1
// Copyright (c) 2012- PPSSPP Project.
2

3
// This program is free software: you can redistribute it and/or modify
4
// it under the terms of the GNU General Public License as published by
5
// the Free Software Foundation, version 2.0 or later versions.
6

7
// This program is distributed in the hope that it will be useful,
8
// but WITHOUT ANY WARRANTY; without even the implied warranty of
9
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
10
// GNU General Public License 2.0 for more details.
11

12
// A copy of the GPL 2.0 should have been included with the program.
13
// If not, see http://www.gnu.org/licenses/
14

15
// Official git repository and contact information can be found at
16
// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
17

18
#include <algorithm>
19

20
#include "Core/MIPS/MIPS.h"
21
#include "Core/MIPS/MIPSCodeUtils.h"
22
#include "Core/MIPS/IR/IRFrontend.h"
23
#include "Common/CPUDetect.h"
24

25
#define _RS MIPS_GET_RS(op)
26
#define _RT MIPS_GET_RT(op)
27
#define _RD MIPS_GET_RD(op)
28
#define _FS MIPS_GET_FS(op)
29
#define _FT MIPS_GET_FT(op)
30
#define _FD MIPS_GET_FD(op)
31
#define _SA MIPS_GET_SA(op)
32
#define _POS  ((op>> 6) & 0x1F)
33
#define _SIZE ((op>>11) & 0x1F)
34
#define _IMM16 (signed short)(op & 0xFFFF)
35
#define _IMM26 (op & 0x03FFFFFF)
36

37
// All functions should have CONDITIONAL_DISABLE, so we can narrow things down to a file quickly.
38
// Currently known non working ones should have DISABLE.
39

40
// #define CONDITIONAL_DISABLE(flag) { Comp_Generic(op); return; }
41
#define CONDITIONAL_DISABLE(flag) if (opts.disableFlags & (uint32_t)JitDisable::flag) { Comp_Generic(op); return; }
42
#define DISABLE { Comp_Generic(op); return; }
43
#define INVALIDOP { Comp_Generic(op); return; }
44

45
namespace MIPSComp {
46

47
void IRFrontend::Comp_IType(MIPSOpcode op) {
48
	CONDITIONAL_DISABLE(ALU_IMM);
49

50
	u32 uimm = (u16)_IMM16;
51
	s32 simm = SignExtend16ToS32(op);
52
	u32 suimm = SignExtend16ToU32(op);
53

54
	MIPSGPReg rt = _RT;
55
	MIPSGPReg rs = _RS;
56

57
	// noop, won't write to ZERO.
58
	if (rt == MIPS_REG_ZERO)
59
		return;
60

61
	switch (op >> 26) {
62
	case 8:	// same as addiu?
63
	case 9:	// R(rt) = R(rs) + simm; break;	//addiu
64
		ir.Write(IROp::AddConst, rt, rs, ir.AddConstant(simm));
65
		break;
66

67
	case 12: ir.Write(IROp::AndConst, rt, rs, ir.AddConstant(uimm)); break;
68
	case 13: ir.Write(IROp::OrConst, rt, rs, ir.AddConstant(uimm)); break;
69
	case 14: ir.Write(IROp::XorConst, rt, rs, ir.AddConstant(uimm)); break;
70

71
	case 10: // R(rt) = (s32)R(rs) < simm; break; //slti
72
		ir.Write(IROp::SltConst, rt, rs, ir.AddConstant(simm));
73
		break;
74

75
	case 11: // R(rt) = R(rs) < suimm; break; //sltiu
76
		ir.Write(IROp::SltUConst, rt, rs, ir.AddConstant(suimm));
77
		break;
78

79
	case 15: // R(rt) = uimm << 16;	 //lui
80
		ir.WriteSetConstant(rt, uimm << 16);
81
		break;
82

83
	default:
84
		INVALIDOP;
85
		break;
86
	}
87
}
88

89
void IRFrontend::Comp_RType2(MIPSOpcode op) {
90
	CONDITIONAL_DISABLE(ALU_BIT);
91

92
	MIPSGPReg rs = _RS;
93
	MIPSGPReg rd = _RD;
94

95
	// Don't change $zr.
96
	if (rd == MIPS_REG_ZERO)
97
		return;
98

99
	switch (op & 63) {
100
	case 22: //clz
101
		ir.Write(IROp::Clz, rd, rs);
102
		break;
103
	case 23: //clo
104
		ir.Write(IROp::Not, IRTEMP_0, rs);
105
		ir.Write(IROp::Clz, rd, IRTEMP_0);
106
		break;
107
	default:
108
		INVALIDOP;
109
		break;
110
	}
111
}
112

113
void IRFrontend::Comp_RType3(MIPSOpcode op) {
114
	CONDITIONAL_DISABLE(ALU);
115

116
	MIPSGPReg rt = _RT;
117
	MIPSGPReg rs = _RS;
118
	MIPSGPReg rd = _RD;
119

120
	// noop, won't write to ZERO.
121
	if (rd == MIPS_REG_ZERO)
122
		return;
123

124
	switch (op & 63) {
125
	case 10: //if (!R(rt)) R(rd) = R(rs);       break; //movz
126
		ir.Write(IROp::MovZ, rd, rt, rs);
127
		break;
128
	case 11:// if (R(rt)) R(rd) = R(rs);		break; //movn
129
		ir.Write(IROp::MovNZ, rd, rt, rs);
130
		break;
131

132
	case 32: //R(rd) = R(rs) + R(rt);           break; //add
133
	case 33: //R(rd) = R(rs) + R(rt);           break; //addu
134
		ir.Write(IROp::Add, rd, rs, rt);
135
		break;
136

137
	case 34: //R(rd) = R(rs) - R(rt);           break; //sub
138
	case 35: //R(rd) = R(rs) - R(rt);           break; //subu
139
		ir.Write(IROp::Sub, rd, rs, rt);
140
		break;
141

142
	case 36: //R(rd) = R(rs) & R(rt);           break; //and
143
		ir.Write(IROp::And, rd, rs, rt);
144
		break;
145
	case 37: //R(rd) = R(rs) | R(rt);           break; //or
146
		ir.Write(IROp::Or, rd, rs, rt);
147
		break;
148
	case 38: //R(rd) = R(rs) ^ R(rt);           break; //xor/eor	
149
		ir.Write(IROp::Xor, rd, rs, rt);
150
		break;
151

152
	case 39: // R(rd) = ~(R(rs) | R(rt));       break; //nor
153
		if (rs == 0) {
154
			ir.Write(IROp::Not, rd, rt);
155
		} else if (rt == 0) {
156
			ir.Write(IROp::Not, rd, rs);
157
		} else {
158
			ir.Write(IROp::Or, IRTEMP_0, rs, rt);
159
			ir.Write(IROp::Not, rd, IRTEMP_0);
160
		}
161
		break;
162

163
	case 42: //R(rd) = (int)R(rs) < (int)R(rt); break; //slt
164
		ir.Write(IROp::Slt, rd, rs, rt);
165
		break;
166

167
	case 43: //R(rd) = R(rs) < R(rt);           break; //sltu
168
		ir.Write(IROp::SltU, rd, rs, rt);
169
		break;
170

171
	case 44: //R(rd) = max(R(rs), R(rt);        break; //max
172
		ir.Write(IROp::Max, rd, rs, rt);
173
		break;
174

175
	case 45: //R(rd) = min(R(rs), R(rt));       break; //min
176
		ir.Write(IROp::Min, rd, rs, rt);
177
		break;
178

179
	default:
180
		INVALIDOP;
181
		break;
182
	}
183
}
184

185
void IRFrontend::CompShiftImm(MIPSOpcode op, IROp shiftOpImm, int sa) {
186
	MIPSGPReg rd = _RD;
187
	MIPSGPReg rt = _RT;
188
	ir.Write(shiftOpImm, rd, rt, sa);
189
}
190

191
void IRFrontend::CompShiftVar(MIPSOpcode op, IROp shiftOp) {
192
	MIPSGPReg rd = _RD;
193
	MIPSGPReg rt = _RT;
194
	MIPSGPReg rs = _RS;
195

196
	if (opts.optimizeForInterpreter) {
197
		// The interpreter already masks where needed, don't need to generate extra ops.
198
		ir.Write(shiftOp, rd, rt, rs);
199
	} else {
200
		ir.Write(IROp::AndConst, IRTEMP_0, rs, ir.AddConstant(31));
201
		ir.Write(shiftOp, rd, rt, IRTEMP_0);
202
	}
203
}
204

205
void IRFrontend::Comp_ShiftType(MIPSOpcode op) {
206
	CONDITIONAL_DISABLE(ALU);
207
	MIPSGPReg rs = _RS;
208
	MIPSGPReg rd = _RD;
209
	int sa = _SA;
210

211
	// noop, won't write to ZERO.
212
	if (rd == MIPS_REG_ZERO)
213
		return;
214

215
	// WARNING: srl/rotr and srlv/rotrv share encodings (differentiated using unused bits.)
216
	switch (op & 0x3f) {
217
	case 0: CompShiftImm(op, IROp::ShlImm, sa); break; //sll
218
	case 2: CompShiftImm(op, (rs == 1 ? IROp::RorImm : IROp::ShrImm), sa); break;	//srl
219
	case 3: CompShiftImm(op, IROp::SarImm, sa); break; //sra
220
	case 4: CompShiftVar(op, IROp::Shl); break; //sllv
221
	case 6: CompShiftVar(op, (sa == 1 ? IROp::Ror : IROp::Shr)); break; //srlv
222
	case 7: CompShiftVar(op, IROp::Sar); break; //srav
223

224
	default:
225
		INVALIDOP;
226
		break;
227
	}
228
}
229

230
void IRFrontend::Comp_Special3(MIPSOpcode op) {
231
	CONDITIONAL_DISABLE(ALU_BIT);
232
	MIPSGPReg rs = _RS;
233
	MIPSGPReg rt = _RT;
234

235
	int pos = _POS;
236
	int size = _SIZE + 1;
237
	u32 mask = 0xFFFFFFFFUL >> (32 - size);
238

239
	// Don't change $zr.
240
	if (rt == MIPS_REG_ZERO)
241
		return;
242

243
	switch (op & 0x3f) {
244
	case 0x0: // ext
245
		if (pos != 0) {
246
			ir.Write(IROp::ShrImm, rt, rs, pos);
247
			ir.Write(IROp::AndConst, rt, rt, ir.AddConstant(mask));
248
		} else {
249
			ir.Write(IROp::AndConst, rt, rs, ir.AddConstant(mask));
250
		}
251
		break;
252

253
	case 0x4: //ins
254
	{
255
		// TODO: Might be good to support natively in the interpreter. Though, would have to
256
		// abuse a register as a constant
257
		u32 sourcemask = mask >> pos;
258
		u32 destmask = ~(sourcemask << pos);
259

260
		if (size != 32) {
261
			// Need to use the sourcemask.
262
			ir.Write(IROp::AndConst, IRTEMP_0, rs, ir.AddConstant(sourcemask));
263
			if (pos != 0) {
264
				ir.Write(IROp::ShlImm, IRTEMP_0, IRTEMP_0, pos);
265
			}
266
		} else {
267
			// If the shl takes care of the sourcemask, don't need to and.
268
			if (pos != 0) {
269
				ir.Write(IROp::ShlImm, IRTEMP_0, rs, pos);
270
			} else {
271
				ir.Write(IROp::Mov, IRTEMP_0, rs);
272
			}
273
		}
274
		ir.Write(IROp::AndConst, rt, rt, ir.AddConstant(destmask));
275
		ir.Write(IROp::Or, rt, rt, IRTEMP_0);
276
	}
277
	break;
278

279
	default:
280
		INVALIDOP;
281
		break;
282
	}
283
}
284

285

286
void IRFrontend::Comp_Allegrex(MIPSOpcode op) {
287
	CONDITIONAL_DISABLE(ALU_BIT);
288
	MIPSGPReg rt = _RT;
289
	MIPSGPReg rd = _RD;
290

291
	// Don't change $zr.
292
	if (rd == MIPS_REG_ZERO)
293
		return;
294

295
	switch ((op >> 6) & 31) {
296
	case 16: // seb	// R(rd) = SignExtend8ToU32(R(rt));
297
		ir.Write(IROp::Ext8to32, rd, rt);
298
		break;
299

300
	case 24: // seh
301
		ir.Write(IROp::Ext16to32, rd, rt);
302
		break;
303

304
	case 20: // bitrev
305
		ir.Write(IROp::ReverseBits, rd, rt);
306
		break;
307

308
	default:
309
		INVALIDOP;
310
		return;
311
	}
312
}
313

314
void IRFrontend::Comp_Allegrex2(MIPSOpcode op) {
315
	CONDITIONAL_DISABLE(ALU_BIT);
316
	MIPSGPReg rt = _RT;
317
	MIPSGPReg rd = _RD;
318

319
	// Don't change $zr.
320
	if (rd == MIPS_REG_ZERO)
321
		return;
322

323
	switch (op & 0x3ff) {
324
	case 0xA0: //wsbh
325
		ir.Write(IROp::BSwap16, rd, rt);
326
		break;
327
	case 0xE0: //wsbw
328
		ir.Write(IROp::BSwap32, rd, rt);
329
		break;
330
	default:
331
		INVALIDOP;
332
		break;
333
	}
334
}
335

336
void IRFrontend::Comp_MulDivType(MIPSOpcode op) {
337
	CONDITIONAL_DISABLE(MULDIV);
338
	MIPSGPReg rt = _RT;
339
	MIPSGPReg rs = _RS;
340
	MIPSGPReg rd = _RD;
341

342
	switch (op & 63) {
343
	case 16: // R(rd) = HI; //mfhi
344
		if (rd != MIPS_REG_ZERO) {
345
			ir.Write(IROp::MfHi, rd);
346
		}
347
		break;
348

349
	case 17: // HI = R(rs); //mthi
350
		ir.Write(IROp::MtHi, 0, rs);
351
		break;
352

353
	case 18: // R(rd) = LO; break; //mflo
354
		if (rd != MIPS_REG_ZERO) {
355
			ir.Write(IROp::MfLo, rd);
356
		}
357
		break;
358

359
	case 19: // LO = R(rs); break; //mtlo
360
		ir.Write(IROp::MtLo, 0, rs);
361
		break;
362

363
	case 24: //mult (the most popular one). lo,hi  = signed mul (rs * rt)
364
		ir.Write(IROp::Mult, 0, rs, rt);
365
		break;
366

367
	case 25: //multu (2nd) lo,hi  = unsigned mul (rs * rt)
368
		ir.Write(IROp::MultU, 0, rs, rt);
369
		break;
370

371
	case 26: //div
372
		ir.Write(IROp::Div, 0, rs, rt);
373
		break;
374

375
	case 27: //divu
376
		ir.Write(IROp::DivU, 0, rs, rt);
377
		break;
378

379
	case 28: //madd
380
		ir.Write(IROp::Madd, 0, rs, rt);
381
		break;
382

383
	case 29: //maddu
384
		ir.Write(IROp::MaddU, 0, rs, rt);
385
		break;
386

387
	case 46: // msub
388
		ir.Write(IROp::Msub, 0, rs, rt);
389
		break;
390

391
	case 47: // msubu
392
		ir.Write(IROp::MsubU, 0, rs, rt);
393
		break;
394

395
	default:
396
		INVALIDOP;
397
	}
398
}
399

400
}
401

402