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root/cebix/BasiliskII/src/uae_cpu/newcpu.h
Revision: 1.6
Committed: 2001-07-13T10:13:58Z (23 years, 4 months ago) by gbeauche
Content type: text/plain
Branch: MAIN
CVS Tags: snapshot-15012002
Changes since 1.5: +2 -26 lines
Log Message:
- merged some code from uae-0.8.16

File Contents

# Content
1 /*
2 * UAE - The Un*x Amiga Emulator
3 *
4 * MC68000 emulation
5 *
6 * Copyright 1995 Bernd Schmidt
7 */
8
9 #ifndef NEWCPU_H
10 #define NEWCPU_H
11
12 #define SPCFLAG_STOP 2
13 #define SPCFLAG_DISK 4
14 #define SPCFLAG_INT 8
15 #define SPCFLAG_BRK 16
16 #define SPCFLAG_EXTRA_CYCLES 32
17 #define SPCFLAG_TRACE 64
18 #define SPCFLAG_DOTRACE 128
19 #define SPCFLAG_DOINT 256
20 #define SPCFLAG_BLTNASTY 512
21 #define SPCFLAG_EXEC 1024
22 #define SPCFLAG_MODE_CHANGE 8192
23
24 extern int areg_byteinc[];
25 extern int imm8_table[];
26
27 extern int movem_index1[256];
28 extern int movem_index2[256];
29 extern int movem_next[256];
30
31 extern int fpp_movem_index1[256];
32 extern int fpp_movem_index2[256];
33 extern int fpp_movem_next[256];
34
35 extern int broken_in;
36
37 typedef void REGPARAM2 cpuop_func (uae_u32) REGPARAM;
38
39 struct cputbl {
40 cpuop_func *handler;
41 int specific;
42 uae_u16 opcode;
43 };
44
45 extern void REGPARAM2 op_illg (uae_u32) REGPARAM;
46
47 typedef char flagtype;
48
49 extern struct regstruct
50 {
51 uae_u32 regs[16];
52 uaecptr usp,isp,msp;
53 uae_u16 sr;
54 flagtype t1;
55 flagtype t0;
56 flagtype s;
57 flagtype m;
58 flagtype x;
59 flagtype stopped;
60 int intmask;
61
62 uae_u32 pc;
63 uae_u8 *pc_p;
64 uae_u8 *pc_oldp;
65
66 uae_u32 vbr,sfc,dfc;
67
68 double fp[8];
69 uae_u32 fpcr,fpsr,fpiar;
70
71 uae_u32 spcflags;
72 uae_u32 kick_mask;
73
74 /* Fellow sources say this is 4 longwords. That's impossible. It needs
75 * to be at least a longword. The HRM has some cryptic comment about two
76 * instructions being on the same longword boundary.
77 * The way this is implemented now seems like a good compromise.
78 */
79 uae_u32 prefetch;
80 } regs, lastint_regs;
81
82 #define m68k_dreg(r,num) ((r).regs[(num)])
83 #define m68k_areg(r,num) (((r).regs + 8)[(num)])
84
85 #define get_ibyte(o) do_get_mem_byte((uae_u8 *)(regs.pc_p + (o) + 1))
86 #define get_iword(o) do_get_mem_word((uae_u16 *)(regs.pc_p + (o)))
87 #define get_ilong(o) do_get_mem_long((uae_u32 *)(regs.pc_p + (o)))
88
89 #ifdef HAVE_GET_WORD_UNSWAPPED
90 #define GET_OPCODE (do_get_mem_word_unswapped (regs.pc_p))
91 #else
92 #define GET_OPCODE (get_iword (0))
93 #endif
94
95 static __inline__ uae_u32 get_ibyte_prefetch (uae_s32 o)
96 {
97 if (o > 3 || o < 0)
98 return do_get_mem_byte((uae_u8 *)(regs.pc_p + o + 1));
99
100 return do_get_mem_byte((uae_u8 *)(((uae_u8 *)&regs.prefetch) + o + 1));
101 }
102 static __inline__ uae_u32 get_iword_prefetch (uae_s32 o)
103 {
104 if (o > 3 || o < 0)
105 return do_get_mem_word((uae_u16 *)(regs.pc_p + o));
106
107 return do_get_mem_word((uae_u16 *)(((uae_u8 *)&regs.prefetch) + o));
108 }
109 static __inline__ uae_u32 get_ilong_prefetch (uae_s32 o)
110 {
111 if (o > 3 || o < 0)
112 return do_get_mem_long((uae_u32 *)(regs.pc_p + o));
113 if (o == 0)
114 return do_get_mem_long(&regs.prefetch);
115 return (do_get_mem_word (((uae_u16 *)&regs.prefetch) + 1) << 16) | do_get_mem_word ((uae_u16 *)(regs.pc_p + 4));
116 }
117
118 #define m68k_incpc(o) (regs.pc_p += (o))
119
120 static __inline__ void fill_prefetch_0 (void)
121 {
122 #if USE_PREFETCH_BUFFER
123 uae_u32 r;
124 #ifdef UNALIGNED_PROFITABLE
125 r = *(uae_u32 *)regs.pc_p;
126 regs.prefetch = r;
127 #else
128 r = do_get_mem_long ((uae_u32 *)regs.pc_p);
129 do_put_mem_long (&regs.prefetch, r);
130 #endif
131 #endif
132 }
133
134 #if 0
135 static __inline__ void fill_prefetch_2 (void)
136 {
137 uae_u32 r = do_get_mem_long (&regs.prefetch) << 16;
138 uae_u32 r2 = do_get_mem_word (((uae_u16 *)regs.pc_p) + 1);
139 r |= r2;
140 do_put_mem_long (&regs.prefetch, r);
141 }
142 #else
143 #define fill_prefetch_2 fill_prefetch_0
144 #endif
145
146 /* These are only used by the 68020/68881 code, and therefore don't
147 * need to handle prefetch. */
148 static __inline__ uae_u32 next_ibyte (void)
149 {
150 uae_u32 r = get_ibyte (0);
151 m68k_incpc (2);
152 return r;
153 }
154
155 static __inline__ uae_u32 next_iword (void)
156 {
157 uae_u32 r = get_iword (0);
158 m68k_incpc (2);
159 return r;
160 }
161
162 static __inline__ uae_u32 next_ilong (void)
163 {
164 uae_u32 r = get_ilong (0);
165 m68k_incpc (4);
166 return r;
167 }
168
169 #if !defined USE_COMPILER
170 static __inline__ void m68k_setpc (uaecptr newpc)
171 {
172 #if REAL_ADDRESSING || DIRECT_ADDRESSING
173 regs.pc_p = get_real_address(newpc);
174 #else
175 regs.pc_p = regs.pc_oldp = get_real_address(newpc);
176 regs.pc = newpc;
177 #endif
178 }
179 #else
180 extern void m68k_setpc (uaecptr newpc);
181 #endif
182
183 static __inline__ uaecptr m68k_getpc (void)
184 {
185 #if REAL_ADDRESSING || DIRECT_ADDRESSING
186 return get_virtual_address(regs.pc_p);
187 #else
188 return regs.pc + ((char *)regs.pc_p - (char *)regs.pc_oldp);
189 #endif
190 }
191
192 #ifdef USE_COMPILER
193 extern void m68k_setpc_fast (uaecptr newpc);
194 extern void m68k_setpc_bcc (uaecptr newpc);
195 extern void m68k_setpc_rte (uaecptr newpc);
196 #else
197 #define m68k_setpc_fast m68k_setpc
198 #define m68k_setpc_bcc m68k_setpc
199 #define m68k_setpc_rte m68k_setpc
200 #endif
201
202 static __inline__ void m68k_do_rts(void)
203 {
204 m68k_setpc(get_long(m68k_areg(regs, 7)));
205 m68k_areg(regs, 7) += 4;
206 }
207
208 static __inline__ void m68k_do_bsr(uaecptr oldpc, uae_s32 offset)
209 {
210 m68k_areg(regs, 7) -= 4;
211 put_long(m68k_areg(regs, 7), oldpc);
212 m68k_incpc(offset);
213 }
214
215 static __inline__ void m68k_do_jsr(uaecptr oldpc, uaecptr dest)
216 {
217 m68k_areg(regs, 7) -= 4;
218 put_long(m68k_areg(regs, 7), oldpc);
219 m68k_setpc(dest);
220 }
221
222 static __inline__ void m68k_setstopped (int stop)
223 {
224 regs.stopped = stop;
225 if (stop)
226 regs.spcflags |= SPCFLAG_STOP;
227 }
228
229 extern uae_u32 get_disp_ea_020 (uae_u32 base, uae_u32 dp);
230 extern uae_u32 get_disp_ea_000 (uae_u32 base, uae_u32 dp);
231
232 extern uae_s32 ShowEA (int reg, amodes mode, wordsizes size, char *buf);
233
234 extern void MakeSR (void);
235 extern void MakeFromSR (void);
236 extern void Exception (int, uaecptr);
237 extern void dump_counts (void);
238 extern int m68k_move2c (int, uae_u32 *);
239 extern int m68k_movec2 (int, uae_u32 *);
240 extern void m68k_divl (uae_u32, uae_u32, uae_u16, uaecptr);
241 extern void m68k_mull (uae_u32, uae_u32, uae_u16);
242 extern void init_m68k (void);
243 extern void exit_m68k (void);
244 extern void m68k_go (int);
245 extern void m68k_dumpstate (uaecptr *);
246 extern void m68k_disasm (uaecptr, uaecptr *, int);
247 extern void m68k_reset (void);
248 extern void m68k_enter_debugger(void);
249
250 extern void mmu_op (uae_u32, uae_u16);
251
252 extern void fpp_opp (uae_u32, uae_u16);
253 extern void fdbcc_opp (uae_u32, uae_u16);
254 extern void fscc_opp (uae_u32, uae_u16);
255 extern void ftrapcc_opp (uae_u32,uaecptr);
256 extern void fbcc_opp (uae_u32, uaecptr, uae_u32);
257 extern void fsave_opp (uae_u32);
258 extern void frestore_opp (uae_u32);
259
260 extern void fpu_set_integral_fpu (bool is_integral);
261 extern void fpu_init (void);
262 extern void fpu_exit (void);
263 extern void fpu_reset (void);
264
265 /* Opcode of faulting instruction */
266 extern uae_u16 last_op_for_exception_3;
267 /* PC at fault time */
268 extern uaecptr last_addr_for_exception_3;
269 /* Address that generated the exception */
270 extern uaecptr last_fault_for_exception_3;
271
272 #define CPU_OP_NAME(a) op ## a
273
274 /* 68020 + 68881 */
275 extern struct cputbl op_smalltbl_0[];
276 /* 68020 */
277 extern struct cputbl op_smalltbl_1[];
278 /* 68010 */
279 extern struct cputbl op_smalltbl_2[];
280 /* 68000 */
281 extern struct cputbl op_smalltbl_3[];
282 /* 68000 slow but compatible. */
283 extern struct cputbl op_smalltbl_4[];
284
285 extern cpuop_func *cpufunctbl[65536] ASM_SYM_FOR_FUNC ("cpufunctbl");
286
287 #endif /* NEWCPU_H */