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root/cebix/BasiliskII/src/uae_cpu/newcpu.h

Comparing BasiliskII/src/uae_cpu/newcpu.h (file contents):
Revision 1.2 by cebix, 1999-10-31T23:18:44Z vs.
Revision 1.14 by gbeauche, 2005-06-04T16:47:14Z

#	Line 6 | Line 6
6		* Copyright 1995 Bernd Schmidt
7		*/
8
9	<	#define SPCFLAG_STOP 2
10	<	#define SPCFLAG_DISK 4
11	<	#define SPCFLAG_INT  8
12	<	#define SPCFLAG_BRK  16
13	<	#define SPCFLAG_EXTRA_CYCLES 32
14	<	#define SPCFLAG_TRACE 64
15	<	#define SPCFLAG_DOTRACE 128
16	<	#define SPCFLAG_DOINT 256
17	<	#define SPCFLAG_BLTNASTY 512
18	<	#define SPCFLAG_EXEC 1024
19	<	#define SPCFLAG_MODE_CHANGE 8192
20	<
21	<	#ifndef SET_CFLG
22	<
23	<	#define SET_CFLG(x) (CFLG = (x))
24	<	#define SET_NFLG(x) (NFLG = (x))
25	<	#define SET_VFLG(x) (VFLG = (x))
26	<	#define SET_ZFLG(x) (ZFLG = (x))
27	<	#define SET_XFLG(x) (XFLG = (x))
28	<
29	<	#define GET_CFLG CFLG
30	<	#define GET_NFLG NFLG
31	<	#define GET_VFLG VFLG
32	<	#define GET_ZFLG ZFLG
33	<	#define GET_XFLG XFLG
34	<
35	<	#define CLEAR_CZNV do { \
36	<	SET_CFLG (0); \
37	<	SET_ZFLG (0); \
38	<	SET_NFLG (0); \
39	<	SET_VFLG (0); \
40	<	} while (0)
9	>	#ifndef NEWCPU_H
10	>	#define NEWCPU_H
11
12	<	#define COPY_CARRY (SET_XFLG (GET_CFLG))
12	>	#ifndef FLIGHT_RECORDER
13	>	#define FLIGHT_RECORDER 0
14		#endif
15
16	+	#include "m68k.h"
17	+	#include "readcpu.h"
18	+	#include "spcflags.h"
19	+
20		extern int areg_byteinc[];
21		extern int imm8_table[];
22
#	Line 49 | Line 24 | extern int movem_index1[256];
24		extern int movem_index2[256];
25		extern int movem_next[256];
26
52	–	extern int fpp_movem_index1[256];
53	–	extern int fpp_movem_index2[256];
54	–	extern int fpp_movem_next[256];
55	–
27		extern int broken_in;
28
29	<	typedef void REGPARAM2 cpuop_func (uae_u32) REGPARAM;
29	>	#ifdef X86_ASSEMBLY
30	>	/* This hack seems to force all register saves (pushl %reg) to be moved to the
31	>	begining of the function, thus making it possible to cpuopti to remove them
32	>	since m68k_run_1 will save those registers before calling the instruction
33	>	handler */
34	>	# define cpuop_tag(tag)         __asm__ __volatile__ ( "#cpuop_" tag )
35	>	#else
36	>	# define cpuop_tag(tag)         ;
37	>	#endif
38	>
39	>	#define cpuop_begin()           do { cpuop_tag("begin"); } while (0)
40	>	#define cpuop_end()                     do { cpuop_tag("end"); } while (0)
41
42	+	typedef void REGPARAM2 cpuop_func (uae_u32) REGPARAM;
43	+
44		struct cputbl {
45		cpuop_func *handler;
46	<	int specific;
46	>	uae_u16 specific;
47		uae_u16 opcode;
48		};
49
50	<	extern void REGPARAM2 op_illg (uae_u32) REGPARAM;
50	>	extern cpuop_func *cpufunctbl[65536] ASM_SYM_FOR_FUNC ("cpufunctbl");
51
52	<	typedef char flagtype;
52	>	#if USE_JIT
53	>	typedef void compop_func (uae_u32) REGPARAM;
54
55	<	extern struct regstruct
56	<	{
57	<	uae_u32 regs[16];
58	<	uaecptr  usp,isp,msp;
59	<	uae_u16 sr;
60	<	flagtype t1;
76	<	flagtype t0;
77	<	flagtype s;
78	<	flagtype m;
79	<	flagtype x;
80	<	flagtype stopped;
81	<	int intmask;
82	<
83	<	uae_u32 pc;
84	<	uae_u8 *pc_p;
85	<	uae_u8 *pc_oldp;
55	>	struct comptbl {
56	>	compop_func *handler;
57	>	uae_u32         specific;
58	>	uae_u32         opcode;
59	>	};
60	>	#endif
61
62	<	uae_u32 vbr,sfc,dfc;
62	>	extern void REGPARAM2 op_illg (uae_u32) REGPARAM;
63	>
64	>	typedef char flagtype;
65
66	<	double fp[8];
67	<	uae_u32 fpcr,fpsr,fpiar;
66	>	struct regstruct {
67	>	uae_u32             regs[16];
68
69	<	uae_u32 spcflags;
70	<	uae_u32 kick_mask;
69	>	uae_u32             pc;
70	>	uae_u8 *    pc_p;
71	>	uae_u8 *    pc_oldp;
72	>
73	>	spcflags_t      spcflags;
74	>	int                 intmask;
75	>
76	>	uae_u32             vbr, sfc, dfc;
77	>	uaecptr             usp, isp, msp;
78	>	uae_u16             sr;
79	>	flagtype    t1;
80	>	flagtype    t0;
81	>	flagtype    s;
82	>	flagtype    m;
83	>	flagtype    x;
84	>	flagtype    stopped;
85
86	+	#if USE_PREFETCH_BUFFER
87		/* Fellow sources say this is 4 longwords. That's impossible. It needs
88		* to be at least a longword. The HRM has some cryptic comment about two
89		* instructions being on the same longword boundary.
90		* The way this is implemented now seems like a good compromise.
91		*/
92		uae_u32 prefetch;
93	<	} regs, lastint_regs;
93	>	#endif
94	>	};
95	>
96	>	extern regstruct regs, lastint_regs;
97
98		#define m68k_dreg(r,num) ((r).regs[(num)])
99		#define m68k_areg(r,num) (((r).regs + 8)[(num)])
#	Line 113 | Line 108 | extern struct regstruct
108		#define GET_OPCODE (get_iword (0))
109		#endif
110
111	+	#if USE_PREFETCH_BUFFER
112		static __inline__ uae_u32 get_ibyte_prefetch (uae_s32 o)
113		{
114		if (o > 3 || o < 0)
#	Line 135 | Line 131 | static __inline__ uae_u32 get_ilong_pref
131		return do_get_mem_long(&regs.prefetch);
132		return (do_get_mem_word (((uae_u16 *)&regs.prefetch) + 1) << 16) | do_get_mem_word ((uae_u16 *)(regs.pc_p + 4));
133		}
134	+	#endif
135
136		#define m68k_incpc(o) (regs.pc_p += (o))
137
138		static __inline__ void fill_prefetch_0 (void)
139		{
140	+	#if USE_PREFETCH_BUFFER
141		uae_u32 r;
142		#ifdef UNALIGNED_PROFITABLE
143		r = *(uae_u32 *)regs.pc_p;
#	Line 148 | Line 146 | static __inline__ void fill_prefetch_0 (
146		r = do_get_mem_long ((uae_u32 *)regs.pc_p);
147		do_put_mem_long (&regs.prefetch, r);
148		#endif
149	+	#endif
150		}
151
152		#if 0
#	Line 185 | Line 184 | static __inline__ uae_u32 next_ilong (vo
184		return r;
185		}
186
188	–	#if !defined USE_COMPILER
187		static __inline__ void m68k_setpc (uaecptr newpc)
188		{
189	+	#if REAL_ADDRESSING || DIRECT_ADDRESSING
190	+	regs.pc_p = get_real_address(newpc);
191	+	#else
192		regs.pc_p = regs.pc_oldp = get_real_address(newpc);
193		regs.pc = newpc;
193	–	}
194	–	#else
195	–	extern void m68k_setpc (uaecptr newpc);
194		#endif
195	+	}
196
197		static __inline__ uaecptr m68k_getpc (void)
198		{
199	+	#if REAL_ADDRESSING || DIRECT_ADDRESSING
200	+	return get_virtual_address(regs.pc_p);
201	+	#else
202		return regs.pc + ((char *)regs.pc_p - (char *)regs.pc_oldp);
203	+	#endif
204		}
205
203	–	static __inline__ uaecptr m68k_getpc_p (uae_u8 *p)
204	–	{
205	–	return regs.pc + ((char *)p - (char *)regs.pc_oldp);
206	–	}
207	–
208	–	#ifdef USE_COMPILER
209	–	extern void m68k_setpc_fast (uaecptr newpc);
210	–	extern void m68k_setpc_bcc (uaecptr newpc);
211	–	extern void m68k_setpc_rte (uaecptr newpc);
212	–	#else
206		#define m68k_setpc_fast m68k_setpc
207		#define m68k_setpc_bcc  m68k_setpc
208		#define m68k_setpc_rte  m68k_setpc
209	<	#endif
209	>
210	>	static __inline__ void m68k_do_rts(void)
211	>	{
212	>	m68k_setpc(get_long(m68k_areg(regs, 7)));
213	>	m68k_areg(regs, 7) += 4;
214	>	}
215	>
216	>	static __inline__ void m68k_do_bsr(uaecptr oldpc, uae_s32 offset)
217	>	{
218	>	m68k_areg(regs, 7) -= 4;
219	>	put_long(m68k_areg(regs, 7), oldpc);
220	>	m68k_incpc(offset);
221	>	}
222	>
223	>	static __inline__ void m68k_do_jsr(uaecptr oldpc, uaecptr dest)
224	>	{
225	>	m68k_areg(regs, 7) -= 4;
226	>	put_long(m68k_areg(regs, 7), oldpc);
227	>	m68k_setpc(dest);
228	>	}
229
230		static __inline__ void m68k_setstopped (int stop)
231		{
232		regs.stopped = stop;
233	<	if (stop)
234	<	regs.spcflags |= SPCFLAG_STOP;
233	>	/* A traced STOP instruction drops through immediately without
234	>	actually stopping.  */
235	>	if (stop && (regs.spcflags & SPCFLAG_DOTRACE) == 0)
236	>	SPCFLAGS_SET( SPCFLAG_STOP );
237		}
238
239		extern uae_u32 get_disp_ea_020 (uae_u32 base, uae_u32 dp);
#	Line 231 | Line 245 | extern void MakeSR (void);
245		extern void MakeFromSR (void);
246		extern void Exception (int, uaecptr);
247		extern void dump_counts (void);
248	<	extern void m68k_move2c (int, uae_u32 *);
249	<	extern void m68k_movec2 (int, uae_u32 *);
248	>	extern int m68k_move2c (int, uae_u32 *);
249	>	extern int m68k_movec2 (int, uae_u32 *);
250		extern void m68k_divl (uae_u32, uae_u32, uae_u16, uaecptr);
251		extern void m68k_mull (uae_u32, uae_u32, uae_u16);
252	+	extern void m68k_emulop (uae_u32);
253	+	extern void m68k_emulop_return (void);
254		extern void init_m68k (void);
255	<	extern void m68k_go (int);
255	>	extern void exit_m68k (void);
256		extern void m68k_dumpstate (uaecptr *);
257		extern void m68k_disasm (uaecptr, uaecptr *, int);
258		extern void m68k_reset (void);
259		extern void m68k_enter_debugger(void);
260	+	extern int m68k_do_specialties(void);
261
262		extern void mmu_op (uae_u32, uae_u16);
263
247	–	extern void fpp_opp (uae_u32, uae_u16);
248	–	extern void fdbcc_opp (uae_u32, uae_u16);
249	–	extern void fscc_opp (uae_u32, uae_u16);
250	–	extern void ftrapcc_opp (uae_u32,uaecptr);
251	–	extern void fbcc_opp (uae_u32, uaecptr, uae_u32);
252	–	extern void fsave_opp (uae_u32);
253	–	extern void frestore_opp (uae_u32);
254	–
264		/* Opcode of faulting instruction */
265		extern uae_u16 last_op_for_exception_3;
266		/* PC at fault time */
#	Line 262 | Line 271 | extern uaecptr last_fault_for_exception_
271		#define CPU_OP_NAME(a) op ## a
272
273		/* 68020 + 68881 */
274	<	extern struct cputbl op_smalltbl_0[];
274	>	extern struct cputbl op_smalltbl_0_ff[];
275		/* 68020 */
276	<	extern struct cputbl op_smalltbl_1[];
276	>	extern struct cputbl op_smalltbl_1_ff[];
277		/* 68010 */
278	<	extern struct cputbl op_smalltbl_2[];
278	>	extern struct cputbl op_smalltbl_2_ff[];
279		/* 68000 */
280	<	extern struct cputbl op_smalltbl_3[];
280	>	extern struct cputbl op_smalltbl_3_ff[];
281		/* 68000 slow but compatible.  */
282	<	extern struct cputbl op_smalltbl_4[];
274	<
275	<	extern cpuop_func *cpufunctbl[65536] ASM_SYM_FOR_FUNC ("cpufunctbl");
282	>	extern struct cputbl op_smalltbl_4_ff[];
283
284	+	#if FLIGHT_RECORDER
285	+	extern void m68k_record_step(uaecptr) REGPARAM;
286	+	#endif
287	+	extern void m68k_do_execute(void);
288	+	extern void m68k_execute(void);
289	+	#if USE_JIT
290	+	#if defined(X86_ASSEMBLY) || defined(X86_64_ASSEMBLY)
291	+	/* This is generated code */
292	+	extern void (*m68k_compile_execute)(void);
293	+	#else
294	+	extern void m68k_do_compile_execute(void);
295	+	extern void m68k_compile_execute(void);
296	+	#endif
297	+	#endif
298	+
299	+	#endif /* NEWCPU_H */

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