1/* Copyright (c) 2013-2014 Jeffrey Pfau
  2 *
  3 * This Source Code Form is subject to the terms of the Mozilla Public
  4 * License, v. 2.0. If a copy of the MPL was not distributed with this
  5 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
  6#include <mgba/internal/arm/isa-arm.h>
  7
  8#include <mgba/internal/arm/arm.h>
  9#include <mgba/internal/arm/emitter-arm.h>
 10#include <mgba/internal/arm/isa-inlines.h>
 11#include <mgba-util/math.h>
 12
 13#define PSR_USER_MASK   0xF0000000
 14#define PSR_PRIV_MASK   0x000000CF
 15#define PSR_STATE_MASK  0x00000020
 16
 17// Addressing mode 1
 18static inline void _shiftLSL(struct ARMCore* cpu, uint32_t opcode) {
 19	int rm = opcode & 0x0000000F;
 20	if (opcode & 0x00000010) {
 21		int rs = (opcode >> 8) & 0x0000000F;
 22		++cpu->cycles;
 23		int shift = cpu->gprs[rs];
 24		if (rs == ARM_PC) {
 25			shift += 4;
 26		}
 27		shift &= 0xFF;
 28		int32_t shiftVal = cpu->gprs[rm];
 29		if (rm == ARM_PC) {
 30			shiftVal += 4;
 31		}
 32		if (!shift) {
 33			cpu->shifterOperand = shiftVal;
 34			cpu->shifterCarryOut = cpu->cpsr.c;
 35		} else if (shift < 32) {
 36			cpu->shifterOperand = shiftVal << shift;
 37			cpu->shifterCarryOut = (shiftVal >> (32 - shift)) & 1;
 38		} else if (shift == 32) {
 39			cpu->shifterOperand = 0;
 40			cpu->shifterCarryOut = shiftVal & 1;
 41		} else {
 42			cpu->shifterOperand = 0;
 43			cpu->shifterCarryOut = 0;
 44		}
 45	} else {
 46		int immediate = (opcode & 0x00000F80) >> 7;
 47		if (!immediate) {
 48			cpu->shifterOperand = cpu->gprs[rm];
 49			cpu->shifterCarryOut = cpu->cpsr.c;
 50		} else {
 51			cpu->shifterOperand = cpu->gprs[rm] << immediate;
 52			cpu->shifterCarryOut = (cpu->gprs[rm] >> (32 - immediate)) & 1;
 53		}
 54	}
 55}
 56
 57static inline void _shiftLSR(struct ARMCore* cpu, uint32_t opcode) {
 58	int rm = opcode & 0x0000000F;
 59	if (opcode & 0x00000010) {
 60		int rs = (opcode >> 8) & 0x0000000F;
 61		++cpu->cycles;
 62		int shift = cpu->gprs[rs];
 63		if (rs == ARM_PC) {
 64			shift += 4;
 65		}
 66		shift &= 0xFF;
 67		uint32_t shiftVal = cpu->gprs[rm];
 68		if (rm == ARM_PC) {
 69			shiftVal += 4;
 70		}
 71		if (!shift) {
 72			cpu->shifterOperand = shiftVal;
 73			cpu->shifterCarryOut = cpu->cpsr.c;
 74		} else if (shift < 32) {
 75			cpu->shifterOperand = shiftVal >> shift;
 76			cpu->shifterCarryOut = (shiftVal >> (shift - 1)) & 1;
 77		} else if (shift == 32) {
 78			cpu->shifterOperand = 0;
 79			cpu->shifterCarryOut = shiftVal >> 31;
 80		} else {
 81			cpu->shifterOperand = 0;
 82			cpu->shifterCarryOut = 0;
 83		}
 84	} else {
 85		int immediate = (opcode & 0x00000F80) >> 7;
 86		if (immediate) {
 87			cpu->shifterOperand = ((uint32_t) cpu->gprs[rm]) >> immediate;
 88			cpu->shifterCarryOut = (cpu->gprs[rm] >> (immediate - 1)) & 1;
 89		} else {
 90			cpu->shifterOperand = 0;
 91			cpu->shifterCarryOut = ARM_SIGN(cpu->gprs[rm]);
 92		}
 93	}
 94}
 95
 96static inline void _shiftASR(struct ARMCore* cpu, uint32_t opcode) {
 97	int rm = opcode & 0x0000000F;
 98	if (opcode & 0x00000010) {
 99		int rs = (opcode >> 8) & 0x0000000F;
100		++cpu->cycles;
101		int shift = cpu->gprs[rs];
102		if (rs == ARM_PC) {
103			shift += 4;
104		}
105		shift &= 0xFF;
106		int shiftVal =  cpu->gprs[rm];
107		if (rm == ARM_PC) {
108			shiftVal += 4;
109		}
110		if (!shift) {
111			cpu->shifterOperand = shiftVal;
112			cpu->shifterCarryOut = cpu->cpsr.c;
113		} else if (shift < 32) {
114			cpu->shifterOperand = shiftVal >> shift;
115			cpu->shifterCarryOut = (shiftVal >> (shift - 1)) & 1;
116		} else if (cpu->gprs[rm] >> 31) {
117			cpu->shifterOperand = 0xFFFFFFFF;
118			cpu->shifterCarryOut = 1;
119		} else {
120			cpu->shifterOperand = 0;
121			cpu->shifterCarryOut = 0;
122		}
123	} else {
124		int immediate = (opcode & 0x00000F80) >> 7;
125		if (immediate) {
126			cpu->shifterOperand = cpu->gprs[rm] >> immediate;
127			cpu->shifterCarryOut = (cpu->gprs[rm] >> (immediate - 1)) & 1;
128		} else {
129			cpu->shifterCarryOut = ARM_SIGN(cpu->gprs[rm]);
130			cpu->shifterOperand = cpu->shifterCarryOut;
131		}
132	}
133}
134
135static inline void _shiftROR(struct ARMCore* cpu, uint32_t opcode) {
136	int rm = opcode & 0x0000000F;
137	if (opcode & 0x00000010) {
138		int rs = (opcode >> 8) & 0x0000000F;
139		++cpu->cycles;
140		int shift = cpu->gprs[rs];
141		if (rs == ARM_PC) {
142			shift += 4;
143		}
144		shift &= 0xFF;
145		int shiftVal =  cpu->gprs[rm];
146		if (rm == ARM_PC) {
147			shiftVal += 4;
148		}
149		int rotate = shift & 0x1F;
150		if (!shift) {
151			cpu->shifterOperand = shiftVal;
152			cpu->shifterCarryOut = cpu->cpsr.c;
153		} else if (rotate) {
154			cpu->shifterOperand = ROR(shiftVal, rotate);
155			cpu->shifterCarryOut = (shiftVal >> (rotate - 1)) & 1;
156		} else {
157			cpu->shifterOperand = shiftVal;
158			cpu->shifterCarryOut = ARM_SIGN(shiftVal);
159		}
160	} else {
161		int immediate = (opcode & 0x00000F80) >> 7;
162		if (immediate) {
163			cpu->shifterOperand = ROR(cpu->gprs[rm], immediate);
164			cpu->shifterCarryOut = (cpu->gprs[rm] >> (immediate - 1)) & 1;
165		} else {
166			// RRX
167			cpu->shifterOperand = (cpu->cpsr.c << 31) | (((uint32_t) cpu->gprs[rm]) >> 1);
168			cpu->shifterCarryOut = cpu->gprs[rm] & 0x00000001;
169		}
170	}
171}
172
173static inline void _immediate(struct ARMCore* cpu, uint32_t opcode) {
174	int rotate = (opcode & 0x00000F00) >> 7;
175	int immediate = opcode & 0x000000FF;
176	if (!rotate) {
177		cpu->shifterOperand = immediate;
178		cpu->shifterCarryOut = cpu->cpsr.c;
179	} else {
180		cpu->shifterOperand = ROR(immediate, rotate);
181		cpu->shifterCarryOut = ARM_SIGN(cpu->shifterOperand);
182	}
183}
184
185// Instruction definitions
186// Beware pre-processor antics
187
188ATTRIBUTE_NOINLINE static void _additionS(struct ARMCore* cpu, int32_t m, int32_t n, int32_t d) {
189	cpu->cpsr.n = ARM_SIGN(d);
190	cpu->cpsr.z = !d;
191	cpu->cpsr.c = ARM_CARRY_FROM(m, n, d);
192	cpu->cpsr.v = ARM_V_ADDITION(m, n, d);
193}
194
195ATTRIBUTE_NOINLINE static void _subtractionS(struct ARMCore* cpu, int32_t m, int32_t n, int32_t d) {
196	cpu->cpsr.n = ARM_SIGN(d);
197	cpu->cpsr.z = !d;
198	cpu->cpsr.c = ARM_BORROW_FROM(m, n, d);
199	cpu->cpsr.v = ARM_V_SUBTRACTION(m, n, d);
200}
201
202ATTRIBUTE_NOINLINE static void _neutralS(struct ARMCore* cpu, int32_t d) {
203	cpu->cpsr.n = ARM_SIGN(d);
204	cpu->cpsr.z = !d; \
205	cpu->cpsr.c = cpu->shifterCarryOut; \
206}
207
208#define ARM_ADDITION_S(M, N, D) \
209	if (rd == ARM_PC && _ARMModeHasSPSR(cpu->cpsr.priv)) { \
210		cpu->cpsr = cpu->spsr; \
211		_ARMReadCPSR(cpu); \
212	} else { \
213		_additionS(cpu, M, N, D); \
214	}
215
216#define ARM_SUBTRACTION_S(M, N, D) \
217	if (rd == ARM_PC && _ARMModeHasSPSR(cpu->cpsr.priv)) { \
218		cpu->cpsr = cpu->spsr; \
219		_ARMReadCPSR(cpu); \
220	} else { \
221		_subtractionS(cpu, M, N, D); \
222	}
223
224#define ARM_SUBTRACTION_CARRY_S(M, N, D, C) \
225	if (rd == ARM_PC && _ARMModeHasSPSR(cpu->cpsr.priv)) { \
226		cpu->cpsr = cpu->spsr; \
227		_ARMReadCPSR(cpu); \
228	} else { \
229		cpu->cpsr.n = ARM_SIGN(D); \
230		cpu->cpsr.z = !(D); \
231		cpu->cpsr.c = ARM_BORROW_FROM_CARRY(M, N, D, C); \
232		cpu->cpsr.v = ARM_V_SUBTRACTION(M, N, D); \
233	}
234
235#define ARM_NEUTRAL_S(M, N, D) \
236	if (rd == ARM_PC && _ARMModeHasSPSR(cpu->cpsr.priv)) { \
237		cpu->cpsr = cpu->spsr; \
238		_ARMReadCPSR(cpu); \
239	} else { \
240		_neutralS(cpu, D); \
241	}
242
243#define ARM_NEUTRAL_HI_S(DLO, DHI) \
244	cpu->cpsr.n = ARM_SIGN(DHI); \
245	cpu->cpsr.z = !((DHI) | (DLO));
246
247#define ADDR_MODE_2_I_TEST (opcode & 0x00000F80)
248#define ADDR_MODE_2_I ((opcode & 0x00000F80) >> 7)
249#define ADDR_MODE_2_ADDRESS (address)
250#define ADDR_MODE_2_RN (cpu->gprs[rn])
251#define ADDR_MODE_2_RM (cpu->gprs[rm])
252#define ADDR_MODE_2_IMMEDIATE (opcode & 0x00000FFF)
253#define ADDR_MODE_2_INDEX(U_OP, M) (cpu->gprs[rn] U_OP M)
254#define ADDR_MODE_2_WRITEBACK(ADDR) \
255	cpu->gprs[rn] = ADDR; \
256	if (UNLIKELY(rn == ARM_PC)) { \
257		ARM_WRITE_PC; \
258	}
259
260#define ADDR_MODE_2_LSL (cpu->gprs[rm] << ADDR_MODE_2_I)
261#define ADDR_MODE_2_LSR (ADDR_MODE_2_I_TEST ? ((uint32_t) cpu->gprs[rm]) >> ADDR_MODE_2_I : 0)
262#define ADDR_MODE_2_ASR (ADDR_MODE_2_I_TEST ? ((int32_t) cpu->gprs[rm]) >> ADDR_MODE_2_I : ((int32_t) cpu->gprs[rm]) >> 31)
263#define ADDR_MODE_2_ROR (ADDR_MODE_2_I_TEST ? ROR(cpu->gprs[rm], ADDR_MODE_2_I) : (cpu->cpsr.c << 31) | (((uint32_t) cpu->gprs[rm]) >> 1))
264
265#define ADDR_MODE_3_ADDRESS ADDR_MODE_2_ADDRESS
266#define ADDR_MODE_3_RN ADDR_MODE_2_RN
267#define ADDR_MODE_3_RM ADDR_MODE_2_RM
268#define ADDR_MODE_3_IMMEDIATE (((opcode & 0x00000F00) >> 4) | (opcode & 0x0000000F))
269#define ADDR_MODE_3_INDEX(U_OP, M) ADDR_MODE_2_INDEX(U_OP, M)
270#define ADDR_MODE_3_WRITEBACK(ADDR) ADDR_MODE_2_WRITEBACK(ADDR)
271#define ADDR_MODE_3_WRITEBACK_64(ADDR) ADDR_MODE_2_WRITEBACK(ADDR + 4)
272
273#define ADDR_MODE_4_WRITEBACK_LDM \
274		if (!((1 << rn) & rs)) { \
275			cpu->gprs[rn] = address; \
276		}
277
278#define ADDR_MODE_4_WRITEBACK_LDMv5 \
279		if (!((1 << rn) & rs) || !(((1 << rn) - 1) & rs)) { \
280			cpu->gprs[rn] = address; \
281		}
282
283#define ADDR_MODE_4_WRITEBACK_STM cpu->gprs[rn] = address;
284
285#define ARM_LOAD_POST_BODY \
286	currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32; \
287	if (rd == ARM_PC) { \
288		ARM_WRITE_PC; \
289	}
290
291#define ARM_LOAD_POST_BODY_v5 \
292	currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32; \
293	if (rd == ARM_PC) { \
294		_ARMSetMode(cpu, cpu->gprs[ARM_PC] & 0x00000001); \
295		cpu->gprs[ARM_PC] &= 0xFFFFFFFE; \
296		if (cpu->executionMode == MODE_THUMB) { \
297			THUMB_WRITE_PC; \
298		} else { \
299			ARM_WRITE_PC; \
300		} \
301	}
302
303#define ARM_STORE_POST_BODY \
304	currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32;
305
306#define DEFINE_INSTRUCTION_ARM(NAME, BODY) \
307	static void _ARMInstruction ## NAME (struct ARMCore* cpu, uint32_t opcode) { \
308		int currentCycles = ARM_PREFETCH_CYCLES; \
309		BODY; \
310		cpu->cycles += currentCycles; \
311	}
312
313#define DEFINE_ALU_INSTRUCTION_EX_ARM(NAME, S_BODY, SHIFTER, BODY) \
314	DEFINE_INSTRUCTION_ARM(NAME, \
315		int rd = (opcode >> 12) & 0xF; \
316		int rn = (opcode >> 16) & 0xF; \
317		UNUSED(rn); \
318		SHIFTER(cpu, opcode); \
319		BODY; \
320		S_BODY; \
321		if (rd == ARM_PC) { \
322			if (cpu->executionMode == MODE_ARM) { \
323				ARM_WRITE_PC; \
324			} else { \
325				THUMB_WRITE_PC; \
326			} \
327		})
328
329#define DEFINE_ALU_INSTRUCTION_ARM(NAME, S_BODY, BODY) \
330	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _LSL, , _shiftLSL, BODY) \
331	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## S_LSL, S_BODY, _shiftLSL, BODY) \
332	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _LSR, , _shiftLSR, BODY) \
333	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## S_LSR, S_BODY, _shiftLSR, BODY) \
334	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _ASR, , _shiftASR, BODY) \
335	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## S_ASR, S_BODY, _shiftASR, BODY) \
336	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _ROR, , _shiftROR, BODY) \
337	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## S_ROR, S_BODY, _shiftROR, BODY) \
338	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## I, , _immediate, BODY) \
339	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## SI, S_BODY, _immediate, BODY)
340
341#define DEFINE_ALU_INSTRUCTION_S_ONLY_ARM(NAME, S_BODY, BODY) \
342	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _LSL, S_BODY, _shiftLSL, BODY) \
343	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _LSR, S_BODY, _shiftLSR, BODY) \
344	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _ASR, S_BODY, _shiftASR, BODY) \
345	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## _ROR, S_BODY, _shiftROR, BODY) \
346	DEFINE_ALU_INSTRUCTION_EX_ARM(NAME ## I, S_BODY, _immediate, BODY)
347
348#define DEFINE_MULTIPLY_INSTRUCTION_EX_ARM(NAME, BODY, S_BODY) \
349	DEFINE_INSTRUCTION_ARM(NAME, \
350		int rd = (opcode >> 16) & 0xF; \
351		int rs = (opcode >> 8) & 0xF; \
352		int rm = opcode & 0xF; \
353		if (rd == ARM_PC) { \
354			return; \
355		} \
356		ARM_WAIT_MUL(cpu->gprs[rs]); \
357		BODY; \
358		S_BODY; \
359		currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32)
360
361#define DEFINE_MULTIPLY_INSTRUCTION_2_EX_ARM(NAME, BODY, S_BODY, WAIT) \
362	DEFINE_INSTRUCTION_ARM(NAME, \
363		int rd = (opcode >> 12) & 0xF; \
364		int rdHi = (opcode >> 16) & 0xF; \
365		int rs = (opcode >> 8) & 0xF; \
366		int rm = opcode & 0xF; \
367		if (rdHi == ARM_PC || rd == ARM_PC) { \
368			return; \
369		} \
370		currentCycles += cpu->memory.stall(cpu, WAIT); \
371		BODY; \
372		S_BODY; \
373		currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32)
374
375#define DEFINE_MULTIPLY_INSTRUCTION_ARM(NAME, BODY, S_BODY) \
376	DEFINE_MULTIPLY_INSTRUCTION_EX_ARM(NAME, BODY, ) \
377	DEFINE_MULTIPLY_INSTRUCTION_EX_ARM(NAME ## S, BODY, S_BODY)
378
379#define DEFINE_MULTIPLY_INSTRUCTION_2_ARM(NAME, BODY, S_BODY, WAIT) \
380	DEFINE_MULTIPLY_INSTRUCTION_2_EX_ARM(NAME, BODY, , WAIT) \
381	DEFINE_MULTIPLY_INSTRUCTION_2_EX_ARM(NAME ## S, BODY, S_BODY, WAIT)
382
383#define DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME, BODY) \
384	DEFINE_INSTRUCTION_ARM(NAME, \
385		int rd = (opcode >> 16) & 0xF; \
386		int rs = (opcode >> 8) & 0xF; \
387		int rn = (opcode >> 12) & 0xF; \
388		int rm = opcode & 0xF; \
389		UNUSED(rn); \
390		if (rd == ARM_PC) { \
391			return; \
392		} \
393		/* TODO: Timing */ \
394		int32_t x; \
395		int32_t y; \
396		BODY; \
397		currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32)
398
399#define DEFINE_MULTIPLY_INSTRUCTION_XY_ARM(NAME, BODY) \
400	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## BB, \
401		x = ARM_SXT_16(cpu->gprs[rm]); \
402		y = ARM_SXT_16(cpu->gprs[rs]); \
403		BODY) \
404	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## BT, \
405		x = ARM_SXT_16(cpu->gprs[rm]); \
406		y = ARM_SXT_16(cpu->gprs[rs] >> 16); \
407		BODY) \
408	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## TB, \
409		x = ARM_SXT_16(cpu->gprs[rm] >> 16); \
410		y = ARM_SXT_16(cpu->gprs[rs]); \
411		BODY) \
412	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## TT, \
413		x = ARM_SXT_16(cpu->gprs[rm] >> 16); \
414		y = ARM_SXT_16(cpu->gprs[rs] >> 16); \
415		BODY)
416
417#define DEFINE_MULTIPLY_INSTRUCTION_WY_ARM(NAME, BODY) \
418	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## B, \
419		UNUSED(x); \
420		y = ARM_SXT_16(cpu->gprs[rs]); \
421		BODY) \
422	DEFINE_MULTIPLY_INSTRUCTION_3_ARM(NAME ## T, \
423		UNUSED(x); \
424		y = ARM_SXT_16(cpu->gprs[rs] >> 16); \
425		BODY) \
426
427#define DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME, ADDRESS, WRITEBACK, BODY) \
428	DEFINE_INSTRUCTION_ARM(NAME, \
429		uint32_t address; \
430		int rn = (opcode >> 16) & 0xF; \
431		int rd = (opcode >> 12) & 0xF; \
432		int rm = opcode & 0xF; \
433		UNUSED(rm); \
434		address = ADDRESS; \
435		WRITEBACK; \
436		BODY;)
437
438#define DEFINE_LOAD_STORE_INSTRUCTION_SHIFTER_ARM(NAME, SHIFTER, BODY) \
439	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(-, SHIFTER)), BODY) \
440	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## U, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(+, SHIFTER)), BODY) \
441	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## P, ADDR_MODE_2_INDEX(-, SHIFTER), , BODY) \
442	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PW, ADDR_MODE_2_INDEX(-, SHIFTER), ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_ADDRESS), BODY) \
443	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PU, ADDR_MODE_2_INDEX(+, SHIFTER), , BODY) \
444	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PUW, ADDR_MODE_2_INDEX(+, SHIFTER), ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_ADDRESS), BODY)
445
446#define DEFINE_LOAD_STORE_INSTRUCTION_ARM(NAME, BODY) \
447	DEFINE_LOAD_STORE_INSTRUCTION_SHIFTER_ARM(NAME ## _LSL_, ADDR_MODE_2_LSL, BODY) \
448	DEFINE_LOAD_STORE_INSTRUCTION_SHIFTER_ARM(NAME ## _LSR_, ADDR_MODE_2_LSR, BODY) \
449	DEFINE_LOAD_STORE_INSTRUCTION_SHIFTER_ARM(NAME ## _ASR_, ADDR_MODE_2_ASR, BODY) \
450	DEFINE_LOAD_STORE_INSTRUCTION_SHIFTER_ARM(NAME ## _ROR_, ADDR_MODE_2_ROR, BODY) \
451	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## I, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(-, ADDR_MODE_2_IMMEDIATE)), BODY) \
452	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IU, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(+, ADDR_MODE_2_IMMEDIATE)), BODY) \
453	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IP, ADDR_MODE_2_INDEX(-, ADDR_MODE_2_IMMEDIATE), , BODY) \
454	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPW, ADDR_MODE_2_INDEX(-, ADDR_MODE_2_IMMEDIATE), ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_ADDRESS), BODY) \
455	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPU, ADDR_MODE_2_INDEX(+, ADDR_MODE_2_IMMEDIATE), , BODY) \
456	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPUW, ADDR_MODE_2_INDEX(+, ADDR_MODE_2_IMMEDIATE), ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_ADDRESS), BODY) \
457
458#define DEFINE_LOAD_STORE_MODE_3_WRITEBACK_WIDTH_INSTRUCTION_ARM(NAME, BODY, WRITEBACK) \
459	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME, ADDR_MODE_3_RN, WRITEBACK(ADDR_MODE_3_INDEX(-, ADDR_MODE_3_RM)), BODY) \
460	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## U, ADDR_MODE_3_RN, WRITEBACK(ADDR_MODE_3_INDEX(+, ADDR_MODE_3_RM)), BODY) \
461	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## P, ADDR_MODE_3_INDEX(-, ADDR_MODE_3_RM), , BODY) \
462	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PW, ADDR_MODE_3_INDEX(-, ADDR_MODE_3_RM), ADDR_MODE_3_WRITEBACK(ADDR_MODE_3_ADDRESS), BODY) \
463	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PU, ADDR_MODE_3_INDEX(+, ADDR_MODE_3_RM), , BODY) \
464	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## PUW, ADDR_MODE_3_INDEX(+, ADDR_MODE_3_RM), ADDR_MODE_3_WRITEBACK(ADDR_MODE_3_ADDRESS), BODY) \
465	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## I, ADDR_MODE_3_RN, WRITEBACK(ADDR_MODE_3_INDEX(-, ADDR_MODE_3_IMMEDIATE)), BODY) \
466	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IU, ADDR_MODE_3_RN, WRITEBACK(ADDR_MODE_3_INDEX(+, ADDR_MODE_3_IMMEDIATE)), BODY) \
467	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IP, ADDR_MODE_3_INDEX(-, ADDR_MODE_3_IMMEDIATE), , BODY) \
468	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPW, ADDR_MODE_3_INDEX(-, ADDR_MODE_3_IMMEDIATE), ADDR_MODE_3_WRITEBACK(ADDR_MODE_3_ADDRESS), BODY) \
469	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPU, ADDR_MODE_3_INDEX(+, ADDR_MODE_3_IMMEDIATE), , BODY) \
470	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IPUW, ADDR_MODE_3_INDEX(+, ADDR_MODE_3_IMMEDIATE), ADDR_MODE_3_WRITEBACK(ADDR_MODE_3_ADDRESS), BODY) \
471
472#define DEFINE_LOAD_STORE_MODE_3_INSTRUCTION_ARM(NAME, BODY) DEFINE_LOAD_STORE_MODE_3_WRITEBACK_WIDTH_INSTRUCTION_ARM(NAME, BODY, ADDR_MODE_3_WRITEBACK)
473#define DEFINE_LOAD_STORE_MODE_3_DOUBLE_INSTRUCTION_ARM(NAME, BODY) DEFINE_LOAD_STORE_MODE_3_WRITEBACK_WIDTH_INSTRUCTION_ARM(NAME, BODY, ADDR_MODE_3_WRITEBACK_64)
474
475#define DEFINE_LOAD_STORE_T_INSTRUCTION_SHIFTER_ARM(NAME, SHIFTER, BODY) \
476	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME, SHIFTER, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(-, ADDR_MODE_2_RM)), BODY) \
477	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## U, SHIFTER, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(+, ADDR_MODE_2_RM)), BODY) \
478
479#define DEFINE_LOAD_STORE_T_INSTRUCTION_ARM(NAME, BODY) \
480	DEFINE_LOAD_STORE_T_INSTRUCTION_SHIFTER_ARM(NAME ## _LSL_, ADDR_MODE_2_LSL, BODY) \
481	DEFINE_LOAD_STORE_T_INSTRUCTION_SHIFTER_ARM(NAME ## _LSR_, ADDR_MODE_2_LSR, BODY) \
482	DEFINE_LOAD_STORE_T_INSTRUCTION_SHIFTER_ARM(NAME ## _ASR_, ADDR_MODE_2_ASR, BODY) \
483	DEFINE_LOAD_STORE_T_INSTRUCTION_SHIFTER_ARM(NAME ## _ROR_, ADDR_MODE_2_ROR, BODY) \
484	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## I, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(-, ADDR_MODE_2_IMMEDIATE)), BODY) \
485	DEFINE_LOAD_STORE_INSTRUCTION_EX_ARM(NAME ## IU, ADDR_MODE_2_RN, ADDR_MODE_2_WRITEBACK(ADDR_MODE_2_INDEX(+, ADDR_MODE_2_IMMEDIATE)), BODY) \
486
487#define ARM_MS_PRE \
488	enum PrivilegeMode privilegeMode = cpu->privilegeMode; \
489	ARMSetPrivilegeMode(cpu, MODE_SYSTEM);
490
491#define ARM_MS_POST ARMSetPrivilegeMode(cpu, privilegeMode);
492
493#define DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME, LS, WRITEBACK, S_PRE, S_POST, DIRECTION, POST_BODY) \
494	DEFINE_INSTRUCTION_ARM(NAME, \
495		int rn = (opcode >> 16) & 0xF; \
496		int rs = opcode & 0x0000FFFF; \
497		uint32_t address = cpu->gprs[rn]; \
498		S_PRE; \
499		address = cpu->memory. LS ## Multiple(cpu, address, rs, LSM_ ## DIRECTION, &currentCycles); \
500		S_POST; \
501		POST_BODY; \
502		WRITEBACK;)
503
504
505#define DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM_NO_S(NAME, LS, POST_BODY) \
506	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## DA,   LS,                               ,           ,            , DA, POST_BODY) \
507	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## DAW,  LS, ADDR_MODE_4_WRITEBACK_ ## NAME,           ,            , DA, POST_BODY) \
508	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## DB,   LS,                               ,           ,            , DB, POST_BODY) \
509	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## DBW,  LS, ADDR_MODE_4_WRITEBACK_ ## NAME,           ,            , DB, POST_BODY) \
510	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## IA,   LS,                               ,           ,            , IA, POST_BODY) \
511	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## IAW,  LS, ADDR_MODE_4_WRITEBACK_ ## NAME,           ,            , IA, POST_BODY) \
512	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## IB,   LS,                               ,           ,            , IB, POST_BODY) \
513	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## IBW,  LS, ADDR_MODE_4_WRITEBACK_ ## NAME,           ,            , IB, POST_BODY) \
514
515#define DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM(NAME, LS, POST_BODY) \
516	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM_NO_S(NAME, LS, POST_BODY) \
517	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SDA,  LS,                               , ARM_MS_PRE, ARM_MS_POST, DA, POST_BODY) \
518	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SDAW, LS, ADDR_MODE_4_WRITEBACK_ ## NAME, ARM_MS_PRE, ARM_MS_POST, DA, POST_BODY) \
519	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SDB,  LS,                               , ARM_MS_PRE, ARM_MS_POST, DB, POST_BODY) \
520	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SDBW, LS, ADDR_MODE_4_WRITEBACK_ ## NAME, ARM_MS_PRE, ARM_MS_POST, DB, POST_BODY) \
521	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SIA,  LS,                               , ARM_MS_PRE, ARM_MS_POST, IA, POST_BODY) \
522	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SIAW, LS, ADDR_MODE_4_WRITEBACK_ ## NAME, ARM_MS_PRE, ARM_MS_POST, IA, POST_BODY) \
523	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SIB,  LS,                               , ARM_MS_PRE, ARM_MS_POST, IB, POST_BODY) \
524	DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_EX_ARM(NAME ## SIBW, LS, ADDR_MODE_4_WRITEBACK_ ## NAME, ARM_MS_PRE, ARM_MS_POST, IB, POST_BODY)
525
526// Begin ALU definitions
527
528DEFINE_ALU_INSTRUCTION_ARM(ADD, ARM_ADDITION_S(n, cpu->shifterOperand, cpu->gprs[rd]),
529	int32_t n = cpu->gprs[rn];
530	cpu->gprs[rd] = n + cpu->shifterOperand;)
531
532DEFINE_ALU_INSTRUCTION_ARM(ADC, ARM_ADDITION_S(n, cpu->shifterOperand, cpu->gprs[rd]),
533	int32_t n = cpu->gprs[rn];
534	cpu->gprs[rd] = n + cpu->shifterOperand + cpu->cpsr.c;)
535
536DEFINE_ALU_INSTRUCTION_ARM(AND, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
537	cpu->gprs[rd] = cpu->gprs[rn] & cpu->shifterOperand;)
538
539DEFINE_ALU_INSTRUCTION_ARM(BIC, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
540	cpu->gprs[rd] = cpu->gprs[rn] & ~cpu->shifterOperand;)
541
542DEFINE_ALU_INSTRUCTION_S_ONLY_ARM(CMN, ARM_ADDITION_S(cpu->gprs[rn], cpu->shifterOperand, aluOut),
543	int32_t aluOut = cpu->gprs[rn] + cpu->shifterOperand;)
544
545DEFINE_ALU_INSTRUCTION_S_ONLY_ARM(CMP, ARM_SUBTRACTION_S(cpu->gprs[rn], cpu->shifterOperand, aluOut),
546	int32_t aluOut = cpu->gprs[rn] - cpu->shifterOperand;)
547
548DEFINE_ALU_INSTRUCTION_ARM(EOR, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
549	cpu->gprs[rd] = cpu->gprs[rn] ^ cpu->shifterOperand;)
550
551DEFINE_ALU_INSTRUCTION_ARM(MOV, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
552	cpu->gprs[rd] = cpu->shifterOperand;)
553
554DEFINE_ALU_INSTRUCTION_ARM(MVN, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
555	cpu->gprs[rd] = ~cpu->shifterOperand;)
556
557DEFINE_ALU_INSTRUCTION_ARM(ORR, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, cpu->gprs[rd]),
558	cpu->gprs[rd] = cpu->gprs[rn] | cpu->shifterOperand;)
559
560DEFINE_ALU_INSTRUCTION_ARM(RSB, ARM_SUBTRACTION_S(cpu->shifterOperand, n, cpu->gprs[rd]),
561	int32_t n = cpu->gprs[rn];
562	cpu->gprs[rd] = cpu->shifterOperand - n;)
563
564DEFINE_ALU_INSTRUCTION_ARM(RSC, ARM_SUBTRACTION_CARRY_S(cpu->shifterOperand, n, cpu->gprs[rd], !cpu->cpsr.c),
565	int32_t n = cpu->gprs[rn];
566	cpu->gprs[rd] = cpu->shifterOperand - n - !cpu->cpsr.c;)
567
568DEFINE_ALU_INSTRUCTION_ARM(SBC, ARM_SUBTRACTION_CARRY_S(n, cpu->shifterOperand, cpu->gprs[rd], !cpu->cpsr.c),
569	int32_t n = cpu->gprs[rn];
570	cpu->gprs[rd] = n - cpu->shifterOperand - !cpu->cpsr.c;)
571
572DEFINE_ALU_INSTRUCTION_ARM(SUB, ARM_SUBTRACTION_S(n, cpu->shifterOperand, cpu->gprs[rd]),
573	int32_t n = cpu->gprs[rn];
574	cpu->gprs[rd] = n - cpu->shifterOperand;)
575
576DEFINE_ALU_INSTRUCTION_S_ONLY_ARM(TEQ, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, aluOut),
577	int32_t aluOut = cpu->gprs[rn] ^ cpu->shifterOperand;)
578
579DEFINE_ALU_INSTRUCTION_S_ONLY_ARM(TST, ARM_NEUTRAL_S(cpu->gprs[rn], cpu->shifterOperand, aluOut),
580	int32_t aluOut = cpu->gprs[rn] & cpu->shifterOperand;)
581
582// End ALU definitions
583
584// Begin multiply definitions
585
586DEFINE_MULTIPLY_INSTRUCTION_2_ARM(MLA, cpu->gprs[rdHi] = cpu->gprs[rm] * cpu->gprs[rs] + cpu->gprs[rd], ARM_NEUTRAL_S(, , cpu->gprs[rdHi]), 2)
587DEFINE_MULTIPLY_INSTRUCTION_ARM(MUL, cpu->gprs[rd] = cpu->gprs[rm] * cpu->gprs[rs], ARM_NEUTRAL_S(cpu->gprs[rm], cpu->gprs[rs], cpu->gprs[rd]))
588
589DEFINE_MULTIPLY_INSTRUCTION_2_ARM(SMLAL,
590	int64_t d = ((int64_t) cpu->gprs[rm]) * ((int64_t) cpu->gprs[rs]);
591	int32_t dm = cpu->gprs[rd];
592	int32_t dn = d;
593	cpu->gprs[rd] = dm + dn;
594	cpu->gprs[rdHi] = cpu->gprs[rdHi] + (d >> 32) + ARM_CARRY_FROM(dm, dn, cpu->gprs[rd]);,
595	ARM_NEUTRAL_HI_S(cpu->gprs[rd], cpu->gprs[rdHi]), 3)
596
597DEFINE_MULTIPLY_INSTRUCTION_XY_ARM(SMLA,
598	int32_t dn = cpu->gprs[rn]; \
599	int32_t d = x * y; \
600	cpu->gprs[rd] = d + dn; \
601	cpu->cpsr.q = cpu->cpsr.q || ARM_V_ADDITION(d, dn, cpu->gprs[rd]);)
602
603DEFINE_MULTIPLY_INSTRUCTION_XY_ARM(SMUL, cpu->gprs[rd] = x * y;)
604
605DEFINE_MULTIPLY_INSTRUCTION_WY_ARM(SMLAW,
606	int32_t dn = cpu->gprs[rn]; \
607	int32_t d = (((int64_t) cpu->gprs[rm]) * ((int64_t) y)) >> 16; \
608	cpu->gprs[rd] = d + dn; \
609	cpu->cpsr.q = cpu->cpsr.q || ARM_V_ADDITION(d, dn, cpu->gprs[rd]);)
610
611DEFINE_MULTIPLY_INSTRUCTION_WY_ARM(SMULW, cpu->gprs[rd] = (((int64_t) cpu->gprs[rm]) * ((int64_t) y)) >> 16;)
612
613DEFINE_MULTIPLY_INSTRUCTION_2_ARM(SMULL,
614	int64_t d = ((int64_t) cpu->gprs[rm]) * ((int64_t) cpu->gprs[rs]);
615	cpu->gprs[rd] = d;
616	cpu->gprs[rdHi] = d >> 32;,
617	ARM_NEUTRAL_HI_S(cpu->gprs[rd], cpu->gprs[rdHi]), 2)
618
619DEFINE_MULTIPLY_INSTRUCTION_2_ARM(UMLAL,
620	uint64_t d = ARM_UXT_64(cpu->gprs[rm]) * ARM_UXT_64(cpu->gprs[rs]);
621	int32_t dm = cpu->gprs[rd];
622	int32_t dn = d;
623	cpu->gprs[rd] = dm + dn;
624	cpu->gprs[rdHi] = cpu->gprs[rdHi] + (d >> 32) + ARM_CARRY_FROM(dm, dn, cpu->gprs[rd]);,
625	ARM_NEUTRAL_HI_S(cpu->gprs[rd], cpu->gprs[rdHi]), 3)
626
627DEFINE_MULTIPLY_INSTRUCTION_2_ARM(UMULL,
628	uint64_t d = ARM_UXT_64(cpu->gprs[rm]) * ARM_UXT_64(cpu->gprs[rs]);
629	cpu->gprs[rd] = d;
630	cpu->gprs[rdHi] = d >> 32;,
631	ARM_NEUTRAL_HI_S(cpu->gprs[rd], cpu->gprs[rdHi]), 2)
632
633// End multiply definitions
634
635// Begin load/store definitions
636
637DEFINE_LOAD_STORE_INSTRUCTION_ARM(LDR, cpu->gprs[rd] = cpu->memory.load32(cpu, address, &currentCycles); ARM_LOAD_POST_BODY;)
638DEFINE_LOAD_STORE_INSTRUCTION_ARM(LDRv5, cpu->gprs[rd] = cpu->memory.load32(cpu, address, &currentCycles); ARM_LOAD_POST_BODY_v5;)
639DEFINE_LOAD_STORE_INSTRUCTION_ARM(LDRB, cpu->gprs[rd] = cpu->memory.load8(cpu, address, &currentCycles); ARM_LOAD_POST_BODY;)
640DEFINE_LOAD_STORE_MODE_3_DOUBLE_INSTRUCTION_ARM(LDRD, cpu->gprs[rd & ~1] = cpu->memory.load32(cpu, address, &currentCycles); cpu->gprs[rd | 1] = cpu->memory.load32(cpu, address + 4, &currentCycles); ARM_LOAD_POST_BODY;)
641DEFINE_LOAD_STORE_MODE_3_INSTRUCTION_ARM(LDRH, cpu->gprs[rd] = cpu->memory.load16(cpu, address, &currentCycles); ARM_LOAD_POST_BODY;)
642DEFINE_LOAD_STORE_MODE_3_INSTRUCTION_ARM(LDRSB, cpu->gprs[rd] = ARM_SXT_8(cpu->memory.load8(cpu, address, &currentCycles)); ARM_LOAD_POST_BODY;)
643DEFINE_LOAD_STORE_MODE_3_INSTRUCTION_ARM(LDRSH, cpu->gprs[rd] = address & 1 ? ARM_SXT_8(cpu->memory.load16(cpu, address, &currentCycles)) : ARM_SXT_16(cpu->memory.load16(cpu, address, &currentCycles)); ARM_LOAD_POST_BODY;)
644DEFINE_LOAD_STORE_INSTRUCTION_ARM(STR, cpu->memory.store32(cpu, address, cpu->gprs[rd], &currentCycles); ARM_STORE_POST_BODY;)
645DEFINE_LOAD_STORE_INSTRUCTION_ARM(STRB, cpu->memory.store8(cpu, address, cpu->gprs[rd], &currentCycles); ARM_STORE_POST_BODY;)
646DEFINE_LOAD_STORE_MODE_3_DOUBLE_INSTRUCTION_ARM(STRD, cpu->memory.store32(cpu, address, cpu->gprs[rd & ~1], &currentCycles); cpu->memory.store32(cpu, address + 4, cpu->gprs[rd | 1], &currentCycles); ARM_STORE_POST_BODY;)
647DEFINE_LOAD_STORE_MODE_3_INSTRUCTION_ARM(STRH, cpu->memory.store16(cpu, address, cpu->gprs[rd], &currentCycles); ARM_STORE_POST_BODY;)
648
649DEFINE_LOAD_STORE_T_INSTRUCTION_ARM(LDRBT,
650	enum PrivilegeMode priv = cpu->privilegeMode;
651	ARMSetPrivilegeMode(cpu, MODE_USER);
652	int32_t r = cpu->memory.load8(cpu, address, &currentCycles);
653	ARMSetPrivilegeMode(cpu, priv);
654	cpu->gprs[rd] = r;
655	ARM_LOAD_POST_BODY;)
656
657DEFINE_LOAD_STORE_T_INSTRUCTION_ARM(LDRT,
658	enum PrivilegeMode priv = cpu->privilegeMode;
659	ARMSetPrivilegeMode(cpu, MODE_USER);
660	int32_t r = cpu->memory.load32(cpu, address, &currentCycles);
661	ARMSetPrivilegeMode(cpu, priv);
662	cpu->gprs[rd] = r;
663	ARM_LOAD_POST_BODY;)
664
665DEFINE_LOAD_STORE_T_INSTRUCTION_ARM(STRBT,
666	enum PrivilegeMode priv = cpu->privilegeMode;
667	int32_t r = cpu->gprs[rd];
668	ARMSetPrivilegeMode(cpu, MODE_USER);
669	cpu->memory.store8(cpu, address, r, &currentCycles);
670	ARMSetPrivilegeMode(cpu, priv);
671	ARM_STORE_POST_BODY;)
672
673DEFINE_LOAD_STORE_T_INSTRUCTION_ARM(STRT,
674	enum PrivilegeMode priv = cpu->privilegeMode;
675	int32_t r = cpu->gprs[rd];
676	ARMSetPrivilegeMode(cpu, MODE_USER);
677	cpu->memory.store32(cpu, address, r, &currentCycles);
678	ARMSetPrivilegeMode(cpu, priv);
679	ARM_STORE_POST_BODY;)
680
681DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM(LDM,
682	load,
683	currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32;
684	if (rs & 0x8000) {
685		ARM_WRITE_PC;
686	})
687
688DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM_NO_S(LDMv5,
689	load,
690	currentCycles += cpu->memory.activeNonseqCycles32 - cpu->memory.activeSeqCycles32;
691	if (rs & 0x8000) {
692		_ARMSetMode(cpu, cpu->gprs[ARM_PC] & 0x00000001);
693		cpu->gprs[ARM_PC] &= 0xFFFFFFFE;
694		if (cpu->executionMode == MODE_THUMB) {
695			THUMB_WRITE_PC;
696		} else {
697			ARM_WRITE_PC;
698
699		}
700	})
701
702DEFINE_LOAD_STORE_MULTIPLE_INSTRUCTION_ARM(STM,
703	store,
704	ARM_STORE_POST_BODY;)
705
706DEFINE_INSTRUCTION_ARM(SWP,
707	int rm = opcode & 0xF;
708	int rd = (opcode >> 12) & 0xF;
709	int rn = (opcode >> 16) & 0xF;
710	int32_t d = cpu->memory.load32(cpu, cpu->gprs[rn], &currentCycles);
711	cpu->memory.store32(cpu, cpu->gprs[rn], cpu->gprs[rm], &currentCycles);
712	cpu->gprs[rd] = d;)
713
714DEFINE_INSTRUCTION_ARM(SWPB,
715	int rm = opcode & 0xF;
716	int rd = (opcode >> 12) & 0xF;
717	int rn = (opcode >> 16) & 0xF;
718	int32_t d = cpu->memory.load8(cpu, cpu->gprs[rn], &currentCycles);
719	cpu->memory.store8(cpu, cpu->gprs[rn], cpu->gprs[rm], &currentCycles);
720	cpu->gprs[rd] = d;)
721
722// End load/store definitions
723
724// Begin branch definitions
725
726DEFINE_INSTRUCTION_ARM(B,
727	int32_t offset = opcode << 8;
728	offset >>= 6;
729	cpu->gprs[ARM_PC] += offset;
730	ARM_WRITE_PC;)
731
732DEFINE_INSTRUCTION_ARM(BL,
733	int32_t immediate = (opcode & 0x00FFFFFF) << 8;
734	cpu->gprs[ARM_LR] = cpu->gprs[ARM_PC] - WORD_SIZE_ARM;
735	cpu->gprs[ARM_PC] += immediate >> 6;
736	ARM_WRITE_PC;)
737
738DEFINE_INSTRUCTION_ARM(BX,
739	int rm = opcode & 0x0000000F;
740	_ARMSetMode(cpu, cpu->gprs[rm] & 0x00000001);
741	cpu->gprs[ARM_PC] = cpu->gprs[rm] & 0xFFFFFFFE;
742	if (cpu->executionMode == MODE_THUMB) {
743		THUMB_WRITE_PC;
744	} else {
745		ARM_WRITE_PC;
746
747	})
748
749DEFINE_INSTRUCTION_ARM(BLX,
750	int32_t immediate = (opcode & 0x00FFFFFF) << 8;
751	cpu->gprs[ARM_LR] = cpu->gprs[ARM_PC] - WORD_SIZE_ARM;
752	cpu->gprs[ARM_PC] += (immediate >> 6) + ((opcode >> 23) & 2);
753	_ARMSetMode(cpu, MODE_THUMB);
754	THUMB_WRITE_PC;)
755
756DEFINE_INSTRUCTION_ARM(BLX2,
757	int rm = opcode & 0x0000000F;
758	int address = cpu->gprs[rm];
759	cpu->gprs[ARM_LR] = cpu->gprs[ARM_PC] - WORD_SIZE_ARM;
760	_ARMSetMode(cpu, address & 0x00000001);
761	cpu->gprs[ARM_PC] = address & 0xFFFFFFFE;
762	if (cpu->executionMode == MODE_THUMB) {
763		THUMB_WRITE_PC;
764	} else {
765		ARM_WRITE_PC;
766	})
767
768// End branch definitions
769
770// Begin coprocessor definitions
771
772#define DEFINE_COPROCESSOR_INSTRUCTION(NAME, BODY) \
773	DEFINE_INSTRUCTION_ARM(NAME, \
774		int op1 = (opcode >> 21) & 7; \
775		int op2 = (opcode >> 5) & 7; \
776		int rd = (opcode >> 12) & 0xF; \
777		int cp = (opcode >> 8) & 0xF; \
778		int crn = (opcode >> 16) & 0xF; \
779		int crm = opcode & 0xF; \
780		UNUSED(op1); \
781		UNUSED(op2); \
782		UNUSED(rd); \
783		UNUSED(crn); \
784		UNUSED(crm); \
785		BODY;)
786
787DEFINE_COPROCESSOR_INSTRUCTION(MRC,
788	if (cp == 15 && cpu->irqh.readCP15) {
789		cpu->gprs[rd] = cpu->irqh.readCP15(cpu, crn, crm, op1, op2);
790	} else {
791		ARM_STUB;
792	})
793
794DEFINE_COPROCESSOR_INSTRUCTION(MCR,
795	if (cp == 15 && cpu->irqh.writeCP15) {
796		cpu->irqh.writeCP15(cpu, crn, crm, op1, op2, cpu->gprs[rd]);
797	} else {
798		ARM_STUB;
799	})
800
801DEFINE_INSTRUCTION_ARM(CDP, ARM_STUB)
802DEFINE_INSTRUCTION_ARM(LDC, ARM_STUB)
803DEFINE_INSTRUCTION_ARM(STC, ARM_STUB)
804
805// Begin miscellaneous definitions
806
807DEFINE_INSTRUCTION_ARM(CLZ,
808	int rm = opcode & 0xF;
809	int rd = (opcode >> 12) & 0xF;
810	cpu->gprs[rd] = clz32(cpu->gprs[rm]);)
811
812DEFINE_INSTRUCTION_ARM(BKPT, cpu->irqh.bkpt32(cpu, ((opcode >> 4) & 0xFFF0) | (opcode & 0xF))); // Not strictly in ARMv4T, but here for convenience
813DEFINE_INSTRUCTION_ARM(ILL, ARM_ILL) // Illegal opcode
814
815DEFINE_INSTRUCTION_ARM(MSR,
816	int c = opcode & 0x00010000;
817	int f = opcode & 0x00080000;
818	int32_t operand = cpu->gprs[opcode & 0x0000000F];
819	int32_t mask = (c ? 0x000000FF : 0) | (f ? 0xFF000000 : 0);
820	if (mask & PSR_USER_MASK) {
821		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_USER_MASK) | (operand & PSR_USER_MASK);
822	}
823	if (mask & PSR_STATE_MASK) {
824		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_STATE_MASK) | (operand & PSR_STATE_MASK);
825	}
826	if (cpu->privilegeMode != MODE_USER && (mask & PSR_PRIV_MASK)) {
827		ARMSetPrivilegeMode(cpu, (enum PrivilegeMode) ((operand & 0x0000000F) | 0x00000010));
828		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_PRIV_MASK) | (operand & PSR_PRIV_MASK);
829	}
830	_ARMReadCPSR(cpu);
831	if (cpu->executionMode == MODE_THUMB) {
832		cpu->prefetch[0] = 0x46C0; // nop
833		cpu->prefetch[1] &= 0xFFFF;
834		cpu->gprs[ARM_PC] += WORD_SIZE_THUMB;
835	} else {
836		LOAD_32(cpu->prefetch[0], (cpu->gprs[ARM_PC] - WORD_SIZE_ARM) & cpu->memory.activeMask, cpu->memory.activeRegion);
837		LOAD_32(cpu->prefetch[1], cpu->gprs[ARM_PC] & cpu->memory.activeMask, cpu->memory.activeRegion);
838	})
839
840DEFINE_INSTRUCTION_ARM(MSRR,
841	int c = opcode & 0x00010000;
842	int f = opcode & 0x00080000;
843	int32_t operand = cpu->gprs[opcode & 0x0000000F];
844	int32_t mask = (c ? 0x000000FF : 0) | (f ? 0xFF000000 : 0);
845	mask &= PSR_USER_MASK | PSR_PRIV_MASK | PSR_STATE_MASK;
846	cpu->spsr.packed = (cpu->spsr.packed & ~mask) | (operand & mask) | 0x00000010;)
847
848DEFINE_INSTRUCTION_ARM(MRS, \
849	int rd = (opcode >> 12) & 0xF; \
850	cpu->gprs[rd] = cpu->cpsr.packed;)
851
852DEFINE_INSTRUCTION_ARM(MRSR, \
853	int rd = (opcode >> 12) & 0xF; \
854	cpu->gprs[rd] = cpu->spsr.packed;)
855
856DEFINE_INSTRUCTION_ARM(MSRI,
857	int c = opcode & 0x00010000;
858	int f = opcode & 0x00080000;
859	int rotate = (opcode & 0x00000F00) >> 7;
860	int32_t operand = ROR(opcode & 0x000000FF, rotate);
861	int32_t mask = (c ? 0x000000FF : 0) | (f ? 0xFF000000 : 0);
862	if (mask & PSR_USER_MASK) {
863		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_USER_MASK) | (operand & PSR_USER_MASK);
864	}
865	if (mask & PSR_STATE_MASK) {
866		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_STATE_MASK) | (operand & PSR_STATE_MASK);
867	}
868	if (cpu->privilegeMode != MODE_USER && (mask & PSR_PRIV_MASK)) {
869		ARMSetPrivilegeMode(cpu, (enum PrivilegeMode) ((operand & 0x0000000F) | 0x00000010));
870		cpu->cpsr.packed = (cpu->cpsr.packed & ~PSR_PRIV_MASK) | (operand & PSR_PRIV_MASK);
871	}
872	_ARMReadCPSR(cpu);
873	if (cpu->executionMode == MODE_THUMB) {
874		cpu->prefetch[0] = 0x46C0; // nop
875		cpu->prefetch[1] &= 0xFFFF;
876		cpu->gprs[ARM_PC] += WORD_SIZE_THUMB;
877	} else {
878		LOAD_32(cpu->prefetch[0], (cpu->gprs[ARM_PC] - WORD_SIZE_ARM) & cpu->memory.activeMask, cpu->memory.activeRegion);
879		LOAD_32(cpu->prefetch[1], cpu->gprs[ARM_PC] & cpu->memory.activeMask, cpu->memory.activeRegion);
880	})
881
882DEFINE_INSTRUCTION_ARM(MSRRI,
883	int c = opcode & 0x00010000;
884	int f = opcode & 0x00080000;
885	int rotate = (opcode & 0x00000F00) >> 7;
886	int32_t operand = ROR(opcode & 0x000000FF, rotate);
887	int32_t mask = (c ? 0x000000FF : 0) | (f ? 0xFF000000 : 0);
888	mask &= PSR_USER_MASK | PSR_PRIV_MASK | PSR_STATE_MASK;
889	cpu->spsr.packed = (cpu->spsr.packed & ~mask) | (operand & mask) | 0x00000010;)
890
891DEFINE_INSTRUCTION_ARM(SWI, cpu->irqh.swi32(cpu, opcode & 0xFFFFFF))
892
893const ARMInstruction _armv4Table[0x1000] = {
894	DECLARE_ARM_EMITTER_BLOCK(_ARMInstruction, 4)
895};
896
897const ARMInstruction _armv5Table[0x1000] = {
898	DECLARE_ARM_EMITTER_BLOCK(_ARMInstruction, 5)
899};
900
901const ARMInstruction _armv4FTable[0x1000] = {
902	DECLARE_ARM_F_EMITTER_BLOCK(_ARMInstruction, 4)
903};
904
905const ARMInstruction _armv5FTable[0x1000] = {
906	DECLARE_ARM_F_EMITTER_BLOCK(_ARMInstruction, 5)
907};