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source: dev/trunk/ab5.0/abdev/compiler_x64/CodeGenerator.cpp@ 673

Last change on this file since 673 was 603, checked in by dai_9181, 16 years ago
ObjectModuleに関連するクラス一式をab_commonプロジェクトに移動した。
File size: 46.8 KB

Line
1	#include "stdafx.h"
2
3
4	//////////////////////
5	// rexプリフィックス
6	//////////////////////
7	void CodeGenerator::set_rex(int op_size,int reg,int index_reg,int base_reg){
8	char RexByte;
9
10	if(reg==REG_NON&&index_reg==REG_NON){
11	/////////////////////////////////////
12	// レジスタをr/mのみに指定するとき
13	/////////////////////////////////////
14
15	if((base_reg&0x08)==0){
16	if(op_size==sizeof(char)&&(base_reg&0x04)){
17	// r/m に spl,bpl,sil,dilを指定するとき
18	RexByte=0x40;
19	}
20	else RexByte=0;
21	}
22	else RexByte=(char)0x41;
23	}
24	else{
25	/////////////////
26	// 通常
27	/////////////////
28
29	if((reg&0x08)==0){
30	//reg … rax～rdi
31
32	if((index_reg&0x08)==0){
33	if((base_reg&0x08)==0) RexByte=0;
34	else RexByte=(char)0x41;
35	}
36	else{
37	if((base_reg&0x08)==0) RexByte=(char)0x42;
38	else RexByte=(char)0x43;
39	}
40	}
41	else{
42	//reg … r8～r15
43
44	if((index_reg&0x08)==0){
45	if((base_reg&0x08)==0) RexByte=(char)0x44;
46	else RexByte=(char)0x45;
47	}
48	else{
49	if((base_reg&0x08)==0) RexByte=(char)0x46;
50	else RexByte=(char)0x47;
51	}
52	}
53	}
54
55	if(op_size==sizeof(_int64)){
56	//64ビットオペランド
57	RexByte\|=0x48;
58	}
59
60	if(RexByte) pNativeCode->Put( RexByte );
61	}
62
63
64
65	/////////////////////////////////////////////////
66	// ModR/Mバイト、SIBバイト、ディスプレースメント
67	/////////////////////////////////////////////////
68
69	//スケール
70	#define SCALE_NON (char)0x00
71	#define SCALE_2 (char)0x40
72	#define SCALE_4 (char)0x80
73	#define SCALE_8 (char)0xC0
74
75	//インデックスなし
76	#define INDEX_NON 0x04
77
78	const PertialSchedule *CodeGenerator::set_mod_rm_sib_disp(char mod,int reg,int scale,int index_reg,int base_reg,long disp, Schedule::Type scheduleType, bool isPertialSchedule )
79	{
80	const PertialSchedule *pPertialSchedule = NULL;
81
82	if(mod==MOD_DISP32){
83	//ModR/Mバイト
84	pNativeCode->Put( (char)( REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(0x04)) );
85
86	base_reg=0x05;
87	index_reg=INDEX_NON;
88	}
89	else{
90	//ModR/Mバイト
91	pNativeCode->Put( (char)(mod \| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(base_reg)) );
92	}
93
94
95	//レジスタモードの場合は、ここで終了
96	if(mod==MOD_REG) return pPertialSchedule;
97
98
99	if(REGISTER_OPERAND(base_reg)==0x04\|\|mod==MOD_DISP32){
100	//////////////////////
101	// SIBバイトを使う
102	//////////////////////
103
104	pNativeCode->Put( (char)(scale\| REGISTER_OPERAND(index_reg)<<3 \| REGISTER_OPERAND(base_reg)) );
105	}
106
107	//ディスプレースメントを必要としない場合は、ここで終了
108	if(mod==MOD_BASE) return pPertialSchedule;
109
110
111	//////////////////////////
112	// ディスプレースメント
113	//////////////////////////
114
115	if(mod==MOD_BASE_DISP8)
116	{
117	pNativeCode->Put( (char)disp );
118	}
119	else
120	{
121	if( isPertialSchedule )
122	{
123	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
124	pPertialSchedule = pertialSchedules.back();
125	}
126
127	this->PutWithSchedule( disp, scheduleType );
128	}
129
130	return pPertialSchedule;
131	}
132
133
134
135	const PertialSchedule *CodeGenerator::__op_format(int op_size,char op_prefix,char opcode1,char opcode2,int reg,int base_reg,long offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
136	//命令プリフィックス
137	if(op_prefix) pNativeCode->Put( op_prefix );
138
139	//rexプリフィックス
140	set_rex(op_size,reg,0,base_reg);
141
142	//オペコード
143	pNativeCode->Put( opcode1 );
144	if(opcode2) pNativeCode->Put( opcode2 );
145
146	//ModR/M, SIB, disp
147	return set_mod_rm_sib_disp(mod,reg,SCALE_NON,INDEX_NON,base_reg,offset, scheduleType, isPertialSchedule );
148	}
149
150
151
152	///////////////////
153	// mov関連
154	///////////////////
155
156	const PertialSchedule *CodeGenerator::op_mov_RV(int op_size,int reg,long i32data, Schedule::Type scheduleType, bool isPertialSchedule ){
157	//mov reg,i32data
158
159	//rexプリフィックス
160	set_rex(op_size,REG_NON,REG_NON,reg);
161
162	if(op_size==sizeof(_int64)){
163	//オペコード
164	pNativeCode->Put( (char)0xC7 );
165
166	//レジスタ
167	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg) ) );
168	}
169	else{
170	//レジスタ
171	pNativeCode->Put( (char)(0xB8\| REGISTER_OPERAND(reg) ) );
172	}
173
174	//即値
175	const PertialSchedule *pPertialSchedule = NULL;
176	if( isPertialSchedule )
177	{
178	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
179	pPertialSchedule = pertialSchedules.back();
180	}
181	this->PutWithSchedule( i32data, scheduleType );
182
183	return pPertialSchedule;
184	}
185	const PertialSchedule *CodeGenerator::op_mov_RV64( int reg, _int64 i64data, bool isPertialSchedule )
186	{
187	//mov reg,i64data
188
189	//rexプリフィックス
190	set_rex(sizeof(_int64),REG_NON,REG_NON,reg);
191
192	//レジスタ
193	pNativeCode->Put( (char)(0xB8\| REGISTER_OPERAND(reg) ) );
194
195	//即値
196	const PertialSchedule *pPertialSchedule = NULL;
197	if( isPertialSchedule )
198	{
199	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(_int64) ) );
200	pPertialSchedule = pertialSchedules.back();
201	}
202	pNativeCode->Put( i64data );
203
204	return pPertialSchedule;
205	}
206	const PertialSchedule *CodeGenerator::op_mov_RM(int op_size,int reg,int base_reg,long offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
207	//mov reg64,qword ptr[base_reg+offset]
208	//mov reg32,dword ptr[base_reg+offset]
209	//mov reg16,word ptr[base_reg+offset]
210	//mov reg8,byte ptr[base_reg+offset]
211
212	//16ビット演算の命令プリフィックス
213	char op_prefix=0;
214	if(op_size==sizeof(short)) op_prefix=(char)0x66;
215
216	//オペコード
217	char opcode;
218	if(op_size==sizeof(char)) opcode=(char)0x8A;
219	else opcode=(char)0x8B;
220
221	return __op_format(op_size,op_prefix,opcode,0,reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
222	}
223	const PertialSchedule *CodeGenerator::op_mov_RM_ex(int op_size,int reg,int base_reg1,int base_reg2,long offset,BOOL bUseOffset, Schedule::Type scheduleType, bool isPertialSchedule ){
224	//mov reg64,qword ptr[base_reg1+base_reg2+offset]
225	//mov reg32,dword ptr[base_reg1+base_reg2+offset]
226	//mov reg16,word ptr[base_reg1+base_reg2+offset]
227	//mov reg8,byte ptr[base_reg1+base_reg2+offset]
228	const PertialSchedule *pPertialSchedule = NULL;
229
230	if(base_reg1==REG_RSP){
231	//SIBバイトのindex部にrspは指定できない
232	base_reg1=base_reg2;
233	base_reg2=REG_RSP;
234	}
235
236	//16ビット演算のプリフィックス
237	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
238
239	//rexプリフィックス
240	set_rex(op_size,reg,base_reg1,base_reg2);
241
242	//オペコード
243	if(op_size==sizeof(char)) pNativeCode->Put( (char)0x8A );
244	else pNativeCode->Put( (char)0x8B );
245
246	if(bUseOffset){
247	///////////////////////////
248	// オフセット値を使う
249	///////////////////////////
250
251	//レジスタ
252	pNativeCode->Put( (char)(0x84\| REGISTER_OPERAND(reg)<<3) );
253
254	//ベースレジスタ
255	pNativeCode->Put( (char)(REGISTER_OPERAND(base_reg1)<<3 \| REGISTER_OPERAND(base_reg2)) );
256
257	//オフセット値
258	if( isPertialSchedule )
259	{
260	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
261	pPertialSchedule = pertialSchedules.back();
262	}
263	this->PutWithSchedule( offset, scheduleType );
264	}
265	else{
266	///////////////////////////
267	// オフセット値を使わない
268	///////////////////////////
269
270	//レジスタ
271	pNativeCode->Put( (char)(0x04\| REGISTER_OPERAND(reg)<<3) );
272
273	//ベースレジスタ
274	pNativeCode->Put( (char)(REGISTER_OPERAND(base_reg1)<<3 \| REGISTER_OPERAND(base_reg2)) );
275	}
276
277	return pPertialSchedule;
278	}
279	const PertialSchedule *CodeGenerator::op_mov_MR(int op_size,int reg,int base_reg,long offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
280	//mov qword ptr[base_reg+offset],reg64
281	//mov dword ptr[base_reg+offset],reg32
282	//mov word ptr[base_reg+offset],reg16
283	//mov byte ptr[base_reg+offset],reg8
284
285	//16ビット演算の命令プリフィックス
286	char op_prefix=0;
287	if(op_size==sizeof(short)) op_prefix=(char)0x66;
288
289	//オペコード
290	char opcode;
291	if(op_size==sizeof(char)) opcode=(char)0x88;
292	else opcode=(char)0x89;
293
294	return __op_format(op_size,op_prefix,opcode,0,reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
295	}
296	const PertialSchedule *CodeGenerator::op_mov_MR_ex(int op_size,int reg,int base_reg1,int base_reg2,long offset,BOOL bUseOffset, Schedule::Type scheduleType, bool isPertialSchedule ){
297	//mov qword ptr[base_reg1+base_reg2+offset],reg64
298	//mov dword ptr[base_reg1+base_reg2+offset],reg32
299	//mov word ptr[base_reg1+base_reg2+offset],reg16
300	//mov byte ptr[base_reg1+base_reg2+offset],reg8
301	const PertialSchedule *pPertialSchedule = NULL;
302
303	if(base_reg1==REG_RSP){
304	//SIBバイトのindex部にrspは指定できない
305	base_reg1=base_reg2;
306	base_reg2=REG_RSP;
307	}
308
309	//16ビット演算のプリフィックス
310	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
311
312	//rexプリフィックス
313	set_rex(op_size,reg,base_reg1,base_reg2);
314
315	//オペコード
316	if(op_size==sizeof(char)) pNativeCode->Put( (char)0x88 );
317	else pNativeCode->Put( (char)0x89 );
318
319	if(bUseOffset==USE_OFFSET){
320	//////////////////////////
321	//オフセット値を使う
322	//////////////////////////
323
324	//レジスタ
325	pNativeCode->Put( (char)(0x84\| REGISTER_OPERAND(reg)<<3) );
326
327	//ベースレジスタ
328	pNativeCode->Put( (char)(REGISTER_OPERAND(base_reg1)<<3 \| REGISTER_OPERAND(base_reg2)) );
329
330	//オフセット値
331	if( isPertialSchedule )
332	{
333	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
334	pPertialSchedule = pertialSchedules.back();
335	}
336	this->PutWithSchedule( offset, scheduleType );
337	}
338	else{
339	//////////////////////////
340	//オフセット値を使わない
341	//////////////////////////
342
343	//レジスタ
344	pNativeCode->Put( (char)(0x04\| REGISTER_OPERAND(reg)<<3) );
345
346	//ベースレジスタ
347	pNativeCode->Put( (char)(REGISTER_OPERAND(base_reg1)<<3 \| REGISTER_OPERAND(base_reg2)) );
348	}
349
350	return pPertialSchedule;
351	}
352
353	const PertialSchedule *CodeGenerator::op_mov_MV(int op_size,int base_reg,int offset, Schedule::Type offsetScheduleType, bool isPertialSchedule, BOOL bUseOffset,long i32data){
354	//mov ptr[base_reg+offset],i32data
355	//mov ptr[base_reg ],i32data
356	const PertialSchedule *pPertialSchedule = NULL;
357
358	//16ビット演算のプリフィックス
359	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
360
361	//rexプリフィックス
362	set_rex(op_size,0,0,base_reg);
363
364	//オペコード
365	if(op_size==sizeof(char)) pNativeCode->Put( (char)0xC6 );
366	else pNativeCode->Put( (char)0xC7 );
367
368	if(bUseOffset==USE_OFFSET){
369	//////////////////////////
370	//オフセット値を使う
371	//////////////////////////
372
373	//ModR/M, SIB, disp
374	pPertialSchedule = set_mod_rm_sib_disp(MOD_BASE_DISP32,0,SCALE_NON,INDEX_NON,base_reg,offset, offsetScheduleType, isPertialSchedule );
375	}
376	else{
377	//ModR/M, SIB, disp
378	set_mod_rm_sib_disp(MOD_BASE,0,SCALE_NON,INDEX_NON,base_reg,0);
379	}
380
381	//即値
382	if(op_size==sizeof(_int64)\|\|op_size==sizeof(long)){
383	//32/64ビット
384	pNativeCode->Put( i32data );
385	}
386	else if(op_size==sizeof(short)){
387	//16ビット
388	pNativeCode->Put( (short)i32data );
389	}
390	else if(op_size==sizeof(char)){
391	//16ビット
392	pNativeCode->Put( (char)i32data );
393	}
394
395	return pPertialSchedule;
396	}
397
398	void CodeGenerator::op_mov_RR(int reg1,int reg2){
399	//mov reg1,reg2
400	char RexByte=-1;
401
402	if(reg1==reg2) return;
403
404	if(REG_RAX<=reg1&&reg1<=REG_RDI){
405	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
406	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
407	}
408	if(REG_R8<=reg1&&reg1<=REG_R15){
409	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
410	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
411	}
412
413	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
414
415	// [8bit rex] 1000 1011 11xx xbbb
416	pNativeCode->Put( RexByte );
417	pNativeCode->Put( (char)0x8B );
418	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
419	}
420
421	void CodeGenerator::op_movsxd(int reg64,int reg32){
422	//movsxd reg64,reg32
423	char RexByte=-1;
424
425	if(REG_RAX<=reg64&&reg64<=REG_RDI){
426	if(REG_RAX<=reg32&&reg32<=REG_RDI) RexByte=(char)0x48;
427	if(REG_R8<=reg32&&reg32<=REG_R15) RexByte=(char)0x49;
428	}
429	if(REG_R8<=reg64&&reg64<=REG_R15){
430	if(REG_RAX<=reg32&&reg32<=REG_RDI) RexByte=(char)0x4C;
431	if(REG_R8<=reg32&&reg32<=REG_R15) RexByte=(char)0x4D;
432	}
433
434	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
435
436	//[8bit rex] 0110 0011 11rr rbbb
437	pNativeCode->Put( RexByte );
438	pNativeCode->Put( (char)0x63 );
439	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg64)<<3 \| REGISTER_OPERAND(reg32)) );
440	}
441	void CodeGenerator::op_movsx64_FromReg16(int reg64,int reg16){
442	//movsx reg64,reg16
443	char RexByte=-1;
444
445	if(REG_RAX<=reg64&&reg64<=REG_RDI){
446	if(REG_RAX<=reg16&&reg16<=REG_RDI) RexByte=(char)0x48;
447	if(REG_R8<=reg16&&reg16<=REG_R15) RexByte=(char)0x49;
448	}
449	if(REG_R8<=reg64&&reg64<=REG_R15){
450	if(REG_RAX<=reg16&&reg16<=REG_RDI) RexByte=(char)0x4C;
451	if(REG_R8<=reg16&&reg16<=REG_R15) RexByte=(char)0x4D;
452	}
453
454	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
455
456	//[8bit rex] 0000 1111 1011 1111 11rr rbbb
457	pNativeCode->Put( RexByte );
458	pNativeCode->Put( (char)0x0F );
459	pNativeCode->Put( (char)0xBF );
460	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg64)<<3 \| REGISTER_OPERAND(reg16)) );
461	}
462	void CodeGenerator::op_movsx64_FromReg8(int reg64,int reg8){
463	//movsx reg64,reg8
464	char RexByte=-1;
465
466	if(REG_RAX<=reg64&&reg64<=REG_RDI){
467	if(REG_RAX<=reg8&&reg8<=REG_RDI) RexByte=(char)0x48;
468	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x49;
469	}
470	if(REG_R8<=reg64&&reg64<=REG_R15){
471	if(REG_RAX<=reg8&&reg8<=REG_RDI) RexByte=(char)0x4C;
472	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x4D;
473	}
474
475	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
476
477	//[8bit rex] 0000 1111 1011 1110 11rr rbbb
478	pNativeCode->Put( RexByte );
479	pNativeCode->Put( (char)0x0F );
480	pNativeCode->Put( (char)0xBE );
481	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg64)<<3 \| REGISTER_OPERAND(reg8)) );
482	}
483
484
485
486	//////////////////
487	// mov32関連
488	//////////////////
489
490	void CodeGenerator::op_movsx32_FromReg16(int reg32,int reg16){
491	//movsx reg32,reg16
492	char RexByte=-1;
493
494	if(REG_RAX<=reg32&&reg32<=REG_RDI){
495	if(REG_RAX<=reg16&&reg16<=REG_RDI) RexByte=0;
496	if(REG_R8<=reg16&&reg16<=REG_R15) RexByte=(char)0x41;
497	}
498	if(REG_R8<=reg32&&reg32<=REG_R15){
499	if(REG_RAX<=reg16&&reg16<=REG_RDI) RexByte=(char)0x44;
500	if(REG_R8<=reg16&&reg16<=REG_R15) RexByte=(char)0x45;
501	}
502
503	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
504
505	//[8bit rex] 0000 1111 1011 1111 11rr rbbb
506	if(RexByte) pNativeCode->Put( RexByte );
507	pNativeCode->Put( (char)0x0F );
508	pNativeCode->Put( (char)0xBF );
509	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg32)<<3 \| REGISTER_OPERAND(reg16)) );
510	}
511	void CodeGenerator::op_movsx32_FromReg8(int reg32,int reg8){
512	//movsx reg32,reg8
513	char RexByte=-1;
514
515	if(REG_RAX<=reg32&&reg32<=REG_RDI){
516	if(REG_RAX<=reg8&&reg8<=REG_RBX) RexByte=0;
517	if(REG_RSP<=reg8&&reg8<=REG_RDI) RexByte=(char)0x40;
518	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x41;
519	}
520	if(REG_R8<=reg32&&reg32<=REG_R15){
521	if(REG_RAX<=reg8&&reg8<=REG_RDI) RexByte=(char)0x44;
522	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x45;
523	}
524
525	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
526
527	//[8bit rex] 0000 1111 1011 1110 11rr rbbb
528	if(RexByte) pNativeCode->Put( RexByte );
529	pNativeCode->Put( (char)0x0F );
530	pNativeCode->Put( (char)0xBE );
531	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg32)<<3 \| REGISTER_OPERAND(reg8)) );
532	}
533
534
535
536	/////////////////////
537	// mov16関連
538	/////////////////////
539
540	void CodeGenerator::op_movsx16_FromReg8(int reg32,int reg8){
541	//movsx reg16,reg8
542	char RexByte=-1;
543
544	if(REG_RAX<=reg32&&reg32<=REG_RDI){
545	if(REG_RAX<=reg8&&reg8<=REG_RBX) RexByte=0;
546	if(REG_RSP<=reg8&&reg8<=REG_RDI) RexByte=(char)0x40;
547	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x41;
548	}
549	if(REG_R8<=reg32&&reg32<=REG_R15){
550	if(REG_RAX<=reg8&&reg8<=REG_RDI) RexByte=(char)0x44;
551	if(REG_R8<=reg8&&reg8<=REG_R15) RexByte=(char)0x45;
552	}
553
554	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
555
556	//0110 0110 [8bit rex] 0000 1111 1011 1110 11rr rbbb
557	pNativeCode->Put( (char)0x66 );
558	if(RexByte) pNativeCode->Put( RexByte );
559	pNativeCode->Put( (char)0x0F );
560	pNativeCode->Put( (char)0xBE );
561	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg32)<<3 \| REGISTER_OPERAND(reg8)) );
562	}
563
564
565
566	//////////////////////////////////
567	// ビット拡張
568	//////////////////////////////////
569
570	void CodeGenerator::op_cqo()
571	{
572	pNativeCode->Put( (char)0x48 );
573	pNativeCode->Put( (char)0x99 );
574	}
575
576
577
578	//////////////////////////////////
579	// インクリメント・デクリメント
580	//////////////////////////////////
581
582	void CodeGenerator::op_inc(int reg){
583	//inc reg
584
585	//16ビット演算の命令プリフィックス
586	char op_prefix=0;
587
588	//オペコード
589	char opcode=(char)0xFF;
590
591	__op_format(sizeof(_int64),op_prefix,opcode,0,0,reg,0,MOD_REG);
592	}
593	void CodeGenerator::op_dec(int reg){
594	//dec reg
595
596	//16ビット演算の命令プリフィックス
597	char op_prefix=0;
598
599	//オペコード
600	char opcode=(char)0xFF;
601
602	__op_format(sizeof(_int64),op_prefix,opcode,0,0x01,reg,0,MOD_REG);
603	}
604
605
606
607	/////////////////////
608	// add関連
609	/////////////////////
610
611	const PertialSchedule *CodeGenerator::op_add_RM(int op_size,int reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
612	//add reg64,qword ptr[base_reg+offset]
613	//add reg32,dword ptr[base_reg+offset]
614	//add reg16,word ptr[base_reg+offset]
615	//add reg8,byte ptr[base_reg+offset]
616
617	//16ビット演算の命令プリフィックス
618	char op_prefix=0;
619	if(op_size==sizeof(short)) op_prefix=(char)0x66;
620
621	//オペコード
622	char opcode;
623	if(op_size==sizeof(char)) opcode=(char)0x02;
624	else opcode=(char)0x03;
625
626	return __op_format(op_size,op_prefix,opcode,0,reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
627	}
628
629	const PertialSchedule *CodeGenerator::op_add_RV(int reg,long offset, Schedule::Type scheduleType, bool isPertialSchedule ){
630	//add reg,offset
631	const PertialSchedule *pPertialSchedule = NULL;
632
633	char RexByte=-1;
634
635	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0x48;
636	if(REG_R8<=reg&&reg<=REG_R15) RexByte=0x49;
637
638	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
639
640	if(reg==REG_RAX){
641	//raxのみ特殊
642
643	// [8bit rex] 0000 0101 [32bit offset]
644	pNativeCode->Put( (char)RexByte );
645	pNativeCode->Put( (char)0x05 );
646	}
647	else{
648	//rax以外
649
650	//[8bit rex] 1000 0001 1100 0xxx [32bit offset]
651	pNativeCode->Put( (char)RexByte );
652	pNativeCode->Put( (char)0x81 );
653	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)) );
654	}
655
656	if( isPertialSchedule )
657	{
658	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
659	pPertialSchedule = pertialSchedules.back();
660	}
661	this->PutWithSchedule( offset, scheduleType );
662
663	return pPertialSchedule;
664	}
665	void CodeGenerator::op_add_RR(int reg1,int reg2){
666	//add reg1,reg2
667	char RexByte=-1;
668
669	if(REG_RAX<=reg1&&reg1<=REG_RDI){
670	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
671	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
672	}
673	if(REG_R8<=reg1&&reg1<=REG_R15){
674	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
675	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
676	}
677
678	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
679
680	//[8bit rex] 0000 0011 11rr rbbb
681	pNativeCode->Put( (char)RexByte );
682	pNativeCode->Put( (char)0x03 );
683	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
684	}
685	void CodeGenerator::op_add32_reg(int reg1,int reg2){
686	//add reg1,reg2
687	char RexByte=-1;
688
689	if(REG_RAX<=reg1&&reg1<=REG_RDI){
690	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
691	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
692	}
693	if(REG_R8<=reg1&&reg1<=REG_R15){
694	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
695	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
696	}
697
698	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
699
700	//[8bit rex] 0000 0011 11rr rbbb
701	if(RexByte) pNativeCode->Put( (char)RexByte );
702	pNativeCode->Put( (char)0x03 );
703	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
704	}
705
706
707
708	////////////////////////
709	// sub関連
710	////////////////////////
711
712	void CodeGenerator::op_sub_RV(int op_size,int reg,long i32data){
713	//sub reg,i32data
714
715	//rexプリフィックス
716	set_rex(op_size,REG_NON,REG_NON,reg);
717
718	if(reg==REG_RAX){
719	//raxのみ特殊
720	pNativeCode->Put( (char)0x2D );
721	}
722	else{
723	//オペコード
724	pNativeCode->Put( (char)0x81 );
725
726	//レジスタ
727	pNativeCode->Put( (char)(0xE8\| REGISTER_OPERAND(reg) ) );
728	}
729
730	//即値
731	pNativeCode->Put( i32data );
732	}
733	void CodeGenerator::op_sub64_reg(int reg1,int reg2){
734	//sub reg1,reg2
735	char RexByte=-1;
736
737	if(REG_RAX<=reg1&&reg1<=REG_RDI){
738	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
739	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
740	}
741	if(REG_R8<=reg1&&reg1<=REG_R15){
742	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
743	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
744	}
745
746	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
747
748	//[8bit rex] 0010 1011 11rr rbbb
749	pNativeCode->Put( (char)RexByte );
750	pNativeCode->Put( (char)0x2B );
751	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
752	}
753	void CodeGenerator::op_sub32_reg(int reg1,int reg2){
754	//sub reg1,reg2
755	char RexByte=-1;
756
757	if(REG_RAX<=reg1&&reg1<=REG_RDI){
758	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
759	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
760	}
761	if(REG_R8<=reg1&&reg1<=REG_R15){
762	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
763	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
764	}
765
766	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
767
768	//[8bit rex] 0010 1011 11rr rbbb
769	if(RexByte) pNativeCode->Put( (char)RexByte );
770	pNativeCode->Put( (char)0x2B );
771	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
772	}
773	void CodeGenerator::op_sbb_RR( int op_size, int reg1, int reg2 ){
774	//sbb reg1,reg2
775
776	//rexプリフィックス
777	set_rex(0,reg1,0,reg2);
778
779	//オペコード
780	pNativeCode->Put( (char)0x1B );
781
782	//レジスタ
783	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
784	}
785
786
787
788	////////////////////////
789	// imul関連
790	////////////////////////
791
792	void CodeGenerator::op_imul_RR(int op_size,int reg1,int reg2){
793	//imul reg1,reg2
794	char RexByte=-1;
795
796	if(op_size==sizeof(_int64)){
797	if(REG_RAX<=reg1&&reg1<=REG_RDI){
798	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
799	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
800	}
801	if(REG_R8<=reg1&&reg1<=REG_R15){
802	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
803	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
804	}
805	}
806	else{
807	if(REG_RAX<=reg1&&reg1<=REG_RDI){
808	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
809	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
810	}
811	if(REG_R8<=reg1&&reg1<=REG_R15){
812	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
813	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
814	}
815	}
816
817	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
818
819
820	//rexプリフィックス
821	if(RexByte) pNativeCode->Put( (char)RexByte );
822
823	//オペコード
824	pNativeCode->Put( (char)0x0F );
825	pNativeCode->Put( (char)0xAF );
826
827	//レジスタ
828	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
829	}
830	void CodeGenerator::op_imul_RV(int op_size,int reg,long i32data){
831	//imul reg,i32data
832	char RexByte=-1;
833
834	if(op_size==sizeof(_int64)){
835	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
836	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x4D;
837	}
838	else{
839	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
840	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x45;
841	}
842
843	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
844
845
846	//rexプリフィックス
847	if(RexByte) pNativeCode->Put( (char)RexByte );
848
849	if(-128<=i32data&&i32data<=127){
850	//オペコード
851	pNativeCode->Put( (char)0x6B );
852
853	//レジスタ
854	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(reg)) );
855
856	//値
857	pNativeCode->Put( (char)i32data );
858	}
859	else{
860	//オペコード
861	pNativeCode->Put( (char)0x69 );
862
863	//レジスタ
864	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(reg)) );
865
866	//値
867	pNativeCode->Put( i32data );
868	}
869	}
870
871
872
873	////////////////////////
874	// div、idiv関連
875	////////////////////////
876
877	void CodeGenerator::op_div64_reg(int reg){
878	//div reg
879	char RexByte=-1;
880
881	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
882	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
883
884	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
885
886	//rexプリフィックス
887	pNativeCode->Put( (char)RexByte );
888
889	//オペコード
890	pNativeCode->Put( (char)0xF7 );
891
892	//レジスタ
893	pNativeCode->Put( (char)(0xF0\| REGISTER_OPERAND(reg)) );
894	}
895	void CodeGenerator::op_idiv64_reg(int reg){
896	//idiv reg
897	char RexByte=-1;
898
899	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
900	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
901
902	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
903
904	//rexプリフィックス
905	pNativeCode->Put( (char)RexByte );
906
907	//オペコード
908	pNativeCode->Put( (char)0xF7 );
909
910	//レジスタ
911	pNativeCode->Put( (char)(0xF8\| REGISTER_OPERAND(reg)) );
912	}
913
914
915
916	////////////////////
917	// ビットシフト関連
918	////////////////////
919
920	void CodeGenerator::op_shl_reg(int op_size,int reg){
921	//shl reg,cl
922	char RexByte=-1;
923
924	if(op_size==sizeof(_int64)){
925	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
926	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
927	}
928	else if(op_size==sizeof(char)){
929	if(REG_RAX<=reg&&reg<=REG_RBX) RexByte=0;
930	if(REG_RSP<=reg&&reg<=REG_RDI) RexByte=(char)0x40;
931	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
932	}
933	else{
934	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
935	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
936	}
937
938	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
939
940
941	//16ビット演算のプリフィックス
942	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
943
944	//rexプリフィックス
945	if(RexByte) pNativeCode->Put( (char)RexByte );
946
947	//オペコード
948	if(op_size==sizeof(char)) pNativeCode->Put( (char)0xD2 );
949	else pNativeCode->Put( (char)0xD3 );
950
951	//レジスタ
952	pNativeCode->Put( (char)(0xE0\| REGISTER_OPERAND(reg)) );
953	}
954	void CodeGenerator::op_sar_reg(int op_size,int reg){
955	//sar reg,cl
956	char RexByte=-1;
957
958	if(op_size==sizeof(_int64)){
959	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
960	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
961	}
962	else if(op_size==sizeof(char)){
963	if(REG_RAX<=reg&&reg<=REG_RBX) RexByte=0;
964	if(REG_RSP<=reg&&reg<=REG_RDI) RexByte=(char)0x40;
965	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
966	}
967	else{
968	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
969	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
970	}
971
972	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
973
974
975	//16ビット演算のプリフィックス
976	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
977
978	//rexプリフィックス
979	if(RexByte) pNativeCode->Put( (char)RexByte );
980
981	//オペコード
982	if(op_size==sizeof(char)) pNativeCode->Put( (char)0xD2 );
983	else pNativeCode->Put( (char)0xD3 );
984
985	//レジスタ
986	pNativeCode->Put( (char)(0xF8\| REGISTER_OPERAND(reg)) );
987	}
988	void CodeGenerator::op_shr_reg(int op_size,int reg){
989	//shr reg,cl
990	char RexByte=-1;
991
992	if(op_size==sizeof(_int64)){
993	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
994	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
995	}
996	else if(op_size==sizeof(char)){
997	if(REG_RAX<=reg&&reg<=REG_RBX) RexByte=0;
998	if(REG_RSP<=reg&&reg<=REG_RDI) RexByte=(char)0x40;
999	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1000	}
1001	else{
1002	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
1003	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1004	}
1005
1006	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1007
1008
1009	//16ビット演算のプリフィックス
1010	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
1011
1012	//rexプリフィックス
1013	if(RexByte) pNativeCode->Put( (char)RexByte );
1014
1015	//オペコード
1016	if(op_size==sizeof(char)) pNativeCode->Put( (char)0xD2 );
1017	else pNativeCode->Put( (char)0xD3 );
1018
1019	//レジスタ
1020	pNativeCode->Put( (char)(0xE8\| REGISTER_OPERAND(reg)) );
1021	}
1022
1023
1024
1025	////////////////////
1026	// and 関連
1027	////////////////////
1028
1029	void CodeGenerator::op_and_reg(int op_size,int reg1,int reg2){
1030	//and reg1,reg2
1031	char RexByte=-1;
1032
1033	if(op_size==sizeof(_int64)){
1034	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1035	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
1036	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
1037	}
1038	if(REG_R8<=reg1&&reg1<=REG_R15){
1039	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
1040	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
1041	}
1042	}
1043	else{
1044	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1045	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
1046	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
1047	}
1048	if(REG_R8<=reg1&&reg1<=REG_R15){
1049	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
1050	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
1051	}
1052	}
1053
1054	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1055
1056
1057	//rexプリフィックス
1058	if(RexByte) pNativeCode->Put( (char)RexByte );
1059
1060	//オペコード
1061	pNativeCode->Put( (char)0x23 );
1062
1063	//レジスタ
1064	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
1065	}
1066	void CodeGenerator::op_and64_value(int reg,long offset){
1067	//and reg,offset
1068	char RexByte=-1;
1069
1070	if(REG_RAX<=reg&&reg<=REG_RDI) (char)RexByte=0x48;
1071	if(REG_R8<=reg&&reg<=REG_R15) (char)RexByte=0x49;
1072
1073	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1074
1075	if(reg==REG_RAX){
1076	//raxのみ特殊
1077
1078	// [8bit rex] 0010 0101 [32bit offset]
1079	pNativeCode->Put( (char)RexByte );
1080	pNativeCode->Put( (char)0x25 );
1081	pNativeCode->Put( offset );
1082	}
1083	else{
1084	//rax以外
1085
1086	//[8bit rex] 1000 0001 1100 0xxx [32bit offset]
1087	pNativeCode->Put( (char)RexByte );
1088	pNativeCode->Put( (char)0x81 );
1089	pNativeCode->Put( (char)(0xE0\| REGISTER_OPERAND(reg)) );
1090	pNativeCode->Put( offset );
1091	}
1092	}
1093	void CodeGenerator::op_and32_value(int reg,long offset){
1094	//and reg,offset
1095	char RexByte=-1;
1096
1097	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
1098	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1099
1100	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1101
1102	if(reg==REG_RAX){
1103	//eaxのみ特殊
1104
1105	// [8bit rex] 0010 0101 [32bit offset]
1106	pNativeCode->Put( (char)0x25 );
1107	pNativeCode->Put( offset );
1108	}
1109	else{
1110	//eax以外
1111
1112	//[8bit rex] 1000 0001 1100 0xxx [32bit offset]
1113	if(RexByte) pNativeCode->Put( (char)RexByte );
1114	pNativeCode->Put( (char)0x81 );
1115	pNativeCode->Put( (char)(0xE0\| REGISTER_OPERAND(reg)) );
1116	pNativeCode->Put( offset );
1117	}
1118	}
1119
1120
1121
1122	////////////////////////
1123	// or 関連
1124	////////////////////////
1125
1126	void CodeGenerator::op_or_reg(int op_size,int reg1,int reg2){
1127	//or reg1,reg2
1128	char RexByte=-1;
1129
1130	if(op_size==sizeof(_int64)){
1131	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1132	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
1133	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
1134	}
1135	if(REG_R8<=reg1&&reg1<=REG_R15){
1136	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
1137	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
1138	}
1139	}
1140	else{
1141	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1142	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
1143	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
1144	}
1145	if(REG_R8<=reg1&&reg1<=REG_R15){
1146	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
1147	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
1148	}
1149	}
1150
1151	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1152
1153
1154	//rexプリフィックス
1155	if(RexByte) pNativeCode->Put( (char)RexByte );
1156
1157	//オペコード
1158	pNativeCode->Put( (char)0x0B );
1159
1160	//レジスタ
1161	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
1162	}
1163
1164
1165
1166	////////////////////////
1167	// xor 関連
1168	////////////////////////
1169
1170	void CodeGenerator::op_xor_reg(int op_size,int reg1,int reg2){
1171	//xor reg1,reg2
1172	char RexByte=-1;
1173
1174	if(op_size==sizeof(_int64)){
1175	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1176	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
1177	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
1178	}
1179	if(REG_R8<=reg1&&reg1<=REG_R15){
1180	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
1181	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
1182	}
1183	}
1184	else{
1185	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1186	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
1187	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
1188	}
1189	if(REG_R8<=reg1&&reg1<=REG_R15){
1190	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
1191	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
1192	}
1193	}
1194
1195	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1196
1197
1198	//rexプリフィックス
1199	if(RexByte) pNativeCode->Put( (char)RexByte );
1200
1201	//オペコード
1202	pNativeCode->Put( (char)0x33 );
1203
1204	//レジスタ
1205	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
1206	}
1207
1208
1209
1210	///////////////////////
1211	// not 関連
1212	///////////////////////
1213
1214	void CodeGenerator::op_not_reg(int op_size,int reg){
1215	//not reg
1216	char RexByte=-1;
1217
1218	if(op_size==sizeof(_int64)){
1219	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
1220	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
1221	}
1222	else{
1223	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
1224	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1225	}
1226
1227	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1228
1229
1230	//rexプリフィックス
1231	if(RexByte) pNativeCode->Put( (char)RexByte );
1232
1233	//オペコード
1234	pNativeCode->Put( (char)0xF7 );
1235
1236	//レジスタ
1237	pNativeCode->Put( (char)(0xD0\| REGISTER_OPERAND(reg)) );
1238	}
1239	void CodeGenerator::op_neg( int reg ){
1240	//neg reg
1241
1242	//オペコード
1243	pNativeCode->Put( (char)0xF7 );
1244
1245	//レジスタ
1246	pNativeCode->Put( (char)(0xD8\| REGISTER_OPERAND(reg)) );
1247	}
1248
1249
1250
1251	////////////////////
1252	// test関連
1253	////////////////////
1254
1255	void CodeGenerator::op_test(int reg1,int reg2){
1256	//test reg1,reg2
1257	char RexByte=-1;
1258
1259	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1260	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
1261	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
1262	}
1263	if(REG_R8<=reg1&&reg1<=REG_R15){
1264	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
1265	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
1266	}
1267
1268	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1269
1270	//[8bit rex] 1000 0101 11rr rbbb
1271	pNativeCode->Put( (char)RexByte );
1272	pNativeCode->Put( (char)0x85 );
1273	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
1274	}
1275
1276
1277
1278	/////////////////////
1279	// cmp 関連
1280	/////////////////////
1281
1282	void CodeGenerator::op_cmp_reg(int op_size,int reg1,int reg2){
1283	//cmp reg1,reg2
1284	char RexByte=-1;
1285
1286	if(op_size==sizeof(_int64)){
1287	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1288	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x48;
1289	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x49;
1290	}
1291	if(REG_R8<=reg1&&reg1<=REG_R15){
1292	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x4C;
1293	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x4D;
1294	}
1295	}
1296	else{
1297	if(REG_RAX<=reg1&&reg1<=REG_RDI){
1298	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=0;
1299	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x41;
1300	}
1301	if(REG_R8<=reg1&&reg1<=REG_R15){
1302	if(REG_RAX<=reg2&&reg2<=REG_RDI) RexByte=(char)0x44;
1303	if(REG_R8<=reg2&&reg2<=REG_R15) RexByte=(char)0x45;
1304	}
1305	}
1306
1307	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1308
1309
1310	//rexプリフィックス
1311	if(RexByte) pNativeCode->Put( (char)RexByte );
1312
1313	//オペコード
1314	pNativeCode->Put( (char)0x3B );
1315
1316	//レジスタ
1317	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg1)<<3 \| REGISTER_OPERAND(reg2)) );
1318	}
1319	void CodeGenerator::op_cmp_value(int op_size,int reg,char byte_data){
1320	//cmp reg,byte_data
1321
1322	if(op_size==sizeof(char)&&reg==REG_RAX){
1323	//alレジスタの場合は特殊
1324	pNativeCode->Put( (char)0x3C );
1325
1326	//8ビット値
1327	pNativeCode->Put( byte_data );
1328
1329	return;
1330	}
1331
1332	//16ビット演算のプリフィックス
1333	if(op_size==sizeof(short)) pNativeCode->Put( (char)0x66 );
1334
1335	//rexプリフィックス
1336	set_rex(op_size,REG_NON,REG_NON,reg);
1337
1338	//オペコード
1339	if(op_size==sizeof(char)) pNativeCode->Put( (char)0x80 );
1340	else pNativeCode->Put( (char)0x83 );
1341
1342	//レジスタ
1343	pNativeCode->Put( (char)(0xF8\| REGISTER_OPERAND(reg)) );
1344
1345	//8ビット値
1346	pNativeCode->Put( byte_data );
1347	}
1348	void CodeGenerator::op_setne( int reg ){
1349	//オペコード
1350	pNativeCode->Put( (char)0x0F );
1351	pNativeCode->Put( (char)0x95 );
1352
1353	//レジスタ
1354	pNativeCode->Put( (char)( 0xC0 \| REGISTER_OPERAND(reg) ) );
1355	}
1356
1357
1358	////////////////////
1359	// SSE2関連
1360	////////////////////
1361
1362	const PertialSchedule *CodeGenerator::op_movlpd_MR(int xmm_reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
1363	//movlpd qword ptr[base_reg+offset],xmm_reg
1364	return __op_format(0,(char)0x66,(char)0x0F,(char)0x13,xmm_reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
1365	}
1366	const PertialSchedule *CodeGenerator::op_movlpd_RM(int xmm_reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
1367	//movlpd xmm_reg,qword ptr[base_reg+offset]
1368	return __op_format(0,(char)0x66,(char)0x0F,(char)0x12,xmm_reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
1369	}
1370	void CodeGenerator::op_movsd_RR(int xmm_reg1,int xmm_reg2){
1371	if(xmm_reg1==xmm_reg2) return;
1372
1373	//movsd xmm_reg1,xmm_reg2
1374	__op_format(0,(char)0xF2,(char)0x0F,(char)0x10,xmm_reg1,xmm_reg2,0,MOD_REG);
1375	}
1376	const PertialSchedule *CodeGenerator::op_movsd_MR(int xmm_reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
1377	//movsd qword ptr[reg+offset],xmm_reg
1378	//movsd qword ptr[reg],xmm_reg
1379	return __op_format(0,(char)0xF2,(char)0x0F,(char)0x11,xmm_reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
1380	}
1381	void CodeGenerator::op_movss_RR(int xmm_reg1,int xmm_reg2){
1382	if(xmm_reg1==xmm_reg2) return;
1383
1384	//movss xmm_reg1,xmm_reg2
1385	__op_format(0,(char)0xF3,(char)0x0F,(char)0x10,xmm_reg1,xmm_reg2,0,MOD_REG);
1386	}
1387	const PertialSchedule *CodeGenerator::op_movss_RM(int xmm_reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
1388	//movss xmm_reg,dword ptr[base_reg+offset]
1389	return __op_format(0,(char)0xF3,(char)0x0F,(char)0x10,xmm_reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
1390	}
1391	const PertialSchedule *CodeGenerator::op_movss_MR(int xmm_reg,int base_reg,int offset,char mod, Schedule::Type scheduleType, bool isPertialSchedule ){
1392	//movss dword ptr[reg+offset],xmm_reg
1393	//movss dword ptr[reg],xmm_reg
1394	return __op_format(0,(char)0xF3,(char)0x0F,(char)0x11,xmm_reg,base_reg,offset,mod, scheduleType, isPertialSchedule );
1395	}
1396
1397	void CodeGenerator::op_movd_RX(int reg,int xmm_reg){
1398	__op_format(sizeof(_int64),(char)0x66,(char)0x0F,(char)0x7E,xmm_reg,reg,0,MOD_REG);
1399	}
1400
1401	void CodeGenerator::op_cvtsd2ss(int xmm_reg1,int xmm_reg2){
1402	//cvtsd2ss xmm_reg1,xmm_reg2
1403
1404	//オペコード
1405	pNativeCode->Put( (char)0xF2 );
1406
1407	//rexプリフィックス
1408	set_rex(sizeof(long),xmm_reg1,0,xmm_reg2);
1409
1410	//オペコード
1411	pNativeCode->Put( (char)0x0F );
1412	pNativeCode->Put( (char)0x5A );
1413
1414	//レジスタ
1415	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg1)<<3 \| REGISTER_OPERAND(xmm_reg2)) );
1416	}
1417	void CodeGenerator::op_cvtss2sd(int xmm_reg1,int xmm_reg2){
1418	//cvtss2sd xmm_reg1,xmm_reg2
1419
1420	//オペコード
1421	pNativeCode->Put( (char)0xF3 );
1422
1423	//rexプリフィックス
1424	set_rex(0,xmm_reg1,0,xmm_reg2);
1425
1426	//オペコード
1427	pNativeCode->Put( (char)0x0F );
1428	pNativeCode->Put( (char)0x5A );
1429
1430	//レジスタ
1431	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg1)<<3 \| REGISTER_OPERAND(xmm_reg2)) );
1432	}
1433	void CodeGenerator::op_cvttsd2si_xmm(int op_size,int reg,int xmm_reg){
1434	//cvttsd2si reg,xmm_reg
1435
1436	//オペコード
1437	pNativeCode->Put( (char)0xF2 );
1438
1439	//rexプリフィックス
1440	set_rex(op_size,reg,0,xmm_reg);
1441
1442	//オペコード
1443	pNativeCode->Put( (char)0x0F );
1444	pNativeCode->Put( (char)0x2C );
1445
1446	//レジスタ
1447	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(xmm_reg)) );
1448	}
1449	void CodeGenerator::op_cvttss2si_xmm(int op_size,int reg,int xmm_reg){
1450	//cvttss2si reg,xmm_reg
1451
1452	//オペコード
1453	pNativeCode->Put( (char)0xF3 );
1454
1455	//rexプリフィックス
1456	set_rex(op_size,reg,0,xmm_reg);
1457
1458	//オペコード
1459	pNativeCode->Put( (char)0x0F );
1460	pNativeCode->Put( (char)0x2C );
1461
1462	//レジスタ
1463	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(xmm_reg)) );
1464	}
1465	void CodeGenerator::op_cvtsi2sd_reg(int op_size,int xmm_reg,int reg){
1466	//cvtsi2sd xmm_reg,reg
1467	char RexByte=-1;
1468
1469	if(op_size==sizeof(_int64)){
1470	if(REG_XMM0<=xmm_reg&&xmm_reg<=REG_XMM7){
1471	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
1472	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
1473	}
1474	if(REG_XMM8<=xmm_reg&&xmm_reg<=REG_XMM15){
1475	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x4C;
1476	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x4D;
1477	}
1478	}
1479	else{
1480	if(REG_XMM0<=xmm_reg&&xmm_reg<=REG_XMM7){
1481	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
1482	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1483	}
1484	if(REG_XMM8<=xmm_reg&&xmm_reg<=REG_XMM15){
1485	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x44;
1486	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x45;
1487	}
1488	}
1489
1490	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1491
1492
1493	//オペコード
1494	pNativeCode->Put( (char)0xF2 );
1495
1496	//rexプリフィックス
1497	if(RexByte) pNativeCode->Put( (char)RexByte );
1498
1499	//オペコード
1500	pNativeCode->Put( (char)0x0F );
1501	pNativeCode->Put( (char)0x2A );
1502
1503	//レジスタ
1504	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg)<<3 \| REGISTER_OPERAND(reg)) );
1505	}
1506	void CodeGenerator::op_cvtsi2ss_reg(int op_size,int xmm_reg,int reg){
1507	//cvtsi2ss xmm_reg,reg
1508	char RexByte=-1;
1509
1510	if(op_size==sizeof(_int64)){
1511	if(REG_XMM0<=xmm_reg&&xmm_reg<=REG_XMM7){
1512	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x48;
1513	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x49;
1514	}
1515	if(REG_XMM8<=xmm_reg&&xmm_reg<=REG_XMM15){
1516	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x4C;
1517	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x4D;
1518	}
1519	}
1520	else{
1521	if(REG_XMM0<=xmm_reg&&xmm_reg<=REG_XMM7){
1522	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=0;
1523	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x41;
1524	}
1525	if(REG_XMM8<=xmm_reg&&xmm_reg<=REG_XMM15){
1526	if(REG_RAX<=reg&&reg<=REG_RDI) RexByte=(char)0x44;
1527	if(REG_R8<=reg&&reg<=REG_R15) RexByte=(char)0x45;
1528	}
1529	}
1530
1531	if(RexByte==-1) compiler.errorMessenger.Output(300,NULL,cp);
1532
1533
1534	//オペコード
1535	pNativeCode->Put( (char)0xF3 );
1536
1537	//rexプリフィックス
1538	if(RexByte) pNativeCode->Put( (char)RexByte );
1539
1540	//オペコード
1541	pNativeCode->Put( (char)0x0F );
1542	pNativeCode->Put( (char)0x2A );
1543
1544	//レジスタ
1545	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg)<<3 \| REGISTER_OPERAND(reg)) );
1546	}
1547	void CodeGenerator::op_comisd(int xmm_reg1,int xmm_reg2){
1548	//comisd xmm_reg1,xmm_reg2
1549
1550	//オペコード
1551	pNativeCode->Put( (char)0x66 );
1552	pNativeCode->Put( (char)0x0F );
1553	pNativeCode->Put( (char)0x2F );
1554
1555	//レジスタ
1556	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg1)<<3 \| REGISTER_OPERAND(xmm_reg2)) );
1557	}
1558	void CodeGenerator::op_comiss(int xmm_reg1,int xmm_reg2){
1559	//comiss xmm_reg1,xmm_reg2
1560
1561	//オペコード
1562	pNativeCode->Put( (char)0x0F );
1563	pNativeCode->Put( (char)0x2F );
1564
1565	//レジスタ
1566	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(xmm_reg1)<<3 \| REGISTER_OPERAND(xmm_reg2)) );
1567	}
1568
1569
1570
1571	/////////////////////
1572	// ストリング関係
1573	/////////////////////
1574
1575	void CodeGenerator::op_rep_movs(int op_size){
1576	if(op_size==sizeof(BYTE)){
1577	//rep movs byte ptr[edi],byte ptr[esi]
1578	pNativeCode->Put( (char)0xF3 );
1579	pNativeCode->Put( (char)0xA4 );
1580	}
1581	else if(op_size==sizeof(short)){
1582	//rep movs word ptr[edi],word ptr[esi]
1583	pNativeCode->Put( (char)0xF3 );
1584	pNativeCode->Put( (char)0x66 );
1585	pNativeCode->Put( (char)0xA5 );
1586	}
1587	else if(op_size==sizeof(long)){
1588	//rep movs dword ptr[edi],dword ptr[esi]
1589	pNativeCode->Put( (char)0xF3 );
1590	pNativeCode->Put( (char)0xA5 );
1591	}
1592	}
1593
1594
1595
1596
1597	void CodeGenerator::op_add_rsp(long num){
1598	//スタックポインタの加算（pop方向）
1599
1600	//add rsp,num
1601	if(0xFFFFFF80&num){
1602	pNativeCode->Put( (char)0x48 );
1603	pNativeCode->Put( (char)0x81 );
1604	pNativeCode->Put( (char)0xC4 );
1605	pNativeCode->Put( num );
1606	}
1607	else{
1608	//「-128 < num < 127」の場合
1609	pNativeCode->Put( (char)0x48 );
1610	pNativeCode->Put( (char)0x83 );
1611	pNativeCode->Put( (char)0xC4 );
1612	pNativeCode->Put( (char)num );
1613	}
1614	}
1615	const PertialSchedule *CodeGenerator::op_sub_rsp( long num, bool isPertialSchedule )
1616	{
1617	//スタックポインタの減算（push方向）
1618	const PertialSchedule *pPertialSchedule = NULL;
1619
1620	//sub rsp,num
1621	if( (0xFFFFFF80&num) != 0 \|\| isPertialSchedule ){
1622	pNativeCode->Put( (char)0x48 );
1623	pNativeCode->Put( (char)0x81 );
1624	pNativeCode->Put( (char)0xEC );
1625
1626	if( isPertialSchedule )
1627	{
1628	pertialSchedules.push_back( new PertialSchedule( pNativeCode->GetSize(), sizeof(long) ) );
1629	pPertialSchedule = pertialSchedules.back();
1630	}
1631	pNativeCode->Put( num );
1632	}
1633	else{
1634	//「-128 < num < 127」の場合
1635	pNativeCode->Put( (char)0x48 );
1636	pNativeCode->Put( (char)0x83 );
1637	pNativeCode->Put( (char)0xEC );
1638	pNativeCode->Put( (char)num );
1639	}
1640
1641	return pPertialSchedule;
1642	}
1643
1644
1645
1646	//////////////////////////////
1647	// 浮動小数点関連
1648	//////////////////////////////
1649
1650	void CodeGenerator::op_fld_ptr_esp(int type){
1651	//スタックポインタが示すバッファのデータを浮動小数点レジスタへロード
1652
1653	if(type==DEF_DOUBLE){
1654	//fld qword ptr[esp]
1655	pNativeCode->Put( (char)0xDD );
1656	pNativeCode->Put( (char)0x04 );
1657	pNativeCode->Put( (char)0x24 );
1658	}
1659	else if(type==DEF_SINGLE){
1660	//fld dword ptr[esp]
1661	pNativeCode->Put( (char)0xD9 );
1662	pNativeCode->Put( (char)0x04 );
1663	pNativeCode->Put( (char)0x24 );
1664	}
1665	else if(type==DEF_INT64){
1666	//fild qword ptr[esp]
1667	pNativeCode->Put( (char)0xDF );
1668	pNativeCode->Put( (char)0x2C );
1669	pNativeCode->Put( (char)0x24 );
1670	}
1671	else if(type==DEF_LONG){
1672	//fild dword ptr[esp]
1673	pNativeCode->Put( (char)0xDB );
1674	pNativeCode->Put( (char)0x04 );
1675	pNativeCode->Put( (char)0x24 );
1676	}
1677	}
1678
1679
1680
1681	//////////////////////////////
1682	// レジスタ関連
1683	//////////////////////////////
1684
1685	void CodeGenerator::op_zero_reg(int reg){
1686	//レジスタに0をセット
1687
1688	if(REG_RAX<=reg&&reg<=REG_RDI){
1689	/* rax～rdi
1690	0100 1000 0011 0011 11 xxx xxx */
1691	pNativeCode->Put( (char)0x48 );
1692	pNativeCode->Put( (char)0x33 );
1693	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(reg)) );
1694	}
1695	if(REG_R8<=reg&&reg<=REG_R15){
1696	/* r8～r15
1697	0100 1101 0011 0011 11 xxx xxx */
1698	pNativeCode->Put( (char)0x4D );
1699	pNativeCode->Put( (char)0x33 );
1700	pNativeCode->Put( (char)(0xC0\| REGISTER_OPERAND(reg)<<3 \| REGISTER_OPERAND(reg)) );
1701	}
1702	}
1703
1704
1705
1706	/////////////////////////////
1707	// 関数呼び出し
1708	/////////////////////////////
1709
1710	void CodeGenerator::op_call( const UserProc *pUserProc ){
1711	pNativeCode->Put( (char)0xE8 );
1712	pNativeCode->PutUserProcSchedule( pUserProc, true );
1713	}
1714	void CodeGenerator::op_call( const DllProc *pDllProc ){
1715	pNativeCode->Put( (char)0xFF );
1716	pNativeCode->Put( (char)0x15 );
1717	pNativeCode->PutDllProcSchedule( pDllProc );
1718	}
1719	void CodeGenerator::op_ret(){
1720	pNativeCode->Put( (char)0xC3 );
1721	}
1722	void CodeGenerator::op_addressof( int reg, const UserProc *pUserProc )
1723	{
1724	//mov reg,userProcAddress
1725
1726	//オペコード、レジスタ
1727	pNativeCode->Put( (char)(0xB8\|REGISTER_OPERAND(reg)) );
1728
1729	//DISP32
1730	pNativeCode->PutUserProcSchedule( pUserProc, false );
1731	}
1732	void CodeGenerator::op_mov_RV_com_vtbl( int reg, const CClass *pClass )
1733	{
1734	// mov reg,com_vtblAddress
1735
1736	//オペコード、レジスタ
1737	pNativeCode->Put( (char)(0xB8\|REGISTER_OPERAND(reg)) );
1738
1739	//DISP32
1740	pNativeCode->PutComVtblSchedule( pClass );
1741	}
1742	void CodeGenerator::op_mov_RV_vtbl( int reg, const CClass *pClass )
1743	{
1744	// mov reg,vtblAddress
1745
1746	//オペコード、レジスタ
1747	pNativeCode->Put( (char)(0xB8\|REGISTER_OPERAND(reg)) );
1748
1749	//DISP32
1750	pNativeCode->PutVtblSchedule( pClass );
1751	}

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