (strcmp(pszTarget, "ah") == 0)\r
			fprintf(fp, "		mov	[_z80af + 1], al	; Save our new flags\n");\r
		else\r
			fprintf(fp, "		mov	%s, al	; Put our returned value here\n", pszTarget);\r
	\r
		// And are properly restored HERE:\r
	\r
		fprintf(fp, "		mov	ax, [_z80af]	; Get our AF back\n");\r
	\r
		// Restore registers here...\r
	\r
		fprintf(fp, "		jmp	short readExit%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "memoryRead%ld:\n", dwGlobalLabel);\r
	\r
		if (pszTarget[0] == 'b' && pszTarget[1] == 'y' && pszTarget[2] == 't')\r
		{\r
			fprintf(fp, "		mov	di, dx\n");\r
			fprintf(fp, "		mov	dl, [ebp + e%s]\n", pszAddress);\r
			fprintf(fp, "		mov	%s, dl\n", pszTarget);\r
			fprintf(fp, "		mov	dx, di\n");\r
		}\r
		else\r
			fprintf(fp, "		mov	%s, [ebp + e%s]	; Get our data\n\n", pszTarget, pszAddress);\r
	\r
		fprintf(fp, "readExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	\r
		dwGlobalLabel++;\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psMemRead = cpu.z80MemRead;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psMemRead->lowAddr != 0xffffffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psMemRead->lowAddr) && (%s <= psMemRead->highAddr))\n", pszAddress, pszAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "						if (psMemRead->memoryCall)\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							%s = psMemRead->memoryCall(%s, psMemRead);\n", pszTarget, pszAddress);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						else\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							%s = *((UINT8 *) psMemRead->pUserArea + (%s - psMemRead->lowAddr));\n", pszTarget, pszAddress);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						psMemRead = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psMemRead;\n");\r
		fprintf(fp, "				}\n\n");\r
		fprintf(fp, "				if (psMemRead)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					%s = cpu.z80Base[%s];\n", pszTarget, pszAddress);\r
		fprintf(fp, "				}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
\r
void ReadWordFromMemory(UINT8 *pszAddress, UINT8 *pszTarget)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	edi, [_z80MemRead]	; Point to the read array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of the list?\n");\r
		fprintf(fp, "		je		memoryRead%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi]	; Are we smaller?\n", pszAddress);\r
		fprintf(fp, "		jb		nextAddr%ld		; Yes, go to the next address\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi+4]	; Are we bigger?\n", pszAddress);\r
		fprintf(fp, "		jbe	callRoutine%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 10h		; Next structure!\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
\r
		if (strcmp(pszAddress, "dx") != 0)\r
			fprintf(fp, "		mov	dx, %s	; Get our address\n", pszAddress);\r
\r
		if (strcmp(pszTarget, "ax") != 0)\r
			fprintf(fp, "		push	ax		; Save this for later\n");\r
\r
		fprintf(fp, "		push	dx		; Save address\n");\r
		fprintf(fp, "		call	ReadMemoryByte	; Standard read routine\n");\r
		fprintf(fp, "		pop	dx		; Restore our address\n");\r
\r
		fprintf(fp, "		inc	dx		; Next byte, please\n");\r
\r
		fprintf(fp, "		push	ax		; Save returned byte\n");\r
		fprintf(fp, "		call	ReadMemoryByte	; Standard read routine\n");\r
		fprintf(fp, "		xchg	ah, al	; Swap for endian's sake\n");\r
		fprintf(fp, "		pop	dx	; Restore LSB\n");\r
\r
		fprintf(fp, "		mov	dh, ah	; Our word is now in DX\n");\r
\r
		// DX Now has our data and our address is toast\r
	\r
		if (strcmp(pszTarget, "ax") != 0)\r
		{\r
			fprintf(fp, "		pop	ax		; Restore this\n");\r
	\r
			if (strcmp(pszTarget, "dx") != 0)\r
			{\r
				fprintf(fp, "		mov	%s, dx	; Store our word\n", pszTarget);\r
			}\r
		}\r
		else\r
			fprintf(fp, "		mov	ax, dx\n");\r
\r
		if (strcmp(pszTarget, "ax") == 0)\r
		{\r
			fprintf(fp, "		xchg	ah, al\n");\r
		}\r
	\r
		fprintf(fp, "		jmp	readExit%ld\n\n", dwGlobalLabel);\r
	\r
		fprintf(fp, "memoryRead%ld:\n", dwGlobalLabel);\r
	\r
		if (strlen(pszTarget) == 2)\r
		{\r
			fprintf(fp, "		mov	%s, [ebp + e%s]\n", pszTarget, pszAddress);\r
			if (strcmp(pszTarget, "ax") == 0)\r
			{\r
				fprintf(fp, "		xchg	ah, al\n");\r
			}\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	dx, [ebp + e%s]\n", pszAddress);\r
			fprintf(fp, "		mov	%s, dx\n", pszTarget);\r
		}\r
	\r
		fprintf(fp, "readExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psMemRead = cpu.z80MemRead;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psMemRead->lowAddr != 0xffffffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psMemRead->lowAddr) && (%s <= psMemRead->highAddr))\n", pszAddress, pszAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "						if (psMemRead->memoryCall)\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							%s = psMemRead->memoryCall(%s, psMemRead);\n", pszTarget, pszAddress);\r
		fprintf(fp, "							%s |= (UINT32) ((UINT32) psMemRead->memoryCall(%s + 1, psMemRead) << 8);\n", pszTarget, pszAddress);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						else\n");\r
		fprintf(fp, "						{\n");\r
		fprintf(fp, "							%s = *((UINT8 *) psMemRead->pUserArea + (%s - psMemRead->lowAddr));\n", pszTarget, pszAddress);\r
		fprintf(fp, "							%s |= (UINT32) ((UINT32) *((UINT8 *) psMemRead->pUserArea + (%s - psMemRead->lowAddr + 1)) << 8);\n", pszTarget, pszAddress);\r
		fprintf(fp, "						}\n");\r
		fprintf(fp, "						psMemRead = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psMemRead;\n");\r
		fprintf(fp, "				}\n\n");\r
		fprintf(fp, "				if (psMemRead)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					%s = cpu.z80Base[%s];\n", pszTarget, pszAddress);\r
		fprintf(fp, "					%s |= (UINT32) ((UINT32) cpu.z80Base[%s + 1] << 8);\n", pszTarget, pszAddress);\r
		fprintf(fp, "				}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
\r
	dwGlobalLabel++;\r
}\r
\r
\r
void ReadValueFromIo(UINT8 *pszIoAddress, UINT8 *pszTarget)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	edi, [_z80IoRead]	; Point to the read array\n\n", cpubasename);\r
		fprintf(fp, "checkLoop%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of the list?\n");\r
		fprintf(fp, "		je		ioRead%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi]	; Are we smaller?\n", pszIoAddress);\r
		fprintf(fp, "		jb		nextAddr%ld		; Yes, go to the next address\n", dwGlobalLabel);\r
		fprintf(fp, "		cmp	%s, [edi+2]	; Are we bigger?\n", pszIoAddress);\r
		fprintf(fp, "		jbe	callRoutine%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "nextAddr%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	edi, 0ch		; Next structure!\n");\r
		fprintf(fp, "		jmp	short checkLoop%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "callRoutine%ld:\n", dwGlobalLabel);\r
\r
		if (strcmp(pszIoAddress, "dx") != 0)\r
			fprintf(fp, "		mov	dx, %s	; Get our address\n", pszIoAddress);\r
\r
		fprintf(fp, "		call	ReadIOByte	; Standard read routine\n");\r
\r
		// Yes, these are intentionally reversed!\r
	\r
		if (strcmp(pszTarget, "al") == 0)\r
			fprintf(fp, "		mov	[_z80af], al	; Save our new accumulator\n");\r
		else\r
		if (strcmp(pszTarget, "ah") == 0)\r
			fprintf(fp, "		mov	[_z80af + 1], ah	; Save our new flags\n");\r
		else\r
		if (strcmp(pszTarget, "dl") == 0)\r
			fprintf(fp, "		mov	[_z80de], al	; Put it in E\n");\r
		else\r
		if (strcmp(pszTarget, "dh") == 0)\r
			fprintf(fp, "		mov	[_z80de + 1], al ; Put it in D\n");\r
		else\r
		if (strcmp(pszTarget, "*dl") == 0)\r
			fprintf(fp, "		mov	dl, al	; Put it in DL for later consumption\n");\r
		else\r
			fprintf(fp, "		mov	%s, al	; Put our returned value here\n", pszTarget);\r
\r
		// And are properly restored HERE:\r
\r
		fprintf(fp, "		mov	ax, [_z80af]	; Get our AF back\n");\r
\r
		// Restore registers here...\r
\r
		fprintf(fp, "		jmp	short readExit%ld\n\n", dwGlobalLabel);\r
		fprintf(fp, "ioRead%ld:\n", dwGlobalLabel);\r
	\r
		if (strcmp(pszTarget, "*dl") == 0)\r
			fprintf(fp, "		mov	dl, 0ffh	; An unreferenced read\n");\r
		else\r
			fprintf(fp, "		mov	%s, 0ffh	; An unreferenced read\n", pszTarget);\r
		fprintf(fp, "readExit%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				psIoRead = cpu.z80IoRead;	/* Beginning of our handler */\n");\r
		fprintf(fp, "				while (psIoRead->lowIoAddr != 0xffff)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					if ((%s >= psIoRead->lowIoAddr) && (%s <= psIoRead->highIoAddr))\n", pszIoAddress, pszIoAddress);\r
		fprintf(fp, "					{\n");\r
		fprintf(fp, "						cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "						%s = psIoRead->IOCall(%s, psIoRead);\n", pszTarget, pszIoAddress);\r
		fprintf(fp, "						psIoRead = NULL;\n");\r
		fprintf(fp, "						break;\n");\r
		fprintf(fp, "					}\n");\r
		fprintf(fp, "					++psIoRead;\n");\r
		fprintf(fp, "				}\n\n");\r
		fprintf(fp, "				if (psIoRead)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					%s = 0xff; /* Unclaimed I/O read */\n", pszTarget);\r
		fprintf(fp, "				}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
\r
	dwGlobalLabel++;\r
}\r
\r
// Basic instruction set area\r
\r
void MiscHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0xe3)\r
		{\r
			if (bThroughCallHandler)\r
			{\r
				fprintf(fp, "		call	PopWord\n");\r
				fprintf(fp, "		xchg	bx, [_wordval]\n");\r
				fprintf(fp, "		call	PushWord\n");\r
			}\r
			else\r
			{\r
				fprintf(fp, "		mov	dx, word [_z80sp]\n");\r
				fprintf(fp, "		xchg	bx, [ebp+edx]\n");\r
				fprintf(fp, "		xor	edx, edx\n");\r
			}\r
		}\r
\r
		if (dwOpcode == 0x2a)\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get address to load\n");\r
			fprintf(fp, "		add	esi, 2	; Skip over it so we don't execute it\n");\r
\r
			ReadWordFromMemory("dx", "bx");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		if (dwOpcode == 0xfb)\r
		{\r
			fprintf(fp, "		or		dword [_z80iff], IFF1	; Indicate interrupts are enabled now\n");\r
			fprintf(fp, "		sub	edi, 4	; Takes 4 cycles!\n");\r
			fprintf(fp, "		mov	[dwEITiming], edi	; Snapshot our current timing\n");\r
			fprintf(fp, "		mov	[bEIExit], byte 1	; Indicate we're exiting because of an EI\n");\r
			fprintf(fp, "		xor	edi, edi	; Force next instruction to exit\n");\r
			fprintf(fp, "		mov	dl, byte [esi]	; Get our next instruction\n");\r
			fprintf(fp, "		inc	esi	; Next PC\n");\r
			fprintf(fp, "		jmp	dword [z80regular+edx*4]\n\n");\r
		}\r
\r
		if (dwOpcode == 0xf9)\r
			fprintf(fp, "		mov	word [_z80sp], bx\n");\r
\r
		if (dwOpcode == 0xd9)\r
		{\r
			fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
			fprintf(fp, "		mov	di, [_z80de]\n");\r
			fprintf(fp, "		xchg	cx, [_z80bcprime]\n");\r
			fprintf(fp, "		xchg	di, [_z80deprime]\n");\r
			fprintf(fp, "		xchg	bx, [_z80hlprime]\n");\r
			fprintf(fp, "		mov	[_z80de], di\n");\r
			fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
		}\r
\r
		if (dwOpcode == 0x76)\r
		{\r
			fprintf(fp, "		mov	dword [_z80halted], 1	; We've halted the chip!\n");\r
	\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		xor	edi, edi\n");\r
				fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
			}\r
	\r
			fprintf(fp, "		jmp	noMoreExec\n");\r
			return;\r
		}\r
	\r
		if (dwOpcode == 0x3f)\r
		{\r
			fprintf(fp, "		mov	dl, ah\n");\r
			fprintf(fp, "		and	dl, 01h\n");\r
			fprintf(fp, "		shl	dl, 4\n");\r
			fprintf(fp, "		xor	ah, 01h\n");\r
			fprintf(fp, "		and	ah, 0edh\n");\r
			fprintf(fp, "		or	ah, dl\n");\r
		}\r
	\r
		if (dwOpcode == 0x37)\r
		{\r
			fprintf(fp, "		or	ah, 1\n");\r
			fprintf(fp, "		and	ah,0edh\n");\r
		}\r
	\r
		if (dwOpcode == 0x27)\r
		{\r
			fprintf(fp, "		mov	dh, ah\n");\r
			fprintf(fp, "		and	dh, 02ah\n");\r
			fprintf(fp, "		test	ah, 02h	; Were we doing a subtraction?\n");\r
			fprintf(fp, "		jnz	handleNeg ; Nope!\n");\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		daa\n");\r
			fprintf(fp, "		lahf\n");\r
			fprintf(fp, "		jmp	short endDaa\n");\r
			fprintf(fp, "handleNeg:\n");\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		das\n");\r
			fprintf(fp, "		lahf\n");\r
			fprintf(fp, "endDaa:\n");\r
			fprintf(fp, "		and	ah, 0d5h\n");\r
			fprintf(fp, "		or	ah, dh\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
	\r
		if (dwOpcode == 0x08)\r
		{\r
			fprintf(fp, "		xchg	ah, al\n");\r
			fprintf(fp, "		xchg	ax, [_z80afprime]\n");\r
			fprintf(fp, "		xchg	ah, al\n");\r
		}\r
	\r
		if (dwOpcode == 0x07)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		rol	al, 1\n");\r
			fprintf(fp, "		lahf\n");\r
			fprintf(fp, "		and	ah, 0edh\n");\r
		}\r
	\r
		if (dwOpcode == 0x0f)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		ror	al, 1\n");\r
			fprintf(fp, "		lahf\n");\r
			fprintf(fp, "		and	ah, 0edh\n");\r
		}\r
	\r
		if (dwOpcode == 0xe9)\r
		{\r
			fprintf(fp, "		mov	si, bx\n");\r
			fprintf(fp, "		and	esi, 0ffffh\n");\r
			fprintf(fp, "		add	esi, ebp\n");\r
		}\r
	\r
		if (dwOpcode == 0xeb)\r
			fprintf(fp, "		xchg	[_z80de], bx	; Exchange DE & HL\n");\r
	\r
		if (dwOpcode == 0x2f)\r
		{\r
			fprintf(fp, "		not	al\n");\r
			fprintf(fp, "		or	ah, 012h	; N And H are now on!\n");\r
		}\r
	\r
		if (dwOpcode == 0x10)	// DJNZ\r
		{\r
			fprintf(fp, "		mov	dl, [esi] ; Get our relative offset\n");\r
			fprintf(fp, "		inc	esi	; Next instruction, please!\n");\r
			fprintf(fp, "		dec	ch	; Decrement B\n");\r
			fprintf(fp, "		jz	noJump	; Don't take the jump if it's done!\n");\r
			fprintf(fp, "; Otherwise, take the jump\n");\r
	\r
			fprintf(fp, "		sub	edi, 5\n");\r
	\r
			fprintf(fp, "		xchg	eax, edx\n");\r
			fprintf(fp, "		cbw\n");\r
			fprintf(fp, "		xchg 	eax, edx\n");\r
			fprintf(fp, "		sub	esi, ebp\n");\r
			fprintf(fp, "		add	si, dx\n");\r
			fprintf(fp, "		add	esi, ebp\n");\r
			fprintf(fp, "noJump:\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
	\r
		if (dwOpcode == 0x3a)	// LD A,(xxxx)\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get our address\n");\r
			fprintf(fp, "		add	esi, 2		; Skip past the address\n");\r
			ReadValueFromMemory("dx", "al");\r
			fprintf(fp, "		xor	edx, edx	; Make sure we don't hose things\n");\r
		}\r
	\r
		if (dwOpcode == 0xf3)  	// DI\r
		{\r
			fprintf(fp, "		and	dword [_z80iff], (~IFF1)	; Not in an interrupt\n");\r
		}\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode == 0x76)		// HALT!\r
		{\r
			fprintf(fp, "				cpu.z80halted = 1;\n");\r
			fprintf(fp, "				dwElapsedTicks += sdwCyclesRemaining;\n");\r
\r
			fprintf(fp, "				sdwCyclesRemaining = 0;\n");\r
		}\r
		else\r
		if (dwOpcode == 0x2f)		// CPL\r
		{\r
			fprintf(fp, "				cpu.z80A ^= 0xff;\n");\r
			fprintf(fp, "				cpu.z80F |= (Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
		}\r
		else\r
		if (dwOpcode == 0xd9)		// EXX\r
		{\r
			fprintf(fp, "				dwTemp = cpu.z80DE;\n");\r
			fprintf(fp, "				cpu.z80DE = cpu.z80deprime;\n");\r
			fprintf(fp, "				cpu.z80deprime = dwTemp;\n");\r
\r
			fprintf(fp, "				dwTemp = cpu.z80BC;\n");\r
			fprintf(fp, "				cpu.z80BC = cpu.z80bcprime;\n");\r
			fprintf(fp, "				cpu.z80bcprime = dwTemp;\n");\r
\r
			fprintf(fp, "				dwTemp = cpu.z80HL;\n");\r
			fprintf(fp, "				cpu.z80HL = cpu.z80hlprime;\n");\r
			fprintf(fp, "				cpu.z80hlprime = dwTemp;\n");\r
		}\r
		else\r
		if (dwOpcode == 0xf9)		// LD SP, HL\r
		{\r
			fprintf(fp, "				cpu.z80sp = cpu.z80HL;\n");\r
		}\r
		else\r
		if (dwOpcode == 0x27)		// DAA\r
		{\r
			fprintf(fp, "				dwAddr = (((cpu.z80F & Z80_FLAG_CARRY) | \n");\r
			fprintf(fp, "						((cpu.z80F & Z80_FLAG_HALF_CARRY) >> 3) | \n");\r
			fprintf(fp, "						((cpu.z80F & Z80_FLAG_NEGATIVE) << 1)) << 8) | cpu.z80A;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= (wDAATable[dwAddr] >> 8);\n");\r
			fprintf(fp, "				cpu.z80A = wDAATable[dwAddr] & 0xff;\n");\r
		}\r
		else\r
		if (dwOpcode == 0x2a)\r
		{\r
			fprintf(fp, "				dwAddr = *pbPC++;\n");\r
			fprintf(fp, "				dwAddr |= ((UINT32) *pbPC++ << 8);\n");\r
			ReadWordFromMemory("dwAddr", "cpu.z80HL");\r
		}\r
		else\r
		if (dwOpcode == 0xe3)		// EX (SP), HL\r
		{\r
			ReadWordFromMemory("cpu.z80sp", "dwAddr");\r
			WriteWordToMemory("cpu.z80sp", "cpu.z80HL");\r
			fprintf(fp, "				cpu.z80HL = dwAddr;\n");\r
		}\r
		else\r
		if (dwOpcode == 0xe9)		// JP (HL)\r
		{\r
			fprintf(fp, "				pbPC = cpu.z80Base + cpu.z80HL;\n");\r
		}\r
		else\r
		if (0x08 == dwOpcode)		// EX AF, AF'\r
		{\r
			fprintf(fp, "				dwAddr = (UINT32) cpu.z80AF;\n");\r
			fprintf(fp, "				cpu.z80AF = cpu.z80afprime;\n");\r
			fprintf(fp, "				cpu.z80afprime = dwAddr;\n");\r
		}\r
		else\r
		if (0xeb == dwOpcode)		// EX DE, HL\r
		{\r
			fprintf(fp, "				dwAddr = cpu.z80DE;\n");\r
			fprintf(fp, "				cpu.z80DE = cpu.z80HL;\n");\r
			fprintf(fp, "				cpu.z80HL = dwAddr;\n");\r
		}\r
		else\r
		if (0x10 == dwOpcode)		// DJNZ\r
		{\r
			fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	/* Get LSB first */\n");\r
			fprintf(fp, "				if (--cpu.z80B)\n");\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					dwElapsedTicks += 5;	/* 5 More for jump taken */\n");\r
			fprintf(fp, "					cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
			fprintf(fp, "					sdwAddr = (sdwAddr + (INT32) cpu.z80pc) & 0xffff;\n");\r
			fprintf(fp, "					pbPC = cpu.z80Base + sdwAddr;	/* Normalize the address */\n");\r
			fprintf(fp, "				}\n");\r
		}\r
		else\r
		if (0x37 == dwOpcode)	// SCF\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_NEGATIVE);\n");\r
			fprintf(fp, "				cpu.z80F |= Z80_FLAG_CARRY;\n");\r
		}\r
		else\r
		if (0x3f == dwOpcode)	// CCF\r
		{\r
			fprintf(fp, "				bTemp = (cpu.z80F & Z80_FLAG_CARRY) << 4;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_NEGATIVE);\n");\r
			fprintf(fp, "				cpu.z80F ^= Z80_FLAG_CARRY;\n");\r
		}\r
		else\r
		if (0x07 == dwOpcode)	// RLCA\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (cpu.z80A >> 7);\n");\r
			fprintf(fp, "				cpu.z80A = (cpu.z80A << 1) | (cpu.z80A >> 7);\n");\r
		}\r
		else\r
		if (0x0f == dwOpcode)	// RRCA\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (cpu.z80A & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80A = (cpu.z80A >> 1) | (cpu.z80A << 7);\n");\r
		}\r
		else\r
		if (0x3a == dwOpcode)	// LD A, (xxxxh)\r
		{\r
			fprintf(fp, "				dwTemp = *pbPC++;\n");\r
			fprintf(fp, "				dwTemp |= (((UINT32) *pbPC++) << 8);\n");\r
			ReadValueFromMemory("dwTemp", "cpu.z80A");\r
		}\r
		else\r
		if (0xf3 == dwOpcode)	// DI\r
		{\r
			fprintf(fp, "				cpu.z80iff &= (~IFF1);\n");\r
		}\r
		else\r
		if (0xfb == dwOpcode)	// EI\r
		{\r
			fprintf(fp, "				cpu.z80iff |= IFF1;\n");\r
		}\r
		else\r
		if (0x00 == dwOpcode)	// NOP\r
		{\r
			fprintf(fp, "				/* Intentionally not doing anything - NOP! */\n");\r
		}\r
		else\r
		{\r
			InvalidInstructionC(1);\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
	\r
}\r
\r
void LdRegPairImmediate(UINT32 dwOpcode)\r
{\r
	UINT8 bOp = 0;\r
\r
	bOp = (dwOpcode >> 4) & 0x3;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (bOp == 0)\r
			fprintf(fp, "		mov	cx, [esi]	; Get our immediate value of BC\n");\r
		else\r
		if (bOp == 2)\r
			fprintf(fp, "		mov	bx, [esi]	; Get our immediate value of HL\n");\r
		else\r
		if (bOp == 1)\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get our immediate value of DE\n");\r
			fprintf(fp, "		mov	word [_z80de], dx ; Store DE\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
		else\r
		if (bOp == 3)\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get our immediate value of SP\n");\r
			fprintf(fp, "		mov	word [_z80sp], dx	; Store it!\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
	\r
		fprintf(fp, "		add	esi, 2\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				%s = *pbPC++;	/* LSB First */\n", pbRegPairC[bOp]);\r
		fprintf(fp, "				%s |= (((UINT32) *pbPC++ << 8));	/* Now the MSB */\n", pbRegPairC[bOp]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void LdRegpairPtrByte(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0x36)	// Immediate into (HL)\r
			WriteValueToMemory("bx", "[esi]");\r
\r
		if (dwOpcode == 0x12)\r
			WriteValueToMemory("[_z80de]", "al");	// (DE), A\r
\r
		if (dwOpcode == 0x2)		// (BC), A\r
			WriteValueToMemory("cx", "al");\r
\r
		if (dwOpcode >= 0x70 && dwOpcode < 0x78)\r
			WriteValueToMemory("bx", pbMathReg[dwOpcode & 0x07]);\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode == 0x36)\r
			WriteValueToMemory("cpu.z80HL", "*pbPC++");\r
\r
		if (dwOpcode == 0x12)\r
			WriteValueToMemory("cpu.z80DE", "cpu.z80A");\r
\r
		if (dwOpcode == 0x02)\r
			WriteValueToMemory("cpu.z80BC", "cpu.z80A");\r
\r
		if (dwOpcode >= 0x70 && dwOpcode < 0x78)\r
			WriteValueToMemory("cpu.z80HL", pbMathRegC[dwOpcode & 0x07]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void MathOperation(UINT32 dwOrgOpcode)\r
{\r
	UINT8 bRegister;\r
	UINT32 dwOpcode;\r
	UINT8 tempstr[150];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOrgOpcode);\r
\r
		dwOpcode = dwOrgOpcode;\r
		bRegister = dwOpcode & 0x07;\r
		dwOpcode &= 0xf8;\r
\r
		if (dwOpcode == 0x80)\r
			strcpy(tempstr, "add");\r
		if (dwOpcode == 0x88)\r
			strcpy(tempstr, "adc");\r
		if (dwOpcode == 0x90)\r
			strcpy(tempstr, "sub");\r
		if (dwOpcode == 0x98)\r
			strcpy(tempstr, "sbb");\r
		if (dwOpcode == 0xa0)\r
			strcpy(tempstr, "and");\r
		if (dwOpcode == 0xa8)\r
			strcpy(tempstr, "xor");\r
		if (dwOpcode == 0xb0)\r
			strcpy(tempstr, "or");\r
		if (dwOpcode == 0xb8)\r
			strcpy(tempstr, "cmp");\r
	\r
		// Let's see if we have to deal with (HL) or #xxh\r
	\r
		if (bRegister == 0x6)\r
		{\r
			// We have to deal with (HL)\r
	\r
			ReadValueFromMemory("bx", "dl");\r
		}\r
	\r
		if (bRegister != 0x06 && bRegister < 0xff)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		%s	al, %s\n", tempstr, pbMathReg[bRegister]);\r
			fprintf(fp, "		lahf\n");\r
		}\r
		else	// If it's (HL)....\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		%s	al, dl\n", tempstr);\r
			fprintf(fp, "		lahf\n");\r
		}\r
	\r
		if (dwOpcode != 0xa8 && dwOpcode != 0xa0 && dwOpcode != 0xb0)\r
			SetOverflow();\r
	\r
		if (dwOpcode == 0xa8)\r
			fprintf(fp, "		and	ah, 0ech	; Only these flags matter!\n");\r
	\r
		if (dwOpcode == 0xa0)\r
		{\r
			fprintf(fp, "		and	ah, 0ech	; Only these flags matter!\n");\r
			fprintf(fp, "		or	ah, 010h	; Half carry gets set\n");\r
		}\r
	\r
		if (dwOpcode == 0xb0)\r
			fprintf(fp, "		and	ah, 0ech ; No H, N, or C\n");\r
	\r
		if (dwOpcode == 0xb8)\r
			fprintf(fp, "		or	ah, 02h	; Set N for compare!\n");\r
	\r
		if (dwOpcode == 0x80 || dwOpcode == 0x88)\r
			fprintf(fp, "		and	ah, 0fdh ; No N!\n");\r
	\r
		if (dwOpcode == 0x90 || dwOpcode == 0x98)\r
			fprintf(fp, "		or	ah, 02h	; N Gets set!\n");\r
\r
		if (bRegister == 0x6)\r
			fprintf(fp, "		xor	edx, edx	; Zero this...\n");\r
	\r
		FetchNextInstruction(dwOrgOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		dwOpcode = dwOrgOpcode;\r
		bRegister = dwOpcode & 0x07;\r
		dwOpcode &= 0xf8;\r
\r
		if (6 == bRegister)		// Deal with (HL)\r
		{\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
		}\r
\r
		if (dwOpcode == 0xa0)\r
		{\r
			fprintf(fp, "				cpu.z80A &= %s;\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		if (dwOpcode == 0xa8)\r
		{\r
			fprintf(fp, "				cpu.z80A ^= %s;\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		if (dwOpcode == 0xb0)\r
		{\r
			fprintf(fp, "				cpu.z80A |= %s;\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		if (dwOpcode == 0xb8)\r
		{\r
			// Don't do anything. We just do flags!\r
		}\r
		else\r
		if (dwOpcode == 0x88)		// ADC\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A + %s + (cpu.z80F & Z80_FLAG_CARRY);\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		if (dwOpcode == 0x90)		// SUB\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A - %s;\n", pbMathRegC[bRegister]);\r
		}										  \r
		else\r
		if (dwOpcode == 0x80)		// ADD\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A + %s;\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		if (dwOpcode == 0x98)		// SBC\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A - %s - (cpu.z80F & Z80_FLAG_CARRY);\n", pbMathRegC[bRegister]);\r
		}\r
		else\r
		{\r
			InvalidInstructionC(1);\r
		}\r
\r
		// Now do flag fixup\r
\r
		if (0xb0 == dwOpcode || 0xa8 == dwOpcode)\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
\r
		if (0xa0 == dwOpcode)\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostANDFlags[cpu.z80A];\n\n");\r
		}\r
\r
		if (0xb8 == dwOpcode || 0x90 == dwOpcode)\r
		{\r
			SetSubFlagsSZHVC("cpu.z80A", pbMathRegC[bRegister]);\r
\r
			if (0x90 == dwOpcode)\r
			{\r
				fprintf(fp, "				cpu.z80A = bTemp2;\n");\r
			}\r
		}\r
\r
		if (0x80 == dwOpcode)		// Add fixup\r
		{\r
			SetAddFlagsSZHVC("cpu.z80A", pbMathRegC[bRegister]);\r
			fprintf(fp, "				cpu.z80A = bTemp2;\n");\r
		}\r
\r
		if (0x88 == dwOpcode)		// Adc fixup\r
		{\r
			SetAdcFlagsSZHVC("cpu.z80A", pbMathRegC[bRegister]);\r
			fprintf(fp, "				cpu.z80A = bTemp2;\n");\r
		}\r
\r
		if (0x98 == dwOpcode)		// Sbc fixup\r
		{\r
			SetSbcFlagsSZHVC("cpu.z80A", pbMathRegC[bRegister]);\r
			fprintf(fp, "				cpu.z80A = bTemp2;\n");\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void RegIntoMemory(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	; Get our address to write to\n");\r
		fprintf(fp, "		add	esi, 2		; Next address, please...\n");\r
\r
		if (0x32 == dwOpcode)		// LD (xxxx), A\r
			WriteValueToMemory("dx", "al");\r
		if (0x22 == dwOpcode)		// LD (xxxx), HL\r
		{\r
			WriteWordToMemory("dx", "bx");\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx	; Zero our upper byte\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				dwTemp = *pbPC++;\n");\r
		fprintf(fp, "				dwTemp |= ((UINT32) *pbPC++ << 8);\n");\r
\r
		if (0x32 == dwOpcode)\r
			WriteValueToMemory("dwTemp", "cpu.z80A");\r
		if (0x22 == dwOpcode)\r
			WriteWordToMemory("dwTemp", "cpu.z80HL");\r
\r
		return;\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void JpHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (0xc3 == dwOpcode)	// If it's a straight jump...\r
		{\r
			fprintf(fp, "		mov	si, [esi]	; Get our new address\n");\r
			fprintf(fp, "		and	esi, 0ffffh	; Only the lower 16 bits\n");\r
			fprintf(fp, "		add	esi, ebp		; Our new address!\n");\r
		}\r
		else	// It's a conditional handler...\r
		{\r
			fprintf(fp, "		sahf		; Restore our flags\n");\r
			fprintf(fp, "		j%s	takeJump%ld	; We're going to take a jump\n", pbFlags[(dwOpcode >> 3) & 0x07], dwGlobalLabel);\r
			fprintf(fp, "		add	esi, 2		; Skip past the address\n");\r
			fprintf(fp, "		jmp	short nextInst%ld	 ; Go execute the next instruction\n", dwGlobalLabel);\r
			fprintf(fp, "takeJump%ld:\n", dwGlobalLabel);\r
	\r
			fprintf(fp, "		mov	si, [esi]	; Get our new offset\n");\r
			fprintf(fp, "		and	esi, 0ffffh	; Only the lower WORD is valid\n");\r
			fprintf(fp, "		add	esi, ebp		; Our new address!\n");\r
			fprintf(fp, "nextInst%ld:\n", dwGlobalLabel);\r
			++dwGlobalLabel;\r
		}\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "					dwAddr = *pbPC++;	/* Get LSB first */\n");\r
		fprintf(fp, "					dwAddr |= ((UINT32) *pbPC++ << 8); /* Get MSB last */\n");\r
\r
		if (0xc3 != dwOpcode)\r
		{\r
			fprintf(fp, "				if %s\n", pbFlagsC[(dwOpcode >> 3) & 0x07]);\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					pbPC = cpu.z80Base + dwAddr;	/* Normalize the address */\n");\r
			fprintf(fp, "				}\n");\r
		}\r
		else		// Regular jump here\r
		{\r
			fprintf(fp, "				pbPC = cpu.z80Base + dwAddr;	/* Normalize the address */\n");\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void LdRegImmediate(UINT32 dwOpcode)\r
{\r
	UINT8 bOp;\r
\r
	bOp = (dwOpcode >> 3) & 0x7;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
\r
		if (bOp != 2 && bOp != 3)\r
			fprintf(fp, "		mov	%s, [esi]	; Get our immediate value\n", pbMathReg[bOp]);\r
		else\r
		{\r
			fprintf(fp, "		mov	dl, [esi]	; Get our immediate value\n");\r
			fprintf(fp, "		mov	%s, dl	; Store our new value\n", pbMathReg[bOp]);\r
		}\r
	\r
		fprintf(fp, "		inc	esi\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				%s = *pbPC++;	/* Get immediate byte into register */\n", pbMathRegC[bOp]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void IncRegister(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
\r
	dwOpcode1 = (dwOpcode >> 3) & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		sahf\n");\r
		fprintf(fp,     "		inc	%s\n", pbMathReg[dwOpcode1]);\r
		fprintf(fp,     "		lahf\n");\r
		SetOverflow();\r
		fprintf(fp, "		and	ah, 0fdh	; Knock out N!\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		fprintf(fp ,"				cpu.z80F |= bPostIncFlags[%s++];\n", pbMathRegC[dwOpcode1]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void DecRegister(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
\r
	dwOpcode1 = (dwOpcode >> 3) & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		sahf\n");\r
		fprintf(fp,     "		dec	%s\n", pbMathReg[dwOpcode1]);\r
		fprintf(fp,     "		lahf\n");\r
		SetOverflow();\r
		fprintf(fp, "		or	ah, 02h	; Set negative!\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY);\n");\r
		fprintf(fp ,"				cpu.z80F |= bPostDecFlags[%s--];\n", pbMathRegC[dwOpcode1]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void IncDecRegpair(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((dwOpcode & 0x0f) == 3)	// Increment?\r
			fprintf(fp,     "		inc	%s\n", pbRegPairs[(dwOpcode >> 4) & 0x03]);\r
		else\r
			fprintf(fp,     "		dec	%s\n", pbRegPairs[(dwOpcode >> 4) & 0x03]);\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if ((dwOpcode & 0x0f) == 3)	// Increment\r
			fprintf(fp, "				%s++;\n", pbRegPairC[(dwOpcode >> 4) & 0x03]);\r
		else\r
			fprintf(fp, "				%s--;\n", pbRegPairC[(dwOpcode >> 4) & 0x03]);\r
		fprintf(fp, "				%s &= 0xffff;\n", pbRegPairC[(dwOpcode >> 4) & 0x03]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void LdRegReg(UINT32 dwOpcode)\r
{\r
	UINT8 bDestination;\r
	UINT8 bSource;\r
\r
	bDestination = (dwOpcode >> 3) & 0x07;\r
	bSource = (dwOpcode) & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
\r
		ProcBegin(dwOpcode);\r
	\r
		if (bSource != bDestination)\r
		{\r
			if (bSource == 2 && bDestination == 3)\r
			{\r
				fprintf(fp, "		mov	dl, byte [_z80de + 1]\n");\r
				fprintf(fp, "		mov	[_z80de], dl\n");\r
			}\r
			else\r
			if (bSource == 3 && bDestination == 2)\r
			{\r
				fprintf(fp, "		mov	dl, byte [_z80de]\n");\r
				fprintf(fp, "		mov	[_z80de + 1], dl\n");\r
			}\r
			else\r
				fprintf(fp, "		mov	%s, %s\n", pbMathReg[bDestination], pbMathReg[bSource]);\r
		}\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (bDestination != bSource)\r
		{\r
			fprintf(fp, "				%s = %s;\n",\r
					  pbMathRegC[bDestination],\r
					  pbMathRegC[bSource]);\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void MathOperationDirect(UINT32 dwOpcode)\r
{\r
	UINT8 tempstr[4];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		if (dwOpcode == 0xc6)\r
			strcpy(tempstr, "add");\r
		if (dwOpcode == 0xce)\r
			strcpy(tempstr, "adc");\r
		if (dwOpcode == 0xd6)\r
			strcpy(tempstr, "sub");\r
		if (dwOpcode == 0xde)\r
			strcpy(tempstr, "sbb");\r
		if (dwOpcode == 0xe6)\r
			strcpy(tempstr, "and");\r
		if (dwOpcode == 0xee)\r
			strcpy(tempstr, "xor");\r
		if (dwOpcode == 0xf6)\r
			strcpy(tempstr, "or");\r
		if (dwOpcode == 0xfe)\r
			strcpy(tempstr, "cmp");\r
	\r
		ProcBegin(dwOpcode);\r
	\r
		// Let's see if we have to deal with (HL) or #xxh\r
	\r
		fprintf(fp, "		sahf\n");\r
		fprintf(fp, "		%s	al, [esi]\n", tempstr);\r
		fprintf(fp, "		lahf\n");\r
	\r
		if (dwOpcode != 0xee && dwOpcode != 0xe6 && dwOpcode != 0xf6)\r
		{\r
			SetOverflow();\r
		}\r
	\r
		if (dwOpcode == 0xe6)\r
		{\r
			fprintf(fp, "		and	ah, 0ech ; Only parity, half carry, sign, zero\n");\r
			fprintf(fp, "		or	ah, 10h	; Half carry\n");\r
		}\r
	\r
		if (dwOpcode == 0xc6 || dwOpcode == 0xce)\r
			fprintf(fp, "		and	ah, 0fdh ; Knock out N!\n");\r
	\r
		if (dwOpcode == 0xd6 || dwOpcode == 0xde || dwOpcode == 0xfe)\r
			fprintf(fp, "		or	ah, 02h	; Set negative!\n");\r
\r
		if (dwOpcode == 0xf6 || dwOpcode == 0xee)\r
			fprintf(fp, "		and	ah, 0ech	; No H, N, or C\n");\r
	\r
		fprintf(fp, "		inc	esi\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0xfe == dwOpcode)	// Cp\r
		{\r
			SetSubFlagsSZHVC("cpu.z80A", "*pbPC++");\r
		}\r
		else\r
		if (0xe6 == dwOpcode)	// And\r
		{\r
			fprintf(fp, "				cpu.z80A &= *pbPC++;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostANDFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xf6 == dwOpcode) 	// Or\r
		{\r
			fprintf(fp, "				cpu.z80A |= *pbPC++;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xc6 == dwOpcode) 	// Add\r
		{\r
			fprintf(fp, "				bTemp = *pbPC++;\n");\r
			SetAddFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A += bTemp;\n");\r
		}\r
		else\r
		if (0xce == dwOpcode) 	// Adc\r
		{\r
			fprintf(fp, "				bTemp = *pbPC++ + (cpu.z80F & Z80_FLAG_CARRY);\n");\r
			SetAdcFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A += bTemp;\n");\r
		}\r
		else\r
		if (0xd6 == dwOpcode) 	// Sub\r
		{\r
			fprintf(fp, "				bTemp = *pbPC++;\n");\r
			SetSubFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A -= bTemp;\n");\r
		}\r
		else\r
		if (0xde == dwOpcode)	// Sbc\r
		{\r
			fprintf(fp, "				bTemp = *pbPC++ + (cpu.z80F & Z80_FLAG_CARRY);\n");\r
			SetSbcFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A = cpu.z80A - bTemp;\n");\r
		}\r
		else\r
		if (0xee == dwOpcode)	// Xor\r
		{\r
			fprintf(fp, "				cpu.z80A ^= *pbPC++;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
			InvalidInstructionC(1);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
// JR cc, addr\r
\r
void JrHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
	\r
		fprintf(fp, "		sub	esi, ebp\n");\r
		fprintf(fp, "		and	esi, 0ffffh\n");\r
		fprintf(fp, "		add	esi, ebp\n");\r
\r
		fprintf(fp, "		mov	dl, [esi] ; Get our relative offset\n");\r
		fprintf(fp, "		inc	esi	; Next instruction, please!\n");\r
\r
		if (dwOpcode != 0x18)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp,     "		j%s	takeJump%ld\n", pbFlags[(dwOpcode >> 3) & 0x3], dwGlobalLabel);\r
			fprintf(fp, "		jmp	short noJumpMan%ld\n", dwGlobalLabel);\r
			fprintf(fp, "takeJump%ld:\n", dwGlobalLabel);\r
\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		sub	edi, 5\n");\r
			}\r
		}\r
		else	// It's a JR\r
		{\r
			fprintf(fp, "		cmp	dl, 0feh	; Jump to self?\n");\r
			fprintf(fp, "		je		yesJrMan	; Yup! Bail out!\n");\r
		}\r
	\r
		fprintf(fp, "		xchg	eax, edx\n");\r
		fprintf(fp, "		cbw\n");\r
		fprintf(fp, "		xchg	eax, edx\n");\r
		fprintf(fp, "		sub	esi, ebp\n");\r
		fprintf(fp, "		add	si, dx\n");\r
		fprintf(fp, "		and	esi, 0ffffh	; Only the lower 16 bits\n");\r
		fprintf(fp, "		add	esi, ebp\n");\r
		fprintf(fp, "		xor	dh, dh\n");\r
		fprintf(fp, "noJumpMan%ld:\n", dwGlobalLabel++);\r
\r
		FetchNextInstruction(dwOpcode);\r
	\r
		if (0x18 == dwOpcode)\r
		{\r
			fprintf(fp,"yesJrMan:\n");\r
\r
			fprintf(fp, "		xor	edx, edx		; Zero me for later\n");\r
			fprintf(fp, "		mov	edi, edx\n");\r
			fprintf(fp, "		mov	[cyclesRemaining], edx\n");\r
			fprintf(fp, "		sub	esi, 2	; Back to the instruction again\n");\r
			fprintf(fp, "		jmp	noMoreExec\n\n");\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	/* Get LSB first */\n");\r
		fprintf(fp, "				cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "				sdwAddr = (sdwAddr + (INT32) cpu.z80pc) & 0xffff;\n");\r
\r
		if (0x18 != dwOpcode)\r
		{\r
			fprintf(fp, "				if %s\n", pbFlagsC[(dwOpcode >> 3) & 0x03]);\r
		}\r
\r
		fprintf(fp, "				{\n");\r
\r
		fprintf(fp, "				sdwCyclesRemaining -= 5;\n");\r
\r
		fprintf(fp, "					pbPC = cpu.z80Base + sdwAddr;	/* Normalize the address */\n");\r
		fprintf(fp, "				}\n");\r
		\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void CallHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode != 0xcd)\r
		{\r
			fprintf(fp, "		sahf		; Restore our flags\n");\r
			fprintf(fp, "		j%s	takeJump%ld	; We're going call in this case\n", pbFlags[(dwOpcode >> 3) & 0x07], dwGlobalLabel);\r
			fprintf(fp, "		add	esi, 2		; Skip past the address\n");\r
			fprintf(fp, "		jmp	short noCallTaken%ld	 ; Go execute the next instruction\n", dwGlobalLabel);\r
			fprintf(fp, "takeJump%ld:\n", dwGlobalLabel);\r
	\r
			fprintf(fp, "		sub	edi, 7\n");\r
		}\r
\r
\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get our call to address\n");\r
			fprintf(fp, "		mov	[_z80pc], dx ; Store our new program counter\n");\r
			fprintf(fp, "		add	esi, 2		; Skip to our new address to be pushed\n");\r
			fprintf(fp, "		sub	esi, ebp		; Value to push onto the \"stack\"\n");\r
			fprintf(fp, "		mov	[_wordval], si	; Store our return address on the stack\n");\r
			fprintf(fp, "		mov	si, dx		; Our new address\n");\r
			fprintf(fp, "		add	esi, ebp	; And our base address\n");\r
			fprintf(fp, "		call	PushWord	; Go push our orgval to the stack\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	dx, [esi]	; Get our call to address\n");\r
			fprintf(fp, "		mov	[_z80pc], dx ; Store our new program counter\n");\r
			fprintf(fp, "		add	esi, 2		; Skip to our new address to be pushed\n");\r
			fprintf(fp, "		sub	esi, ebp		; Value to push onto the \"stack\"\n");\r
			fprintf(fp, "		mov	dx, word [_z80sp] ; Get the current stack pointer\n");\r
			fprintf(fp, "		sub	dx, 2		; Back up two bytes\n");\r
			fprintf(fp, "		mov	[ebp+edx], si ; PUSH It!\n");\r
			fprintf(fp, "		mov	word [_z80sp], dx	; Store our new stack pointer\n");\r
			fprintf(fp, "		mov	si, [_z80pc] ; Get our new program counter\n");\r
			fprintf(fp, "		add	esi, ebp		; Naturalize it!\n");\r
		}\r
\r
		if (dwOpcode != 0xcd)\r
			fprintf(fp, "noCallTaken%ld:\n", dwGlobalLabel++);\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				dwAddr = *pbPC++;	/* Get LSB first */\n");\r
		fprintf(fp, "				dwAddr |= ((UINT32) *pbPC++ << 8); /* Get MSB last */\n");\r
\r
		if (0xcd != dwOpcode)\r
		{\r
			fprintf(fp, "				if %s\n", pbFlagsC[(dwOpcode >> 3) & 0x07]);\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
			fprintf(fp, "					pbSP = (cpu.z80Base + cpu.z80sp - 1);	/* Normalize the stack pointer */\n");\r
			fprintf(fp, "					*pbSP-- = cpu.z80pc >> 8;	/* MSB */\n");\r
			fprintf(fp, "					*pbSP = (UINT8) cpu.z80pc;	/* LSB */\n");\r
			fprintf(fp, "					cpu.z80sp -= 2;	/* Back our stack up */\n");\r
			fprintf(fp, "					pbPC = cpu.z80Base + dwAddr;	/* Normalize the address */\n");\r
			fprintf(fp, "				}\n");\r
		}\r
		else		// Just a regular call\r
		{\r
			fprintf(fp, "				cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
			fprintf(fp, "				pbSP = (cpu.z80Base + cpu.z80sp - 1);	/* Normalize the stack pointer */\n");\r
			fprintf(fp, "				*pbSP-- = cpu.z80pc >> 8;	/* LSB */\n");\r
			fprintf(fp, "				*pbSP = (UINT8) cpu.z80pc;	/* MSB */\n");\r
			fprintf(fp, "				cpu.z80sp -= 2;	/* Back our stack up */\n");\r
			fprintf(fp, "				pbPC = cpu.z80Base + dwAddr;	/* Normalize the address */\n");\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void RetHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode != 0xc9)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		j%s	takeReturn%ld\n", pbFlags[(dwOpcode >> 3) & 0x07], dwGlobalLabel);\r
			fprintf(fp, "		jmp	short retNotTaken%ld\n", dwGlobalLabel);\r
			fprintf(fp, "takeReturn%ld:\n", dwGlobalLabel);\r
\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		sub	edi, byte 6\n");\r
			}\r
		}\r
\r
\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "		call	PopWord\n");\r
			fprintf(fp, "		xor	esi, esi\n");\r
			fprintf(fp, "		mov	si, dx\n");\r
			fprintf(fp,	"		add	esi, ebp\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
		else 	 \r
		{\r
			fprintf(fp, "		mov	dx, word [_z80sp]	; Get our current stack pointer\n");\r
			fprintf(fp, "		mov	si, [edx+ebp]	; Get our return address\n");\r
			fprintf(fp, "		and	esi, 0ffffh		; Only within 64K!\n");\r
			fprintf(fp, "		add	esi, ebp			; Add in our base address\n");\r
			fprintf(fp, "		add	word [_z80sp], 02h	; Remove our two bytes from the stack\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		if (dwOpcode != 0xc9)\r
			fprintf(fp, "retNotTaken%ld:\n", dwGlobalLabel++);\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode != 0xc9)\r
		{\r
			fprintf(fp, "				if %s\n", pbFlagsC[(dwOpcode >> 3) & 0x07]);\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					dwElapsedTicks += 6;\n");\r
		}\r
\r
		fprintf(fp, "				pbSP = cpu.z80Base + cpu.z80sp;	/* Normalize our stack PTR */\n");\r
		fprintf(fp, "				dwAddr = *pbSP++;	/* Pop LSB */\n");\r
		fprintf(fp, "				dwAddr |= ((UINT32) *pbSP << 8);	/* Pop MSB */\n");\r
		fprintf(fp, "				cpu.z80sp += 2;	/* Pop the word off */\n");\r
		fprintf(fp, "				pbPC = (cpu.z80Base + dwAddr);	/* Point PC to our return address */\n");\r
\r
		if (dwOpcode != 0xc9)\r
		{\r
			fprintf(fp, "				}\n");\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void RestartHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
\r
	dwOpcode1 = dwOpcode & 0x38;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "		sub	esi, ebp\n");\r
			fprintf(fp, "		mov	[_wordval], si	; Store our return address\n");\r
			fprintf(fp, "		call	PushWord\n");\r
			fprintf(fp, "		xor	esi, esi\n");\r
			fprintf(fp, "		mov	si, %.4lxh\n", dwOpcode1);\r
			fprintf(fp, "		add	esi, ebp\n");\r
		}\r
		else \r
		{\r
			fprintf(fp, "		mov	dx, word [_z80sp]	; Get our stack pointer\n");\r
			fprintf(fp, "		sub	dx, 2		; Make room for the new value!\n");\r
			fprintf(fp, "		mov	word [_z80sp], dx	; Store our new stack pointer\n");\r
			fprintf(fp, "		sub	esi, ebp		; Get our real PC\n");\r
			fprintf(fp, "		mov	[ebp+edx], si	; Our return address\n");\r
			fprintf(fp, "		mov	si, 0%.2xh	; Our new call address\n", dwOpcode1);\r
			fprintf(fp, "		add	esi, ebp	; Back to the base!\n");\r
		}\r
	\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "				pbSP = (cpu.z80Base + cpu.z80sp - 1);	/* Normalize the stack pointer */\n");\r
		fprintf(fp, "				*pbSP-- = cpu.z80pc >> 8;	/* LSB */\n");\r
		fprintf(fp, "				*pbSP = (UINT8) cpu.z80pc;	/* MSB */\n");\r
		fprintf(fp, "				cpu.z80sp -= 2;	/* Back our stack up */\n");\r
		fprintf(fp, "				pbPC = cpu.z80Base + 0x%.2x;	/* Normalize the address */\n", dwOpcode1);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void ToRegFromHl(UINT32 dwOpcode)\r
{\r
	UINT8 bReg;\r
\r
	bReg = (dwOpcode >> 3) & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (bReg != 2 && bReg != 3)\r
			ReadValueFromMemory("bx", pbMathReg[bReg]);\r
		else\r
		{\r
			ReadValueFromMemory("bx", pbLocalReg[bReg]);\r
			fprintf(fp, "		mov	%s, %s\n", pbMathReg[bReg], pbLocalReg[bReg]);\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		ReadValueFromMemory("cpu.z80HL", pbLocalRegC[bReg]);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void AddRegpairOperations(UINT32 dwOpcode)\r
{\r
	UINT8 bRegpair;\r
\r
	bRegpair = (dwOpcode >> 4) & 0x3;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dh, ah	; Get our flags\n");\r
		fprintf(fp, "		and	dh, 0ech	; Preserve the top three and bits 2 & 3\n");\r
	\r
		fprintf(fp, "		mov	[_orgval], bx	; Store our original value\n");\r
		fprintf(fp, "		add	bx, %s\n", pbRegPairs[bRegpair]);\r
		fprintf(fp, "		lahf\n");\r
	\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	di, [_orgval]	; Get original\n");\r
		fprintf(fp, "		xor	di, bx ; XOR It with our computed value\n");\r
		fprintf(fp, "		xor	di, %s\n", pbRegPairs[bRegpair]);\r
		fprintf(fp, "		and	di, 1000h	; Just our half carry\n");\r
		fprintf(fp, "		or		dx, di	; Or in our flags\n");\r
		fprintf(fp, "		and	ah, 01h	; Just carry\n");\r
		fprintf(fp, "		or	ah, dh\n");\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");	\r
		fprintf(fp, "		xor	edx, edx\n");	\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "			cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
		fprintf(fp, "			dwTemp = cpu.z80HL + %s;\n", pbRegPairsC[bRegpair]);\r
		fprintf(fp, "			cpu.z80F |= ((dwTemp >> 16) & Z80_FLAG_CARRY) | (((cpu.z80HL ^ dwTemp ^ %s) >> 8) & Z80_FLAG_HALF_CARRY);\n", pbRegPairsC[bRegpair]);\r
		fprintf(fp, "			cpu.z80HL = dwTemp & 0xffff;\n");\r
\r
		return;\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void PushPopOperations(UINT32 dwOpcode)\r
{\r
	UINT8 bRegPair;\r
\r
	bRegPair = ((dwOpcode >> 4) & 0x3) << 1;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((dwOpcode & 0xcf) == 0xc5)	// Push\r
		{\r
			fprintf(fp, "		sub	word [_z80sp], 2\n");\r
			fprintf(fp, "		mov	dx, [_z80sp]\n");\r
			WriteWordToMemory("dx", pbPopRegPairs[bRegPair >> 1]);\r
		}\r
		else	// Pop\r
		{\r
			fprintf(fp, "		mov	dx, [_z80sp]\n");\r
			ReadWordFromMemory("dx", pbPopRegPairs[bRegPair >> 1]);\r
			fprintf(fp, "		add	word [_z80sp], 2\n");\r
		}	\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if ((dwOpcode & 0xcf) == 0xc5)		// Push?\r
		{\r
			fprintf(fp, "					cpu.z80sp -= 2;\n");\r
			fprintf(fp, "					pbSP = (cpu.z80Base + cpu.z80sp);	/* Normalize the stack pointer */\n");\r
			\r
			WriteWordToMemory("cpu.z80sp", pbPopRegPairC[bRegPair >> 1]);\r
			return;\r
		}\r
		else\r
		{\r
			ReadWordFromMemory("cpu.z80sp", pbPopRegPairC[bRegPair >> 1]);\r
\r
			fprintf(fp, "					cpu.z80sp += 2;\n");\r
			fprintf(fp, "					pbSP = (cpu.z80Base + cpu.z80sp);	/* Normalize the stack pointer */\n");\r
			return;\r
		}\r
		\r
		InvalidInstructionC(1);\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void RraRlaHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		sahf\n");\r
		if (dwOpcode == 0x1f)\r
			fprintf(fp, "		rcr	al, 1\n");\r
		else\r
			fprintf(fp, "		rcl	al, 1\n");\r
	\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		and	ah, 0edh\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x1f == dwOpcode)		// RRA\r
		{\r
			fprintf(fp, "				bTemp = (cpu.z80F & Z80_FLAG_CARRY) << 7;\n");\r
			fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY)) | (cpu.z80A & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80A = ((cpu.z80A >> 1) | bTemp);\n");\r
		}\r
		else								// RLA\r
		{\r
			fprintf(fp, "				bTemp = cpu.z80A >> 7;\n");\r
			fprintf(fp, "				cpu.z80A = (cpu.z80A << 1) | (cpu.z80F & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY)) | bTemp;\n");\r
		}\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void LdByteRegpair(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0x0a)\r
			ReadValueFromMemory("cx", "al");\r
		if (dwOpcode == 0x1a)\r
		{\r
			fprintf(fp, "		mov	dx, [_z80de]\n");\r
			ReadValueFromMemory("dx", "al");\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode == 0x0a)\r
			ReadValueFromMemory("cpu.z80BC", "cpu.z80A");\r
		if (dwOpcode == 0x1a)\r
			ReadValueFromMemory("cpu.z80DE", "cpu.z80A");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void IncDecHLPtr(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		ReadValueFromMemory("bx", "dl");\r
\r
		fprintf(fp, "		sahf\n");\r
\r
		if (dwOpcode == 0x34)\r
			fprintf(fp, "		inc	dl\n");\r
		else\r
			fprintf(fp, "		dec	dl\n");\r
		fprintf(fp, "		lahf\n");\r
\r
		fprintf(fp, "		o16	pushf\n");\r
		fprintf(fp, "		shl	edx, 16\n");\r
		fprintf(fp, "		and	ah, 0fbh	;	Knock out parity/overflow\n");\r
		fprintf(fp, "		pop	dx\n");\r
		fprintf(fp, "		and	dh, 08h ; Just the overflow\n");\r
		fprintf(fp, "		shr	dh, 1	; Shift it into position\n");\r
		fprintf(fp, "		or	ah, dh	; OR It in with the real flags\n");\r
	\r
		fprintf(fp, "		shr	edx, 16\n");\r
	\r
		if (dwOpcode == 0x34)\r
			fprintf(fp, "		and	ah, 0fdh	; Knock out N!\n");\r
		else\r
			fprintf(fp, "		or		ah, 02h	; Make it N!\n");\r
	\r
		WriteValueToMemory("bx", "dl");\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
\r
		if (0x34 == dwOpcode)\r
			fprintf(fp ,"				cpu.z80F |= bPostIncFlags[bTemp];\n");\r
		else\r
			fprintf(fp ,"				cpu.z80F |= bPostDecFlags[bTemp];\n");\r
		\r
		if (0x34 == dwOpcode)\r
			fprintf(fp, "				bTemp++;\n");\r
		else\r
			fprintf(fp, "				bTemp--;\n");\r
	\r
		WriteValueToMemory("cpu.z80HL", "bTemp");\r
		return;\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void InOutHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dl, [esi]	; Get our address to 'out' to\n");\r
		fprintf(fp, "		inc	esi	; Next address\n");\r
\r
		if (b16BitIo)\r
		{\r
			fprintf(fp, "		mov	dh, al	; Upper 8 bits are the A register for 16 bit addressing\n");\r
		}\r
\r
		if (0xd3 == dwOpcode)\r
			WriteValueToIo("dx", "al");\r
		else\r
			ReadValueFromIo("dx", "al");\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp ,"			dwTemp = *pbPC++;\n");\r
\r
		if (0xd3 == dwOpcode)\r
			WriteValueToIo("dwTemp", "cpu.z80A");\r
		else\r
			ReadValueFromIo("dwTemp", "cpu.z80A");\r
\r
		// Not supposed to set flags for immediate instruction!\r
\r
		return;\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
// CB Area\r
\r
void RESSETHandler(UINT32 dwOpcode)\r
{\r
	UINT8 op = 0;\r
\r
	op = dwOpcode & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((2 == op) || (3 == op))\r
			fprintf(fp, "		mov	dx, [_z80de]	; Move DE into something half usable\n");\r
\r
		if ((dwOpcode & 0x07) == 6)     // (HL)?\r
			ReadValueFromMemory("bx", "dl");\r
\r
		if ((dwOpcode & 0xc0) == 0x80)\r
			fprintf(fp, "		and %s, 0%.2xh	; Reset a bit\n",         \r
							pbLocalReg[op],\r
							0xff - (1 << ((dwOpcode >> 3) & 0x7)));\r
\r
		if ((dwOpcode & 0xc0) == 0xc0)\r
			fprintf(fp, "		or	%s, 0%.2xh	; Set a bit\n",    \r
							pbLocalReg[op],\r
							(1 << ((dwOpcode >> 3) & 0x7)));\r
\r
		if ((2 == op) || (3 == op))\r
		{\r
			fprintf(fp, "		mov	[_z80de], dx	; Once modified, put it back\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		if ((dwOpcode & 0x07) == 6)     // (HL)?\r
		{\r
			WriteValueToMemory("bx", "dl");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (6 == op)			// (HL)?\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
		if ((dwOpcode & 0xc0) == 0x80)	// RES\r
			fprintf(fp, "				%s &= 0x%.2x;\n", pbMathRegC[op], (UINT8) ~((UINT8) 1 << ((dwOpcode >> 3) & 0x07)));\r
		else										// SET\r
			fprintf(fp, "				%s |= 0x%.2x;\n", pbMathRegC[op], 1 << ((dwOpcode >> 3) & 0x07));\r
\r
		if (6 == op)			// (HL)?\r
			WriteValueToMemory("cpu.z80HL", "bTemp");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void BITHandler(UINT32 dwOpcode)\r
{\r
	UINT8 op = 0;\r
	UINT8 bBitVal = 0;\r
\r
	op = dwOpcode & 0x07;\r
	bBitVal = 1 << ((dwOpcode >> 3) & 0x07);\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((dwOpcode & 0x07) == 6)     // (HL)?\r
			ReadValueFromMemory("bx", "dl");\r
\r
		fprintf(fp, "		mov	byte [_z80af], ah ; Store F\n");\r
		fprintf(fp, "		sahf\n");\r
\r
		if ((dwOpcode & 0x07) == 6)\r
			fprintf(fp, "		test	dl, 0%.2xh	; Do a bitwise check\n", 1 << ((dwOpcode >> 3) & 0x7));\r
		else\r
			fprintf(fp, "		test %s, 0%.2xh	; Do a bitwise check\n", pbMathReg[op], 1 << ((dwOpcode >> 3) & 0x7));\r
\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		and	ah, 0c0h	; Only care about Z and S\n");\r
		fprintf(fp, "		or	ah, 10h	; Set half carry to 1\n");\r
\r
		fprintf(fp, "		and	byte [_z80af], 029h		; Only zero/non-zero!\n");\r
		fprintf(fp, "		or	ah, byte [_z80af]	; Put it in with the real flags\n");\r
\r
		if (6 == (dwOpcode & 0x07))     // (HL)?\r
			fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (6 == op)			// (HL)?\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_ZERO);\n");\r
		fprintf(fp, "				cpu.z80F |= (Z80_FLAG_HALF_CARRY);\n");\r
		fprintf(fp, "				if (!(%s & 0x%.2lx))\n", pbMathRegC[op], bBitVal);\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80F |= Z80_FLAG_ZERO;\n");\r
		fprintf(fp, "				}\n");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void RLCRRCRLRRSLASRASRLHandler(UINT32 dwOpcode)\r
{\r
	UINT8 op = 0;\r
\r
	op = dwOpcode & 0x07;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((2 == op) || (3 == op))\r
			fprintf(fp, "		mov	dx, [_z80de]	; Move DE into something half usable\n");\r
\r
		if ((dwOpcode & 0x07) == 6)     // (HL)?\r
			ReadValueFromMemory("bx", "dl");\r
\r
		fprintf(fp, "		sahf\n");\r
\r
		if ((dwOpcode & 0xf8) == 0)\r
			fprintf(fp, "		rol	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x08)\r
			fprintf(fp, "		ror	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x10)\r
			fprintf(fp, "		rcl	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x18)\r
			fprintf(fp, "		rcr	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x20 || (dwOpcode & 0xf8) == 0x30)\r
			fprintf(fp, "		shl	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x28)\r
			fprintf(fp, "		sar	%s, 1\n", pbLocalReg[op]);\r
		else\r
		if ((dwOpcode & 0xf8) == 0x38)\r
			fprintf(fp, "		shr	%s, 1\n", pbLocalReg[op]);\r
		else\r
			assert(0);\r
	\r
		fprintf(fp, "		lahf\n");\r
\r
		if ((dwOpcode & 0xf8) >= 0x20)\r
		{\r
			if ((dwOpcode & 0xf8) == 0x30)\r
				fprintf(fp, "		or	%s, 1	; Slide in a 1 bit (SLIA)\n", pbLocalReg[op]);\r
			fprintf(fp, "		and	ah, 0edh	; Clear H and N\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		and	ah, 029h	; Clear H and N\n");\r
			fprintf(fp, "		mov	byte [_z80af], ah\n");\r
\r
			fprintf(fp, "		or	%s, %s\n", pbLocalReg[op], pbLocalReg[op]);\r
	\r
			fprintf(fp,	"		lahf\n");\r
			fprintf(fp, "		and	ah, 0c4h	; Sign, zero, and parity\n");\r
			fprintf(fp, "		or	ah, byte [_z80af]\n");\r
		}\r
\r
		if ((2 == op) || (3 == op))\r
		{\r
			fprintf(fp, "		mov	[_z80de], dx	; Once modified, put it back\n");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		if ((dwOpcode & 0x07) == 6)     // (HL)?\r
		{\r
			WriteValueToMemory("bx", "dl");\r
			fprintf(fp, "		xor	edx, edx\n");\r
		}\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (6 == op)						// (HL)?\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
		dwOpcode &= 0xf8;			// Just the instruction\r
\r
		if (0 == dwOpcode)		// RLC\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp2 = (%s >> 7);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s << 1) | bTemp2;\n", pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bTemp2 | bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if (0x08 == dwOpcode)		// RRC\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s & Z80_FLAG_CARRY);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s >> 1) | (%s << 7);\n", pbMathRegC[op], pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if (0x10 == dwOpcode)		// RL\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80F & Z80_FLAG_CARRY;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s >> 7);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s << 1) | bTemp2;\n", pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if (0x18 == dwOpcode)		// RR\r
		{\r
			fprintf(fp, "				bTemp2 = (cpu.z80F & Z80_FLAG_CARRY) << 7;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s & Z80_FLAG_CARRY);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s >> 1) | bTemp2;\n", pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if ((0x20 == dwOpcode) || (0x30 == dwOpcode))	// SLA/SRL\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s >> 7);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s << 1);\n", pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if (0x28 == dwOpcode)		// SRA\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s & Z80_FLAG_CARRY);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s >> 1) | (%s & 0x80);\n", pbMathRegC[op], pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		if (0x38 == dwOpcode)		// SRL\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (%s & Z80_FLAG_CARRY);\n", pbMathRegC[op]);\r
			fprintf(fp, "				%s = (%s >> 1);\n", pbMathRegC[op], pbMathRegC[op], pbMathRegC[op]);\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[op]);\r
		}\r
		else\r
		{\r
			InvalidInstructionC(2);\r
		}\r
\r
		if (6 == op)						// (HL)?\r
			WriteValueToMemory("cpu.z80HL", "bTemp");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
// ED Area\r
\r
void RRDRLDHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		ReadValueFromMemory("bx", "dl");	// Get (HL)\r
		fprintf(fp, "		mov	dh, dl	; Put a copy in DH\n");\r
\r
		if (0x6f == dwOpcode)	// RLD\r
		{\r
			fprintf(fp, "		shr	dh, 4	; Get our upper nibble in position\n");\r
			fprintf(fp, "		shl	dl, 4	; Get our lower nibble into the higher position\n");\r
			fprintf(fp, "		shl	ecx, 16	; Save this for later\n");\r
			fprintf(fp, "		mov	cl, al\n");\r
			fprintf(fp, "		and	cl, 0fh\n	; Only the lower nibble\n");\r
			fprintf(fp, "		or	dl, cl	; OR In A->(HL) transfer\n");\r
			fprintf(fp, "		and	al, 0f0h	; Only the upper 4 bits remain\n");\r
			fprintf(fp, "		or	al, dh	; OR It in to our accumulator\n");\r
			fprintf(fp, "		shr	ecx, 16	; Restore this\n");\r
		}\r
		else			//	RRD\r
		if (0x67 == dwOpcode)\r
		{\r
			fprintf(fp, "		shr	dl, 4	; Upper nibble to lower nibble\n");\r
			fprintf(fp, "		shl	ecx, 16	; Save this\n");\r
			fprintf(fp, "		mov	cl, al\n");\r
			fprintf(fp, "		shl	cl, 4\n");\r
			fprintf(fp, "		or	dl, cl	; OR In what was in A\n");\r
			fprintf(fp, "		and	al, 0f0h	; Knock out lower part\n");\r
			fprintf(fp, "		and	dh, 0fh	; Only the lower nibble\n");\r
			fprintf(fp, "		or	al, dh	; OR In our nibble\n");\r
			fprintf(fp, "		shr	ecx, 16	; Restore this\n");\r
		}\r
		else	// Whoops!\r
			assert(0);\r
\r
		// This routine assumes that the new value to be placed at (HL) is in DL\r
\r
		fprintf(fp, "		and	ah, 29h	; Retain carry & two undefined bits\n");\r
		fprintf(fp, "		mov	dh, ah	; Store our flags away for later\n");\r
\r
		fprintf(fp, "		or	al, al	; Get our flags\n");\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		and	ah,0c4h	; Only partiy, zero, and sign\n");\r
		fprintf(fp, "		or	ah, dh	; OR In our old flags\n");\r
\r
		// Now go write the value back\r
\r
		WriteValueToMemory("bx", "dl");\r
		fprintf(fp, "		xor	edx, edx	; Zero out this for later\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x67 == dwOpcode)	//	RRD\r
		{\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
			fprintf(fp, "				bTemp2 = (cpu.z80A & 0x0f) << 4;\n");\r
			fprintf(fp, "				cpu.z80A = (cpu.z80A & 0xf0) | (bTemp & 0x0f);\n");\r
			fprintf(fp, "				bTemp = (bTemp >> 4) | bTemp2;\n");\r
\r
			WriteValueToMemory("cpu.z80HL", "bTemp");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n");\r
		}\r
		else\r
		if (0x6f == dwOpcode)	// RLD\r
		{\r
			ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
			fprintf(fp, "				bTemp2 = (cpu.z80A & 0x0f);\n");\r
			fprintf(fp, "				cpu.z80A = (cpu.z80A & 0xf0) | (bTemp >> 4);\n");\r
			fprintf(fp, "				bTemp = (bTemp << 4) | bTemp2;\n");\r
\r
			WriteValueToMemory("cpu.z80HL", "bTemp");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n");\r
		}\r
		else\r
			InvalidInstructionC(2);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void CPICPDCPIRCPDRHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwRepeatOb = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0xb1 || dwOpcode == 0xb9)\r
		{\r
			fprintf(fp, "cpRepeat%ld:\n", dwGlobalLabel);\r
			dwRepeatOb = dwGlobalLabel;\r
			++dwGlobalLabel;\r
		}\r
\r
		// Now go get the data from the source\r
\r
		ReadValueFromMemory("bx", "dl");\r
\r
		// Target data is in DL\r
\r
		fprintf(fp, "		mov	byte [_z80af], ah\n");\r
		fprintf(fp, "		sahf\n");\r
		fprintf(fp, "		cmp	al, dl	; Do our comparison\n");\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		and	ah, 0fah	; No P/V or carry!\n");\r
		fprintf(fp, "		dec	cx	; Dec BC\n");\r
		fprintf(fp, "		jz	notBcZero%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		or	ah, 04h	; P/V set when BC not zero\n");\r
		fprintf(fp, "notBcZero%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		or	ah, 02h	; N Gets set when we do compares\n");\r
		fprintf(fp, "		mov	dl, byte [_z80af]\n");\r
		fprintf(fp, "		and	dl, 01h\n");\r
		fprintf(fp, "		or	ah, dl	; Preserve carry!\n");\r
	\r
		if (dwOpcode == 0xa1 || dwOpcode == 0xb1)\r
			fprintf(fp, "		inc	bx	; Increment!\n");\r
		if (dwOpcode == 0xa9 || dwOpcode == 0xb9)\r
			fprintf(fp, "		dec	bx	; Decrement!\n");\r
\r
		// Let's see if we repeat...\r
	\r
		if (dwOpcode == 0xb1 || dwOpcode == 0xb9)\r
		{\r
			fprintf(fp, "		sahf\n");\r
			fprintf(fp, "		jz	BCDone%ld\n", dwRepeatOb);\r
			fprintf(fp, "		jnp	BCDone%ld\n", dwRepeatOb);\r
\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		sub	edi, dword 21\n");\r
				fprintf(fp, "		js		BCDoneExit%ld\n", dwRepeatOb);\r
			}\r
\r
			fprintf(fp, "		jmp	cpRepeat%ld\n", dwRepeatOb);\r
\r
			fprintf(fp, "BCDoneExit%ld:\n", dwRepeatOb);\r
			fprintf(fp, "		sub	esi, 2	;	Back up to the instruction again\n");\r
			fprintf(fp, "		jmp	noMoreExec\n\n");\r
			fprintf(fp, "BCDone%ld:\n", dwRepeatOb);\r
		}\r
	\r
		fprintf(fp, "		xor	edx, edx\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0xb1 == dwOpcode || 0xb9 == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				while ((sdwCyclesRemaining >= 0) && (cpu.z80BC))\n");\r
		}\r
\r
		fprintf(fp, "				{\n");			\r
\r
		ReadValueFromMemory("cpu.z80HL", "bTemp");\r
\r
		if (0xb1 == dwOpcode || 0xa1 == dwOpcode)\r
		{\r
			fprintf(fp, "				cpu.z80HL++;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "				cpu.z80HL--;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
\r
		fprintf(fp, "				cpu.z80BC--;\n");\r
		fprintf(fp, "				cpu.z80BC &= 0xffff;\n");\r
\r
		if (0xb1 == dwOpcode || 0xb9 == dwOpcode)	// Repeat?\r
		{\r
			fprintf(fp, "				sdwCyclesRemaining -= 16;\n");\r
			fprintf(fp, "				if (cpu.z80A == bTemp)\n");\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					break;\n");\r
			fprintf(fp, "				}\n");\r
		}\r
\r
		fprintf(fp, "				}\n");\r
\r
		// Now figure out what's going on\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		fprintf(fp, "				cpu.z80F |= (pbSubSbcTable[((UINT32) cpu.z80A << 8) | bTemp] & (Z80_FLAG_SIGN | Z80_FLAG_NEGATIVE | Z80_FLAG_ZERO));\n");\r
		fprintf(fp, "				if (cpu.z80BC)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80F |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
\r
		fprintf(fp, "				}\n");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void INIRINDRINIINDHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwTempLabel = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		dwTempLabel = dwGlobalLabel;\r
		dwGlobalLabel++;\r
\r
		if (0xba == dwOpcode || 0xb2 == dwOpcode)\r
			fprintf(fp, "loopIt%ld:\n", dwTempLabel);\r
\r
		// Fetch what's at (C) and put it in (HL)\r
\r
		fprintf(fp, "		push	cx	; Save BC\n");\r
	\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "		xor	ch, ch ; We want 8 bit ports\n");\r
	\r
		ReadValueFromIo("cx", "*dl");		// Put our value in DL\r
		fprintf(fp, "		pop	cx	; Restore BC\n");\r
	\r
		WriteValueToMemory("bx", "dl");\r
	\r
		if (0xa2 == dwOpcode || 0xb2 == dwOpcode)\r
			fprintf(fp, "		inc	bx	; Increment HL\n");\r
		else\r
		if (0xaa == dwOpcode || 0xba == dwOpcode)\r
			fprintf(fp, "		dec	bx	; Decrement HL\n");\r
	\r
		// Now we decrement B\r
	\r
		fprintf(fp, "		dec	ch	; Decrement B (of C)\n");\r
	\r
		// Emit this instruction if we repeat\r
	\r
		if (0xba == dwOpcode || 0xb2 == dwOpcode)\r
		{\r
			fprintf(fp, "		jz	near finalExit%ld\n", dwTempLabel);\r
\r
			// Otherwise, we need to loop again\r
\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		sub	edi, dword 21\n");\r
				fprintf(fp, "		js		loopExit%ld\n", dwTempLabel);\r
			}\r
\r
			fprintf(fp, "		jmp	loopIt%ld\n\n", dwTempLabel);\r
			fprintf(fp, "loopExit%ld:\n", dwTempLabel);\r
			fprintf(fp, "		sub	esi, 2\n");\r
			fprintf(fp, "		jmp	noMoreExec\n\n");\r
		}\r
	\r
		// Now let's fix up the flags\r
\r
		fprintf(fp, "finalExit%ld:\n", dwTempLabel);	\r
		fprintf(fp, "		jnz	clearFlag%ld\n", dwTempLabel);\r
		fprintf(fp, "		or	ah, 040h	; Set the Zero flag!\n");\r
		fprintf(fp, "		jmp	short continue%ld\n", dwTempLabel);\r
		fprintf(fp, "clearFlag%ld:\n", dwTempLabel);\r
		fprintf(fp, "		and	ah, 0bfh	; Clear the zero flag\n");\r
		fprintf(fp, "continue%ld:\n", dwTempLabel);\r
		fprintf(fp, "		or	ah, 02h	; Set negative!\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0xb2 == dwOpcode || 0xba == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				while ((sdwCyclesRemaining > 0) && (cpu.z80B))\n");\r
		}\r
\r
		fprintf(fp, "				{\n");			\r
\r
		ReadValueFromIo("cpu.z80B", "bTemp");\r
		WriteValueToMemory("cpu.z80HL", "bTemp");\r
\r
		if (0xb2 == dwOpcode || 0xa2 == dwOpcode)\r
		{\r
			fprintf(fp, "				cpu.z80HL++;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "				cpu.z80HL--;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
\r
		fprintf(fp, "				sdwCyclesRemaining -= 16;\n");\r
	\r
		fprintf(fp, "				cpu.z80B--;\n");\r
		fprintf(fp, "				}\n");\r
\r
		// Now figure out what's going on\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		fprintf(fp, "				cpu.z80F |= (bPostORFlags[bTemp] & (Z80_FLAG_SIGN | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY));\n");\r
		fprintf(fp, "				if (cpu.z80B)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80F |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
\r
		fprintf(fp, "					pbPC -= 2;\n");\r
\r
		fprintf(fp, "				}\n");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void OTIROTDROUTIOUTDHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwTempLabel = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		dwTempLabel = dwGlobalLabel;\r
		dwGlobalLabel++;\r
\r
		if (0xbb == dwOpcode || 0xb3 == dwOpcode)\r
			fprintf(fp, "loopIt%ld:\n", dwTempLabel);\r
\r
		// Fetch what's at (HL) and put it in DL\r
\r
		ReadValueFromMemory("bx", "dl");\r
\r
		fprintf(fp, "		push	cx	; Save BC\n");\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "		xor	ch, ch	; No 16 bit for this instruction!\n");\r
		WriteValueToIo("cx", "dl");\r
		fprintf(fp, "		pop	cx	; Restore BC now that it has been \"OUT\"ed\n");\r
	\r
		if (0xa3 == dwOpcode || 0xb3 == dwOpcode)\r
			fprintf(fp, "		inc	bx	; Increment HL\n");\r
		else\r
		if (0xab == dwOpcode || 0xbb == dwOpcode)\r
			fprintf(fp, "		dec	bx	; Decrement HL\n");\r
	\r
		// Now we decrement B\r
\r
		fprintf(fp, "		dec	ch	; Decrement B (of C)\n");\r
	\r
		// Emit this instruction if we repeat\r
	\r
		if (0xbb == dwOpcode || 0xb3 == dwOpcode)\r
		{\r
			fprintf(fp, "		jz	near finalExit%ld\n", dwTempLabel);\r
\r
			// Otherwise, we need to loop again\r
\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		sub	edi, dword 21\n");\r
				fprintf(fp, "		js		loopExit%ld\n", dwTempLabel);\r
			}\r
\r
			fprintf(fp, "		jmp	loopIt%ld\n\n", dwTempLabel);\r
			fprintf(fp, "loopExit%ld:\n", dwTempLabel);\r
			fprintf(fp, "		sub	esi, 2\n");\r
			fprintf(fp, "		jmp	noMoreExec\n\n");\r
		}\r
	\r
		// Now let's fix up the flags\r
\r
		fprintf(fp, "finalExit%ld:\n", dwTempLabel);	\r
		fprintf(fp, "		jnz	clearFlag%ld\n", dwTempLabel);\r
		fprintf(fp, "		or	ah, 040h	; Set the Zero flag!\n");\r
		fprintf(fp, "		jmp	short continue%ld\n", dwTempLabel);\r
		fprintf(fp, "clearFlag%ld:\n", dwTempLabel);\r
		fprintf(fp, "		and	ah, 0bfh	; Clear the zero flag\n");\r
		fprintf(fp, "continue%ld:\n", dwTempLabel);\r
		fprintf(fp, "		or	ah, 02h	; Set negative!\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0xb3 == dwOpcode || 0xbb == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				while ((sdwCyclesRemaining > 0) && (cpu.z80B))\n");\r
		}\r
\r
		fprintf(fp, "				{\n");\r
		\r
		ReadValueFromMemory("cpu.z80HL", "bTemp");\r
		WriteValueToIo("cpu.z80BC", "bTemp");\r
\r
		if (0xb3 == dwOpcode || 0xa3 == dwOpcode)\r
		{\r
			fprintf(fp, "				cpu.z80HL++;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "				cpu.z80HL--;\n");\r
			fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		}\r
\r
		fprintf(fp, "				sdwCyclesRemaining -= 16;\n");\r
	\r
		fprintf(fp, "				cpu.z80B--;\n");\r
		fprintf(fp, "				}\n");\r
\r
		// Now figure out what's going on\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		fprintf(fp, "				cpu.z80F |= (bPostORFlags[bTemp] & (Z80_FLAG_SIGN | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY));\n");\r
		fprintf(fp, "				if (cpu.z80B)\n");\r
		fprintf(fp, "				{\n");\r
		fprintf(fp, "					cpu.z80F |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
\r
		fprintf(fp, "				}\n");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void AdcSbcRegpair(UINT32 dwOpcode)\r
{\r
	UINT8 bOp = 0;\r
\r
	bOp = (dwOpcode >> 4) & 0x03;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, %s	; Get our original register\n", pbRegPairs[bOp]);\r
		fprintf(fp, "		mov	[_orgval], dx	; Store this for later half carry computation\n");\r
		fprintf(fp, "		mov	[_orgval2], bx	; Store this, too\n");\r
		fprintf(fp, "		sahf		; Restore our flags\n");\r
\r
		if ((dwOpcode & 0xcf) == 0x4a)\r
			fprintf(fp, "		adc	bx, dx	; Do the operation!\n");\r
		else\r
			fprintf(fp, "		sbb	bx, dx	; Do the operation!\n");\r
\r
		fprintf(fp, "		lahf		; Get our new flags\n");\r
	\r
		if ((dwOpcode & 0xcf) != 0x4a)\r
		{\r
			SetOverflow();\r
			fprintf(fp, "		and	ah, 0edh	; Knock out negative & half carry flags\n");\r
	 		fprintf(fp, "		or	ah, 02h	; Negative!\n");\r
			fprintf(fp, "		mov	[_z80hl], bx\n");\r
			fprintf(fp, "		xor	bx, [_orgval]\n");\r
			fprintf(fp, "		xor	bx, [_orgval2]\n");\r
			fprintf(fp, "		and	bh, 10h	; Half carry?\n");\r
			fprintf(fp, "		or	ah, bh	; OR It in if so\n");\r
			fprintf(fp, "		mov	bx, [_z80hl]\n");\r
		}\r
		else\r
		{\r
			SetOverflow();\r
			fprintf(fp, "		and	ah, 0edh	; Knock out negative & half carry flags\n");\r
			fprintf(fp, "		mov	[_z80hl], bx\n");\r
			fprintf(fp, "		xor	bx, [_orgval]\n");\r
			fprintf(fp, "		xor	bx, [_orgval2]\n");\r
			fprintf(fp, "		and	bh, 10h	; Half carry?\n");\r
			fprintf(fp, "		or	ah, bh	; OR It in if so\n");\r
			fprintf(fp, "		mov	bx, [_z80hl]\n");\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx	; Make sure we don't hose things\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if ((dwOpcode & 0xcf) == 0x4a)	// ADC\r
		{\r
			fprintf(fp, "				dwTemp = cpu.z80HL + %s + (cpu.z80F & Z80_FLAG_CARRY);\n", pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= ((dwTemp >> 8) & Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				if (0 == (dwTemp & 0xffff))\n");\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					cpu.z80F |= Z80_FLAG_ZERO;\n");\r
			fprintf(fp, "				}\n");\r
			fprintf(fp, "				cpu.z80F |= (((cpu.z80HL ^ dwTemp ^ %s) >> 8) & Z80_FLAG_HALF_CARRY);\n", pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F |= ((((%s ^ cpu.z80HL ^ 0x8000) & (%s ^ dwTemp)) >> 13) & Z80_FLAG_OVERFLOW_PARITY);\n", pbRegPairsC[bOp], pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F |= ((dwTemp >> 16) & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80HL = dwTemp & 0xffff;\n");\r
			return;\r
		}\r
		else										// SBC\r
		{\r
			fprintf(fp, "				dwTemp = cpu.z80HL - %s - (cpu.z80F & Z80_FLAG_CARRY);\n", pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= ((dwTemp >> 8) & Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				if (0 == (dwTemp & 0xffff))\n");\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					cpu.z80F |= Z80_FLAG_ZERO;\n");\r
			fprintf(fp, "				}\n");\r
			fprintf(fp, "				cpu.z80F |= (((cpu.z80HL ^ dwTemp ^ %s) >> 8) & Z80_FLAG_HALF_CARRY);\n", pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F |= ((((%s ^ cpu.z80HL) & (%s ^ dwTemp)) >> 13) & Z80_FLAG_OVERFLOW_PARITY);\n", pbRegPairsC[bOp], pbRegPairsC[bOp]);\r
			fprintf(fp, "				cpu.z80F |= ((dwTemp >> 16) & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80HL = dwTemp & 0xffff;\n");\r
			return;\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void RetIRetNHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "		call	PopWord\n");\r
			fprintf(fp, "		xor	esi, esi\n");\r
			fprintf(fp, "		mov	si, dx\n");\r
			fprintf(fp,	"		add	esi, ebp\n");\r
		}\r
		else \r
		{\r
			fprintf(fp,     "		mov	dx, word [_z80sp]	; Get our current stack pointer\n");\r
			fprintf(fp, "		mov	si, [edx+ebp]	; Get our return address\n");\r
			fprintf(fp, "		and	esi, 0ffffh		; Only within 64K!\n");\r
			fprintf(fp,     "		add	esi, ebp			; Add in our base address\n");\r
			fprintf(fp,     "		add	word [_z80sp], 02h	; Remove our two bytes from the stack\n");\r
		}\r
	\r
		if (dwOpcode == 0x45)\r
		{\r
			fprintf(fp, "		xor	edx, edx\n");\r
			fprintf(fp, "		mov	dl, [_z80iff]	; Get interrupt flags\n");\r
			fprintf(fp, "		shr	dl, 1		; Move IFF2->IFF1\n");\r
			fprintf(fp, "		and	[_z80iff], dword (~IFF1)	; Get rid of IFF 1\n");\r
			fprintf(fp, "		and	dl, IFF1	; Just want the IFF 1 value now\n");\r
			fprintf(fp, "		or	dword [_z80iff], edx\n");\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx	; Make sure we don't hose things\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x4d == dwOpcode)		// RETI\r
		{\r
			fprintf(fp, "				pbSP = cpu.z80Base + cpu.z80sp;	/* Normalize our stack PTR */\n");\r
			fprintf(fp, "				dwAddr = *pbSP++;	/* Pop LSB */\n");\r
			fprintf(fp, "				dwAddr |= ((UINT32) *pbSP << 8);	/* Pop MSB */\n");\r
			fprintf(fp, "				cpu.z80sp += 2;	/* Pop the word off */\n");\r
			fprintf(fp, "				pbPC = (cpu.z80Base + dwAddr);	/* Point PC to our return address */\n");\r
		}\r
		else\r
		if (0x45 == dwOpcode)		// RETN\r
		{\r
			fprintf(fp, "				pbSP = cpu.z80Base + cpu.z80sp;	/* Normalize our stack PTR */\n");\r
			fprintf(fp, "				dwAddr = *pbSP++;	/* Pop LSB */\n");\r
			fprintf(fp, "				dwAddr |= ((UINT32) *pbSP << 8);	/* Pop MSB */\n");\r
			fprintf(fp, "				cpu.z80sp += 2;	/* Pop the word off */\n");\r
			fprintf(fp, "				pbPC = (cpu.z80Base + dwAddr);	/* Point PC to our return address */\n");\r
			fprintf(fp, "				cpu.z80iff &= ~(IFF1);	/* Keep IFF2 around */\n");\r
			fprintf(fp, "				cpu.z80iff |= ((cpu.z80iff >> 1) & IFF1);	/* IFF2->IFF1 */\n");\r
		}\r
		else\r
		{\r
			InvalidInstructionC(2);\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void ExtendedOutHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "		mov	dl, cl	; Address in DX... (C)\n");\r
		else\r
			fprintf(fp, "		mov	dx, cx	; Address in DX... (BC)\n");\r
	\r
		WriteValueToIo("dx", pbMathReg[(dwOpcode >> 3) & 0x07]);\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "				dwAddr = cpu.z80C;\n");\r
		else\r
			fprintf(fp, "				dwAddr = cpu.z80BC;\n");\r
\r
		WriteValueToIo("dwAddr", pbMathRegC[(dwOpcode >> 3) & 0x07]);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void ExtendedInHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "		mov	dl, cl	; Address in DX... (C)\n");\r
		else\r
			fprintf(fp, "		mov	dx, cx	; Address in DX... (BC)\n");\r
	\r
		ReadValueFromIo("dx", pbMathReg[(dwOpcode >> 3) & 0x07]);\r
\r
		fprintf(fp, ";\n; Remember, this variant of the IN instruction modifies the flags\n;\n\n");\r
		fprintf(fp, "		sahf	; Restore our flags\n");\r
		fprintf(fp, "		mov	dh, ah	; Save flags for later\n");\r
	\r
		if (0x50 == dwOpcode || 0x58 == dwOpcode)\r
		{\r
			fprintf(fp, "		mov	dl, %s\n", pbMathReg[(dwOpcode >> 3) & 0x07]);\r
			fprintf(fp, "		or	dl, dl\n");\r
		}\r
		else\r
			fprintf(fp, "		or	%s, %s;\n", pbMathReg[(dwOpcode >> 3) & 0x07], pbMathReg[(dwOpcode >> 3) & 0x07]);\r
\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		and	dh, 029h	; Only keep carry and two unused flags\n");\r
		fprintf(fp, "		and	ah, 0d4h\n");\r
		fprintf(fp, "		or	ah, dh\n");\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (b16BitIo == FALSE)\r
			fprintf(fp, "				dwAddr = cpu.z80C;\n");\r
		else\r
			fprintf(fp, "				dwAddr = cpu.z80BC;\n");\r
\r
		ReadValueFromIo("dwAddr", pbMathRegC[(dwOpcode >> 3) & 0x07]);\r
\r
		// Set flags!\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		fprintf(fp, "				cpu.z80F |= bPostORFlags[%s];\n", pbMathRegC[(dwOpcode >> 3) & 0x07]);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void NegHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		sahf\n");\r
		fprintf(fp, "		sub	dh, al\n");\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		mov	al, dh\n");\r
	\r
		SetOverflow();\r
		fprintf(fp, "		or	ah, 02h\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		SetSubFlagsSZHVC("0", "cpu.z80A");\r
		fprintf(fp, "				cpu.z80A = 0 - cpu.z80A;\n");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void ExtendedRegIntoMemory(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	; Get our address to write to\n");\r
		fprintf(fp, "		add	esi, 2		; Next address, please...\n");\r
\r
		if (dwOpcode == 0x43)\r
			WriteValueToMemory("dx", "cl");\r
		if (dwOpcode == 0x53)\r
			WriteValueToMemory("dx", "byte [_z80de]");\r
		if (dwOpcode == 0x63)\r
			WriteValueToMemory("dx", "bl");\r
		if (dwOpcode == 0x73)\r
			WriteValueToMemory("dx", "byte [_z80sp]");\r
\r
		fprintf(fp, "		inc	dx\n");\r
\r
		if (dwOpcode == 0x43)\r
			WriteValueToMemory("dx", "ch");\r
		if (dwOpcode == 0x53)\r
			WriteValueToMemory("dx", "byte [_z80de + 1]");\r
		if (dwOpcode == 0x63)\r
			WriteValueToMemory("dx", "bh");\r
		if (dwOpcode == 0x73)\r
			WriteValueToMemory("dx", "byte [_z80sp + 1]");\r
	\r
		fprintf(fp, "		xor	edx, edx	; Zero our upper word\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "		dwTemp = *pbPC++;\n");\r
		fprintf(fp, "		dwTemp |= ((UINT32) *pbPC++ << 8);\n");\r
\r
		if (0x43 == dwOpcode)		//	LD (xxxxh), BC\r
			WriteWordToMemory("dwTemp", "cpu.z80BC");\r
		if (0x53 == dwOpcode)		//	LD (xxxxh), DE\r
			WriteWordToMemory("dwTemp", "cpu.z80DE");\r
		if (0x63 == dwOpcode)		//	LD (xxxxh), HL\r
			WriteWordToMemory("dwTemp", "cpu.z80HL");\r
		if (0x73 == dwOpcode)		//	LD (xxxxh), SP\r
			WriteWordToMemory("dwTemp", "cpu.z80sp");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LdRegpair(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	; Get address to load\n");\r
		fprintf(fp, "		add	esi, 2	; Skip over it so we don't execute it\n");\r
	\r
		if (dwOpcode == 0x4b)\r
			ReadValueFromMemory("dx", "cl");\r
		if (dwOpcode == 0x5b)\r
			ReadValueFromMemory("dx", "byte [_z80de]");\r
		if (dwOpcode == 0x7b)\r
			ReadValueFromMemory("dx", "byte [_z80sp]");\r
	\r
		fprintf(fp, "		inc	dx\n");\r
	\r
		if (dwOpcode == 0x4b)\r
			ReadValueFromMemory("dx", "ch");\r
		if (dwOpcode == 0x5b)\r
			ReadValueFromMemory("dx", "byte [_z80de + 1]");\r
		if (dwOpcode == 0x7b)\r
			ReadValueFromMemory("dx", "byte [_z80sp + 1]");\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "		dwTemp = *pbPC++;\n");\r
		fprintf(fp, "		dwTemp |= ((UINT32) *pbPC++ << 8);\n");\r
\r
		if (0x4b == dwOpcode)\r
			ReadWordFromMemory("dwTemp", "cpu.z80BC");\r
		if (0x5b == dwOpcode)\r
			ReadWordFromMemory("dwTemp", "cpu.z80DE");\r
		if (0x7b == dwOpcode)\r
			ReadWordFromMemory("dwTemp", "cpu.z80sp");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LDILDRLDIRLDDRHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwOrgGlobal = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0xb0 || dwOpcode == 0xb8)\r
		{\r
			dwOrgGlobal = dwGlobalLabel;\r
			fprintf(fp, "ldRepeat%ld:\n", dwGlobalLabel);\r
		}\r
\r
		ReadValueFromMemory("bx", "dl");	\r
\r
		// Here we write the byte back to the target\r
	\r
		WriteValueToMemory("[_z80de]", "dl");\r
\r
		// Now we decide what to do\r
	\r
		if ((dwOpcode & 0x0f) == 0)\r
		{\r
			fprintf(fp, "		inc	bx	; Increment HL\n");\r
			fprintf(fp, "		inc	word [_z80de]	; Increment DE\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		dec	bx	; Decrement HL\n");\r
			fprintf(fp, "		dec	word [_z80de]	; Decrement DE\n");\r
		}\r
	\r
		fprintf(fp, "		dec	cx	; Decrement BC\n");\r
	\r
		if (dwOpcode == 0xb0 || dwOpcode == 0xb8)\r
		{\r
			if (FALSE == bNoTiming)\r
			{\r
				fprintf(fp, "		jz	noMore%ld\n", dwGlobalLabel);\r
				fprintf(fp, "		sub	edi, dword 16	; 16 T-States per iteration\n");\r
				fprintf(fp, "		js	noMore%ld\n", dwGlobalLabel);\r
			}\r
			else\r
			{\r
				fprintf(fp, "		jz	noMore%ld\n", dwGlobalLabel);\r
			}\r
	\r
			fprintf(fp, "		jmp	ldRepeat%ld ; Loop until we're done!\n", dwOrgGlobal);\r
			fprintf(fp, "noMore%ld:\n", dwGlobalLabel);\r
		}\r
	\r
		fprintf(fp, "		and	ah, 0e9h ; Knock out H & N and P/V\n");\r
		fprintf(fp, "		or		cx, cx	; Flag BC\n");\r
		fprintf(fp, "		jz	atZero%ld ; We're done!\n", dwGlobalLabel);\r
	\r
		if (dwOpcode == 0xb0 || dwOpcode == 0xb8)\r
		{\r
			// It's a repeat, so let's readjust ESI, shall we?\r
	\r
			fprintf(fp, "		or	ah, 04h	; Non-zero - we're still going!\n");\r
			fprintf(fp, "		sub	esi, 2	; Adjust back to the beginning of the instruction\n");\r
			fprintf(fp, "		jmp	noMoreExec\n\n");\r
		}\r
		else\r
		if (dwOpcode == 0xa0 || dwOpcode == 0xa8)\r
		{\r
			fprintf(fp, "		or	ah, 04h	; Non-zero - we're still going!\n");\r
		}\r
	\r
		fprintf(fp, "atZero%ld:\n", dwGlobalLabel);\r
		++dwGlobalLabel;\r
	\r
		fprintf(fp, "		xor	edx, edx	; Make sure we don't hose things\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		// This is the actual move\r
\r
		if (0xb0 == dwOpcode || 0xb8 == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				while ((sdwCyclesRemaining > 0) && (cpu.z80BC))\n");\r
\r
			fprintf(fp, "				{\n");			\r
		}\r
\r
		ReadValueFromMemory("cpu.z80HL", "bTemp");\r
		WriteValueToMemory("cpu.z80DE", "bTemp");\r
\r
		if ((dwOpcode & 0x0f) == 0)\r
		{\r
			fprintf(fp, "					++cpu.z80HL;\n");\r
			fprintf(fp, "					++cpu.z80DE;\n");\r
		}\r
		else				\r
		{\r
			fprintf(fp, "					--cpu.z80HL;\n");\r
			fprintf(fp, "					--cpu.z80DE;\n");\r
		}\r
\r
		fprintf(fp, "				--cpu.z80BC;\n");\r
		fprintf(fp, "				cpu.z80HL &= 0xffff;\n");\r
		fprintf(fp, "				cpu.z80DE &= 0xffff;\n");\r
		fprintf(fp, "				cpu.z80BC &= 0xffff;\n");\r
\r
		if (0xb0 == dwOpcode || 0xb8 == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				sdwCyclesRemaining -= 21;\n");\r
\r
			fprintf(fp, "				}\n");\r
		}\r
\r
		// Time for a flag fixup!\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY);\n");\r
		fprintf(fp, "				if (cpu.z80BC)\n");\r
		fprintf(fp, "				{\n");\r
\r
		if (0xb0 == dwOpcode || 0xb8 == dwOpcode)\r
		{\r
			fprintf(fp, "					pbPC -= 2;	/* Back up so we hit this instruction again */\n");\r
		}\r
\r
		fprintf(fp, "					cpu.z80F |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
		fprintf(fp, "				}\n");\r
\r
		if (0xb0 == dwOpcode || 0xb8 == dwOpcode)	// Repeat instruction?\r
		{\r
			fprintf(fp, "				sdwCyclesRemaining -= 16;\n");\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void IMHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0x46)\r
			fprintf(fp, "		mov	dword [_z80interruptMode], 0 ; IM 0\n");\r
\r
		if (dwOpcode == 0x56)\r
		{\r
			fprintf(fp, "		mov	dword [_z80interruptMode], 1 ; Interrupt mode 1\n");\r
			fprintf(fp, "		mov	word [_z80intAddr], 038h	; Interrupt mode 1 cmd!\n");\r
		}\r
\r
		if (dwOpcode == 0x5e)\r
			fprintf(fp, "		mov	dword [_z80interruptMode], 2 ; IM 2\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x46 == dwOpcode)		// IM 0\r
			fprintf(fp, "				cpu.z80interruptMode = 0;\n");\r
\r
		if (0x56 == dwOpcode)		// IM 1\r
		{\r
			fprintf(fp, "				cpu.z80interruptMode = 1;\n");\r
			fprintf(fp, "				cpu.z80intAddr = 0x38;\n");\r
		}\r
\r
		if (0x5e == dwOpcode)		// IM 2\r
			fprintf(fp, "				cpu.z80interruptMode = 2;\n");\r
	}\r
	else\r
		assert(0);\r
	\r
}\r
\r
void IRHandler(UINT32 dwOpcode)\r
{\r
   char *src, *dst;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
	   switch(dwOpcode) \r
		{\r
	   	case 0x57:  \r
				dst = "al"; src="[_z80i]"; break;\r
		   case 0x5F:  \r
				dst = "al"; src="[_z80r]"; break;\r
		   case 0x47:  \r
				dst = "[_z80i]"; src="al"; break;\r
		   case 0x4F:  \r
				dst = "[_z80r]"; src="al"; break;\r
	   }\r
\r
	   ProcBegin(dwOpcode);\r
\r
	   fprintf(fp, "           mov     %s, %s\n",dst,src);\r
	\r
		if (dwOpcode == 0x5f)\r
		{\r
			fprintf(fp, "		and	ah, 029h	; No N, H, Z, or S!\n");\r
			fprintf(fp, "		or	al,al	; Get appropriate flags\n");\r
			fprintf(fp, "		o16 pushf\n");\r
			fprintf(fp, "		pop	dx\n");\r
			fprintf(fp, "		and	dl, 0c0h\n");\r
			fprintf(fp, "		or	ah, dl	; OR In our S & Z flags\n");\r
	\r
			fprintf(fp, "		mov	dl, [_z80iff]\n");\r
			fprintf(fp, "		and	dl, IFF2\n");\r
			fprintf(fp, "		shl	dl, 1\n");\r
			fprintf(fp, "		or	ah, dl\n");\r
\r
			// Randomize R\r
\r
			fprintf(fp, "		mov	edx, [dwLastRSample]\n");\r
			fprintf(fp, "		sub	edx, edi\n");\r
			fprintf(fp, "		add	edx, [_z80rCounter]\n");\r
			fprintf(fp, "		shr	edx, 2\n");\r
			fprintf(fp, "		and	edx, 07fh\n");\r
			fprintf(fp, "		and	byte [_z80r], 80h\n");\r
			fprintf(fp, "		or		byte [_z80r], dl\n");\r
\r
			fprintf(fp, "		xor	edx, edx\n");\r
			fprintf(fp, "		mov	[dwLastRSample], edi\n");\r
		}\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x5f == dwOpcode)		// LD A, R\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80r];\n");\r
			fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_OVERFLOW_PARITY)) | ((cpu.z80iff & IFF2) << 1);\n");\r
			fprintf(fp, "				cpu.z80A = cpu.z80r;\n");\r
\r
			// Now randomize a little\r
\r
			fprintf(fp, "				bTemp = (cpu.z80r + (cpu.z80B + sdwCyclesRemaining + 1 + cpu.z80H)) ^ cpu.z80A;\n");\r
			fprintf(fp, "				cpu.z80r = (cpu.z80r & 0x80) | (bTemp & 0x7f);\n");\r
		}\r
		else\r
		if (0x47 == dwOpcode)		// LD I, A\r
		{\r
		 	fprintf(fp, "				cpu.z80i = cpu.z80A;\n");\r
		}\r
		else\r
		if (0x57 == dwOpcode)		// LD A, I\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= ((cpu.z80iff & IFF2) << 1);\n");\r
			fprintf(fp, "				cpu.z80A = cpu.z80i;\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n");\r
		}\r
		else\r
		if (0x4f == dwOpcode)		// LD R, A\r
		{\r
			fprintf(fp, "				cpu.z80r = cpu.z80A;\n");\r
		}\r
		else\r
		{\r
			InvalidInstructionC(2);\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
// DD/FD Area\r
\r
void DDFDCBHandler(UINT32 dwOpcode)\r
{\r
	UINT32 dwData = 0;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "%sInst%.2x:\n", majorOp, dwOpcode);\r
		fprintf(fp, "		mov	dx, [esi]	; Get our instruction (and offset)\n");\r
		fprintf(fp, "		add	esi, 2	; Increment our PC\n");\r
\r
		fprintf(fp, "		mov	byte [_orgval], dl ; Store our value\n");\r
		fprintf(fp, "		or	dl, dl\n");\r
		fprintf(fp, "		js	notNeg%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	byte [_orgval + 1], 00h;\n");\r
\r
		fprintf(fp, " 		jmp	short jumpHandler%ld\n", dwGlobalLabel);\r
		fprintf(fp, "notNeg%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		mov	byte [_orgval + 1], 0ffh;	It's negative\n");\r
		fprintf(fp, "jumpHandler%ld:\n", dwGlobalLabel++);\r
		fprintf(fp, "		shl	ebx, 16	; Save BX away\n");\r
		fprintf(fp, "		mov	bx, [_z80%s]\n", mz80Index);\r
		fprintf(fp, "		add	[_orgval], bx\n");\r
		fprintf(fp, "		shr	ebx, 16	; Restore BX\n");\r
		fprintf(fp, "		mov	dl, dh	; Get our instruction\n");\r
		fprintf(fp, "		xor	dh, dh	; Zero this\n");\r
		fprintf(fp, "		jmp	dword [z80ddfdcbInstructions+edx*4]\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (strcmp("cpu.z80IX", mz80Index) == 0)\r
			dwData = 0;\r
		else\r
			dwData = 1;\r
\r
		fprintf(fp, "				DDFDCBHandler(%d);\n", dwData);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LoadIndexReg(UINT32 dwOpcode)\r
{\r
	UINT8 string[150];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		sprintf(string, "[_z80%s]", mz80Index);\r
\r
		fprintf(fp, "		mov	dx, [esi]	 ; Get our address to store\n");\r
		fprintf(fp, "		add	esi, 2\n");\r
\r
		ReadWordFromMemory("dx", string);\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				dwAddr = *pbPC++;\n");\r
		fprintf(fp, "				dwAddr |= ((UINT32) *pbPC++ << 8);\n");\r
		ReadWordFromMemory("dwAddr", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void StoreIndexReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	 ; Get our address to store\n");\r
		fprintf(fp, "		add	esi, 2\n");\r
		fprintf(fp, "		mov	[_orgval], dx\n");\r
\r
		fprintf(fp, "		mov	dl, [_z80%s]\n", mz80Index);\r
		WriteValueToMemory("[_orgval]", "dl");\r
\r
		fprintf(fp, "		inc	word [_orgval]\n");\r
\r
		fprintf(fp, "		mov	dl, [_z80%s + 1]\n", mz80Index);\r
		WriteValueToMemory("[_orgval]", "dl");\r
		fprintf(fp, "		xor	edx, edx\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				dwAddr = *pbPC++;\n");\r
		fprintf(fp, "				dwAddr |= ((UINT32) *pbPC++ << 8);\n");\r
		WriteWordToMemory("dwAddr", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LdIndexPtrReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		IndexedOffset(mz80Index);\r
\r
		// DX Contains the address\r
\r
		WriteValueToMemory("dx", pbMathReg[dwOpcode & 0x07]);\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	// Get the offset\n");\r
		fprintf(fp, "				sdwAddr = ((INT32) %s + sdwAddr) & 0xffff;\n", mz80Index);\r
\r
		WriteValueToMemory("sdwAddr", pbMathRegC[dwOpcode & 0x07]);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void UndocMathIndex(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
	UINT8 *pbIndexReg = NULL;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode & 1)\r
			fprintf(fp, "		mov	dl, byte [_z80%s]\n", mz80Index);\r
		else\r
			fprintf(fp, "		mov	dl, byte [_z80%s + 1]\n", mz80Index);\r
\r
		// Info is in DL - let's do the math operation\r
\r
		fprintf(fp, "		sahf		; Store our flags in x86 flag reg\n");\r
\r
		dwOpcode1 = (dwOpcode & 0xf8);	// Only the operation\r
\r
		if (dwOpcode1 == 0x80)\r
			fprintf(fp, "		add	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0x88)\r
			fprintf(fp, "		adc	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0x90)\r
			fprintf(fp, "		sub	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0x98)\r
			fprintf(fp, "		sbb	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0xa0)\r
			fprintf(fp, "		and	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0xa8)\r
			fprintf(fp, "		xor	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0xb0)\r
			fprintf(fp, "		or	al, dl\n");\r
		else\r
		if (dwOpcode1 == 0xb8)\r
			fprintf(fp, "		cmp	al, dl\n");\r
		else\r
			assert(0);\r
\r
		fprintf(fp, "		lahf		; Get flags back into AH\n");\r
\r
		if (dwOpcode1 != 0xa8 && dwOpcode1 != 0xa0 && dwOpcode1 != 0xb0)\r
		{\r
			SetOverflow();\r
		}\r
\r
		if (dwOpcode1 == 0xa8)\r
			fprintf(fp, "		and	ah, 0ech	; Only these flags matter!\n");\r
\r
		if (dwOpcode1 == 0xa0)\r
		{\r
			fprintf(fp, "		and	ah, 0ech	; Only these flags matter!\n");\r
			fprintf(fp, "		or	ah, 010h	; Half carry gets set\n");\r
		}\r
\r
		if (dwOpcode1 == 0xb0)\r
			fprintf(fp, "		and	ah, 0ech ; No H, N, or C\n");\r
	\r
		if (dwOpcode1 == 0xb8)\r
			fprintf(fp, "		or	ah, 02h	; Negative gets set on a compare\n");\r
	\r
		if (dwOpcode1 == 0x80 || dwOpcode1 == 0x88)\r
			fprintf(fp, "		and	ah, 0fdh ; No N!\n");\r
	\r
		if (dwOpcode1 == 0x90 || dwOpcode1 == 0x98)\r
			fprintf(fp, "		or	ah, 02h	; N Gets set!\n");\r
	\r
		if (dwOpcode1 == 0xb0)\r
			fprintf(fp, "		and	ah, 0ech ; No H, N, or C\n");\r
	\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode & 1)\r
			pbIndexReg = mz80IndexHalfLow;\r
		else\r
			pbIndexReg = mz80IndexHalfHigh;\r
\r
		dwOpcode1 = (dwOpcode & 0xf8);	// Only the operation\r
\r
		if (0x80 == dwOpcode1)	// ADD\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A + %s;\n", pbIndexReg);\r
			SetAddFlagsSZHVC("cpu.z80A", pbIndexReg);\r
		}\r
		else\r
		if (0x88 == dwOpcode1)	// ADC\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A + %s + (cpu.z80F & Z80_FLAG_CARRY);\n", pbIndexReg);\r
			SetAdcFlagsSZHVC("cpu.z80A", pbIndexReg);\r
		}\r
		else\r
		if (0x90 == dwOpcode1)	// SUB\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A - %s;\n", pbIndexReg);\r
			SetSubFlagsSZHVC("cpu.z80A", pbIndexReg);\r
		}\r
		else								\r
		if (0x98 == dwOpcode1)	// SBC\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A - %s - (cpu.z80F & Z80_FLAG_CARRY);\n", pbIndexReg);\r
			SetSbcFlagsSZHVC("cpu.z80A", pbIndexReg);\r
		}\r
		else\r
		if (0xa0 == dwOpcode1)	// AND\r
		{\r
			fprintf(fp, "				cpu.z80A &= %s;\n", pbIndexReg);\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostANDFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xa8 == dwOpcode1)	// XOR\r
		{\r
			fprintf(fp, "				cpu.z80A ^= %s;\n", pbIndexReg);\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xb0 == dwOpcode1)	// OR\r
		{\r
			fprintf(fp, "				cpu.z80A |= %s;\n", pbIndexReg);\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xb8 == dwOpcode1)	// CP - Don't do anything! Just flags!\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		{\r
			assert(0);\r
		}\r
\r
		InvalidInstructionC(2);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void UndocLoadHalfIndexReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dl, [esi]	; Get immediate byte to load\n");\r
		fprintf(fp, "		inc	esi	; Next byte\n");\r
\r
		if (dwOpcode == 0x26)\r
			fprintf(fp, "		mov	byte [_z80%s + 1], dl\n", mz80Index);\r
		if (dwOpcode == 0x2e)\r
			fprintf(fp, "		mov	byte [_z80%s], dl\n", mz80Index);\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode & 0x08)\r
			fprintf(fp, "			%s = *pbPC++;\n", mz80IndexHalfLow);\r
		else\r
			fprintf(fp, "			%s = *pbPC++;\n", mz80IndexHalfHigh);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void UndocIncDecIndexReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		sahf\n");\r
\r
		if (dwOpcode == 0x24)\r
			fprintf(fp, "		inc	byte [_z80%s + 1]\n", mz80Index);\r
		if (dwOpcode == 0x25)\r
			fprintf(fp, "		dec	byte [_z80%s + 1]\n", mz80Index);\r
\r
		if (dwOpcode == 0x2c)\r
			fprintf(fp, "		inc	byte [_z80%s]\n", mz80Index);\r
		if (dwOpcode == 0x2d)\r
			fprintf(fp, "		dec	byte [_z80%s]\n", mz80Index);\r
\r
		fprintf(fp,     "		lahf\n");\r
		SetOverflow();\r
\r
		if ((0x24 == dwOpcode) || (0x2c == dwOpcode))\r
			fprintf(fp, "		and	ah, 0fdh	; Knock out N!\n");\r
		else\r
			fprintf(fp, "		or	ah, 02h	; Set negative!\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
\r
		if (0x24 == dwOpcode || 0x2c == dwOpcode)\r
		{\r
			if (dwOpcode & 0x08)\r
				fprintf(fp, "				cpu.z80F |= bPostIncFlags[%s++];\n", mz80IndexHalfLow);\r
			else	\r
				fprintf(fp, "				cpu.z80F |= bPostIncFlags[%s++];\n", mz80IndexHalfHigh);\r
		}\r
		else\r
		{\r
			if (dwOpcode & 0x08)\r
				fprintf(fp, "				cpu.z80F |= bPostDecFlags[%s--];\n", mz80IndexHalfLow);\r
			else	\r
				fprintf(fp, "				cpu.z80F |= bPostDecFlags[%s--];\n", mz80IndexHalfHigh);\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void ExIndexed(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if( bThroughCallHandler )\r
		{\r
			fprintf(fp, "		mov dx, word [_z80%s]\n", mz80Index);\r
			fprintf(fp, "		push dx\n");\r
			fprintf(fp, "		call PopWord\n");\r
			fprintf(fp, "		mov	[_z80%s], dx\n", mz80Index);\r
			fprintf(fp, "		pop dx\n");\r
			fprintf(fp, "		mov [_wordval], dx\n" );\r
			fprintf(fp, "		call PushWord\n" );\r
		}  \r
		else  \r
		{\r
			fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
			fprintf(fp, "		mov	dx, word [_z80sp]\n");\r
			fprintf(fp, "		xor	edi, edi\n");\r
			fprintf(fp, "		mov	di, [_z80%s]\n", mz80Index);\r
			fprintf(fp, "		xchg	di, [ebp+edx]\n");\r
			fprintf(fp, "		mov	[_z80%s], di\n", mz80Index);\r
			fprintf(fp, "		xor	edx, edx\n");\r
			fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
		}\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		ReadWordFromMemory("cpu.z80sp", "dwAddr");\r
		WriteWordToMemory("cpu.z80sp", mz80Index);\r
		fprintf(fp, "				%s = dwAddr;\n", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void IncDecIndexReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0x23)\r
			fprintf(fp, "		inc	word [_z80%s]	; Increment our mz80Index register\n", mz80Index);\r
		else\r
			fprintf(fp, "		dec	word [_z80%s]	; Increment our mz80Index register\n", mz80Index);\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x23 == dwOpcode)\r
		{\r
			fprintf(fp, "				%s++;\n", mz80Index);\r
		}\r
		else\r
		{\r
			fprintf(fp, "				%s--;\n", mz80Index);\r
		}\r
\r
		fprintf(fp, "				%s &= 0xffff;\n", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LdRegIndexOffset(UINT32 dwOpcode)\r
{\r
	UINT32 dwOpcode1 = 0;\r
\r
	dwOpcode1 = (dwOpcode & 0x38) >> 3;\r
	\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		IndexedOffset(mz80Index);\r
	\r
		ReadValueFromMemory("dx", pbMathReg[dwOpcode1]);\r
	\r
		fprintf(fp, "		xor	edx, edx	; Make sure we don't hose things\n");\r
		dwGlobalLabel++;\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	// Get the offset\n");\r
		fprintf(fp, "				sdwAddr = ((INT32) %s + sdwAddr) & 0xffff;\n", mz80Index);\r
\r
		ReadValueFromMemory("sdwAddr", pbMathRegC[dwOpcode1]);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LdByteToIndex(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	; Get our address\n");\r
		fprintf(fp, "		add	esi, 2	; Skip over our storage bytes\n");\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	di, dx	; Store it here for later\n");\r
		fprintf(fp, "		xor	dh, dh\n");\r
		fprintf(fp, "		or	dl, dl\n");\r
		fprintf(fp, "		jns	noNegate%ld\n", dwGlobalLabel);\r
		fprintf(fp, "		dec	dh\n");\r
		fprintf(fp, "noNegate%ld:\n", dwGlobalLabel);\r
		fprintf(fp, "		add	dx, [_z80%s]	; Add in our index\n", mz80Index);\r
		fprintf(fp, "		mov	[_orgval], dx	; Store our address to write to\n");\r
		fprintf(fp, "		mov	dx, di\n");\r
		fprintf(fp, "		xchg	dh, dl\n");\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
	\r
		WriteValueToMemory("[_orgval]", "dl");\r
	\r
		fprintf(fp, "		xor	edx, edx\n");\r
		++dwGlobalLabel;\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	// Get the offset\n");\r
		fprintf(fp, "				sdwAddr = ((INT32) %s + sdwAddr) & 0xffff;\n", mz80Index);\r
\r
		WriteValueToMemory("sdwAddr", "*pbPC++");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
\r
void SPToIndex(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [_z80%s] ; Get our source register\n", mz80Index);\r
		fprintf(fp, "		mov	word [_z80sp], dx	; Store our new SP\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				cpu.z80sp = %s;\n", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void AddIndexHandler(UINT32 dwOpcode)\r
{\r
	UINT8 bRegPair;\r
\r
	bRegPair = dwOpcode >> 4;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dh, ah	; Get our flags\n");\r
		fprintf(fp, "		and	dh, 0ech	; Preserve the top three and bits 2 & 3\n");\r
\r
		fprintf(fp, "		mov	[cyclesRemaining], edi\n");\r
		fprintf(fp, "		mov	di, [_z80%s]	; Get our value\n", mz80Index);\r
		fprintf(fp, "		mov	[_orgval], di	; Store our original value\n");\r
		fprintf(fp, "		add	di, %s\n", pbIndexedRegPairs[(dwOpcode & 0x30) >> 4]);\r
		fprintf(fp, "		lahf\n");\r
		fprintf(fp, "		mov	[_z80%s], di	; Store our register back\n", mz80Index);\r
\r
		fprintf(fp, "		mov	di, [_orgval]	; Get original\n");\r
		fprintf(fp, "		xor	di, word [_z80%s] ; XOR It with our computed value\n", mz80Index);\r
		fprintf(fp, "		xor	di, %s\n", pbIndexedRegPairs[(dwOpcode & 0x30) >> 4]);\r
		fprintf(fp, "		and	di, 1000h	; Just our half carry\n");\r
		fprintf(fp, "		or		dx, di	; Or in our flags\n");\r
		fprintf(fp, "		and	ah, 01h	; Just carry\n");\r
		fprintf(fp, "		or	ah, dh\n");\r
		fprintf(fp, "		mov	edi, [cyclesRemaining]\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (bRegPair != 2)\r
		{ \r
			fprintf(fp, "			cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
			fprintf(fp, "			dwTemp = %s + %s;\n", mz80Index, pbRegPairsC[bRegPair]);\r
			fprintf(fp, "			cpu.z80F |= ((dwTemp >> 16) & Z80_FLAG_CARRY) | (((%s ^ dwTemp ^ %s) >> 8) & Z80_FLAG_HALF_CARRY);\n", mz80Index, pbRegPairsC[bRegPair]);\r
			fprintf(fp, "			%s = dwTemp & 0xffff;\n", mz80Index);\r
		}\r
		else\r
		{\r
			fprintf(fp, "			cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_HALF_CARRY);\n");\r
			fprintf(fp, "			dwTemp = %s + %s;\n", mz80Index, mz80Index);\r
			fprintf(fp, "			cpu.z80F |= ((dwTemp >> 16) & Z80_FLAG_CARRY) | (((%s ^ dwTemp ^ %s) >> 8) & Z80_FLAG_HALF_CARRY);\n", mz80Index, pbRegPairsC[bRegPair]);\r
			fprintf(fp, "			%s = dwTemp & 0xffff;\n", mz80Index);\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void JPIXIYHandler(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [_z80%s]	; Get our value\n", mz80Index);\r
		fprintf(fp, "		mov	esi, edx		; New PC!\n");\r
		fprintf(fp, "		add	esi, ebp		; Add in our base\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				pbPC = cpu.z80Base + %s;\n", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void IncDecIndexed(UINT32 dwOpcode)\r
{\r
	UINT8 szIndex[30];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		IndexedOffset(mz80Index);\r
\r
		fprintf(fp, "		mov	[_orgval], dx\n");\r
\r
		ReadValueFromMemory("dx", "dl");\r
\r
		fprintf(fp, "		sahf\n");\r
\r
		if (dwOpcode == 0x34)\r
			fprintf(fp, "		inc	dl\n");\r
		else\r
			fprintf(fp, "		dec	dl\n");\r
		fprintf(fp, "		lahf\n");\r
\r
		fprintf(fp, "		o16	pushf\n");\r
		fprintf(fp, "		shl	edx, 16\n");\r
		fprintf(fp, "		and	ah, 0fbh	;	Knock out parity/overflow\n");\r
		fprintf(fp, "		pop	dx\n");\r
		fprintf(fp, "		and	dh, 08h ; Just the overflow\n");\r
		fprintf(fp, "		shr	dh, 1	; Shift it into position\n");\r
		fprintf(fp, "		or	ah, dh	; OR It in with the real flags\n");\r
\r
		fprintf(fp, "		shr	edx, 16\n");\r
\r
		if (dwOpcode == 0x34)\r
			fprintf(fp, "		and	ah, 0fdh	; Knock out N!\n");\r
		else\r
			fprintf(fp, "		or		ah, 02h	; Make it N!\n");\r
\r
		WriteValueToMemory("[_orgval]", "dl");\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	/* Get LSB first */\n");\r
		fprintf(fp, "				dwAddr = (sdwAddr + (INT32) %s) & 0xffff;\n", mz80Index);\r
\r
		ReadValueFromMemory("dwAddr", "bTemp");\r
\r
		fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_SIGN | Z80_FLAG_ZERO | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE);\n");\r
		\r
		if (0x34 == dwOpcode)\r
		{\r
			fprintf(fp ,"				cpu.z80F |= bPostIncFlags[bTemp++];\n");\r
		}\r
		else\r
		{\r
			fprintf(fp ,"				cpu.z80F |= bPostDecFlags[bTemp--];\n");\r
		}\r
	\r
		WriteValueToMemory("dwAddr", "bTemp");\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void MathOperationIndexed(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		IndexedOffset(mz80Index);\r
		ReadValueFromMemory("dx", "dl");\r
\r
		fprintf(fp, "		sahf\n");\r
\r
		if (dwOpcode == 0x86)           // Add\r
			fprintf(fp, "		add	al, dl\n");\r
		if (dwOpcode == 0x8e)           // Adc\r
			fprintf(fp, "		adc	al, dl\n");\r
		if (dwOpcode == 0x96)           // Sub\r
			fprintf(fp, "		sub	al, dl\n");\r
		if (dwOpcode == 0x9e)           // Sbc\r
			fprintf(fp, "		sbb	al, dl\n");\r
		if (dwOpcode == 0xa6)           // And\r
			fprintf(fp, "		and	al, dl\n");\r
		if (dwOpcode == 0xae)           // Xor\r
			fprintf(fp, "		xor	al, dl\n");\r
		if (dwOpcode == 0xb6)           //      Or\r
			fprintf(fp, "		or	al, dl\n");\r
		if (dwOpcode == 0xbe)           // Cp\r
			fprintf(fp, "		cmp	al, dl\n");\r
\r
		fprintf(fp, "		lahf\n");\r
\r
		if (dwOpcode == 0x86 || dwOpcode == 0x8e)\r
		{\r
			SetOverflow();\r
			fprintf(fp, "		and	ah, 0fdh	; Knock out negative\n");\r
		}\r
\r
		if (dwOpcode == 0x96 || dwOpcode == 0x9e || dwOpcode == 0xbe)\r
		{\r
			SetOverflow();\r
			fprintf(fp, "		or	ah, 02h	; Set negative\n");\r
		}\r
\r
		if (dwOpcode == 0xae || dwOpcode == 0xb6)\r
			fprintf(fp, "		and	ah, 0ech	; Knock out H, N, and C\n");\r
\r
		if (dwOpcode == 0xa6)\r
		{\r
			fprintf(fp, "		and	ah,0fch	; Knock out N & C\n");\r
			fprintf(fp, "		or	ah, 10h	; Set half carry\n");\r
		}\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "				sdwAddr = (INT8) *pbPC++;	/* Get LSB first */\n");\r
		fprintf(fp, "				dwAddr = (sdwAddr + (INT32) %s) & 0xffff;\n", mz80Index);\r
\r
		ReadValueFromMemory("dwAddr", "bTemp");\r
\r
		if (0x86 == dwOpcode)		// ADD A, (IX/IY+nn)\r
		{\r
			SetAddFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A += bTemp;\n");\r
		}\r
		else\r
		if (0x8e == dwOpcode)		// ADC A, (IX/IY+nn)\r
		{\r
			fprintf(fp, "				bTemp2 = (cpu.z80F & Z80_FLAG_CARRY);\n");\r
			SetAdcFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A += bTemp + bTemp2;\n");\r
		}\r
		else\r
		if (0x96 == dwOpcode)		// SUB A, (IX/IY+nn)\r
		{\r
			SetSubFlagsSZHVC("cpu.z80A", "bTemp");\r
			fprintf(fp, "				cpu.z80A -= bTemp;\n");\r
		}\r
		else\r
		if (0x9e == dwOpcode)		// SBC A, (IX/IY+nn)\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80A;\n");\r
			fprintf(fp, "				cpu.z80A = cpu.z80A - bTemp - (cpu.z80F & Z80_FLAG_CARRY);\n");\r
			SetSbcFlagsSZHVC("bTemp2", "bTemp");\r
		}\r
		else\r
		if (0xa6 == dwOpcode)		// AND A, (IX/IY+nn)\r
		{\r
			fprintf(fp, "				cpu.z80A &= bTemp;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostANDFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xae == dwOpcode)		// XOR A, (IX/IY+nn)\r
		{\r
			fprintf(fp, "				cpu.z80A ^= bTemp;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xb6 == dwOpcode)		// OR A, (IX/IY+nn)\r
		{\r
			fprintf(fp, "				cpu.z80A |= bTemp;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_CARRY | Z80_FLAG_NEGATIVE | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_HALF_CARRY | Z80_FLAG_ZERO | Z80_FLAG_SIGN);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[cpu.z80A];\n\n");\r
		}\r
		else\r
		if (0xbe == dwOpcode)		// CP A, (IX/IY+nn)\r
		{\r
			SetSubFlagsSZHVC("cpu.z80A", "bTemp");\r
		}\r
		else\r
			InvalidInstructionC(2);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void UndocIndexToReg(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((dwOpcode & 0x07) == 2 || (dwOpcode & 0x07) == 3)\r
			fprintf(fp, "	mov	dx, [_z80de]	; Get DE\n");\r
\r
		if ((dwOpcode & 0x07) == 4)\r
			fprintf(fp, "	mov	dh, byte [_z80%s + 1]\n", mz80Index);\r
		if ((dwOpcode & 0x07) == 5)\r
			fprintf(fp, "	mov	dl, byte [_z80%s]\n", mz80Index);\r
\r
		fprintf(fp, "		mov   byte [_z80%s + %ld], %s\n", mz80Index, 1 - ((dwOpcode & 0x08) >> 3), pbLocalReg[dwOpcode & 0x07]);\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode != 0x64 && dwOpcode != 0x65 && dwOpcode != 0x6c && dwOpcode != 0x6d)\r
		{\r
			if (dwOpcode & 0x08)\r
				fprintf(fp, "			%s = %s;\n", mz80IndexHalfLow, pbLocalRegC[dwOpcode & 0x07]);\r
			else\r
				fprintf(fp, "			%s = %s;\n", mz80IndexHalfHigh, pbLocalRegC[dwOpcode & 0x07]);\r
		}\r
		else		// IX/IY High/low weirdness afoot...\r
		{\r
			// We don't generate any code for ld indexH, indexH and ld indexL, indexL\r
\r
			if (0x65 == dwOpcode)		// LD indexH, indexL\r
			{\r
				fprintf(fp, "			%s = %s;\n", mz80IndexHalfHigh, mz80IndexHalfLow);\r
			}\r
			else\r
			if (0x6c == dwOpcode)		// LD indexH, indexL\r
			{\r
				fprintf(fp, "			%s = %s;\n", mz80IndexHalfLow, mz80IndexHalfHigh);\r
			}\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void UndocRegToIndex(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		if ((dwOpcode & 0x38) == 0x10 || (dwOpcode & 0x38) == 0x18)\r
			fprintf(fp, "		mov	dx, [_z80de]	; Get a usable copy of DE here\n");\r
\r
		fprintf(fp, "		mov	%s, byte [_z80%s + %ld]\n", pbLocalReg[(dwOpcode >> 3) & 0x07], mz80Index, 1 - (dwOpcode & 1));\r
\r
		if ((dwOpcode & 0x38) == 0x10 || (dwOpcode & 0x38) == 0x18)\r
			fprintf(fp, "		mov	[_z80de], dx	; Put it back!\n");\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (dwOpcode & 1)\r
			fprintf(fp, "			%s = %s;\n", pbLocalRegC[(dwOpcode >> 3) & 0x07], mz80IndexHalfLow);\r
		else\r
			fprintf(fp, "			%s = %s;\n", pbLocalRegC[(dwOpcode >> 3) & 0x07], mz80IndexHalfHigh);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void LoadImmediate(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
\r
		fprintf(fp, "		mov	dx, [esi]	; Get our word to load\n");\r
		fprintf(fp, "		add	esi, 2	; Advance past the word\n");\r
		fprintf(fp, "		mov	[_z80%s], dx ; Store our new value\n", mz80Index);\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "		%s = *pbPC++;\n", mz80Index);\r
		fprintf(fp, "		%s |= ((UINT32) *pbPC++ << 8);\n", mz80Index);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
void PushPopOperationsIndexed(UINT32 dwOpcode)\r
{\r
	UINT8 bRegPair;\r
	UINT8 bRegBaseLsb[25];\r
	UINT8 bRegBaseMsb[25];\r
	UINT8 string[150];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		sprintf(bRegBaseLsb, "byte [_z80%s]", mz80Index);\r
		sprintf(bRegBaseMsb, "byte [_z80%s + 1]", mz80Index);\r
\r
		sprintf(string, "[_z80%s]", mz80Index);\r
\r
		ProcBegin(dwOpcode);\r
\r
		if (dwOpcode == 0xe5)	// Push IX/IY\r
		{\r
			fprintf(fp, "		sub	word [_z80sp], 2\n");\r
			fprintf(fp, "		mov	dx, [_z80sp]\n");\r
	\r
			WriteWordToMemory("dx", string);		\r
		}\r
		else	// Pop\r
		{\r
			fprintf(fp, "		mov	dx, [_z80sp]\n");\r
			ReadWordFromMemory("dx", string);\r
			fprintf(fp, "		add	word [_z80sp], 2\n");\r
		}	\r
\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0xe5 == dwOpcode)	// Push IX/IY\r
		{\r
			fprintf(fp, "					cpu.z80sp -= 2;\n");\r
			fprintf(fp, "					pbSP = (cpu.z80Base + cpu.z80sp);	/* Normalize the stack pointer */\n");\r
			\r
			WriteWordToMemory("cpu.z80sp", mz80Index);\r
		}\r
		else\r
		if (0xe1 == dwOpcode)	// Pop IX/IY\r
		{\r
			ReadWordFromMemory("cpu.z80sp", mz80Index);\r
\r
			fprintf(fp, "					cpu.z80sp += 2;\n");\r
			fprintf(fp, "					pbSP = (cpu.z80Base + cpu.z80sp);	/* Normalize the stack pointer */\n");\r
			return;\r
		}\r
	}\r
	else\r
		assert(0);\r
}\r
\r
// DDFD XXCB Instructions\r
\r
void ddcbBitWise(UINT32 dwOpcode)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		ProcBegin(dwOpcode);\r
	\r
		// NOTE: _orgval contains the address to get from. It includes the offset\r
		// already computed plus the mz80Index register.\r
\r
		// Read our byte\r
\r
		fprintf(fp, "		mov	dx, [_orgval]	; Get our target address\n");\r
		ReadValueFromMemory("dx", "dl");\r
\r
		// Do the operation\r
\r
		if (dwOpcode != 0x06 && dwOpcode != 0x0e &&\r
			 dwOpcode != 0x16 && dwOpcode != 0x1e &&\r
			 dwOpcode != 0x26 && dwOpcode != 0x2e &&\r
			 dwOpcode != 0x3e && (dwOpcode & 0xc7) != 0x86 &&\r
			 (dwOpcode & 0xc7) != 0xc6)\r
		{\r
			fprintf(fp, "		mov	dh, ah	; Store our original flags\n");\r
			fprintf(fp, "		and	dh, 29h	; Keep our old flags\n");\r
		}\r
\r
		if ((dwOpcode & 0xc7) != 0x86 && (dwOpcode & 0xc7) != 0xc6)\r
			fprintf(fp, "		sahf		; Restore our flags\n");\r
\r
		if (dwOpcode == 0x06)\r
			fprintf(fp, "		rol	dl, 1\n");\r
		if (dwOpcode == 0x0e)\r
			fprintf(fp, "		ror	dl, 1\n");\r
		if (dwOpcode == 0x16)\r
			fprintf(fp, "		rcl	dl, 1\n");\r
		if (dwOpcode == 0x1e)\r
			fprintf(fp, "		rcr	dl, 1\n");\r
		if (dwOpcode == 0x26)\r
			fprintf(fp, "		shl	dl, 1\n");\r
		if (dwOpcode == 0x2e)\r
			fprintf(fp, "		sar	dl, 1\n");\r
		if (dwOpcode == 0x3e)\r
			fprintf(fp, "		shr	dl, 1\n");\r
\r
		// BIT, AND, and OR\r
\r
		if ((dwOpcode & 0xc7) == 0x46)\r
			fprintf(fp, "		test	dl, 0%.2xh	; Is it set?\n", (1 << ((dwOpcode >> 3) & 0x07)));\r
		else\r
		if ((dwOpcode & 0xc7) == 0x86)\r
			fprintf(fp, "		and	dl, 0%.2xh	; Reset the bit\n", \r
						0xff - (1 << ((dwOpcode >> 3) & 0x07)));\r
		else\r
		if ((dwOpcode & 0xc7) == 0xc6)\r
			fprintf(fp, "		or	dl, 0%.2xh	; Set the bit\n",\r
						(1 << ((dwOpcode >> 3) & 0x07)));\r
	\r
		if ((dwOpcode & 0xc7) != 0x86 && (dwOpcode & 0xc7) != 0xc6)\r
			fprintf(fp, "		lahf		; Get our flags back\n");  \r
\r
		// Do the flag fixup (if any)\r
\r
		if (dwOpcode == 0x26 || dwOpcode == 0x2e || ((dwOpcode & 0xc7) == 0x46))\r
			fprintf(fp, "		and	ah, 0edh	; No Half carry or negative!\n");\r
	\r
		if (dwOpcode == 0x06 || dwOpcode == 0x0e ||\r
			 dwOpcode == 0x16 || dwOpcode == 0x1e ||\r
			 dwOpcode == 0x3e)\r
			fprintf(fp, "		and	ah, 0edh	; Knock out H & N\n");\r
\r
		// BIT!\r
\r
		if ((dwOpcode & 0xc7) == 0x46)\r
		{\r
			fprintf(fp, "		or	ah, 10h	; OR In our half carry\n");\r
			fprintf(fp, "		and	ah, 0d0h ; New flags\n");\r
			fprintf(fp, "		or	ah, dh	; OR In our old flags\n");\r
		}\r
\r
		// Now write our data back if it's not a BIT instruction\r
\r
		if ((dwOpcode & 0xc7) != 0x46)  // If it's not a BIT, write it back\r
			WriteValueToMemory("[_orgval]", "dl");\r
	\r
		fprintf(fp, "		xor	edx, edx\n");\r
		FetchNextInstruction(dwOpcode);\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		if (0x06 == dwOpcode)		// RLC\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp2 = (bTemp >> 7);\n");\r
			fprintf(fp, "				bTemp = (bTemp << 1) | bTemp2;\n");\r
			fprintf(fp, "				cpu.z80F |= bTemp2 | bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x0e == dwOpcode)		// RRC\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp = (bTemp >> 1) | (bTemp << 7);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x16 == dwOpcode)		// RL\r
		{\r
			fprintf(fp, "				bTemp2 = cpu.z80F & Z80_FLAG_CARRY;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp >> 7);\n");\r
			fprintf(fp, "				bTemp = (bTemp << 1) | bTemp2;\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x1e == dwOpcode)		// RR\r
		{\r
			fprintf(fp, "				bTemp2 = (cpu.z80F & Z80_FLAG_CARRY) << 7;\n");\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp = (bTemp >> 1) | bTemp2;\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x26 == dwOpcode)		// SLA\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp >> 7);\n");\r
			fprintf(fp, "				bTemp = (bTemp << 1);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x2e == dwOpcode)		// SRA\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp = (bTemp >> 1) | (bTemp & 0x80);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if (0x3e == dwOpcode)		// SRL\r
		{\r
			fprintf(fp, "				cpu.z80F &= ~(Z80_FLAG_ZERO | Z80_FLAG_SIGN | Z80_FLAG_HALF_CARRY | Z80_FLAG_OVERFLOW_PARITY | Z80_FLAG_NEGATIVE | Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				cpu.z80F |= (bTemp & Z80_FLAG_CARRY);\n");\r
			fprintf(fp, "				bTemp = (bTemp >> 1);\n");\r
			fprintf(fp, "				cpu.z80F |= bPostORFlags[bTemp];\n");\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if ((dwOpcode & 0xc0) == 0x40)	// BIT\r
		{\r
			fprintf(fp, "				cpu.z80F = (cpu.z80F & ~(Z80_FLAG_ZERO | Z80_FLAG_NEGATIVE)) | Z80_FLAG_HALF_CARRY;\n");\r
			fprintf(fp, "				if (!(bTemp & 0x%.2x))\n", 1 << ((dwOpcode >> 3) & 0x07));\r
			fprintf(fp, "				{\n");\r
			fprintf(fp, "					cpu.z80F |= Z80_FLAG_ZERO;\n");\r
			fprintf(fp, "				}\n");\r
		}\r
		else\r
		if ((dwOpcode & 0xc0) == 0x80)	// RES\r
		{\r
			fprintf(fp, "				bTemp &= 0x%.2x;\n", ~(1 << ((dwOpcode >> 3) & 0x07)) & 0xff);\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
		if ((dwOpcode & 0xc0) == 0xC0)	// SET\r
		{\r
			fprintf(fp, "				bTemp |= 0x%.2x;\n", 1 << ((dwOpcode >> 3) & 0x07));\r
			WriteValueToMemory("dwAddr", "bTemp");\r
		}\r
		else\r
			InvalidInstructionC(4);\r
	}\r
	else\r
		assert(0);\r
}\r
\r
GetTicksCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sGetElapsedTicks\n", cpubasename);\r
		fprintf(fp, "		global	%sGetElapsedTicks_\n", cpubasename);\r
		fprintf(fp, "		global	%sGetElapsedTicks\n", cpubasename);\r
	\r
		Alignment();\r
		sprintf(procname, "%sGetElapsedTicks_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sGetElapsedTicks:\n", cpubasename);\r
		fprintf(fp, "%sGetElapsedTicks:\n", cpubasename);\r
	\r
		if (bUseStack)\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our context address\n");\r
	\r
		fprintf(fp, "		or	eax, eax	; Should we clear it?\n");\r
		fprintf(fp, "		jz	getTicks\n");\r
		fprintf(fp, "		xor	eax, eax\n");\r
		fprintf(fp, "		xchg	eax, [dwElapsedTicks]\n");\r
		fprintf(fp, "		ret\n");\r
		fprintf(fp, "getTicks:\n");\r
		fprintf(fp, "		mov	eax, [dwElapsedTicks]\n");\r
		fprintf(fp, "		ret\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* This will return the elapsed ticks */\n\n");\r
		fprintf(fp, "UINT32 %sGetElapsedTicks(UINT32 dwClear)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	UINT32 dwTemp = dwElapsedTicks;\n\n");\r
		fprintf(fp, "	if (dwClear)\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		dwElapsedTicks = 0;\n");\r
		fprintf(fp, "	}\n\n");\r
		fprintf(fp, "	return(dwTemp);\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
ReleaseTimesliceCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sReleaseTimeslice\n", cpubasename);\r
		fprintf(fp, "		global	%sReleaseTimeslice_\n", cpubasename);\r
		fprintf(fp, "		global	%sReleaseTimeslice\n", cpubasename);\r
	\r
		Alignment();\r
		sprintf(procname, "%sReleaseTimeslice_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sReleaseTimeslice:\n", cpubasename);\r
		fprintf(fp, "%sReleaseTimeslice:\n", cpubasename);\r
	\r
		fprintf(fp, "		mov	eax, [cyclesRemaining]\n");\r
		fprintf(fp, "		sub	[dwOriginalExec], eax\n");\r
		fprintf(fp, "		mov	[cyclesRemaining], dword 0\n");\r
	\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Releases mz80 from its current timeslice */\n\n");\r
		fprintf(fp, "void %sReleaseTimeslice(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	dwOriginalCycles -= sdwCyclesRemaining;\n");\r
		fprintf(fp, "	sdwCyclesRemaining = 0;\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
DataSegment()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT8 bUsed[256];\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		if (bOS2)\r
			fprintf(fp, "		section	.DATA32	use32 flat class=data\n");\r
		else\r
			fprintf(fp, "		section	.data	use32 flat class=data\n");\r
	\r
		Alignment();\r
		fprintf(fp, "		global	_%scontextBegin\n", cpubasename);\r
		fprintf(fp, "_%scontextBegin:\n", cpubasename);\r
\r
		fprintf(fp, "		global	_z80pc\n");\r
		fprintf(fp, "		global	z80pc_\n");\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	z80pc\n");\r
\r
		fprintf(fp, "		global	_z80nmiAddr\n");\r
		fprintf(fp, "		global	_z80intAddr\n");\r
		fprintf(fp, "		global	z80intAddr\n");\r
\r
			fprintf(fp, "\n");\r
		fprintf(fp, "; DO NOT CHANGE THE ORDER OF AF, BC, DE, HL and THE PRIME REGISTERS!\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "_z80Base	dd	0	; Base address for Z80 stuff\n");\r
		fprintf(fp, "_z80MemRead	dd	0	; Offset of memory read structure array\n");\r
		fprintf(fp, "_z80MemWrite	dd	0	; Offset of memory write structure array\n");\r
		fprintf(fp, "_z80IoRead	dd	0	; Base address for I/O reads list\n");\r
		fprintf(fp, "_z80IoWrite	dd	0	; Base address for I/O write list\n");\r
		fprintf(fp, "_z80clockticks	dd	0	; # Of clock tips that have elapsed\n");\r
		fprintf(fp, "_z80iff	dd	0	; Non-zero if we're in an interrupt\n");\r
		fprintf(fp, "_z80interruptMode dd	0	; Interrupt mode\n");\r
		fprintf(fp, "_z80halted	dd	0	; 0=Not halted, 1=Halted\n");\r
#ifdef MZ80_TRAP\r
		fprintf(fp, "_z80trapList	dd	0	; pointer to trap list\n");\r
		fprintf(fp, "_z80trapAddr	dw	0	; PC where trap occurred\n");\r
#endif\r
		fprintf(fp, "_z80af		dd	0	; A Flag & Flags\n");\r
		fprintf(fp, "_z80bc		dd	0	; BC\n");\r
		fprintf(fp, "_z80de		dd	0	; DE\n");\r
		fprintf(fp, "_z80hl		dd	0	; HL\n");\r
		fprintf(fp, "_z80afprime	dd	0	; A Flag & Flags prime\n");\r
		fprintf(fp, "_z80bcprime	dd	0	; BC prime\n");\r
		fprintf(fp, "_z80deprime	dd	0	; DE prime\n");\r
		fprintf(fp, "_z80hlprime	dd	0	; HL prime\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "; The order of the following registers can be changed without adverse\n");\r
		fprintf(fp, "; effect. Keep the WORD and DWORDs on boundaries of two for faster access\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "_z80ix		dd	0	; IX\n");\r
		fprintf(fp, "_z80iy		dd	0	; IY\n");\r
		fprintf(fp, "_z80sp		dd	0	; Stack pointer\n");\r
		\r
		if (bPlain)\r
			fprintf(fp,"z80pc:\n");\r
	\r
		fprintf(fp, "z80pc_:\n");\r
		fprintf(fp, "_z80pc		dd	0	; PC\n");\r
		fprintf(fp, "_z80nmiAddr	dd	0	; Address to jump to for NMI\n");\r
		fprintf(fp, "z80intAddr:\n");\r
		fprintf(fp, "_z80intAddr	dd	0	; Address to jump to for INT\n");\r
		fprintf(fp, "_z80rCounter	dd	0	; R Register counter\n");\r
		fprintf(fp, "_z80i		db	0	; I register\n");\r
		fprintf(fp, "_z80r		db	0	; R register\n");\r
		fprintf(fp, "_z80intPending	db	0	; Non-zero if an interrupt is pending\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "_%scontextEnd:\n", cpubasename);\r
		Alignment();\r
		fprintf(fp, "dwElapsedTicks	dd	0	; # Of ticks elapsed\n");\r
		fprintf(fp, "cyclesRemaining	dd	0	; # Of cycles remaining\n");\r
		fprintf(fp, "dwOriginalExec	dd	0	; # Of cycles originally executing\n");\r
		fprintf(fp, "dwLastRSample	dd	0	; Last sample for R computation\n");\r
		fprintf(fp, "dwEITiming	dd	0	; Used when we cause an interrupt\n");\r
		fprintf(fp, "_orgval	dw	0	; Scratch area\n");\r
		fprintf(fp, "_orgval2	dw	0	; Scratch area\n");\r
		fprintf(fp, "_wordval	dw	0	; Scratch area\n");\r
		fprintf(fp, "_intData	db	0	; Interrupt data when an interrupt is pending\n");\r
		fprintf(fp, "bEIExit	db	0	; Are we exiting because of an EI instruction?\n");\r
		fprintf(fp, "\n");\r
\r
		// Debugger junk\r
\r
		fprintf(fp, "RegTextPC	db	'PC',0\n");\r
		fprintf(fp, "RegTextAF	db	'AF',0\n");\r
		fprintf(fp, "RegTextBC	db	'BC',0\n");\r
		fprintf(fp, "RegTextDE	db	'DE',0\n");\r
		fprintf(fp, "RegTextHL	db	'HL',0\n");\r
		fprintf(fp, "RegTextAFP	db	'AF',27h,0\n");\r
		fprintf(fp, "RegTextBCP	db	'BC',27h,0\n");\r
		fprintf(fp, "RegTextDEP	db	'DE',27h,0\n");\r
		fprintf(fp, "RegTextHLP	db	'HL',27h,0\n");\r
		fprintf(fp, "RegTextIX	db	'IX',0\n");\r
		fprintf(fp, "RegTextIY	db	'IY',0\n");\r
		fprintf(fp, "RegTextSP	db	'SP',0\n");\r
		fprintf(fp, "RegTextI	db	'I',0\n");\r
		fprintf(fp, "RegTextR	db	'R',0\n");\r
\r
		// 8 Byte textual info\r
\r
		fprintf(fp, "RegTextA	db	'A',0\n");\r
		fprintf(fp, "RegTextB	db	'B',0\n");\r
		fprintf(fp, "RegTextC	db	'C',0\n");\r
		fprintf(fp, "RegTextD	db	'D',0\n");\r
		fprintf(fp, "RegTextE	db	'E',0\n");\r
		fprintf(fp, "RegTextH	db	'H',0\n");\r
		fprintf(fp, "RegTextL	db	'L',0\n");\r
		fprintf(fp, "RegTextF	db	'F',0\n");\r
\r
		// Individual flags\r
\r
		fprintf(fp, "RegTextCarry	db	'Carry',0\n");\r
		fprintf(fp, "RegTextNegative	db	'Negative',0\n");\r
		fprintf(fp, "RegTextParity	db	'Parity',0\n");\r
		fprintf(fp, "RegTextOverflow	db	'Overflow',0\n");\r
		fprintf(fp, "RegTextHalfCarry	db	'HalfCarry',0\n");\r
		fprintf(fp, "RegTextZero	db	'Zero',0\n");\r
		fprintf(fp, "RegTextSign	db	'Sign',0\n");\r
		fprintf(fp, "RegTextIFF1	db	'IFF1',0\n");\r
		fprintf(fp, "RegTextIFF2	db	'IFF2',0\n\n");\r
\r
		// Timing for interrupt modes\r
\r
		fprintf(fp, "intModeTStates:\n");\r
		fprintf(fp, "		db	13	; IM 0 - 13 T-States\n");\r
		fprintf(fp, "		db	11	; IM 1 - 11 T-States\n");\r
		fprintf(fp, "		db	11	; IM 2 - 11 T-States\n\n");\r
\r
		// Now the master reg/flag table\r
\r
		fprintf(fp, "\n;\n");\r
		fprintf(fp, "; Info is in: pointer to text, address, shift value, mask value, size of data chunk\n");\r
		fprintf(fp, ";\n\n");\r
		fprintf(fp, "RegTable:\n");\r
\r
		// Pointer to text, address, shift value, mask, size\r
\r
		fprintf(fp, "		dd	RegTextPC, _z80pc - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextSP, _z80sp - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextAF, _z80af - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextBC, _z80bc - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextDE, _z80de - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextHL, _z80hl - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextAFP, _z80af - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextBCP, _z80bc - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextDEP, _z80de - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextHLP, _z80hl - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextIX, _z80ix - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextIY, _z80iy - _%scontextBegin, 0, 0ffffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextI, _z80i - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextR, _z80r - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
\r
		// Individual regs\r
\r
		fprintf(fp, "		dd	RegTextA, (_z80af + 1) - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextF, _z80af - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextB, (_z80bc + 1) - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextC, _z80bc - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextD, (_z80de + 1) - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextE, _z80de - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextH, (_z80hl + 1) - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextL, _z80hl - _%scontextBegin, 0, 0ffh\n", cpubasename);\r
\r
		// IFF register\r
\r
		fprintf(fp, "		dd	RegTextIFF1, _z80iff - _%scontextBegin, 0, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextIFF2, _z80iff - _%scontextBegin, 1, 01h\n", cpubasename);\r
\r
		// Individual flags\r
\r
		fprintf(fp, "		dd	RegTextCarry, _z80af - _%scontextBegin, 0, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextNegative, _z80af - _%scontextBegin, 1, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextParity, _z80af - _%scontextBegin, 2, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextOverflow, _z80af - _%scontextBegin, 2, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextHalfCarry, _z80af - _%scontextBegin, 4, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextZero, _z80af - _%scontextBegin, 6, 01h\n", cpubasename);\r
		fprintf(fp, "		dd	RegTextSign, _z80af - _%scontextBegin, 7, 01h\n", cpubasename);\r
\r
		// Now we write out our tables\r
	\r
		Alignment();\r
	\r
		for (dwLoop = 0; dwLoop < 256; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
\r
	// Now rip through and find out what is and isn't used\r
	\r
		dwLoop = 0;\r
	\r
		while (StandardOps[dwLoop].Emitter)\r
		{\r
			assert(StandardOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[StandardOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops! %.2x\n", dwLoop);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[StandardOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		// Now that that's taken care of, emit the table\r
	\r
		fprintf(fp, "z80regular:\n");\r
	\r
		dwLoop = 0;\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "RegInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsByte");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
		fprintf(fp, "\n");\r
	\r
		// Now rip through and find out what is and isn't used (CB Ops)\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (CBOps[dwLoop].Emitter)\r
		{\r
			assert(CBOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[CBOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops CB! %.2x\n", dwLoop);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[CBOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		dwLoop = 0;\r
	\r
		// Let's emit the CB prefixes\r
	\r
		fprintf(fp, "z80PrefixCB:\n");\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "CBInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsWord");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
		fprintf(fp, "\n");\r
	\r
		// Now rip through and find out what is and isn't used (ED Ops)\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (EDOps[dwLoop].Emitter)\r
		{\r
			assert(EDOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[EDOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops ED! %.2x\n", dwLoop);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[EDOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		dwLoop = 0;\r
	\r
		// Let's emit the ED prefixes\r
	\r
		fprintf(fp, "z80PrefixED:\n");\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "EDInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsWord");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
		fprintf(fp, "\n");\r
	\r
		// Now rip through and find out what is and isn't used (DD Ops)\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (DDFDOps[dwLoop].Emitter)\r
		{\r
			assert(DDFDOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[DDFDOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops DD! %.2x\n", bUsed[DDFDOps[dwLoop].bOpCode]);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[DDFDOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		dwLoop = 0;\r
	\r
		// Let's emit the DD prefixes\r
	\r
		fprintf(fp, "z80PrefixDD:\n");\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "DDInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsWord");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
		fprintf(fp, "\n");\r
	\r
		// Now rip through and find out what is and isn't used (FD Ops)\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (DDFDOps[dwLoop].Emitter)\r
		{\r
			assert(DDFDOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[DDFDOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops FD! %.2x\n", dwLoop);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[DDFDOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		// Let's emit the DDFD prefixes\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (DDFDOps[dwLoop].Emitter)\r
		{\r
			assert(DDFDOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[DDFDOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops FD! %.2x\n", dwLoop);\r
				exit(1);\r
			}\r
			bUsed[DDFDOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		dwLoop = 0;\r
	\r
		// Let's emit the DDFD prefixes\r
	\r
		fprintf(fp, "z80PrefixFD:\n");\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "FDInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsWord");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
	\r
		for (dwLoop = 0; dwLoop < 0x100; dwLoop++)\r
			bUsed[dwLoop] = 0;\r
	\r
		dwLoop = 0;\r
	\r
		while (DDFDCBOps[dwLoop].Emitter)\r
		{\r
			assert(DDFDCBOps[dwLoop].bOpCode < 0x100);\r
			if (bUsed[DDFDCBOps[dwLoop].bOpCode])\r
			{\r
				fprintf(stderr, "Oops CBFDDD! %.2x\n", bUsed[DDFDCBOps[dwLoop].bOpCode]);\r
				fclose(fp);\r
				exit(1);\r
			}\r
			bUsed[DDFDCBOps[dwLoop].bOpCode] = 1;\r
			dwLoop++;\r
		}\r
	\r
		// Let's emit the DDFD prefixes\r
	\r
		dwLoop = 0;\r
	\r
		fprintf(fp, "z80ddfdcbInstructions:\n");\r
	\r
		while (dwLoop < 0x100)\r
		{\r
			fprintf(fp, "		dd	");\r
			if (bUsed[dwLoop])\r
				fprintf(fp, "DDFDCBInst%.2x", dwLoop);\r
			else\r
				fprintf(fp, "invalidInsWord");\r
			fprintf(fp, "\n");\r
			dwLoop++;\r
		}\r
		fprintf(fp, "\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Modular global variables go here*/\n\n");\r
		fprintf(fp, "static CONTEXTMZ80 cpu;	/* CPU Context */\n");\r
		fprintf(fp, "static UINT8 *pbPC;			/* Program counter normalized */\n");\r
		fprintf(fp, "static UINT8 *pbSP;			/* Stack pointer normalized */\n");\r
		fprintf(fp, "static struct MemoryReadByte *psMemRead; /* Read memory structure */\n");\r
		fprintf(fp, "static struct MemoryWriteByte *psMemWrite; /* Write memory structure */\n");\r
		fprintf(fp, "static struct z80PortRead *psIoRead; /* Read I/O structure */\n");\r
		fprintf(fp, "static struct z80PortWrite *psIoWrite; /* Write memory structure */\n");\r
		fprintf(fp, "static INT32 sdwCyclesRemaining; /* Used as a countdown */\n");\r
		fprintf(fp, "static UINT32 dwReturnCode; /* Return code from exec() */\n");\r
		fprintf(fp, "static UINT32 dwOriginalCycles; /* How many cycles did we start with? */\n");\r
		fprintf(fp, "static UINT32 dwElapsedTicks;	/* How many ticks did we elapse? */\n");\r
		fprintf(fp, "static INT32 sdwAddr;		/* Temporary address storage */\n");\r
		fprintf(fp, "static UINT32 dwAddr;		/* Temporary stack address */\n");\r
		fprintf(fp, "static UINT8 *pbAddAdcTable;	/* Pointer to add/adc flag table */\n");\r
		fprintf(fp, "static UINT8 *pbSubSbcTable;	/* Pointer to sub/sbc flag table */\n");\r
		fprintf(fp, "static UINT32 dwTemp;			/* Temporary value */\n\n");\r
		fprintf(fp, "static UINT8 bTemp;			/* Temporary value */\n\n");\r
		fprintf(fp, "static UINT8 bTemp2; 		/* Temporary value */\n\n");\r
\r
		fprintf(fp, "/* Precomputed flag tables */\n\n");\r
\r
		fprintf(fp, "static UINT8 bPostIncFlags[0x100] = \n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x10,\n");\r
		fprintf(fp, "	0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x94,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x90,\n");\r
		fprintf(fp, "	0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x80,0x50\n");\r
		fprintf(fp, "};\n\n");\r
\r
		fprintf(fp, "static UINT8 bPostDecFlags[0x100] = \n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	0x92,0x42,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x12,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,0x02,\n");\r
		fprintf(fp, "	0x16,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,\n");\r
		fprintf(fp, "	0x92,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82,0x82\n");\r
		fprintf(fp, "};\n\n");\r
\r
		fprintf(fp, "static UINT8 bPostORFlags[0x100] = \n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	0x44,0x00,0x00,0x04,0x00,0x04,0x04,0x00,0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,\n");\r
		fprintf(fp, "	0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,\n");\r
		fprintf(fp, "	0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,\n");\r
		fprintf(fp, "	0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,\n");\r
		fprintf(fp, "	0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,\n");\r
		fprintf(fp, "	0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,\n");\r
		fprintf(fp, "	0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,\n");\r
		fprintf(fp, "	0x00,0x04,0x04,0x00,0x04,0x00,0x00,0x04,0x04,0x00,0x00,0x04,0x00,0x04,0x04,0x00,\n");\r
		fprintf(fp, "	0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,\n");\r
		fprintf(fp, "	0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,\n");\r
		fprintf(fp, "	0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,\n");\r
		fprintf(fp, "	0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,\n");\r
		fprintf(fp, "	0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,\n");\r
		fprintf(fp, "	0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,\n");\r
		fprintf(fp, "	0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84,0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,\n");\r
		fprintf(fp, "	0x84,0x80,0x80,0x84,0x80,0x84,0x84,0x80,0x80,0x84,0x84,0x80,0x84,0x80,0x80,0x84\n");\r
		fprintf(fp, "};\n\n");\r
\r
		fprintf(fp, "static UINT8 bPostANDFlags[0x100] = \n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	0x54,0x10,0x10,0x14,0x10,0x14,0x14,0x10,0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,\n");\r
		fprintf(fp, "	0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,\n");\r
		fprintf(fp, "	0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,\n");\r
		fprintf(fp, "	0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,\n");\r
		fprintf(fp, "	0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,\n");\r
		fprintf(fp, "	0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,\n");\r
		fprintf(fp, "	0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,\n");\r
		fprintf(fp, "	0x10,0x14,0x14,0x10,0x14,0x10,0x10,0x14,0x14,0x10,0x10,0x14,0x10,0x14,0x14,0x10,\n");\r
		fprintf(fp, "	0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,\n");\r
		fprintf(fp, "	0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,\n");\r
		fprintf(fp, "	0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,\n");\r
		fprintf(fp, "	0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,\n");\r
		fprintf(fp, "	0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,\n");\r
		fprintf(fp, "	0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,\n");\r
		fprintf(fp, "	0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94,0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,\n");\r
		fprintf(fp, "	0x94,0x90,0x90,0x94,0x90,0x94,0x94,0x90,0x90,0x94,0x94,0x90,0x94,0x90,0x90,0x94\n");\r
		fprintf(fp, "};\n\n");\r
\r
		fprintf(fp, "static UINT16 wDAATable[0x800] = \n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	0x5400,0x1001,0x1002,0x1403,0x1004,0x1405,0x1406,0x1007,\n");\r
		fprintf(fp, "	0x1008,0x1409,0x1010,0x1411,0x1412,0x1013,0x1414,0x1015,\n");\r
		fprintf(fp, "	0x1010,0x1411,0x1412,0x1013,0x1414,0x1015,0x1016,0x1417,\n");\r
		fprintf(fp, "	0x1418,0x1019,0x1020,0x1421,0x1422,0x1023,0x1424,0x1025,\n");\r
		fprintf(fp, "	0x1020,0x1421,0x1422,0x1023,0x1424,0x1025,0x1026,0x1427,\n");\r
		fprintf(fp, "	0x1428,0x1029,0x1430,0x1031,0x1032,0x1433,0x1034,0x1435,\n");\r
		fprintf(fp, "	0x1430,0x1031,0x1032,0x1433,0x1034,0x1435,0x1436,0x1037,\n");\r
		fprintf(fp, "	0x1038,0x1439,0x1040,0x1441,0x1442,0x1043,0x1444,0x1045,\n");\r
		fprintf(fp, "	0x1040,0x1441,0x1442,0x1043,0x1444,0x1045,0x1046,0x1447,\n");\r
		fprintf(fp, "	0x1448,0x1049,0x1450,0x1051,0x1052,0x1453,0x1054,0x1455,\n");\r
		fprintf(fp, "	0x1450,0x1051,0x1052,0x1453,0x1054,0x1455,0x1456,0x1057,\n");\r
		fprintf(fp, "	0x1058,0x1459,0x1460,0x1061,0x1062,0x1463,0x1064,0x1465,\n");\r
		fprintf(fp, "	0x1460,0x1061,0x1062,0x1463,0x1064,0x1465,0x1466,0x1067,\n");\r
		fprintf(fp, "	0x1068,0x1469,0x1070,0x1471,0x1472,0x1073,0x1474,0x1075,\n");\r
		fprintf(fp, "	0x1070,0x1471,0x1472,0x1073,0x1474,0x1075,0x1076,0x1477,\n");\r
		fprintf(fp, "	0x1478,0x1079,0x9080,0x9481,0x9482,0x9083,0x9484,0x9085,\n");\r
		fprintf(fp, "	0x9080,0x9481,0x9482,0x9083,0x9484,0x9085,0x9086,0x9487,\n");\r
		fprintf(fp, "	0x9488,0x9089,0x9490,0x9091,0x9092,0x9493,0x9094,0x9495,\n");\r
		fprintf(fp, "	0x9490,0x9091,0x9092,0x9493,0x9094,0x9495,0x9496,0x9097,\n");\r
		fprintf(fp, "	0x9098,0x9499,0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,\n");\r
		fprintf(fp, "	0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,0x1506,0x1107,\n");\r
		fprintf(fp, "	0x1108,0x1509,0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,\n");\r
		fprintf(fp, "	0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,0x1116,0x1517,\n");\r
		fprintf(fp, "	0x1518,0x1119,0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,\n");\r
		fprintf(fp, "	0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,0x1126,0x1527,\n");\r
		fprintf(fp, "	0x1528,0x1129,0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,\n");\r
		fprintf(fp, "	0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,0x1536,0x1137,\n");\r
		fprintf(fp, "	0x1138,0x1539,0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,\n");\r
		fprintf(fp, "	0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,0x1146,0x1547,\n");\r
		fprintf(fp, "	0x1548,0x1149,0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,\n");\r
		fprintf(fp, "	0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,0x1556,0x1157,\n");\r
		fprintf(fp, "	0x1158,0x1559,0x1560,0x1161,0x1162,0x1563,0x1164,0x1565,\n");\r
		fprintf(fp, "	0x1560,0x1161,0x1162,0x1563,0x1164,0x1565,0x1566,0x1167,\n");\r
		fprintf(fp, "	0x1168,0x1569,0x1170,0x1571,0x1572,0x1173,0x1574,0x1175,\n");\r
		fprintf(fp, "	0x1170,0x1571,0x1572,0x1173,0x1574,0x1175,0x1176,0x1577,\n");\r
		fprintf(fp, "	0x1578,0x1179,0x9180,0x9581,0x9582,0x9183,0x9584,0x9185,\n");\r
		fprintf(fp, "	0x9180,0x9581,0x9582,0x9183,0x9584,0x9185,0x9186,0x9587,\n");\r
		fprintf(fp, "	0x9588,0x9189,0x9590,0x9191,0x9192,0x9593,0x9194,0x9595,\n");\r
		fprintf(fp, "	0x9590,0x9191,0x9192,0x9593,0x9194,0x9595,0x9596,0x9197,\n");\r
		fprintf(fp, "	0x9198,0x9599,0x95a0,0x91a1,0x91a2,0x95a3,0x91a4,0x95a5,\n");\r
		fprintf(fp, "	0x95a0,0x91a1,0x91a2,0x95a3,0x91a4,0x95a5,0x95a6,0x91a7,\n");\r
		fprintf(fp, "	0x91a8,0x95a9,0x91b0,0x95b1,0x95b2,0x91b3,0x95b4,0x91b5,\n");\r
		fprintf(fp, "	0x91b0,0x95b1,0x95b2,0x91b3,0x95b4,0x91b5,0x91b6,0x95b7,\n");\r
		fprintf(fp, "	0x95b8,0x91b9,0x95c0,0x91c1,0x91c2,0x95c3,0x91c4,0x95c5,\n");\r
		fprintf(fp, "	0x95c0,0x91c1,0x91c2,0x95c3,0x91c4,0x95c5,0x95c6,0x91c7,\n");\r
		fprintf(fp, "	0x91c8,0x95c9,0x91d0,0x95d1,0x95d2,0x91d3,0x95d4,0x91d5,\n");\r
		fprintf(fp, "	0x91d0,0x95d1,0x95d2,0x91d3,0x95d4,0x91d5,0x91d6,0x95d7,\n");\r
		fprintf(fp, "	0x95d8,0x91d9,0x91e0,0x95e1,0x95e2,0x91e3,0x95e4,0x91e5,\n");\r
		fprintf(fp, "	0x91e0,0x95e1,0x95e2,0x91e3,0x95e4,0x91e5,0x91e6,0x95e7,\n");\r
		fprintf(fp, "	0x95e8,0x91e9,0x95f0,0x91f1,0x91f2,0x95f3,0x91f4,0x95f5,\n");\r
		fprintf(fp, "	0x95f0,0x91f1,0x91f2,0x95f3,0x91f4,0x95f5,0x95f6,0x91f7,\n");\r
		fprintf(fp, "	0x91f8,0x95f9,0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,\n");\r
		fprintf(fp, "	0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,0x1506,0x1107,\n");\r
		fprintf(fp, "	0x1108,0x1509,0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,\n");\r
		fprintf(fp, "	0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,0x1116,0x1517,\n");\r
		fprintf(fp, "	0x1518,0x1119,0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,\n");\r
		fprintf(fp, "	0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,0x1126,0x1527,\n");\r
		fprintf(fp, "	0x1528,0x1129,0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,\n");\r
		fprintf(fp, "	0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,0x1536,0x1137,\n");\r
		fprintf(fp, "	0x1138,0x1539,0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,\n");\r
		fprintf(fp, "	0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,0x1146,0x1547,\n");\r
		fprintf(fp, "	0x1548,0x1149,0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,\n");\r
		fprintf(fp, "	0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,0x1556,0x1157,\n");\r
		fprintf(fp, "	0x1158,0x1559,0x1560,0x1161,0x1162,0x1563,0x1164,0x1565,\n");\r
		fprintf(fp, "	0x1406,0x1007,0x1008,0x1409,0x140a,0x100b,0x140c,0x100d,\n");\r
		fprintf(fp, "	0x100e,0x140f,0x1010,0x1411,0x1412,0x1013,0x1414,0x1015,\n");\r
		fprintf(fp, "	0x1016,0x1417,0x1418,0x1019,0x101a,0x141b,0x101c,0x141d,\n");\r
		fprintf(fp, "	0x141e,0x101f,0x1020,0x1421,0x1422,0x1023,0x1424,0x1025,\n");\r
		fprintf(fp, "	0x1026,0x1427,0x1428,0x1029,0x102a,0x142b,0x102c,0x142d,\n");\r
		fprintf(fp, "	0x142e,0x102f,0x1430,0x1031,0x1032,0x1433,0x1034,0x1435,\n");\r
		fprintf(fp, "	0x1436,0x1037,0x1038,0x1439,0x143a,0x103b,0x143c,0x103d,\n");\r
		fprintf(fp, "	0x103e,0x143f,0x1040,0x1441,0x1442,0x1043,0x1444,0x1045,\n");\r
		fprintf(fp, "	0x1046,0x1447,0x1448,0x1049,0x104a,0x144b,0x104c,0x144d,\n");\r
		fprintf(fp, "	0x144e,0x104f,0x1450,0x1051,0x1052,0x1453,0x1054,0x1455,\n");\r
		fprintf(fp, "	0x1456,0x1057,0x1058,0x1459,0x145a,0x105b,0x145c,0x105d,\n");\r
		fprintf(fp, "	0x105e,0x145f,0x1460,0x1061,0x1062,0x1463,0x1064,0x1465,\n");\r
		fprintf(fp, "	0x1466,0x1067,0x1068,0x1469,0x146a,0x106b,0x146c,0x106d,\n");\r
		fprintf(fp, "	0x106e,0x146f,0x1070,0x1471,0x1472,0x1073,0x1474,0x1075,\n");\r
		fprintf(fp, "	0x1076,0x1477,0x1478,0x1079,0x107a,0x147b,0x107c,0x147d,\n");\r
		fprintf(fp, "	0x147e,0x107f,0x9080,0x9481,0x9482,0x9083,0x9484,0x9085,\n");\r
		fprintf(fp, "	0x9086,0x9487,0x9488,0x9089,0x908a,0x948b,0x908c,0x948d,\n");\r
		fprintf(fp, "	0x948e,0x908f,0x9490,0x9091,0x9092,0x9493,0x9094,0x9495,\n");\r
		fprintf(fp, "	0x9496,0x9097,0x9098,0x9499,0x949a,0x909b,0x949c,0x909d,\n");\r
		fprintf(fp, "	0x909e,0x949f,0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,\n");\r
		fprintf(fp, "	0x1506,0x1107,0x1108,0x1509,0x150a,0x110b,0x150c,0x110d,\n");\r
		fprintf(fp, "	0x110e,0x150f,0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,\n");\r
		fprintf(fp, "	0x1116,0x1517,0x1518,0x1119,0x111a,0x151b,0x111c,0x151d,\n");\r
		fprintf(fp, "	0x151e,0x111f,0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,\n");\r
		fprintf(fp, "	0x1126,0x1527,0x1528,0x1129,0x112a,0x152b,0x112c,0x152d,\n");\r
		fprintf(fp, "	0x152e,0x112f,0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,\n");\r
		fprintf(fp, "	0x1536,0x1137,0x1138,0x1539,0x153a,0x113b,0x153c,0x113d,\n");\r
		fprintf(fp, "	0x113e,0x153f,0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,\n");\r
		fprintf(fp, "	0x1146,0x1547,0x1548,0x1149,0x114a,0x154b,0x114c,0x154d,\n");\r
		fprintf(fp, "	0x154e,0x114f,0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,\n");\r
		fprintf(fp, "	0x1556,0x1157,0x1158,0x1559,0x155a,0x115b,0x155c,0x115d,\n");\r
		fprintf(fp, "	0x115e,0x155f,0x1560,0x1161,0x1162,0x1563,0x1164,0x1565,\n");\r
		fprintf(fp, "	0x1566,0x1167,0x1168,0x1569,0x156a,0x116b,0x156c,0x116d,\n");\r
		fprintf(fp, "	0x116e,0x156f,0x1170,0x1571,0x1572,0x1173,0x1574,0x1175,\n");\r
		fprintf(fp, "	0x1176,0x1577,0x1578,0x1179,0x117a,0x157b,0x117c,0x157d,\n");\r
		fprintf(fp, "	0x157e,0x117f,0x9180,0x9581,0x9582,0x9183,0x9584,0x9185,\n");\r
		fprintf(fp, "	0x9186,0x9587,0x9588,0x9189,0x918a,0x958b,0x918c,0x958d,\n");\r
		fprintf(fp, "	0x958e,0x918f,0x9590,0x9191,0x9192,0x9593,0x9194,0x9595,\n");\r
		fprintf(fp, "	0x9596,0x9197,0x9198,0x9599,0x959a,0x919b,0x959c,0x919d,\n");\r
		fprintf(fp, "	0x919e,0x959f,0x95a0,0x91a1,0x91a2,0x95a3,0x91a4,0x95a5,\n");\r
		fprintf(fp, "	0x95a6,0x91a7,0x91a8,0x95a9,0x95aa,0x91ab,0x95ac,0x91ad,\n");\r
		fprintf(fp, "	0x91ae,0x95af,0x91b0,0x95b1,0x95b2,0x91b3,0x95b4,0x91b5,\n");\r
		fprintf(fp, "	0x91b6,0x95b7,0x95b8,0x91b9,0x91ba,0x95bb,0x91bc,0x95bd,\n");\r
		fprintf(fp, "	0x95be,0x91bf,0x95c0,0x91c1,0x91c2,0x95c3,0x91c4,0x95c5,\n");\r
		fprintf(fp, "	0x95c6,0x91c7,0x91c8,0x95c9,0x95ca,0x91cb,0x95cc,0x91cd,\n");\r
		fprintf(fp, "	0x91ce,0x95cf,0x91d0,0x95d1,0x95d2,0x91d3,0x95d4,0x91d5,\n");\r
		fprintf(fp, "	0x91d6,0x95d7,0x95d8,0x91d9,0x91da,0x95db,0x91dc,0x95dd,\n");\r
		fprintf(fp, "	0x95de,0x91df,0x91e0,0x95e1,0x95e2,0x91e3,0x95e4,0x91e5,\n");\r
		fprintf(fp, "	0x91e6,0x95e7,0x95e8,0x91e9,0x91ea,0x95eb,0x91ec,0x95ed,\n");\r
		fprintf(fp, "	0x95ee,0x91ef,0x95f0,0x91f1,0x91f2,0x95f3,0x91f4,0x95f5,\n");\r
		fprintf(fp, "	0x95f6,0x91f7,0x91f8,0x95f9,0x95fa,0x91fb,0x95fc,0x91fd,\n");\r
		fprintf(fp, "	0x91fe,0x95ff,0x5500,0x1101,0x1102,0x1503,0x1104,0x1505,\n");\r
		fprintf(fp, "	0x1506,0x1107,0x1108,0x1509,0x150a,0x110b,0x150c,0x110d,\n");\r
		fprintf(fp, "	0x110e,0x150f,0x1110,0x1511,0x1512,0x1113,0x1514,0x1115,\n");\r
		fprintf(fp, "	0x1116,0x1517,0x1518,0x1119,0x111a,0x151b,0x111c,0x151d,\n");\r
		fprintf(fp, "	0x151e,0x111f,0x1120,0x1521,0x1522,0x1123,0x1524,0x1125,\n");\r
		fprintf(fp, "	0x1126,0x1527,0x1528,0x1129,0x112a,0x152b,0x112c,0x152d,\n");\r
		fprintf(fp, "	0x152e,0x112f,0x1530,0x1131,0x1132,0x1533,0x1134,0x1535,\n");\r
		fprintf(fp, "	0x1536,0x1137,0x1138,0x1539,0x153a,0x113b,0x153c,0x113d,\n");\r
		fprintf(fp, "	0x113e,0x153f,0x1140,0x1541,0x1542,0x1143,0x1544,0x1145,\n");\r
		fprintf(fp, "	0x1146,0x1547,0x1548,0x1149,0x114a,0x154b,0x114c,0x154d,\n");\r
		fprintf(fp, "	0x154e,0x114f,0x1550,0x1151,0x1152,0x1553,0x1154,0x1555,\n");\r
		fprintf(fp, "	0x1556,0x1157,0x1158,0x1559,0x155a,0x115b,0x155c,0x115d,\n");\r
		fprintf(fp, "	0x115e,0x155f,0x1560,0x1161,0x1162,0x1563,0x1164,0x1565,\n");\r
		fprintf(fp, "	0x5600,0x1201,0x1202,0x1603,0x1204,0x1605,0x1606,0x1207,\n");\r
		fprintf(fp, "	0x1208,0x1609,0x1204,0x1605,0x1606,0x1207,0x1208,0x1609,\n");\r
		fprintf(fp, "	0x1210,0x1611,0x1612,0x1213,0x1614,0x1215,0x1216,0x1617,\n");\r
		fprintf(fp, "	0x1618,0x1219,0x1614,0x1215,0x1216,0x1617,0x1618,0x1219,\n");\r
		fprintf(fp, "	0x1220,0x1621,0x1622,0x1223,0x1624,0x1225,0x1226,0x1627,\n");\r
		fprintf(fp, "	0x1628,0x1229,0x1624,0x1225,0x1226,0x1627,0x1628,0x1229,\n");\r
		fprintf(fp, "	0x1630,0x1231,0x1232,0x1633,0x1234,0x1635,0x1636,0x1237,\n");\r
		fprintf(fp, "	0x1238,0x1639,0x1234,0x1635,0x1636,0x1237,0x1238,0x1639,\n");\r
		fprintf(fp, "	0x1240,0x1641,0x1642,0x1243,0x1644,0x1245,0x1246,0x1647,\n");\r
		fprintf(fp, "	0x1648,0x1249,0x1644,0x1245,0x1246,0x1647,0x1648,0x1249,\n");\r
		fprintf(fp, "	0x1650,0x1251,0x1252,0x1653,0x1254,0x1655,0x1656,0x1257,\n");\r
		fprintf(fp, "	0x1258,0x1659,0x1254,0x1655,0x1656,0x1257,0x1258,0x1659,\n");\r
		fprintf(fp, "	0x1660,0x1261,0x1262,0x1663,0x1264,0x1665,0x1666,0x1267,\n");\r
		fprintf(fp, "	0x1268,0x1669,0x1264,0x1665,0x1666,0x1267,0x1268,0x1669,\n");\r
		fprintf(fp, "	0x1270,0x1671,0x1672,0x1273,0x1674,0x1275,0x1276,0x1677,\n");\r
		fprintf(fp, "	0x1678,0x1279,0x1674,0x1275,0x1276,0x1677,0x1678,0x1279,\n");\r
		fprintf(fp, "	0x9280,0x9681,0x9682,0x9283,0x9684,0x9285,0x9286,0x9687,\n");\r
		fprintf(fp, "	0x9688,0x9289,0x9684,0x9285,0x9286,0x9687,0x9688,0x9289,\n");\r
		fprintf(fp, "	0x9690,0x9291,0x9292,0x9693,0x9294,0x9695,0x9696,0x9297,\n");\r
		fprintf(fp, "	0x9298,0x9699,0x1334,0x1735,0x1736,0x1337,0x1338,0x1739,\n");\r
		fprintf(fp, "	0x1340,0x1741,0x1742,0x1343,0x1744,0x1345,0x1346,0x1747,\n");\r
		fprintf(fp, "	0x1748,0x1349,0x1744,0x1345,0x1346,0x1747,0x1748,0x1349,\n");\r
		fprintf(fp, "	0x1750,0x1351,0x1352,0x1753,0x1354,0x1755,0x1756,0x1357,\n");\r
		fprintf(fp, "	0x1358,0x1759,0x1354,0x1755,0x1756,0x1357,0x1358,0x1759,\n");\r
		fprintf(fp, "	0x1760,0x1361,0x1362,0x1763,0x1364,0x1765,0x1766,0x1367,\n");\r
		fprintf(fp, "	0x1368,0x1769,0x1364,0x1765,0x1766,0x1367,0x1368,0x1769,\n");\r
		fprintf(fp, "	0x1370,0x1771,0x1772,0x1373,0x1774,0x1375,0x1376,0x1777,\n");\r
		fprintf(fp, "	0x1778,0x1379,0x1774,0x1375,0x1376,0x1777,0x1778,0x1379,\n");\r
		fprintf(fp, "	0x9380,0x9781,0x9782,0x9383,0x9784,0x9385,0x9386,0x9787,\n");\r
		fprintf(fp, "	0x9788,0x9389,0x9784,0x9385,0x9386,0x9787,0x9788,0x9389,\n");\r
		fprintf(fp, "	0x9790,0x9391,0x9392,0x9793,0x9394,0x9795,0x9796,0x9397,\n");\r
		fprintf(fp, "	0x9398,0x9799,0x9394,0x9795,0x9796,0x9397,0x9398,0x9799,\n");\r
		fprintf(fp, "	0x97a0,0x93a1,0x93a2,0x97a3,0x93a4,0x97a5,0x97a6,0x93a7,\n");\r
		fprintf(fp, "	0x93a8,0x97a9,0x93a4,0x97a5,0x97a6,0x93a7,0x93a8,0x97a9,\n");\r
		fprintf(fp, "	0x93b0,0x97b1,0x97b2,0x93b3,0x97b4,0x93b5,0x93b6,0x97b7,\n");\r
		fprintf(fp, "	0x97b8,0x93b9,0x97b4,0x93b5,0x93b6,0x97b7,0x97b8,0x93b9,\n");\r
		fprintf(fp, "	0x97c0,0x93c1,0x93c2,0x97c3,0x93c4,0x97c5,0x97c6,0x93c7,\n");\r
		fprintf(fp, "	0x93c8,0x97c9,0x93c4,0x97c5,0x97c6,0x93c7,0x93c8,0x97c9,\n");\r
		fprintf(fp, "	0x93d0,0x97d1,0x97d2,0x93d3,0x97d4,0x93d5,0x93d6,0x97d7,\n");\r
		fprintf(fp, "	0x97d8,0x93d9,0x97d4,0x93d5,0x93d6,0x97d7,0x97d8,0x93d9,\n");\r
		fprintf(fp, "	0x93e0,0x97e1,0x97e2,0x93e3,0x97e4,0x93e5,0x93e6,0x97e7,\n");\r
		fprintf(fp, "	0x97e8,0x93e9,0x97e4,0x93e5,0x93e6,0x97e7,0x97e8,0x93e9,\n");\r
		fprintf(fp, "	0x97f0,0x93f1,0x93f2,0x97f3,0x93f4,0x97f5,0x97f6,0x93f7,\n");\r
		fprintf(fp, "	0x93f8,0x97f9,0x93f4,0x97f5,0x97f6,0x93f7,0x93f8,0x97f9,\n");\r
		fprintf(fp, "	0x5700,0x1301,0x1302,0x1703,0x1304,0x1705,0x1706,0x1307,\n");\r
		fprintf(fp, "	0x1308,0x1709,0x1304,0x1705,0x1706,0x1307,0x1308,0x1709,\n");\r
		fprintf(fp, "	0x1310,0x1711,0x1712,0x1313,0x1714,0x1315,0x1316,0x1717,\n");\r
		fprintf(fp, "	0x1718,0x1319,0x1714,0x1315,0x1316,0x1717,0x1718,0x1319,\n");\r
		fprintf(fp, "	0x1320,0x1721,0x1722,0x1323,0x1724,0x1325,0x1326,0x1727,\n");\r
		fprintf(fp, "	0x1728,0x1329,0x1724,0x1325,0x1326,0x1727,0x1728,0x1329,\n");\r
		fprintf(fp, "	0x1730,0x1331,0x1332,0x1733,0x1334,0x1735,0x1736,0x1337,\n");\r
		fprintf(fp, "	0x1338,0x1739,0x1334,0x1735,0x1736,0x1337,0x1338,0x1739,\n");\r
		fprintf(fp, "	0x1340,0x1741,0x1742,0x1343,0x1744,0x1345,0x1346,0x1747,\n");\r
		fprintf(fp, "	0x1748,0x1349,0x1744,0x1345,0x1346,0x1747,0x1748,0x1349,\n");\r
		fprintf(fp, "	0x1750,0x1351,0x1352,0x1753,0x1354,0x1755,0x1756,0x1357,\n");\r
		fprintf(fp, "	0x1358,0x1759,0x1354,0x1755,0x1756,0x1357,0x1358,0x1759,\n");\r
		fprintf(fp, "	0x1760,0x1361,0x1362,0x1763,0x1364,0x1765,0x1766,0x1367,\n");\r
		fprintf(fp, "	0x1368,0x1769,0x1364,0x1765,0x1766,0x1367,0x1368,0x1769,\n");\r
		fprintf(fp, "	0x1370,0x1771,0x1772,0x1373,0x1774,0x1375,0x1376,0x1777,\n");\r
		fprintf(fp, "	0x1778,0x1379,0x1774,0x1375,0x1376,0x1777,0x1778,0x1379,\n");\r
		fprintf(fp, "	0x9380,0x9781,0x9782,0x9383,0x9784,0x9385,0x9386,0x9787,\n");\r
		fprintf(fp, "	0x9788,0x9389,0x9784,0x9385,0x9386,0x9787,0x9788,0x9389,\n");\r
		fprintf(fp, "	0x9790,0x9391,0x9392,0x9793,0x9394,0x9795,0x9796,0x9397,\n");\r
		fprintf(fp, "	0x9398,0x9799,0x9394,0x9795,0x9796,0x9397,0x9398,0x9799,\n");\r
		fprintf(fp, "	0x97fa,0x93fb,0x97fc,0x93fd,0x93fe,0x97ff,0x5600,0x1201,\n");\r
		fprintf(fp, "	0x1202,0x1603,0x1204,0x1605,0x1606,0x1207,0x1208,0x1609,\n");\r
		fprintf(fp, "	0x160a,0x120b,0x160c,0x120d,0x120e,0x160f,0x1210,0x1611,\n");\r
		fprintf(fp, "	0x1612,0x1213,0x1614,0x1215,0x1216,0x1617,0x1618,0x1219,\n");\r
		fprintf(fp, "	0x121a,0x161b,0x121c,0x161d,0x161e,0x121f,0x1220,0x1621,\n");\r
		fprintf(fp, "	0x1622,0x1223,0x1624,0x1225,0x1226,0x1627,0x1628,0x1229,\n");\r
		fprintf(fp, "	0x122a,0x162b,0x122c,0x162d,0x162e,0x122f,0x1630,0x1231,\n");\r
		fprintf(fp, "	0x1232,0x1633,0x1234,0x1635,0x1636,0x1237,0x1238,0x1639,\n");\r
		fprintf(fp, "	0x163a,0x123b,0x163c,0x123d,0x123e,0x163f,0x1240,0x1641,\n");\r
		fprintf(fp, "	0x1642,0x1243,0x1644,0x1245,0x1246,0x1647,0x1648,0x1249,\n");\r
		fprintf(fp, "	0x124a,0x164b,0x124c,0x164d,0x164e,0x124f,0x1650,0x1251,\n");\r
		fprintf(fp, "	0x1252,0x1653,0x1254,0x1655,0x1656,0x1257,0x1258,0x1659,\n");\r
		fprintf(fp, "	0x165a,0x125b,0x165c,0x125d,0x125e,0x165f,0x1660,0x1261,\n");\r
		fprintf(fp, "	0x1262,0x1663,0x1264,0x1665,0x1666,0x1267,0x1268,0x1669,\n");\r
		fprintf(fp, "	0x166a,0x126b,0x166c,0x126d,0x126e,0x166f,0x1270,0x1671,\n");\r
		fprintf(fp, "	0x1672,0x1273,0x1674,0x1275,0x1276,0x1677,0x1678,0x1279,\n");\r
		fprintf(fp, "	0x127a,0x167b,0x127c,0x167d,0x167e,0x127f,0x9280,0x9681,\n");\r
		fprintf(fp, "	0x9682,0x9283,0x9684,0x9285,0x9286,0x9687,0x9688,0x9289,\n");\r
		fprintf(fp, "	0x928a,0x968b,0x928c,0x968d,0x968e,0x928f,0x9690,0x9291,\n");\r
		fprintf(fp, "	0x9292,0x9693,0x1334,0x1735,0x1736,0x1337,0x1338,0x1739,\n");\r
		fprintf(fp, "	0x173a,0x133b,0x173c,0x133d,0x133e,0x173f,0x1340,0x1741,\n");\r
		fprintf(fp, "	0x1742,0x1343,0x1744,0x1345,0x1346,0x1747,0x1748,0x1349,\n");\r
		fprintf(fp, "	0x134a,0x174b,0x134c,0x174d,0x174e,0x134f,0x1750,0x1351,\n");\r
		fprintf(fp, "	0x1352,0x1753,0x1354,0x1755,0x1756,0x1357,0x1358,0x1759,\n");\r
		fprintf(fp, "	0x175a,0x135b,0x175c,0x135d,0x135e,0x175f,0x1760,0x1361,\n");\r
		fprintf(fp, "	0x1362,0x1763,0x1364,0x1765,0x1766,0x1367,0x1368,0x1769,\n");\r
		fprintf(fp, "	0x176a,0x136b,0x176c,0x136d,0x136e,0x176f,0x1370,0x1771,\n");\r
		fprintf(fp, "	0x1772,0x1373,0x1774,0x1375,0x1376,0x1777,0x1778,0x1379,\n");\r
		fprintf(fp, "	0x137a,0x177b,0x137c,0x177d,0x177e,0x137f,0x9380,0x9781,\n");\r
		fprintf(fp, "	0x9782,0x9383,0x9784,0x9385,0x9386,0x9787,0x9788,0x9389,\n");\r
		fprintf(fp, "	0x938a,0x978b,0x938c,0x978d,0x978e,0x938f,0x9790,0x9391,\n");\r
		fprintf(fp, "	0x9392,0x9793,0x9394,0x9795,0x9796,0x9397,0x9398,0x9799,\n");\r
		fprintf(fp, "	0x979a,0x939b,0x979c,0x939d,0x939e,0x979f,0x97a0,0x93a1,\n");\r
		fprintf(fp, "	0x93a2,0x97a3,0x93a4,0x97a5,0x97a6,0x93a7,0x93a8,0x97a9,\n");\r
		fprintf(fp, "	0x97aa,0x93ab,0x97ac,0x93ad,0x93ae,0x97af,0x93b0,0x97b1,\n");\r
		fprintf(fp, "	0x97b2,0x93b3,0x97b4,0x93b5,0x93b6,0x97b7,0x97b8,0x93b9,\n");\r
		fprintf(fp, "	0x93ba,0x97bb,0x93bc,0x97bd,0x97be,0x93bf,0x97c0,0x93c1,\n");\r
		fprintf(fp, "	0x93c2,0x97c3,0x93c4,0x97c5,0x97c6,0x93c7,0x93c8,0x97c9,\n");\r
		fprintf(fp, "	0x97ca,0x93cb,0x97cc,0x93cd,0x93ce,0x97cf,0x93d0,0x97d1,\n");\r
		fprintf(fp, "	0x97d2,0x93d3,0x97d4,0x93d5,0x93d6,0x97d7,0x97d8,0x93d9,\n");\r
		fprintf(fp, "	0x93da,0x97db,0x93dc,0x97dd,0x97de,0x93df,0x93e0,0x97e1,\n");\r
		fprintf(fp, "	0x97e2,0x93e3,0x97e4,0x93e5,0x93e6,0x97e7,0x97e8,0x93e9,\n");\r
		fprintf(fp, "	0x93ea,0x97eb,0x93ec,0x97ed,0x97ee,0x93ef,0x97f0,0x93f1,\n");\r
		fprintf(fp, "	0x93f2,0x97f3,0x93f4,0x97f5,0x97f6,0x93f7,0x93f8,0x97f9,\n");\r
		fprintf(fp, "	0x97fa,0x93fb,0x97fc,0x93fd,0x93fe,0x97ff,0x5700,0x1301,\n");\r
		fprintf(fp, "	0x1302,0x1703,0x1304,0x1705,0x1706,0x1307,0x1308,0x1709,\n");\r
		fprintf(fp, "	0x170a,0x130b,0x170c,0x130d,0x130e,0x170f,0x1310,0x1711,\n");\r
		fprintf(fp, "	0x1712,0x1313,0x1714,0x1315,0x1316,0x1717,0x1718,0x1319,\n");\r
		fprintf(fp, "	0x131a,0x171b,0x131c,0x171d,0x171e,0x131f,0x1320,0x1721,\n");\r
		fprintf(fp, "	0x1722,0x1323,0x1724,0x1325,0x1326,0x1727,0x1728,0x1329,\n");\r
		fprintf(fp, "	0x132a,0x172b,0x132c,0x172d,0x172e,0x132f,0x1730,0x1331,\n");\r
		fprintf(fp, "	0x1332,0x1733,0x1334,0x1735,0x1736,0x1337,0x1338,0x1739,\n");\r
		fprintf(fp, "	0x173a,0x133b,0x173c,0x133d,0x133e,0x173f,0x1340,0x1741,\n");\r
		fprintf(fp, "	0x1742,0x1343,0x1744,0x1345,0x1346,0x1747,0x1748,0x1349,\n");\r
		fprintf(fp, "	0x134a,0x174b,0x134c,0x174d,0x174e,0x134f,0x1750,0x1351,\n");\r
		fprintf(fp, "	0x1352,0x1753,0x1354,0x1755,0x1756,0x1357,0x1358,0x1759,\n");\r
		fprintf(fp, "	0x175a,0x135b,0x175c,0x135d,0x135e,0x175f,0x1760,0x1361,\n");\r
		fprintf(fp, "	0x1362,0x1763,0x1364,0x1765,0x1766,0x1367,0x1368,0x1769,\n");\r
		fprintf(fp, "	0x176a,0x136b,0x176c,0x136d,0x136e,0x176f,0x1370,0x1771,\n");\r
		fprintf(fp, "	0x1772,0x1373,0x1774,0x1375,0x1376,0x1777,0x1778,0x1379,\n");\r
		fprintf(fp, "	0x137a,0x177b,0x137c,0x177d,0x177e,0x137f,0x9380,0x9781,\n");\r
		fprintf(fp, "	0x9782,0x9383,0x9784,0x9385,0x9386,0x9787,0x9788,0x9389,\n");\r
		fprintf(fp, "	0x938a,0x978b,0x938c,0x978d,0x978e,0x938f,0x9790,0x9391,\n");\r
		fprintf(fp, "	0x9392,0x9793,0x9394,0x9795,0x9796,0x9397,0x9398,0x9799 \n");\r
		fprintf(fp, "};\n\n");\r
\r
		fprintf(fp, "void DDFDCBHandler(UINT32 dwWhich);\n\n");\r
\r
		fprintf(fp, "\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
	\r
CodeSegmentBegin()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		section	.text use32 flat class=code\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "static void InvalidInstruction(UINT32 dwCount)\n");\r
		fprintf(fp, "{\n");\r
\r
		fprintf(fp, "	pbPC -= dwCount; /* Invalid instruction - back up */\n");\r
		fprintf(fp, "	dwReturnCode = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
		fprintf(fp, "	dwOriginalCycles -= sdwCyclesRemaining;\n");\r
		fprintf(fp, "	sdwCyclesRemaining = 0;\n");\r
\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
CodeSegmentEnd()\r
{\r
}\r
\r
ProgramEnd()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		end\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
EmitRegularInstructions()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT32 dwLoop2 = 0;\r
\r
	bCurrentMode = TIMING_REGULAR;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
			sprintf(procname, "RegInst%.2x", dwLoop);\r
\r
			while (StandardOps[dwLoop2].bOpCode != dwLoop && StandardOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			assert(dwLoop2 < 0x100);\r
			if (StandardOps[dwLoop2].Emitter\r
				&& StandardOps[dwLoop2].bOpCode != 0xffffffff)\r
				StandardOps[dwLoop2].Emitter((UINT32) dwLoop);\r
\r
			dwLoop++;\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Main execution entry point */\n\n");\r
\r
		fprintf(fp, "UINT32 %sexec(UINT32 dwCycles)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	UINT8 bOpcode;\n\n");\r
\r
		fprintf(fp, "	dwReturnCode = 0x80000000; /* Assume it'll work */\n");\r
\r
		fprintf(fp, "	sdwCyclesRemaining = dwCycles;\n");\r
		fprintf(fp, "	dwOriginalCycles = dwCycles;\n");\r
\r
		fprintf(fp, "		if (cpu.z80halted)\n");\r
		fprintf(fp, "		{\n");\r
\r
		fprintf(fp, "		dwElapsedTicks += dwCycles;\n");\r
		fprintf(fp, "		return(0x80000000);\n");\r
\r
		fprintf(fp, "		}\n\n");\r
		\r
\r
		fprintf(fp, "	pbPC = cpu.z80Base + cpu.z80pc;\n\n");\r
\r
		fprintf(fp, "	while (sdwCyclesRemaining > 0)\n");\r
\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		bOpcode = *pbPC++;\n");\r
		fprintf(fp, "		switch (bOpcode)\n");\r
		fprintf(fp, "		{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, "			case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, "			{\n");\r
\r
			while (StandardOps[dwLoop2].bOpCode != dwLoop && StandardOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingRegular[dwLoop])\r
			{\r
				fprintf(fp, "				sdwCyclesRemaining -= %ld;\n", bTimingRegular[dwLoop]);\r
			}\r
\r
			if (StandardOps[dwLoop2].Emitter)\r
			{\r
				StandardOps[dwLoop2].Emitter(dwLoop);\r
			}\r
\r
			fprintf(fp, "				break;\n");\r
			fprintf(fp, "			}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "		}\n");\r
		fprintf(fp, "	}\n\n");\r
\r
		fprintf(fp, "	dwElapsedTicks += (dwOriginalCycles - sdwCyclesRemaining);\n\n");\r
\r
		fprintf(fp, "	cpu.z80pc = (UINT32) pbPC - (UINT32) cpu.z80Base;\n");\r
\r
		fprintf(fp, "	return(dwReturnCode); /* Indicate success */\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
EmitCBInstructions()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT32 dwLoop2 = 0;\r
\r
	bCurrentMode = TIMING_CB;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		while (dwLoop < 0x100)\r
		{\r
			sprintf(procname, "CBInst%.2x", dwLoop);\r
			dwLoop2 = 0;\r
\r
			while (CBOps[dwLoop2].bOpCode != dwLoop && CBOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			assert(dwLoop2 < 0x100);\r
			if (CBOps[dwLoop2].Emitter && CBOps[dwLoop2].bOpCode != 0xffffffff)\r
				CBOps[dwLoop2].Emitter((UINT32) dwLoop);\r
\r
			dwLoop++;\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "void CBHandler(void)\n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	switch (*pbPC++)\n");\r
		fprintf(fp, "	{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, " 		case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, " 		{\n");\r
\r
			while (CBOps[dwLoop2].bOpCode != dwLoop && CBOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingCB[dwLoop])\r
			{\r
				fprintf(fp, "			sdwCyclesRemaining -= %ld;\n", bTimingCB[dwLoop]);\r
			}\r
\r
			if (CBOps[dwLoop2].Emitter)\r
			{\r
				CBOps[dwLoop2].Emitter(dwLoop);\r
			}\r
			else\r
			{\r
				InvalidInstructionC(2);\r
			}\r
\r
			fprintf(fp, "			break;\n");\r
			fprintf(fp, "		}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
EmitEDInstructions()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT32 dwLoop2 = 0;\r
\r
	bCurrentMode = TIMING_ED;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		while (dwLoop < 0x100)\r
		{\r
			sprintf(procname, "EDInst%.2x", dwLoop);\r
			dwLoop2 = 0;\r
\r
			while (EDOps[dwLoop2].bOpCode != dwLoop && EDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			assert(dwLoop2 < 0x100);\r
			if (EDOps[dwLoop2].Emitter && EDOps[dwLoop2].bOpCode != 0xffffffff)\r
				EDOps[dwLoop2].Emitter((UINT32) dwLoop);\r
\r
			dwLoop++;\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "void EDHandler(void)\n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	switch (*pbPC++)\n");\r
		fprintf(fp, "	{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, " 		case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, " 		{\n");\r
\r
			while (EDOps[dwLoop2].bOpCode != dwLoop && EDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingED[dwLoop])\r
			{\r
				fprintf(fp, "			sdwCyclesRemaining -= %ld;\n", bTimingED[dwLoop]);\r
			}\r
\r
			if (EDOps[dwLoop2].Emitter)\r
			{\r
				EDOps[dwLoop2].Emitter(dwLoop);\r
			}\r
			else\r
			{\r
				InvalidInstructionC(2);\r
			}\r
\r
			fprintf(fp, "			break;\n");\r
			fprintf(fp, "		}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
\r
	fprintf(fp, "\n");\r
}\r
\r
EmitDDInstructions()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT32 dwLoop2 = 0;\r
\r
	bCurrentMode = TIMING_DDFD;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		while (dwLoop < 0x100)\r
		{\r
			sprintf(procname, "DDInst%.2x", dwLoop);\r
			dwLoop2 = 0;\r
	\r
			while (DDFDOps[dwLoop2].bOpCode != dwLoop && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
	\r
			assert(dwLoop2 < 0x100);\r
			if (DDFDOps[dwLoop2].Emitter && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				DDFDOps[dwLoop2].Emitter((UINT32) dwLoop);\r
	\r
			dwLoop++;\r
		}\r
\r
		bCurrentMode = TIMING_XXCB;\r
\r
		dwLoop = 0;\r
\r
		while (dwLoop < 0x100)\r
		{\r
			sprintf(procname, "DDFDCBInst%.2x", dwLoop);\r
			dwLoop2 = 0;\r
\r
			while (DDFDCBOps[dwLoop2].bOpCode != dwLoop && DDFDCBOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			assert(dwLoop2 < 0x100);\r
			if (DDFDCBOps[dwLoop2].Emitter && DDFDCBOps[dwLoop2].bOpCode != 0xffffffff)\r
				DDFDCBOps[dwLoop2].Emitter((UINT32) dwLoop);\r
\r
			dwLoop++;\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "void DDHandler(void)\n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	switch (*pbPC++)\n");\r
		fprintf(fp, "	{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, " 		case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, " 		{\n");\r
\r
			while (DDFDOps[dwLoop2].bOpCode != dwLoop && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingDDFD[dwLoop])\r
			{\r
				fprintf(fp, "			sdwCyclesRemaining -= %ld;\n", bTimingDDFD[dwLoop]);\r
			}\r
\r
			if (DDFDOps[dwLoop2].Emitter)\r
			{\r
				DDFDOps[dwLoop2].Emitter(dwLoop);\r
			}\r
			else\r
			{\r
				InvalidInstructionC(2);\r
			}\r
\r
			fprintf(fp, "			break;\n");\r
			fprintf(fp, "		}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
\r
		// DDFD Handler\r
\r
		bCurrentMode = TIMING_XXCB;\r
\r
		dwLoop = 0;\r
\r
		fprintf(fp, "void DDFDCBHandler(UINT32 dwWhich)\n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	if (dwWhich)\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		dwAddr = (UINT32) ((INT32) cpu.z80IY + ((INT32) *pbPC++)) & 0xffff;\n");\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "	else\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		dwAddr = (UINT32) ((INT32) cpu.z80IX + ((INT32) *pbPC++)) & 0xffff;\n");\r
		fprintf(fp, "	}\n\n");\r
\r
		ReadValueFromMemory("dwAddr", "bTemp");\r
\r
		fprintf(fp, "	switch (*pbPC++)\n");\r
		fprintf(fp, "	{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, " 		case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, " 		{\n");\r
\r
			while (DDFDCBOps[dwLoop2].bOpCode != dwLoop && DDFDCBOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingXXCB[dwLoop])\r
			{\r
				fprintf(fp, "			sdwCyclesRemaining -= %ld;\n", bTimingXXCB[dwLoop]);\r
			}\r
\r
			if (DDFDCBOps[dwLoop2].Emitter)\r
			{\r
				DDFDCBOps[dwLoop2].Emitter(dwLoop);\r
			}\r
			else\r
			{\r
				InvalidInstructionC(4);\r
			}\r
\r
			fprintf(fp, "			break;\n");\r
			fprintf(fp, "		}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
EmitFDInstructions()\r
{\r
	UINT32 dwLoop = 0;\r
	UINT32 dwLoop2 = 0;\r
\r
	bCurrentMode = TIMING_DDFD;\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		while (dwLoop < 0x100)\r
		{\r
			sprintf(procname, "FDInst%.2x", dwLoop);\r
			dwLoop2 = 0;\r
\r
			while (DDFDOps[dwLoop2].bOpCode != dwLoop && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			assert(dwLoop2 < 0x100);\r
			if (DDFDOps[dwLoop2].Emitter && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				DDFDOps[dwLoop2].Emitter((UINT32) dwLoop);\r
\r
			dwLoop++;\r
		}\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "void FDHandler(void)\n");\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	switch (*pbPC++)\n");\r
		fprintf(fp, "	{\n");\r
\r
		while (dwLoop < 0x100)\r
		{\r
			dwLoop2 = 0;\r
\r
			fprintf(fp, " 		case 0x%.2x:\n", dwLoop);\r
			fprintf(fp, " 		{\n");\r
\r
			while (DDFDOps[dwLoop2].bOpCode != dwLoop && DDFDOps[dwLoop2].bOpCode != 0xffffffff)\r
				dwLoop2++;\r
\r
			if (bTimingDDFD[dwLoop])\r
			{\r
				fprintf(fp, "			sdwCyclesRemaining -= %ld;\n", bTimingDDFD[dwLoop]);\r
			}\r
\r
			if (DDFDOps[dwLoop2].Emitter)\r
			{\r
				DDFDOps[dwLoop2].Emitter(dwLoop);\r
			}\r
			else\r
			{\r
				InvalidInstructionC(2);\r
			}\r
\r
			fprintf(fp, "			break;\n");\r
			fprintf(fp, "		}\n");\r
			++dwLoop;\r
		}\r
\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
/* These are the meta routines */\r
\r
void ReadMemoryByteHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
		fprintf(fp, "; This is a generic read memory byte handler when a foreign\n");\r
		fprintf(fp, "; handler is to be called\n\n");\r
		fprintf(fp, "; EDI=Handler address, EDX=Address\n");\r
		fprintf(fp, "; On return, EDX & EDI are undisturbed and AL=Byte read\n\n");\r
		fprintf(fp, "ReadMemoryByte:\n");\r
	\r
		fprintf(fp, "		mov	[_z80af], ax	; Save AF\n");\r
		fprintf(fp, "		cmp	[edi+8], dword 0 ; Null handler?\n");\r
		fprintf(fp, "		je	directReadHandler	; Yep! It's a direct read!\n\n");\r
\r
		fprintf(fp, "		mov	[_z80hl], bx	; Save HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx	; Save BC\n");\r
\r
		fprintf(fp, "		sub	esi, ebp	; Our program counter\n", cpubasename);\r
		fprintf(fp, "		mov	[_z80pc], si	; Save our program counter\n", cpubasename);\r
\r
		// Now adjust the proper timing\r
\r
		fprintf(fp, "		mov	esi, [dwOriginalExec]	\n");\r
		fprintf(fp, "		sub	esi, [cyclesRemaining]\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], esi\n");\r
		fprintf(fp, "		add	[_z80rCounter], esi\n");\r
		fprintf(fp, "		sub	[dwOriginalExec], esi\n");\r
	\r
		fprintf(fp, "		push	edi	; Save our structure address\n");\r
		fprintf(fp, "		push	edx	; And our desired address\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, edx	; Get our desired address reg\n");\r
			fprintf(fp, "		mov	edx, edi	; Pointer to the structure\n");\r
		}\r
	\r
		fprintf(fp, "		call	dword [edi + 8]	; Go call our handler\n");\r
	\r
		fprintf(fp, "		pop	edx	; Restore our address\n");\r
		fprintf(fp, "		pop	edi	; Restore our handler's address\n");\r
	\r
		fprintf(fp, "		xor	ebx, ebx	; Zero our future HL\n");\r
		fprintf(fp, "		xor	esi, esi	; Zero it!\n");\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n", cpubasename);\r
		fprintf(fp, "		mov	si, [_z80pc]	; Get our program counter back\n", cpubasename);\r
		fprintf(fp, "		xor	ecx, ecx	; Zero our future BC\n");\r
		fprintf(fp, "		add	esi, ebp	; Rebase it properly\n");\r
	\r
		fprintf(fp, "		mov	bx, [_z80hl]	; Get HL back\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]	; Get BC back\n");\r
	\r
	// Note: the callee must restore AF!\r
\r
		fprintf(fp, "		ret\n\n");\r
		fprintf(fp, "directReadHandler:\n");\r
		fprintf(fp, "		mov	eax, [edi+12]	; Get our base address\n");\r
		fprintf(fp, "		sub	edx, [edi]	; Subtract our base (low) address\n");\r
		fprintf(fp, "		mov	al, [edx+eax]	; Get our data byte\n");\r
		fprintf(fp, "		and	eax, 0ffh	; Only the lower byte matters!\n");\r
		fprintf(fp, "		add	edx, [edi]	; Add our base back\n");\r
		fprintf(fp, "		ret		; Return to caller!\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void WriteMemoryByteHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
		fprintf(fp, "; This is a generic read memory byte handler when a foreign\n");\r
		fprintf(fp, "; handler is to be called.\n");\r
		fprintf(fp, "; EDI=Handler address, AL=Byte to write, EDX=Address\n");\r
		fprintf(fp, "; EDI and EDX Are undisturbed on exit\n\n");\r
		fprintf(fp, "WriteMemoryByte:\n");\r
\r
		fprintf(fp, "		cmp	[edi+8], dword 0	; Null handler?\n");\r
		fprintf(fp, "		je	directWriteHandler\n\n");\r
		\r
		\r
		fprintf(fp, "		mov	[_z80hl], bx	; Save HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx	; Save BX\n");\r
	\r
		fprintf(fp, "		sub	esi, ebp	; Our program counter\n", cpubasename);\r
		fprintf(fp, "		mov	[_z80pc], si	; Save our program counter\n", cpubasename);\r
	\r
		// Now adjust the proper timing\r
	\r
		fprintf(fp, "		mov	esi, [dwOriginalExec]	\n");\r
		fprintf(fp, "		sub	esi, [cyclesRemaining]\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], esi\n");\r
		fprintf(fp, "		add	[_z80rCounter], esi\n");\r
		fprintf(fp, "		sub	[dwOriginalExec], esi\n");\r
	\r
		fprintf(fp, "		push	edi	; Save our structure address\n");\r
	\r
		if (bUseStack)\r
			fprintf(fp, "		push	eax	; Data to write\n");\r
	\r
		fprintf(fp, "		push	edx	; And our desired address\n");\r
	\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		xchg	eax, edx ; Swap address/data around\n");\r
			fprintf(fp, "		mov	ebx, edi	; Our MemoryWriteByte structure address\n");\r
		}\r
	\r
		fprintf(fp, "		call	dword [edi + 8]	; Go call our handler\n");\r
	\r
		fprintf(fp, "		pop	edx	; Restore our address\n");\r
		\r
		if (bUseStack)\r
			fprintf(fp, "		pop	eax	; Restore our data written\n");\r
		\r
		fprintf(fp, "		pop	edi	; Save our structure address\n");\r
	\r
		fprintf(fp, "		xor	ebx, ebx	; Zero our future HL\n");\r
		fprintf(fp, "		xor	ecx, ecx	; Zero our future BC\n");\r
		fprintf(fp, "		mov	bx, [_z80hl]	; Get HL back\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]	; Get BC back\n");\r
		fprintf(fp, "		mov	ax, [_z80af]	; Get AF back\n");\r
		fprintf(fp, "		xor	esi, esi	; Zero it!\n");\r
		fprintf(fp, "		mov	si, [_z80pc]	; Get our program counter back\n", cpubasename);\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n", cpubasename);\r
		fprintf(fp, "		add	esi, ebp	; Rebase it properly\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
		fprintf(fp, "directWriteHandler:\n");\r
		fprintf(fp, "		sub	edx, [edi]	; Subtract our offset\n");\r
		fprintf(fp, "		add	edx, [edi+12]	; Add in the base address\n");\r
		fprintf(fp, "		mov	[edx], al	; Store our byte\n");\r
		fprintf(fp, "		sub	edx, [edi+12]	; Restore our base address\n");\r
		fprintf(fp, "		add	edx, [edi]	; And put our offset back\n");\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void PushWordHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
	\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; DX=Top of SP, [_wordval]=word value to push\n");\r
		fprintf(fp, ";\n\n");\r
		fprintf(fp, "PushWord:\n");\r
		fprintf(fp, "		mov	dx, [_z80sp]\n");\r
		fprintf(fp, "		dec	dx\n");\r
		WriteValueToMemory("dx", "byte [_wordval+1]");\r
		fprintf(fp, "		dec	dx\n");\r
		WriteValueToMemory("dx", "byte [_wordval]");\r
		fprintf(fp, "		sub	[_z80sp], word 2\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		fprintf(fp, "		ret\n\n");\r
	}\r
}\r
\r
void PopWordHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
		\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; [_z80sp]=Top of SP, DX=Word value read\n");\r
		fprintf(fp, ";\n\n");\r
		fprintf(fp, "PopWord:\n");\r
		fprintf(fp, "		mov	dx, [_z80sp]\n");\r
		\r
		ReadWordFromMemory("dx", "dx");\r
		fprintf(fp, "		ret\n\n");\r
	}\r
}\r
\r
void ReadIoHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
\r
		fprintf(fp, "; This is a generic I/O read byte handler for when a foreign\n");\r
		fprintf(fp, "; handler is to be called\n");\r
\r
		fprintf(fp, "; EDI=Handler address, EDX=I/O Address\n");\r
		fprintf(fp, "; On return, EDX & EDI are undisturbed and AL=Byte read\n\n");\r
		fprintf(fp, "ReadIOByte:\n");\r
	\r
		fprintf(fp, "		mov	[_z80af], ax	; Save AF\n");\r
		fprintf(fp, "		mov	[_z80hl], bx	; Save HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx	; Save BC\n");\r
\r
		fprintf(fp, "		sub	esi, ebp	; Our program counter\n", cpubasename);\r
		fprintf(fp, "		mov	[_z80pc], si	; Save our program counter\n", cpubasename);\r
\r
		// Now adjust the proper timing\r
\r
		fprintf(fp, "		mov	esi, [dwOriginalExec]	\n");\r
		fprintf(fp, "		sub	esi, [cyclesRemaining]\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], esi\n");\r
		fprintf(fp, "		add	[_z80rCounter], esi\n");\r
		fprintf(fp, "		sub	[dwOriginalExec], esi\n");\r
\r
		fprintf(fp, "		push	edi	; Save our structure address\n");\r
		fprintf(fp, "		push	edx	; And our desired I/O port\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, edx	; Get our desired address reg\n");\r
			fprintf(fp, "		mov	edx, edi	; Pointer to the structure\n");\r
		}\r
\r
		fprintf(fp, "		call	dword [edi + 4]	; Go call our handler\n");\r
\r
		fprintf(fp, "		pop	edx	; Restore our address\n");\r
		fprintf(fp, "		pop	edi	; Restore our handler's address\n");\r
\r
		fprintf(fp, "		xor	ebx, ebx	; Zero our future HL\n");\r
		fprintf(fp, "		xor	ecx, ecx	; Zero our future BC\n");\r
		fprintf(fp, "		xor	esi, esi	; Zero it!\n");\r
		fprintf(fp, "		mov	si, [_z80pc]	; Get our program counter back\n", cpubasename);\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n", cpubasename);\r
		fprintf(fp, "		add	esi, ebp	; Rebase it properly\n");\r
\r
		fprintf(fp, "		mov	bx, [_z80hl]	; Get HL back\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]	; Get BC back\n");\r
\r
	// Note: the callee must restore AF!\r
\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void WriteIoHandler()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
\r
		fprintf(fp, "; This is a generic write I/O byte handler when a foreign handler is to\n");\r
		fprintf(fp, "; be called\n");\r
		fprintf(fp, "; EDI=Handler address, AL=Byte to write, EDX=I/O Address\n");\r
		fprintf(fp, "; EDI and EDX Are undisturbed on exit\n\n");\r
		fprintf(fp, "WriteIOByte:\n");\r
	\r
		fprintf(fp, "		mov	[_z80hl], bx	; Save HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx	; Save BX\n");\r
\r
		fprintf(fp, "		sub	esi, ebp	; Our program counter\n", cpubasename);\r
		fprintf(fp, "		mov	[_z80pc], si	; Save our program counter\n", cpubasename);\r
\r
		// Now adjust the proper timing\r
\r
		fprintf(fp, "		mov	esi, [dwOriginalExec]	\n");\r
		fprintf(fp, "		sub	esi, [cyclesRemaining]\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], esi\n");\r
		fprintf(fp, "		add	[_z80rCounter], esi\n");\r
		fprintf(fp, "		sub	[dwOriginalExec], esi\n");\r
\r
		fprintf(fp, "		push	edi	; Save our structure address\n");\r
\r
		if (bUseStack)\r
			fprintf(fp, "		push	eax	; Data to write\n");\r
\r
		fprintf(fp, "		push	edx	; And our desired I/O address\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		xchg	eax, edx ; Swap address/data around\n");\r
			fprintf(fp, "		mov	ebx, edi	; Our z80IoWrite structure address\n");\r
		}\r
\r
		fprintf(fp, "		call	dword [edi + 4]	; Go call our handler\n");\r
\r
		fprintf(fp, "		pop	edx	; Restore our address\n");\r
	\r
		if (bUseStack)\r
			fprintf(fp, "		pop	eax	; Restore our data written\n");\r
		\r
		fprintf(fp, "		pop	edi	; Save our structure address\n");\r
\r
		fprintf(fp, "		xor	ebx, ebx	; Zero our future HL\n");\r
		fprintf(fp, "		xor	ecx, ecx	; Zero our future BC\n");\r
		fprintf(fp, "		mov	bx, [_z80hl]	; Get HL back\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]	; Get BC back\n");\r
		fprintf(fp, "		mov	ax, [_z80af]	; Get AF back\n");\r
		fprintf(fp, "		xor	esi, esi	; Zero it!\n");\r
		fprintf(fp, "		mov	si, [_z80pc]	; Get our program counter back\n", cpubasename);\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n", cpubasename);\r
		fprintf(fp, "		add	esi, ebp	; Rebase it properly\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
ExecCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sexec\n", cpubasename);\r
		fprintf(fp, "		global	%sexec_\n", cpubasename);\r
	\r
		if (bPlain)\r
			fprintf(fp, "		global	%sexec\n", cpubasename);\r
	\r
		sprintf(procname, "%sexec_", cpubasename);\r
		ProcBegin(0xffffffff);\r
	\r
		fprintf(fp, "_%sexec:\n", cpubasename);\r
	\r
		if (bPlain)\r
			fprintf(fp, "%sexec:\n", cpubasename);\r
	\r
		if (bUseStack)\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our execution cycle count\n");\r
	\r
		fprintf(fp, "		push	ebx			; Save all registers we use\n");\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	edx\n");\r
		fprintf(fp, "		push	ebp\n");\r
		fprintf(fp, "		push	esi\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "\n");\r
\r
		fprintf(fp, "		mov	edi, eax\n");	\r
		fprintf(fp, "		mov	dword [cyclesRemaining], eax	; Store # of instructions to\n");\r
		fprintf(fp, "		mov	[dwLastRSample], eax\n");\r
		fprintf(fp, "		mov	[dwOriginalExec], eax	; Store this!\n");\r
\r
		fprintf(fp, "		cmp	dword [_z80halted], 0\n");\r
		fprintf(fp, "		je	goCpu\n");\r
		fprintf(fp, "		add	[_z80rCounter], eax\n");\r
	\r
		if (FALSE == bNoTiming)\r
		{\r
			fprintf(fp, "		add	dword [dwElapsedTicks], eax\n");\r
		}\r
	\r
		fprintf(fp, "		mov	dword [cyclesRemaining], 0	; Nothing left!\n");\r
		fprintf(fp, "		mov	eax, 80000000h	; Successful exection\n");\r
		fprintf(fp, "		jmp	popReg\n");\r
		fprintf(fp, "goCpu:\n");\r
		fprintf(fp, "		cld				; Go forward!\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		xor	eax, eax		; Zero EAX 'cause we use it!\n");\r
		fprintf(fp, "		xor	ebx, ebx		; Zero EBX, too\n");\r
		fprintf(fp, "		xor	ecx, ecx		; Zero ECX\n");\r
		fprintf(fp, "		xor	edx, edx		; And EDX\n");\r
		fprintf(fp, "		xor	esi, esi		; Zero our source address\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		mov	ax, [_z80af]		; Accumulator & flags\n");\r
		fprintf(fp, "		xchg	ah, al		; Swap these for later\n");\r
		fprintf(fp, "		mov	bx, [_z80hl]		; Get our HL value\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]		; And our BC value\n");\r
		fprintf(fp, "		mov	ebp, [_z80Base]		; Get the base address\n");\r
		fprintf(fp, "		mov	si, [_z80pc]		; Get our program counter\n");\r
		fprintf(fp, "		add	esi, ebp		; Add in our base address\n");\r
\r
		fprintf(fp, "		cmp	[_z80intPending], byte 0	; Interrupt pending?\n");\r
		fprintf(fp, "		jz		masterExecTarget\n\n");\r
		fprintf(fp, "		call	causeInternalInterrupt\n\n");\r
		fprintf(fp, "masterExecTarget:\n");\r
		fprintf(fp, "		mov	dl, [esi]\n");\r
		fprintf(fp, "		inc	esi\n");\r
		fprintf(fp, "		jmp	dword [z80regular+edx*4]\n\n");\r
		fprintf(fp, "; We get to invalidInsWord if it's a double byte invalid opcode\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "invalidInsWord:\n");\r
	\r
		fprintf(fp, "		dec	esi\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "; We get to invalidInsByte if it's a single byte invalid opcode\n");\r
		fprintf(fp, "\n");\r
	\r
		fprintf(fp, "invalidInsByte:\n");\r
		fprintf(fp, "		xchg	ah, al		; Swap them back so they look good\n");\r
		fprintf(fp, "		mov	[_z80af], ax		; Store A & flags\n");\r
		fprintf(fp, "		dec	esi			; Back up one instruction...\n");\r
		fprintf(fp, "		mov	edx, esi		; Get our address in EAX\n");\r
		fprintf(fp, "		sub	edx, ebp		; And subtract our base for\n");\r
		fprintf(fp, "						; an invalid instruction\n");\r
		fprintf(fp, "		jmp	short emulateEnd\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "noMoreExec:\n");\r
		fprintf(fp, "		cmp	[bEIExit], byte 0	; Are we exiting because of an EI?\n");\r
		fprintf(fp, "		jne	checkEI\n");\r
		fprintf(fp, "noMoreExecNoEI:\n");\r
		fprintf(fp, "		xchg	ah, al		; Swap these for later\n");\r
		fprintf(fp, "		mov	[_z80af], ax		; Store A & flags\n");\r
	\r
		fprintf(fp, "		mov	edx, [dwOriginalExec]	; Original exec time\n");\r
		fprintf(fp, "		sub	edx, edi		; Subtract # of cycles remaining\n");\r
		fprintf(fp, "		add	[_z80rCounter], edx\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], edx	; Add our executed time\n");\r
	\r
		fprintf(fp, "		mov	edx, 80000000h		; Indicate successful exec\n");\r
		fprintf(fp, "		jmp	short emulateEnd	; All finished!\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "; Now let's tuck away the virtual registers for next time\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "storeFlags:\n");\r
		fprintf(fp, "		xchg	ah, al		; Swap these for later\n");\r
		fprintf(fp, "		mov	[_z80af], ax		; Store A & flags\n");\r
		fprintf(fp, "emulateEnd:\n");\r
		fprintf(fp, "		mov	[_z80hl], bx		; Store HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx		; Store BC\n");\r
		fprintf(fp, "		sub	esi, [_z80Base]		; Knock off physical address\n");\r
		fprintf(fp, "		mov	[_z80pc], si		; And store virtual address\n");\r
		fprintf(fp, "		mov	eax, edx		; Result code return\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "popReg:\n");\r
		fprintf(fp, "		pop	edi			; Restore registers\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		pop	ebp\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	ebx\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		ret\n");\r
		fprintf(fp, "\n");\r
		Alignment();\r
		fprintf(fp, "checkEI:\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		fprintf(fp, "		mov	[bEIExit], byte 0\n");\r
		fprintf(fp, "		sub	edx, edi	; Find out how much time has passed\n");\r
		fprintf(fp, "		mov	edi, [dwEITiming]\n");\r
		fprintf(fp, "		sub	edi, edx\n");\r
		fprintf(fp, "		js		noMoreExecNoEI\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
\r
		fprintf(fp, "		cmp	[_z80intPending], byte 0\n");\r
		fprintf(fp, "		je	near masterExecTarget\n");\r
		fprintf(fp, "		call	causeInternalInterrupt\n");\r
		fprintf(fp, "		jmp	masterExecTarget\n\n");\r
\r
		Alignment();\r
		fprintf(fp, "causeInternalInterrupt:\n");\r
		fprintf(fp, "		mov	dword [_z80halted], 0	; We're not halted anymore!\n");\r
		fprintf(fp, "		test	[_z80iff], byte IFF1	; Interrupt enabled yet?\n");\r
		fprintf(fp, "		jz		near internalInterruptsDisabled\n");\r
\r
		fprintf(fp, "\n; Interrupts enabled. Clear IFF1 and IFF2\n\n");\r
\r
		fprintf(fp, "		mov	[_z80intPending], byte 0\n");\r
\r
		fprintf(fp, "\n; Save off our active register sets\n\n");\r
\r
		fprintf(fp, "		xchg	ah, al		; Swap these for later\n");\r
		fprintf(fp, "		mov	[_z80af], ax		; Store A & flags\n");\r
		fprintf(fp, "		mov	[_z80hl], bx		; Store HL\n");\r
		fprintf(fp, "		mov	[_z80bc], cx		; Store BC\n");\r
		fprintf(fp, "		sub	esi, ebp			; Knock off physical address\n");\r
		fprintf(fp, "		mov	[_z80pc], si		; And store virtual address\n");\r
\r
		fprintf(fp, "		xor	eax, eax\n");\r
		fprintf(fp, "		mov	al, [_intData]\n\n");\r
\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "\n");\r
	\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "       pushad\n" );\r
			fprintf(fp, "		xor edx, edx\n" );\r
			fprintf(fp, "		mov	ax, [_z80pc]\n");\r
			fprintf(fp, "		mov	[_wordval], ax\n");\r
			fprintf(fp, "		push	ecx\n");\r
			fprintf(fp, "		push	ebx\n");\r
			fprintf(fp, "		push	esi\n");\r
	\r
			fprintf(fp, "       mov ax, [_z80af]\n");	// Get AF\r
			fprintf(fp, "       mov	bx, [_z80hl]\n");	// Get HL\r
			fprintf(fp, "       mov	cx, [_z80bc]\n");	// Get BC\r
			fprintf(fp, "		call	PushWord\n");\r
	\r
			fprintf(fp, "		pop	esi\n");\r
			fprintf(fp, "		pop	ebx\n");\r
			fprintf(fp, "		pop	ecx\n");\r
			fprintf(fp, "       popad\n" );\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	dx, [_z80pc]\n");\r
			fprintf(fp, "		xor	edi, edi\n");\r
			fprintf(fp, "		mov	di, word [_z80sp]\n");\r
			fprintf(fp, "		sub	di, 2\n");\r
			fprintf(fp, "		mov	word [_z80sp], di\n");\r
			fprintf(fp, "		mov	[ebp+edi], dx\n");\r
		}\r
	\r
		fprintf(fp, "		cmp	dword [_z80interruptMode], 2 ; Are we lower than mode 2?\n");\r
		fprintf(fp, "		jb		internalJustModeTwo\n");\r
		fprintf(fp, "		mov	ah, [_z80i]	; Get our high address here\n");\r
		fprintf(fp, "		and	eax, 0ffffh ; Only the lower part\n");\r
		fprintf(fp, "		mov	ax, [eax+ebp] ; Get our vector\n");\r
		fprintf(fp, "		jmp	short internalSetNewVector ; Go set it!\n");\r
		fprintf(fp, "internalJustModeTwo:\n");\r
		fprintf(fp, "		mov	ax, word [_z80intAddr]\n");\r
		fprintf(fp, "internalSetNewVector:\n");\r
		fprintf(fp, "		mov	[_z80pc], ax\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		xor	eax, eax	; Zero this so we can use it as an index\n");\r
\r
		fprintf(fp, "		mov	al, [_z80interruptMode]\n");\r
		fprintf(fp, "		mov	al, [intModeTStates+eax]\n");\r
		fprintf(fp, "		sub	edi, eax\n");\r
		fprintf(fp, "		add	[_z80rCounter], eax\n");\r
\r
		fprintf(fp, "\n; Restore all the registers and whatnot\n\n");\r
\r
		fprintf(fp, "		mov	ax, [_z80af]		; Accumulator & flags\n");\r
		fprintf(fp, "		xchg	ah, al		; Swap these for later\n");\r
		fprintf(fp, "		mov	bx, [_z80hl]		; Get our HL value\n");\r
		fprintf(fp, "		mov	cx, [_z80bc]		; And our BC value\n");\r
		fprintf(fp, "		mov	ebp, [_z80Base]		; Get the base address\n");\r
		fprintf(fp, "		mov	si, [_z80pc]		; Get our program counter\n");\r
		fprintf(fp, "		add	esi, ebp		; Add in our base address\n");\r
\r
		fprintf(fp, "internalInterruptsDisabled:\n");\r
		fprintf(fp, "		xor	edx, edx\n");\r
		fprintf(fp, "		ret\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
NmiCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%snmi\n", cpubasename);\r
		fprintf(fp, "		global	%snmi_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%snmi\n", cpubasename);\r
	\r
		sprintf(procname, "%snmi_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%snmi:\n", cpubasename);\r
	\r
		if (bPlain)\r
			fprintf(fp, "%snmi:\n", cpubasename);\r
\r
		fprintf(fp, "		mov	dword [_z80halted], 0	; We're not halted anymore!\n");\r
		fprintf(fp, "		mov	al, [_z80iff]	; Get our IFF setting\n");\r
		fprintf(fp, "		and	al, IFF1	; Just IFF 1\n");\r
		fprintf(fp, "		shl	al, 1	; Makes IFF1->IFF2 and zeros IFF1\n");\r
		fprintf(fp, "		mov	[_z80iff], al	; Store it back to the interrupt state!\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		push	ebp\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		mov	ebp, [_z80Base]\n");\r
		fprintf(fp, "\n");\r
\r
		fprintf(fp, "		xor	eax, eax\n");\r
		fprintf(fp, "		mov	ax, [_z80pc]\n");\r
\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "		push	esi\n");\r
			fprintf(fp, "		push	ebx\n");\r
			fprintf(fp, "		push	ecx\n");\r
\r
			fprintf(fp, "		mov	[_wordval], ax\n");\r
			fprintf(fp, "		mov	esi, ebp\n");\r
			fprintf(fp, "		add	esi, eax\n");\r
			fprintf(fp, "       mov ax, [_z80af]\n");	// Get AF\r
			fprintf(fp, "       mov	bx, [_z80hl]\n");	// Get HL\r
			fprintf(fp, "       mov	cx, [_z80bc]\n");	// Get BC\r
			fprintf(fp, "		push	ebx\n");\r
			fprintf(fp, "		push	ecx\n");\r
			fprintf(fp, "		push	edx\n");\r
			fprintf(fp, "		push	esi\n");\r
			fprintf(fp, "		push	eax\n");\r
			fprintf(fp, "		call	PushWord\n");\r
			fprintf(fp, "		pop	eax\n");\r
			fprintf(fp, "		pop	esi\n");\r
			fprintf(fp, "		pop	edx\n");\r
			fprintf(fp, "		pop	ecx\n");\r
			fprintf(fp,	"		pop	ebx\n");\r
\r
			fprintf(fp, "		pop	ecx\n");\r
			fprintf(fp, "		pop	ebx\n");\r
			fprintf(fp, "		pop	esi\n");\r
		}	  \r
		else   \r
		{ \r
			fprintf(fp, "		xor	edi, edi\n");\r
			fprintf(fp, "		mov	di, word [_z80sp]\n");\r
			fprintf(fp, "		sub	di, 2\n");\r
			fprintf(fp, "		mov	word [_z80sp], di\n");\r
			fprintf(fp, "		mov	[ebp+edi], ax\n");\r
		}\r
\r
		fprintf(fp, "		mov	ax, [_z80nmiAddr]\n");\r
		fprintf(fp, "		mov	[_z80pc], ax\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], dword 11	; 11 T-States for NMI\n");\r
		fprintf(fp, "		add	[_z80rCounter], dword 11\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "		pop	ebp\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		xor	eax, eax	; Indicate we took the interrupt\n");\r
		fprintf(fp, "		ret\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* NMI Handler */\n\n");\r
		fprintf(fp, "UINT32 %snmi(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
\r
		fprintf(fp, "	cpu.z80halted = 0;\n");\r
		fprintf(fp, "	pbSP = (cpu.z80Base + cpu.z80sp - 1);	/* Normalize the stack pointer */\n");\r
		fprintf(fp, "	*pbSP-- = cpu.z80pc >> 8;	/* LSB */\n");\r
		fprintf(fp, "	*pbSP = (UINT8) cpu.z80pc;	/* MSB */\n");\r
		fprintf(fp, "	cpu.z80sp -= 2;	/* Back our stack up */\n");\r
		fprintf(fp, "	cpu.z80pc = cpu.z80nmiAddr;	/* Our NMI */\n");\r
\r
		fprintf(fp, "	return(0);\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
IntCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sint\n", cpubasename);\r
		fprintf(fp, "		global	%sint_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sint\n", cpubasename);\r
\r
		sprintf(procname, "%sint_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sint:\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "%sint:\n", cpubasename);\r
\r
		if (bUseStack)\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our (potential) lower interrupt address\n");\r
	\r
		fprintf(fp, "		mov	dword [_z80halted], 0	; We're not halted anymore!\n");\r
\r
		fprintf(fp, "		mov	ah, IFF1	; Is IFF1 enabled?\n");\r
		fprintf(fp, "		and	ah, [_z80iff]	; Well, is it?\n");\r
		fprintf(fp, "		jz		near interruptsDisabled\n");\r
\r
		fprintf(fp, "\n; Interrupts enabled. Clear IFF1 and IFF2\n\n");\r
\r
		fprintf(fp, "		and	dword [_z80iff], ~(IFF1 | IFF2);\n\n");\r
		fprintf(fp, "		mov	[_z80intPending], byte 0\n");\r
\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		push	ebp\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	edx\n");\r
		fprintf(fp, "		mov	ebp, [_z80Base]\n");\r
		fprintf(fp, "\n");\r
	\r
	\r
		if (bThroughCallHandler)\r
		{\r
			fprintf(fp, "       pushad\n" );\r
			fprintf(fp, "		xor edx, edx\n" );\r
			fprintf(fp, "		mov	ax, [_z80pc]\n");\r
			fprintf(fp, "		mov	[_wordval], ax\n");\r
			fprintf(fp, "		push	ecx\n");\r
			fprintf(fp, "		push	ebx\n");\r
			fprintf(fp, "		push	esi\n");\r
	\r
			fprintf(fp, "       mov ax, [_z80af]\n");	// Get AF\r
			fprintf(fp, "       mov	bx, [_z80hl]\n");	// Get HL\r
			fprintf(fp, "       mov	cx, [_z80bc]\n");	// Get BC\r
			fprintf(fp, "		call	PushWord\n");\r
	\r
			fprintf(fp, "		pop	esi\n");\r
			fprintf(fp, "		pop	ebx\n");\r
			fprintf(fp, "		pop	ecx\n");\r
			fprintf(fp, "       popad\n" );\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	dx, [_z80pc]\n");\r
			fprintf(fp, "		xor	edi, edi\n");\r
			fprintf(fp, "		mov	di, word [_z80sp]\n");\r
			fprintf(fp, "		sub	di, 2\n");\r
			fprintf(fp, "		mov	word [_z80sp], di\n");\r
			fprintf(fp, "		mov	[ebp+edi], dx\n");\r
		}\r
	\r
		fprintf(fp, "		cmp	dword [_z80interruptMode], 2 ; Are we lower than mode 2?\n");\r
		fprintf(fp, "		jb		justModeTwo\n");\r
		fprintf(fp, "		mov	ah, [_z80i]	; Get our high address here\n");\r
		fprintf(fp, "		and	eax, 0ffffh ; Only the lower part\n");\r
		fprintf(fp, "		mov	ax, [eax+ebp] ; Get our vector\n");\r
		fprintf(fp, "		jmp	short setNewVector ; Go set it!\n");\r
		fprintf(fp, "justModeTwo:\n");\r
		fprintf(fp, "		mov	ax, word [_z80intAddr]\n");\r
		fprintf(fp, "setNewVector:\n");\r
		fprintf(fp, "		mov	[_z80pc], ax\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "		pop	ebp\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		xor	eax, eax	; Zero this so we can use it as an index\n");\r
\r
		fprintf(fp, "		mov	al, [_z80interruptMode]\n");\r
		fprintf(fp, "		mov	al, [intModeTStates+eax]\n");\r
		fprintf(fp, "		add	[dwElapsedTicks], eax\n");\r
		fprintf(fp, "		add	[_z80rCounter], eax\n");\r
		fprintf(fp, "		xor	eax, eax	; Indicate we took the interrupt\n");\r
\r
		fprintf(fp, "		jmp	short z80intExit\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "interruptsDisabled:\n");\r
		fprintf(fp, "		mov	[_z80intPending], byte 1\n");\r
		fprintf(fp, "		mov	[_intData], al	; Save this info for later\n");\r
		fprintf(fp, "		mov	eax, 0ffffffffh		; Indicate we didn't take it\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "z80intExit:\n");\r
		fprintf(fp, "		ret\n\n");\r
\r
\r
		fprintf(fp, "		global	_%sClearPendingInterrupt\n", cpubasename);\r
		fprintf(fp, "		global	%sClearPendingInterrupt_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sClearPendingInterrupt\n", cpubasename);\r
\r
		sprintf(procname, "%sClearPendingInterrupt_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sClearPendingInterrupt:\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "%sClearPendingInterrupt:\n", cpubasename);\r
\r
		fprintf(fp, "		mov	[_z80intPending], byte 0\n");\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Interrupt handler */\n\n");\r
		fprintf(fp, "UINT32 %sint(UINT32 dwLowAddr)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	cpu.z80halted = 0;\n");\r
\r
		fprintf(fp, "	if (0 == (cpu.z80iff & IFF1))\n");\r
		fprintf(fp, "		return(0xffffffff);\n");\r
\r
		fprintf(fp, "	cpu.z80iff &= ~(IFF1 | IFF2);\n");\r
		fprintf(fp, "	pbSP = (cpu.z80Base + cpu.z80sp - 1);	/* Normalize the stack pointer */\n");\r
		fprintf(fp, "	*pbSP-- = cpu.z80pc >> 8;	/* LSB */\n");\r
		fprintf(fp, "	*pbSP = (UINT8) cpu.z80pc;	/* MSB */\n");\r
		fprintf(fp, "	cpu.z80sp -= 2;	/* Back our stack up */\n");\r
\r
		fprintf(fp, "	if (2 == cpu.z80interruptMode)\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		cpu.z80pc = ((UINT16) cpu.z80i << 8) | (dwLowAddr & 0xff);\n");\r
		fprintf(fp, "		cpu.z80pc = ((UINT16) cpu.z80Base[cpu.z80pc + 1] << 8) | (cpu.z80Base[cpu.z80pc]);\n");\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "	else\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		cpu.z80pc = cpu.z80intAddr;\n");\r
		fprintf(fp, "	}\n");\r
\r
		fprintf(fp, "	pbPC = cpu.z80Base + cpu.z80pc;	/* Normalize the address */\n");\r
\r
		fprintf(fp, "	return(0);\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
ResetCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sreset\n", cpubasename);\r
		fprintf(fp, "		global	%sreset_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sreset\n", cpubasename);\r
		sprintf(procname, "%sreset_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sreset:\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "%sreset:\n", cpubasename);\r
\r
		fprintf(fp, "		xor	eax, eax 	; Zero AX\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		mov	dword [_z80halted], eax	; We're not halted anymore!\n");\r
		fprintf(fp, "		mov	word [_z80af], 0040h	; Zero A & flags - zero flag set\n");\r
		fprintf(fp, "		mov	word [_z80bc], ax	; Zero BC\n");\r
		fprintf(fp, "		mov	word [_z80de],	ax	; Zero DE\n");\r
		fprintf(fp, "		mov	word [_z80hl], ax	; Zero HL\n");\r
		fprintf(fp, "		mov	word [_z80afprime], ax	; Zero AF Prime\n");\r
		fprintf(fp, "		mov	word [_z80bcprime], ax	; Zero BC prime\n");\r
		fprintf(fp, "		mov	word [_z80deprime], ax ; Zero DE prime\n");\r
		fprintf(fp, "		mov	word [_z80hlprime], ax ; Zero HL prime\n");\r
		fprintf(fp, "		mov	byte [_z80i], al	; Zero Interrupt register\n");\r
		fprintf(fp, "		mov	byte [_z80r], al	; Zero refresh register\n");\r
		fprintf(fp, "		mov	word [_z80ix], 0ffffh	; Default mz80Index register\n");\r
		fprintf(fp, "		mov	word [_z80iy], 0ffffh	; Default mz80Index register\n");\r
		fprintf(fp, "		mov	word [_z80pc], ax	; Zero program counter\n");\r
		fprintf(fp, "		mov	word [_z80sp], ax	; And the stack pointer\n");\r
		fprintf(fp, "		mov	dword [_z80iff], eax ; IFF1/IFF2 disabled!\n");\r
		fprintf(fp, "		mov	dword [_z80interruptMode], eax ; Clear our interrupt mode (0)\n");\r
		fprintf(fp, "		mov	word [_z80intAddr], 38h ; Set default interrupt address\n");\r
		fprintf(fp, "		mov	word [_z80nmiAddr], 66h ; Set default nmi addr\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		ret\n");\r
		fprintf(fp, "\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* This routine is mz80's reset handler */\n\n");\r
		fprintf(fp, "void %sreset(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	cpu.z80halted = 0;\n");\r
		fprintf(fp, "	cpu.z80AF = 0;\n");\r
		fprintf(fp, "	cpu.z80F = Z80_FLAG_ZERO;\n");\r
		fprintf(fp, "	cpu.z80BC = 0;\n");\r
		fprintf(fp, "	cpu.z80DE = 0;\n");\r
		fprintf(fp, "	cpu.z80HL = 0;\n");\r
		fprintf(fp, "	cpu.z80afprime = 0;\n");\r
		fprintf(fp, "	cpu.z80bcprime = 0;\n");\r
		fprintf(fp, "	cpu.z80deprime = 0;\n");\r
		fprintf(fp, "	cpu.z80hlprime = 0;\n");\r
		fprintf(fp, "	cpu.z80i = 0;\n");\r
		fprintf(fp, "	cpu.z80r = 0;\n");\r
		fprintf(fp, "	cpu.z80IX = 0xffff; /* Yes, this is intentional */\n");\r
		fprintf(fp, "	cpu.z80IY = 0xffff; /* Yes, this is intentional */\n");\r
		fprintf(fp, "	cpu.z80pc = 0;\n");\r
		fprintf(fp, "	cpu.z80sp = 0;\n");\r
		fprintf(fp, "	cpu.z80interruptMode = 0;\n");\r
		fprintf(fp, "	cpu.z80intAddr = 0x38;\n");\r
		fprintf(fp, "	cpu.z80nmiAddr = 0x66;\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
SetContextCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sSetContext\n", cpubasename);\r
		fprintf(fp, "		global	%sSetContext_\n", cpubasename);\r
	\r
		if (bPlain)\r
			fprintf(fp, "		global	%sSetContext\n", cpubasename);\r
	\r
		sprintf(procname, "%sSetContext_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sSetContext:\n", cpubasename);\r
	\r
		if (bPlain)\r
			fprintf(fp, "%sSetContext:\n", cpubasename);\r
	\r
		if (bUseStack)\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our context address\n");\r
	\r
		fprintf(fp, "		push	esi		; Save registers we use\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	es\n");\r
		fprintf(fp, "		mov	di, ds\n");\r
		fprintf(fp, "		mov	es, di\n");\r
		fprintf(fp, "		mov	edi, _%scontextBegin\n", cpubasename);\r
		fprintf(fp, "		mov	esi, eax	; Source address in ESI\n");\r
		fprintf(fp, "		mov     ecx, (_%scontextEnd - _%scontextBegin) >> 2\n", cpubasename, cpubasename);\r
		fprintf(fp, "		rep	movsd\n");\r
		fprintf(fp, "		mov     ecx, (_%scontextEnd - _%scontextBegin) & 0x03\n", cpubasename, cpubasename);\r
		fprintf(fp, "		rep	movsb\n");\r
		fprintf(fp, "		pop	es\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		ret			; No return code\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Set mz80's context */\n\n");\r
		fprintf(fp, "void %sSetContext(void *pData)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	memcpy(&cpu, pData, sizeof(CONTEXTMZ80));\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
GetContextCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sGetContext\n", cpubasename);\r
		fprintf(fp, "		global	%sGetContext_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sGetContext\n", cpubasename);\r
	\r
		sprintf(procname, "%sGetContext_", cpubasename);\r
		ProcBegin(0xffffffff);\r
		fprintf(fp, "_%sGetContext:\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "%sGetContext:\n", cpubasename);\r
\r
		if (bUseStack)\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our context address\n");\r
\r
		fprintf(fp, "		push	esi		; Save registers we use\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	es\n");\r
		fprintf(fp, "		mov	di, ds\n");\r
		fprintf(fp, "		mov	es, di\n");\r
\r
		fprintf(fp, "		mov	esi, _%scontextBegin\n", cpubasename);\r
		fprintf(fp, "		mov	edi, eax	; Source address in ESI\n");\r
\r
		fprintf(fp, "		mov     ecx, (_%scontextEnd - _%scontextBegin) >> 2\n", cpubasename, cpubasename);\r
		fprintf(fp, "		rep	movsd\n");\r
		fprintf(fp, "		mov     ecx, (_%scontextEnd - _%scontextBegin) & 0x03\n", cpubasename, cpubasename);\r
		fprintf(fp, "		rep	movsb\n");\r
\r
		fprintf(fp, "		pop	es\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		ret			; No return code\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Get mz80's context */\n\n");\r
		fprintf(fp, "void %sGetContext(void *pData)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	memcpy(pData, &cpu, sizeof(CONTEXTMZ80));\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
GetContextSizeCode()\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sGetContextSize\n", cpubasename);\r
		fprintf(fp, "		global	%sGetContextSize_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sGetContextSize\n", cpubasename);\r
\r
		sprintf(procname, "%sGetContextSize_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sGetContextSize:\n", cpubasename);\r
		\r
		if (bPlain)\r
			fprintf(fp, "%sGetContextSize:\n", cpubasename);\r
\r
		fprintf(fp, "		mov     eax, _%scontextEnd - _%scontextBegin\n", cpubasename, cpubasename);\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Get mz80's context size */\n\n");\r
		fprintf(fp, "UINT32 %sGetContextSize(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
		fprintf(fp, "	return(sizeof(CONTEXTMZ80));\n");\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void InitCode(void)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sinit\n", cpubasename);\r
		fprintf(fp, "		global	%sinit_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sinit\n", cpubasename);\r
\r
		sprintf(procname, "%sinit_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sinit:\n", cpubasename);\r
		\r
		if (bPlain)\r
			fprintf(fp, "%sinit:\n", cpubasename);\r
\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Initialize MZ80 for action */\n\n");\r
		fprintf(fp, "void %sinit(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
\r
		fprintf(fp, "	UINT32 dwLoop;\n");\r
		fprintf(fp, "	UINT8 *pbTempPtr;\n");\r
		fprintf(fp, "	UINT8 *pbTempPtr2;\n");\r
		fprintf(fp, "	UINT8 bNewAdd;\n");\r
		fprintf(fp, "	UINT8 bNewSub;\n");\r
		fprintf(fp, "	UINT8 bFlag;\n");\r
		fprintf(fp, "	UINT8 bLow;\n");\r
		fprintf(fp, "	UINT8 bHigh;\n");\r
		fprintf(fp, "	UINT8 bCarry;\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "	if (NULL == pbAddAdcTable)\n");\r
		fprintf(fp, "	{\n");\r
		fprintf(fp, "		pbAddAdcTable = malloc(256*256*2);\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		if (NULL == pbAddAdcTable)\n");\r
		fprintf(fp, "		{\n");\r
		fprintf(fp, "			return;\n");\r
		fprintf(fp, "		}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		pbTempPtr = pbAddAdcTable;\n\n");\r
		fprintf(fp, "		pbSubSbcTable = malloc(256*256*2);\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		if (NULL == pbSubSbcTable)\n");\r
		fprintf(fp, "		{\n");\r
		fprintf(fp, "			return;\n");\r
		fprintf(fp, "		}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		pbTempPtr2 = pbSubSbcTable;\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		for (dwLoop = 0; dwLoop < (256*256*2); dwLoop++)\n");\r
		fprintf(fp, "		{\n");\r
		fprintf(fp, "			bLow = dwLoop & 0xff;\n");\r
		fprintf(fp, "			bHigh = (dwLoop >> 8) & 0xff;\n");\r
		fprintf(fp, "			bCarry = (dwLoop >> 16);\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			bFlag = 0;\n");\r
		fprintf(fp, "			bNewAdd = bHigh + bLow + bCarry;\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if (0 == bNewAdd)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_ZERO;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "			else\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag = bNewAdd & 0x80; /* Sign flag */\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if (((UINT32) bLow + (UINT32) bHigh + (UINT32) bCarry) >= 0x100)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_CARRY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if ( ((bLow ^ bHigh ^ 0x80) & (bLow ^ (bNewAdd & 0x80))) & 0x80)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if (((bLow & 0x0f) + (bHigh & 0x0f) + bCarry) >= 0x10)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_HALF_CARRY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			*pbTempPtr++ = bFlag;	/* Store our new flag */\n\n");\r
\r
		fprintf(fp, "			// Now do subtract - Zero\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			bFlag = Z80_FLAG_NEGATIVE;\n");\r
		fprintf(fp, "			bNewSub = bHigh - bLow - bCarry;\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if (0 == bNewSub)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_ZERO;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "			else\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= bNewSub & 0x80; /* Sign flag */\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if ( ((INT32) bHigh - (INT32) bLow - (INT32) bCarry) < 0)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_CARRY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if ( ((INT32) (bHigh & 0xf) - (INT32) (bLow & 0x0f) - (INT32) bCarry) < 0)\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_HALF_CARRY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			if ( ((bLow ^ bHigh) & (bHigh ^ bNewSub) & 0x80) )\n");\r
		fprintf(fp, "			{\n");\r
		fprintf(fp, "				bFlag |= Z80_FLAG_OVERFLOW_PARITY;\n");\r
		fprintf(fp, "			}\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "			*pbTempPtr2++ = bFlag;	/* Store our sub flag */\n");\r
		fprintf(fp, "\n");\r
		fprintf(fp, "		}\n");\r
		fprintf(fp, "	}\n");\r
		fprintf(fp, "}\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void ShutdownCode(void)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		fprintf(fp, "		global	_%sshutdown\n", cpubasename);\r
		fprintf(fp, "		global	%sshutdown_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sshutdown\n", cpubasename);\r
\r
		sprintf(procname, "%sshutdown_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sshutdown:\n", cpubasename);\r
		\r
		if (bPlain)\r
			fprintf(fp, "%sshutdown:\n", cpubasename);\r
\r
		fprintf(fp, "		ret\n\n");\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
		fprintf(fp, "/* Shut down MZ80 */\n\n");\r
		fprintf(fp, "void %sshutdown(void)\n", cpubasename);\r
		fprintf(fp, "{\n");\r
\r
		fprintf(fp, "}\n\n");\r
	}\r
	else\r
	{\r
		assert(0);\r
	}\r
}\r
\r
void DebuggerCode(void)\r
{\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
	{\r
		Alignment();\r
\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; In : EAX=Reg #, ESI=Context address\n");\r
		fprintf(fp, "; Out: EAX=Value of register\n");\r
		fprintf(fp, ";\n");\r
\r
		fprintf(fp, "getRegValueInternal:\n");\r
\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	edx\n\n");\r
\r
		fprintf(fp, "		cmp	eax, CPUREG_MAXINDEX\n");\r
		fprintf(fp, "		jae	badIndex2\n\n");\r
\r
		fprintf(fp, "		shl	eax, 4	; Times 16 for table entry size\n");\r
		fprintf(fp, "		add	eax, RegTable	; Now it's the memory location\n");\r
\r
		fprintf(fp, "		mov	edx, [eax+4]	; Get the offset of the register\n");\r
		fprintf(fp, "		mov	edx, [edx + esi]	; Get our value\n");\r
\r
		fprintf(fp, "		mov	ecx, [eax+8]	; Get our shift value\n");\r
		fprintf(fp, "		shr	edx, cl			; Shift it right by a value\n");\r
\r
		fprintf(fp, "		and	edx, [eax+12]	; Mask off any unneeded bits\n");\r
		fprintf(fp, "		mov	eax, edx			; Put our value in EAX\n");\r
		fprintf(fp, "		jmp	short indexExit	; Index's exit!\n");\r
\r
		fprintf(fp, "badIndex2:\n");\r
		fprintf(fp, "		mov	eax, 0ffffffffh\n\n");\r
		fprintf(fp, "indexExit:\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, ";\n");\r
		fprintf(fp, "; In : EAX=Value, EDX=Reg #, ESI=Context address\n");\r
		fprintf(fp, "; Out: EAX=Value of register\n");\r
		fprintf(fp, ";\n");\r
\r
		fprintf(fp, "convertValueToText:\n");\r
\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	edx\n\n");\r
\r
		fprintf(fp, "		cmp	edx, CPUREG_MAXINDEX\n");\r
		fprintf(fp, "		jae	badIndex3\n\n");\r
\r
		fprintf(fp, "		shl	edx, 4	; Times 16 for table entry size\n");\r
		fprintf(fp, "		add	edx, RegTable	; Now it's the memory location\n");\r
		fprintf(fp, "		mov	edx, [edx + 12] ; Shift mask\n");\r
		fprintf(fp, "		xor	ecx, ecx	; Zero our shift\n");\r
\r
		fprintf(fp, "shiftLoop:\n");\r
		fprintf(fp, "		test	edx, 0f0000000h	; High nibble nonzero yet?\n");\r
		fprintf(fp, "		jnz	convertLoop		; Yup!\n");\r
		fprintf(fp, "		shl	edx, 4			; Move over, bacon\n");\r
		fprintf(fp, "		shl	eax, 4		; Move the value over, too\n");\r
		fprintf(fp, "		jmp	short shiftLoop	; Keep shiftin'\n\n");\r
\r
		fprintf(fp, "convertLoop:\n");\r
		fprintf(fp, "		mov	ecx, eax			; Get our value\n");\r
		fprintf(fp, "		shr	ecx, 28			; Only the top nibble\n");\r
		fprintf(fp, "		add	cl, '0'			; Convert to ASCII\n");\r
		fprintf(fp, "		cmp	cl, '9'			; Greater than 9?\n");\r
		fprintf(fp, "		jbe	noAdd				; Nope! Don't add it\n");\r
		fprintf(fp, "		add	cl, 32+7			; Convert from lowercase a-f\n");\r
		fprintf(fp, "noAdd:\n");\r
		fprintf(fp, "		mov	[edi], cl		; New value storage\n");\r
		fprintf(fp, "		inc	edi			; Next byte, please\n");\r
		fprintf(fp, "		shl	eax, 4			; Move the mask over\n");\r
		fprintf(fp, "		shl	edx, 4			; Move the mask over\n");\r
		fprintf(fp, "		jnz	convertLoop		; Keep convertin'\n\n");\r
\r
\r
		fprintf(fp, "badIndex3:\n");\r
		fprintf(fp, "		mov	[edi], byte 0	; Null terminate the sucker!\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		ret\n\n");\r
\r
		fprintf(fp, "		global	_%sSetRegisterValue\n", cpubasename);\r
		fprintf(fp, "		global	%sSetRegisterValue_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sSetRegisterValue\n", cpubasename);\r
\r
		sprintf(procname, "%sSetRegisterValue_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sSetRegisterValue:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sSetRegisterValue:\n", cpubasename);\r
\r
		fprintf(fp, "		push	esi\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	edx\n");\r
		fprintf(fp, "		push	ecx\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+20]	; Get our register #\n");\r
			fprintf(fp, "		mov	esi, [esp+24]	; Get our context address\n");\r
			fprintf(fp, "		mov	edi, [esp+28]	; Value to assign\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	esi, eax	; Get context\n");\r
			fprintf(fp, "		mov	eax, edx	; Get register # in EAX\n");\r
			fprintf(fp, "		mov	edi, ebx	; Get value to assign\n");\r
		}\r
\r
		fprintf(fp, "		or	esi, esi	; Are we NULL?\n");\r
		fprintf(fp, "		jnz	userDefined\n");\r
\r
		fprintf(fp, "		mov	esi, _%scontextBegin\n", cpubasename);\r
		fprintf(fp, "userDefined:\n\n");\r
		fprintf(fp, "		shl	eax, 4	; Times 16 for reg entry size\n");\r
		fprintf(fp, "		add	eax, RegTable\n");\r
		fprintf(fp, "		mov	edx, [eax+12] ; Our mask\n");\r
		fprintf(fp, "		not	edx	; Invert EDX!\n");\r
		fprintf(fp, "		test	edi, edx	; Did we set any invalid bits?\n");\r
		fprintf(fp, "		jnz	rangeViolation\n\n");\r
\r
		fprintf(fp, "		not	edx	; Toggle it back to normal\n");\r
		fprintf(fp, "		mov	ecx, [eax+8]	; Get our shift value\n");\r
		fprintf(fp, "		shl	edx, cl	; Shift our mask\n");\r
		fprintf(fp, "		shl	eax, cl	; And our value to OR in\n");\r
	\r
		fprintf(fp, "		not	edx	; Make it the inverse of what we want\n");\r
		fprintf(fp, "		mov	eax, [eax+4]	; Get our offset into the context\n");\r
		fprintf(fp, "		and	[esi+eax], edx	; Mask off the bits we're changin\n");\r
		fprintf(fp, "		or	[esi+eax], edi	; Or in our new value\n\n");\r
		fprintf(fp, "		xor	eax, eax\n");\r
		fprintf(fp, "		jmp	short  setExit\n\n");\r
\r
		fprintf(fp, "rangeViolation:\n");\r
		fprintf(fp, "		mov	eax, 0ffffffffh\n\n");\r
\r
		fprintf(fp, "setExit:\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	edi\n");\r
		fprintf(fp, "		pop	esi\n\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, "		global	_%sGetRegisterValue\n", cpubasename);\r
		fprintf(fp, "		global	%sGetRegisterValue_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sGetRegisterValue\n", cpubasename);\r
\r
		sprintf(procname, "%sGetRegisterValue_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sGetRegisterValue:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sGetRegisterValue:\n", cpubasename);\r
\r
		fprintf(fp, "		push	esi\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+8]	; Get our register #\n");\r
			fprintf(fp, "		mov	esi, [esp+12]	; Get our context address\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	esi, eax	; Get context\n");\r
			fprintf(fp, "		mov	eax, edx	; Get register # in EAX\n");\r
		}\r
\r
		fprintf(fp, "		or	esi, esi	; Is context NULL?\n");\r
		fprintf(fp, "		jnz	getVal	; Nope - use it!\n");\r
		fprintf(fp, "		mov	esi, _%scontextBegin\n\n", cpubasename);\r
\r
		fprintf(fp, "getVal:\n");\r
		fprintf(fp, "		call	getRegValueInternal\n\n");\r
\r
		fprintf(fp, "		pop	esi\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, "		global	_%sGetRegisterName\n", cpubasename);\r
		fprintf(fp, "		global	%sGetRegisterName_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sGetRegisterName\n", cpubasename);\r
\r
		sprintf(procname, "%sGetRegisterName_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sGetRegisterName:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sGetRegisterName:\n", cpubasename);\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+4]	; Get our register #\n");\r
		}\r
\r
		fprintf(fp, "		cmp	eax, CPUREG_MAXINDEX\n");\r
		fprintf(fp, "		jae	badIndex\n");\r
\r
		fprintf(fp, "		shl	eax, 4	; Times 16 bytes for each entry\n");\r
		fprintf(fp, "		mov	eax, [eax+RegTable]\n");\r
		fprintf(fp, "		jmp	nameExit\n\n");\r
\r
		fprintf(fp, "badIndex:\n");\r
		fprintf(fp, "		xor	eax, eax\n\n");\r
\r
		fprintf(fp, "nameExit:\n");\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, "		global	_%sGetRegisterTextValue\n", cpubasename);\r
		fprintf(fp, "		global	%sGetRegisterTextValue_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sGetRegisterTextValue\n", cpubasename);\r
\r
		sprintf(procname, "%sGetRegisterTextValue_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sGetRegisterTextValue:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sGetRegisterTextValue:\n", cpubasename);\r
\r
		fprintf(fp, "		push	esi\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	edx\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+16]	; Get our register #\n");\r
			fprintf(fp, "		mov	esi, [esp+20]	; Get our context address\n");\r
			fprintf(fp, "		mov	edi, [esp+24]	; Address to place text\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		mov	esi, eax	; Get context\n");\r
			fprintf(fp, "		mov	eax, edx	; Get register # in EAX\n");\r
			fprintf(fp, "		mov	edi, ebx	; Address to place text\n");\r
		}\r
\r
		fprintf(fp, "		or	esi, esi	; Is context NULL?\n");\r
		fprintf(fp, "		jnz	getVal2	; Nope - use it!\n");\r
		fprintf(fp, "		mov	esi, _%scontextBegin\n\n", cpubasename);\r
\r
		fprintf(fp, "getVal2:\n");\r
		fprintf(fp, "		mov	edx, eax	; Save off our index for later\n");\r
		fprintf(fp, "		call	getRegValueInternal\n\n");\r
\r
		fprintf(fp, "; EAX Holds the value, EDX=Register #, and EDI=Destination!\n\n");\r
\r
		fprintf(fp, "		call	convertValueToText\n\n");\r
\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		pop	edi\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, "		global	_%sWriteValue\n", cpubasename);\r
		fprintf(fp, "		global	%sWriteValue_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sWriteValue\n", cpubasename);\r
\r
		sprintf(procname, "%sWriteValue_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sWriteValue:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sWriteValue:\n", cpubasename);\r
\r
		fprintf(fp, "		push	esi\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	edx\n");\r
		fprintf(fp, "		push	ebx\n");\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	ebp\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+28]	; What kind of write is this?\n");\r
			fprintf(fp, "		mov	ebx, [esp+32]	; Address\n");\r
			fprintf(fp, "		mov	edx, [esp+36]	; Value\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		xchg	edx, ebx	; Addr=EBX, value=EDX\n");\r
		}\r
\r
		fprintf(fp, "		cmp	eax, 1	; Is it a word write?\n");\r
		fprintf(fp, "		je	near invalidWrite	; Yep - it's not valid\n");\r
		fprintf(fp, "		cmp	eax, 2	; Is it a dword write?\n");\r
		fprintf(fp, "		je	near invalidWrite	; Yep - it's not valid\n\n");\r
		fprintf(fp, "		or	eax, eax	; Is it a byte write?\n");\r
		fprintf(fp, "		jnz	itsIoDummy	; Nope... it's an I/O write\n\n");\r
\r
		// Here we do a write memory byte\r
\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n");\r
		fprintf(fp, "		mov	edi, [_z80MemWrite]	; Point to the write array\n");\r
\r
		fprintf(fp, "checkLoop:\n");\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	memoryWrite	; Yes - go write it!\n");\r
		fprintf(fp, "		cmp	bx, [edi]	; Are we smaller?\n");\r
		fprintf(fp, "		jb	nextAddr	; Yes... go to the next addr\n");\r
		fprintf(fp, "		cmp	bx, [edi+4]	; Are we smaller?\n");\r
		fprintf(fp, "		jbe	callRoutine	; If not, go call it!\n");\r
\r
		fprintf(fp, "nextAddr:\n");\r
		fprintf(fp, "		add	edi, 10h		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short checkLoop\n");\r
\r
		fprintf(fp, "callRoutine:\n");\r
\r
		fprintf(fp, "\n;\n; EBX=Address to target, DL=Byte to write \n;\n\n");\r
\r
		fprintf(fp, "		cmp	[edi+8], dword 0	; Null handler?\n");\r
		fprintf(fp, "		je	directWriteHandler2\n\n");\r
		\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, ebx	; Address\n");\r
			fprintf(fp, "		mov	ebx, edi	; Pointer to struct (EDX Already has the byte to write)\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		push	edi	; Handler\n");\r
			fprintf(fp, "		push	edx	; Byte\n");\r
			fprintf(fp, "		push	ebx	; Address\n");\r
		}\r
	\r
		fprintf(fp, "		call	dword [edi + 8]	; Go call our handler\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		add	esp, 12\n");\r
		}\r
\r
		fprintf(fp, "		jmp	short itsGood\n");\r
\r
		fprintf(fp, "directWriteHandler2:\n");\r
		fprintf(fp, "		sub	ebx, [edi]	; Subtract our offset\n");\r
		fprintf(fp, "		add	ebx, [edi+12]	; Add in the base address\n");\r
		fprintf(fp, "		mov	[ebx], dl	; Store our byte\n");\r
		fprintf(fp, "		jmp	short itsGood\n");\r
		fprintf(fp, "memoryWrite:\n");\r
		fprintf(fp, "		mov	[ebp + ebx], dl\n\n");\r
		fprintf(fp, "		jmp	short itsGood\n");\r
\r
		// Here we do an "out"\r
\r
		fprintf(fp, "itsIoDummy:\n");\r
\r
		fprintf(fp, "		mov	edi, [_z80IoWrite]	; Point to the I/O write array\n");\r
\r
		fprintf(fp, "IOCheck:\n");\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	itsGood	; Yes - ignore it!\n");\r
		fprintf(fp, "		cmp	bx, [edi]	; Are we smaller?\n");\r
		fprintf(fp, "		jb	nextIOAddr	; Yes... go to the next addr\n");\r
		fprintf(fp, "		cmp	bx, [edi+2]	; Are we bigger?\n");\r
		fprintf(fp, "		jbe	callIOHandler	; If not, go call it!\n");\r
\r
		fprintf(fp, "nextIOAddr:\n");\r
		fprintf(fp, "		add	edi, 0ch		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short IOCheck\n");\r
\r
		fprintf(fp, "callIOHandler:\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, ebx	; Address\n");\r
			fprintf(fp, "		mov	ebx, edi	; Pointer to struct (EDX Already has the byte to write)\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		push	edi	; Handler\n");\r
			fprintf(fp, "		push	edx	; Byte\n");\r
			fprintf(fp, "		push	ebx	; Address\n");\r
		}\r
\r
		fprintf(fp, "		call	dword [edi+4]	; Call the handler!\n");\r
\r
		if (bUseStack)\r
			fprintf(fp, "		add	esp, 12\n");\r
\r
		fprintf(fp, "		jmp	short itsGood\n\n");\r
\r
		// Errors and whatnot\r
\r
		fprintf(fp, "invalidWrite:\n");\r
		fprintf(fp, "		mov	eax, 0ffffffffh\n");\r
		fprintf(fp, "		jmp	short writeValueExit\n\n");\r
\r
		fprintf(fp, "itsGood:\n");\r
		fprintf(fp, "		xor	eax, eax\n\n");\r
\r
		fprintf(fp, "writeValueExit:\n");\r
\r
		fprintf(fp, "		pop	ebp\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	ebx\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		pop	edi\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
		Alignment();\r
\r
		fprintf(fp, "		global	_%sReadValue\n", cpubasename);\r
		fprintf(fp, "		global	%sReadValue_\n", cpubasename);\r
\r
		if (bPlain)\r
			fprintf(fp, "		global	%sReadValue\n", cpubasename);\r
\r
		sprintf(procname, "%sReadValue_", cpubasename);\r
		ProcBegin(0xffffffff);\r
\r
		fprintf(fp, "_%sReadValue:\n", cpubasename);\r
		if (bPlain)\r
			fprintf(fp, "%sReadValue:\n", cpubasename);\r
\r
		fprintf(fp, "		push	esi\n");\r
		fprintf(fp, "		push	edi\n");\r
		fprintf(fp, "		push	edx\n");\r
		fprintf(fp, "		push	ebx\n");\r
		fprintf(fp, "		push	ecx\n");\r
		fprintf(fp, "		push	ebp\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, [esp+28]	; What kind of read is this?\n");\r
			fprintf(fp, "		mov	ebx, [esp+32]	; Address\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		xchg	edx, ebx	; Addr=EBX\n");\r
		}\r
\r
		fprintf(fp, "		cmp	eax, 1	; Is it a word read?\n");\r
		fprintf(fp, "		je	near invalidRead	; Yep - it's not valid\n");\r
		fprintf(fp, "		cmp	eax, 2	; Is it a dword read?\n");\r
		fprintf(fp, "		je	near invalidRead	; Yep - it's not valid\n\n");\r
		fprintf(fp, "		or	eax, eax	; Is it a byte read?\n");\r
		fprintf(fp, "		jnz	itsIoDummyRead	; Nope... it's an I/O read\n\n");\r
\r
		// Here we do a read memory byte\r
\r
		fprintf(fp, "		mov	ebp, [_z80Base] ; Base pointer comes back\n");\r
		fprintf(fp, "		mov	edi, [_z80MemRead]	; Point to the read array\n");\r
\r
		fprintf(fp, "checkLoopRead:\n");\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	memoryRead	; Yes - go read it!\n");\r
		fprintf(fp, "		cmp	bx, [edi]	; Are we smaller?\n");\r
		fprintf(fp, "		jb	nextAddrRead	; Yes... go to the next addr\n");\r
		fprintf(fp, "		cmp	bx, [edi+4]	; Are we smaller?\n");\r
		fprintf(fp, "		jbe	callRoutineRead	; If not, go call it!\n");\r
\r
		fprintf(fp, "nextAddrRead:\n");\r
		fprintf(fp, "		add	edi, 10h		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short checkLoopRead\n");\r
\r
		fprintf(fp, "callRoutineRead:\n");\r
\r
		fprintf(fp, "\n;\n; EBX=Address to target\n;\n\n");\r
\r
		fprintf(fp, "		cmp	[edi+8], dword 0 ; NULL HAndler?\n");\r
		fprintf(fp, "		je	handleSharedRead\n\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, ebx	; Address\n");\r
			fprintf(fp, "		mov	edx, edi	; Pointer to struct\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		push	edi	; Handler\n");\r
			fprintf(fp, "		push	ebx	; Address\n");\r
		}\r
	\r
		fprintf(fp, "		call	dword [edi + 8]	; Go call our handler\n");\r
		fprintf(fp, "		mov	dl, al	; Get our byte read\n");\r
\r
		if (bUseStack)\r
		{\r
			fprintf(fp, "		add	esp, 8\n");\r
		}\r
\r
		fprintf(fp, "		jmp	short itsGoodRead\n\n");\r
\r
		fprintf(fp, "memoryRead:\n");\r
		fprintf(fp, "		mov	dl, [ebp+ebx]\n\n");\r
		fprintf(fp, "		jmp	short itsGoodRead\n\n");\r
\r
		fprintf(fp, "handleSharedRead:\n");\r
		fprintf(fp, "		sub	ebx, [edi]\n");\r
		fprintf(fp, "		add	ebx, [edi+12]\n");\r
		fprintf(fp, "		mov	dl, [ebx]\n");\r
		fprintf(fp, "		jmp	short itsGoodRead\n\n");\r
\r
		// Here we do an "out"\r
\r
		fprintf(fp, "itsIoDummyRead:\n");\r
\r
		fprintf(fp, "		mov	edi, [_z80IoRead]	; Point to the I/O read array\n");\r
		fprintf(fp, "		mov	dl, 0ffh	; Assume no handler\n");\r
\r
		fprintf(fp, "IOCheckRead:\n");\r
		fprintf(fp, "		cmp	[edi], word 0ffffh ; End of our list?\n");\r
		fprintf(fp, "		je	itsGoodRead	; Yes - ignore it!\n");\r
		fprintf(fp, "		cmp	bx, [edi]	; Are we smaller?\n");\r
		fprintf(fp, "		jb	nextIOAddrRead	; Yes... go to the next addr\n");\r
		fprintf(fp, "		cmp	bx, [edi+2]	; Are we bigger?\n");\r
		fprintf(fp, "		jbe	callIOHandlerRead	; If not, go call it!\n");\r
\r
		fprintf(fp, "nextIOAddrRead:\n");\r
		fprintf(fp, "		add	edi, 0ch		; Next structure, please\n");\r
		fprintf(fp, "		jmp	short IOCheckRead\n");\r
\r
		fprintf(fp, "callIOHandlerRead:\n");\r
\r
		if (FALSE == bUseStack)\r
		{\r
			fprintf(fp, "		mov	eax, ebx	; Address\n");\r
			fprintf(fp, "		mov	edx, edi	; Pointer to struct (EDX Already has the byte to write)\n");\r
		}\r
		else\r
		{\r
			fprintf(fp, "		push	edi	; Handler\n");\r
			fprintf(fp, "		push	ebx	; Address\n");\r
		}\r
\r
		fprintf(fp, "		call	dword [edi+4]	; Call the handler!\n");\r
		fprintf(fp, "		mov	dl, al	; Get our byte read\n");\r
\r
		if (bUseStack)\r
			fprintf(fp, "		add	esp, 8\n");\r
\r
		fprintf(fp, "		jmp	short itsGoodRead\n\n");\r
\r
		// Errors and whatnot\r
\r
		fprintf(fp, "invalidRead:\n");\r
		fprintf(fp, "		mov	eax, 0ffffffffh\n");\r
		fprintf(fp, "		jmp	short ReadValueExit\n\n");\r
\r
		fprintf(fp, "itsGoodRead:\n");\r
		fprintf(fp, "		xor	eax, eax\n");\r
		fprintf(fp, "		mov	al, dl\n\n");\r
\r
		fprintf(fp, "ReadValueExit:\n");\r
\r
		fprintf(fp, "		pop	ebp\n");\r
		fprintf(fp, "		pop	ecx\n");\r
		fprintf(fp, "		pop	ebx\n");\r
		fprintf(fp, "		pop	edx\n");\r
		fprintf(fp, "		pop	esi\n");\r
		fprintf(fp, "		pop	edi\n");\r
\r
		fprintf(fp, "		ret\n\n");\r
\r
\r
\r
	}\r
	else\r
	if (MZ80_C == bWhat)\r
	{\r
	}\r
}\r
\r
\r
EmitCode()\r
{\r
	CodeSegmentBegin();\r
	EmitCBInstructions();\r
	EmitEDInstructions();\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
		strcpy(mz80Index, "ix");\r
		\r
	else\r
	{\r
		strcpy(mz80Index, "cpu.z80IX");\r
		strcpy(mz80IndexHalfHigh, "cpu.z80XH");\r
		strcpy(mz80IndexHalfLow, "cpu.z80XL");\r
	}\r
\r
	strcpy(majorOp, "DD");\r
	EmitDDInstructions();\r
\r
	if (MZ80_ASSEMBLY_X86 == bWhat)\r
		strcpy(mz80Index, "iy");\r
	else\r
	{\r
		strcpy(mz80Index, "cpu.z80IY");\r
		strcpy(mz80IndexHalfHigh, "cpu.z80YH");\r
		strcpy(mz80IndexHalfLow, "cpu.z80YL");\r
	}\r
\r
	strcpy(majorOp, "FD");\r
	EmitFDInstructions();\r
	majorOp[0] = '\0';\r
	EmitRegularInstructions();\r
	ReadMemoryByteHandler();\r
	WriteMemoryByteHandler();\r
\r
	if (bThroughCallHandler)\r
	{\r
		PushWordHandler();\r
		PopWordHandler();\r
	}\r
\r
	ReadIoHandler();\r
	WriteIoHandler();\r
	GetContextCode();\r
	SetContextCode();\r
	GetContextSizeCode();\r
	GetTicksCode();\r
	ReleaseTimesliceCode();\r
	ResetCode();\r
	IntCode();\r
	NmiCode();\r
	ExecCode();\r
	InitCode();\r
	ShutdownCode();\r
	DebuggerCode();\r
	CodeSegmentEnd();\r
}\r
\r
main(int argc, char **argv)\r
{\r
	UINT32 dwLoop = 0;\r
\r
	printf("MakeZ80 - V%s - Copyright 1996-2000 Neil Bradley (neil@synthcom.com)\n", VERSION);\r
\r
	if (argc < 2)\r
	{\r
		printf("Usage: %s outfile [option1] [option2] ....\n", argv[0]);\r
		printf("\n   -s   - Stack calling conventions (DJGPP, MSVC, Borland)\n");\r
		printf("   -x86 - Emit an assembly version of mz80\n");\r
		printf("   -c   - Emit a C version of mz80\n");\r
		printf("   -cs  - All stack operations go through handlers\n");\r
		printf("   -16  - Treat all I/O input and output as 16 bit (BC) instead of (C)\n");\r
		printf("   -l   - Create 'plain' labels - ones without leading or trailing _'s\n");\r
		printf("   -nt  - No timing additions occur\n");\r
		printf("   -os2 - Emit OS/2 compatible segmentation pragmas\n");\r
		exit(1);\r
	}\r
\r
	dwLoop = 1;\r
\r
	while (dwLoop < argc)\r
	{\r
		if (strcmp("-x86", argv[dwLoop]) == 0 || strcmp("-X86", argv[dwLoop]) == 0)\r
			bWhat = MZ80_ASSEMBLY_X86;\r
		if (strcmp("-c", argv[dwLoop]) == 0 || strcmp("-C", argv[dwLoop]) == 0)\r
			bWhat = MZ80_C;\r
		if (strcmp("-cs", argv[dwLoop]) == 0 || strcmp("-cs", argv[dwLoop]) == 0)\r
			bThroughCallHandler = TRUE;\r
		if (strcmp("-s", argv[dwLoop]) == 0 || strcmp("-S", argv[dwLoop]) == 0)\r
			bUseStack = 1;\r
		if (strcmp("-l", argv[dwLoop]) == 0 || strcmp("-L", argv[dwLoop]) == 0)\r
			bPlain = TRUE;\r
		if (strcmp("-16", argv[dwLoop]) == 0)\r
			b16BitIo = TRUE;\r
		if (strcmp("-os2", argv[dwLoop]) == 0 || strcmp("-OS2", argv[dwLoop]) == 0)\r
			bOS2 = TRUE;\r
		if (strcmp("-nt", argv[dwLoop]) == 0)\r
		{\r
			bNoTiming = TRUE;\r
		}\r
\r
		dwLoop++;\r
	}\r
\r
	if (bWhat == MZ80_UNKNOWN)\r
	{\r
		fprintf(stderr, "Need emitted type qualifier\n");\r
		exit(1);\r
	}\r
\r
	for (dwLoop = 1; dwLoop < argc; dwLoop++)\r
		if (argv[dwLoop][0] != '-')\r
		{\r
			fp = fopen(argv[dwLoop], "w");\r
			break;\r
		}\r
\r
	if (NULL == fp)\r
	{\r
		fprintf(stderr, "Can't open %s for writing\n", argv[1]);\r
		exit(1);\r
	}\r
\r
	strcpy(cpubasename, "mz80");\r
\r
	StandardHeader();\r
	DataSegment();\r
	EmitCode();\r
	ProgramEnd();\r
\r
	fclose(fp);\r
}\r