[ViewVC] Diff of: cebix/BasiliskII/src/uae

Comparing BasiliskII/src/uae_cpu/m68k.h (file contents):
Revision 1.3 by cebix, 1999-10-28T16:00:26Z vs.
Revision 1.5 by gbeauche, 2001-07-13T10:13:58Z

#	Line 6 \| Line 6
6		* Copyright 1996 Bernd Schmidt
7		*/
8
9	+	#ifndef M68K_FLAGS_H
10	+	#define M68K_FLAGS_H
11	+
12	+	#ifdef OPTIMIZED_FLAGS
13	+
14		#if defined(__i386__) && defined(X86_ASSEMBLY)
15
16	+	#ifndef SAHF_SETO_PROFITABLE
17	+
18		struct flag_struct {
19	<	unsigned int cznv;
20	<	unsigned int x;
19	>	uae_u32 cznv;
20	>	uae_u32 x;
21		};
22
23	<	#define SET_ZFLG(y) (regflags.cznv = (regflags.cznv & ~0x40) \| (((y) & 1) << 6))
24	<	#define SET_CFLG(y) (regflags.cznv = (regflags.cznv & ~1) \| ((y) & 1))
25	<	#define SET_VFLG(y) (regflags.cznv = (regflags.cznv & ~0x800) \| (((y) & 1) << 11))
26	<	#define SET_NFLG(y) (regflags.cznv = (regflags.cznv & ~0x80) \| (((y) & 1) << 7))
27	<	#define SET_XFLG(y) (regflags.x = (y))
28	<
29	<	#define GET_ZFLG ((regflags.cznv >> 6) & 1)
30	<	#define GET_CFLG (regflags.cznv & 1)
31	<	#define GET_VFLG ((regflags.cznv >> 11) & 1)
32	<	#define GET_NFLG ((regflags.cznv >> 7) & 1)
33	<	#define GET_XFLG (regflags.x & 1)
23	>	#define FLAGVAL_Z 0x40
24	>	#define FLAGVAL_N 0x80
25	>
26	>	#define SET_ZFLG(y) (regflags.cznv = (regflags.cznv & ~0x40) \| (((y) & 1) << 6))
27	>	#define SET_CFLG(y) (regflags.cznv = (regflags.cznv & ~1) \| ((y) & 1))
28	>	#define SET_VFLG(y) (regflags.cznv = (regflags.cznv & ~0x800) \| (((y) & 1) << 11))
29	>	#define SET_NFLG(y) (regflags.cznv = (regflags.cznv & ~0x80) \| (((y) & 1) << 7))
30	>	#define SET_XFLG(y) (regflags.x = (y))
31	>
32	>	#define GET_ZFLG ((regflags.cznv >> 6) & 1)
33	>	#define GET_CFLG (regflags.cznv & 1)
34	>	#define GET_VFLG ((regflags.cznv >> 11) & 1)
35	>	#define GET_NFLG ((regflags.cznv >> 7) & 1)
36	>	#define GET_XFLG (regflags.x & 1)
37	>
38	>	#define CLEAR_CZNV (regflags.cznv = 0)
39	>	#define GET_CZNV (regflags.cznv)
40	>	#define IOR_CZNV(X) (regflags.cznv \|= (X))
41	>	#define SET_CZNV(X) (regflags.cznv = (X))
42
43	<	#define CLEAR_CZNV (regflags.cznv = 0)
29	<	#define COPY_CARRY (regflags.x = regflags.cznv)
43	>	#define COPY_CARRY (regflags.x = regflags.cznv)
44
45		extern struct flag_struct regflags __asm__ ("regflags");
46
#	Line 58 \| Line 72 \| static __inline__ int cctrue(int cc)
72		return 0;
73		}
74
75	<	#define x86_flag_testl(v) \
76	<	__asm__ __volatile__ ("testl %1,%1\n\t" \
75	>	#define optflag_testl(v) \
76	>	__asm__ __volatile__ ("andl %1,%1\n\t" \
77		"pushfl\n\t" \
78		"popl %0\n\t" \
79		: "=r" (regflags.cznv) : "r" (v) : "cc")
80
81	<	#define x86_flag_testw(v) \
82	<	__asm__ __volatile__ ("testw %w1,%w1\n\t" \
81	>	#define optflag_testw(v) \
82	>	__asm__ __volatile__ ("andw %w1,%w1\n\t" \
83		"pushfl\n\t" \
84		"popl %0\n\t" \
85		: "=r" (regflags.cznv) : "r" (v) : "cc")
86
87	<	#define x86_flag_testb(v) \
88	<	__asm__ __volatile__ ("testb %b1,%b1\n\t" \
87	>	#define optflag_testb(v) \
88	>	__asm__ __volatile__ ("andb %b1,%b1\n\t" \
89		"pushfl\n\t" \
90		"popl %0\n\t" \
91		: "=r" (regflags.cznv) : "q" (v) : "cc")
92
93	<	#define x86_flag_addl(v, s, d) do { \
93	>	#define optflag_addl(v, s, d) do { \
94		__asm__ __volatile__ ("addl %k2,%k1\n\t" \
95		"pushfl\n\t" \
96		"popl %0\n\t" \
#	Line 84 \| Line 98 \| static __inline__ int cctrue(int cc)
98		COPY_CARRY; \
99		} while (0)
100
101	<	#define x86_flag_addw(v, s, d) do { \
101	>	#define optflag_addw(v, s, d) do { \
102		__asm__ __volatile__ ("addw %w2,%w1\n\t" \
103		"pushfl\n\t" \
104		"popl %0\n\t" \
#	Line 92 \| Line 106 \| static __inline__ int cctrue(int cc)
106		COPY_CARRY; \
107		} while (0)
108
109	<	#define x86_flag_addb(v, s, d) do { \
109	>	#define optflag_addb(v, s, d) do { \
110		__asm__ __volatile__ ("addb %b2,%b1\n\t" \
111		"pushfl\n\t" \
112		"popl %0\n\t" \
#	Line 100 \| Line 114 \| static __inline__ int cctrue(int cc)
114		COPY_CARRY; \
115		} while (0)
116
117	<	#define x86_flag_subl(v, s, d) do { \
117	>	#define optflag_subl(v, s, d) do { \
118		__asm__ __volatile__ ("subl %k2,%k1\n\t" \
119		"pushfl\n\t" \
120		"popl %0\n\t" \
#	Line 108 \| Line 122 \| static __inline__ int cctrue(int cc)
122		COPY_CARRY; \
123		} while (0)
124
125	<	#define x86_flag_subw(v, s, d) do { \
125	>	#define optflag_subw(v, s, d) do { \
126		__asm__ __volatile__ ("subw %w2,%w1\n\t" \
127		"pushfl\n\t" \
128		"popl %0\n\t" \
#	Line 116 \| Line 130 \| static __inline__ int cctrue(int cc)
130		COPY_CARRY; \
131		} while (0)
132
133	<	#define x86_flag_subb(v, s, d) do { \
133	>	#define optflag_subb(v, s, d) do { \
134		__asm__ __volatile__ ("subb %b2,%b1\n\t" \
135		"pushfl\n\t" \
136		"popl %0\n\t" \
#	Line 124 \| Line 138 \| static __inline__ int cctrue(int cc)
138		COPY_CARRY; \
139		} while (0)
140
141	<	#define x86_flag_cmpl(s, d) \
141	>	#define optflag_cmpl(s, d) \
142		__asm__ __volatile__ ("cmpl %k1,%k2\n\t" \
143		"pushfl\n\t" \
144		"popl %0\n\t" \
145		: "=r" (regflags.cznv) : "rmi" (s), "r" (d) : "cc")
146
147	<	#define x86_flag_cmpw(s, d) \
147	>	#define optflag_cmpw(s, d) \
148		__asm__ __volatile__ ("cmpw %w1,%w2\n\t" \
149		"pushfl\n\t" \
150		"popl %0\n\t" \
151		: "=r" (regflags.cznv) : "rmi" (s), "r" (d) : "cc")
152
153	<	#define x86_flag_cmpb(s, d) \
153	>	#define optflag_cmpb(s, d) \
154		__asm__ __volatile__ ("cmpb %b1,%b2\n\t" \
155		"pushfl\n\t" \
156		"popl %0\n\t" \
157		: "=r" (regflags.cznv) : "qmi" (s), "q" (d) : "cc")
158
159	<	#elif defined(__sparc__) && (defined(SPARC_V8_ASSEMBLY) \|\| defined(SPARC_V9_ASSEMBLY))
159	>	#else
160
161		struct flag_struct {
162	<	union {
163	<	unsigned short all;
150	<	unsigned char bytes[2];
151	<	};
162	>	uae_u32 cznv;
163	>	uae_u32 x;
164		};
165
166	<	typedef unsigned short * flags_addr;
167	<	extern struct flag_struct regflags;
156	<	#define M68K_FLAGS_ADDR ((flags_addr)(&regflags.all))
157	<	#define M68K_FLAGS_NZVC regflags.bytes[1]
158	<	#define M68K_FLAGS_X regflags.bytes[0]
166	>	#define FLAGVAL_Z 0x4000
167	>	#define FLAGVAL_N 0x8000
168
169	<	#if 0
169	>	#define SET_ZFLG(y) (regflags.cznv = (regflags.cznv & ~0x4000) \| (((y) & 1) << 14))
170	>	#define SET_CFLG(y) (regflags.cznv = (regflags.cznv & ~0x100) \| (((y) & 1) << 8))
171	>	#define SET_VFLG(y) (regflags.cznv = (regflags.cznv & ~0x1) \| (((y) & 1)))
172	>	#define SET_NFLG(y) (regflags.cznv = (regflags.cznv & ~0x8000) \| (((y) & 1) << 15))
173	>	#define SET_XFLG(y) (regflags.x = (y))
174	>
175	>	#define GET_ZFLG ((regflags.cznv >> 14) & 1)
176	>	#define GET_CFLG ((regflags.cznv >> 8) & 1)
177	>	#define GET_VFLG ((regflags.cznv >> 0) & 1)
178	>	#define GET_NFLG ((regflags.cznv >> 15) & 1)
179	>	#define GET_XFLG (regflags.x & 1)
180	>
181	>	#define CLEAR_CZNV (regflags.cznv = 0)
182	>	#define GET_CZNV (regflags.cznv)
183	>	#define IOR_CZNV(X) (regflags.cznv \|= (X))
184	>	#define SET_CZNV(X) (regflags.cznv = (X))
185
186	<	#define SET_ZFLG(y) (M68K_FLAGS_NZVC = (M68K_FLAGS_NZVC & ~0x01) \| ((y) & 1))
163	<	#define SET_CFLG(y) (M68K_FLAGS_NZVC = (M68K_FLAGS_NZVC & ~0x02) \| (((y) & 1) << 1))
164	<	#define SET_XFLG(y) (M68K_FLAGS_X = ((y) & 1) << 1)
165	<	#define SET_VFLG(y) (M68K_FLAGS_NZVC = (M68K_FLAGS_NZVC & ~0x10) \| (((y) & 1) << 4))
166	<	#define SET_NFLG(y) (M68K_FLAGS_NZVC = (M68K_FLAGS_NZVC & ~0x80) \| (((y) & 1) << 7))
167	<
168	<	#define GET_ZFLG (M68K_FLAGS_NZVC & 1)
169	<	#define GET_CFLG ((M68K_FLAGS_NZVC >> 1) & 1)
170	<	#define GET_XFLG ((M68K_FLAGS_X >> 1) & 1)
171	<	#define GET_VFLG ((M68K_FLAGS_NZVC >> 4) & 1)
172	<	#define GET_NFLG ((M68K_FLAGS_NZVC >> 7) & 1)
186	>	#define COPY_CARRY (regflags.x = (regflags.cznv)>>8)
187
188	<	#define CLEAR_CZNV (M68K_FLAGS_NZVC = 0)
175	<	#define COPY_CARRY (M68K_FLAGS_X = M68K_FLAGS_NZVC)
188	>	extern struct flag_struct regflags __asm__ ("regflags");
189
190	<	#else
190	>	static __inline__ int cctrue(int cc)
191	>	{
192	>	uae_u32 cznv = regflags.cznv;
193	>	switch(cc){
194	>	case 0: return 1; /* T */
195	>	case 1: return 0; /* F */
196	>	case 2: return (cznv & 0x4100) == 0; /* !GET_CFLG && !GET_ZFLG; HI */
197	>	case 3: return (cznv & 0x4100) != 0; /* GET_CFLG \|\| GET_ZFLG; LS */
198	>	case 4: return (cznv & 0x100) == 0; /* !GET_CFLG; CC */
199	>	case 5: return (cznv & 0x100) != 0; /* GET_CFLG; CS */
200	>	case 6: return (cznv & 0x4000) == 0; /* !GET_ZFLG; NE */
201	>	case 7: return (cznv & 0x4000) != 0; /* GET_ZFLG; EQ */
202	>	case 8: return (cznv & 0x01) == 0; /* !GET_VFLG; VC */
203	>	case 9: return (cznv & 0x01) != 0; /* GET_VFLG; VS */
204	>	case 10:return (cznv & 0x8000) == 0; /* !GET_NFLG; PL */
205	>	case 11:return (cznv & 0x8000) != 0; /* GET_NFLG; MI */
206	>	case 12:return (((cznv << 15) ^ cznv) & 0x8000) == 0; /* GET_NFLG == GET_VFLG; GE */
207	>	case 13:return (((cznv << 15) ^ cznv) & 0x8000) != 0;/* GET_NFLG != GET_VFLG; LT */
208	>	case 14:
209	>	cznv &= 0xc001;
210	>	return (((cznv << 15) ^ cznv) & 0xc000) == 0; /* !GET_ZFLG && (GET_NFLG == GET_VFLG); GT */
211	>	case 15:
212	>	cznv &= 0xc001;
213	>	return (((cznv << 15) ^ cznv) & 0xc000) != 0; /* GET_ZFLG \|\| (GET_NFLG != GET_VFLG); LE */
214	>	}
215	>	abort();
216	>	return 0;
217	>	}
218	>
219	>	/* Is there any way to do this without declaring all memory clobbered?
220	>	I.e. any way to tell gcc that some byte-sized value is in %al? */
221	>	#define optflag_testl(v) \
222	>	__asm__ __volatile__ ("andl %0,%0\n\t" \
223	>	"lahf\n\t" \
224	>	"seto %%al\n\t" \
225	>	"movb %%al,regflags\n\t" \
226	>	"movb %%ah,regflags+1\n\t" \
227	>	: : "r" (v) : "%eax","cc","memory")
228	>
229	>	#define optflag_testw(v) \
230	>	__asm__ __volatile__ ("andw %w0,%w0\n\t" \
231	>	"lahf\n\t" \
232	>	"seto %%al\n\t" \
233	>	"movb %%al,regflags\n\t" \
234	>	"movb %%ah,regflags+1\n\t" \
235	>	: : "r" (v) : "%eax","cc","memory")
236	>
237	>	#define optflag_testb(v) \
238	>	__asm__ __volatile__ ("andb %b0,%b0\n\t" \
239	>	"lahf\n\t" \
240	>	"seto %%al\n\t" \
241	>	"movb %%al,regflags\n\t" \
242	>	"movb %%ah,regflags+1\n\t" \
243	>	: : "q" (v) : "%eax","cc","memory")
244	>
245	>	#define optflag_addl(v, s, d) do { \
246	>	__asm__ __volatile__ ("addl %k1,%k0\n\t" \
247	>	"lahf\n\t" \
248	>	"seto %%al\n\t" \
249	>	"movb %%al,regflags\n\t" \
250	>	"movb %%ah,regflags+1\n\t" \
251	>	: "=r" (v) : "rmi" (s), "0" (d) : "%eax","cc","memory"); \
252	>	COPY_CARRY; \
253	>	} while (0)
254	>
255	>	#define optflag_addw(v, s, d) do { \
256	>	__asm__ __volatile__ ("addw %w1,%w0\n\t" \
257	>	"lahf\n\t" \
258	>	"seto %%al\n\t" \
259	>	"movb %%al,regflags\n\t" \
260	>	"movb %%ah,regflags+1\n\t" \
261	>	: "=r" (v) : "rmi" (s), "0" (d) : "%eax","cc","memory"); \
262	>	COPY_CARRY; \
263	>	} while (0)
264	>
265	>	#define optflag_addb(v, s, d) do { \
266	>	__asm__ __volatile__ ("addb %b1,%b0\n\t" \
267	>	"lahf\n\t" \
268	>	"seto %%al\n\t" \
269	>	"movb %%al,regflags\n\t" \
270	>	"movb %%ah,regflags+1\n\t" \
271	>	: "=q" (v) : "qmi" (s), "0" (d) : "%eax","cc","memory"); \
272	>	COPY_CARRY; \
273	>	} while (0)
274	>
275	>	#define optflag_subl(v, s, d) do { \
276	>	__asm__ __volatile__ ("subl %k1,%k0\n\t" \
277	>	"lahf\n\t" \
278	>	"seto %%al\n\t" \
279	>	"movb %%al,regflags\n\t" \
280	>	"movb %%ah,regflags+1\n\t" \
281	>	: "=r" (v) : "rmi" (s), "0" (d) : "%eax","cc","memory"); \
282	>	COPY_CARRY; \
283	>	} while (0)
284
285	<	#define M68K_FLAGS_ALL regflags.all
285	>	#define optflag_subw(v, s, d) do { \
286	>	__asm__ __volatile__ ("subw %w1,%w0\n\t" \
287	>	"lahf\n\t" \
288	>	"seto %%al\n\t" \
289	>	"movb %%al,regflags\n\t" \
290	>	"movb %%ah,regflags+1\n\t" \
291	>	: "=r" (v) : "rmi" (s), "0" (d) : "%eax","cc","memory"); \
292	>	COPY_CARRY; \
293	>	} while (0)
294
295	<	#define SET_ZFLG(y) (M68K_FLAGS_ALL = (M68K_FLAGS_ALL & ~0x01) \| ((y) & 1))
296	<	#define SET_CFLG(y) (M68K_FLAGS_ALL = (M68K_FLAGS_ALL & ~0x02) \| (((y) & 1) << 1))
297	<	#define SET_XFLG(y) (M68K_FLAGS_ALL = (M68K_FLAGS_ALL & ~0x200)\| (((y) & 1) << 9))
298	<	#define SET_VFLG(y) (M68K_FLAGS_ALL = (M68K_FLAGS_ALL & ~0x10) \| (((y) & 1) << 4))
299	<	#define SET_NFLG(y) (M68K_FLAGS_ALL = (M68K_FLAGS_ALL & ~0x80) \| (((y) & 1) << 7))
300	<
301	<	#define GET_ZFLG (M68K_FLAGS_ALL & 1)
302	<	#define GET_CFLG ((M68K_FLAGS_ALL >> 1) & 1)
303	<	#define GET_XFLG ((M68K_FLAGS_ALL >> 9) & 1)
190	<	#define GET_VFLG ((M68K_FLAGS_ALL >> 4) & 1)
191	<	#define GET_NFLG ((M68K_FLAGS_ALL >> 7) & 1)
295	>	#define optflag_subb(v, s, d) do { \
296	>	__asm__ __volatile__ ("subb %b1,%b0\n\t" \
297	>	"lahf\n\t" \
298	>	"seto %%al\n\t" \
299	>	"movb %%al,regflags\n\t" \
300	>	"movb %%ah,regflags+1\n\t" \
301	>	: "=q" (v) : "qmi" (s), "0" (d) : "%eax","cc","memory"); \
302	>	COPY_CARRY; \
303	>	} while (0)
304
305	<	#define CLEAR_CZNV (M68K_FLAGS_NZVC = 0)
306	<	#define COPY_CARRY (M68K_FLAGS_X = M68K_FLAGS_NZVC)
305	>	#define optflag_cmpl(s, d) \
306	>	__asm__ __volatile__ ("cmpl %k0,%k1\n\t" \
307	>	"lahf\n\t" \
308	>	"seto %%al\n\t" \
309	>	"movb %%al,regflags\n\t" \
310	>	"movb %%ah,regflags+1\n\t" \
311	>	: : "rmi" (s), "r" (d) : "%eax","cc","memory")
312	>
313	>	#define optflag_cmpw(s, d) \
314	>	__asm__ __volatile__ ("cmpw %w0,%w1\n\t" \
315	>	"lahf\n\t" \
316	>	"seto %%al\n\t" \
317	>	"movb %%al,regflags\n\t" \
318	>	"movb %%ah,regflags+1\n\t" \
319	>	: : "rmi" (s), "r" (d) : "%eax","cc","memory");
320	>
321	>	#define optflag_cmpb(s, d) \
322	>	__asm__ __volatile__ ("cmpb %b0,%b1\n\t" \
323	>	"lahf\n\t" \
324	>	"seto %%al\n\t" \
325	>	"movb %%al,regflags\n\t" \
326	>	"movb %%ah,regflags+1\n\t" \
327	>	: : "qmi" (s), "q" (d) : "%eax","cc","memory")
328
329		#endif
330
331	+	#elif defined(__sparc__) && (defined(SPARC_V8_ASSEMBLY) \|\| defined(SPARC_V9_ASSEMBLY))
332	+
333	+	struct flag_struct {
334	+	unsigned char nzvc;
335	+	unsigned char x;
336	+	};
337	+
338	+	extern struct flag_struct regflags;
339	+
340	+	#define FLAGVAL_Z 0x04
341	+	#define FLAGVAL_N 0x08
342	+
343	+	#define SET_ZFLG(y) (regflags.nzvc = (regflags.nzvc & ~0x04) \| (((y) & 1) << 2))
344	+	#define SET_CFLG(y) (regflags.nzvc = (regflags.nzvc & ~1) \| ((y) & 1))
345	+	#define SET_VFLG(y) (regflags.nzvc = (regflags.nzvc & ~0x02) \| (((y) & 1) << 1))
346	+	#define SET_NFLG(y) (regflags.nzvc = (regflags.nzvc & ~0x08) \| (((y) & 1) << 3))
347	+	#define SET_XFLG(y) (regflags.x = (y))
348	+
349	+	#define GET_ZFLG ((regflags.nzvc >> 2) & 1)
350	+	#define GET_CFLG (regflags.nzvc & 1)
351	+	#define GET_VFLG ((regflags.nzvc >> 1) & 1)
352	+	#define GET_NFLG ((regflags.nzvc >> 3) & 1)
353	+	#define GET_XFLG (regflags.x & 1)
354	+
355	+	#define CLEAR_CZNV (regflags.nzvc = 0)
356	+	#define GET_CZNV (reflags.nzvc)
357	+	#define IOR_CZNV(X) (refglags.nzvc \|= (X))
358	+	#define SET_CZNV(X) (regflags.nzvc = (X))
359	+
360	+	#define COPY_CARRY (regflags.x = regflags.nzvc)
361	+
362		static __inline__ int cctrue(int cc)
363		{
364	<	uae_u32 nzvc = M68K_FLAGS_NZVC;
364	>	uae_u32 nzvc = regflags.nzvc;
365		switch(cc){
366	<	case 0: return 1; /* T */
367	<	case 1: return 0; /* F */
368	<	case 2: return (nzvc & 0x03) == 0; /* !GET_CFLG && !GET_ZFLG; HI */
369	<	case 3: return (nzvc & 0x03) != 0; /* GET_CFLG \|\| GET_ZFLG; LS */
370	<	case 4: return (nzvc & 0x02) == 0; /* !GET_CFLG; CC */
371	<	case 5: return (nzvc & 0x02) != 0; /* GET_CFLG; CS */
372	<	case 6: return (nzvc & 0x01) == 0; /* !GET_ZFLG; NE */
373	<	case 7: return (nzvc & 0x01) != 0; /* GET_ZFLG; EQ */
374	<	case 8: return (nzvc & 0x10) == 0; /* !GET_VFLG; VC */
375	<	case 9: return (nzvc & 0x10) != 0; /* GET_VFLG; VS */
376	<	case 10:return (nzvc & 0x80) == 0; /* !GET_NFLG; PL */
377	<	case 11:return (nzvc & 0x80) != 0; /* GET_NFLG; MI */
378	<	case 12:return (((nzvc << 3) ^ nzvc) & 0x80) == 0; /* GET_NFLG == GET_VFLG; GE */
379	<	case 13:return (((nzvc << 3) ^ nzvc) & 0x80) != 0; /* GET_NFLG != GET_VFLG; LT */
366	>	case 0: return 1; /* T */
367	>	case 1: return 0; /* F */
368	>	case 2: return (nzvc & 0x05) == 0; /* !GET_CFLG && !GET_ZFLG; HI */
369	>	case 3: return (nzvc & 0x05) != 0; /* GET_CFLG \|\| GET_ZFLG; LS */
370	>	case 4: return (nzvc & 1) == 0; /* !GET_CFLG; CC */
371	>	case 5: return (nzvc & 1) != 0; /* GET_CFLG; CS */
372	>	case 6: return (nzvc & 0x04) == 0; /* !GET_ZFLG; NE */
373	>	case 7: return (nzvc & 0x04) != 0; /* GET_ZFLG; EQ */
374	>	case 8: return (nzvc & 0x02) == 0;/* !GET_VFLG; VC */
375	>	case 9: return (nzvc & 0x02) != 0;/* GET_VFLG; VS */
376	>	case 10:return (nzvc & 0x08) == 0; /* !GET_NFLG; PL */
377	>	case 11:return (nzvc & 0x08) != 0; /* GET_NFLG; MI */
378	>	case 12:return (((nzvc << 2) ^ nzvc) & 0x08) == 0; /* GET_NFLG == GET_VFLG; GE */
379	>	case 13:return (((nzvc << 2) ^ nzvc) & 0x08) != 0;/* GET_NFLG != GET_VFLG; LT */
380		case 14:
381	<	/* N--V--CZ shifted by 3 leads to V--CZ--- */
382	<	return (((nzvc << 3) ^ nzvc) & 0x88) == 0; /* !GET_ZFLG && (GET_NFLG == GET_VFLG); GT */
381	>	nzvc &= 0x0e;
382	>	return (((nzvc << 2) ^ nzvc) & 0x0c) == 0; /* !GET_ZFLG && (GET_NFLG == GET_VFLG); GT */
383		case 15:
384	<	return (((nzvc << 3) ^ nzvc) & 0x88) != 0; /* GET_ZFLG \|\| (GET_NFLG != GET_VFLG); LE */
384	>	nzvc &= 0x0e;
385	>	return (((nzvc << 2) ^ nzvc) & 0x0c) != 0; /* GET_ZFLG \|\| (GET_NFLG != GET_VFLG); LE */
386		}
387		return 0;
388		}
389
390		#ifdef SPARC_V8_ASSEMBLY
391
392	<	static inline char *str_flags(void)
228	<	{
229	<	static char str[8];
230	<	sprintf(str, "%c%c%c%c%c",
231	<	GET_XFLG ? 'X' : '-',
232	<	GET_NFLG ? 'N' : '-',
233	<	GET_ZFLG ? 'Z' : '-',
234	<	GET_VFLG ? 'V' : '-',
235	<	GET_CFLG ? 'C' : '-'
236	<	);
237	<	return str;
238	<	}
239	<
240	<	static inline uae_u32 sparc_v8_flag_add_8(flags_addr pflags, uae_u32 src, uae_u32 dst)
392	>	static inline uae_u32 sparc_v8_flag_add_8(flag_struct *flags, uae_u32 src, uae_u32 dst)
393		{
394		uae_u32 value;
395		__asm__ ("\n"
396		" sll %2, 24, %%o0\n"
397		" sll %3, 24, %%o1\n"
398		" addcc %%o0, %%o1, %%o0\n"
399	<	" subx %%g0, %%g0, %%o1\n"
400	<	" srl %%o0, 24, %0 ! 8-bit result\n"
401	<	" and %%o1, 0x202, %%o1 ! X, C flags\n"
402	<	" and %0, 0x80, %%o0\n"
403	<	" or %%o1, %%o0, %%o1 ! N flag\n"
404	<	" subcc %%g0, %0, %%g0\n"
405	<	" subx %%o1, -1, %%o1 ! Z flag\n"
399	>	" addx %%g0, %%g0, %%o1 ! X,C flags\n"
400	>	" srl %%o0, 24, %0\n"
401	>	" stb %%o1, [%1 + 1]\n"
402	>	" bl,a .+8\n"
403	>	" or %%o1, 0x08, %%o1 ! N flag\n"
404	>	" bz,a .+8\n"
405	>	" or %%o1, 0x04, %%o1 ! Z flag\n"
406		" bvs,a .+8\n"
407	<	" or %%o1, 0x10, %%o1 ! V flag\n"
408	<	" sth %%o1, [%1]\n"
407	>	" or %%o1, 0x02, %%o1 ! V flag\n"
408	>	" stb %%o1, [%1]\n"
409		: "=&r" (value)
410	<	: "r" (pflags), "r" (dst), "r" (src), "0" (value)
410	>	: "r" (flags), "r" (dst), "r" (src)
411		: "cc", "o0", "o1"
412		);
261	–
262	–	// printf("%d + %d = %d (flags = %s)\n", dst, src, value, str_flags());
413		return value;
414		}
415
416	<	static inline uae_u32 sparc_v8_flag_add_16(flags_addr pflags, uae_u32 src, uae_u32 dst)
416	>	static inline uae_u32 sparc_v8_flag_add_16(flag_struct *flags, uae_u32 src, uae_u32 dst)
417		{
418		uae_u32 value;
419		__asm__ ("\n"
420		" sll %2, 16, %%o0\n"
421		" sll %3, 16, %%o1\n"
422		" addcc %%o0, %%o1, %%o0\n"
423	<	" subx %%g0, %%g0, %%o1\n"
424	<	" srl %%o0, 16, %0 ! 16-bit result\n"
425	<	" and %%o1, 0x202, %%o1 ! X, C flags\n"
426	<	" sra %%o0, 24, %%o0\n"
427	<	" and %%o0, 0x80, %%o0\n"
428	<	" or %%o1, %%o0, %%o1 ! N flag\n"
429	<	" subcc %%g0, %0, %%g0\n"
280	<	" subx %%o1, -1, %%o1 ! Z flag\n"
423	>	" addx %%g0, %%g0, %%o1 ! X,C flags\n"
424	>	" srl %%o0, 16, %0\n"
425	>	" stb %%o1, [%1 + 1]\n"
426	>	" bl,a .+8\n"
427	>	" or %%o1, 0x08, %%o1 ! N flag\n"
428	>	" bz,a .+8\n"
429	>	" or %%o1, 0x04, %%o1 ! Z flag\n"
430		" bvs,a .+8\n"
431	<	" or %%o1, 0x10, %%o1 ! V flag\n"
432	<	" sth %%o1, [%1]\n"
431	>	" or %%o1, 0x02, %%o1 ! V flag\n"
432	>	" stb %%o1, [%1]\n"
433		: "=&r" (value)
434	<	: "r" (pflags), "r" (dst), "r" (src), "0" (value)
434	>	: "r" (flags), "r" (dst), "r" (src)
435		: "cc", "o0", "o1"
436		);
437		return value;
438		}
439
440	<	static inline uae_u32 sparc_v8_flag_add_32(flags_addr pflags, uae_u32 src, uae_u32 dst)
440	>	static inline uae_u32 sparc_v8_flag_add_32(flag_struct *flags, uae_u32 src, uae_u32 dst)
441		{
442		uae_u32 value;
443		__asm__ ("\n"
444		" addcc %2, %3, %0\n"
445	<	" subx %%g0, %%g0, %%o0\n"
446	<	" sra %0, 24, %%o1\n"
447	<	" and %%o0, 0x202, %%o0 ! X, C flags\n"
448	<	" and %%o1, 0x80, %%o1\n"
449	<	" or %%o0, %%o1, %%o0 ! N flag\n"
450	<	" subcc %%g0, %0, %%g0\n"
302	<	" subx %%o0, -1, %%o0 ! Z flag\n"
445	>	" addx %%g0, %%g0, %%o0 ! X,C flags\n"
446	>	" stb %%o0, [%1 + 1]\n"
447	>	" bl,a .+8\n"
448	>	" or %%o0, 0x08, %%o0 ! N flag\n"
449	>	" bz,a .+8\n"
450	>	" or %%o0, 0x04, %%o0 ! Z flag\n"
451		" bvs,a .+8\n"
452	<	" or %%o0, 0x10, %%o0 ! V flag\n"
453	<	" sth %%o0, [%1]\n"
452	>	" or %%o0, 0x02, %%o0 ! V flag\n"
453	>	" stb %%o0, [%1]\n"
454		: "=&r" (value)
455	<	: "r" (pflags), "r" (dst), "r" (src), "0" (value)
456	<	: "cc", "o0", "o1"
455	>	: "r" (flags), "r" (dst), "r" (src)
456	>	: "cc", "o0"
457		);
458		return value;
459		}
#	Line 439 \| Line 587 \| static inline void sparc_v8_flag_cmp_32(
587		);
588		}
589
590	+	static inline uae_u32 sparc_v8_flag_addx_8(flag_struct *flags, uae_u32 src, uae_u32 dst)
591	+	{
592	+	uae_u32 value;
593	+	__asm__ ("\n"
594	+	" ldub [%1 + 1], %%o1 ! Get the X Flag\n"
595	+	" subcc %%g0, %%o1, %%g0 ! Set the SPARC carry flag, if X set\n"
596	+	" addxcc %2, %3, %0\n"
597	+	: "=&r" (value)
598	+	: "r" (flags), "r" (dst), "r" (src)
599	+	: "cc", "o0", "o1"
600	+	);
601	+	return value;
602	+	}
603	+
604	+	#if 0
605	+	VERY SLOW...
606	+	static inline uae_u32 sparc_v8_flag_addx_8(flag_struct *flags, uae_u32 src, uae_u32 dst)
607	+	{
608	+	uae_u32 value;
609	+	__asm__ ("\n"
610	+	" sll %2, 24, %%o0\n"
611	+	" sll %3, 24, %%o1\n"
612	+	" addcc %%o0, %%o1, %%o0\n"
613	+	" addx %%g0, %%g0, %%o1 ! X,C flags\n"
614	+	" bvs,a .+8\n"
615	+	" or %%o1, 0x02, %%o1 ! V flag\n"
616	+	" ldub [%1 + 1], %%o2\n"
617	+	" subcc %%g0, %%o2, %%g0\n"
618	+	" addx %%g0, %%g0, %%o2\n"
619	+	" sll %%o2, 24, %%o2\n"
620	+	" addcc %%o0, %%o2, %%o0\n"
621	+	" srl %%o0, 24, %0\n"
622	+	" addx %%g0, %%g0, %%o2\n"
623	+	" or %%o1, %%o2, %%o1 ! update X,C flags\n"
624	+	" bl,a .+8\n"
625	+	" or %%o1, 0x08, %%o1 ! N flag\n"
626	+	" ldub [%1], %%o0 ! retreive the old NZVC flags (XXX)\n"
627	+	" bvs,a .+8\n"
628	+	" or %%o1, 0x02, %%o1 ! update V flag\n"
629	+	" and %%o0, 0x04, %%o0 ! (XXX) but keep only Z flag\n"
630	+	" and %%o1, 1, %%o2 ! keep C flag in %%o2\n"
631	+	" bnz,a .+8\n"
632	+	" or %%g0, %%g0, %%o0 ! Z flag cleared if non-zero result\n"
633	+	" stb %%o2, [%1 + 1] ! store the X flag\n"
634	+	" or %%o1, %%o0, %%o1\n"
635	+	" stb %%o1, [%1]\n"
636	+	: "=&r" (value)
637	+	: "r" (flags), "r" (dst), "r" (src)
638	+	: "cc", "o0", "o1", "o2"
639	+	);
640	+	return value;
641	+	}
642	+	#endif
643	+
644	+	static inline uae_u32 sparc_v8_flag_addx_32(flag_struct *flags, uae_u32 src, uae_u32 dst)
645	+	{
646	+	uae_u32 value;
647	+	__asm__ ("\n"
648	+	" ldub [%1 + 1], %%o0 ! Get the X Flag\n"
649	+	" subcc %%g0, %%o0, %%g0 ! Set the SPARC carry flag, if X set\n"
650	+	" addxcc %2, %3, %0\n"
651	+	" ldub [%1], %%o0 ! retreive the old NZVC flags\n"
652	+	" and %%o0, 0x04, %%o0 ! but keep only Z flag\n"
653	+	" addx %%o0, %%g0, %%o0 ! X,C flags\n"
654	+	" bl,a .+8\n"
655	+	" or %%o0, 0x08, %%o0 ! N flag\n"
656	+	" bvs,a .+8\n"
657	+	" or %%o0, 0x02, %%o0 ! V flag\n"
658	+	" bnz,a .+8\n"
659	+	" and %%o0, 0x0B, %%o0 ! Z flag cleared if result is non-zero\n"
660	+	" stb %%o0, [%1]\n"
661	+	" stb %%o0, [%1 + 1]\n"
662	+	: "=&r" (value)
663	+	: "r" (flags), "r" (dst), "r" (src)
664	+	: "cc", "o0"
665	+	);
666	+	return value;
667	+	}
668	+
669		#endif /* SPARC_V8_ASSEMBLY */
670
671		#ifdef SPARC_V9_ASSEMBLY
#	Line 753 \| Line 980 \| static inline uae_u32 sparc_v9_flag_addx
980
981		#endif /* SPARC_V9_ASSEMBLY */
982
983	+	#endif
984	+
985		#else
986
987		struct flag_struct {
#	Line 771 \| Line 1000 \| extern struct flag_struct regflags;
1000		#define VFLG (regflags.v)
1001		#define XFLG (regflags.x)
1002
1003	+	#define SET_CFLG(x) (CFLG = (x))
1004	+	#define SET_NFLG(x) (NFLG = (x))
1005	+	#define SET_VFLG(x) (VFLG = (x))
1006	+	#define SET_ZFLG(x) (ZFLG = (x))
1007	+	#define SET_XFLG(x) (XFLG = (x))
1008	+
1009	+	#define GET_CFLG CFLG
1010	+	#define GET_NFLG NFLG
1011	+	#define GET_VFLG VFLG
1012	+	#define GET_ZFLG ZFLG
1013	+	#define GET_XFLG XFLG
1014	+
1015	+	#define CLEAR_CZNV do { \
1016	+	SET_CFLG (0); \
1017	+	SET_ZFLG (0); \
1018	+	SET_NFLG (0); \
1019	+	SET_VFLG (0); \
1020	+	} while (0)
1021	+
1022	+	#define COPY_CARRY (SET_XFLG (GET_CFLG))
1023	+
1024		static __inline__ int cctrue(const int cc)
1025		{
1026		switch(cc){
#	Line 794 \| Line 1044 \| static __inline__ int cctrue(const int c
1044		return 0;
1045		}
1046
1047	<	#endif
1047	>	#endif /* OPTIMIZED_FLAGS */
1048	>
1049	>	#endif /* M68K_FLAGS_H */

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Comparing BasiliskII/src/uae_cpu/m68k.h (file contents): Revision 1.3 by cebix, 1999-10-28T16:00:26Z vs. Revision 1.5 by gbeauche, 2001-07-13T10:13:58Z

Diff Legend

Comparing BasiliskII/src/uae_cpu/m68k.h (file contents):
Revision 1.3 by cebix, 1999-10-28T16:00:26Z vs.
Revision 1.5 by gbeauche, 2001-07-13T10:13:58Z