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source: buchla-emu/cpu/m68kdasm.c@ 93280c2

Last change on this file since 93280c2 was 93280c2, checked in by Thomas Lopatic <thomas@…>, 7 years ago
Added Musashi CPU emulator.
Property mode set to `100755`
File size: 95.0 KB

Line
1	/* ======================================================================== */
2	/* ========================= LICENSING & COPYRIGHT ======================== */
3	/* ======================================================================== */
4	/*
5	* MUSASHI
6	* Version 3.4
7	*
8	* A portable Motorola M680x0 processor emulation engine.
9	* Copyright 1998-2001 Karl Stenerud. All rights reserved.
10	*
11	* Permission is hereby granted, free of charge, to any person obtaining a copy
12	* of this software and associated documentation files (the "Software"), to deal
13	* in the Software without restriction, including without limitation the rights
14	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
15	* copies of the Software, and to permit persons to whom the Software is
16	* furnished to do so, subject to the following conditions:
17	*
18	* The above copyright notice and this permission notice shall be included in
19	* all copies or substantial portions of the Software.
20
21	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
22	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
23	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
24	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
25	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
26	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
27	* THE SOFTWARE.
28	*/
29
30
31
32	/* ======================================================================== */
33	/* ================================ INCLUDES ============================== */
34	/* ======================================================================== */
35
36	#include <stdlib.h>
37	#include <stdio.h>
38	#include <string.h>
39	#include "m68k.h"
40
41	#ifndef DECL_SPEC
42	#define DECL_SPEC
43	#endif
44
45	/* ======================================================================== */
46	/* ============================ GENERAL DEFINES =========================== */
47	/* ======================================================================== */
48
49	/* unsigned int and int must be at least 32 bits wide */
50	#undef uint
51	#define uint unsigned int
52
53	/* Bit Isolation Functions */
54	#define BIT_0(A) ((A) & 0x00000001)
55	#define BIT_1(A) ((A) & 0x00000002)
56	#define BIT_2(A) ((A) & 0x00000004)
57	#define BIT_3(A) ((A) & 0x00000008)
58	#define BIT_4(A) ((A) & 0x00000010)
59	#define BIT_5(A) ((A) & 0x00000020)
60	#define BIT_6(A) ((A) & 0x00000040)
61	#define BIT_7(A) ((A) & 0x00000080)
62	#define BIT_8(A) ((A) & 0x00000100)
63	#define BIT_9(A) ((A) & 0x00000200)
64	#define BIT_A(A) ((A) & 0x00000400)
65	#define BIT_B(A) ((A) & 0x00000800)
66	#define BIT_C(A) ((A) & 0x00001000)
67	#define BIT_D(A) ((A) & 0x00002000)
68	#define BIT_E(A) ((A) & 0x00004000)
69	#define BIT_F(A) ((A) & 0x00008000)
70	#define BIT_10(A) ((A) & 0x00010000)
71	#define BIT_11(A) ((A) & 0x00020000)
72	#define BIT_12(A) ((A) & 0x00040000)
73	#define BIT_13(A) ((A) & 0x00080000)
74	#define BIT_14(A) ((A) & 0x00100000)
75	#define BIT_15(A) ((A) & 0x00200000)
76	#define BIT_16(A) ((A) & 0x00400000)
77	#define BIT_17(A) ((A) & 0x00800000)
78	#define BIT_18(A) ((A) & 0x01000000)
79	#define BIT_19(A) ((A) & 0x02000000)
80	#define BIT_1A(A) ((A) & 0x04000000)
81	#define BIT_1B(A) ((A) & 0x08000000)
82	#define BIT_1C(A) ((A) & 0x10000000)
83	#define BIT_1D(A) ((A) & 0x20000000)
84	#define BIT_1E(A) ((A) & 0x40000000)
85	#define BIT_1F(A) ((A) & 0x80000000)
86
87	/* These are the CPU types understood by this disassembler */
88	#define TYPE_68000 1
89	#define TYPE_68010 2
90	#define TYPE_68020 4
91	#define TYPE_68030 8
92	#define TYPE_68040 16
93
94	#define M68000_ONLY TYPE_68000
95
96	#define M68010_ONLY TYPE_68010
97	#define M68010_LESS (TYPE_68000 \| TYPE_68010)
98	#define M68010_PLUS (TYPE_68010 \| TYPE_68020 \| TYPE_68030 \| TYPE_68040)
99
100	#define M68020_ONLY TYPE_68020
101	#define M68020_LESS (TYPE_68010 \| TYPE_68020)
102	#define M68020_PLUS (TYPE_68020 \| TYPE_68030 \| TYPE_68040)
103
104	#define M68030_ONLY TYPE_68030
105	#define M68030_LESS (TYPE_68010 \| TYPE_68020 \| TYPE_68030)
106	#define M68030_PLUS (TYPE_68030 \| TYPE_68040)
107
108	#define M68040_PLUS TYPE_68040
109
110
111	/* Extension word formats */
112	#define EXT_8BIT_DISPLACEMENT(A) ((A)&0xff)
113	#define EXT_FULL(A) BIT_8(A)
114	#define EXT_EFFECTIVE_ZERO(A) (((A)&0xe4) == 0xc4 \|\| ((A)&0xe2) == 0xc0)
115	#define EXT_BASE_REGISTER_PRESENT(A) (!BIT_7(A))
116	#define EXT_INDEX_REGISTER_PRESENT(A) (!BIT_6(A))
117	#define EXT_INDEX_REGISTER(A) (((A)>>12)&7)
118	#define EXT_INDEX_PRE_POST(A) (EXT_INDEX_PRESENT(A) && (A)&3)
119	#define EXT_INDEX_PRE(A) (EXT_INDEX_PRESENT(A) && ((A)&7) < 4 && ((A)&7) != 0)
120	#define EXT_INDEX_POST(A) (EXT_INDEX_PRESENT(A) && ((A)&7) > 4)
121	#define EXT_INDEX_SCALE(A) (((A)>>9)&3)
122	#define EXT_INDEX_LONG(A) BIT_B(A)
123	#define EXT_INDEX_AR(A) BIT_F(A)
124	#define EXT_BASE_DISPLACEMENT_PRESENT(A) (((A)&0x30) > 0x10)
125	#define EXT_BASE_DISPLACEMENT_WORD(A) (((A)&0x30) == 0x20)
126	#define EXT_BASE_DISPLACEMENT_LONG(A) (((A)&0x30) == 0x30)
127	#define EXT_OUTER_DISPLACEMENT_PRESENT(A) (((A)&3) > 1 && ((A)&0x47) < 0x44)
128	#define EXT_OUTER_DISPLACEMENT_WORD(A) (((A)&3) == 2 && ((A)&0x47) < 0x44)
129	#define EXT_OUTER_DISPLACEMENT_LONG(A) (((A)&3) == 3 && ((A)&0x47) < 0x44)
130
131
132
133	/* ======================================================================== */
134	/* =============================== PROTOTYPES ============================= */
135	/* ======================================================================== */
136
137	/* Read data at the PC and increment PC */
138	uint read_imm_8(void);
139	uint read_imm_16(void);
140	uint read_imm_32(void);
141
142	/* Read data at the PC but don't imcrement the PC */
143	uint peek_imm_8(void);
144	uint peek_imm_16(void);
145	uint peek_imm_32(void);
146
147	/* make signed integers 100% portably */
148	static int make_int_8(int value);
149	static int make_int_16(int value);
150
151	/* make a string of a hex value */
152	static char* make_signed_hex_str_8(uint val);
153	static char* make_signed_hex_str_16(uint val);
154	static char* make_signed_hex_str_32(uint val);
155
156	/* make string of ea mode */
157	static char* get_ea_mode_str(uint instruction, uint size);
158
159	char* get_ea_mode_str_8(uint instruction);
160	char* get_ea_mode_str_16(uint instruction);
161	char* get_ea_mode_str_32(uint instruction);
162
163	/* make string of immediate value */
164	static char* get_imm_str_s(uint size);
165	static char* get_imm_str_u(uint size);
166
167	char* get_imm_str_s8(void);
168	char* get_imm_str_s16(void);
169	char* get_imm_str_s32(void);
170
171	/* Stuff to build the opcode handler jump table */
172	static void build_opcode_table(void);
173	static int valid_ea(uint opcode, uint mask);
174	static int DECL_SPEC compare_nof_true_bits(const void aptr, const void bptr);
175
176	/* used to build opcode handler jump table */
177	typedef struct
178	{
179	void (opcode_handler)(void); / handler function */
180	uint mask; /* mask on opcode */
181	uint match; /* what to match after masking */
182	uint ea_mask; /* what ea modes are allowed */
183	} opcode_struct;
184
185
186
187	/* ======================================================================== */
188	/* ================================= DATA ================================= */
189	/* ======================================================================== */
190
191	/* Opcode handler jump table */
192	static void (*g_instruction_table[0x10000])(void);
193	/* Flag if disassembler initialized */
194	static int g_initialized = 0;
195
196	/* Address mask to simulate address lines */
197	static unsigned int g_address_mask = 0xffffffff;
198
199	static char g_dasm_str[100]; /* string to hold disassembly */
200	static char g_helper_str[100]; /* string to hold helpful info */
201	static uint g_cpu_pc; /* program counter */
202	static uint g_cpu_ir; /* instruction register */
203	static uint g_cpu_type;
204
205	/* used by ops like asr, ror, addq, etc */
206	static uint g_3bit_qdata_table[8] = {8, 1, 2, 3, 4, 5, 6, 7};
207
208	static uint g_5bit_data_table[32] =
209	{
210	32, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15,
211	16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31
212	};
213
214	static char* g_cc[16] =
215	{"t", "f", "hi", "ls", "cc", "cs", "ne", "eq", "vc", "vs", "pl", "mi", "ge", "lt", "gt", "le"};
216
217	static char* g_cpcc[64] =
218	{/* 000 001 010 011 100 101 110 111 */
219	"f", "eq", "ogt", "oge", "olt", "ole", "ogl", "or", /* 000 */
220	"un", "ueq", "ugt", "uge", "ult", "ule", "ne", "t", /* 001 */
221	"sf", "seq", "gt", "ge", "lt", "le", "gl" "gle", /* 010 */
222	"ngle", "ngl", "nle", "nlt", "nge", "ngt", "sne", "st", /* 011 */
223	"?", "?", "?", "?", "?", "?", "?", "?", /* 100 */
224	"?", "?", "?", "?", "?", "?", "?", "?", /* 101 */
225	"?", "?", "?", "?", "?", "?", "?", "?", /* 110 */
226	"?", "?", "?", "?", "?", "?", "?", "?" /* 111 */
227	};
228
229
230	/* ======================================================================== */
231	/* =========================== UTILITY FUNCTIONS ========================== */
232	/* ======================================================================== */
233
234	#define LIMIT_CPU_TYPES(ALLOWED_CPU_TYPES) \
235	if(!(g_cpu_type & ALLOWED_CPU_TYPES)) \
236	{ \
237	d68000_illegal(); \
238	return; \
239	}
240
241	#define read_imm_8() (m68k_read_disassembler_16(((g_cpu_pc+=2)-2)&g_address_mask)&0xff)
242	#define read_imm_16() m68k_read_disassembler_16(((g_cpu_pc+=2)-2)&g_address_mask)
243	#define read_imm_32() m68k_read_disassembler_32(((g_cpu_pc+=4)-4)&g_address_mask)
244
245	#define peek_imm_8() (m68k_read_disassembler_16(g_cpu_pc & g_address_mask)&0xff)
246	#define peek_imm_16() m68k_read_disassembler_16(g_cpu_pc & g_address_mask)
247	#define peek_imm_32() m68k_read_disassembler_32(g_cpu_pc & g_address_mask)
248
249	/* Fake a split interface */
250	#define get_ea_mode_str_8(instruction) get_ea_mode_str(instruction, 0)
251	#define get_ea_mode_str_16(instruction) get_ea_mode_str(instruction, 1)
252	#define get_ea_mode_str_32(instruction) get_ea_mode_str(instruction, 2)
253
254	#define get_imm_str_s8() get_imm_str_s(0)
255	#define get_imm_str_s16() get_imm_str_s(1)
256	#define get_imm_str_s32() get_imm_str_s(2)
257
258	#define get_imm_str_u8() get_imm_str_u(0)
259	#define get_imm_str_u16() get_imm_str_u(1)
260	#define get_imm_str_u32() get_imm_str_u(2)
261
262
263	/* 100% portable signed int generators */
264	static int make_int_8(int value)
265	{
266	return (value & 0x80) ? value \| ~0xff : value & 0xff;
267	}
268
269	static int make_int_16(int value)
270	{
271	return (value & 0x8000) ? value \| ~0xffff : value & 0xffff;
272	}
273
274
275	/* Get string representation of hex values */
276	static char* make_signed_hex_str_8(uint val)
277	{
278	static char str[20];
279
280	val &= 0xff;
281
282	if(val == 0x80)
283	sprintf(str, "-$80");
284	else if(val & 0x80)
285	sprintf(str, "-$%x", (0-val) & 0x7f);
286	else
287	sprintf(str, "$%x", val & 0x7f);
288
289	return str;
290	}
291
292	static char* make_signed_hex_str_16(uint val)
293	{
294	static char str[20];
295
296	val &= 0xffff;
297
298	if(val == 0x8000)
299	sprintf(str, "-$8000");
300	else if(val & 0x8000)
301	sprintf(str, "-$%x", (0-val) & 0x7fff);
302	else
303	sprintf(str, "$%x", val & 0x7fff);
304
305	return str;
306	}
307
308	static char* make_signed_hex_str_32(uint val)
309	{
310	static char str[20];
311
312	val &= 0xffffffff;
313
314	if(val == 0x80000000)
315	sprintf(str, "-$80000000");
316	else if(val & 0x80000000)
317	sprintf(str, "-$%x", (0-val) & 0x7fffffff);
318	else
319	sprintf(str, "$%x", val & 0x7fffffff);
320
321	return str;
322	}
323
324
325	/* make string of immediate value */
326	static char* get_imm_str_s(uint size)
327	{
328	static char str[15];
329	if(size == 0)
330	sprintf(str, "#%s", make_signed_hex_str_8(read_imm_8()));
331	else if(size == 1)
332	sprintf(str, "#%s", make_signed_hex_str_16(read_imm_16()));
333	else
334	sprintf(str, "#%s", make_signed_hex_str_32(read_imm_32()));
335	return str;
336	}
337
338	static char* get_imm_str_u(uint size)
339	{
340	static char str[15];
341	if(size == 0)
342	sprintf(str, "#$%x", read_imm_8() & 0xff);
343	else if(size == 1)
344	sprintf(str, "#$%x", read_imm_16() & 0xffff);
345	else
346	sprintf(str, "#$%x", read_imm_32() & 0xffffffff);
347	return str;
348	}
349
350	/* Make string of effective address mode */
351	static char* get_ea_mode_str(uint instruction, uint size)
352	{
353	static char b1[64];
354	static char b2[64];
355	static char* mode = b2;
356	uint extension;
357	uint base;
358	uint outer;
359	char base_reg[4];
360	char index_reg[8];
361	uint preindex;
362	uint postindex;
363	uint comma = 0;
364	uint temp_value;
365
366	/* Switch buffers so we don't clobber on a double-call to this function */
367	mode = mode == b1 ? b2 : b1;
368
369	switch(instruction & 0x3f)
370	{
371	case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07:
372	/* data register direct */
373	sprintf(mode, "D%d", instruction&7);
374	break;
375	case 0x08: case 0x09: case 0x0a: case 0x0b: case 0x0c: case 0x0d: case 0x0e: case 0x0f:
376	/* address register direct */
377	sprintf(mode, "A%d", instruction&7);
378	break;
379	case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17:
380	/* address register indirect */
381	sprintf(mode, "(A%d)", instruction&7);
382	break;
383	case 0x18: case 0x19: case 0x1a: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f:
384	/* address register indirect with postincrement */
385	sprintf(mode, "(A%d)+", instruction&7);
386	break;
387	case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: case 0x25: case 0x26: case 0x27:
388	/* address register indirect with predecrement */
389	sprintf(mode, "-(A%d)", instruction&7);
390	break;
391	case 0x28: case 0x29: case 0x2a: case 0x2b: case 0x2c: case 0x2d: case 0x2e: case 0x2f:
392	/* address register indirect with displacement*/
393	sprintf(mode, "(%s,A%d)", make_signed_hex_str_16(read_imm_16()), instruction&7);
394	break;
395	case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: case 0x35: case 0x36: case 0x37:
396	/* address register indirect with index */
397	extension = read_imm_16();
398
399	if(EXT_FULL(extension))
400	{
401	if(EXT_EFFECTIVE_ZERO(extension))
402	{
403	strcpy(mode, "0");
404	break;
405	}
406	base = EXT_BASE_DISPLACEMENT_PRESENT(extension) ? (EXT_BASE_DISPLACEMENT_LONG(extension) ? read_imm_32() : read_imm_16()) : 0;
407	outer = EXT_OUTER_DISPLACEMENT_PRESENT(extension) ? (EXT_OUTER_DISPLACEMENT_LONG(extension) ? read_imm_32() : read_imm_16()) : 0;
408	if(EXT_BASE_REGISTER_PRESENT(extension))
409	sprintf(base_reg, "A%d", instruction&7);
410	else
411	*base_reg = 0;
412	if(EXT_INDEX_REGISTER_PRESENT(extension))
413	{
414	sprintf(index_reg, "%c%d.%c", EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
415	if(EXT_INDEX_SCALE(extension))
416	sprintf(index_reg+strlen(index_reg), "*%d", 1 << EXT_INDEX_SCALE(extension));
417	}
418	else
419	*index_reg = 0;
420	preindex = (extension&7) > 0 && (extension&7) < 4;
421	postindex = (extension&7) > 4;
422
423	strcpy(mode, "(");
424	if(preindex \|\| postindex)
425	strcat(mode, "[");
426	if(base)
427	{
428	strcat(mode, make_signed_hex_str_16(base));
429	comma = 1;
430	}
431	if(*base_reg)
432	{
433	if(comma)
434	strcat(mode, ",");
435	strcat(mode, base_reg);
436	comma = 1;
437	}
438	if(postindex)
439	{
440	strcat(mode, "]");
441	comma = 1;
442	}
443	if(*index_reg)
444	{
445	if(comma)
446	strcat(mode, ",");
447	strcat(mode, index_reg);
448	comma = 1;
449	}
450	if(preindex)
451	{
452	strcat(mode, "]");
453	comma = 1;
454	}
455	if(outer)
456	{
457	if(comma)
458	strcat(mode, ",");
459	strcat(mode, make_signed_hex_str_16(outer));
460	}
461	strcat(mode, ")");
462	break;
463	}
464
465	if(EXT_8BIT_DISPLACEMENT(extension) == 0)
466	sprintf(mode, "(A%d,%c%d.%c", instruction&7, EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
467	else
468	sprintf(mode, "(%s,A%d,%c%d.%c", make_signed_hex_str_8(extension), instruction&7, EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
469	if(EXT_INDEX_SCALE(extension))
470	sprintf(mode+strlen(mode), "*%d", 1 << EXT_INDEX_SCALE(extension));
471	strcat(mode, ")");
472	break;
473	case 0x38:
474	/* absolute short address */
475	sprintf(mode, "$%x.w", read_imm_16());
476	break;
477	case 0x39:
478	/* absolute long address */
479	sprintf(mode, "$%x.l", read_imm_32());
480	break;
481	case 0x3a:
482	/* program counter with displacement */
483	temp_value = read_imm_16();
484	sprintf(mode, "(%s,PC)", make_signed_hex_str_16(temp_value));
485	sprintf(g_helper_str, "; ($%x)", (make_int_16(temp_value) + g_cpu_pc-2) & 0xffffffff);
486	break;
487	case 0x3b:
488	/* program counter with index */
489	extension = read_imm_16();
490
491	if(EXT_FULL(extension))
492	{
493	if(EXT_EFFECTIVE_ZERO(extension))
494	{
495	strcpy(mode, "0");
496	break;
497	}
498	base = EXT_BASE_DISPLACEMENT_PRESENT(extension) ? (EXT_BASE_DISPLACEMENT_LONG(extension) ? read_imm_32() : read_imm_16()) : 0;
499	outer = EXT_OUTER_DISPLACEMENT_PRESENT(extension) ? (EXT_OUTER_DISPLACEMENT_LONG(extension) ? read_imm_32() : read_imm_16()) : 0;
500	if(EXT_BASE_REGISTER_PRESENT(extension))
501	strcpy(base_reg, "PC");
502	else
503	*base_reg = 0;
504	if(EXT_INDEX_REGISTER_PRESENT(extension))
505	{
506	sprintf(index_reg, "%c%d.%c", EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
507	if(EXT_INDEX_SCALE(extension))
508	sprintf(index_reg+strlen(index_reg), "*%d", 1 << EXT_INDEX_SCALE(extension));
509	}
510	else
511	*index_reg = 0;
512	preindex = (extension&7) > 0 && (extension&7) < 4;
513	postindex = (extension&7) > 4;
514
515	strcpy(mode, "(");
516	if(preindex \|\| postindex)
517	strcat(mode, "[");
518	if(base)
519	{
520	strcat(mode, make_signed_hex_str_16(base));
521	comma = 1;
522	}
523	if(*base_reg)
524	{
525	if(comma)
526	strcat(mode, ",");
527	strcat(mode, base_reg);
528	comma = 1;
529	}
530	if(postindex)
531	{
532	strcat(mode, "]");
533	comma = 1;
534	}
535	if(*index_reg)
536	{
537	if(comma)
538	strcat(mode, ",");
539	strcat(mode, index_reg);
540	comma = 1;
541	}
542	if(preindex)
543	{
544	strcat(mode, "]");
545	comma = 1;
546	}
547	if(outer)
548	{
549	if(comma)
550	strcat(mode, ",");
551	strcat(mode, make_signed_hex_str_16(outer));
552	}
553	strcat(mode, ")");
554	break;
555	}
556
557	if(EXT_8BIT_DISPLACEMENT(extension) == 0)
558	sprintf(mode, "(PC,%c%d.%c", EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
559	else
560	sprintf(mode, "(%s,PC,%c%d.%c", make_signed_hex_str_8(extension), EXT_INDEX_AR(extension) ? 'A' : 'D', EXT_INDEX_REGISTER(extension), EXT_INDEX_LONG(extension) ? 'l' : 'w');
561	if(EXT_INDEX_SCALE(extension))
562	sprintf(mode+strlen(mode), "*%d", 1 << EXT_INDEX_SCALE(extension));
563	strcat(mode, ")");
564	break;
565	case 0x3c:
566	/* Immediate */
567	sprintf(mode, "%s", get_imm_str_u(size));
568	break;
569	default:
570	sprintf(mode, "INVALID %x", instruction & 0x3f);
571	}
572	return mode;
573	}
574
575
576
577	/* ======================================================================== */
578	/* ========================= INSTRUCTION HANDLERS ========================= */
579	/* ======================================================================== */
580	/* Instruction handler function names follow this convention:
581	*
582	* d68000_NAME_EXTENSIONS(void)
583	* where NAME is the name of the opcode it handles and EXTENSIONS are any
584	* extensions for special instances of that opcode.
585	*
586	* Examples:
587	* d68000_add_er_8(): add opcode, from effective address to register,
588	* size = byte
589	*
590	* d68000_asr_s_8(): arithmetic shift right, static count, size = byte
591	*
592	*
593	* Common extensions:
594	* 8 : size = byte
595	* 16 : size = word
596	* 32 : size = long
597	* rr : register to register
598	* mm : memory to memory
599	* r : register
600	* s : static
601	* er : effective address -> register
602	* re : register -> effective address
603	* ea : using effective address mode of operation
604	* d : data register direct
605	* a : address register direct
606	* ai : address register indirect
607	* pi : address register indirect with postincrement
608	* pd : address register indirect with predecrement
609	* di : address register indirect with displacement
610	* ix : address register indirect with index
611	* aw : absolute word
612	* al : absolute long
613	*/
614
615	static void d68000_illegal(void)
616	{
617	sprintf(g_dasm_str, "dc.w $%04x; ILLEGAL", g_cpu_ir);
618	}
619
620	static void d68000_1010(void)
621	{
622	sprintf(g_dasm_str, "dc.w $%04x; opcode 1010", g_cpu_ir);
623	}
624
625
626	static void d68000_1111(void)
627	{
628	sprintf(g_dasm_str, "dc.w $%04x; opcode 1111", g_cpu_ir);
629	}
630
631
632	static void d68000_abcd_rr(void)
633	{
634	sprintf(g_dasm_str, "abcd D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
635	}
636
637
638	static void d68000_abcd_mm(void)
639	{
640	sprintf(g_dasm_str, "abcd -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
641	}
642
643	static void d68000_add_er_8(void)
644	{
645	sprintf(g_dasm_str, "add.b %s, D%d", get_ea_mode_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
646	}
647
648
649	static void d68000_add_er_16(void)
650	{
651	sprintf(g_dasm_str, "add.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
652	}
653
654	static void d68000_add_er_32(void)
655	{
656	sprintf(g_dasm_str, "add.l %s, D%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
657	}
658
659	static void d68000_add_re_8(void)
660	{
661	sprintf(g_dasm_str, "add.b D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
662	}
663
664	static void d68000_add_re_16(void)
665	{
666	sprintf(g_dasm_str, "add.w D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_16(g_cpu_ir));
667	}
668
669	static void d68000_add_re_32(void)
670	{
671	sprintf(g_dasm_str, "add.l D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_32(g_cpu_ir));
672	}
673
674	static void d68000_adda_16(void)
675	{
676	sprintf(g_dasm_str, "adda.w %s, A%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
677	}
678
679	static void d68000_adda_32(void)
680	{
681	sprintf(g_dasm_str, "adda.l %s, A%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
682	}
683
684	static void d68000_addi_8(void)
685	{
686	char* str = get_imm_str_s8();
687	sprintf(g_dasm_str, "addi.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
688	}
689
690	static void d68000_addi_16(void)
691	{
692	char* str = get_imm_str_s16();
693	sprintf(g_dasm_str, "addi.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
694	}
695
696	static void d68000_addi_32(void)
697	{
698	char* str = get_imm_str_s32();
699	sprintf(g_dasm_str, "addi.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
700	}
701
702	static void d68000_addq_8(void)
703	{
704	sprintf(g_dasm_str, "addq.b #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_8(g_cpu_ir));
705	}
706
707	static void d68000_addq_16(void)
708	{
709	sprintf(g_dasm_str, "addq.w #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_16(g_cpu_ir));
710	}
711
712	static void d68000_addq_32(void)
713	{
714	sprintf(g_dasm_str, "addq.l #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_32(g_cpu_ir));
715	}
716
717	static void d68000_addx_rr_8(void)
718	{
719	sprintf(g_dasm_str, "addx.b D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
720	}
721
722	static void d68000_addx_rr_16(void)
723	{
724	sprintf(g_dasm_str, "addx.w D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
725	}
726
727	static void d68000_addx_rr_32(void)
728	{
729	sprintf(g_dasm_str, "addx.l D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
730	}
731
732	static void d68000_addx_mm_8(void)
733	{
734	sprintf(g_dasm_str, "addx.b -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
735	}
736
737	static void d68000_addx_mm_16(void)
738	{
739	sprintf(g_dasm_str, "addx.w -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
740	}
741
742	static void d68000_addx_mm_32(void)
743	{
744	sprintf(g_dasm_str, "addx.l -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
745	}
746
747	static void d68000_and_er_8(void)
748	{
749	sprintf(g_dasm_str, "and.b %s, D%d", get_ea_mode_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
750	}
751
752	static void d68000_and_er_16(void)
753	{
754	sprintf(g_dasm_str, "and.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
755	}
756
757	static void d68000_and_er_32(void)
758	{
759	sprintf(g_dasm_str, "and.l %s, D%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
760	}
761
762	static void d68000_and_re_8(void)
763	{
764	sprintf(g_dasm_str, "and.b D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
765	}
766
767	static void d68000_and_re_16(void)
768	{
769	sprintf(g_dasm_str, "and.w D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_16(g_cpu_ir));
770	}
771
772	static void d68000_and_re_32(void)
773	{
774	sprintf(g_dasm_str, "and.l D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_32(g_cpu_ir));
775	}
776
777	static void d68000_andi_8(void)
778	{
779	char* str = get_imm_str_u8();
780	sprintf(g_dasm_str, "andi.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
781	}
782
783	static void d68000_andi_16(void)
784	{
785	char* str = get_imm_str_u16();
786	sprintf(g_dasm_str, "andi.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
787	}
788
789	static void d68000_andi_32(void)
790	{
791	char* str = get_imm_str_u32();
792	sprintf(g_dasm_str, "andi.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
793	}
794
795	static void d68000_andi_to_ccr(void)
796	{
797	sprintf(g_dasm_str, "andi %s, CCR", get_imm_str_u8());
798	}
799
800	static void d68000_andi_to_sr(void)
801	{
802	sprintf(g_dasm_str, "andi %s, SR", get_imm_str_u16());
803	}
804
805	static void d68000_asr_s_8(void)
806	{
807	sprintf(g_dasm_str, "asr.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
808	}
809
810	static void d68000_asr_s_16(void)
811	{
812	sprintf(g_dasm_str, "asr.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
813	}
814
815	static void d68000_asr_s_32(void)
816	{
817	sprintf(g_dasm_str, "asr.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
818	}
819
820	static void d68000_asr_r_8(void)
821	{
822	sprintf(g_dasm_str, "asr.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
823	}
824
825	static void d68000_asr_r_16(void)
826	{
827	sprintf(g_dasm_str, "asr.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
828	}
829
830	static void d68000_asr_r_32(void)
831	{
832	sprintf(g_dasm_str, "asr.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
833	}
834
835	static void d68000_asr_ea(void)
836	{
837	sprintf(g_dasm_str, "asr.w %s", get_ea_mode_str_16(g_cpu_ir));
838	}
839
840	static void d68000_asl_s_8(void)
841	{
842	sprintf(g_dasm_str, "asl.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
843	}
844
845	static void d68000_asl_s_16(void)
846	{
847	sprintf(g_dasm_str, "asl.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
848	}
849
850	static void d68000_asl_s_32(void)
851	{
852	sprintf(g_dasm_str, "asl.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
853	}
854
855	static void d68000_asl_r_8(void)
856	{
857	sprintf(g_dasm_str, "asl.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
858	}
859
860	static void d68000_asl_r_16(void)
861	{
862	sprintf(g_dasm_str, "asl.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
863	}
864
865	static void d68000_asl_r_32(void)
866	{
867	sprintf(g_dasm_str, "asl.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
868	}
869
870	static void d68000_asl_ea(void)
871	{
872	sprintf(g_dasm_str, "asl.w %s", get_ea_mode_str_16(g_cpu_ir));
873	}
874
875	static void d68000_bcc_8(void)
876	{
877	uint temp_pc = g_cpu_pc;
878	sprintf(g_dasm_str, "b%-2s %x", g_cc[(g_cpu_ir>>8)&0xf], temp_pc + make_int_8(g_cpu_ir));
879	}
880
881	static void d68000_bcc_16(void)
882	{
883	uint temp_pc = g_cpu_pc;
884	sprintf(g_dasm_str, "b%-2s %x", g_cc[(g_cpu_ir>>8)&0xf], temp_pc + make_int_16(read_imm_16()));
885	}
886
887	static void d68020_bcc_32(void)
888	{
889	uint temp_pc = g_cpu_pc;
890	LIMIT_CPU_TYPES(M68020_PLUS);
891	sprintf(g_dasm_str, "b%-2s %x; (2+)", g_cc[(g_cpu_ir>>8)&0xf], temp_pc + read_imm_32());
892	}
893
894	static void d68000_bchg_r(void)
895	{
896	sprintf(g_dasm_str, "bchg D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
897	}
898
899	static void d68000_bchg_s(void)
900	{
901	char* str = get_imm_str_u8();
902	sprintf(g_dasm_str, "bchg %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
903	}
904
905	static void d68000_bclr_r(void)
906	{
907	sprintf(g_dasm_str, "bclr D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
908	}
909
910	static void d68000_bclr_s(void)
911	{
912	char* str = get_imm_str_u8();
913	sprintf(g_dasm_str, "bclr %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
914	}
915
916	static void d68010_bkpt(void)
917	{
918	LIMIT_CPU_TYPES(M68010_PLUS);
919	sprintf(g_dasm_str, "bkpt #%d; (1+)", g_cpu_ir&7);
920	}
921
922	static void d68020_bfchg(void)
923	{
924	uint extension;
925	char offset[3];
926	char width[3];
927
928	LIMIT_CPU_TYPES(M68020_PLUS);
929
930	extension = read_imm_16();
931
932	if(BIT_B(extension))
933	sprintf(offset, "D%d", (extension>>6)&7);
934	else
935	sprintf(offset, "%d", (extension>>6)&31);
936	if(BIT_5(extension))
937	sprintf(width, "D%d", extension&7);
938	else
939	sprintf(width, "%d", g_5bit_data_table[extension&31]);
940	sprintf(g_dasm_str, "bfchg %s {%s:%s}; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width);
941	}
942
943	static void d68020_bfclr(void)
944	{
945	uint extension;
946	char offset[3];
947	char width[3];
948
949	LIMIT_CPU_TYPES(M68020_PLUS);
950
951	extension = read_imm_16();
952
953	if(BIT_B(extension))
954	sprintf(offset, "D%d", (extension>>6)&7);
955	else
956	sprintf(offset, "%d", (extension>>6)&31);
957	if(BIT_5(extension))
958	sprintf(width, "D%d", extension&7);
959	else
960	sprintf(width, "%d", g_5bit_data_table[extension&31]);
961	sprintf(g_dasm_str, "bfclr %s {%s:%s}; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width);
962	}
963
964	static void d68020_bfexts(void)
965	{
966	uint extension;
967	char offset[3];
968	char width[3];
969
970	LIMIT_CPU_TYPES(M68020_PLUS);
971
972	extension = read_imm_16();
973
974	if(BIT_B(extension))
975	sprintf(offset, "D%d", (extension>>6)&7);
976	else
977	sprintf(offset, "%d", (extension>>6)&31);
978	if(BIT_5(extension))
979	sprintf(width, "D%d", extension&7);
980	else
981	sprintf(width, "%d", g_5bit_data_table[extension&31]);
982	sprintf(g_dasm_str, "bfexts %s {%s:%s}, D%d; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width, (extension>>12)&7);
983	}
984
985	static void d68020_bfextu(void)
986	{
987	uint extension;
988	char offset[3];
989	char width[3];
990
991	LIMIT_CPU_TYPES(M68020_PLUS);
992
993	extension = read_imm_16();
994
995	if(BIT_B(extension))
996	sprintf(offset, "D%d", (extension>>6)&7);
997	else
998	sprintf(offset, "%d", (extension>>6)&31);
999	if(BIT_5(extension))
1000	sprintf(width, "D%d", extension&7);
1001	else
1002	sprintf(width, "%d", g_5bit_data_table[extension&31]);
1003	sprintf(g_dasm_str, "bfextu %s {%s:%s}, D%d; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width, (extension>>12)&7);
1004	}
1005
1006	static void d68020_bfffo(void)
1007	{
1008	uint extension;
1009	char offset[3];
1010	char width[3];
1011
1012	LIMIT_CPU_TYPES(M68020_PLUS);
1013
1014	extension = read_imm_16();
1015
1016	if(BIT_B(extension))
1017	sprintf(offset, "D%d", (extension>>6)&7);
1018	else
1019	sprintf(offset, "%d", (extension>>6)&31);
1020	if(BIT_5(extension))
1021	sprintf(width, "D%d", extension&7);
1022	else
1023	sprintf(width, "%d", g_5bit_data_table[extension&31]);
1024	sprintf(g_dasm_str, "bfffo %s {%s:%s}, D%d; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width, (extension>>12)&7);
1025	}
1026
1027	static void d68020_bfins(void)
1028	{
1029	uint extension;
1030	char offset[3];
1031	char width[3];
1032
1033	LIMIT_CPU_TYPES(M68020_PLUS);
1034
1035	extension = read_imm_16();
1036
1037	if(BIT_B(extension))
1038	sprintf(offset, "D%d", (extension>>6)&7);
1039	else
1040	sprintf(offset, "%d", (extension>>6)&31);
1041	if(BIT_5(extension))
1042	sprintf(width, "D%d", extension&7);
1043	else
1044	sprintf(width, "%d", g_5bit_data_table[extension&31]);
1045	sprintf(g_dasm_str, "bfins D%d, %s {%s:%s}; (2+)", (extension>>12)&7, get_ea_mode_str_8(g_cpu_ir), offset, width);
1046	}
1047
1048	static void d68020_bfset(void)
1049	{
1050	uint extension;
1051	char offset[3];
1052	char width[3];
1053
1054	LIMIT_CPU_TYPES(M68020_PLUS);
1055
1056	extension = read_imm_16();
1057
1058	if(BIT_B(extension))
1059	sprintf(offset, "D%d", (extension>>6)&7);
1060	else
1061	sprintf(offset, "%d", (extension>>6)&31);
1062	if(BIT_5(extension))
1063	sprintf(width, "D%d", extension&7);
1064	else
1065	sprintf(width, "%d", g_5bit_data_table[extension&31]);
1066	sprintf(g_dasm_str, "bfset %s {%s:%s}; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width);
1067	}
1068
1069	static void d68020_bftst(void)
1070	{
1071	uint extension;
1072	char offset[3];
1073	char width[3];
1074
1075	LIMIT_CPU_TYPES(M68020_PLUS);
1076
1077	extension = read_imm_16();
1078
1079	if(BIT_B(extension))
1080	sprintf(offset, "D%d", (extension>>6)&7);
1081	else
1082	sprintf(offset, "%d", (extension>>6)&31);
1083	if(BIT_5(extension))
1084	sprintf(width, "D%d", extension&7);
1085	else
1086	sprintf(width, "%d", g_5bit_data_table[extension&31]);
1087	sprintf(g_dasm_str, "bftst %s {%s:%s}; (2+)", get_ea_mode_str_8(g_cpu_ir), offset, width);
1088	}
1089
1090	static void d68000_bra_8(void)
1091	{
1092	uint temp_pc = g_cpu_pc;
1093	sprintf(g_dasm_str, "bra %x", temp_pc + make_int_8(g_cpu_ir));
1094	}
1095
1096	static void d68000_bra_16(void)
1097	{
1098	uint temp_pc = g_cpu_pc;
1099	sprintf(g_dasm_str, "bra %x", temp_pc + make_int_16(read_imm_16()));
1100	}
1101
1102	static void d68020_bra_32(void)
1103	{
1104	uint temp_pc = g_cpu_pc;
1105	LIMIT_CPU_TYPES(M68020_PLUS);
1106	sprintf(g_dasm_str, "bra %x; (2+)", temp_pc + read_imm_32());
1107	}
1108
1109	static void d68000_bset_r(void)
1110	{
1111	sprintf(g_dasm_str, "bset D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
1112	}
1113
1114	static void d68000_bset_s(void)
1115	{
1116	char* str = get_imm_str_u8();
1117	sprintf(g_dasm_str, "bset %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
1118	}
1119
1120	static void d68000_bsr_8(void)
1121	{
1122	uint temp_pc = g_cpu_pc;
1123	sprintf(g_dasm_str, "bsr %x", temp_pc + make_int_8(g_cpu_ir));
1124	}
1125
1126	static void d68000_bsr_16(void)
1127	{
1128	uint temp_pc = g_cpu_pc;
1129	sprintf(g_dasm_str, "bsr %x", temp_pc + make_int_16(read_imm_16()));
1130	}
1131
1132	static void d68020_bsr_32(void)
1133	{
1134	uint temp_pc = g_cpu_pc;
1135	LIMIT_CPU_TYPES(M68020_PLUS);
1136	sprintf(g_dasm_str, "bsr %x; (2+)", temp_pc + peek_imm_32());
1137	}
1138
1139	static void d68000_btst_r(void)
1140	{
1141	sprintf(g_dasm_str, "btst D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
1142	}
1143
1144	static void d68000_btst_s(void)
1145	{
1146	char* str = get_imm_str_u8();
1147	sprintf(g_dasm_str, "btst %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
1148	}
1149
1150	static void d68020_callm(void)
1151	{
1152	char* str;
1153	LIMIT_CPU_TYPES(M68020_ONLY);
1154	str = get_imm_str_u8();
1155
1156	sprintf(g_dasm_str, "callm %s, %s; (2)", str, get_ea_mode_str_8(g_cpu_ir));
1157	}
1158
1159	static void d68020_cas_8(void)
1160	{
1161	uint extension;
1162	LIMIT_CPU_TYPES(M68020_PLUS);
1163	extension = read_imm_16();
1164	sprintf(g_dasm_str, "cas.b D%d, D%d, %s; (2+)", extension&7, (extension>>6)&7, get_ea_mode_str_8(g_cpu_ir));
1165	}
1166
1167	static void d68020_cas_16(void)
1168	{
1169	uint extension;
1170	LIMIT_CPU_TYPES(M68020_PLUS);
1171	extension = read_imm_16();
1172	sprintf(g_dasm_str, "cas.w D%d, D%d, %s; (2+)", extension&7, (extension>>6)&7, get_ea_mode_str_16(g_cpu_ir));
1173	}
1174
1175	static void d68020_cas_32(void)
1176	{
1177	uint extension;
1178	LIMIT_CPU_TYPES(M68020_PLUS);
1179	extension = read_imm_16();
1180	sprintf(g_dasm_str, "cas.l D%d, D%d, %s; (2+)", extension&7, (extension>>6)&7, get_ea_mode_str_32(g_cpu_ir));
1181	}
1182
1183	static void d68020_cas2_16(void)
1184	{
1185	/* CAS2 Dc1:Dc2,Du1:Dc2:(Rn1):(Rn2)
1186	f e d c b a 9 8 7 6 5 4 3 2 1 0
1187	DARn1 0 0 0 Du1 0 0 0 Dc1
1188	DARn2 0 0 0 Du2 0 0 0 Dc2
1189	*/
1190
1191	uint extension;
1192	LIMIT_CPU_TYPES(M68020_PLUS);
1193	extension = read_imm_32();
1194	sprintf(g_dasm_str, "cas2.w D%d:D%d, D%d:D%d, (%c%d):(%c%d); (2+)",
1195	(extension>>16)&7, extension&7, (extension>>22)&7, (extension>>6)&7,
1196	BIT_1F(extension) ? 'A' : 'D', (extension>>28)&7,
1197	BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
1198	}
1199
1200	static void d68020_cas2_32(void)
1201	{
1202	uint extension;
1203	LIMIT_CPU_TYPES(M68020_PLUS);
1204	extension = read_imm_32();
1205	sprintf(g_dasm_str, "cas2.l D%d:D%d, D%d:D%d, (%c%d):(%c%d); (2+)",
1206	(extension>>16)&7, extension&7, (extension>>22)&7, (extension>>6)&7,
1207	BIT_1F(extension) ? 'A' : 'D', (extension>>28)&7,
1208	BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
1209	}
1210
1211	static void d68000_chk_16(void)
1212	{
1213	sprintf(g_dasm_str, "chk.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1214	}
1215
1216	static void d68020_chk_32(void)
1217	{
1218	LIMIT_CPU_TYPES(M68020_PLUS);
1219	sprintf(g_dasm_str, "chk.l %s, D%d; (2+)", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
1220	}
1221
1222	static void d68020_chk2_cmp2_8(void)
1223	{
1224	uint extension;
1225	LIMIT_CPU_TYPES(M68020_PLUS);
1226	extension = read_imm_16();
1227	sprintf(g_dasm_str, "%s.b %s, %c%d; (2+)", BIT_B(extension) ? "chk2" : "cmp2", get_ea_mode_str_8(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
1228	}
1229
1230	static void d68020_chk2_cmp2_16(void)
1231	{
1232	uint extension;
1233	LIMIT_CPU_TYPES(M68020_PLUS);
1234	extension = read_imm_16();
1235	sprintf(g_dasm_str, "%s.w %s, %c%d; (2+)", BIT_B(extension) ? "chk2" : "cmp2", get_ea_mode_str_16(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
1236	}
1237
1238	static void d68020_chk2_cmp2_32(void)
1239	{
1240	uint extension;
1241	LIMIT_CPU_TYPES(M68020_PLUS);
1242	extension = read_imm_16();
1243	sprintf(g_dasm_str, "%s.l %s, %c%d; (2+)", BIT_B(extension) ? "chk2" : "cmp2", get_ea_mode_str_32(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
1244	}
1245
1246	static void d68040_cinv(void)
1247	{
1248	LIMIT_CPU_TYPES(M68040_PLUS);
1249	switch((g_cpu_ir>>3)&3)
1250	{
1251	case 0:
1252	sprintf(g_dasm_str, "cinv (illegal scope); (4)");
1253	break;
1254	case 1:
1255	sprintf(g_dasm_str, "cinvl %d, (A%d); (4)", (g_cpu_ir>>6)&3, g_cpu_ir&7);
1256	break;
1257	case 2:
1258	sprintf(g_dasm_str, "cinvp %d, (A%d); (4)", (g_cpu_ir>>6)&3, g_cpu_ir&7);
1259	break;
1260	case 3:
1261	sprintf(g_dasm_str, "cinva %d; (4)", (g_cpu_ir>>6)&3);
1262	break;
1263	}
1264	}
1265
1266	static void d68000_clr_8(void)
1267	{
1268	sprintf(g_dasm_str, "clr.b %s", get_ea_mode_str_8(g_cpu_ir));
1269	}
1270
1271	static void d68000_clr_16(void)
1272	{
1273	sprintf(g_dasm_str, "clr.w %s", get_ea_mode_str_16(g_cpu_ir));
1274	}
1275
1276	static void d68000_clr_32(void)
1277	{
1278	sprintf(g_dasm_str, "clr.l %s", get_ea_mode_str_32(g_cpu_ir));
1279	}
1280
1281	static void d68000_cmp_8(void)
1282	{
1283	sprintf(g_dasm_str, "cmp.b %s, D%d", get_ea_mode_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
1284	}
1285
1286	static void d68000_cmp_16(void)
1287	{
1288	sprintf(g_dasm_str, "cmp.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1289	}
1290
1291	static void d68000_cmp_32(void)
1292	{
1293	sprintf(g_dasm_str, "cmp.l %s, D%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
1294	}
1295
1296	static void d68000_cmpa_16(void)
1297	{
1298	sprintf(g_dasm_str, "cmpa.w %s, A%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1299	}
1300
1301	static void d68000_cmpa_32(void)
1302	{
1303	sprintf(g_dasm_str, "cmpa.l %s, A%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
1304	}
1305
1306	static void d68000_cmpi_8(void)
1307	{
1308	char* str = get_imm_str_s8();
1309	sprintf(g_dasm_str, "cmpi.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
1310	}
1311
1312	static void d68020_cmpi_pcdi_8(void)
1313	{
1314	char* str;
1315	LIMIT_CPU_TYPES(M68010_PLUS);
1316	str = get_imm_str_s8();
1317	sprintf(g_dasm_str, "cmpi.b %s, %s; (2+)", str, get_ea_mode_str_8(g_cpu_ir));
1318	}
1319
1320	static void d68020_cmpi_pcix_8(void)
1321	{
1322	char* str;
1323	LIMIT_CPU_TYPES(M68010_PLUS);
1324	str = get_imm_str_s8();
1325	sprintf(g_dasm_str, "cmpi.b %s, %s; (2+)", str, get_ea_mode_str_8(g_cpu_ir));
1326	}
1327
1328	static void d68000_cmpi_16(void)
1329	{
1330	char* str;
1331	str = get_imm_str_s16();
1332	sprintf(g_dasm_str, "cmpi.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
1333	}
1334
1335	static void d68020_cmpi_pcdi_16(void)
1336	{
1337	char* str;
1338	LIMIT_CPU_TYPES(M68010_PLUS);
1339	str = get_imm_str_s16();
1340	sprintf(g_dasm_str, "cmpi.w %s, %s; (2+)", str, get_ea_mode_str_16(g_cpu_ir));
1341	}
1342
1343	static void d68020_cmpi_pcix_16(void)
1344	{
1345	char* str;
1346	LIMIT_CPU_TYPES(M68010_PLUS);
1347	str = get_imm_str_s16();
1348	sprintf(g_dasm_str, "cmpi.w %s, %s; (2+)", str, get_ea_mode_str_16(g_cpu_ir));
1349	}
1350
1351	static void d68000_cmpi_32(void)
1352	{
1353	char* str;
1354	str = get_imm_str_s32();
1355	sprintf(g_dasm_str, "cmpi.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
1356	}
1357
1358	static void d68020_cmpi_pcdi_32(void)
1359	{
1360	char* str;
1361	LIMIT_CPU_TYPES(M68010_PLUS);
1362	str = get_imm_str_s32();
1363	sprintf(g_dasm_str, "cmpi.l %s, %s; (2+)", str, get_ea_mode_str_32(g_cpu_ir));
1364	}
1365
1366	static void d68020_cmpi_pcix_32(void)
1367	{
1368	char* str;
1369	LIMIT_CPU_TYPES(M68010_PLUS);
1370	str = get_imm_str_s32();
1371	sprintf(g_dasm_str, "cmpi.l %s, %s; (2+)", str, get_ea_mode_str_32(g_cpu_ir));
1372	}
1373
1374	static void d68000_cmpm_8(void)
1375	{
1376	sprintf(g_dasm_str, "cmpm.b (A%d)+, (A%d)+", g_cpu_ir&7, (g_cpu_ir>>9)&7);
1377	}
1378
1379	static void d68000_cmpm_16(void)
1380	{
1381	sprintf(g_dasm_str, "cmpm.w (A%d)+, (A%d)+", g_cpu_ir&7, (g_cpu_ir>>9)&7);
1382	}
1383
1384	static void d68000_cmpm_32(void)
1385	{
1386	sprintf(g_dasm_str, "cmpm.l (A%d)+, (A%d)+", g_cpu_ir&7, (g_cpu_ir>>9)&7);
1387	}
1388
1389	static void d68020_cpbcc_16(void)
1390	{
1391	uint extension;
1392	uint new_pc = g_cpu_pc;
1393	LIMIT_CPU_TYPES(M68020_PLUS);
1394	extension = read_imm_16();
1395	new_pc += make_int_16(peek_imm_16());
1396	sprintf(g_dasm_str, "%db%-4s %s; %x (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[g_cpu_ir&0x3f], get_imm_str_s16(), new_pc, extension);
1397	}
1398
1399	static void d68020_cpbcc_32(void)
1400	{
1401	uint extension;
1402	uint new_pc = g_cpu_pc;
1403	LIMIT_CPU_TYPES(M68020_PLUS);
1404	extension = read_imm_16();
1405	new_pc += peek_imm_32();
1406	sprintf(g_dasm_str, "%db%-4s %s; %x (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[g_cpu_ir&0x3f], get_imm_str_s16(), new_pc, extension);
1407	}
1408
1409	static void d68020_cpdbcc(void)
1410	{
1411	uint extension1;
1412	uint extension2;
1413	uint new_pc = g_cpu_pc;
1414	LIMIT_CPU_TYPES(M68020_PLUS);
1415	extension1 = read_imm_16();
1416	extension2 = read_imm_16();
1417	new_pc += make_int_16(peek_imm_16());
1418	sprintf(g_dasm_str, "%ddb%-4s D%d,%s; %x (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[extension1&0x3f], g_cpu_ir&7, get_imm_str_s16(), new_pc, extension2);
1419	}
1420
1421	static void d68020_cpgen(void)
1422	{
1423	LIMIT_CPU_TYPES(M68020_PLUS);
1424	sprintf(g_dasm_str, "%dgen %s; (2-3)", (g_cpu_ir>>9)&7, get_imm_str_u32());
1425	}
1426
1427	static void d68020_cprestore(void)
1428	{
1429	LIMIT_CPU_TYPES(M68020_PLUS);
1430	sprintf(g_dasm_str, "%drestore %s; (2-3)", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
1431	}
1432
1433	static void d68020_cpsave(void)
1434	{
1435	LIMIT_CPU_TYPES(M68020_PLUS);
1436	sprintf(g_dasm_str, "%dsave %s; (2-3)", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
1437	}
1438
1439	static void d68020_cpscc(void)
1440	{
1441	uint extension1;
1442	uint extension2;
1443	LIMIT_CPU_TYPES(M68020_PLUS);
1444	extension1 = read_imm_16();
1445	extension2 = read_imm_16();
1446	sprintf(g_dasm_str, "%ds%-4s %s; (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[extension1&0x3f], get_ea_mode_str_8(g_cpu_ir), extension2);
1447	}
1448
1449	static void d68020_cptrapcc_0(void)
1450	{
1451	uint extension1;
1452	uint extension2;
1453	LIMIT_CPU_TYPES(M68020_PLUS);
1454	extension1 = read_imm_16();
1455	extension2 = read_imm_16();
1456	sprintf(g_dasm_str, "%dtrap%-4s; (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[extension1&0x3f], extension2);
1457	}
1458
1459	static void d68020_cptrapcc_16(void)
1460	{
1461	uint extension1;
1462	uint extension2;
1463	LIMIT_CPU_TYPES(M68020_PLUS);
1464	extension1 = read_imm_16();
1465	extension2 = read_imm_16();
1466	sprintf(g_dasm_str, "%dtrap%-4s %s; (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[extension1&0x3f], get_imm_str_u16(), extension2);
1467	}
1468
1469	static void d68020_cptrapcc_32(void)
1470	{
1471	uint extension1;
1472	uint extension2;
1473	LIMIT_CPU_TYPES(M68020_PLUS);
1474	extension1 = read_imm_16();
1475	extension2 = read_imm_16();
1476	sprintf(g_dasm_str, "%dtrap%-4s %s; (extension = %x) (2-3)", (g_cpu_ir>>9)&7, g_cpcc[extension1&0x3f], get_imm_str_u32(), extension2);
1477	}
1478
1479	static void d68040_cpush(void)
1480	{
1481	LIMIT_CPU_TYPES(M68040_PLUS);
1482	switch((g_cpu_ir>>3)&3)
1483	{
1484	case 0:
1485	sprintf(g_dasm_str, "cpush (illegal scope); (4)");
1486	break;
1487	case 1:
1488	sprintf(g_dasm_str, "cpushl %d, (A%d); (4)", (g_cpu_ir>>6)&3, g_cpu_ir&7);
1489	break;
1490	case 2:
1491	sprintf(g_dasm_str, "cpushp %d, (A%d); (4)", (g_cpu_ir>>6)&3, g_cpu_ir&7);
1492	break;
1493	case 3:
1494	sprintf(g_dasm_str, "cpusha %d; (4)", (g_cpu_ir>>6)&3);
1495	break;
1496	}
1497	}
1498
1499	static void d68000_dbra(void)
1500	{
1501	uint temp_pc = g_cpu_pc;
1502	sprintf(g_dasm_str, "dbra D%d, %x", g_cpu_ir & 7, temp_pc + make_int_16(read_imm_16()));
1503	}
1504
1505	static void d68000_dbcc(void)
1506	{
1507	uint temp_pc = g_cpu_pc;
1508	sprintf(g_dasm_str, "db%-2s D%d, %x", g_cc[(g_cpu_ir>>8)&0xf], g_cpu_ir & 7, temp_pc + make_int_16(read_imm_16()));
1509	}
1510
1511	static void d68000_divs(void)
1512	{
1513	sprintf(g_dasm_str, "divs.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1514	}
1515
1516	static void d68000_divu(void)
1517	{
1518	sprintf(g_dasm_str, "divu.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1519	}
1520
1521	static void d68020_divl(void)
1522	{
1523	uint extension;
1524	LIMIT_CPU_TYPES(M68020_PLUS);
1525	extension = read_imm_16();
1526
1527	if(BIT_A(extension))
1528	sprintf(g_dasm_str, "div%c.l %s, D%d:D%d; (2+)", BIT_B(extension) ? 's' : 'u', get_ea_mode_str_32(g_cpu_ir), extension&7, (extension>>12)&7);
1529	else if((extension&7) == ((extension>>12)&7))
1530	sprintf(g_dasm_str, "div%c.l %s, D%d; (2+)", BIT_B(extension) ? 's' : 'u', get_ea_mode_str_32(g_cpu_ir), (extension>>12)&7);
1531	else
1532	sprintf(g_dasm_str, "div%cl.l %s, D%d:D%d; (2+)", BIT_B(extension) ? 's' : 'u', get_ea_mode_str_32(g_cpu_ir), extension&7, (extension>>12)&7);
1533	}
1534
1535	static void d68000_eor_8(void)
1536	{
1537	sprintf(g_dasm_str, "eor.b D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
1538	}
1539
1540	static void d68000_eor_16(void)
1541	{
1542	sprintf(g_dasm_str, "eor.w D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_16(g_cpu_ir));
1543	}
1544
1545	static void d68000_eor_32(void)
1546	{
1547	sprintf(g_dasm_str, "eor.l D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_32(g_cpu_ir));
1548	}
1549
1550	static void d68000_eori_8(void)
1551	{
1552	char* str = get_imm_str_u8();
1553	sprintf(g_dasm_str, "eori.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
1554	}
1555
1556	static void d68000_eori_16(void)
1557	{
1558	char* str = get_imm_str_u16();
1559	sprintf(g_dasm_str, "eori.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
1560	}
1561
1562	static void d68000_eori_32(void)
1563	{
1564	char* str = get_imm_str_u32();
1565	sprintf(g_dasm_str, "eori.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
1566	}
1567
1568	static void d68000_eori_to_ccr(void)
1569	{
1570	sprintf(g_dasm_str, "eori %s, CCR", get_imm_str_u8());
1571	}
1572
1573	static void d68000_eori_to_sr(void)
1574	{
1575	sprintf(g_dasm_str, "eori %s, SR", get_imm_str_u16());
1576	}
1577
1578	static void d68000_exg_dd(void)
1579	{
1580	sprintf(g_dasm_str, "exg D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1581	}
1582
1583	static void d68000_exg_aa(void)
1584	{
1585	sprintf(g_dasm_str, "exg A%d, A%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1586	}
1587
1588	static void d68000_exg_da(void)
1589	{
1590	sprintf(g_dasm_str, "exg D%d, A%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1591	}
1592
1593	static void d68000_ext_16(void)
1594	{
1595	sprintf(g_dasm_str, "ext.w D%d", g_cpu_ir&7);
1596	}
1597
1598	static void d68000_ext_32(void)
1599	{
1600	sprintf(g_dasm_str, "ext.l D%d", g_cpu_ir&7);
1601	}
1602
1603	static void d68020_extb_32(void)
1604	{
1605	LIMIT_CPU_TYPES(M68020_PLUS);
1606	sprintf(g_dasm_str, "extb.l D%d; (2+)", g_cpu_ir&7);
1607	}
1608
1609	static void d68000_jmp(void)
1610	{
1611	sprintf(g_dasm_str, "jmp %s", get_ea_mode_str_32(g_cpu_ir));
1612	}
1613
1614	static void d68000_jsr(void)
1615	{
1616	sprintf(g_dasm_str, "jsr %s", get_ea_mode_str_32(g_cpu_ir));
1617	}
1618
1619	static void d68000_lea(void)
1620	{
1621	sprintf(g_dasm_str, "lea %s, A%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
1622	}
1623
1624	static void d68000_link_16(void)
1625	{
1626	sprintf(g_dasm_str, "link A%d, %s", g_cpu_ir&7, get_imm_str_s16());
1627	}
1628
1629	static void d68020_link_32(void)
1630	{
1631	LIMIT_CPU_TYPES(M68020_PLUS);
1632	sprintf(g_dasm_str, "link A%d, %s; (2+)", g_cpu_ir&7, get_imm_str_s32());
1633	}
1634
1635	static void d68000_lsr_s_8(void)
1636	{
1637	sprintf(g_dasm_str, "lsr.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1638	}
1639
1640	static void d68000_lsr_s_16(void)
1641	{
1642	sprintf(g_dasm_str, "lsr.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1643	}
1644
1645	static void d68000_lsr_s_32(void)
1646	{
1647	sprintf(g_dasm_str, "lsr.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1648	}
1649
1650	static void d68000_lsr_r_8(void)
1651	{
1652	sprintf(g_dasm_str, "lsr.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1653	}
1654
1655	static void d68000_lsr_r_16(void)
1656	{
1657	sprintf(g_dasm_str, "lsr.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1658	}
1659
1660	static void d68000_lsr_r_32(void)
1661	{
1662	sprintf(g_dasm_str, "lsr.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1663	}
1664
1665	static void d68000_lsr_ea(void)
1666	{
1667	sprintf(g_dasm_str, "lsr.w %s", get_ea_mode_str_32(g_cpu_ir));
1668	}
1669
1670	static void d68000_lsl_s_8(void)
1671	{
1672	sprintf(g_dasm_str, "lsl.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1673	}
1674
1675	static void d68000_lsl_s_16(void)
1676	{
1677	sprintf(g_dasm_str, "lsl.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1678	}
1679
1680	static void d68000_lsl_s_32(void)
1681	{
1682	sprintf(g_dasm_str, "lsl.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
1683	}
1684
1685	static void d68000_lsl_r_8(void)
1686	{
1687	sprintf(g_dasm_str, "lsl.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1688	}
1689
1690	static void d68000_lsl_r_16(void)
1691	{
1692	sprintf(g_dasm_str, "lsl.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1693	}
1694
1695	static void d68000_lsl_r_32(void)
1696	{
1697	sprintf(g_dasm_str, "lsl.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
1698	}
1699
1700	static void d68000_lsl_ea(void)
1701	{
1702	sprintf(g_dasm_str, "lsl.w %s", get_ea_mode_str_32(g_cpu_ir));
1703	}
1704
1705	static void d68000_move_8(void)
1706	{
1707	char* str = get_ea_mode_str_8(g_cpu_ir);
1708	sprintf(g_dasm_str, "move.b %s, %s", str, get_ea_mode_str_8(((g_cpu_ir>>9) & 7) \| ((g_cpu_ir>>3) & 0x38)));
1709	}
1710
1711	static void d68000_move_16(void)
1712	{
1713	char* str = get_ea_mode_str_16(g_cpu_ir);
1714	sprintf(g_dasm_str, "move.w %s, %s", str, get_ea_mode_str_16(((g_cpu_ir>>9) & 7) \| ((g_cpu_ir>>3) & 0x38)));
1715	}
1716
1717	static void d68000_move_32(void)
1718	{
1719	char* str = get_ea_mode_str_32(g_cpu_ir);
1720	sprintf(g_dasm_str, "move.l %s, %s", str, get_ea_mode_str_32(((g_cpu_ir>>9) & 7) \| ((g_cpu_ir>>3) & 0x38)));
1721	}
1722
1723	static void d68000_movea_16(void)
1724	{
1725	sprintf(g_dasm_str, "movea.w %s, A%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
1726	}
1727
1728	static void d68000_movea_32(void)
1729	{
1730	sprintf(g_dasm_str, "movea.l %s, A%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
1731	}
1732
1733	static void d68000_move_to_ccr(void)
1734	{
1735	sprintf(g_dasm_str, "move %s, CCR", get_ea_mode_str_8(g_cpu_ir));
1736	}
1737
1738	static void d68010_move_fr_ccr(void)
1739	{
1740	LIMIT_CPU_TYPES(M68010_PLUS);
1741	sprintf(g_dasm_str, "move CCR, %s; (1+)", get_ea_mode_str_8(g_cpu_ir));
1742	}
1743
1744	static void d68000_move_fr_sr(void)
1745	{
1746	sprintf(g_dasm_str, "move SR, %s", get_ea_mode_str_16(g_cpu_ir));
1747	}
1748
1749	static void d68000_move_to_sr(void)
1750	{
1751	sprintf(g_dasm_str, "move %s, SR", get_ea_mode_str_16(g_cpu_ir));
1752	}
1753
1754	static void d68000_move_fr_usp(void)
1755	{
1756	sprintf(g_dasm_str, "move USP, A%d", g_cpu_ir&7);
1757	}
1758
1759	static void d68000_move_to_usp(void)
1760	{
1761	sprintf(g_dasm_str, "move A%d, USP", g_cpu_ir&7);
1762	}
1763
1764	static void d68010_movec(void)
1765	{
1766	uint extension;
1767	char* reg_name;
1768	char* processor;
1769	LIMIT_CPU_TYPES(M68010_PLUS);
1770	extension = read_imm_16();
1771
1772	switch(extension & 0xfff)
1773	{
1774	case 0x000:
1775	reg_name = "SFC";
1776	processor = "1+";
1777	break;
1778	case 0x001:
1779	reg_name = "DFC";
1780	processor = "1+";
1781	break;
1782	case 0x800:
1783	reg_name = "USP";
1784	processor = "1+";
1785	break;
1786	case 0x801:
1787	reg_name = "VBR";
1788	processor = "1+";
1789	break;
1790	case 0x002:
1791	reg_name = "CACR";
1792	processor = "2+";
1793	break;
1794	case 0x802:
1795	reg_name = "CAAR";
1796	processor = "2,3";
1797	break;
1798	case 0x803:
1799	reg_name = "MSP";
1800	processor = "2+";
1801	break;
1802	case 0x804:
1803	reg_name = "ISP";
1804	processor = "2+";
1805	break;
1806	case 0x003:
1807	reg_name = "TC";
1808	processor = "4+";
1809	break;
1810	case 0x004:
1811	reg_name = "ITT0";
1812	processor = "4+";
1813	break;
1814	case 0x005:
1815	reg_name = "ITT1";
1816	processor = "4+";
1817	break;
1818	case 0x006:
1819	reg_name = "DTT0";
1820	processor = "4+";
1821	break;
1822	case 0x007:
1823	reg_name = "DTT1";
1824	processor = "4+";
1825	break;
1826	case 0x805:
1827	reg_name = "MMUSR";
1828	processor = "4+";
1829	break;
1830	case 0x806:
1831	reg_name = "URP";
1832	processor = "4+";
1833	break;
1834	case 0x807:
1835	reg_name = "SRP";
1836	processor = "4+";
1837	break;
1838	default:
1839	reg_name = make_signed_hex_str_16(extension & 0xfff);
1840	processor = "?";
1841	}
1842
1843	if(BIT_1(g_cpu_ir))
1844	sprintf(g_dasm_str, "movec %c%d, %s; (%s)", BIT_F(extension) ? 'A' : 'D', (extension>>12)&7, reg_name, processor);
1845	else
1846	sprintf(g_dasm_str, "movec %s, %c%d; (%s)", reg_name, BIT_F(extension) ? 'A' : 'D', (extension>>12)&7, processor);
1847	}
1848
1849	static void d68000_movem_pd_16(void)
1850	{
1851	uint data = read_imm_16();
1852	char buffer[40];
1853	uint first;
1854	uint run_length;
1855	uint i;
1856
1857	buffer[0] = 0;
1858	for(i=0;i<8;i++)
1859	{
1860	if(data&(1<<(15-i)))
1861	{
1862	first = i;
1863	run_length = 0;
1864	while(i<7 && (data&(1<<(15-(i+1)))))
1865	{
1866	i++;
1867	run_length++;
1868	}
1869	if(buffer[0] != 0)
1870	strcat(buffer, "/");
1871	sprintf(buffer+strlen(buffer), "D%d", first);
1872	if(run_length > 0)
1873	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
1874	}
1875	}
1876	for(i=0;i<8;i++)
1877	{
1878	if(data&(1<<(7-i)))
1879	{
1880	first = i;
1881	run_length = 0;
1882	while(i<7 && (data&(1<<(7-(i+1)))))
1883	{
1884	i++;
1885	run_length++;
1886	}
1887	if(buffer[0] != 0)
1888	strcat(buffer, "/");
1889	sprintf(buffer+strlen(buffer), "A%d", first);
1890	if(run_length > 0)
1891	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
1892	}
1893	}
1894	sprintf(g_dasm_str, "movem.w %s, %s", buffer, get_ea_mode_str_16(g_cpu_ir));
1895	}
1896
1897	static void d68000_movem_pd_32(void)
1898	{
1899	uint data = read_imm_16();
1900	char buffer[40];
1901	uint first;
1902	uint run_length;
1903	uint i;
1904
1905	buffer[0] = 0;
1906	for(i=0;i<8;i++)
1907	{
1908	if(data&(1<<(15-i)))
1909	{
1910	first = i;
1911	run_length = 0;
1912	while(i<7 && (data&(1<<(15-(i+1)))))
1913	{
1914	i++;
1915	run_length++;
1916	}
1917	if(buffer[0] != 0)
1918	strcat(buffer, "/");
1919	sprintf(buffer+strlen(buffer), "D%d", first);
1920	if(run_length > 0)
1921	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
1922	}
1923	}
1924	for(i=0;i<8;i++)
1925	{
1926	if(data&(1<<(7-i)))
1927	{
1928	first = i;
1929	run_length = 0;
1930	while(i<7 && (data&(1<<(7-(i+1)))))
1931	{
1932	i++;
1933	run_length++;
1934	}
1935	if(buffer[0] != 0)
1936	strcat(buffer, "/");
1937	sprintf(buffer+strlen(buffer), "A%d", first);
1938	if(run_length > 0)
1939	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
1940	}
1941	}
1942	sprintf(g_dasm_str, "movem.l %s, %s", buffer, get_ea_mode_str_32(g_cpu_ir));
1943	}
1944
1945	static void d68000_movem_er_16(void)
1946	{
1947	uint data = read_imm_16();
1948	char buffer[40];
1949	uint first;
1950	uint run_length;
1951	uint i;
1952
1953	buffer[0] = 0;
1954	for(i=0;i<8;i++)
1955	{
1956	if(data&(1<<i))
1957	{
1958	first = i;
1959	run_length = 0;
1960	while(i<7 && (data&(1<<(i+1))))
1961	{
1962	i++;
1963	run_length++;
1964	}
1965	if(buffer[0] != 0)
1966	strcat(buffer, "/");
1967	sprintf(buffer+strlen(buffer), "D%d", first);
1968	if(run_length > 0)
1969	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
1970	}
1971	}
1972	for(i=0;i<8;i++)
1973	{
1974	if(data&(1<<(i+8)))
1975	{
1976	first = i;
1977	run_length = 0;
1978	while(i<7 && (data&(1<<(i+8+1))))
1979	{
1980	i++;
1981	run_length++;
1982	}
1983	if(buffer[0] != 0)
1984	strcat(buffer, "/");
1985	sprintf(buffer+strlen(buffer), "A%d", first);
1986	if(run_length > 0)
1987	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
1988	}
1989	}
1990	sprintf(g_dasm_str, "movem.w %s, %s", get_ea_mode_str_16(g_cpu_ir), buffer);
1991	}
1992
1993	static void d68000_movem_er_32(void)
1994	{
1995	uint data = read_imm_16();
1996	char buffer[40];
1997	uint first;
1998	uint run_length;
1999	uint i;
2000
2001	buffer[0] = 0;
2002	for(i=0;i<8;i++)
2003	{
2004	if(data&(1<<i))
2005	{
2006	first = i;
2007	run_length = 0;
2008	while(i<7 && (data&(1<<(i+1))))
2009	{
2010	i++;
2011	run_length++;
2012	}
2013	if(buffer[0] != 0)
2014	strcat(buffer, "/");
2015	sprintf(buffer+strlen(buffer), "D%d", first);
2016	if(run_length > 0)
2017	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
2018	}
2019	}
2020	for(i=0;i<8;i++)
2021	{
2022	if(data&(1<<(i+8)))
2023	{
2024	first = i;
2025	run_length = 0;
2026	while(i<7 && (data&(1<<(i+8+1))))
2027	{
2028	i++;
2029	run_length++;
2030	}
2031	if(buffer[0] != 0)
2032	strcat(buffer, "/");
2033	sprintf(buffer+strlen(buffer), "A%d", first);
2034	if(run_length > 0)
2035	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
2036	}
2037	}
2038	sprintf(g_dasm_str, "movem.l %s, %s", get_ea_mode_str_32(g_cpu_ir), buffer);
2039	}
2040
2041	static void d68000_movem_re_16(void)
2042	{
2043	uint data = read_imm_16();
2044	char buffer[40];
2045	uint first;
2046	uint run_length;
2047	uint i;
2048
2049	buffer[0] = 0;
2050	for(i=0;i<8;i++)
2051	{
2052	if(data&(1<<i))
2053	{
2054	first = i;
2055	run_length = 0;
2056	while(i<7 && (data&(1<<(i+1))))
2057	{
2058	i++;
2059	run_length++;
2060	}
2061	if(buffer[0] != 0)
2062	strcat(buffer, "/");
2063	sprintf(buffer+strlen(buffer), "D%d", first);
2064	if(run_length > 0)
2065	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
2066	}
2067	}
2068	for(i=0;i<8;i++)
2069	{
2070	if(data&(1<<(i+8)))
2071	{
2072	first = i;
2073	run_length = 0;
2074	while(i<7 && (data&(1<<(i+8+1))))
2075	{
2076	i++;
2077	run_length++;
2078	}
2079	if(buffer[0] != 0)
2080	strcat(buffer, "/");
2081	sprintf(buffer+strlen(buffer), "A%d", first);
2082	if(run_length > 0)
2083	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
2084	}
2085	}
2086	sprintf(g_dasm_str, "movem.w %s, %s", buffer, get_ea_mode_str_16(g_cpu_ir));
2087	}
2088
2089	static void d68000_movem_re_32(void)
2090	{
2091	uint data = read_imm_16();
2092	char buffer[40];
2093	uint first;
2094	uint run_length;
2095	uint i;
2096
2097	buffer[0] = 0;
2098	for(i=0;i<8;i++)
2099	{
2100	if(data&(1<<i))
2101	{
2102	first = i;
2103	run_length = 0;
2104	while(i<7 && (data&(1<<(i+1))))
2105	{
2106	i++;
2107	run_length++;
2108	}
2109	if(buffer[0] != 0)
2110	strcat(buffer, "/");
2111	sprintf(buffer+strlen(buffer), "D%d", first);
2112	if(run_length > 0)
2113	sprintf(buffer+strlen(buffer), "-D%d", first + run_length);
2114	}
2115	}
2116	for(i=0;i<8;i++)
2117	{
2118	if(data&(1<<(i+8)))
2119	{
2120	first = i;
2121	run_length = 0;
2122	while(i<7 && (data&(1<<(i+8+1))))
2123	{
2124	i++;
2125	run_length++;
2126	}
2127	if(buffer[0] != 0)
2128	strcat(buffer, "/");
2129	sprintf(buffer+strlen(buffer), "A%d", first);
2130	if(run_length > 0)
2131	sprintf(buffer+strlen(buffer), "-A%d", first + run_length);
2132	}
2133	}
2134	sprintf(g_dasm_str, "movem.l %s, %s", buffer, get_ea_mode_str_32(g_cpu_ir));
2135	}
2136
2137	static void d68000_movep_re_16(void)
2138	{
2139	sprintf(g_dasm_str, "movep.w D%d, ($%x,A%d)", (g_cpu_ir>>9)&7, read_imm_16(), g_cpu_ir&7);
2140	}
2141
2142	static void d68000_movep_re_32(void)
2143	{
2144	sprintf(g_dasm_str, "movep.l D%d, ($%x,A%d)", (g_cpu_ir>>9)&7, read_imm_16(), g_cpu_ir&7);
2145	}
2146
2147	static void d68000_movep_er_16(void)
2148	{
2149	sprintf(g_dasm_str, "movep.w ($%x,A%d), D%d", read_imm_16(), g_cpu_ir&7, (g_cpu_ir>>9)&7);
2150	}
2151
2152	static void d68000_movep_er_32(void)
2153	{
2154	sprintf(g_dasm_str, "movep.l ($%x,A%d), D%d", read_imm_16(), g_cpu_ir&7, (g_cpu_ir>>9)&7);
2155	}
2156
2157	static void d68010_moves_8(void)
2158	{
2159	uint extension;
2160	LIMIT_CPU_TYPES(M68010_PLUS);
2161	extension = read_imm_16();
2162	if(BIT_B(extension))
2163	sprintf(g_dasm_str, "moves.b %c%d, %s; (1+)", BIT_F(extension) ? 'A' : 'D', (extension>>12)&7, get_ea_mode_str_8(g_cpu_ir));
2164	else
2165	sprintf(g_dasm_str, "moves.b %s, %c%d; (1+)", get_ea_mode_str_8(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
2166	}
2167
2168	static void d68010_moves_16(void)
2169	{
2170	uint extension;
2171	LIMIT_CPU_TYPES(M68010_PLUS);
2172	extension = read_imm_16();
2173	if(BIT_B(extension))
2174	sprintf(g_dasm_str, "moves.w %c%d, %s; (1+)", BIT_F(extension) ? 'A' : 'D', (extension>>12)&7, get_ea_mode_str_16(g_cpu_ir));
2175	else
2176	sprintf(g_dasm_str, "moves.w %s, %c%d; (1+)", get_ea_mode_str_16(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
2177	}
2178
2179	static void d68010_moves_32(void)
2180	{
2181	uint extension;
2182	LIMIT_CPU_TYPES(M68010_PLUS);
2183	extension = read_imm_16();
2184	if(BIT_B(extension))
2185	sprintf(g_dasm_str, "moves.l %c%d, %s; (1+)", BIT_F(extension) ? 'A' : 'D', (extension>>12)&7, get_ea_mode_str_32(g_cpu_ir));
2186	else
2187	sprintf(g_dasm_str, "moves.l %s, %c%d; (1+)", get_ea_mode_str_32(g_cpu_ir), BIT_F(extension) ? 'A' : 'D', (extension>>12)&7);
2188	}
2189
2190	static void d68000_moveq(void)
2191	{
2192	sprintf(g_dasm_str, "moveq #%s, D%d", make_signed_hex_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
2193	}
2194
2195	static void d68040_move16_pi_pi(void)
2196	{
2197	LIMIT_CPU_TYPES(M68040_PLUS);
2198	sprintf(g_dasm_str, "move16 (A%d)+, (A%d)+; (4)", g_cpu_ir&7, (read_imm_16()>>12)&7);
2199	}
2200
2201	static void d68040_move16_pi_al(void)
2202	{
2203	LIMIT_CPU_TYPES(M68040_PLUS);
2204	sprintf(g_dasm_str, "move16 (A%d)+, %s; (4)", g_cpu_ir&7, get_imm_str_u32());
2205	}
2206
2207	static void d68040_move16_al_pi(void)
2208	{
2209	LIMIT_CPU_TYPES(M68040_PLUS);
2210	sprintf(g_dasm_str, "move16 %s, (A%d)+; (4)", get_imm_str_u32(), g_cpu_ir&7);
2211	}
2212
2213	static void d68040_move16_ai_al(void)
2214	{
2215	LIMIT_CPU_TYPES(M68040_PLUS);
2216	sprintf(g_dasm_str, "move16 (A%d), %s; (4)", g_cpu_ir&7, get_imm_str_u32());
2217	}
2218
2219	static void d68040_move16_al_ai(void)
2220	{
2221	LIMIT_CPU_TYPES(M68040_PLUS);
2222	sprintf(g_dasm_str, "move16 %s, (A%d); (4)", get_imm_str_u32(), g_cpu_ir&7);
2223	}
2224
2225	static void d68000_muls(void)
2226	{
2227	sprintf(g_dasm_str, "muls.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
2228	}
2229
2230	static void d68000_mulu(void)
2231	{
2232	sprintf(g_dasm_str, "mulu.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
2233	}
2234
2235	static void d68020_mull(void)
2236	{
2237	uint extension;
2238	LIMIT_CPU_TYPES(M68020_PLUS);
2239	extension = read_imm_16();
2240
2241	if(BIT_A(extension))
2242	sprintf(g_dasm_str, "mul%c.l %s, D%d:D%d; (2+)", BIT_B(extension) ? 's' : 'u', get_ea_mode_str_32(g_cpu_ir), extension&7, (extension>>12)&7);
2243	else
2244	sprintf(g_dasm_str, "mul%c.l %s, D%d; (2+)", BIT_B(extension) ? 's' : 'u', get_ea_mode_str_32(g_cpu_ir), (extension>>12)&7);
2245	}
2246
2247	static void d68000_nbcd(void)
2248	{
2249	sprintf(g_dasm_str, "nbcd %s", get_ea_mode_str_8(g_cpu_ir));
2250	}
2251
2252	static void d68000_neg_8(void)
2253	{
2254	sprintf(g_dasm_str, "neg.b %s", get_ea_mode_str_8(g_cpu_ir));
2255	}
2256
2257	static void d68000_neg_16(void)
2258	{
2259	sprintf(g_dasm_str, "neg.w %s", get_ea_mode_str_16(g_cpu_ir));
2260	}
2261
2262	static void d68000_neg_32(void)
2263	{
2264	sprintf(g_dasm_str, "neg.l %s", get_ea_mode_str_32(g_cpu_ir));
2265	}
2266
2267	static void d68000_negx_8(void)
2268	{
2269	sprintf(g_dasm_str, "negx.b %s", get_ea_mode_str_8(g_cpu_ir));
2270	}
2271
2272	static void d68000_negx_16(void)
2273	{
2274	sprintf(g_dasm_str, "negx.w %s", get_ea_mode_str_16(g_cpu_ir));
2275	}
2276
2277	static void d68000_negx_32(void)
2278	{
2279	sprintf(g_dasm_str, "negx.l %s", get_ea_mode_str_32(g_cpu_ir));
2280	}
2281
2282	static void d68000_nop(void)
2283	{
2284	sprintf(g_dasm_str, "nop");
2285	}
2286
2287	static void d68000_not_8(void)
2288	{
2289	sprintf(g_dasm_str, "not.b %s", get_ea_mode_str_8(g_cpu_ir));
2290	}
2291
2292	static void d68000_not_16(void)
2293	{
2294	sprintf(g_dasm_str, "not.w %s", get_ea_mode_str_16(g_cpu_ir));
2295	}
2296
2297	static void d68000_not_32(void)
2298	{
2299	sprintf(g_dasm_str, "not.l %s", get_ea_mode_str_32(g_cpu_ir));
2300	}
2301
2302	static void d68000_or_er_8(void)
2303	{
2304	sprintf(g_dasm_str, "or.b %s, D%d", get_ea_mode_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
2305	}
2306
2307	static void d68000_or_er_16(void)
2308	{
2309	sprintf(g_dasm_str, "or.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
2310	}
2311
2312	static void d68000_or_er_32(void)
2313	{
2314	sprintf(g_dasm_str, "or.l %s, D%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
2315	}
2316
2317	static void d68000_or_re_8(void)
2318	{
2319	sprintf(g_dasm_str, "or.b D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
2320	}
2321
2322	static void d68000_or_re_16(void)
2323	{
2324	sprintf(g_dasm_str, "or.w D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_16(g_cpu_ir));
2325	}
2326
2327	static void d68000_or_re_32(void)
2328	{
2329	sprintf(g_dasm_str, "or.l D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_32(g_cpu_ir));
2330	}
2331
2332	static void d68000_ori_8(void)
2333	{
2334	char* str = get_imm_str_u8();
2335	sprintf(g_dasm_str, "ori.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
2336	}
2337
2338	static void d68000_ori_16(void)
2339	{
2340	char* str = get_imm_str_u16();
2341	sprintf(g_dasm_str, "ori.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
2342	}
2343
2344	static void d68000_ori_32(void)
2345	{
2346	char* str = get_imm_str_u32();
2347	sprintf(g_dasm_str, "ori.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
2348	}
2349
2350	static void d68000_ori_to_ccr(void)
2351	{
2352	sprintf(g_dasm_str, "ori %s, CCR", get_imm_str_u8());
2353	}
2354
2355	static void d68000_ori_to_sr(void)
2356	{
2357	sprintf(g_dasm_str, "ori %s, SR", get_imm_str_u16());
2358	}
2359
2360	static void d68020_pack_rr(void)
2361	{
2362	LIMIT_CPU_TYPES(M68020_PLUS);
2363	sprintf(g_dasm_str, "pack D%d, D%d, %s; (2+)", g_cpu_ir&7, (g_cpu_ir>>9)&7, get_imm_str_u16());
2364	}
2365
2366	static void d68020_pack_mm(void)
2367	{
2368	LIMIT_CPU_TYPES(M68020_PLUS);
2369	sprintf(g_dasm_str, "pack -(A%d), -(A%d), %s; (2+)", g_cpu_ir&7, (g_cpu_ir>>9)&7, get_imm_str_u16());
2370	}
2371
2372	static void d68000_pea(void)
2373	{
2374	sprintf(g_dasm_str, "pea %s", get_ea_mode_str_32(g_cpu_ir));
2375	}
2376
2377	static void d68000_reset(void)
2378	{
2379	sprintf(g_dasm_str, "reset");
2380	}
2381
2382	static void d68000_ror_s_8(void)
2383	{
2384	sprintf(g_dasm_str, "ror.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2385	}
2386
2387	static void d68000_ror_s_16(void)
2388	{
2389	sprintf(g_dasm_str, "ror.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7],g_cpu_ir&7);
2390	}
2391
2392	static void d68000_ror_s_32(void)
2393	{
2394	sprintf(g_dasm_str, "ror.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2395	}
2396
2397	static void d68000_ror_r_8(void)
2398	{
2399	sprintf(g_dasm_str, "ror.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2400	}
2401
2402	static void d68000_ror_r_16(void)
2403	{
2404	sprintf(g_dasm_str, "ror.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2405	}
2406
2407	static void d68000_ror_r_32(void)
2408	{
2409	sprintf(g_dasm_str, "ror.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2410	}
2411
2412	static void d68000_ror_ea(void)
2413	{
2414	sprintf(g_dasm_str, "ror.w %s", get_ea_mode_str_32(g_cpu_ir));
2415	}
2416
2417	static void d68000_rol_s_8(void)
2418	{
2419	sprintf(g_dasm_str, "rol.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2420	}
2421
2422	static void d68000_rol_s_16(void)
2423	{
2424	sprintf(g_dasm_str, "rol.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2425	}
2426
2427	static void d68000_rol_s_32(void)
2428	{
2429	sprintf(g_dasm_str, "rol.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2430	}
2431
2432	static void d68000_rol_r_8(void)
2433	{
2434	sprintf(g_dasm_str, "rol.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2435	}
2436
2437	static void d68000_rol_r_16(void)
2438	{
2439	sprintf(g_dasm_str, "rol.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2440	}
2441
2442	static void d68000_rol_r_32(void)
2443	{
2444	sprintf(g_dasm_str, "rol.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2445	}
2446
2447	static void d68000_rol_ea(void)
2448	{
2449	sprintf(g_dasm_str, "rol.w %s", get_ea_mode_str_32(g_cpu_ir));
2450	}
2451
2452	static void d68000_roxr_s_8(void)
2453	{
2454	sprintf(g_dasm_str, "roxr.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2455	}
2456
2457	static void d68000_roxr_s_16(void)
2458	{
2459	sprintf(g_dasm_str, "roxr.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2460	}
2461
2462
2463	static void d68000_roxr_s_32(void)
2464	{
2465	sprintf(g_dasm_str, "roxr.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2466	}
2467
2468	static void d68000_roxr_r_8(void)
2469	{
2470	sprintf(g_dasm_str, "roxr.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2471	}
2472
2473	static void d68000_roxr_r_16(void)
2474	{
2475	sprintf(g_dasm_str, "roxr.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2476	}
2477
2478	static void d68000_roxr_r_32(void)
2479	{
2480	sprintf(g_dasm_str, "roxr.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2481	}
2482
2483	static void d68000_roxr_ea(void)
2484	{
2485	sprintf(g_dasm_str, "roxr.w %s", get_ea_mode_str_32(g_cpu_ir));
2486	}
2487
2488	static void d68000_roxl_s_8(void)
2489	{
2490	sprintf(g_dasm_str, "roxl.b #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2491	}
2492
2493	static void d68000_roxl_s_16(void)
2494	{
2495	sprintf(g_dasm_str, "roxl.w #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2496	}
2497
2498	static void d68000_roxl_s_32(void)
2499	{
2500	sprintf(g_dasm_str, "roxl.l #%d, D%d", g_3bit_qdata_table[(g_cpu_ir>>9)&7], g_cpu_ir&7);
2501	}
2502
2503	static void d68000_roxl_r_8(void)
2504	{
2505	sprintf(g_dasm_str, "roxl.b D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2506	}
2507
2508	static void d68000_roxl_r_16(void)
2509	{
2510	sprintf(g_dasm_str, "roxl.w D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2511	}
2512
2513	static void d68000_roxl_r_32(void)
2514	{
2515	sprintf(g_dasm_str, "roxl.l D%d, D%d", (g_cpu_ir>>9)&7, g_cpu_ir&7);
2516	}
2517
2518	static void d68000_roxl_ea(void)
2519	{
2520	sprintf(g_dasm_str, "roxl.w %s", get_ea_mode_str_32(g_cpu_ir));
2521	}
2522
2523	static void d68010_rtd(void)
2524	{
2525	LIMIT_CPU_TYPES(M68010_PLUS);
2526	sprintf(g_dasm_str, "rtd %s; (1+)", get_imm_str_s16());
2527	}
2528
2529	static void d68000_rte(void)
2530	{
2531	sprintf(g_dasm_str, "rte");
2532	}
2533
2534	static void d68020_rtm(void)
2535	{
2536	LIMIT_CPU_TYPES(M68020_ONLY);
2537	sprintf(g_dasm_str, "rtm %c%d; (2+)", BIT_3(g_cpu_ir) ? 'A' : 'D', g_cpu_ir&7);
2538	}
2539
2540	static void d68000_rtr(void)
2541	{
2542	sprintf(g_dasm_str, "rtr");
2543	}
2544
2545	static void d68000_rts(void)
2546	{
2547	sprintf(g_dasm_str, "rts");
2548	}
2549
2550	static void d68000_sbcd_rr(void)
2551	{
2552	sprintf(g_dasm_str, "sbcd D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2553	}
2554
2555	static void d68000_sbcd_mm(void)
2556	{
2557	sprintf(g_dasm_str, "sbcd -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2558	}
2559
2560	static void d68000_scc(void)
2561	{
2562	sprintf(g_dasm_str, "s%-2s %s", g_cc[(g_cpu_ir>>8)&0xf], get_ea_mode_str_8(g_cpu_ir));
2563	}
2564
2565	static void d68000_stop(void)
2566	{
2567	sprintf(g_dasm_str, "stop %s", get_imm_str_s16());
2568	}
2569
2570	static void d68000_sub_er_8(void)
2571	{
2572	sprintf(g_dasm_str, "sub.b %s, D%d", get_ea_mode_str_8(g_cpu_ir), (g_cpu_ir>>9)&7);
2573	}
2574
2575	static void d68000_sub_er_16(void)
2576	{
2577	sprintf(g_dasm_str, "sub.w %s, D%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
2578	}
2579
2580	static void d68000_sub_er_32(void)
2581	{
2582	sprintf(g_dasm_str, "sub.l %s, D%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
2583	}
2584
2585	static void d68000_sub_re_8(void)
2586	{
2587	sprintf(g_dasm_str, "sub.b D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_8(g_cpu_ir));
2588	}
2589
2590	static void d68000_sub_re_16(void)
2591	{
2592	sprintf(g_dasm_str, "sub.w D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_16(g_cpu_ir));
2593	}
2594
2595	static void d68000_sub_re_32(void)
2596	{
2597	sprintf(g_dasm_str, "sub.l D%d, %s", (g_cpu_ir>>9)&7, get_ea_mode_str_32(g_cpu_ir));
2598	}
2599
2600	static void d68000_suba_16(void)
2601	{
2602	sprintf(g_dasm_str, "suba.w %s, A%d", get_ea_mode_str_16(g_cpu_ir), (g_cpu_ir>>9)&7);
2603	}
2604
2605	static void d68000_suba_32(void)
2606	{
2607	sprintf(g_dasm_str, "suba.l %s, A%d", get_ea_mode_str_32(g_cpu_ir), (g_cpu_ir>>9)&7);
2608	}
2609
2610	static void d68000_subi_8(void)
2611	{
2612	char* str = get_imm_str_s8();
2613	sprintf(g_dasm_str, "subi.b %s, %s", str, get_ea_mode_str_8(g_cpu_ir));
2614	}
2615
2616	static void d68000_subi_16(void)
2617	{
2618	char* str = get_imm_str_s16();
2619	sprintf(g_dasm_str, "subi.w %s, %s", str, get_ea_mode_str_16(g_cpu_ir));
2620	}
2621
2622	static void d68000_subi_32(void)
2623	{
2624	char* str = get_imm_str_s32();
2625	sprintf(g_dasm_str, "subi.l %s, %s", str, get_ea_mode_str_32(g_cpu_ir));
2626	}
2627
2628	static void d68000_subq_8(void)
2629	{
2630	sprintf(g_dasm_str, "subq.b #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_8(g_cpu_ir));
2631	}
2632
2633	static void d68000_subq_16(void)
2634	{
2635	sprintf(g_dasm_str, "subq.w #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_16(g_cpu_ir));
2636	}
2637
2638	static void d68000_subq_32(void)
2639	{
2640	sprintf(g_dasm_str, "subq.l #%d, %s", g_3bit_qdata_table[(g_cpu_ir>>9)&7], get_ea_mode_str_32(g_cpu_ir));
2641	}
2642
2643	static void d68000_subx_rr_8(void)
2644	{
2645	sprintf(g_dasm_str, "subx.b D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2646	}
2647
2648	static void d68000_subx_rr_16(void)
2649	{
2650	sprintf(g_dasm_str, "subx.w D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2651	}
2652
2653	static void d68000_subx_rr_32(void)
2654	{
2655	sprintf(g_dasm_str, "subx.l D%d, D%d", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2656	}
2657
2658	static void d68000_subx_mm_8(void)
2659	{
2660	sprintf(g_dasm_str, "subx.b -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2661	}
2662
2663	static void d68000_subx_mm_16(void)
2664	{
2665	sprintf(g_dasm_str, "subx.w -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2666	}
2667
2668	static void d68000_subx_mm_32(void)
2669	{
2670	sprintf(g_dasm_str, "subx.l -(A%d), -(A%d)", g_cpu_ir&7, (g_cpu_ir>>9)&7);
2671	}
2672
2673	static void d68000_swap(void)
2674	{
2675	sprintf(g_dasm_str, "swap D%d", g_cpu_ir&7);
2676	}
2677
2678	static void d68000_tas(void)
2679	{
2680	sprintf(g_dasm_str, "tas %s", get_ea_mode_str_8(g_cpu_ir));
2681	}
2682
2683	static void d68000_trap(void)
2684	{
2685	sprintf(g_dasm_str, "trap #$%x", g_cpu_ir&0xf);
2686	}
2687
2688	static void d68020_trapcc_0(void)
2689	{
2690	LIMIT_CPU_TYPES(M68020_PLUS);
2691	sprintf(g_dasm_str, "trap%-2s; (2+)", g_cc[(g_cpu_ir>>8)&0xf]);
2692	}
2693
2694	static void d68020_trapcc_16(void)
2695	{
2696	LIMIT_CPU_TYPES(M68020_PLUS);
2697	sprintf(g_dasm_str, "trap%-2s %s; (2+)", g_cc[(g_cpu_ir>>8)&0xf], get_imm_str_u16());
2698	}
2699
2700	static void d68020_trapcc_32(void)
2701	{
2702	LIMIT_CPU_TYPES(M68020_PLUS);
2703	sprintf(g_dasm_str, "trap%-2s %s; (2+)", g_cc[(g_cpu_ir>>8)&0xf], get_imm_str_u32());
2704	}
2705
2706	static void d68000_trapv(void)
2707	{
2708	sprintf(g_dasm_str, "trapv");
2709	}
2710
2711	static void d68000_tst_8(void)
2712	{
2713	sprintf(g_dasm_str, "tst.b %s", get_ea_mode_str_8(g_cpu_ir));
2714	}
2715
2716	static void d68020_tst_pcdi_8(void)
2717	{
2718	LIMIT_CPU_TYPES(M68020_PLUS);
2719	sprintf(g_dasm_str, "tst.b %s; (2+)", get_ea_mode_str_8(g_cpu_ir));
2720	}
2721
2722	static void d68020_tst_pcix_8(void)
2723	{
2724	LIMIT_CPU_TYPES(M68020_PLUS);
2725	sprintf(g_dasm_str, "tst.b %s; (2+)", get_ea_mode_str_8(g_cpu_ir));
2726	}
2727
2728	static void d68020_tst_i_8(void)
2729	{
2730	LIMIT_CPU_TYPES(M68020_PLUS);
2731	sprintf(g_dasm_str, "tst.b %s; (2+)", get_ea_mode_str_8(g_cpu_ir));
2732	}
2733
2734	static void d68000_tst_16(void)
2735	{
2736	sprintf(g_dasm_str, "tst.w %s", get_ea_mode_str_16(g_cpu_ir));
2737	}
2738
2739	static void d68020_tst_a_16(void)
2740	{
2741	LIMIT_CPU_TYPES(M68020_PLUS);
2742	sprintf(g_dasm_str, "tst.w %s; (2+)", get_ea_mode_str_16(g_cpu_ir));
2743	}
2744
2745	static void d68020_tst_pcdi_16(void)
2746	{
2747	LIMIT_CPU_TYPES(M68020_PLUS);
2748	sprintf(g_dasm_str, "tst.w %s; (2+)", get_ea_mode_str_16(g_cpu_ir));
2749	}
2750
2751	static void d68020_tst_pcix_16(void)
2752	{
2753	LIMIT_CPU_TYPES(M68020_PLUS);
2754	sprintf(g_dasm_str, "tst.w %s; (2+)", get_ea_mode_str_16(g_cpu_ir));
2755	}
2756
2757	static void d68020_tst_i_16(void)
2758	{
2759	LIMIT_CPU_TYPES(M68020_PLUS);
2760	sprintf(g_dasm_str, "tst.w %s; (2+)", get_ea_mode_str_16(g_cpu_ir));
2761	}
2762
2763	static void d68000_tst_32(void)
2764	{
2765	sprintf(g_dasm_str, "tst.l %s", get_ea_mode_str_32(g_cpu_ir));
2766	}
2767
2768	static void d68020_tst_a_32(void)
2769	{
2770	LIMIT_CPU_TYPES(M68020_PLUS);
2771	sprintf(g_dasm_str, "tst.l %s; (2+)", get_ea_mode_str_32(g_cpu_ir));
2772	}
2773
2774	static void d68020_tst_pcdi_32(void)
2775	{
2776	LIMIT_CPU_TYPES(M68020_PLUS);
2777	sprintf(g_dasm_str, "tst.l %s; (2+)", get_ea_mode_str_32(g_cpu_ir));
2778	}
2779
2780	static void d68020_tst_pcix_32(void)
2781	{
2782	LIMIT_CPU_TYPES(M68020_PLUS);
2783	sprintf(g_dasm_str, "tst.l %s; (2+)", get_ea_mode_str_32(g_cpu_ir));
2784	}
2785
2786	static void d68020_tst_i_32(void)
2787	{
2788	LIMIT_CPU_TYPES(M68020_PLUS);
2789	sprintf(g_dasm_str, "tst.l %s; (2+)", get_ea_mode_str_32(g_cpu_ir));
2790	}
2791
2792	static void d68000_unlk(void)
2793	{
2794	sprintf(g_dasm_str, "unlk A%d", g_cpu_ir&7);
2795	}
2796
2797	static void d68020_unpk_rr(void)
2798	{
2799	LIMIT_CPU_TYPES(M68020_PLUS);
2800	sprintf(g_dasm_str, "unpk D%d, D%d, %s; (2+)", g_cpu_ir&7, (g_cpu_ir>>9)&7, get_imm_str_u16());
2801	}
2802
2803	static void d68020_unpk_mm(void)
2804	{
2805	LIMIT_CPU_TYPES(M68020_PLUS);
2806	sprintf(g_dasm_str, "unpk -(A%d), -(A%d), %s; (2+)", g_cpu_ir&7, (g_cpu_ir>>9)&7, get_imm_str_u16());
2807	}
2808
2809
2810
2811	/* ======================================================================== */
2812	/* ======================= INSTRUCTION TABLE BUILDER ====================== */
2813	/* ======================================================================== */
2814
2815	/* EA Masks:
2816	800 = data register direct
2817	400 = address register direct
2818	200 = address register indirect
2819	100 = ARI postincrement
2820	80 = ARI pre-decrement
2821	40 = ARI displacement
2822	20 = ARI index
2823	10 = absolute short
2824	8 = absolute long
2825	4 = immediate / sr
2826	2 = pc displacement
2827	1 = pc idx
2828	*/
2829
2830	static opcode_struct g_opcode_info[] =
2831	{
2832	/* opcode handler mask match ea mask */
2833	{d68000_1010 , 0xf000, 0xa000, 0x000},
2834	{d68000_1111 , 0xf000, 0xf000, 0x000},
2835	{d68000_abcd_rr , 0xf1f8, 0xc100, 0x000},
2836	{d68000_abcd_mm , 0xf1f8, 0xc108, 0x000},
2837	{d68000_add_er_8 , 0xf1c0, 0xd000, 0xbff},
2838	{d68000_add_er_16 , 0xf1c0, 0xd040, 0xfff},
2839	{d68000_add_er_32 , 0xf1c0, 0xd080, 0xfff},
2840	{d68000_add_re_8 , 0xf1c0, 0xd100, 0x3f8},
2841	{d68000_add_re_16 , 0xf1c0, 0xd140, 0x3f8},
2842	{d68000_add_re_32 , 0xf1c0, 0xd180, 0x3f8},
2843	{d68000_adda_16 , 0xf1c0, 0xd0c0, 0xfff},
2844	{d68000_adda_32 , 0xf1c0, 0xd1c0, 0xfff},
2845	{d68000_addi_8 , 0xffc0, 0x0600, 0xbf8},
2846	{d68000_addi_16 , 0xffc0, 0x0640, 0xbf8},
2847	{d68000_addi_32 , 0xffc0, 0x0680, 0xbf8},
2848	{d68000_addq_8 , 0xf1c0, 0x5000, 0xbf8},
2849	{d68000_addq_16 , 0xf1c0, 0x5040, 0xff8},
2850	{d68000_addq_32 , 0xf1c0, 0x5080, 0xff8},
2851	{d68000_addx_rr_8 , 0xf1f8, 0xd100, 0x000},
2852	{d68000_addx_rr_16 , 0xf1f8, 0xd140, 0x000},
2853	{d68000_addx_rr_32 , 0xf1f8, 0xd180, 0x000},
2854	{d68000_addx_mm_8 , 0xf1f8, 0xd108, 0x000},
2855	{d68000_addx_mm_16 , 0xf1f8, 0xd148, 0x000},
2856	{d68000_addx_mm_32 , 0xf1f8, 0xd188, 0x000},
2857	{d68000_and_er_8 , 0xf1c0, 0xc000, 0xbff},
2858	{d68000_and_er_16 , 0xf1c0, 0xc040, 0xbff},
2859	{d68000_and_er_32 , 0xf1c0, 0xc080, 0xbff},
2860	{d68000_and_re_8 , 0xf1c0, 0xc100, 0x3f8},
2861	{d68000_and_re_16 , 0xf1c0, 0xc140, 0x3f8},
2862	{d68000_and_re_32 , 0xf1c0, 0xc180, 0x3f8},
2863	{d68000_andi_to_ccr , 0xffff, 0x023c, 0x000},
2864	{d68000_andi_to_sr , 0xffff, 0x027c, 0x000},
2865	{d68000_andi_8 , 0xffc0, 0x0200, 0xbf8},
2866	{d68000_andi_16 , 0xffc0, 0x0240, 0xbf8},
2867	{d68000_andi_32 , 0xffc0, 0x0280, 0xbf8},
2868	{d68000_asr_s_8 , 0xf1f8, 0xe000, 0x000},
2869	{d68000_asr_s_16 , 0xf1f8, 0xe040, 0x000},
2870	{d68000_asr_s_32 , 0xf1f8, 0xe080, 0x000},
2871	{d68000_asr_r_8 , 0xf1f8, 0xe020, 0x000},
2872	{d68000_asr_r_16 , 0xf1f8, 0xe060, 0x000},
2873	{d68000_asr_r_32 , 0xf1f8, 0xe0a0, 0x000},
2874	{d68000_asr_ea , 0xffc0, 0xe0c0, 0x3f8},
2875	{d68000_asl_s_8 , 0xf1f8, 0xe100, 0x000},
2876	{d68000_asl_s_16 , 0xf1f8, 0xe140, 0x000},
2877	{d68000_asl_s_32 , 0xf1f8, 0xe180, 0x000},
2878	{d68000_asl_r_8 , 0xf1f8, 0xe120, 0x000},
2879	{d68000_asl_r_16 , 0xf1f8, 0xe160, 0x000},
2880	{d68000_asl_r_32 , 0xf1f8, 0xe1a0, 0x000},
2881	{d68000_asl_ea , 0xffc0, 0xe1c0, 0x3f8},
2882	{d68000_bcc_8 , 0xf000, 0x6000, 0x000},
2883	{d68000_bcc_16 , 0xf0ff, 0x6000, 0x000},
2884	{d68020_bcc_32 , 0xf0ff, 0x60ff, 0x000},
2885	{d68000_bchg_r , 0xf1c0, 0x0140, 0xbf8},
2886	{d68000_bchg_s , 0xffc0, 0x0840, 0xbf8},
2887	{d68000_bclr_r , 0xf1c0, 0x0180, 0xbf8},
2888	{d68000_bclr_s , 0xffc0, 0x0880, 0xbf8},
2889	{d68020_bfchg , 0xffc0, 0xeac0, 0xa78},
2890	{d68020_bfclr , 0xffc0, 0xecc0, 0xa78},
2891	{d68020_bfexts , 0xffc0, 0xebc0, 0xa7b},
2892	{d68020_bfextu , 0xffc0, 0xe9c0, 0xa7b},
2893	{d68020_bfffo , 0xffc0, 0xedc0, 0xa7b},
2894	{d68020_bfins , 0xffc0, 0xefc0, 0xa78},
2895	{d68020_bfset , 0xffc0, 0xeec0, 0xa78},
2896	{d68020_bftst , 0xffc0, 0xe8c0, 0xa7b},
2897	{d68010_bkpt , 0xfff8, 0x4848, 0x000},
2898	{d68000_bra_8 , 0xff00, 0x6000, 0x000},
2899	{d68000_bra_16 , 0xffff, 0x6000, 0x000},
2900	{d68020_bra_32 , 0xffff, 0x60ff, 0x000},
2901	{d68000_bset_r , 0xf1c0, 0x01c0, 0xbf8},
2902	{d68000_bset_s , 0xffc0, 0x08c0, 0xbf8},
2903	{d68000_bsr_8 , 0xff00, 0x6100, 0x000},
2904	{d68000_bsr_16 , 0xffff, 0x6100, 0x000},
2905	{d68020_bsr_32 , 0xffff, 0x61ff, 0x000},
2906	{d68000_btst_r , 0xf1c0, 0x0100, 0xbff},
2907	{d68000_btst_s , 0xffc0, 0x0800, 0xbfb},
2908	{d68020_callm , 0xffc0, 0x06c0, 0x27b},
2909	{d68020_cas_8 , 0xffc0, 0x0ac0, 0x3f8},
2910	{d68020_cas_16 , 0xffc0, 0x0cc0, 0x3f8},
2911	{d68020_cas_32 , 0xffc0, 0x0ec0, 0x3f8},
2912	{d68020_cas2_16 , 0xffff, 0x0cfc, 0x000},
2913	{d68020_cas2_32 , 0xffff, 0x0efc, 0x000},
2914	{d68000_chk_16 , 0xf1c0, 0x4180, 0xbff},
2915	{d68020_chk_32 , 0xf1c0, 0x4100, 0xbff},
2916	{d68020_chk2_cmp2_8 , 0xffc0, 0x00c0, 0x27b},
2917	{d68020_chk2_cmp2_16 , 0xffc0, 0x02c0, 0x27b},
2918	{d68020_chk2_cmp2_32 , 0xffc0, 0x04c0, 0x27b},
2919	{d68040_cinv , 0xff20, 0xf400, 0x000},
2920	{d68000_clr_8 , 0xffc0, 0x4200, 0xbf8},
2921	{d68000_clr_16 , 0xffc0, 0x4240, 0xbf8},
2922	{d68000_clr_32 , 0xffc0, 0x4280, 0xbf8},
2923	{d68000_cmp_8 , 0xf1c0, 0xb000, 0xbff},
2924	{d68000_cmp_16 , 0xf1c0, 0xb040, 0xfff},
2925	{d68000_cmp_32 , 0xf1c0, 0xb080, 0xfff},
2926	{d68000_cmpa_16 , 0xf1c0, 0xb0c0, 0xfff},
2927	{d68000_cmpa_32 , 0xf1c0, 0xb1c0, 0xfff},
2928	{d68000_cmpi_8 , 0xffc0, 0x0c00, 0xbf8},
2929	{d68020_cmpi_pcdi_8 , 0xffff, 0x0c3a, 0x000},
2930	{d68020_cmpi_pcix_8 , 0xffff, 0x0c3b, 0x000},
2931	{d68000_cmpi_16 , 0xffc0, 0x0c40, 0xbf8},
2932	{d68020_cmpi_pcdi_16 , 0xffff, 0x0c7a, 0x000},
2933	{d68020_cmpi_pcix_16 , 0xffff, 0x0c7b, 0x000},
2934	{d68000_cmpi_32 , 0xffc0, 0x0c80, 0xbf8},
2935	{d68020_cmpi_pcdi_32 , 0xffff, 0x0cba, 0x000},
2936	{d68020_cmpi_pcix_32 , 0xffff, 0x0cbb, 0x000},
2937	{d68000_cmpm_8 , 0xf1f8, 0xb108, 0x000},
2938	{d68000_cmpm_16 , 0xf1f8, 0xb148, 0x000},
2939	{d68000_cmpm_32 , 0xf1f8, 0xb188, 0x000},
2940	{d68020_cpbcc_16 , 0xf1c0, 0xf080, 0x000},
2941	{d68020_cpbcc_32 , 0xf1c0, 0xf0c0, 0x000},
2942	{d68020_cpdbcc , 0xf1f8, 0xf048, 0x000},
2943	{d68020_cpgen , 0xf1c0, 0xf000, 0x000},
2944	{d68020_cprestore , 0xf1c0, 0xf140, 0x37f},
2945	{d68020_cpsave , 0xf1c0, 0xf100, 0x2f8},
2946	{d68020_cpscc , 0xf1c0, 0xf040, 0xbf8},
2947	{d68020_cptrapcc_0 , 0xf1ff, 0xf07c, 0x000},
2948	{d68020_cptrapcc_16 , 0xf1ff, 0xf07a, 0x000},
2949	{d68020_cptrapcc_32 , 0xf1ff, 0xf07b, 0x000},
2950	{d68040_cpush , 0xff20, 0xf420, 0x000},
2951	{d68000_dbcc , 0xf0f8, 0x50c8, 0x000},
2952	{d68000_dbra , 0xfff8, 0x51c8, 0x000},
2953	{d68000_divs , 0xf1c0, 0x81c0, 0xbff},
2954	{d68000_divu , 0xf1c0, 0x80c0, 0xbff},
2955	{d68020_divl , 0xffc0, 0x4c40, 0xbff},
2956	{d68000_eor_8 , 0xf1c0, 0xb100, 0xbf8},
2957	{d68000_eor_16 , 0xf1c0, 0xb140, 0xbf8},
2958	{d68000_eor_32 , 0xf1c0, 0xb180, 0xbf8},
2959	{d68000_eori_to_ccr , 0xffff, 0x0a3c, 0x000},
2960	{d68000_eori_to_sr , 0xffff, 0x0a7c, 0x000},
2961	{d68000_eori_8 , 0xffc0, 0x0a00, 0xbf8},
2962	{d68000_eori_16 , 0xffc0, 0x0a40, 0xbf8},
2963	{d68000_eori_32 , 0xffc0, 0x0a80, 0xbf8},
2964	{d68000_exg_dd , 0xf1f8, 0xc140, 0x000},
2965	{d68000_exg_aa , 0xf1f8, 0xc148, 0x000},
2966	{d68000_exg_da , 0xf1f8, 0xc188, 0x000},
2967	{d68020_extb_32 , 0xfff8, 0x49c0, 0x000},
2968	{d68000_ext_16 , 0xfff8, 0x4880, 0x000},
2969	{d68000_ext_32 , 0xfff8, 0x48c0, 0x000},
2970	{d68000_illegal , 0xffff, 0x4afc, 0x000},
2971	{d68000_jmp , 0xffc0, 0x4ec0, 0x27b},
2972	{d68000_jsr , 0xffc0, 0x4e80, 0x27b},
2973	{d68000_lea , 0xf1c0, 0x41c0, 0x27b},
2974	{d68000_link_16 , 0xfff8, 0x4e50, 0x000},
2975	{d68020_link_32 , 0xfff8, 0x4808, 0x000},
2976	{d68000_lsr_s_8 , 0xf1f8, 0xe008, 0x000},
2977	{d68000_lsr_s_16 , 0xf1f8, 0xe048, 0x000},
2978	{d68000_lsr_s_32 , 0xf1f8, 0xe088, 0x000},
2979	{d68000_lsr_r_8 , 0xf1f8, 0xe028, 0x000},
2980	{d68000_lsr_r_16 , 0xf1f8, 0xe068, 0x000},
2981	{d68000_lsr_r_32 , 0xf1f8, 0xe0a8, 0x000},
2982	{d68000_lsr_ea , 0xffc0, 0xe2c0, 0x3f8},
2983	{d68000_lsl_s_8 , 0xf1f8, 0xe108, 0x000},
2984	{d68000_lsl_s_16 , 0xf1f8, 0xe148, 0x000},
2985	{d68000_lsl_s_32 , 0xf1f8, 0xe188, 0x000},
2986	{d68000_lsl_r_8 , 0xf1f8, 0xe128, 0x000},
2987	{d68000_lsl_r_16 , 0xf1f8, 0xe168, 0x000},
2988	{d68000_lsl_r_32 , 0xf1f8, 0xe1a8, 0x000},
2989	{d68000_lsl_ea , 0xffc0, 0xe3c0, 0x3f8},
2990	{d68000_move_8 , 0xf000, 0x1000, 0xbff},
2991	{d68000_move_16 , 0xf000, 0x3000, 0xfff},
2992	{d68000_move_32 , 0xf000, 0x2000, 0xfff},
2993	{d68000_movea_16 , 0xf1c0, 0x3040, 0xfff},
2994	{d68000_movea_32 , 0xf1c0, 0x2040, 0xfff},
2995	{d68000_move_to_ccr , 0xffc0, 0x44c0, 0xbff},
2996	{d68010_move_fr_ccr , 0xffc0, 0x42c0, 0xbf8},
2997	{d68000_move_to_sr , 0xffc0, 0x46c0, 0xbff},
2998	{d68000_move_fr_sr , 0xffc0, 0x40c0, 0xbf8},
2999	{d68000_move_to_usp , 0xfff8, 0x4e60, 0x000},
3000	{d68000_move_fr_usp , 0xfff8, 0x4e68, 0x000},
3001	{d68010_movec , 0xfffe, 0x4e7a, 0x000},
3002	{d68000_movem_pd_16 , 0xfff8, 0x48a0, 0x000},
3003	{d68000_movem_pd_32 , 0xfff8, 0x48e0, 0x000},
3004	{d68000_movem_re_16 , 0xffc0, 0x4880, 0x2f8},
3005	{d68000_movem_re_32 , 0xffc0, 0x48c0, 0x2f8},
3006	{d68000_movem_er_16 , 0xffc0, 0x4c80, 0x37b},
3007	{d68000_movem_er_32 , 0xffc0, 0x4cc0, 0x37b},
3008	{d68000_movep_er_16 , 0xf1f8, 0x0108, 0x000},
3009	{d68000_movep_er_32 , 0xf1f8, 0x0148, 0x000},
3010	{d68000_movep_re_16 , 0xf1f8, 0x0188, 0x000},
3011	{d68000_movep_re_32 , 0xf1f8, 0x01c8, 0x000},
3012	{d68010_moves_8 , 0xffc0, 0x0e00, 0x3f8},
3013	{d68010_moves_16 , 0xffc0, 0x0e40, 0x3f8},
3014	{d68010_moves_32 , 0xffc0, 0x0e80, 0x3f8},
3015	{d68000_moveq , 0xf100, 0x7000, 0x000},
3016	{d68040_move16_pi_pi , 0xfff8, 0xf620, 0x000},
3017	{d68040_move16_pi_al , 0xfff8, 0xf600, 0x000},
3018	{d68040_move16_al_pi , 0xfff8, 0xf608, 0x000},
3019	{d68040_move16_ai_al , 0xfff8, 0xf610, 0x000},
3020	{d68040_move16_al_ai , 0xfff8, 0xf618, 0x000},
3021	{d68000_muls , 0xf1c0, 0xc1c0, 0xbff},
3022	{d68000_mulu , 0xf1c0, 0xc0c0, 0xbff},
3023	{d68020_mull , 0xffc0, 0x4c00, 0xbff},
3024	{d68000_nbcd , 0xffc0, 0x4800, 0xbf8},
3025	{d68000_neg_8 , 0xffc0, 0x4400, 0xbf8},
3026	{d68000_neg_16 , 0xffc0, 0x4440, 0xbf8},
3027	{d68000_neg_32 , 0xffc0, 0x4480, 0xbf8},
3028	{d68000_negx_8 , 0xffc0, 0x4000, 0xbf8},
3029	{d68000_negx_16 , 0xffc0, 0x4040, 0xbf8},
3030	{d68000_negx_32 , 0xffc0, 0x4080, 0xbf8},
3031	{d68000_nop , 0xffff, 0x4e71, 0x000},
3032	{d68000_not_8 , 0xffc0, 0x4600, 0xbf8},
3033	{d68000_not_16 , 0xffc0, 0x4640, 0xbf8},
3034	{d68000_not_32 , 0xffc0, 0x4680, 0xbf8},
3035	{d68000_or_er_8 , 0xf1c0, 0x8000, 0xbff},
3036	{d68000_or_er_16 , 0xf1c0, 0x8040, 0xbff},
3037	{d68000_or_er_32 , 0xf1c0, 0x8080, 0xbff},
3038	{d68000_or_re_8 , 0xf1c0, 0x8100, 0x3f8},
3039	{d68000_or_re_16 , 0xf1c0, 0x8140, 0x3f8},
3040	{d68000_or_re_32 , 0xf1c0, 0x8180, 0x3f8},
3041	{d68000_ori_to_ccr , 0xffff, 0x003c, 0x000},
3042	{d68000_ori_to_sr , 0xffff, 0x007c, 0x000},
3043	{d68000_ori_8 , 0xffc0, 0x0000, 0xbf8},
3044	{d68000_ori_16 , 0xffc0, 0x0040, 0xbf8},
3045	{d68000_ori_32 , 0xffc0, 0x0080, 0xbf8},
3046	{d68020_pack_rr , 0xf1f8, 0x8140, 0x000},
3047	{d68020_pack_mm , 0xf1f8, 0x8148, 0x000},
3048	{d68000_pea , 0xffc0, 0x4840, 0x27b},
3049	{d68000_reset , 0xffff, 0x4e70, 0x000},
3050	{d68000_ror_s_8 , 0xf1f8, 0xe018, 0x000},
3051	{d68000_ror_s_16 , 0xf1f8, 0xe058, 0x000},
3052	{d68000_ror_s_32 , 0xf1f8, 0xe098, 0x000},
3053	{d68000_ror_r_8 , 0xf1f8, 0xe038, 0x000},
3054	{d68000_ror_r_16 , 0xf1f8, 0xe078, 0x000},
3055	{d68000_ror_r_32 , 0xf1f8, 0xe0b8, 0x000},
3056	{d68000_ror_ea , 0xffc0, 0xe6c0, 0x3f8},
3057	{d68000_rol_s_8 , 0xf1f8, 0xe118, 0x000},
3058	{d68000_rol_s_16 , 0xf1f8, 0xe158, 0x000},
3059	{d68000_rol_s_32 , 0xf1f8, 0xe198, 0x000},
3060	{d68000_rol_r_8 , 0xf1f8, 0xe138, 0x000},
3061	{d68000_rol_r_16 , 0xf1f8, 0xe178, 0x000},
3062	{d68000_rol_r_32 , 0xf1f8, 0xe1b8, 0x000},
3063	{d68000_rol_ea , 0xffc0, 0xe7c0, 0x3f8},
3064	{d68000_roxr_s_8 , 0xf1f8, 0xe010, 0x000},
3065	{d68000_roxr_s_16 , 0xf1f8, 0xe050, 0x000},
3066	{d68000_roxr_s_32 , 0xf1f8, 0xe090, 0x000},
3067	{d68000_roxr_r_8 , 0xf1f8, 0xe030, 0x000},
3068	{d68000_roxr_r_16 , 0xf1f8, 0xe070, 0x000},
3069	{d68000_roxr_r_32 , 0xf1f8, 0xe0b0, 0x000},
3070	{d68000_roxr_ea , 0xffc0, 0xe4c0, 0x3f8},
3071	{d68000_roxl_s_8 , 0xf1f8, 0xe110, 0x000},
3072	{d68000_roxl_s_16 , 0xf1f8, 0xe150, 0x000},
3073	{d68000_roxl_s_32 , 0xf1f8, 0xe190, 0x000},
3074	{d68000_roxl_r_8 , 0xf1f8, 0xe130, 0x000},
3075	{d68000_roxl_r_16 , 0xf1f8, 0xe170, 0x000},
3076	{d68000_roxl_r_32 , 0xf1f8, 0xe1b0, 0x000},
3077	{d68000_roxl_ea , 0xffc0, 0xe5c0, 0x3f8},
3078	{d68010_rtd , 0xffff, 0x4e74, 0x000},
3079	{d68000_rte , 0xffff, 0x4e73, 0x000},
3080	{d68020_rtm , 0xfff0, 0x06c0, 0x000},
3081	{d68000_rtr , 0xffff, 0x4e77, 0x000},
3082	{d68000_rts , 0xffff, 0x4e75, 0x000},
3083	{d68000_sbcd_rr , 0xf1f8, 0x8100, 0x000},
3084	{d68000_sbcd_mm , 0xf1f8, 0x8108, 0x000},
3085	{d68000_scc , 0xf0c0, 0x50c0, 0xbf8},
3086	{d68000_stop , 0xffff, 0x4e72, 0x000},
3087	{d68000_sub_er_8 , 0xf1c0, 0x9000, 0xbff},
3088	{d68000_sub_er_16 , 0xf1c0, 0x9040, 0xfff},
3089	{d68000_sub_er_32 , 0xf1c0, 0x9080, 0xfff},
3090	{d68000_sub_re_8 , 0xf1c0, 0x9100, 0x3f8},
3091	{d68000_sub_re_16 , 0xf1c0, 0x9140, 0x3f8},
3092	{d68000_sub_re_32 , 0xf1c0, 0x9180, 0x3f8},
3093	{d68000_suba_16 , 0xf1c0, 0x90c0, 0xfff},
3094	{d68000_suba_32 , 0xf1c0, 0x91c0, 0xfff},
3095	{d68000_subi_8 , 0xffc0, 0x0400, 0xbf8},
3096	{d68000_subi_16 , 0xffc0, 0x0440, 0xbf8},
3097	{d68000_subi_32 , 0xffc0, 0x0480, 0xbf8},
3098	{d68000_subq_8 , 0xf1c0, 0x5100, 0xbf8},
3099	{d68000_subq_16 , 0xf1c0, 0x5140, 0xff8},
3100	{d68000_subq_32 , 0xf1c0, 0x5180, 0xff8},
3101	{d68000_subx_rr_8 , 0xf1f8, 0x9100, 0x000},
3102	{d68000_subx_rr_16 , 0xf1f8, 0x9140, 0x000},
3103	{d68000_subx_rr_32 , 0xf1f8, 0x9180, 0x000},
3104	{d68000_subx_mm_8 , 0xf1f8, 0x9108, 0x000},
3105	{d68000_subx_mm_16 , 0xf1f8, 0x9148, 0x000},
3106	{d68000_subx_mm_32 , 0xf1f8, 0x9188, 0x000},
3107	{d68000_swap , 0xfff8, 0x4840, 0x000},
3108	{d68000_tas , 0xffc0, 0x4ac0, 0xbf8},
3109	{d68000_trap , 0xfff0, 0x4e40, 0x000},
3110	{d68020_trapcc_0 , 0xf0ff, 0x50fc, 0x000},
3111	{d68020_trapcc_16 , 0xf0ff, 0x50fa, 0x000},
3112	{d68020_trapcc_32 , 0xf0ff, 0x50fb, 0x000},
3113	{d68000_trapv , 0xffff, 0x4e76, 0x000},
3114	{d68000_tst_8 , 0xffc0, 0x4a00, 0xbf8},
3115	{d68020_tst_pcdi_8 , 0xffff, 0x4a3a, 0x000},
3116	{d68020_tst_pcix_8 , 0xffff, 0x4a3b, 0x000},
3117	{d68020_tst_i_8 , 0xffff, 0x4a3c, 0x000},
3118	{d68000_tst_16 , 0xffc0, 0x4a40, 0xbf8},
3119	{d68020_tst_a_16 , 0xfff8, 0x4a48, 0x000},
3120	{d68020_tst_pcdi_16 , 0xffff, 0x4a7a, 0x000},
3121	{d68020_tst_pcix_16 , 0xffff, 0x4a7b, 0x000},
3122	{d68020_tst_i_16 , 0xffff, 0x4a7c, 0x000},
3123	{d68000_tst_32 , 0xffc0, 0x4a80, 0xbf8},
3124	{d68020_tst_a_32 , 0xfff8, 0x4a88, 0x000},
3125	{d68020_tst_pcdi_32 , 0xffff, 0x4aba, 0x000},
3126	{d68020_tst_pcix_32 , 0xffff, 0x4abb, 0x000},
3127	{d68020_tst_i_32 , 0xffff, 0x4abc, 0x000},
3128	{d68000_unlk , 0xfff8, 0x4e58, 0x000},
3129	{d68020_unpk_rr , 0xf1f8, 0x8180, 0x000},
3130	{d68020_unpk_mm , 0xf1f8, 0x8188, 0x000},
3131	{0, 0, 0, 0}
3132	};
3133
3134	/* Check if opcode is using a valid ea mode */
3135	static int valid_ea(uint opcode, uint mask)
3136	{
3137	if(mask == 0)
3138	return 1;
3139
3140	switch(opcode & 0x3f)
3141	{
3142	case 0x00: case 0x01: case 0x02: case 0x03:
3143	case 0x04: case 0x05: case 0x06: case 0x07:
3144	return (mask & 0x800) != 0;
3145	case 0x08: case 0x09: case 0x0a: case 0x0b:
3146	case 0x0c: case 0x0d: case 0x0e: case 0x0f:
3147	return (mask & 0x400) != 0;
3148	case 0x10: case 0x11: case 0x12: case 0x13:
3149	case 0x14: case 0x15: case 0x16: case 0x17:
3150	return (mask & 0x200) != 0;
3151	case 0x18: case 0x19: case 0x1a: case 0x1b:
3152	case 0x1c: case 0x1d: case 0x1e: case 0x1f:
3153	return (mask & 0x100) != 0;
3154	case 0x20: case 0x21: case 0x22: case 0x23:
3155	case 0x24: case 0x25: case 0x26: case 0x27:
3156	return (mask & 0x080) != 0;
3157	case 0x28: case 0x29: case 0x2a: case 0x2b:
3158	case 0x2c: case 0x2d: case 0x2e: case 0x2f:
3159	return (mask & 0x040) != 0;
3160	case 0x30: case 0x31: case 0x32: case 0x33:
3161	case 0x34: case 0x35: case 0x36: case 0x37:
3162	return (mask & 0x020) != 0;
3163	case 0x38:
3164	return (mask & 0x010) != 0;
3165	case 0x39:
3166	return (mask & 0x008) != 0;
3167	case 0x3a:
3168	return (mask & 0x002) != 0;
3169	case 0x3b:
3170	return (mask & 0x001) != 0;
3171	case 0x3c:
3172	return (mask & 0x004) != 0;
3173	}
3174	return 0;
3175
3176	}
3177
3178	/* Used by qsort */
3179	static int DECL_SPEC compare_nof_true_bits(const void aptr, const void bptr)
3180	{
3181	uint a = ((const opcode_struct*)aptr)->mask;
3182	uint b = ((const opcode_struct*)bptr)->mask;
3183
3184	a = ((a & 0xAAAA) >> 1) + (a & 0x5555);
3185	a = ((a & 0xCCCC) >> 2) + (a & 0x3333);
3186	a = ((a & 0xF0F0) >> 4) + (a & 0x0F0F);
3187	a = ((a & 0xFF00) >> 8) + (a & 0x00FF);
3188
3189	b = ((b & 0xAAAA) >> 1) + (b & 0x5555);
3190	b = ((b & 0xCCCC) >> 2) + (b & 0x3333);
3191	b = ((b & 0xF0F0) >> 4) + (b & 0x0F0F);
3192	b = ((b & 0xFF00) >> 8) + (b & 0x00FF);
3193
3194	return b - a; /* reversed to get greatest to least sorting */
3195	}
3196
3197	/* build the opcode handler jump table */
3198	static void build_opcode_table(void)
3199	{
3200	uint i;
3201	uint opcode;
3202	opcode_struct* ostruct;
3203	uint opcode_info_length = 0;
3204
3205	for(ostruct = g_opcode_info;ostruct->opcode_handler != 0;ostruct++)
3206	opcode_info_length++;
3207
3208	qsort((void *)g_opcode_info, opcode_info_length, sizeof(g_opcode_info[0]), compare_nof_true_bits);
3209
3210	for(i=0;i<0x10000;i++)
3211	{
3212	g_instruction_table[i] = d68000_illegal; /* default to illegal */
3213	opcode = i;
3214	/* search through opcode info for a match */
3215	for(ostruct = g_opcode_info;ostruct->opcode_handler != 0;ostruct++)
3216	{
3217	/* match opcode mask and allowed ea modes */
3218	if((opcode & ostruct->mask) == ostruct->match)
3219	{
3220	/* Handle destination ea for move instructions */
3221	if((ostruct->opcode_handler == d68000_move_8 \|\|
3222	ostruct->opcode_handler == d68000_move_16 \|\|
3223	ostruct->opcode_handler == d68000_move_32) &&
3224	!valid_ea(((opcode>>9)&7) \| ((opcode>>3)&0x38), 0xbf8))
3225	continue;
3226	if(valid_ea(opcode, ostruct->ea_mask))
3227	{
3228	g_instruction_table[i] = ostruct->opcode_handler;
3229	break;
3230	}
3231	}
3232	}
3233	}
3234	}
3235
3236
3237
3238	/* ======================================================================== */
3239	/* ================================= API ================================== */
3240	/* ======================================================================== */
3241
3242	/* Disasemble one instruction at pc and store in str_buff */
3243	unsigned int m68k_disassemble(char* str_buff, unsigned int pc, unsigned int cpu_type)
3244	{
3245	if(!g_initialized)
3246	{
3247	build_opcode_table();
3248	g_initialized = 1;
3249	}
3250	switch(cpu_type)
3251	{
3252	case M68K_CPU_TYPE_68000:
3253	g_cpu_type = TYPE_68000;
3254	g_address_mask = 0x00ffffff;
3255	break;
3256	case M68K_CPU_TYPE_68010:
3257	g_cpu_type = TYPE_68010;
3258	g_address_mask = 0x00ffffff;
3259	break;
3260	case M68K_CPU_TYPE_68EC020:
3261	g_cpu_type = TYPE_68020;
3262	g_address_mask = 0x00ffffff;
3263	break;
3264	case M68K_CPU_TYPE_68020:
3265	g_cpu_type = TYPE_68020;
3266	g_address_mask = 0xffffffff;
3267	break;
3268	case M68K_CPU_TYPE_68030:
3269	g_cpu_type = TYPE_68030;
3270	g_address_mask = 0xffffffff;
3271	break;
3272	case M68K_CPU_TYPE_68040:
3273	g_cpu_type = TYPE_68040;
3274	g_address_mask = 0xffffffff;
3275	break;
3276	default:
3277	return 0;
3278	}
3279
3280	g_cpu_pc = pc;
3281	g_helper_str[0] = 0;
3282	g_cpu_ir = read_imm_16();
3283	g_instruction_table[g_cpu_ir]();
3284	sprintf(str_buff, "%s%s", g_dasm_str, g_helper_str);
3285	return g_cpu_pc - pc;
3286	}
3287
3288	char* m68ki_disassemble_quick(unsigned int pc, unsigned int cpu_type)
3289	{
3290	static char buff[100];
3291	buff[0] = 0;
3292	m68k_disassemble(buff, pc, cpu_type);
3293	return buff;
3294	}
3295
3296	/* Check if the instruction is a valid one */
3297	unsigned int m68k_is_valid_instruction(unsigned int instruction, unsigned int cpu_type)
3298	{
3299	if(!g_initialized)
3300	{
3301	build_opcode_table();
3302	g_initialized = 1;
3303	}
3304
3305	instruction &= 0xffff;
3306	if(g_instruction_table[instruction] == d68000_illegal)
3307	return 0;
3308
3309	switch(cpu_type)
3310	{
3311	case M68K_CPU_TYPE_68000:
3312	if(g_instruction_table[instruction] == d68010_bkpt)
3313	return 0;
3314	if(g_instruction_table[instruction] == d68010_move_fr_ccr)
3315	return 0;
3316	if(g_instruction_table[instruction] == d68010_movec)
3317	return 0;
3318	if(g_instruction_table[instruction] == d68010_moves_8)
3319	return 0;
3320	if(g_instruction_table[instruction] == d68010_moves_16)
3321	return 0;
3322	if(g_instruction_table[instruction] == d68010_moves_32)
3323	return 0;
3324	if(g_instruction_table[instruction] == d68010_rtd)
3325	return 0;
3326	case M68K_CPU_TYPE_68010:
3327	if(g_instruction_table[instruction] == d68020_bcc_32)
3328	return 0;
3329	if(g_instruction_table[instruction] == d68020_bfchg)
3330	return 0;
3331	if(g_instruction_table[instruction] == d68020_bfclr)
3332	return 0;
3333	if(g_instruction_table[instruction] == d68020_bfexts)
3334	return 0;
3335	if(g_instruction_table[instruction] == d68020_bfextu)
3336	return 0;
3337	if(g_instruction_table[instruction] == d68020_bfffo)
3338	return 0;
3339	if(g_instruction_table[instruction] == d68020_bfins)
3340	return 0;
3341	if(g_instruction_table[instruction] == d68020_bfset)
3342	return 0;
3343	if(g_instruction_table[instruction] == d68020_bftst)
3344	return 0;
3345	if(g_instruction_table[instruction] == d68020_bra_32)
3346	return 0;
3347	if(g_instruction_table[instruction] == d68020_bsr_32)
3348	return 0;
3349	if(g_instruction_table[instruction] == d68020_callm)
3350	return 0;
3351	if(g_instruction_table[instruction] == d68020_cas_8)
3352	return 0;
3353	if(g_instruction_table[instruction] == d68020_cas_16)
3354	return 0;
3355	if(g_instruction_table[instruction] == d68020_cas_32)
3356	return 0;
3357	if(g_instruction_table[instruction] == d68020_cas2_16)
3358	return 0;
3359	if(g_instruction_table[instruction] == d68020_cas2_32)
3360	return 0;
3361	if(g_instruction_table[instruction] == d68020_chk_32)
3362	return 0;
3363	if(g_instruction_table[instruction] == d68020_chk2_cmp2_8)
3364	return 0;
3365	if(g_instruction_table[instruction] == d68020_chk2_cmp2_16)
3366	return 0;
3367	if(g_instruction_table[instruction] == d68020_chk2_cmp2_32)
3368	return 0;
3369	if(g_instruction_table[instruction] == d68020_cmpi_pcdi_8)
3370	return 0;
3371	if(g_instruction_table[instruction] == d68020_cmpi_pcix_8)
3372	return 0;
3373	if(g_instruction_table[instruction] == d68020_cmpi_pcdi_16)
3374	return 0;
3375	if(g_instruction_table[instruction] == d68020_cmpi_pcix_16)
3376	return 0;
3377	if(g_instruction_table[instruction] == d68020_cmpi_pcdi_32)
3378	return 0;
3379	if(g_instruction_table[instruction] == d68020_cmpi_pcix_32)
3380	return 0;
3381	if(g_instruction_table[instruction] == d68020_cpbcc_16)
3382	return 0;
3383	if(g_instruction_table[instruction] == d68020_cpbcc_32)
3384	return 0;
3385	if(g_instruction_table[instruction] == d68020_cpdbcc)
3386	return 0;
3387	if(g_instruction_table[instruction] == d68020_cpgen)
3388	return 0;
3389	if(g_instruction_table[instruction] == d68020_cprestore)
3390	return 0;
3391	if(g_instruction_table[instruction] == d68020_cpsave)
3392	return 0;
3393	if(g_instruction_table[instruction] == d68020_cpscc)
3394	return 0;
3395	if(g_instruction_table[instruction] == d68020_cptrapcc_0)
3396	return 0;
3397	if(g_instruction_table[instruction] == d68020_cptrapcc_16)
3398	return 0;
3399	if(g_instruction_table[instruction] == d68020_cptrapcc_32)
3400	return 0;
3401	if(g_instruction_table[instruction] == d68020_divl)
3402	return 0;
3403	if(g_instruction_table[instruction] == d68020_extb_32)
3404	return 0;
3405	if(g_instruction_table[instruction] == d68020_link_32)
3406	return 0;
3407	if(g_instruction_table[instruction] == d68020_mull)
3408	return 0;
3409	if(g_instruction_table[instruction] == d68020_pack_rr)
3410	return 0;
3411	if(g_instruction_table[instruction] == d68020_pack_mm)
3412	return 0;
3413	if(g_instruction_table[instruction] == d68020_rtm)
3414	return 0;
3415	if(g_instruction_table[instruction] == d68020_trapcc_0)
3416	return 0;
3417	if(g_instruction_table[instruction] == d68020_trapcc_16)
3418	return 0;
3419	if(g_instruction_table[instruction] == d68020_trapcc_32)
3420	return 0;
3421	if(g_instruction_table[instruction] == d68020_tst_pcdi_8)
3422	return 0;
3423	if(g_instruction_table[instruction] == d68020_tst_pcix_8)
3424	return 0;
3425	if(g_instruction_table[instruction] == d68020_tst_i_8)
3426	return 0;
3427	if(g_instruction_table[instruction] == d68020_tst_a_16)
3428	return 0;
3429	if(g_instruction_table[instruction] == d68020_tst_pcdi_16)
3430	return 0;
3431	if(g_instruction_table[instruction] == d68020_tst_pcix_16)
3432	return 0;
3433	if(g_instruction_table[instruction] == d68020_tst_i_16)
3434	return 0;
3435	if(g_instruction_table[instruction] == d68020_tst_a_32)
3436	return 0;
3437	if(g_instruction_table[instruction] == d68020_tst_pcdi_32)
3438	return 0;
3439	if(g_instruction_table[instruction] == d68020_tst_pcix_32)
3440	return 0;
3441	if(g_instruction_table[instruction] == d68020_tst_i_32)
3442	return 0;
3443	if(g_instruction_table[instruction] == d68020_unpk_rr)
3444	return 0;
3445	if(g_instruction_table[instruction] == d68020_unpk_mm)
3446	return 0;
3447	case M68K_CPU_TYPE_68EC020:
3448	case M68K_CPU_TYPE_68020:
3449	case M68K_CPU_TYPE_68030:
3450	if(g_instruction_table[instruction] == d68040_cinv)
3451	return 0;
3452	if(g_instruction_table[instruction] == d68040_cpush)
3453	return 0;
3454	if(g_instruction_table[instruction] == d68040_move16_pi_pi)
3455	return 0;
3456	if(g_instruction_table[instruction] == d68040_move16_pi_al)
3457	return 0;
3458	if(g_instruction_table[instruction] == d68040_move16_al_pi)
3459	return 0;
3460	if(g_instruction_table[instruction] == d68040_move16_ai_al)
3461	return 0;
3462	if(g_instruction_table[instruction] == d68040_move16_al_ai)
3463	return 0;
3464	}
3465	if(cpu_type != M68K_CPU_TYPE_68020 && cpu_type != M68K_CPU_TYPE_68EC020 &&
3466	(g_instruction_table[instruction] == d68020_callm \|\|
3467	g_instruction_table[instruction] == d68020_rtm))
3468	return 0;
3469
3470	return 1;
3471	}
3472
3473
3474
3475	/* ======================================================================== */
3476	/* ============================== END OF FILE ============================= */
3477	/* ======================================================================== */

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