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root/cebix/BasiliskII/src/uae_cpu/compiler/codegen_x86.cpp

Comparing BasiliskII/src/uae_cpu/compiler/codegen_x86.cpp (file contents):
Revision 1.6 by gbeauche, 2002-10-03T16:13:46Z vs.
Revision 1.33 by gbeauche, 2006-02-06T23:06:54Z

#	Line 3 | Line 3
3		*
4		*  Original 68040 JIT compiler for UAE, copyright 2000-2002 Bernd Meyer
5		*
6	<	*  Adaptation for Basilisk II and improvements, copyright 2000-2002
6	>	*  Adaptation for Basilisk II and improvements, copyright 2000-2005
7		*    Gwenole Beauchesne
8		*
9	<	*  Basilisk II (C) 1997-2002 Christian Bauer
9	>	*  Basilisk II (C) 1997-2005 Christian Bauer
10	>	*
11	>	*  Portions related to CPU detection come from linux/arch/i386/kernel/setup.c
12		*
13		*  This program is free software; you can redistribute it and/or modify
14		*  it under the terms of the GNU General Public License as published by
#	Line 40 | Line 42
42		#define EBP_INDEX 5
43		#define ESI_INDEX 6
44		#define EDI_INDEX 7
45	+	#if defined(__x86_64__)
46	+	#define R8_INDEX  8
47	+	#define R9_INDEX  9
48	+	#define R10_INDEX 10
49	+	#define R11_INDEX 11
50	+	#define R12_INDEX 12
51	+	#define R13_INDEX 13
52	+	#define R14_INDEX 14
53	+	#define R15_INDEX 15
54	+	#endif
55	+	/* XXX this has to match X86_Reg8H_Base + 4 */
56	+	#define AH_INDEX (0x10+4+EAX_INDEX)
57	+	#define CH_INDEX (0x10+4+ECX_INDEX)
58	+	#define DH_INDEX (0x10+4+EDX_INDEX)
59	+	#define BH_INDEX (0x10+4+EBX_INDEX)
60
61		/* The register in which subroutines return an integer return value */
62	<	#define REG_RESULT 0
62	>	#define REG_RESULT EAX_INDEX
63
64		/* The registers subroutines take their first and second argument in */
65		#if defined( _MSC_VER ) && !defined( USE_NORMAL_CALLING_CONVENTION )
66		/* Handle the _fastcall parameters of ECX and EDX */
67	<	#define REG_PAR1 1
68	<	#define REG_PAR2 2
67	>	#define REG_PAR1 ECX_INDEX
68	>	#define REG_PAR2 EDX_INDEX
69	>	#elif defined(__x86_64__)
70	>	#define REG_PAR1 EDI_INDEX
71	>	#define REG_PAR2 ESI_INDEX
72		#else
73	<	#define REG_PAR1 0
74	<	#define REG_PAR2 2
73	>	#define REG_PAR1 EAX_INDEX
74	>	#define REG_PAR2 EDX_INDEX
75		#endif
76
77	<	/* Three registers that are not used for any of the above */
58	<	#define REG_NOPAR1 6
59	<	#define REG_NOPAR2 5
60	<	#define REG_NOPAR3 3
61	<
62	<	#define REG_PC_PRE 0 /* The register we use for preloading regs.pc_p */
77	>	#define REG_PC_PRE EAX_INDEX /* The register we use for preloading regs.pc_p */
78		#if defined( _MSC_VER ) && !defined( USE_NORMAL_CALLING_CONVENTION )
79	<	#define REG_PC_TMP 0
79	>	#define REG_PC_TMP EAX_INDEX
80		#else
81	<	#define REG_PC_TMP 1 /* Another register that is not the above */
81	>	#define REG_PC_TMP ECX_INDEX /* Another register that is not the above */
82		#endif
83
84	<	#define SHIFTCOUNT_NREG 1  /* Register that can be used for shiftcount.
84	>	#define SHIFTCOUNT_NREG ECX_INDEX  /* Register that can be used for shiftcount.
85		-1 if any reg will do */
86	<	#define MUL_NREG1 0 /* %eax will hold the low 32 bits after a 32x32 mul */
87	<	#define MUL_NREG2 2 /* %edx will hold the high 32 bits */
86	>	#define MUL_NREG1 EAX_INDEX /* %eax will hold the low 32 bits after a 32x32 mul */
87	>	#define MUL_NREG2 EDX_INDEX /* %edx will hold the high 32 bits */
88	>
89	>	#define STACK_ALIGN             16
90	>	#define STACK_OFFSET    sizeof(void *)
91
92		uae_s8 always_used[]={4,-1};
93	+	#if defined(__x86_64__)
94	+	uae_s8 can_byte[]={0,1,2,3,5,6,7,8,9,10,11,12,13,14,15,-1};
95	+	uae_s8 can_word[]={0,1,2,3,5,6,7,8,9,10,11,12,13,14,15,-1};
96	+	#else
97		uae_s8 can_byte[]={0,1,2,3,-1};
98		uae_s8 can_word[]={0,1,2,3,5,6,7,-1};
99	+	#endif
100
101	+	#if USE_OPTIMIZED_CALLS
102	+	/* Make sure interpretive core does not use cpuopti */
103	+	uae_u8 call_saved[]={0,0,0,1,1,1,1,1};
104	+	#error FIXME: code not ready
105	+	#else
106		/* cpuopti mutate instruction handlers to assume registers are saved
107		by the caller */
108	<	uae_u8 call_saved[]={0,0,0,0,1,0,0,0};
108	>	uae_u8 call_saved[]={0,0,0,0,1,0,0,0,0,0,0,0,0,0,0,0};
109	>	#endif
110
111		/* This *should* be the same as call_saved. But:
112		- We might not really know which registers are saved, and which aren't,
#	Line 86 | Line 115 | uae_u8 call_saved[]={0,0,0,0,1,0,0,0};
115		- Special registers (such like the stack pointer) should not be "preserved"
116		by pushing, even though they are "saved" across function calls
117		*/
118	<	uae_u8 need_to_preserve[]={1,1,1,1,0,1,1,1};
118	>	#if defined(__x86_64__)
119	>	/* callee-saved registers as defined by Linux AMD64 ABI: rbx, rbp, rsp, r12 - r15 */
120	>	/* preserve r11 because it's generally used to hold pointers to functions */
121	>	static const uae_u8 need_to_preserve[]={0,0,0,1,0,1,0,0,0,0,0,1,1,1,1,1};
122	>	#else
123	>	/* callee-saved registers as defined by System V IA-32 ABI: edi, esi, ebx, ebp */
124	>	static const uae_u8 need_to_preserve[]={0,0,0,1,0,1,1,1};
125	>	#endif
126
127		/* Whether classes of instructions do or don't clobber the native flags */
128		#define CLOBBER_MOV
#	Line 111 | Line 147 | uae_u8 need_to_preserve[]={1,1,1,1,0,1,1
147		#define CLOBBER_TEST clobber_flags()
148		#define CLOBBER_CL16
149		#define CLOBBER_CL8
150	+	#define CLOBBER_SE32
151		#define CLOBBER_SE16
152		#define CLOBBER_SE8
153	+	#define CLOBBER_ZE32
154		#define CLOBBER_ZE16
155		#define CLOBBER_ZE8
156		#define CLOBBER_SW16 clobber_flags()
#	Line 122 | Line 160 | uae_u8 need_to_preserve[]={1,1,1,1,0,1,1
160		#define CLOBBER_BT   clobber_flags()
161		#define CLOBBER_BSF  clobber_flags()
162
163	+	/* FIXME: disabled until that's proofread.  */
164	+	#if defined(__x86_64__)
165	+	#define USE_NEW_RTASM 1
166	+	#endif
167	+
168	+	#if USE_NEW_RTASM
169	+
170	+	#if defined(__x86_64__)
171	+	#define X86_TARGET_64BIT                1
172	+	#endif
173	+	#define X86_FLAT_REGISTERS              0
174	+	#define X86_OPTIMIZE_ALU                1
175	+	#define X86_OPTIMIZE_ROTSHI             1
176	+	#include "codegen_x86.h"
177	+
178	+	#define x86_emit_byte(B)                emit_byte(B)
179	+	#define x86_emit_word(W)                emit_word(W)
180	+	#define x86_emit_long(L)                emit_long(L)
181	+	#define x86_emit_quad(Q)                emit_quad(Q)
182	+	#define x86_get_target()                get_target()
183	+	#define x86_emit_failure(MSG)   jit_fail(MSG, __FILE__, __LINE__, __FUNCTION__)
184	+
185	+	static void jit_fail(const char *msg, const char *file, int line, const char *function)
186	+	{
187	+	fprintf(stderr, "JIT failure in function %s from file %s at line %d: %s\n",
188	+	function, file, line, msg);
189	+	abort();
190	+	}
191	+
192	+	LOWFUNC(NONE,WRITE,1,raw_push_l_r,(R4 r))
193	+	{
194	+	#if defined(__x86_64__)
195	+	PUSHQr(r);
196	+	#else
197	+	PUSHLr(r);
198	+	#endif
199	+	}
200	+	LENDFUNC(NONE,WRITE,1,raw_push_l_r,(R4 r))
201	+
202	+	LOWFUNC(NONE,READ,1,raw_pop_l_r,(R4 r))
203	+	{
204	+	#if defined(__x86_64__)
205	+	POPQr(r);
206	+	#else
207	+	POPLr(r);
208	+	#endif
209	+	}
210	+	LENDFUNC(NONE,READ,1,raw_pop_l_r,(R4 r))
211	+
212	+	LOWFUNC(NONE,READ,1,raw_pop_l_m,(MEMW d))
213	+	{
214	+	#if defined(__x86_64__)
215	+	POPQm(d, X86_NOREG, X86_NOREG, 1);
216	+	#else
217	+	POPLm(d, X86_NOREG, X86_NOREG, 1);
218	+	#endif
219	+	}
220	+	LENDFUNC(NONE,READ,1,raw_pop_l_m,(MEMW d))
221	+
222	+	LOWFUNC(WRITE,NONE,2,raw_bt_l_ri,(R4 r, IMM i))
223	+	{
224	+	BTLir(i, r);
225	+	}
226	+	LENDFUNC(WRITE,NONE,2,raw_bt_l_ri,(R4 r, IMM i))
227	+
228	+	LOWFUNC(WRITE,NONE,2,raw_bt_l_rr,(R4 r, R4 b))
229	+	{
230	+	BTLrr(b, r);
231	+	}
232	+	LENDFUNC(WRITE,NONE,2,raw_bt_l_rr,(R4 r, R4 b))
233	+
234	+	LOWFUNC(WRITE,NONE,2,raw_btc_l_ri,(RW4 r, IMM i))
235	+	{
236	+	BTCLir(i, r);
237	+	}
238	+	LENDFUNC(WRITE,NONE,2,raw_btc_l_ri,(RW4 r, IMM i))
239	+
240	+	LOWFUNC(WRITE,NONE,2,raw_btc_l_rr,(RW4 r, R4 b))
241	+	{
242	+	BTCLrr(b, r);
243	+	}
244	+	LENDFUNC(WRITE,NONE,2,raw_btc_l_rr,(RW4 r, R4 b))
245	+
246	+	LOWFUNC(WRITE,NONE,2,raw_btr_l_ri,(RW4 r, IMM i))
247	+	{
248	+	BTRLir(i, r);
249	+	}
250	+	LENDFUNC(WRITE,NONE,2,raw_btr_l_ri,(RW4 r, IMM i))
251	+
252	+	LOWFUNC(WRITE,NONE,2,raw_btr_l_rr,(RW4 r, R4 b))
253	+	{
254	+	BTRLrr(b, r);
255	+	}
256	+	LENDFUNC(WRITE,NONE,2,raw_btr_l_rr,(RW4 r, R4 b))
257	+
258	+	LOWFUNC(WRITE,NONE,2,raw_bts_l_ri,(RW4 r, IMM i))
259	+	{
260	+	BTSLir(i, r);
261	+	}
262	+	LENDFUNC(WRITE,NONE,2,raw_bts_l_ri,(RW4 r, IMM i))
263	+
264	+	LOWFUNC(WRITE,NONE,2,raw_bts_l_rr,(RW4 r, R4 b))
265	+	{
266	+	BTSLrr(b, r);
267	+	}
268	+	LENDFUNC(WRITE,NONE,2,raw_bts_l_rr,(RW4 r, R4 b))
269	+
270	+	LOWFUNC(WRITE,NONE,2,raw_sub_w_ri,(RW2 d, IMM i))
271	+	{
272	+	SUBWir(i, d);
273	+	}
274	+	LENDFUNC(WRITE,NONE,2,raw_sub_w_ri,(RW2 d, IMM i))
275	+
276	+	LOWFUNC(NONE,READ,2,raw_mov_l_rm,(W4 d, MEMR s))
277	+	{
278	+	MOVLmr(s, X86_NOREG, X86_NOREG, 1, d);
279	+	}
280	+	LENDFUNC(NONE,READ,2,raw_mov_l_rm,(W4 d, MEMR s))
281	+
282	+	LOWFUNC(NONE,WRITE,2,raw_mov_l_mi,(MEMW d, IMM s))
283	+	{
284	+	MOVLim(s, d, X86_NOREG, X86_NOREG, 1);
285	+	}
286	+	LENDFUNC(NONE,WRITE,2,raw_mov_l_mi,(MEMW d, IMM s))
287	+
288	+	LOWFUNC(NONE,WRITE,2,raw_mov_w_mi,(MEMW d, IMM s))
289	+	{
290	+	MOVWim(s, d, X86_NOREG, X86_NOREG, 1);
291	+	}
292	+	LENDFUNC(NONE,WRITE,2,raw_mov_w_mi,(MEMW d, IMM s))
293	+
294	+	LOWFUNC(NONE,WRITE,2,raw_mov_b_mi,(MEMW d, IMM s))
295	+	{
296	+	MOVBim(s, d, X86_NOREG, X86_NOREG, 1);
297	+	}
298	+	LENDFUNC(NONE,WRITE,2,raw_mov_b_mi,(MEMW d, IMM s))
299	+
300	+	LOWFUNC(WRITE,RMW,2,raw_rol_b_mi,(MEMRW d, IMM i))
301	+	{
302	+	ROLBim(i, d, X86_NOREG, X86_NOREG, 1);
303	+	}
304	+	LENDFUNC(WRITE,RMW,2,raw_rol_b_mi,(MEMRW d, IMM i))
305	+
306	+	LOWFUNC(WRITE,NONE,2,raw_rol_b_ri,(RW1 r, IMM i))
307	+	{
308	+	ROLBir(i, r);
309	+	}
310	+	LENDFUNC(WRITE,NONE,2,raw_rol_b_ri,(RW1 r, IMM i))
311	+
312	+	LOWFUNC(WRITE,NONE,2,raw_rol_w_ri,(RW2 r, IMM i))
313	+	{
314	+	ROLWir(i, r);
315	+	}
316	+	LENDFUNC(WRITE,NONE,2,raw_rol_w_ri,(RW2 r, IMM i))
317	+
318	+	LOWFUNC(WRITE,NONE,2,raw_rol_l_ri,(RW4 r, IMM i))
319	+	{
320	+	ROLLir(i, r);
321	+	}
322	+	LENDFUNC(WRITE,NONE,2,raw_rol_l_ri,(RW4 r, IMM i))
323	+
324	+	LOWFUNC(WRITE,NONE,2,raw_rol_l_rr,(RW4 d, R1 r))
325	+	{
326	+	ROLLrr(r, d);
327	+	}
328	+	LENDFUNC(WRITE,NONE,2,raw_rol_l_rr,(RW4 d, R1 r))
329	+
330	+	LOWFUNC(WRITE,NONE,2,raw_rol_w_rr,(RW2 d, R1 r))
331	+	{
332	+	ROLWrr(r, d);
333	+	}
334	+	LENDFUNC(WRITE,NONE,2,raw_rol_w_rr,(RW2 d, R1 r))
335	+
336	+	LOWFUNC(WRITE,NONE,2,raw_rol_b_rr,(RW1 d, R1 r))
337	+	{
338	+	ROLBrr(r, d);
339	+	}
340	+	LENDFUNC(WRITE,NONE,2,raw_rol_b_rr,(RW1 d, R1 r))
341	+
342	+	LOWFUNC(WRITE,NONE,2,raw_shll_l_rr,(RW4 d, R1 r))
343	+	{
344	+	SHLLrr(r, d);
345	+	}
346	+	LENDFUNC(WRITE,NONE,2,raw_shll_l_rr,(RW4 d, R1 r))
347	+
348	+	LOWFUNC(WRITE,NONE,2,raw_shll_w_rr,(RW2 d, R1 r))
349	+	{
350	+	SHLWrr(r, d);
351	+	}
352	+	LENDFUNC(WRITE,NONE,2,raw_shll_w_rr,(RW2 d, R1 r))
353	+
354	+	LOWFUNC(WRITE,NONE,2,raw_shll_b_rr,(RW1 d, R1 r))
355	+	{
356	+	SHLBrr(r, d);
357	+	}
358	+	LENDFUNC(WRITE,NONE,2,raw_shll_b_rr,(RW1 d, R1 r))
359	+
360	+	LOWFUNC(WRITE,NONE,2,raw_ror_b_ri,(RW1 r, IMM i))
361	+	{
362	+	RORBir(i, r);
363	+	}
364	+	LENDFUNC(WRITE,NONE,2,raw_ror_b_ri,(RW1 r, IMM i))
365	+
366	+	LOWFUNC(WRITE,NONE,2,raw_ror_w_ri,(RW2 r, IMM i))
367	+	{
368	+	RORWir(i, r);
369	+	}
370	+	LENDFUNC(WRITE,NONE,2,raw_ror_w_ri,(RW2 r, IMM i))
371	+
372	+	LOWFUNC(WRITE,READ,2,raw_or_l_rm,(RW4 d, MEMR s))
373	+	{
374	+	ORLmr(s, X86_NOREG, X86_NOREG, 1, d);
375	+	}
376	+	LENDFUNC(WRITE,READ,2,raw_or_l_rm,(RW4 d, MEMR s))
377	+
378	+	LOWFUNC(WRITE,NONE,2,raw_ror_l_ri,(RW4 r, IMM i))
379	+	{
380	+	RORLir(i, r);
381	+	}
382	+	LENDFUNC(WRITE,NONE,2,raw_ror_l_ri,(RW4 r, IMM i))
383	+
384	+	LOWFUNC(WRITE,NONE,2,raw_ror_l_rr,(RW4 d, R1 r))
385	+	{
386	+	RORLrr(r, d);
387	+	}
388	+	LENDFUNC(WRITE,NONE,2,raw_ror_l_rr,(RW4 d, R1 r))
389	+
390	+	LOWFUNC(WRITE,NONE,2,raw_ror_w_rr,(RW2 d, R1 r))
391	+	{
392	+	RORWrr(r, d);
393	+	}
394	+	LENDFUNC(WRITE,NONE,2,raw_ror_w_rr,(RW2 d, R1 r))
395	+
396	+	LOWFUNC(WRITE,NONE,2,raw_ror_b_rr,(RW1 d, R1 r))
397	+	{
398	+	RORBrr(r, d);
399	+	}
400	+	LENDFUNC(WRITE,NONE,2,raw_ror_b_rr,(RW1 d, R1 r))
401	+
402	+	LOWFUNC(WRITE,NONE,2,raw_shrl_l_rr,(RW4 d, R1 r))
403	+	{
404	+	SHRLrr(r, d);
405	+	}
406	+	LENDFUNC(WRITE,NONE,2,raw_shrl_l_rr,(RW4 d, R1 r))
407	+
408	+	LOWFUNC(WRITE,NONE,2,raw_shrl_w_rr,(RW2 d, R1 r))
409	+	{
410	+	SHRWrr(r, d);
411	+	}
412	+	LENDFUNC(WRITE,NONE,2,raw_shrl_w_rr,(RW2 d, R1 r))
413	+
414	+	LOWFUNC(WRITE,NONE,2,raw_shrl_b_rr,(RW1 d, R1 r))
415	+	{
416	+	SHRBrr(r, d);
417	+	}
418	+	LENDFUNC(WRITE,NONE,2,raw_shrl_b_rr,(RW1 d, R1 r))
419	+
420	+	LOWFUNC(WRITE,NONE,2,raw_shra_l_rr,(RW4 d, R1 r))
421	+	{
422	+	SARLrr(r, d);
423	+	}
424	+	LENDFUNC(WRITE,NONE,2,raw_shra_l_rr,(RW4 d, R1 r))
425	+
426	+	LOWFUNC(WRITE,NONE,2,raw_shra_w_rr,(RW2 d, R1 r))
427	+	{
428	+	SARWrr(r, d);
429	+	}
430	+	LENDFUNC(WRITE,NONE,2,raw_shra_w_rr,(RW2 d, R1 r))
431	+
432	+	LOWFUNC(WRITE,NONE,2,raw_shra_b_rr,(RW1 d, R1 r))
433	+	{
434	+	SARBrr(r, d);
435	+	}
436	+	LENDFUNC(WRITE,NONE,2,raw_shra_b_rr,(RW1 d, R1 r))
437	+
438	+	LOWFUNC(WRITE,NONE,2,raw_shll_l_ri,(RW4 r, IMM i))
439	+	{
440	+	SHLLir(i, r);
441	+	}
442	+	LENDFUNC(WRITE,NONE,2,raw_shll_l_ri,(RW4 r, IMM i))
443	+
444	+	LOWFUNC(WRITE,NONE,2,raw_shll_w_ri,(RW2 r, IMM i))
445	+	{
446	+	SHLWir(i, r);
447	+	}
448	+	LENDFUNC(WRITE,NONE,2,raw_shll_w_ri,(RW2 r, IMM i))
449	+
450	+	LOWFUNC(WRITE,NONE,2,raw_shll_b_ri,(RW1 r, IMM i))
451	+	{
452	+	SHLBir(i, r);
453	+	}
454	+	LENDFUNC(WRITE,NONE,2,raw_shll_b_ri,(RW1 r, IMM i))
455	+
456	+	LOWFUNC(WRITE,NONE,2,raw_shrl_l_ri,(RW4 r, IMM i))
457	+	{
458	+	SHRLir(i, r);
459	+	}
460	+	LENDFUNC(WRITE,NONE,2,raw_shrl_l_ri,(RW4 r, IMM i))
461	+
462	+	LOWFUNC(WRITE,NONE,2,raw_shrl_w_ri,(RW2 r, IMM i))
463	+	{
464	+	SHRWir(i, r);
465	+	}
466	+	LENDFUNC(WRITE,NONE,2,raw_shrl_w_ri,(RW2 r, IMM i))
467	+
468	+	LOWFUNC(WRITE,NONE,2,raw_shrl_b_ri,(RW1 r, IMM i))
469	+	{
470	+	SHRBir(i, r);
471	+	}
472	+	LENDFUNC(WRITE,NONE,2,raw_shrl_b_ri,(RW1 r, IMM i))
473	+
474	+	LOWFUNC(WRITE,NONE,2,raw_shra_l_ri,(RW4 r, IMM i))
475	+	{
476	+	SARLir(i, r);
477	+	}
478	+	LENDFUNC(WRITE,NONE,2,raw_shra_l_ri,(RW4 r, IMM i))
479	+
480	+	LOWFUNC(WRITE,NONE,2,raw_shra_w_ri,(RW2 r, IMM i))
481	+	{
482	+	SARWir(i, r);
483	+	}
484	+	LENDFUNC(WRITE,NONE,2,raw_shra_w_ri,(RW2 r, IMM i))
485	+
486	+	LOWFUNC(WRITE,NONE,2,raw_shra_b_ri,(RW1 r, IMM i))
487	+	{
488	+	SARBir(i, r);
489	+	}
490	+	LENDFUNC(WRITE,NONE,2,raw_shra_b_ri,(RW1 r, IMM i))
491	+
492	+	LOWFUNC(WRITE,NONE,1,raw_sahf,(R2 dummy_ah))
493	+	{
494	+	SAHF();
495	+	}
496	+	LENDFUNC(WRITE,NONE,1,raw_sahf,(R2 dummy_ah))
497	+
498	+	LOWFUNC(NONE,NONE,1,raw_cpuid,(R4 dummy_eax))
499	+	{
500	+	CPUID();
501	+	}
502	+	LENDFUNC(NONE,NONE,1,raw_cpuid,(R4 dummy_eax))
503	+
504	+	LOWFUNC(READ,NONE,1,raw_lahf,(W2 dummy_ah))
505	+	{
506	+	LAHF();
507	+	}
508	+	LENDFUNC(READ,NONE,1,raw_lahf,(W2 dummy_ah))
509	+
510	+	LOWFUNC(READ,NONE,2,raw_setcc,(W1 d, IMM cc))
511	+	{
512	+	SETCCir(cc, d);
513	+	}
514	+	LENDFUNC(READ,NONE,2,raw_setcc,(W1 d, IMM cc))
515	+
516	+	LOWFUNC(READ,WRITE,2,raw_setcc_m,(MEMW d, IMM cc))
517	+	{
518	+	SETCCim(cc, d, X86_NOREG, X86_NOREG, 1);
519	+	}
520	+	LENDFUNC(READ,WRITE,2,raw_setcc_m,(MEMW d, IMM cc))
521	+
522	+	LOWFUNC(READ,NONE,3,raw_cmov_l_rr,(RW4 d, R4 s, IMM cc))
523	+	{
524	+	if (have_cmov)
525	+	CMOVLrr(cc, s, d);
526	+	else { /* replacement using branch and mov */
527	+	#if defined(__x86_64__)
528	+	write_log("x86-64 implementations are bound to have CMOV!\n");
529	+	abort();
530	+	#endif
531	+	JCCSii(cc^1, 2);
532	+	MOVLrr(s, d);
533	+	}
534	+	}
535	+	LENDFUNC(READ,NONE,3,raw_cmov_l_rr,(RW4 d, R4 s, IMM cc))
536	+
537	+	LOWFUNC(WRITE,NONE,2,raw_bsf_l_rr,(W4 d, R4 s))
538	+	{
539	+	BSFLrr(s, d);
540	+	}
541	+	LENDFUNC(WRITE,NONE,2,raw_bsf_l_rr,(W4 d, R4 s))
542	+
543	+	LOWFUNC(NONE,NONE,2,raw_sign_extend_32_rr,(W4 d, R4 s))
544	+	{
545	+	MOVSLQrr(s, d);
546	+	}
547	+	LENDFUNC(NONE,NONE,2,raw_sign_extend_32_rr,(W4 d, R4 s))
548	+
549	+	LOWFUNC(NONE,NONE,2,raw_sign_extend_16_rr,(W4 d, R2 s))
550	+	{
551	+	MOVSWLrr(s, d);
552	+	}
553	+	LENDFUNC(NONE,NONE,2,raw_sign_extend_16_rr,(W4 d, R2 s))
554	+
555	+	LOWFUNC(NONE,NONE,2,raw_sign_extend_8_rr,(W4 d, R1 s))
556	+	{
557	+	MOVSBLrr(s, d);
558	+	}
559	+	LENDFUNC(NONE,NONE,2,raw_sign_extend_8_rr,(W4 d, R1 s))
560	+
561	+	LOWFUNC(NONE,NONE,2,raw_zero_extend_16_rr,(W4 d, R2 s))
562	+	{
563	+	MOVZWLrr(s, d);
564	+	}
565	+	LENDFUNC(NONE,NONE,2,raw_zero_extend_16_rr,(W4 d, R2 s))
566	+
567	+	LOWFUNC(NONE,NONE,2,raw_zero_extend_8_rr,(W4 d, R1 s))
568	+	{
569	+	MOVZBLrr(s, d);
570	+	}
571	+	LENDFUNC(NONE,NONE,2,raw_zero_extend_8_rr,(W4 d, R1 s))
572	+
573	+	LOWFUNC(NONE,NONE,2,raw_imul_32_32,(RW4 d, R4 s))
574	+	{
575	+	IMULLrr(s, d);
576	+	}
577	+	LENDFUNC(NONE,NONE,2,raw_imul_32_32,(RW4 d, R4 s))
578	+
579	+	LOWFUNC(NONE,NONE,2,raw_imul_64_32,(RW4 d, RW4 s))
580	+	{
581	+	if (d!=MUL_NREG1 || s!=MUL_NREG2) {
582	+	write_log("Bad register in IMUL: d=%d, s=%d\n",d,s);
583	+	abort();
584	+	}
585	+	IMULLr(s);
586	+	}
587	+	LENDFUNC(NONE,NONE,2,raw_imul_64_32,(RW4 d, RW4 s))
588	+
589	+	LOWFUNC(NONE,NONE,2,raw_mul_64_32,(RW4 d, RW4 s))
590	+	{
591	+	if (d!=MUL_NREG1 || s!=MUL_NREG2) {
592	+	write_log("Bad register in MUL: d=%d, s=%d\n",d,s);
593	+	abort();
594	+	}
595	+	MULLr(s);
596	+	}
597	+	LENDFUNC(NONE,NONE,2,raw_mul_64_32,(RW4 d, RW4 s))
598	+
599	+	LOWFUNC(NONE,NONE,2,raw_mul_32_32,(RW4 d, R4 s))
600	+	{
601	+	abort(); /* %^$&%^$%#^ x86! */
602	+	}
603	+	LENDFUNC(NONE,NONE,2,raw_mul_32_32,(RW4 d, R4 s))
604	+
605	+	LOWFUNC(NONE,NONE,2,raw_mov_b_rr,(W1 d, R1 s))
606	+	{
607	+	MOVBrr(s, d);
608	+	}
609	+	LENDFUNC(NONE,NONE,2,raw_mov_b_rr,(W1 d, R1 s))
610	+
611	+	LOWFUNC(NONE,NONE,2,raw_mov_w_rr,(W2 d, R2 s))
612	+	{
613	+	MOVWrr(s, d);
614	+	}
615	+	LENDFUNC(NONE,NONE,2,raw_mov_w_rr,(W2 d, R2 s))
616	+
617	+	LOWFUNC(NONE,READ,4,raw_mov_l_rrm_indexed,(W4 d,R4 baser, R4 index, IMM factor))
618	+	{
619	+	MOVLmr(0, baser, index, factor, d);
620	+	}
621	+	LENDFUNC(NONE,READ,4,raw_mov_l_rrm_indexed,(W4 d,R4 baser, R4 index, IMM factor))
622	+
623	+	LOWFUNC(NONE,READ,4,raw_mov_w_rrm_indexed,(W2 d, R4 baser, R4 index, IMM factor))
624	+	{
625	+	MOVWmr(0, baser, index, factor, d);
626	+	}
627	+	LENDFUNC(NONE,READ,4,raw_mov_w_rrm_indexed,(W2 d, R4 baser, R4 index, IMM factor))
628	+
629	+	LOWFUNC(NONE,READ,4,raw_mov_b_rrm_indexed,(W1 d, R4 baser, R4 index, IMM factor))
630	+	{
631	+	MOVBmr(0, baser, index, factor, d);
632	+	}
633	+	LENDFUNC(NONE,READ,4,raw_mov_b_rrm_indexed,(W1 d, R4 baser, R4 index, IMM factor))
634	+
635	+	LOWFUNC(NONE,WRITE,4,raw_mov_l_mrr_indexed,(R4 baser, R4 index, IMM factor, R4 s))
636	+	{
637	+	MOVLrm(s, 0, baser, index, factor);
638	+	}
639	+	LENDFUNC(NONE,WRITE,4,raw_mov_l_mrr_indexed,(R4 baser, R4 index, IMM factor, R4 s))
640	+
641	+	LOWFUNC(NONE,WRITE,4,raw_mov_w_mrr_indexed,(R4 baser, R4 index, IMM factor, R2 s))
642	+	{
643	+	MOVWrm(s, 0, baser, index, factor);
644	+	}
645	+	LENDFUNC(NONE,WRITE,4,raw_mov_w_mrr_indexed,(R4 baser, R4 index, IMM factor, R2 s))
646	+
647	+	LOWFUNC(NONE,WRITE,4,raw_mov_b_mrr_indexed,(R4 baser, R4 index, IMM factor, R1 s))
648	+	{
649	+	MOVBrm(s, 0, baser, index, factor);
650	+	}
651	+	LENDFUNC(NONE,WRITE,4,raw_mov_b_mrr_indexed,(R4 baser, R4 index, IMM factor, R1 s))
652	+
653	+	LOWFUNC(NONE,WRITE,5,raw_mov_l_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R4 s))
654	+	{
655	+	MOVLrm(s, base, baser, index, factor);
656	+	}
657	+	LENDFUNC(NONE,WRITE,5,raw_mov_l_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R4 s))
658	+
659	+	LOWFUNC(NONE,WRITE,5,raw_mov_w_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R2 s))
660	+	{
661	+	MOVWrm(s, base, baser, index, factor);
662	+	}
663	+	LENDFUNC(NONE,WRITE,5,raw_mov_w_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R2 s))
664	+
665	+	LOWFUNC(NONE,WRITE,5,raw_mov_b_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R1 s))
666	+	{
667	+	MOVBrm(s, base, baser, index, factor);
668	+	}
669	+	LENDFUNC(NONE,WRITE,5,raw_mov_b_bmrr_indexed,(IMM base, R4 baser, R4 index, IMM factor, R1 s))
670	+
671	+	LOWFUNC(NONE,READ,5,raw_mov_l_brrm_indexed,(W4 d, IMM base, R4 baser, R4 index, IMM factor))
672	+	{
673	+	MOVLmr(base, baser, index, factor, d);
674	+	}
675	+	LENDFUNC(NONE,READ,5,raw_mov_l_brrm_indexed,(W4 d, IMM base, R4 baser, R4 index, IMM factor))
676	+
677	+	LOWFUNC(NONE,READ,5,raw_mov_w_brrm_indexed,(W2 d, IMM base, R4 baser, R4 index, IMM factor))
678	+	{
679	+	MOVWmr(base, baser, index, factor, d);
680	+	}
681	+	LENDFUNC(NONE,READ,5,raw_mov_w_brrm_indexed,(W2 d, IMM base, R4 baser, R4 index, IMM factor))
682	+
683	+	LOWFUNC(NONE,READ,5,raw_mov_b_brrm_indexed,(W1 d, IMM base, R4 baser, R4 index, IMM factor))
684	+	{
685	+	MOVBmr(base, baser, index, factor, d);
686	+	}
687	+	LENDFUNC(NONE,READ,5,raw_mov_b_brrm_indexed,(W1 d, IMM base, R4 baser, R4 index, IMM factor))
688	+
689	+	LOWFUNC(NONE,READ,4,raw_mov_l_rm_indexed,(W4 d, IMM base, R4 index, IMM factor))
690	+	{
691	+	MOVLmr(base, X86_NOREG, index, factor, d);
692	+	}
693	+	LENDFUNC(NONE,READ,4,raw_mov_l_rm_indexed,(W4 d, IMM base, R4 index, IMM factor))
694	+
695	+	LOWFUNC(NONE,READ,5,raw_cmov_l_rm_indexed,(W4 d, IMM base, R4 index, IMM factor, IMM cond))
696	+	{
697	+	if (have_cmov)
698	+	CMOVLmr(cond, base, X86_NOREG, index, factor, d);
699	+	else { /* replacement using branch and mov */
700	+	#if defined(__x86_64__)
701	+	write_log("x86-64 implementations are bound to have CMOV!\n");
702	+	abort();
703	+	#endif
704	+	JCCSii(cond^1, 7);
705	+	MOVLmr(base, X86_NOREG, index, factor, d);
706	+	}
707	+	}
708	+	LENDFUNC(NONE,READ,5,raw_cmov_l_rm_indexed,(W4 d, IMM base, R4 index, IMM factor, IMM cond))
709	+
710	+	LOWFUNC(NONE,READ,3,raw_cmov_l_rm,(W4 d, IMM mem, IMM cond))
711	+	{
712	+	if (have_cmov)
713	+	CMOVLmr(cond, mem, X86_NOREG, X86_NOREG, 1, d);
714	+	else { /* replacement using branch and mov */
715	+	#if defined(__x86_64__)
716	+	write_log("x86-64 implementations are bound to have CMOV!\n");
717	+	abort();
718	+	#endif
719	+	JCCSii(cond^1, 6);
720	+	MOVLmr(mem, X86_NOREG, X86_NOREG, 1, d);
721	+	}
722	+	}
723	+	LENDFUNC(NONE,READ,3,raw_cmov_l_rm,(W4 d, IMM mem, IMM cond))
724	+
725	+	LOWFUNC(NONE,READ,3,raw_mov_l_rR,(W4 d, R4 s, IMM offset))
726	+	{
727	+	MOVLmr(offset, s, X86_NOREG, 1, d);
728	+	}
729	+	LENDFUNC(NONE,READ,3,raw_mov_l_rR,(W4 d, R4 s, IMM offset))
730	+
731	+	LOWFUNC(NONE,READ,3,raw_mov_w_rR,(W2 d, R4 s, IMM offset))
732	+	{
733	+	MOVWmr(offset, s, X86_NOREG, 1, d);
734	+	}
735	+	LENDFUNC(NONE,READ,3,raw_mov_w_rR,(W2 d, R4 s, IMM offset))
736	+
737	+	LOWFUNC(NONE,READ,3,raw_mov_b_rR,(W1 d, R4 s, IMM offset))
738	+	{
739	+	MOVBmr(offset, s, X86_NOREG, 1, d);
740	+	}
741	+	LENDFUNC(NONE,READ,3,raw_mov_b_rR,(W1 d, R4 s, IMM offset))
742	+
743	+	LOWFUNC(NONE,READ,3,raw_mov_l_brR,(W4 d, R4 s, IMM offset))
744	+	{
745	+	MOVLmr(offset, s, X86_NOREG, 1, d);
746	+	}
747	+	LENDFUNC(NONE,READ,3,raw_mov_l_brR,(W4 d, R4 s, IMM offset))
748	+
749	+	LOWFUNC(NONE,READ,3,raw_mov_w_brR,(W2 d, R4 s, IMM offset))
750	+	{
751	+	MOVWmr(offset, s, X86_NOREG, 1, d);
752	+	}
753	+	LENDFUNC(NONE,READ,3,raw_mov_w_brR,(W2 d, R4 s, IMM offset))
754	+
755	+	LOWFUNC(NONE,READ,3,raw_mov_b_brR,(W1 d, R4 s, IMM offset))
756	+	{
757	+	MOVBmr(offset, s, X86_NOREG, 1, d);
758	+	}
759	+	LENDFUNC(NONE,READ,3,raw_mov_b_brR,(W1 d, R4 s, IMM offset))
760	+
761	+	LOWFUNC(NONE,WRITE,3,raw_mov_l_Ri,(R4 d, IMM i, IMM offset))
762	+	{
763	+	MOVLim(i, offset, d, X86_NOREG, 1);
764	+	}
765	+	LENDFUNC(NONE,WRITE,3,raw_mov_l_Ri,(R4 d, IMM i, IMM offset))
766	+
767	+	LOWFUNC(NONE,WRITE,3,raw_mov_w_Ri,(R4 d, IMM i, IMM offset))
768	+	{
769	+	MOVWim(i, offset, d, X86_NOREG, 1);
770	+	}
771	+	LENDFUNC(NONE,WRITE,3,raw_mov_w_Ri,(R4 d, IMM i, IMM offset))
772	+
773	+	LOWFUNC(NONE,WRITE,3,raw_mov_b_Ri,(R4 d, IMM i, IMM offset))
774	+	{
775	+	MOVBim(i, offset, d, X86_NOREG, 1);
776	+	}
777	+	LENDFUNC(NONE,WRITE,3,raw_mov_b_Ri,(R4 d, IMM i, IMM offset))
778	+
779	+	LOWFUNC(NONE,WRITE,3,raw_mov_l_Rr,(R4 d, R4 s, IMM offset))
780	+	{
781	+	MOVLrm(s, offset, d, X86_NOREG, 1);
782	+	}
783	+	LENDFUNC(NONE,WRITE,3,raw_mov_l_Rr,(R4 d, R4 s, IMM offset))
784	+
785	+	LOWFUNC(NONE,WRITE,3,raw_mov_w_Rr,(R4 d, R2 s, IMM offset))
786	+	{
787	+	MOVWrm(s, offset, d, X86_NOREG, 1);
788	+	}
789	+	LENDFUNC(NONE,WRITE,3,raw_mov_w_Rr,(R4 d, R2 s, IMM offset))
790	+
791	+	LOWFUNC(NONE,WRITE,3,raw_mov_b_Rr,(R4 d, R1 s, IMM offset))
792	+	{
793	+	MOVBrm(s, offset, d, X86_NOREG, 1);
794	+	}
795	+	LENDFUNC(NONE,WRITE,3,raw_mov_b_Rr,(R4 d, R1 s, IMM offset))
796	+
797	+	LOWFUNC(NONE,NONE,3,raw_lea_l_brr,(W4 d, R4 s, IMM offset))
798	+	{
799	+	LEALmr(offset, s, X86_NOREG, 1, d);
800	+	}
801	+	LENDFUNC(NONE,NONE,3,raw_lea_l_brr,(W4 d, R4 s, IMM offset))
802	+
803	+	LOWFUNC(NONE,NONE,5,raw_lea_l_brr_indexed,(W4 d, R4 s, R4 index, IMM factor, IMM offset))
804	+	{
805	+	LEALmr(offset, s, index, factor, d);
806	+	}
807	+	LENDFUNC(NONE,NONE,5,raw_lea_l_brr_indexed,(W4 d, R4 s, R4 index, IMM factor, IMM offset))
808	+
809	+	LOWFUNC(NONE,NONE,4,raw_lea_l_rr_indexed,(W4 d, R4 s, R4 index, IMM factor))
810	+	{
811	+	LEALmr(0, s, index, factor, d);
812	+	}
813	+	LENDFUNC(NONE,NONE,4,raw_lea_l_rr_indexed,(W4 d, R4 s, R4 index, IMM factor))
814	+
815	+	LOWFUNC(NONE,WRITE,3,raw_mov_l_bRr,(R4 d, R4 s, IMM offset))
816	+	{
817	+	MOVLrm(s, offset, d, X86_NOREG, 1);
818	+	}
819	+	LENDFUNC(NONE,WRITE,3,raw_mov_l_bRr,(R4 d, R4 s, IMM offset))
820	+
821	+	LOWFUNC(NONE,WRITE,3,raw_mov_w_bRr,(R4 d, R2 s, IMM offset))
822	+	{
823	+	MOVWrm(s, offset, d, X86_NOREG, 1);
824	+	}
825	+	LENDFUNC(NONE,WRITE,3,raw_mov_w_bRr,(R4 d, R2 s, IMM offset))
826	+
827	+	LOWFUNC(NONE,WRITE,3,raw_mov_b_bRr,(R4 d, R1 s, IMM offset))
828	+	{
829	+	MOVBrm(s, offset, d, X86_NOREG, 1);
830	+	}
831	+	LENDFUNC(NONE,WRITE,3,raw_mov_b_bRr,(R4 d, R1 s, IMM offset))
832	+
833	+	LOWFUNC(NONE,NONE,1,raw_bswap_32,(RW4 r))
834	+	{
835	+	BSWAPLr(r);
836	+	}
837	+	LENDFUNC(NONE,NONE,1,raw_bswap_32,(RW4 r))
838	+
839	+	LOWFUNC(WRITE,NONE,1,raw_bswap_16,(RW2 r))
840	+	{
841	+	ROLWir(8, r);
842	+	}
843	+	LENDFUNC(WRITE,NONE,1,raw_bswap_16,(RW2 r))
844	+
845	+	LOWFUNC(NONE,NONE,2,raw_mov_l_rr,(W4 d, R4 s))
846	+	{
847	+	MOVLrr(s, d);
848	+	}
849	+	LENDFUNC(NONE,NONE,2,raw_mov_l_rr,(W4 d, R4 s))
850	+
851	+	LOWFUNC(NONE,WRITE,2,raw_mov_l_mr,(IMM d, R4 s))
852	+	{
853	+	MOVLrm(s, d, X86_NOREG, X86_NOREG, 1);
854	+	}
855	+	LENDFUNC(NONE,WRITE,2,raw_mov_l_mr,(IMM d, R4 s))
856	+
857	+	LOWFUNC(NONE,WRITE,2,raw_mov_w_mr,(IMM d, R2 s))
858	+	{
859	+	MOVWrm(s, d, X86_NOREG, X86_NOREG, 1);
860	+	}
861	+	LENDFUNC(NONE,WRITE,2,raw_mov_w_mr,(IMM d, R2 s))
862	+
863	+	LOWFUNC(NONE,READ,2,raw_mov_w_rm,(W2 d, IMM s))
864	+	{
865	+	MOVWmr(s, X86_NOREG, X86_NOREG, 1, d);
866	+	}
867	+	LENDFUNC(NONE,READ,2,raw_mov_w_rm,(W2 d, IMM s))
868	+
869	+	LOWFUNC(NONE,WRITE,2,raw_mov_b_mr,(IMM d, R1 s))
870	+	{
871	+	MOVBrm(s, d, X86_NOREG, X86_NOREG, 1);
872	+	}
873	+	LENDFUNC(NONE,WRITE,2,raw_mov_b_mr,(IMM d, R1 s))
874	+
875	+	LOWFUNC(NONE,READ,2,raw_mov_b_rm,(W1 d, IMM s))
876	+	{
877	+	MOVBmr(s, X86_NOREG, X86_NOREG, 1, d);
878	+	}
879	+	LENDFUNC(NONE,READ,2,raw_mov_b_rm,(W1 d, IMM s))
880	+
881	+	LOWFUNC(NONE,NONE,2,raw_mov_l_ri,(W4 d, IMM s))
882	+	{
883	+	MOVLir(s, d);
884	+	}
885	+	LENDFUNC(NONE,NONE,2,raw_mov_l_ri,(W4 d, IMM s))
886	+
887	+	LOWFUNC(NONE,NONE,2,raw_mov_w_ri,(W2 d, IMM s))
888	+	{
889	+	MOVWir(s, d);
890	+	}
891	+	LENDFUNC(NONE,NONE,2,raw_mov_w_ri,(W2 d, IMM s))
892	+
893	+	LOWFUNC(NONE,NONE,2,raw_mov_b_ri,(W1 d, IMM s))
894	+	{
895	+	MOVBir(s, d);
896	+	}
897	+	LENDFUNC(NONE,NONE,2,raw_mov_b_ri,(W1 d, IMM s))
898	+
899	+	LOWFUNC(RMW,RMW,2,raw_adc_l_mi,(MEMRW d, IMM s))
900	+	{
901	+	ADCLim(s, d, X86_NOREG, X86_NOREG, 1);
902	+	}
903	+	LENDFUNC(RMW,RMW,2,raw_adc_l_mi,(MEMRW d, IMM s))
904	+
905	+	LOWFUNC(WRITE,RMW,2,raw_add_l_mi,(IMM d, IMM s))
906	+	{
907	+	ADDLim(s, d, X86_NOREG, X86_NOREG, 1);
908	+	}
909	+	LENDFUNC(WRITE,RMW,2,raw_add_l_mi,(IMM d, IMM s))
910	+
911	+	LOWFUNC(WRITE,RMW,2,raw_add_w_mi,(IMM d, IMM s))
912	+	{
913	+	ADDWim(s, d, X86_NOREG, X86_NOREG, 1);
914	+	}
915	+	LENDFUNC(WRITE,RMW,2,raw_add_w_mi,(IMM d, IMM s))
916	+
917	+	LOWFUNC(WRITE,RMW,2,raw_add_b_mi,(IMM d, IMM s))
918	+	{
919	+	ADDBim(s, d, X86_NOREG, X86_NOREG, 1);
920	+	}
921	+	LENDFUNC(WRITE,RMW,2,raw_add_b_mi,(IMM d, IMM s))
922	+
923	+	LOWFUNC(WRITE,NONE,2,raw_test_l_ri,(R4 d, IMM i))
924	+	{
925	+	TESTLir(i, d);
926	+	}
927	+	LENDFUNC(WRITE,NONE,2,raw_test_l_ri,(R4 d, IMM i))
928	+
929	+	LOWFUNC(WRITE,NONE,2,raw_test_l_rr,(R4 d, R4 s))
930	+	{
931	+	TESTLrr(s, d);
932	+	}
933	+	LENDFUNC(WRITE,NONE,2,raw_test_l_rr,(R4 d, R4 s))
934	+
935	+	LOWFUNC(WRITE,NONE,2,raw_test_w_rr,(R2 d, R2 s))
936	+	{
937	+	TESTWrr(s, d);
938	+	}
939	+	LENDFUNC(WRITE,NONE,2,raw_test_w_rr,(R2 d, R2 s))
940	+
941	+	LOWFUNC(WRITE,NONE,2,raw_test_b_rr,(R1 d, R1 s))
942	+	{
943	+	TESTBrr(s, d);
944	+	}
945	+	LENDFUNC(WRITE,NONE,2,raw_test_b_rr,(R1 d, R1 s))
946	+
947	+	LOWFUNC(WRITE,NONE,2,raw_xor_l_ri,(RW4 d, IMM i))
948	+	{
949	+	XORLir(i, d);
950	+	}
951	+	LENDFUNC(WRITE,NONE,2,raw_xor_l_ri,(RW4 d, IMM i))
952	+
953	+	LOWFUNC(WRITE,NONE,2,raw_and_l_ri,(RW4 d, IMM i))
954	+	{
955	+	ANDLir(i, d);
956	+	}
957	+	LENDFUNC(WRITE,NONE,2,raw_and_l_ri,(RW4 d, IMM i))
958	+
959	+	LOWFUNC(WRITE,NONE,2,raw_and_w_ri,(RW2 d, IMM i))
960	+	{
961	+	ANDWir(i, d);
962	+	}
963	+	LENDFUNC(WRITE,NONE,2,raw_and_w_ri,(RW2 d, IMM i))
964	+
965	+	LOWFUNC(WRITE,NONE,2,raw_and_l,(RW4 d, R4 s))
966	+	{
967	+	ANDLrr(s, d);
968	+	}
969	+	LENDFUNC(WRITE,NONE,2,raw_and_l,(RW4 d, R4 s))
970	+
971	+	LOWFUNC(WRITE,NONE,2,raw_and_w,(RW2 d, R2 s))
972	+	{
973	+	ANDWrr(s, d);
974	+	}
975	+	LENDFUNC(WRITE,NONE,2,raw_and_w,(RW2 d, R2 s))
976	+
977	+	LOWFUNC(WRITE,NONE,2,raw_and_b,(RW1 d, R1 s))
978	+	{
979	+	ANDBrr(s, d);
980	+	}
981	+	LENDFUNC(WRITE,NONE,2,raw_and_b,(RW1 d, R1 s))
982	+
983	+	LOWFUNC(WRITE,NONE,2,raw_or_l_ri,(RW4 d, IMM i))
984	+	{
985	+	ORLir(i, d);
986	+	}
987	+	LENDFUNC(WRITE,NONE,2,raw_or_l_ri,(RW4 d, IMM i))
988	+
989	+	LOWFUNC(WRITE,NONE,2,raw_or_l,(RW4 d, R4 s))
990	+	{
991	+	ORLrr(s, d);
992	+	}
993	+	LENDFUNC(WRITE,NONE,2,raw_or_l,(RW4 d, R4 s))
994	+
995	+	LOWFUNC(WRITE,NONE,2,raw_or_w,(RW2 d, R2 s))
996	+	{
997	+	ORWrr(s, d);
998	+	}
999	+	LENDFUNC(WRITE,NONE,2,raw_or_w,(RW2 d, R2 s))
1000	+
1001	+	LOWFUNC(WRITE,NONE,2,raw_or_b,(RW1 d, R1 s))
1002	+	{
1003	+	ORBrr(s, d);
1004	+	}
1005	+	LENDFUNC(WRITE,NONE,2,raw_or_b,(RW1 d, R1 s))
1006	+
1007	+	LOWFUNC(RMW,NONE,2,raw_adc_l,(RW4 d, R4 s))
1008	+	{
1009	+	ADCLrr(s, d);
1010	+	}
1011	+	LENDFUNC(RMW,NONE,2,raw_adc_l,(RW4 d, R4 s))
1012	+
1013	+	LOWFUNC(RMW,NONE,2,raw_adc_w,(RW2 d, R2 s))
1014	+	{
1015	+	ADCWrr(s, d);
1016	+	}
1017	+	LENDFUNC(RMW,NONE,2,raw_adc_w,(RW2 d, R2 s))
1018	+
1019	+	LOWFUNC(RMW,NONE,2,raw_adc_b,(RW1 d, R1 s))
1020	+	{
1021	+	ADCBrr(s, d);
1022	+	}
1023	+	LENDFUNC(RMW,NONE,2,raw_adc_b,(RW1 d, R1 s))
1024	+
1025	+	LOWFUNC(WRITE,NONE,2,raw_add_l,(RW4 d, R4 s))
1026	+	{
1027	+	ADDLrr(s, d);
1028	+	}
1029	+	LENDFUNC(WRITE,NONE,2,raw_add_l,(RW4 d, R4 s))
1030	+
1031	+	LOWFUNC(WRITE,NONE,2,raw_add_w,(RW2 d, R2 s))
1032	+	{
1033	+	ADDWrr(s, d);
1034	+	}
1035	+	LENDFUNC(WRITE,NONE,2,raw_add_w,(RW2 d, R2 s))
1036	+
1037	+	LOWFUNC(WRITE,NONE,2,raw_add_b,(RW1 d, R1 s))
1038	+	{
1039	+	ADDBrr(s, d);
1040	+	}
1041	+	LENDFUNC(WRITE,NONE,2,raw_add_b,(RW1 d, R1 s))
1042	+
1043	+	LOWFUNC(WRITE,NONE,2,raw_sub_l_ri,(RW4 d, IMM i))
1044	+	{
1045	+	SUBLir(i, d);
1046	+	}
1047	+	LENDFUNC(WRITE,NONE,2,raw_sub_l_ri,(RW4 d, IMM i))
1048	+
1049	+	LOWFUNC(WRITE,NONE,2,raw_sub_b_ri,(RW1 d, IMM i))
1050	+	{
1051	+	SUBBir(i, d);
1052	+	}
1053	+	LENDFUNC(WRITE,NONE,2,raw_sub_b_ri,(RW1 d, IMM i))
1054	+
1055	+	LOWFUNC(WRITE,NONE,2,raw_add_l_ri,(RW4 d, IMM i))
1056	+	{
1057	+	ADDLir(i, d);
1058	+	}
1059	+	LENDFUNC(WRITE,NONE,2,raw_add_l_ri,(RW4 d, IMM i))
1060	+
1061	+	LOWFUNC(WRITE,NONE,2,raw_add_w_ri,(RW2 d, IMM i))
1062	+	{
1063	+	ADDWir(i, d);
1064	+	}
1065	+	LENDFUNC(WRITE,NONE,2,raw_add_w_ri,(RW2 d, IMM i))
1066	+
1067	+	LOWFUNC(WRITE,NONE,2,raw_add_b_ri,(RW1 d, IMM i))
1068	+	{
1069	+	ADDBir(i, d);
1070	+	}
1071	+	LENDFUNC(WRITE,NONE,2,raw_add_b_ri,(RW1 d, IMM i))
1072	+
1073	+	LOWFUNC(RMW,NONE,2,raw_sbb_l,(RW4 d, R4 s))
1074	+	{
1075	+	SBBLrr(s, d);
1076	+	}
1077	+	LENDFUNC(RMW,NONE,2,raw_sbb_l,(RW4 d, R4 s))
1078	+
1079	+	LOWFUNC(RMW,NONE,2,raw_sbb_w,(RW2 d, R2 s))
1080	+	{
1081	+	SBBWrr(s, d);
1082	+	}
1083	+	LENDFUNC(RMW,NONE,2,raw_sbb_w,(RW2 d, R2 s))
1084	+
1085	+	LOWFUNC(RMW,NONE,2,raw_sbb_b,(RW1 d, R1 s))
1086	+	{
1087	+	SBBBrr(s, d);
1088	+	}
1089	+	LENDFUNC(RMW,NONE,2,raw_sbb_b,(RW1 d, R1 s))
1090	+
1091	+	LOWFUNC(WRITE,NONE,2,raw_sub_l,(RW4 d, R4 s))
1092	+	{
1093	+	SUBLrr(s, d);
1094	+	}
1095	+	LENDFUNC(WRITE,NONE,2,raw_sub_l,(RW4 d, R4 s))
1096	+
1097	+	LOWFUNC(WRITE,NONE,2,raw_sub_w,(RW2 d, R2 s))
1098	+	{
1099	+	SUBWrr(s, d);
1100	+	}
1101	+	LENDFUNC(WRITE,NONE,2,raw_sub_w,(RW2 d, R2 s))
1102	+
1103	+	LOWFUNC(WRITE,NONE,2,raw_sub_b,(RW1 d, R1 s))
1104	+	{
1105	+	SUBBrr(s, d);
1106	+	}
1107	+	LENDFUNC(WRITE,NONE,2,raw_sub_b,(RW1 d, R1 s))
1108	+
1109	+	LOWFUNC(WRITE,NONE,2,raw_cmp_l,(R4 d, R4 s))
1110	+	{
1111	+	CMPLrr(s, d);
1112	+	}
1113	+	LENDFUNC(WRITE,NONE,2,raw_cmp_l,(R4 d, R4 s))
1114	+
1115	+	LOWFUNC(WRITE,NONE,2,raw_cmp_l_ri,(R4 r, IMM i))
1116	+	{
1117	+	CMPLir(i, r);
1118	+	}
1119	+	LENDFUNC(WRITE,NONE,2,raw_cmp_l_ri,(R4 r, IMM i))
1120	+
1121	+	LOWFUNC(WRITE,NONE,2,raw_cmp_w,(R2 d, R2 s))
1122	+	{
1123	+	CMPWrr(s, d);
1124	+	}
1125	+	LENDFUNC(WRITE,NONE,2,raw_cmp_w,(R2 d, R2 s))
1126	+
1127	+	LOWFUNC(WRITE,READ,2,raw_cmp_b_mi,(MEMR d, IMM s))
1128	+	{
1129	+	CMPBim(s, d, X86_NOREG, X86_NOREG, 1);
1130	+	}
1131	+	LENDFUNC(WRITE,READ,2,raw_cmp_l_mi,(MEMR d, IMM s))
1132	+
1133	+	LOWFUNC(WRITE,NONE,2,raw_cmp_b_ri,(R1 d, IMM i))
1134	+	{
1135	+	CMPBir(i, d);
1136	+	}
1137	+	LENDFUNC(WRITE,NONE,2,raw_cmp_b_ri,(R1 d, IMM i))
1138	+
1139	+	LOWFUNC(WRITE,NONE,2,raw_cmp_b,(R1 d, R1 s))
1140	+	{
1141	+	CMPBrr(s, d);
1142	+	}
1143	+	LENDFUNC(WRITE,NONE,2,raw_cmp_b,(R1 d, R1 s))
1144	+
1145	+	LOWFUNC(WRITE,READ,4,raw_cmp_l_rm_indexed,(R4 d, IMM offset, R4 index, IMM factor))
1146	+	{
1147	+	CMPLmr(offset, X86_NOREG, index, factor, d);
1148	+	}
1149	+	LENDFUNC(WRITE,READ,4,raw_cmp_l_rm_indexed,(R4 d, IMM offset, R4 index, IMM factor))
1150	+
1151	+	LOWFUNC(WRITE,NONE,2,raw_xor_l,(RW4 d, R4 s))
1152	+	{
1153	+	XORLrr(s, d);
1154	+	}
1155	+	LENDFUNC(WRITE,NONE,2,raw_xor_l,(RW4 d, R4 s))
1156	+
1157	+	LOWFUNC(WRITE,NONE,2,raw_xor_w,(RW2 d, R2 s))
1158	+	{
1159	+	XORWrr(s, d);
1160	+	}
1161	+	LENDFUNC(WRITE,NONE,2,raw_xor_w,(RW2 d, R2 s))
1162	+
1163	+	LOWFUNC(WRITE,NONE,2,raw_xor_b,(RW1 d, R1 s))
1164	+	{
1165	+	XORBrr(s, d);
1166	+	}
1167	+	LENDFUNC(WRITE,NONE,2,raw_xor_b,(RW1 d, R1 s))
1168	+
1169	+	LOWFUNC(WRITE,RMW,2,raw_sub_l_mi,(MEMRW d, IMM s))
1170	+	{
1171	+	SUBLim(s, d, X86_NOREG, X86_NOREG, 1);
1172	+	}
1173	+	LENDFUNC(WRITE,RMW,2,raw_sub_l_mi,(MEMRW d, IMM s))
1174	+
1175	+	LOWFUNC(WRITE,READ,2,raw_cmp_l_mi,(MEMR d, IMM s))
1176	+	{
1177	+	CMPLim(s, d, X86_NOREG, X86_NOREG, 1);
1178	+	}
1179	+	LENDFUNC(WRITE,READ,2,raw_cmp_l_mi,(MEMR d, IMM s))
1180	+
1181	+	LOWFUNC(NONE,NONE,2,raw_xchg_l_rr,(RW4 r1, RW4 r2))
1182	+	{
1183	+	XCHGLrr(r2, r1);
1184	+	}
1185	+	LENDFUNC(NONE,NONE,2,raw_xchg_l_rr,(RW4 r1, RW4 r2))
1186	+
1187	+	LOWFUNC(READ,WRITE,0,raw_pushfl,(void))
1188	+	{
1189	+	PUSHF();
1190	+	}
1191	+	LENDFUNC(READ,WRITE,0,raw_pushfl,(void))
1192	+
1193	+	LOWFUNC(WRITE,READ,0,raw_popfl,(void))
1194	+	{
1195	+	POPF();
1196	+	}
1197	+	LENDFUNC(WRITE,READ,0,raw_popfl,(void))
1198	+
1199	+	#else
1200	+
1201		const bool optimize_accum               = true;
1202		const bool optimize_imm8                = true;
1203		const bool optimize_shift_once  = true;
#	Line 157 | Line 1233 | LOWFUNC(NONE,READ,1,raw_pop_l_r,(R4 r))
1233		}
1234		LENDFUNC(NONE,READ,1,raw_pop_l_r,(R4 r))
1235
1236	+	LOWFUNC(NONE,READ,1,raw_pop_l_m,(MEMW d))
1237	+	{
1238	+	emit_byte(0x8f);
1239	+	emit_byte(0x05);
1240	+	emit_long(d);
1241	+	}
1242	+	LENDFUNC(NONE,READ,1,raw_pop_l_m,(MEMW d))
1243	+
1244		LOWFUNC(WRITE,NONE,2,raw_bt_l_ri,(R4 r, IMM i))
1245		{
1246		emit_byte(0x0f);
#	Line 1071 | Line 2155 | LENDFUNC(NONE,READ,3,raw_cmov_l_rm,(W4 d
2155
2156		LOWFUNC(NONE,READ,3,raw_mov_l_rR,(W4 d, R4 s, IMM offset))
2157		{
2158	+	Dif(!isbyte(offset)) abort();
2159		emit_byte(0x8b);
2160		emit_byte(0x40+8*d+s);
2161		emit_byte(offset);
#	Line 1079 | Line 2164 | LENDFUNC(NONE,READ,3,raw_mov_l_rR,(W4 d,
2164
2165		LOWFUNC(NONE,READ,3,raw_mov_w_rR,(W2 d, R4 s, IMM offset))
2166		{
2167	+	Dif(!isbyte(offset)) abort();
2168		emit_byte(0x66);
2169		emit_byte(0x8b);
2170		emit_byte(0x40+8*d+s);
#	Line 1088 | Line 2174 | LENDFUNC(NONE,READ,3,raw_mov_w_rR,(W2 d,
2174
2175		LOWFUNC(NONE,READ,3,raw_mov_b_rR,(W1 d, R4 s, IMM offset))
2176		{
2177	+	Dif(!isbyte(offset)) abort();
2178		emit_byte(0x8a);
2179		emit_byte(0x40+8*d+s);
2180		emit_byte(offset);
#	Line 1121 | Line 2208 | LENDFUNC(NONE,READ,3,raw_mov_b_brR,(W1 d
2208
2209		LOWFUNC(NONE,WRITE,3,raw_mov_l_Ri,(R4 d, IMM i, IMM offset))
2210		{
2211	+	Dif(!isbyte(offset)) abort();
2212		emit_byte(0xc7);
2213		emit_byte(0x40+d);
2214		emit_byte(offset);
#	Line 1130 | Line 2218 | LENDFUNC(NONE,WRITE,3,raw_mov_l_Ri,(R4 d
2218
2219		LOWFUNC(NONE,WRITE,3,raw_mov_w_Ri,(R4 d, IMM i, IMM offset))
2220		{
2221	+	Dif(!isbyte(offset)) abort();
2222		emit_byte(0x66);
2223		emit_byte(0xc7);
2224		emit_byte(0x40+d);
#	Line 1140 | Line 2229 | LENDFUNC(NONE,WRITE,3,raw_mov_w_Ri,(R4 d
2229
2230		LOWFUNC(NONE,WRITE,3,raw_mov_b_Ri,(R4 d, IMM i, IMM offset))
2231		{
2232	+	Dif(!isbyte(offset)) abort();
2233		emit_byte(0xc6);
2234		emit_byte(0x40+d);
2235		emit_byte(offset);
#	Line 1149 | Line 2239 | LENDFUNC(NONE,WRITE,3,raw_mov_b_Ri,(R4 d
2239
2240		LOWFUNC(NONE,WRITE,3,raw_mov_l_Rr,(R4 d, R4 s, IMM offset))
2241		{
2242	+	Dif(!isbyte(offset)) abort();
2243		emit_byte(0x89);
2244		emit_byte(0x40+8*s+d);
2245		emit_byte(offset);
#	Line 1157 | Line 2248 | LENDFUNC(NONE,WRITE,3,raw_mov_l_Rr,(R4 d
2248
2249		LOWFUNC(NONE,WRITE,3,raw_mov_w_Rr,(R4 d, R2 s, IMM offset))
2250		{
2251	+	Dif(!isbyte(offset)) abort();
2252		emit_byte(0x66);
2253		emit_byte(0x89);
2254		emit_byte(0x40+8*s+d);
#	Line 1166 | Line 2258 | LENDFUNC(NONE,WRITE,3,raw_mov_w_Rr,(R4 d
2258
2259		LOWFUNC(NONE,WRITE,3,raw_mov_b_Rr,(R4 d, R1 s, IMM offset))
2260		{
2261	+	Dif(!isbyte(offset)) abort();
2262		emit_byte(0x88);
2263		emit_byte(0x40+8*s+d);
2264		emit_byte(offset);
#	Line 1326 | Line 2419 | LENDFUNC(NONE,READ,2,raw_mov_w_rm,(W2 d,
2419		LOWFUNC(NONE,WRITE,2,raw_mov_b_mr,(IMM d, R1 s))
2420		{
2421		emit_byte(0x88);
2422	<	emit_byte(0x05+8*s);
2422	>	emit_byte(0x05+8*(s&0xf)); /* XXX this handles %ah case (defined as 0x10+4) and others */
2423		emit_long(d);
2424		}
2425		LENDFUNC(NONE,WRITE,2,raw_mov_b_mr,(IMM d, R1 s))
#	Line 1440 | Line 2533 | LOWFUNC(WRITE,NONE,2,raw_test_b_rr,(R1 d
2533		}
2534		LENDFUNC(WRITE,NONE,2,raw_test_b_rr,(R1 d, R1 s))
2535
2536	+	LOWFUNC(WRITE,NONE,2,raw_xor_l_ri,(RW4 d, IMM i))
2537	+	{
2538	+	emit_byte(0x81);
2539	+	emit_byte(0xf0+d);
2540	+	emit_long(i);
2541	+	}
2542	+	LENDFUNC(WRITE,NONE,2,raw_xor_l_ri,(RW4 d, IMM i))
2543	+
2544		LOWFUNC(WRITE,NONE,2,raw_and_l_ri,(RW4 d, IMM i))
2545		{
2546		if (optimize_imm8 && isbyte(i)) {
#	Line 1856 | Line 2957 | LOWFUNC(NONE,NONE,2,raw_xchg_l_rr,(RW4 r
2957		LENDFUNC(NONE,NONE,2,raw_xchg_l_rr,(RW4 r1, RW4 r2))
2958
2959		/*************************************************************************
1859	–	* FIXME: string-related instructions                                    *
1860	–	*************************************************************************/
1861	–
1862	–	LOWFUNC(WRITE,NONE,0,raw_cld,(void))
1863	–	{
1864	–	emit_byte(0xfc);
1865	–	}
1866	–	LENDFUNC(WRITE,NONE,0,raw_cld,(void))
1867	–
1868	–	LOWFUNC(WRITE,NONE,0,raw_std,(void))
1869	–	{
1870	–	emit_byte(0xfd);
1871	–	}
1872	–	LENDFUNC(WRITE,NONE,0,raw_std,(void))
1873	–
1874	–	LOWFUNC(NONE,RMW,0,raw_movs_b,(void))
1875	–	{
1876	–	emit_byte(0xa4);
1877	–	}
1878	–	LENDFUNC(NONE,RMW,0,raw_movs_b,(void))
1879	–
1880	–	LOWFUNC(NONE,RMW,0,raw_movs_l,(void))
1881	–	{
1882	–	emit_byte(0xa5);
1883	–	}
1884	–	LENDFUNC(NONE,RMW,0,raw_movs_l,(void))
1885	–
1886	–	LOWFUNC(NONE,RMW,0,raw_rep,(void))
1887	–	{
1888	–	emit_byte(0xf3);
1889	–	}
1890	–	LENDFUNC(NONE,RMW,0,raw_rep,(void))
1891	–
1892	–	LOWFUNC(NONE,RMW,0,raw_rep_movsb,(void))
1893	–	{
1894	–	raw_rep();
1895	–	raw_movs_b();
1896	–	}
1897	–	LENDFUNC(NONE,RMW,0,raw_rep_movsb,(void))
1898	–
1899	–	LOWFUNC(NONE,RMW,0,raw_rep_movsl,(void))
1900	–	{
1901	–	raw_rep();
1902	–	raw_movs_l();
1903	–	}
1904	–	LENDFUNC(NONE,RMW,0,raw_rep_movsl,(void))
1905	–
1906	–	/*************************************************************************
2960		* FIXME: mem access modes probably wrong                                *
2961		*************************************************************************/
2962
#	Line 1919 | Line 2972 | LOWFUNC(WRITE,READ,0,raw_popfl,(void))
2972		}
2973		LENDFUNC(WRITE,READ,0,raw_popfl,(void))
2974
2975	+	#endif
2976	+
2977		/*************************************************************************
2978		* Unoptimizable stuff --- jump                                          *
2979		*************************************************************************/
2980
2981		static __inline__ void raw_call_r(R4 r)
2982		{
2983	+	#if USE_NEW_RTASM
2984	+	CALLsr(r);
2985	+	#else
2986		emit_byte(0xff);
2987		emit_byte(0xd0+r);
2988	+	#endif
2989		}
2990
2991		static __inline__ void raw_call_m_indexed(uae_u32 base, uae_u32 r, uae_u32 m)
2992		{
2993	+	#if USE_NEW_RTASM
2994	+	CALLsm(base, X86_NOREG, r, m);
2995	+	#else
2996		int mu;
2997		switch(m) {
2998		case 1: mu=0; break;
#	Line 1943 | Line 3005 | static __inline__ void raw_call_m_indexe
3005		emit_byte(0x14);
3006		emit_byte(0x05+8*r+0x40*mu);
3007		emit_long(base);
3008	+	#endif
3009		}
3010
3011		static __inline__ void raw_jmp_r(R4 r)
3012		{
3013	+	#if USE_NEW_RTASM
3014	+	JMPsr(r);
3015	+	#else
3016		emit_byte(0xff);
3017		emit_byte(0xe0+r);
3018	+	#endif
3019		}
3020
3021		static __inline__ void raw_jmp_m_indexed(uae_u32 base, uae_u32 r, uae_u32 m)
3022		{
3023	+	#if USE_NEW_RTASM
3024	+	JMPsm(base, X86_NOREG, r, m);
3025	+	#else
3026		int mu;
3027		switch(m) {
3028		case 1: mu=0; break;
#	Line 1965 | Line 3035 | static __inline__ void raw_jmp_m_indexed
3035		emit_byte(0x24);
3036		emit_byte(0x05+8*r+0x40*mu);
3037		emit_long(base);
3038	+	#endif
3039		}
3040
3041		static __inline__ void raw_jmp_m(uae_u32 base)
#	Line 1977 | Line 3048 | static __inline__ void raw_jmp_m(uae_u32
3048
3049		static __inline__ void raw_call(uae_u32 t)
3050		{
3051	+	#if USE_NEW_RTASM
3052	+	CALLm(t);
3053	+	#else
3054		emit_byte(0xe8);
3055		emit_long(t-(uae_u32)target-4);
3056	+	#endif
3057		}
3058
3059		static __inline__ void raw_jmp(uae_u32 t)
3060		{
3061	+	#if USE_NEW_RTASM
3062	+	JMPm(t);
3063	+	#else
3064		emit_byte(0xe9);
3065		emit_long(t-(uae_u32)target-4);
3066	+	#endif
3067		}
3068
3069		static __inline__ void raw_jl(uae_u32 t)
3070		{
3071		emit_byte(0x0f);
3072		emit_byte(0x8c);
3073	<	emit_long(t-(uae_u32)target-4);
3073	>	emit_long(t-(uintptr)target-4);
3074		}
3075
3076		static __inline__ void raw_jz(uae_u32 t)
3077		{
3078		emit_byte(0x0f);
3079		emit_byte(0x84);
3080	<	emit_long(t-(uae_u32)target-4);
3080	>	emit_long(t-(uintptr)target-4);
3081		}
3082
3083		static __inline__ void raw_jnz(uae_u32 t)
3084		{
3085		emit_byte(0x0f);
3086		emit_byte(0x85);
3087	<	emit_long(t-(uae_u32)target-4);
3087	>	emit_long(t-(uintptr)target-4);
3088		}
3089
3090		static __inline__ void raw_jnz_l_oponly(void)
#	Line 2055 | Line 3134 | static __inline__ void raw_nop(void)
3134		emit_byte(0x90);
3135		}
3136
3137	+	static __inline__ void raw_emit_nop_filler(int nbytes)
3138	+	{
3139	+	/* Source: GNU Binutils 2.12.90.0.15 */
3140	+	/* Various efficient no-op patterns for aligning code labels.
3141	+	Note: Don't try to assemble the instructions in the comments.
3142	+	0L and 0w are not legal.  */
3143	+	static const uae_u8 f32_1[] =
3144	+	{0x90};                                                                     /* nop                                  */
3145	+	static const uae_u8 f32_2[] =
3146	+	{0x89,0xf6};                                                        /* movl %esi,%esi               */
3147	+	static const uae_u8 f32_3[] =
3148	+	{0x8d,0x76,0x00};                                           /* leal 0(%esi),%esi    */
3149	+	static const uae_u8 f32_4[] =
3150	+	{0x8d,0x74,0x26,0x00};                                      /* leal 0(%esi,1),%esi  */
3151	+	static const uae_u8 f32_5[] =
3152	+	{0x90,                                                                      /* nop                                  */
3153	+	0x8d,0x74,0x26,0x00};                                      /* leal 0(%esi,1),%esi  */
3154	+	static const uae_u8 f32_6[] =
3155	+	{0x8d,0xb6,0x00,0x00,0x00,0x00};            /* leal 0L(%esi),%esi   */
3156	+	static const uae_u8 f32_7[] =
3157	+	{0x8d,0xb4,0x26,0x00,0x00,0x00,0x00};       /* leal 0L(%esi,1),%esi */
3158	+	static const uae_u8 f32_8[] =
3159	+	{0x90,                                                                      /* nop                                  */
3160	+	0x8d,0xb4,0x26,0x00,0x00,0x00,0x00};       /* leal 0L(%esi,1),%esi */
3161	+	static const uae_u8 f32_9[] =
3162	+	{0x89,0xf6,                                                         /* movl %esi,%esi               */
3163	+	0x8d,0xbc,0x27,0x00,0x00,0x00,0x00};       /* leal 0L(%edi,1),%edi */
3164	+	static const uae_u8 f32_10[] =
3165	+	{0x8d,0x76,0x00,                                            /* leal 0(%esi),%esi    */
3166	+	0x8d,0xbc,0x27,0x00,0x00,0x00,0x00};       /* leal 0L(%edi,1),%edi */
3167	+	static const uae_u8 f32_11[] =
3168	+	{0x8d,0x74,0x26,0x00,                                       /* leal 0(%esi,1),%esi  */
3169	+	0x8d,0xbc,0x27,0x00,0x00,0x00,0x00};       /* leal 0L(%edi,1),%edi */
3170	+	static const uae_u8 f32_12[] =
3171	+	{0x8d,0xb6,0x00,0x00,0x00,0x00,                     /* leal 0L(%esi),%esi   */
3172	+	0x8d,0xbf,0x00,0x00,0x00,0x00};            /* leal 0L(%edi),%edi   */
3173	+	static const uae_u8 f32_13[] =
3174	+	{0x8d,0xb6,0x00,0x00,0x00,0x00,                     /* leal 0L(%esi),%esi   */
3175	+	0x8d,0xbc,0x27,0x00,0x00,0x00,0x00};       /* leal 0L(%edi,1),%edi */
3176	+	static const uae_u8 f32_14[] =
3177	+	{0x8d,0xb4,0x26,0x00,0x00,0x00,0x00,        /* leal 0L(%esi,1),%esi */
3178	+	0x8d,0xbc,0x27,0x00,0x00,0x00,0x00};       /* leal 0L(%edi,1),%edi */
3179	+	static const uae_u8 f32_15[] =
3180	+	{0xeb,0x0d,0x90,0x90,0x90,0x90,0x90,        /* jmp .+15; lotsa nops */
3181	+	0x90,0x90,0x90,0x90,0x90,0x90,0x90,0x90};
3182	+	static const uae_u8 f32_16[] =
3183	+	{0xeb,0x0d,0x90,0x90,0x90,0x90,0x90,        /* jmp .+15; lotsa nops */
3184	+	0x90,0x90,0x90,0x90,0x90,0x90,0x90,0x90,0x90};
3185	+	static const uae_u8 *const f32_patt[] = {
3186	+	f32_1, f32_2, f32_3, f32_4, f32_5, f32_6, f32_7, f32_8,
3187	+	f32_9, f32_10, f32_11, f32_12, f32_13, f32_14, f32_15
3188	+	};
3189	+	static const uae_u8 prefixes[4] = { 0x66, 0x66, 0x66, 0x66 };
3190	+
3191	+	#if defined(__x86_64__)
3192	+	/* The recommended way to pad 64bit code is to use NOPs preceded by
3193	+	maximally four 0x66 prefixes.  Balance the size of nops.  */
3194	+	if (nbytes == 0)
3195	+	return;
3196	+
3197	+	int i;
3198	+	int nnops = (nbytes + 3) / 4;
3199	+	int len = nbytes / nnops;
3200	+	int remains = nbytes - nnops * len;
3201	+
3202	+	for (i = 0; i < remains; i++) {
3203	+	emit_block(prefixes, len);
3204	+	raw_nop();
3205	+	}
3206	+	for (; i < nnops; i++) {
3207	+	emit_block(prefixes, len - 1);
3208	+	raw_nop();
3209	+	}
3210	+	#else
3211	+	int nloops = nbytes / 16;
3212	+	while (nloops-- > 0)
3213	+	emit_block(f32_16, sizeof(f32_16));
3214	+
3215	+	nbytes %= 16;
3216	+	if (nbytes)
3217	+	emit_block(f32_patt[nbytes - 1], nbytes);
3218	+	#endif
3219	+	}
3220	+
3221
3222		/*************************************************************************
3223		* Flag handling, to and fro UAE flag register                           *
#	Line 2063 | Line 3226 | static __inline__ void raw_nop(void)
3226		#ifdef SAHF_SETO_PROFITABLE
3227
3228		#define FLAG_NREG1 0  /* Set to -1 if any register will do */
2066	–
3229		static __inline__ void raw_flags_to_reg(int r)
3230		{
3231		raw_lahf(0);  /* Most flags in AH */
3232		//raw_setcc(r,0); /* V flag in AL */
3233	<	raw_setcc_m((uae_u32)live.state[FLAGTMP].mem,0);
3233	>	raw_setcc_m((uintptr)live.state[FLAGTMP].mem,0);
3234
3235		#if 1   /* Let's avoid those nasty partial register stalls */
3236	<	//raw_mov_b_mr((uae_u32)live.state[FLAGTMP].mem,r);
3237	<	raw_mov_b_mr(((uae_u32)live.state[FLAGTMP].mem)+1,r+4);
3236	>	//raw_mov_b_mr((uintptr)live.state[FLAGTMP].mem,r);
3237	>	raw_mov_b_mr(((uintptr)live.state[FLAGTMP].mem)+1,AH_INDEX);
3238		//live.state[FLAGTMP].status=CLEAN;
3239		live.state[FLAGTMP].status=INMEM;
3240		live.state[FLAGTMP].realreg=-1;
#	Line 2092 | Line 3254 | static __inline__ void raw_reg_to_flags(
3254		raw_sahf(0);
3255		}
3256
3257	+	#define FLAG_NREG3 0  /* Set to -1 if any register will do */
3258	+	static __inline__ void raw_flags_set_zero(int s, int tmp)
3259	+	{
3260	+	raw_mov_l_rr(tmp,s);
3261	+	raw_lahf(s); /* flags into ah */
3262	+	raw_and_l_ri(s,0xffffbfff);
3263	+	raw_and_l_ri(tmp,0x00004000);
3264	+	raw_xor_l_ri(tmp,0x00004000);
3265	+	raw_or_l(s,tmp);
3266	+	raw_sahf(s);
3267	+	}
3268	+
3269		#else
3270
3271		#define FLAG_NREG1 -1  /* Set to -1 if any register will do */
#	Line 2099 | Line 3273 | static __inline__ void raw_flags_to_reg(
3273		{
3274		raw_pushfl();
3275		raw_pop_l_r(r);
3276	<	raw_mov_l_mr((uae_u32)live.state[FLAGTMP].mem,r);
3276	>	raw_mov_l_mr((uintptr)live.state[FLAGTMP].mem,r);
3277		//      live.state[FLAGTMP].status=CLEAN;
3278		live.state[FLAGTMP].status=INMEM;
3279		live.state[FLAGTMP].realreg=-1;
#	Line 2118 | Line 3292 | static __inline__ void raw_reg_to_flags(
3292		raw_popfl();
3293		}
3294
3295	+	#define FLAG_NREG3 -1  /* Set to -1 if any register will do */
3296	+	static __inline__ void raw_flags_set_zero(int s, int tmp)
3297	+	{
3298	+	raw_mov_l_rr(tmp,s);
3299	+	raw_pushfl();
3300	+	raw_pop_l_r(s);
3301	+	raw_and_l_ri(s,0xffffffbf);
3302	+	raw_and_l_ri(tmp,0x00000040);
3303	+	raw_xor_l_ri(tmp,0x00000040);
3304	+	raw_or_l(s,tmp);
3305	+	raw_push_l_r(s);
3306	+	raw_popfl();
3307	+	}
3308		#endif
3309
3310		/* Apparently, there are enough instructions between flag store and
#	Line 2125 | Line 3312 | static __inline__ void raw_reg_to_flags(
3312		static __inline__ void raw_load_flagreg(uae_u32 target, uae_u32 r)
3313		{
3314		#if 1
3315	<	raw_mov_l_rm(target,(uae_u32)live.state[r].mem);
3315	>	raw_mov_l_rm(target,(uintptr)live.state[r].mem);
3316		#else
3317	<	raw_mov_b_rm(target,(uae_u32)live.state[r].mem);
3318	<	raw_mov_b_rm(target+4,((uae_u32)live.state[r].mem)+1);
3317	>	raw_mov_b_rm(target,(uintptr)live.state[r].mem);
3318	>	raw_mov_b_rm(target+4,((uintptr)live.state[r].mem)+1);
3319		#endif
3320		}
3321
#	Line 2136 | Line 3323 | static __inline__ void raw_load_flagreg(
3323		static __inline__ void raw_load_flagx(uae_u32 target, uae_u32 r)
3324		{
3325		if (live.nat[target].canbyte)
3326	<	raw_mov_b_rm(target,(uae_u32)live.state[r].mem);
3326	>	raw_mov_b_rm(target,(uintptr)live.state[r].mem);
3327		else if (live.nat[target].canword)
3328	<	raw_mov_w_rm(target,(uae_u32)live.state[r].mem);
3328	>	raw_mov_w_rm(target,(uintptr)live.state[r].mem);
3329		else
3330	<	raw_mov_l_rm(target,(uae_u32)live.state[r].mem);
3330	>	raw_mov_l_rm(target,(uintptr)live.state[r].mem);
3331		}
3332
3333	+	static __inline__ void raw_dec_sp(int off)
3334	+	{
3335	+	if (off) raw_sub_l_ri(ESP_INDEX,off);
3336	+	}
3337
3338		static __inline__ void raw_inc_sp(int off)
3339		{
3340	<	raw_add_l_ri(ESP_INDEX,off);
3340	>	if (off) raw_add_l_ri(ESP_INDEX,off);
3341		}
3342
3343		/*************************************************************************
#	Line 2305 | Line 3496 | static void vec(int x, struct sigcontext
3496		for (i=0;i<5;i++)
3497		vecbuf[i]=target[i];
3498		emit_byte(0xe9);
3499	<	emit_long((uae_u32)veccode-(uae_u32)target-4);
3499	>	emit_long((uintptr)veccode-(uintptr)target-4);
3500		write_log("Create jump to %p\n",veccode);
3501
3502		write_log("Handled one access!\n");
#	Line 2332 | Line 3523 | static void vec(int x, struct sigcontext
3523		}
3524		for (i=0;i<5;i++)
3525		raw_mov_b_mi(sc.eip+i,vecbuf[i]);
3526	<	raw_mov_l_mi((uae_u32)&in_handler,0);
3526	>	raw_mov_l_mi((uintptr)&in_handler,0);
3527		emit_byte(0xe9);
3528	<	emit_long(sc.eip+len-(uae_u32)target-4);
3528	>	emit_long(sc.eip+len-(uintptr)target-4);
3529		in_handler=1;
3530		target=tmp;
3531		}
#	Line 2429 | Line 3620 | enum {
3620		X86_PROCESSOR_K6,
3621		X86_PROCESSOR_ATHLON,
3622		X86_PROCESSOR_PENTIUM4,
3623	+	X86_PROCESSOR_X86_64,
3624		X86_PROCESSOR_max
3625		};
3626
#	Line 2439 | Line 3631 | static const char * x86_processor_string
3631		"PentiumPro",
3632		"K6",
3633		"Athlon",
3634	<	"Pentium4"
3634	>	"Pentium4",
3635	>	"x86-64"
3636		};
3637
3638		static struct ptt {
#	Line 2456 | Line 3649 | x86_alignments[X86_PROCESSOR_max] = {
3649		{ 16, 15, 16,  7, 16 },
3650		{ 32,  7, 32,  7, 32 },
3651		{ 16,  7, 16,  7, 16 },
3652	<	{  0,  0,  0,  0,  0 }
3652	>	{  0,  0,  0,  0,  0 },
3653	>	{ 16,  7, 16,  7, 16 }
3654		};
3655
3656		static void
#	Line 2490 | Line 3684 | x86_get_cpu_vendor(struct cpuinfo_x86 *c
3684		static void
3685		cpuid(uae_u32 op, uae_u32 *eax, uae_u32 *ebx, uae_u32 *ecx, uae_u32 *edx)
3686		{
3687	<	static uae_u8 cpuid_space[256];
3687	>	const int CPUID_SPACE = 4096;
3688	>	uae_u8* cpuid_space = (uae_u8 *)vm_acquire(CPUID_SPACE);
3689	>	if (cpuid_space == VM_MAP_FAILED)
3690	>	abort();
3691	>	vm_protect(cpuid_space, CPUID_SPACE, VM_PAGE_READ | VM_PAGE_WRITE | VM_PAGE_EXECUTE);
3692	>
3693	>	static uae_u32 s_op, s_eax, s_ebx, s_ecx, s_edx;
3694		uae_u8* tmp=get_target();
3695
3696	+	s_op = op;
3697		set_target(cpuid_space);
3698		raw_push_l_r(0); /* eax */
3699		raw_push_l_r(1); /* ecx */
3700		raw_push_l_r(2); /* edx */
3701		raw_push_l_r(3); /* ebx */
3702	<	raw_mov_l_rm(0,(uae_u32)&op);
3702	>	raw_mov_l_rm(0,(uintptr)&s_op);
3703		raw_cpuid(0);
3704	<	if (eax != NULL) raw_mov_l_mr((uae_u32)eax,0);
3705	<	if (ebx != NULL) raw_mov_l_mr((uae_u32)ebx,3);
3706	<	if (ecx != NULL) raw_mov_l_mr((uae_u32)ecx,1);
3707	<	if (edx != NULL) raw_mov_l_mr((uae_u32)edx,2);
3704	>	raw_mov_l_mr((uintptr)&s_eax,0);
3705	>	raw_mov_l_mr((uintptr)&s_ebx,3);
3706	>	raw_mov_l_mr((uintptr)&s_ecx,1);
3707	>	raw_mov_l_mr((uintptr)&s_edx,2);
3708		raw_pop_l_r(3);
3709		raw_pop_l_r(2);
3710		raw_pop_l_r(1);
#	Line 2512 | Line 3713 | cpuid(uae_u32 op, uae_u32 *eax, uae_u32
3713		set_target(tmp);
3714
3715		((cpuop_func*)cpuid_space)(0);
3716	+	if (eax != NULL) *eax = s_eax;
3717	+	if (ebx != NULL) *ebx = s_ebx;
3718	+	if (ecx != NULL) *ecx = s_ecx;
3719	+	if (edx != NULL) *edx = s_edx;
3720	+
3721	+	vm_release(cpuid_space, CPUID_SPACE);
3722		}
3723
3724		static void
#	Line 2520 | Line 3727 | raw_init_cpu(void)
3727		struct cpuinfo_x86 *c = &cpuinfo;
3728
3729		/* Defaults */
3730	+	c->x86_processor = X86_PROCESSOR_max;
3731		c->x86_vendor = X86_VENDOR_UNKNOWN;
3732		c->cpuid_level = -1;                          /* CPUID not detected */
3733		c->x86_model = c->x86_mask = 0;       /* So far unknown... */
#	Line 2541 | Line 3749 | raw_init_cpu(void)
3749		uae_u32 tfms, brand_id;
3750		cpuid(0x00000001, &tfms, &brand_id, NULL, &c->x86_hwcap);
3751		c->x86 = (tfms >> 8) & 15;
3752	+	if (c->x86 == 0xf)
3753	+	c->x86 += (tfms >> 20) & 0xff; /* extended family */
3754		c->x86_model = (tfms >> 4) & 15;
3755	+	if (c->x86_model == 0xf)
3756	+	c->x86_model |= (tfms >> 12) & 0xf0; /* extended model */
3757		c->x86_brand_id = brand_id & 0xff;
2546	–	if ( (c->x86_vendor == X86_VENDOR_AMD) &&
2547	–	(c->x86 == 0xf)) {
2548	–	/* AMD Extended Family and Model Values */
2549	–	c->x86 += (tfms >> 20) & 0xff;
2550	–	c->x86_model += (tfms >> 12) & 0xf0;
2551	–	}
3758		c->x86_mask = tfms & 15;
3759		} else {
3760		/* Have CPUID level 0 only - unheard of */
3761		c->x86 = 4;
3762		}
3763
3764	+	/* AMD-defined flags: level 0x80000001 */
3765	+	uae_u32 xlvl;
3766	+	cpuid(0x80000000, &xlvl, NULL, NULL, NULL);
3767	+	if ( (xlvl & 0xffff0000) == 0x80000000 ) {
3768	+	if ( xlvl >= 0x80000001 ) {
3769	+	uae_u32 features, extra_features;
3770	+	cpuid(0x80000001, NULL, NULL, &extra_features, &features);
3771	+	if (features & (1 << 29)) {
3772	+	/* Assume x86-64 if long mode is supported */
3773	+	c->x86_processor = X86_PROCESSOR_X86_64;
3774	+	}
3775	+	if (extra_features & (1 << 0))
3776	+	have_lahf_lm = true;
3777	+	}
3778	+	}
3779	+
3780		/* Canonicalize processor ID */
2559	–	c->x86_processor = X86_PROCESSOR_max;
3781		switch (c->x86) {
3782		case 3:
3783		c->x86_processor = X86_PROCESSOR_I386;
#	Line 2577 | Line 3798 | raw_init_cpu(void)
3798		c->x86_processor = X86_PROCESSOR_PENTIUMPRO;
3799		break;
3800		case 15:
3801	<	if (c->x86_vendor == X86_VENDOR_INTEL) {
3802	<	/*  Assume any BranID >= 8 and family == 15 yields a Pentium 4 */
3803	<	if (c->x86_brand_id >= 8)
3804	<	c->x86_processor = X86_PROCESSOR_PENTIUM4;
3805	<	}
3806	<	break;
3801	>	if (c->x86_processor == X86_PROCESSOR_max) {
3802	>	switch (c->x86_vendor) {
3803	>	case X86_VENDOR_INTEL:
3804	>	c->x86_processor = X86_PROCESSOR_PENTIUM4;
3805	>	break;
3806	>	case X86_VENDOR_AMD:
3807	>	/* Assume a 32-bit Athlon processor if not in long mode */
3808	>	c->x86_processor = X86_PROCESSOR_ATHLON;
3809	>	break;
3810	>	}
3811	>	}
3812	>	break;
3813		}
3814		if (c->x86_processor == X86_PROCESSOR_max) {
3815	<	fprintf(stderr, "Error: unknown processor type\n");
3815	>	c->x86_processor = X86_PROCESSOR_I386;
3816	>	fprintf(stderr, "Error: unknown processor type, assuming i386\n");
3817		fprintf(stderr, "  Family  : %d\n", c->x86);
3818		fprintf(stderr, "  Model   : %d\n", c->x86_model);
3819		fprintf(stderr, "  Mask    : %d\n", c->x86_mask);
3820	+	fprintf(stderr, "  Vendor  : %s [%d]\n", c->x86_vendor_id, c->x86_vendor);
3821		if (c->x86_brand_id)
3822		fprintf(stderr, "  BrandID : %02x\n", c->x86_brand_id);
2594	–	abort();
3823		}
3824
3825		/* Have CMOV support? */
3826	<	have_cmov = (c->x86_hwcap & (1 << 15)) && true;
3826	>	have_cmov = c->x86_hwcap & (1 << 15);
3827
3828		/* Can the host CPU suffer from partial register stalls? */
3829		have_rat_stall = (c->x86_vendor == X86_VENDOR_INTEL);
#	Line 2618 | Line 3846 | raw_init_cpu(void)
3846		x86_processor_string_table[c->x86_processor]);
3847		}
3848
3849	+	static bool target_check_bsf(void)
3850	+	{
3851	+	bool mismatch = false;
3852	+	for (int g_ZF = 0; g_ZF <= 1; g_ZF++) {
3853	+	for (int g_CF = 0; g_CF <= 1; g_CF++) {
3854	+	for (int g_OF = 0; g_OF <= 1; g_OF++) {
3855	+	for (int g_SF = 0; g_SF <= 1; g_SF++) {
3856	+	for (int value = -1; value <= 1; value++) {
3857	+	unsigned long flags = (g_SF << 7) | (g_OF << 11) | (g_ZF << 6) | g_CF;
3858	+	unsigned long tmp = value;
3859	+	__asm__ __volatile__ ("push %0; popf; bsf %1,%1; pushf; pop %0"
3860	+	: "+r" (flags), "+r" (tmp) : : "cc");
3861	+	int OF = (flags >> 11) & 1;
3862	+	int SF = (flags >>  7) & 1;
3863	+	int ZF = (flags >>  6) & 1;
3864	+	int CF = flags & 1;
3865	+	tmp = (value == 0);
3866	+	if (ZF != tmp || SF != g_SF || OF != g_OF || CF != g_CF)
3867	+	mismatch = true;
3868	+	}
3869	+	}}}}
3870	+	if (mismatch)
3871	+	write_log("Target CPU defines all flags on BSF instruction\n");
3872	+	return !mismatch;
3873	+	}
3874	+
3875
3876		/*************************************************************************
3877		* FPU stuff                                                             *
#	Line 2740 | Line 3994 | static __inline__ void tos_make(int r)
3994		emit_byte(0xd8+(live.tos+1)-live.spos[r]);  /* store top of stack in reg,
3995		and pop it*/
3996		}
3997	<
3998	<
3997	>
3998	>	/* FP helper functions */
3999	>	#if USE_NEW_RTASM
4000	>	#define DEFINE_OP(NAME, GEN)                    \
4001	>	static inline void raw_##NAME(uint32 m)         \
4002	>	{                                               \
4003	>	GEN(m, X86_NOREG, X86_NOREG, 1);            \
4004	>	}
4005	>	DEFINE_OP(fstl,  FSTLm);
4006	>	DEFINE_OP(fstpl, FSTPLm);
4007	>	DEFINE_OP(fldl,  FLDLm);
4008	>	DEFINE_OP(fildl, FILDLm);
4009	>	DEFINE_OP(fistl, FISTLm);
4010	>	DEFINE_OP(flds,  FLDSm);
4011	>	DEFINE_OP(fsts,  FSTSm);
4012	>	DEFINE_OP(fstpt, FSTPTm);
4013	>	DEFINE_OP(fldt,  FLDTm);
4014	>	#else
4015	>	#define DEFINE_OP(NAME, OP1, OP2)               \
4016	>	static inline void raw_##NAME(uint32 m)         \
4017	>	{                                               \
4018	>	emit_byte(OP1);                             \
4019	>	emit_byte(OP2);                             \
4020	>	emit_long(m);                               \
4021	>	}
4022	>	DEFINE_OP(fstl,  0xdd, 0x15);
4023	>	DEFINE_OP(fstpl, 0xdd, 0x1d);
4024	>	DEFINE_OP(fldl,  0xdd, 0x05);
4025	>	DEFINE_OP(fildl, 0xdb, 0x05);
4026	>	DEFINE_OP(fistl, 0xdb, 0x15);
4027	>	DEFINE_OP(flds,  0xd9, 0x05);
4028	>	DEFINE_OP(fsts,  0xd9, 0x15);
4029	>	DEFINE_OP(fstpt, 0xdb, 0x3d);
4030	>	DEFINE_OP(fldt,  0xdb, 0x2d);
4031	>	#endif
4032	>	#undef DEFINE_OP
4033	>
4034		LOWFUNC(NONE,WRITE,2,raw_fmov_mr,(MEMW m, FR r))
4035		{
4036		make_tos(r);
4037	<	emit_byte(0xdd);
2749	<	emit_byte(0x15);
2750	<	emit_long(m);
4037	>	raw_fstl(m);
4038		}
4039		LENDFUNC(NONE,WRITE,2,raw_fmov_mr,(MEMW m, FR r))
4040
4041		LOWFUNC(NONE,WRITE,2,raw_fmov_mr_drop,(MEMW m, FR r))
4042		{
4043		make_tos(r);
4044	<	emit_byte(0xdd);
2758	<	emit_byte(0x1d);
2759	<	emit_long(m);
4044	>	raw_fstpl(m);
4045		live.onstack[live.tos]=-1;
4046		live.tos--;
4047		live.spos[r]=-2;
#	Line 2765 | Line 4050 | LENDFUNC(NONE,WRITE,2,raw_fmov_mr,(MEMW
4050
4051		LOWFUNC(NONE,READ,2,raw_fmov_rm,(FW r, MEMR m))
4052		{
4053	<	emit_byte(0xdd);
2769	<	emit_byte(0x05);
2770	<	emit_long(m);
4053	>	raw_fldl(m);
4054		tos_make(r);
4055		}
4056		LENDFUNC(NONE,READ,2,raw_fmov_rm,(FW r, MEMR m))
4057
4058		LOWFUNC(NONE,READ,2,raw_fmovi_rm,(FW r, MEMR m))
4059		{
4060	<	emit_byte(0xdb);
2778	<	emit_byte(0x05);
2779	<	emit_long(m);
4060	>	raw_fildl(m);
4061		tos_make(r);
4062		}
4063		LENDFUNC(NONE,READ,2,raw_fmovi_rm,(FW r, MEMR m))
#	Line 2784 | Line 4065 | LENDFUNC(NONE,READ,2,raw_fmovi_rm,(FW r,
4065		LOWFUNC(NONE,WRITE,2,raw_fmovi_mr,(MEMW m, FR r))
4066		{
4067		make_tos(r);
4068	<	emit_byte(0xdb);
2788	<	emit_byte(0x15);
2789	<	emit_long(m);
4068	>	raw_fistl(m);
4069		}
4070		LENDFUNC(NONE,WRITE,2,raw_fmovi_mr,(MEMW m, FR r))
4071
4072		LOWFUNC(NONE,READ,2,raw_fmovs_rm,(FW r, MEMR m))
4073		{
4074	<	emit_byte(0xd9);
2796	<	emit_byte(0x05);
2797	<	emit_long(m);
4074	>	raw_flds(m);
4075		tos_make(r);
4076		}
4077		LENDFUNC(NONE,READ,2,raw_fmovs_rm,(FW r, MEMR m))
#	Line 2802 | Line 4079 | LENDFUNC(NONE,READ,2,raw_fmovs_rm,(FW r,
4079		LOWFUNC(NONE,WRITE,2,raw_fmovs_mr,(MEMW m, FR r))
4080		{
4081		make_tos(r);
4082	<	emit_byte(0xd9);
2806	<	emit_byte(0x15);
2807	<	emit_long(m);
4082	>	raw_fsts(m);
4083		}
4084		LENDFUNC(NONE,WRITE,2,raw_fmovs_mr,(MEMW m, FR r))
4085
#	Line 2819 | Line 4094 | LOWFUNC(NONE,WRITE,2,raw_fmov_ext_mr,(ME
4094		emit_byte(0xd9);     /* Get a copy to the top of stack */
4095		emit_byte(0xc0+rs);
4096
4097	<	emit_byte(0xdb);  /* store and pop it */
2823	<	emit_byte(0x3d);
2824	<	emit_long(m);
4097	>	raw_fstpt(m);       /* store and pop it */
4098		}
4099		LENDFUNC(NONE,WRITE,2,raw_fmov_ext_mr,(MEMW m, FR r))
4100
#	Line 2830 | Line 4103 | LOWFUNC(NONE,WRITE,2,raw_fmov_ext_mr_dro
4103		int rs;
4104
4105		make_tos(r);
4106	<	emit_byte(0xdb);  /* store and pop it */
2834	<	emit_byte(0x3d);
2835	<	emit_long(m);
4106	>	raw_fstpt(m);       /* store and pop it */
4107		live.onstack[live.tos]=-1;
4108		live.tos--;
4109		live.spos[r]=-2;
#	Line 2841 | Line 4112 | LENDFUNC(NONE,WRITE,2,raw_fmov_ext_mr,(M
4112
4113		LOWFUNC(NONE,READ,2,raw_fmov_ext_rm,(FW r, MEMR m))
4114		{
4115	<	emit_byte(0xdb);
2845	<	emit_byte(0x2d);
2846	<	emit_long(m);
4115	>	raw_fldt(m);
4116		tos_make(r);
4117		}
4118		LENDFUNC(NONE,READ,2,raw_fmov_ext_rm,(FW r, MEMR m))
#	Line 3052 | Line 4321 | LOWFUNC(NONE,NONE,2,raw_ftwotox_rr,(FW d
4321		emit_byte(0xf0);  /* f2xm1 */
4322		emit_byte(0xdc);
4323		emit_byte(0x05);
4324	<	emit_long((uae_u32)&one);  /* Add '1' without using extra stack space */
4324	>	emit_long((uintptr)&one);  /* Add '1' without using extra stack space */
4325		emit_byte(0xd9);
4326		emit_byte(0xfd);  /* and scale it */
4327		emit_byte(0xdd);
#	Line 3086 | Line 4355 | LOWFUNC(NONE,NONE,2,raw_fetox_rr,(FW d,
4355		emit_byte(0xf0);  /* f2xm1 */
4356		emit_byte(0xdc);
4357		emit_byte(0x05);
4358	<	emit_long((uae_u32)&one);  /* Add '1' without using extra stack space */
4358	>	emit_long((uintptr)&one);  /* Add '1' without using extra stack space */
4359		emit_byte(0xd9);
4360		emit_byte(0xfd);  /* and scale it */
4361		emit_byte(0xdd);

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