np2/i386c/ia32/cpu.h - diff

Return to cpu.h CVS log

Up to [RetroPC.NET] / np2 / i386c / ia32

Diff for /np2/i386c/ia32/cpu.h between versions 1.20 and 1.44

version 1.20, 2004/03/05 14:17:35	version 1.44, 2012/02/07 09:11:10
Line 1	Line 1
/* $Id$ */

/*	/*
* Copyright (c) 2002-2003 NONAKA Kimihiro	* Copyright (c) 2002-2003 NONAKA Kimihiro
* All rights reserved.	* All rights reserved.
Line 12	Line 10
* 2. Redistributions in binary form must reproduce the above copyright	* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the	* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.	* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*	*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
Line 71 typedef union {	Line 67 typedef union {
UINT32 d;	UINT32 d;
} REG32;	} REG32;

	typedef struct {
	UINT8 b[10];
	} REG80;

#ifdef __cplusplus	#ifdef __cplusplus
}	}
#endif	#endif
Line 109 enum {	Line 109 enum {
};	};

enum {	enum {
CPU_DEBUG_REG_NUM = 8	CPU_DEBUG_REG_NUM = 8,
	CPU_DEBUG_REG_INDEX_NUM = 4
};	};

enum {	enum {
MAX_PREFIX = 8	MAX_PREFIX = 8
};	};

enum {
CPU_PREFETCH_QUEUE_LENGTH = 16
};

typedef struct {	typedef struct {
REG32 reg[CPU_REG_NUM];	REG32 reg[CPU_REG_NUM];
UINT16 sreg[CPU_SEGREG_NUM];	UINT16 sreg[CPU_SEGREG_NUM];
Line 136 typedef struct {	Line 133 typedef struct {

typedef struct {	typedef struct {
UINT16 gdtr_limit;	UINT16 gdtr_limit;
	UINT16 pad0;
UINT32 gdtr_base;	UINT32 gdtr_base;
UINT16 idtr_limit;	UINT16 idtr_limit;
	UINT16 pad1;
UINT32 idtr_base;	UINT32 idtr_base;

UINT16 ldtr;	UINT16 ldtr;
Line 156 typedef struct {	Line 155 typedef struct {
descriptor_t ldtr;	descriptor_t ldtr;
descriptor_t tr;	descriptor_t tr;

BYTE prefetch[CPU_PREFETCH_QUEUE_LENGTH];
UINT32 prefetch_remain;

UINT32 adrsmask;	UINT32 adrsmask;
UINT32 ovflag;	UINT32 ovflag;

Line 174 typedef struct {	Line 170 typedef struct {
UINT8 user_mode;	UINT8 user_mode;

UINT8 hlt;	UINT8 hlt;
UINT8 pad[3];	UINT8 bp; /* break point bitmap */
	UINT8 bp_ev; /* break point event */

	UINT8 backout_sp; /* backout ESP, when exception */

UINT32 pde_base;	UINT32 pde_base;

Line 193 typedef struct {	Line 192 typedef struct {
UINT32 seg_base;	UINT32 seg_base;
} CPU_INST;	} CPU_INST;

	/* FPU */
	enum {
	FPU_REG_NUM = 8
	};

	typedef struct {
	UINT16 seg;
	UINT16 pad;
	UINT32 offset;
	} FPU_PTR;

	typedef struct {
	UINT16 control;
	UINT16 status;
	UINT16 op;

	FPU_PTR inst;
	FPU_PTR data;
	} FPU_REGS;

	typedef struct {
	UINT8 valid;
	UINT8 sign;
	UINT8 zero;
	UINT8 inf;
	UINT8 nan;
	UINT8 denorm;
	SINT16 exp;
	UINT64 num;
	} FP_REG;

	typedef struct {
	UINT8 top;
	UINT8 pc;
	UINT8 rc;
	UINT8 dmy[1];

	FP_REG reg[FPU_REG_NUM];
	} FPU_STAT;

typedef struct {	typedef struct {
CPU_REGS cpu_regs;	CPU_REGS cpu_regs;
CPU_SYSREGS cpu_sysregs;	CPU_SYSREGS cpu_sysregs;
Line 200 typedef struct {	Line 239 typedef struct {
CPU_INST cpu_inst;	CPU_INST cpu_inst;
CPU_INST cpu_inst_default;	CPU_INST cpu_inst_default;

	#if defined(USE_FPU)
	FPU_REGS fpu_regs;
	FPU_STAT fpu_stat;
	#endif

/* protected by cpu shut */	/* protected by cpu shut */
UINT8 cpu_type;	UINT8 cpu_type;
UINT8 itfbank;	UINT8 itfbank;
Line 209 typedef struct {	Line 253 typedef struct {
UINT32 clock;	UINT32 clock;
} I386STAT;	} I386STAT;

typedef struct { /* for ver0.73 */	typedef struct {
BYTE *ext;	UINT8 *ext;
UINT32 extsize;	UINT32 extsize;
	UINT8 extbase; / = ext - 0x100000 */
	UINT32 extlimit16mb; /* = extsize + 0x100000 (MAX:16MB) */
	UINT32 extlimit4gb; /* = extsize + 0x100000 */
UINT32 inport;	UINT32 inport;
	UINT8 *ems[4];
} I386EXT;	} I386EXT;

typedef struct {	typedef struct {
I386STAT s; /* STATsave�� */	I386STAT s; /* STATsave'ed */
I386EXT e;	I386EXT e;
} I386CORE;	} I386CORE;

Line 238 extern I386CORE i386core;	Line 286 extern I386CORE i386core;

#define CPU_EXTMEM i386core.e.ext	#define CPU_EXTMEM i386core.e.ext
#define CPU_EXTMEMSIZE i386core.e.extsize	#define CPU_EXTMEMSIZE i386core.e.extsize
	#define CPU_EXTMEMBASE i386core.e.extbase
	#define CPU_EXTLIMIT16 i386core.e.extlimit16mb
	#define CPU_EXTLIMIT i386core.e.extlimit4gb
#define CPU_INPADRS i386core.e.inport	#define CPU_INPADRS i386core.e.inport
	#define CPU_EMSPTR i386core.e.ems

extern sigjmp_buf exec_1step_jmpbuf;	extern sigjmp_buf exec_1step_jmpbuf;

Line 293 extern sigjmp_buf exec_1step_jmpbuf;	Line 345 extern sigjmp_buf exec_1step_jmpbuf;
/* (1 << 29) */	/* (1 << 29) */
/* (1 << 30) */	/* (1 << 30) */
/* (1 << 31) */	/* (1 << 31) */
#ifdef USE_FPU	#if defined(USE_FPU)
#define CPU_FEATURES (CPU_FEATURE_CMOV\|CPU_FEATURE_FPU)	#define CPU_FEATURES (CPU_FEATURE_CMOV\|CPU_FEATURE_FPU)
#else	#else
#define CPU_FEATURES (CPU_FEATURE_CMOV)	#define CPU_FEATURES (CPU_FEATURE_CMOV)
Line 307 extern sigjmp_buf exec_1step_jmpbuf;	Line 359 extern sigjmp_buf exec_1step_jmpbuf;
#define CPU_REGS_SREG(n) CPU_STATSAVE.cpu_regs.sreg[(n)]	#define CPU_REGS_SREG(n) CPU_STATSAVE.cpu_regs.sreg[(n)]

#define CPU_STAT_SREG(n) CPU_STATSAVE.cpu_stat.sreg[(n)]	#define CPU_STAT_SREG(n) CPU_STATSAVE.cpu_stat.sreg[(n)]
#define CPU_STAT_SREGBASE(n) CPU_STATSAVE.cpu_stat.sreg[(n)].u.seg.segbase	#define CPU_STAT_SREGBASE(n) CPU_STAT_SREG((n)).u.seg.segbase
#define CPU_STAT_SREGEND(n) CPU_STATSAVE.cpu_stat.sreg[(n)].u.seg.segend	#define CPU_STAT_SREGLIMIT(n) CPU_STAT_SREG((n)).u.seg.limit
#define CPU_STAT_SREGLIMIT(n) CPU_STATSAVE.cpu_stat.sreg[(n)].u.seg.limit
#define CPU_STAT_SREG_CLEAR(n) \
do { \
memset(&CPU_STAT_SREG(n), 0, sizeof(descriptor_t)); \
} while (/CONSTCOND/ 0)
#define CPU_STAT_SREG_INIT(n) \
do { \
descriptor_t sd; \
\
memset(&sd, 0, sizeof(sd)); \
sd.u.seg.limit = 0xffff; \
CPU_SET_SEGDESC_DEFAULT(&sd, (n), 0); \
CPU_STAT_SREG(n) = sd; \
} while (/CONSTCOND/ 0)


#define CPU_AL CPU_REGS_BYTEL(CPU_EAX_INDEX)	#define CPU_AL CPU_REGS_BYTEL(CPU_EAX_INDEX)
Line 363 do { \	Line 401 do { \
#define CPU_FS CPU_REGS_SREG(CPU_FS_INDEX)	#define CPU_FS CPU_REGS_SREG(CPU_FS_INDEX)
#define CPU_GS CPU_REGS_SREG(CPU_GS_INDEX)	#define CPU_GS CPU_REGS_SREG(CPU_GS_INDEX)

	#define CPU_ES_DESC CPU_STAT_SREG(CPU_ES_INDEX)
	#define CPU_CS_DESC CPU_STAT_SREG(CPU_CS_INDEX)
	#define CPU_SS_DESC CPU_STAT_SREG(CPU_SS_INDEX)
	#define CPU_DS_DESC CPU_STAT_SREG(CPU_DS_INDEX)
	#define CPU_FS_DESC CPU_STAT_SREG(CPU_FS_INDEX)
	#define CPU_GS_DESC CPU_STAT_SREG(CPU_GS_INDEX)

#define ES_BASE CPU_STAT_SREGBASE(CPU_ES_INDEX)	#define ES_BASE CPU_STAT_SREGBASE(CPU_ES_INDEX)
#define CS_BASE CPU_STAT_SREGBASE(CPU_CS_INDEX)	#define CS_BASE CPU_STAT_SREGBASE(CPU_CS_INDEX)
#define SS_BASE CPU_STAT_SREGBASE(CPU_SS_INDEX)	#define SS_BASE CPU_STAT_SREGBASE(CPU_SS_INDEX)
Line 402 do { \	Line 447 do { \
#define ALL_FLAG (SZAPC_FLAG\|T_FLAG\|I_FLAG\|D_FLAG\|O_FLAG\|IOPL_FLAG\|NT_FLAG)	#define ALL_FLAG (SZAPC_FLAG\|T_FLAG\|I_FLAG\|D_FLAG\|O_FLAG\|IOPL_FLAG\|NT_FLAG)
#define ALL_EFLAG (ALL_FLAG\|RF_FLAG\|VM_FLAG\|AC_FLAG\|VIF_FLAG\|VIP_FLAG\|ID_FLAG)	#define ALL_EFLAG (ALL_FLAG\|RF_FLAG\|VM_FLAG\|AC_FLAG\|VIF_FLAG\|VIP_FLAG\|ID_FLAG)

#define REAL_FLAGREG ((CPU_FLAG & 0xf7ff) \| (CPU_OV ? O_FLAG : 0))	#define REAL_FLAGREG ((CPU_FLAG & 0xf7ff) \| (CPU_OV ? O_FLAG : 0) \| 2)
#define REAL_EFLAGREG ((CPU_EFLAG & 0xfffff7ff) \| (CPU_OV ? O_FLAG : 0))	#define REAL_EFLAGREG ((CPU_EFLAG & 0xfffff7ff) \| (CPU_OV ? O_FLAG : 0) \| 2)

void set_flags(UINT16 new_flags, UINT16 mask);	void CPUCALL set_flags(UINT16 new_flags, UINT16 mask);
void set_eflags(UINT32 new_flags, UINT32 mask);	void CPUCALL set_eflags(UINT32 new_flags, UINT32 mask);


#define CPU_INST_OP32 CPU_STATSAVE.cpu_inst.op_32	#define CPU_INST_OP32 CPU_STATSAVE.cpu_inst.op_32
Line 419 void set_eflags(UINT32 new_flags, UINT32	Line 464 void set_eflags(UINT32 new_flags, UINT32

#define CPU_STAT_CS_BASE CPU_STAT_SREGBASE(CPU_CS_INDEX)	#define CPU_STAT_CS_BASE CPU_STAT_SREGBASE(CPU_CS_INDEX)
#define CPU_STAT_CS_LIMIT CPU_STAT_SREGLIMIT(CPU_CS_INDEX)	#define CPU_STAT_CS_LIMIT CPU_STAT_SREGLIMIT(CPU_CS_INDEX)
#define CPU_STAT_CS_END CPU_STAT_SREGEND(CPU_CS_INDEX)

#define CPU_STAT_ADRSMASK CPU_STATSAVE.cpu_stat.adrsmask	#define CPU_STAT_ADRSMASK CPU_STATSAVE.cpu_stat.adrsmask
#define CPU_STAT_SS32 CPU_STATSAVE.cpu_stat.ss_32	#define CPU_STAT_SS32 CPU_STATSAVE.cpu_stat.ss_32
Line 428 void set_eflags(UINT32 new_flags, UINT32	Line 472 void set_eflags(UINT32 new_flags, UINT32
#define CPU_STAT_PAGING CPU_STATSAVE.cpu_stat.paging	#define CPU_STAT_PAGING CPU_STATSAVE.cpu_stat.paging
#define CPU_STAT_VM86 CPU_STATSAVE.cpu_stat.vm86	#define CPU_STAT_VM86 CPU_STATSAVE.cpu_stat.vm86
#define CPU_STAT_WP CPU_STATSAVE.cpu_stat.page_wp	#define CPU_STAT_WP CPU_STATSAVE.cpu_stat.page_wp
#define CPU_STAT_CPL CPU_STAT_SREG(CPU_CS_INDEX).rpl	#define CPU_STAT_CPL CPU_CS_DESC.rpl
#define CPU_STAT_USER_MODE CPU_STATSAVE.cpu_stat.user_mode	#define CPU_STAT_USER_MODE CPU_STATSAVE.cpu_stat.user_mode
#define CPU_STAT_PDE_BASE CPU_STATSAVE.cpu_stat.pde_base	#define CPU_STAT_PDE_BASE CPU_STATSAVE.cpu_stat.pde_base
	#define CPU_SET_PREV_ESP1(esp) \
	do { \
	CPU_STATSAVE.cpu_stat.backout_sp = 1; \
	CPU_PREV_ESP = (esp); \
	} while (/CONSTCOND/0)
	#define CPU_SET_PREV_ESP() CPU_SET_PREV_ESP1(CPU_ESP)
	#define CPU_CLEAR_PREV_ESP() \
	do { \
	CPU_STATSAVE.cpu_stat.backout_sp = 0; \
	} while (/CONSTCOND/0)

#define CPU_STAT_HLT CPU_STATSAVE.cpu_stat.hlt	#define CPU_STAT_HLT CPU_STATSAVE.cpu_stat.hlt

Line 448 void set_eflags(UINT32 new_flags, UINT32	Line 502 void set_eflags(UINT32 new_flags, UINT32
#define CPU_STAT_EXCEPTION_COUNTER_INC() CPU_STATSAVE.cpu_stat.nerror++	#define CPU_STAT_EXCEPTION_COUNTER_INC() CPU_STATSAVE.cpu_stat.nerror++
#define CPU_STAT_EXCEPTION_COUNTER_CLEAR() CPU_STATSAVE.cpu_stat.nerror = 0	#define CPU_STAT_EXCEPTION_COUNTER_CLEAR() CPU_STATSAVE.cpu_stat.nerror = 0

#define CPU_PREFETCHQ CPU_STATSAVE.cpu_stat.prefetch
#define CPU_PREFETCHQ_REMAIN CPU_STATSAVE.cpu_stat.prefetch_remain

#if defined(IA32_SUPPORT_PREFETCH_QUEUE)
#define CPU_PREFETCH_CLEAR() CPU_PREFETCHQ_REMAIN = 0
#else /* !IA32_SUPPORT_PREFETCH_QUEUE */
#define CPU_PREFETCH_CLEAR()
#endif /* IA32_SUPPORT_PREFETCH_QUEUE */

#define CPU_MODE_SUPERVISER 0	#define CPU_MODE_SUPERVISER 0
#define CPU_MODE_USER 1	#define CPU_MODE_USER (1 << 3)
#define CPU_SET_CPL(cpl) \
do { \
UINT8 __t = (UINT8)((cpl) & 3); \
CPU_STAT_CPL = __t; \
CPU_STAT_USER_MODE = (__t == 3) ? CPU_MODE_USER : CPU_MODE_SUPERVISER; \
} while (/CONSTCOND/ 0)

#define CPU_CLI \	#define CPU_CLI \
do { \	do { \
Line 475 do { \	Line 514 do { \
#define CPU_STI \	#define CPU_STI \
do { \	do { \
CPU_FLAG \|= I_FLAG; \	CPU_FLAG \|= I_FLAG; \
CPU_TRAP = (CPU_FLAG >> 8) & 1; \	CPU_TRAP = (CPU_FLAG & (I_FLAG\|T_FLAG)) == (I_FLAG\|T_FLAG) ; \
} while (/CONSTCOND/0)	} while (/CONSTCOND/0)

#define CPU_GDTR_LIMIT CPU_STATSAVE.cpu_sysregs.gdtr_limit	#define CPU_GDTR_LIMIT CPU_STATSAVE.cpu_sysregs.gdtr_limit
Line 484 do { \	Line 523 do { \
#define CPU_IDTR_BASE CPU_STATSAVE.cpu_sysregs.idtr_base	#define CPU_IDTR_BASE CPU_STATSAVE.cpu_sysregs.idtr_base
#define CPU_LDTR CPU_STATSAVE.cpu_sysregs.ldtr	#define CPU_LDTR CPU_STATSAVE.cpu_sysregs.ldtr
#define CPU_LDTR_DESC CPU_STATSAVE.cpu_stat.ldtr	#define CPU_LDTR_DESC CPU_STATSAVE.cpu_stat.ldtr
#define CPU_LDTR_BASE CPU_STATSAVE.cpu_stat.ldtr.u.seg.segbase	#define CPU_LDTR_BASE CPU_LDTR_DESC.u.seg.segbase
#define CPU_LDTR_END CPU_STATSAVE.cpu_stat.ldtr.u.seg.segend	#define CPU_LDTR_LIMIT CPU_LDTR_DESC.u.seg.limit
#define CPU_LDTR_LIMIT CPU_STATSAVE.cpu_stat.ldtr.u.seg.limit
#define CPU_TR CPU_STATSAVE.cpu_sysregs.tr	#define CPU_TR CPU_STATSAVE.cpu_sysregs.tr
#define CPU_TR_DESC CPU_STATSAVE.cpu_stat.tr	#define CPU_TR_DESC CPU_STATSAVE.cpu_stat.tr
#define CPU_TR_BASE CPU_STATSAVE.cpu_stat.tr.u.seg.segbase	#define CPU_TR_BASE CPU_TR_DESC.u.seg.segbase
#define CPU_TR_END CPU_STATSAVE.cpu_stat.tr.u.seg.segend	#define CPU_TR_LIMIT CPU_TR_DESC.u.seg.limit
#define CPU_TR_LIMIT CPU_STATSAVE.cpu_stat.tr.u.seg.limit

/*	/*
* control register	* control register
Line 516 do { \	Line 553 do { \
#define CPU_CR0_NW (1 << 29)	#define CPU_CR0_NW (1 << 29)
#define CPU_CR0_CD (1 << 30)	#define CPU_CR0_CD (1 << 30)
#define CPU_CR0_PG (1 << 31)	#define CPU_CR0_PG (1 << 31)
	#define CPU_CR0_ALL (CPU_CR0_PE\|CPU_CR0_MP\|CPU_CR0_EM\|CPU_CR0_TS\|CPU_CR0_ET\|CPU_CR0_NE\|CPU_CR0_WP\|CPU_CR0_AM\|CPU_CR0_NW\|CPU_CR0_CD\|CPU_CR0_PG)

#define CPU_CR3_PD_MASK 0xfffff000	#define CPU_CR3_PD_MASK 0xfffff000
#define CPU_CR3_PWT (1 << 3)	#define CPU_CR3_PWT (1 << 3)
Line 534 do { \	Line 572 do { \
#define CPU_CR4_OSFXSR (1 << 9)	#define CPU_CR4_OSFXSR (1 << 9)
#define CPU_CR4_OSXMMEXCPT (1 << 10)	#define CPU_CR4_OSXMMEXCPT (1 << 10)

	/*
	* debug register
	*/
	#define CPU_DR(r) CPU_STATSAVE.cpu_regs.dr[(r)]
	#define CPU_DR6 CPU_DR(6)
	#define CPU_DR7 CPU_DR(7)

	#define CPU_STAT_BP CPU_STATSAVE.cpu_stat.bp
	#define CPU_STAT_BP_EVENT CPU_STATSAVE.cpu_stat.bp_ev
	#define CPU_STAT_BP_EVENT_B(r) (1 << (r))
	#define CPU_STAT_BP_EVENT_DR (1 << 4) /* fault */
	#define CPU_STAT_BP_EVENT_STEP (1 << 5) /* as CPU_TRAP */
	#define CPU_STAT_BP_EVENT_TASK (1 << 6)
	#define CPU_STAT_BP_EVENT_RF (1 << 7) /* RF_FLAG */

	#define CPU_DR6_B(r) (1 << (r))
	#define CPU_DR6_BD (1 << 13)
	#define CPU_DR6_BS (1 << 14)
	#define CPU_DR6_BT (1 << 15)

	#define CPU_DR7_L(r) (1 << ((r) * 2))
	#define CPU_DR7_G(r) (1 << ((r) * 2 + 1))
	#define CPU_DR7_LE (1 << 8)
	#define CPU_DR7_GE (1 << 9)
	#define CPU_DR7_GD (1 << 13)
	#define CPU_DR7_RW(r) (3 << ((r) * 4 + 16))
	#define CPU_DR7_LEN(r) (3 << ((r) * 4 + 16 + 2))

	#define CPU_DR7_GET_RW(r) ((CPU_DR7) >> (16 + (r) * 4))
	#define CPU_DR7_RW_CODE 0
	#define CPU_DR7_RW_RO 1
	#define CPU_DR7_RW_IO 2
	#define CPU_DR7_RW_RW 3

	#define CPU_DR7_GET_LEN(r) ((CPU_DR7) >> (16 + 2 + (r) * 4))

void ia32_init(void);	void ia32_init(void);
void ia32_initreg(void);	void ia32_initreg(void);
void ia32_setextsize(UINT32 size);	void ia32_setextsize(UINT32 size);
	void ia32_setemm(UINT frame, UINT32 addr);

void ia32reset(void);	void ia32reset(void);
void ia32shut(void);	void ia32shut(void);
	void ia32a20enable(BOOL enable);
void ia32(void);	void ia32(void);
void ia32withtrap(void);
void ia32withdma(void);

void ia32_step(void);	void ia32_step(void);
void CPUCALL ia32_interrupt(int vect);	void CPUCALL ia32_interrupt(int vect, int soft);
void CPUCALL ia32_exception(int vect, int p1, int p2);

void exec_1step(void);	void exec_1step(void);
#define INST_PREFIX (1 << 0)	#define INST_PREFIX (1 << 0)
Line 560 void ia32_panic(const char *buf, ...);	Line 631 void ia32_panic(const char *buf, ...);

void ia32_bioscall(void);	void ia32_bioscall(void);

void FASTCALL change_pm(BOOL onoff);	void CPUCALL change_pm(BOOL onoff);
void FASTCALL change_vm(BOOL onoff);	void CPUCALL change_vm(BOOL onoff);
void FASTCALL change_pg(BOOL onoff);	void CPUCALL change_pg(BOOL onoff);

	void CPUCALL set_cr3(UINT32 new_cr3);
	void CPUCALL set_cpl(int new_cpl);

extern const UINT8 iflags[];	extern const UINT8 iflags[];
#define szpcflag iflags	#define szpcflag iflags
Line 575 extern UINT16 *reg16_b53[0x100];	Line 649 extern UINT16 *reg16_b53[0x100];
extern UINT32 *reg32_b20[0x100];	extern UINT32 *reg32_b20[0x100];
extern UINT32 *reg32_b53[0x100];	extern UINT32 *reg32_b53[0x100];

extern const char *reg8_str[8];	extern const char *reg8_str[CPU_REG_NUM];
extern const char *reg16_str[8];	extern const char *reg16_str[CPU_REG_NUM];
extern const char *reg32_str[8];	extern const char *reg32_str[CPU_REG_NUM];
	extern const char *sreg_str[CPU_SEGREG_NUM];

char *cpu_reg2str(void);	char *cpu_reg2str(void);
#if defined(USE_FPU)	#if defined(USE_FPU)
Line 588 void dbg_printf(const char *str, ...);	Line 663 void dbg_printf(const char *str, ...);


/*	/*
	* FPU
	*/
	#define FPU_REGS CPU_STATSAVE.fpu_regs
	#define FPU_CTRLWORD FPU_REGS.control
	#define FPU_STATUSWORD FPU_REGS.status
	#define FPU_INSTPTR FPU_REGS.inst
	#define FPU_DATAPTR FPU_REGS.data
	#define FPU_LASTINSTOP FPU_REGS.op
	#define FPU_INSTPTR_OFFSET FPU_REGS.inst.offset
	#define FPU_INSTPTR_SEG FPU_REGS.inst.seg
	#define FPU_DATAPTR_OFFSET FPU_REGS.data.offset
	#define FPU_DATAPTR_SEG FPU_REGS.data.seg

	#define FPU_STAT CPU_STATSAVE.fpu_stat
	#define FPU_STAT_TOP FPU_STAT.top
	#define FPU_STAT_PC FPU_STAT.pc
	#define FPU_STAT_RC FPU_STAT.rc

	#define FPU_ST(i) FPU_STAT.reg[((i) + FPU_STAT_TOP) & 7]
	#define FPU_REG(i) FPU_STAT.reg[i]

	/* FPU status register */
	#define FP_IE_FLAG (1 << 0) /* �䡣�ꥱ�ᥧ��楹*/
	#define FP_DE_FLAG (1 << 1) /* �ǥΡ��ޥ饤��ɡ��ڥ�� */
	#define FP_ZE_FLAG (1 << 2) /* ��ˤ�� */
	#define FP_OE_FLAG (1 << 3) /* ��С��ե�� */
	#define FP_UE_FLAG (1 << 4) /* ��ե�� */
	#define FP_PE_FLAG (1 << 5) /* �� */
	#define FP_SF_FLAG (1 << 6) /* ��å��ե�� */
	#define FP_ES_FLAG (1 << 7) /* ��顼��ޥꥹ�ơ�� */
	#define FP_C0_FLAG (1 << 8) /* ��拾�� */
	#define FP_C1_FLAG (1 << 9) /* ��拾�� */
	#define FP_C2_FLAG (1 << 10) /* ��拾�� */
	#define FP_TOP_FLAG (7 << 11) /* ��å��ݥ��ȤΥȥå� */
	#define FP_C3_FLAG (1 << 14) /* ��拾�� */
	#define FP_B_FLAG (1 << 15) /* FPU �ӥ�� */

	#define FP_TOP_SHIFT 11
	#define FP_TOP_GET() ((FPU_STATUSWORD & FP_TOP_FLAG) >> FP_TOP_SHIFT)
	#define FP_TOP_SET(v) ((FPU_STATUSWORD & ~FP_TOP_FLAG) \| ((v) << FP_TOP_SHIFT))

	#define FPU_STAT_TOP_INC() \
	do { \
	FPU_STAT.top = (FPU_STAT.top + 1) & 7; \
	} while (/CONSTCOND/0)
	#define FPU_STAT_TOP_DEC() \
	do { \
	FPU_STAT.top = (FPU_STAT.top - 1) & 7; \
	} while (/CONSTCOND/0)

	/* FPU control register */
	#define FP_CTRL_PC_SHIFT 8 /* �� */
	#define FP_CTRL_RC_SHIFT 10 /* �ݤ�� */

	#define FP_CTRL_PC_24 0 /* ñ�� */
	#define FP_CTRL_PC_53 1 /* �� */
	#define FP_CTRL_PC_64 3 /* ��ĥ�� */

	#define FP_CTRL_RC_NEAREST_EVEN 0
	#define FP_CTRL_RC_DOWN 1
	#define FP_CTRL_RC_UP 2
	#define FP_CTRL_RC_TO_ZERO 3


	/*
* Misc.	* Misc.
*/	*/
	void memory_dump(int idx, UINT32 madr);
void gdtr_dump(UINT32 base, UINT limit);	void gdtr_dump(UINT32 base, UINT limit);
void idtr_dump(UINT32 base, UINT limit);	void idtr_dump(UINT32 base, UINT limit);
void ldtr_dump(UINT32 base, UINT limit);	void ldtr_dump(UINT32 base, UINT limit);
void tr_dump(UINT16 selector, UINT32 base, UINT limit);	void tr_dump(UINT16 selector, UINT32 base, UINT limit);
	UINT32 pde_dump(UINT32 base, int idx);
	void segdesc_dump(descriptor_t *sdp);
	UINT32 convert_laddr_to_paddr(UINT32 laddr);
	UINT32 convert_vaddr_to_paddr(unsigned int idx, UINT32 offset);

/*	/*
* disasm	* disasm
Line 630 typedef struct {	Line 775 typedef struct {
} disasm_context_t;	} disasm_context_t;

int disasm(UINT32 eip, disasm_context_t ctx);	int disasm(UINT32 eip, disasm_context_t ctx);
	char *cpu_disasm2str(UINT32 eip);

#ifdef __cplusplus	#ifdef __cplusplus
}	}

RetroPC.NET-CVS <cvs@retropc.net>

Removed from v.1.20
changed lines
	Added in v.1.44