xref: /freebsd/contrib/llvm-project/llvm/lib/Target/CSKY/CSKYInstrInfo16Instr.td (revision 38a52bd3b5cac3da6f7f6eef3dd050e6aa08ebb3)
1//===-- CSKYInstrInfo16Instr.td - CSKY 16-bit Instruction --*- tablegen -*-===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// This file describes the CSKY 16-bit instructions in TableGen format.
10//
11//===----------------------------------------------------------------------===//
12
13//===----------------------------------------------------------------------===//
14// CSKY specific DAG Nodes.
15//===----------------------------------------------------------------------===//
16
17// Target-dependent nodes.
18def CSKY_NIE : SDNode<"CSKYISD::NIE", SDTNone,
19    [SDNPHasChain, SDNPOptInGlue]>;
20def CSKY_NIR : SDNode<"CSKYISD::NIR", SDTNone,
21    [SDNPHasChain, SDNPOptInGlue]>;
22
23//===----------------------------------------------------------------------===//
24// Operand and SDNode transformation definitions.
25//===----------------------------------------------------------------------===//
26
27def br_symbol_16bit : Operand<iPTR> {
28  let EncoderMethod =
29    "getBranchSymbolOpValue<CSKY::fixup_csky_pcrel_imm10_scale2>";
30  let ParserMatchClass = CSKYSymbol;
31  let DecoderMethod = "decodeSImmOperand<10, 1>";
32  let PrintMethod = "printCSKYSymbolOperand";
33  let OperandType = "OPERAND_PCREL";
34}
35
36def constpool_symbol_16bit : Operand<iPTR> {
37  let ParserMatchClass = Constpool;
38  let EncoderMethod =
39    "getConstpoolSymbolOpValue<CSKY::fixup_csky_pcrel_uimm7_scale4>";
40  let DecoderMethod = "decodeLRW16Imm8";
41  let PrintMethod = "printConstpool";
42  let OperandType = "OPERAND_PCREL";
43}
44
45//===----------------------------------------------------------------------===//
46// Instruction Formats
47//===----------------------------------------------------------------------===//
48
49include "CSKYInstrFormats16Instr.td"
50
51//===----------------------------------------------------------------------===//
52// Instruction definitions.
53//===----------------------------------------------------------------------===//
54
55//===----------------------------------------------------------------------===//
56// Basic ALU instructions.
57//===----------------------------------------------------------------------===//
58
59let isCommutable = 1, isAdd = 1 in
60  def ADDU16 : R16_XYZ<0, "addu16", add>;
61let Pattern = [(set mGPR:$rz, (sub mGPR:$rx, mGPR:$ry))] in
62  def SUBU16 : R16_XYZ<1, "subu16", sub>;
63
64let isCommutable = 1, isAdd = 1 in
65  def ADDC16 : R16_XZ_BINOP_C<0b1000, 0b01, "addc16">;
66def SUBC16 : R16_XZ_BINOP_C<0b1000, 0b11, "subc16">;
67
68let isCommutable = 1 in {
69  let isAdd = 1 in
70  def ADDU16XZ : R16_XZ_BINOP<0b1000, 0b00, "addu16", BinOpFrag<(add node:$LHS, node:$RHS)>>;
71  def AND16 : R16_XZ_BINOP<0b1010, 0b00, "and16", BinOpFrag<(and node:$LHS, node:$RHS)>>;
72  def OR16 : R16_XZ_BINOP<0b1011, 0b00, "or16", BinOpFrag<(or node:$LHS, node:$RHS)>>;
73  def XOR16 : R16_XZ_BINOP<0b1011, 0b01, "xor16", BinOpFrag<(xor node:$LHS, node:$RHS)>>;
74  def NOR16 : R16_XZ_BINOP<0b1011, 0b10, "nor16", BinOpFrag<(not (or node:$LHS, node:$RHS))>>;
75  let isCodeGenOnly = 1 in
76  def NOT16 : R16_Z_UNOP<0b1011, 0b10, "not16">;
77  def MULT16 :  R16_XZ_BINOP<0b1111, 0b00, "mult16", BinOpFrag<(mul node:$LHS, node:$RHS)>>;
78}
79def SUBU16XZ : R16_XZ_BINOP<0b1000, 0b10, "subu16", BinOpFrag<(sub node:$LHS, node:$RHS)>>;
80def ANDN16 : R16_XZ_BINOP<0b1010, 0b01, "andn16", BinOpFrag<(and node:$LHS, (not node:$RHS))>>;
81def LSL16 : R16_XZ_BINOP<0b1100, 0b00, "lsl16", BinOpFrag<(shl node:$LHS, node:$RHS)>>;
82def LSR16 : R16_XZ_BINOP<0b1100, 0b01, "lsr16", BinOpFrag<(srl node:$LHS, node:$RHS)>>;
83def ASR16 : R16_XZ_BINOP<0b1100, 0b10, "asr16", BinOpFrag<(sra node:$LHS, node:$RHS)>>;
84def ROTL16 : R16_XZ_BINOP<0b1100, 0b11, "rotl16", BinOpFrag<(rotl node:$LHS, (and node:$RHS, 0x1f))>>;
85
86def MULSH16 : R16_XZ_BINOP_NOPat<0b1111, 0b01, "mulsh16">;
87
88def ZEXTB16 : R16_XZ_UNOP<0b1101, 0b00, "zextb16">;
89def ZEXTH16 : R16_XZ_UNOP<0b1101, 0b01, "zexth16">;
90def SEXTB16 : R16_XZ_UNOP<0b1101, 0b10, "sextb16">;
91def SEXTH16 : R16_XZ_UNOP<0b1101, 0b11, "sexth16">;
92
93let Constraints = "$rZ = $rz", isReMaterializable = 1, isAsCheapAsAMove = 1 in {
94  let isAdd = 1, Pattern = [(set mGPR:$rz, (add mGPR:$rZ, oimm8:$imm8))] in
95  def ADDI16 : I16_Z_8<0b100, (ins mGPR:$rZ, oimm8:$imm8), "addi16\t$rz, $imm8">;
96  let Pattern = [(set mGPR:$rz, (sub mGPR:$rZ, oimm8:$imm8))] in
97  def SUBI16 : I16_Z_8<0b101, (ins mGPR:$rZ, oimm8:$imm8), "subi16\t$rz, $imm8">;
98}
99
100let isAdd = 1 in
101def ADDI16ZSP : I16_Z_8<0b011, (ins GPRSP:$sp, uimm8_2:$imm8),
102                        "addi16\t$rz, $sp, $imm8">;
103
104let isAdd = 1 in
105def ADDI16SPSP : I16_SP_IMM7<0b000,"addi16">;
106def SUBI16SPSP : I16_SP_IMM7<0b001,"subi16">;
107
108let isReMaterializable = 1, isAsCheapAsAMove = 1 in {
109  def LSLI16 : I16_XZ_IMM5<0, "lsli16", shl>;
110  def LSRI16 : I16_XZ_IMM5<1, "lsri16", srl>;
111  def ASRI16 : I16_XZ_IMM5<2, "asri16", sra>;
112}
113
114let isAdd = 1 in
115def ADDI16XZ : I16_XZ_IMM3<0b10, "addi16", add>;
116def SUBI16XZ : I16_XZ_IMM3<0b11, "subi16", sub>;
117
118let Size = 4 in
119def NEG16 : CSKYPseudo<(outs mGPR:$rd), (ins mGPR:$rx), "neg16 $rd, $rx", []>;
120
121let Size = 4 in
122def RSUBI16 : CSKYPseudo<(outs mGPR:$rd),
123  (ins mGPR:$rx, uimm8:$imm8), "rsubi16 $rd, $rx, $imm8", []>;
124
125//===----------------------------------------------------------------------===//
126// Load & Store instructions.
127//===----------------------------------------------------------------------===//
128
129def LD16B : I16_XZ_LDST<AddrMode16B, 0b000, "ld16.b",
130  (outs mGPR:$rz), (ins mGPR:$rx, uimm5:$imm)>;
131def LD16H : I16_XZ_LDST<AddrMode16H, 0b001, "ld16.h",
132  (outs mGPR:$rz), (ins mGPR:$rx, uimm5_1:$imm)>;
133def LD16W : I16_XZ_LDST<AddrMode16W, 0b010, "ld16.w",
134  (outs mGPR:$rz), (ins mGPR:$rx, uimm5_2:$imm)>;
135def ST16B : I16_XZ_LDST<AddrMode16B, 0b100, "st16.b",
136  (outs), (ins mGPR:$rz, mGPR:$rx, uimm5:$imm)>;
137def ST16H : I16_XZ_LDST<AddrMode16H, 0b101, "st16.h",
138  (outs), (ins mGPR:$rz, mGPR:$rx, uimm5_1:$imm)>;
139def ST16W : I16_XZ_LDST<AddrMode16W, 0b110, "st16.w",
140  (outs), (ins mGPR:$rz, mGPR:$rx, uimm5_2:$imm)>;
141
142def LD16WSP : I16_ZSP_LDST<AddrMode16W, 0b011, "ld16.w",
143  (outs mGPR:$rz), (ins GPRSP:$sp, uimm8_2:$addr)>;
144def ST16WSP : I16_ZSP_LDST<AddrMode16W, 0b111, "st16.w",
145  (outs), (ins mGPR:$rz, GPRSP:$sp, uimm8_2:$addr)>;
146
147//===----------------------------------------------------------------------===//
148// Compare instructions.
149//===----------------------------------------------------------------------===//
150
151def CMPHS16 : R16_XY_CMP<0, "cmphs16">;
152def CMPLT16 : R16_XY_CMP<1, "cmplt16">;
153let isCommutable = 1 in
154def CMPNE16 : R16_XY_CMP<2, "cmpne16">;
155
156
157def CMPHSI16 : I16_X_CMP<0, "cmphsi16", oimm5>;
158def CMPLTI16 : I16_X_CMP<1, "cmplti16", oimm5>;
159def CMPLEI16 : CSKYPseudo<(outs CARRY:$ca), (ins mGPR:$rx, uimm5:$imm5),
160    "cmplei16\t$rx, $imm5", []>;
161def CMPNEI16 : I16_X_CMP<2, "cmpnei16", uimm5>;
162
163//===----------------------------------------------------------------------===//
164// Data move instructions.
165//===----------------------------------------------------------------------===//
166
167
168def MOVI16 : I16_Z_8<0b110, (ins uimm8:$imm8), "movi16\t$rz, $imm8"> {
169  let isReMaterializable = 1;
170  let isAsCheapAsAMove = 1;
171  let isMoveImm = 1;
172  let Pattern = [(set mGPR:$rz, uimm8:$imm8)];
173}
174
175def MOV16 : CSKY16Inst<AddrModeNone, (outs sGPR:$rz), (ins sGPR:$rx),
176                       "mov16\t$rz, $rx", []> {
177  bits<4> rz;
178  bits<4> rx;
179  let Inst{15,14} = 0b01;
180  let Inst{13 - 10} = 0b1011;
181  let Inst{9 - 6} = rz;
182  let Inst{5 - 2} = rx;
183  let Inst{1,0} = 0b11;
184}
185
186// MVC16 is not in "cskyv2 instructions reference manul"
187def MVCV16 : CSKY16Inst<AddrModeNone,
188  (outs sGPR:$rz), (ins CARRY:$ca), "mvcv16\t$rz", []> {
189  bits<4> rz;
190  let Inst{15,14} = 0b01;
191  let Inst{13 - 10} = 0b1001;
192  let Inst{9 - 6} = rz;
193  let Inst{5 - 2} = 0;
194  let Inst{1,0} = 0b11;
195}
196
197
198//===----------------------------------------------------------------------===//
199// Branch and call instructions.
200//===----------------------------------------------------------------------===//
201
202let isBranch = 1, isTerminator = 1 in {
203  let isBarrier = 1, isPredicable = 1 in
204    def BR16 : J16<1, "br16", (ins br_symbol_16bit:$offset)>;
205
206  def BT16 : J16_B<2, "bt16">;
207  def BF16 : J16_B<3, "bf16">;
208}
209
210def JMP16 : R16_X_J<0b11100000, 0b00, "jmp16"> {
211  let isBranch = 1;
212  let isTerminator = 1;
213  let isBarrier = 1;
214  let isIndirectBranch = 1;
215  let Pattern = [(brind sGPR:$rx)];
216}
217
218def JSR16 : R16_X_J<0b11101111, 0b01, "jsr16"> {
219  let isCall = 1;
220  let Defs = [ R15 ];
221}
222
223def RTS16 : CSKY16Inst<AddrModeNone, (outs), (ins), "rts16", [(CSKY_RET)]> {
224  let isTerminator = 1;
225  let isReturn = 1;
226  let isBarrier = 1;
227  let Inst = 0b0111100000111100;
228  let Uses = [R15];
229  let isCodeGenOnly = 1;
230}
231
232def JMPIX16 :  CSKY16Inst<AddrModeNone, (outs),
233  (ins mGPR:$rx, uimm2_jmpix:$indeximm2), "jmpix16\t$rx, $indeximm2", []> {
234  bits<3> rx;
235  bits<2> indeximm2;
236  let Inst{15,14} = 0b00;
237  let Inst{13 - 11} = 0b111;
238  let Inst{10 - 8} = rx;
239  let Inst{7 - 2} = 0b111000;
240  let Inst{1,0} = indeximm2;
241  let Predicates = [HasJAVA];
242  let Uses = [R30];
243}
244
245//===----------------------------------------------------------------------===//
246// Symbol address instructions.
247//===----------------------------------------------------------------------===//
248
249def LRW16 : CSKY16Inst<AddrModeNone, (outs mGPR:$rz),
250  (ins constpool_symbol_16bit:$label), "lrw16\t$rz, $label", []> {
251  bits<3> rz;
252  bits<8> label;
253  let Inst{15 - 13} = 0b000;
254  let Inst{12} = label{7};
255  let Inst{11,10} = 0b00;
256  let Inst{9,8} = label{6,5};
257  let Inst{7 - 5} = rz;
258  let Inst{4 - 0} = label{4-0};
259  let mayLoad = 1;
260  let mayStore = 0;
261}
262
263def LRW16_Gen : CSKY16Inst<AddrModeNone, (outs mGPR:$rz),
264  (ins bare_symbol:$src, constpool_symbol_16bit:$label),
265  "lrw16\t$rz, $label", []> {
266  bits<3> rz;
267  bits<8> label;
268  let Inst{15 - 13} = 0b000;
269  let Inst{12} = label{7};
270  let Inst{11,10} = 0b00;
271  let Inst{9,8} = label{6,5};
272  let Inst{7 - 5} = rz;
273  let Inst{4 - 0} = label{4-0};
274  let mayLoad = 1;
275  let mayStore = 0;
276  let isCodeGenOnly = 1;
277}
278
279
280//===----------------------------------------------------------------------===//
281// Other operation instructions.
282//===----------------------------------------------------------------------===//
283
284def REVB16 :  R16_XZ_UNOP<0b1110, 0b10, "revb16">;
285def REVH16 :  R16_XZ_UNOP<0b1110, 0b11, "revh16">;
286
287let isCodeGenOnly = 1 in
288def SETC16 : CSKY16Inst<AddrModeNone,
289  (outs CARRY:$ca), (ins), "setc16", []> {
290  let Inst{15, 14} = 0b01;
291  let Inst{13 - 10} = 0b1001;
292  let Inst{9 - 6} = 0;
293  let Inst{5 - 2} = 0;
294  let Inst{1, 0} = 0;
295  let isCompare = 1;
296}
297
298let isCodeGenOnly = 1 in
299def CLRC16 : CSKY16Inst<AddrModeNone,
300  (outs CARRY:$ca), (ins), "clrc16", []> {
301  let Inst{15, 14} = 0b01;
302  let Inst{13 - 10} = 0b1001;
303  let Inst{9 - 6} = 0;
304  let Inst{5 - 2} = 0;
305  let Inst{1, 0} = 2;
306  let isCompare = 1;
307}
308
309let Constraints = "$rZ = $rz" in {
310  def BCLRI16 : I16_Z_5<0b100, (outs mGPR:$rz), (ins mGPR:$rZ, uimm5:$imm5),
311                        "bclri16">;
312  def BSETI16 : I16_Z_5<0b101, (outs mGPR:$rz), (ins mGPR:$rZ, uimm5:$imm5),
313                        "bseti16">;
314}
315
316let Predicates = [HasBTST16] in
317  def BTSTI16 : I16_Z_5<0b110, (outs CARRY:$ca), (ins mGPR:$rz, uimm5:$imm5),
318                        "btsti16">;
319
320def TST16 : CSKY16Inst<AddrModeNone, (outs CARRY:$ca), (ins sGPR:$rx, sGPR:$ry),
321                        "tst16\t$rx, $ry", []> {
322  bits<4> ry;
323  bits<4> rx;
324  let Inst{15,14} = 0b01;
325  let Inst{13 - 10} = 0b1010;
326  let Inst{9 - 6} = ry;
327  let Inst{5 - 2} = rx;
328  let Inst{1,0} = 0b10;
329  let isCompare = 1;
330}
331
332def TSTNBZ16 : CSKY16Inst<AddrModeNone, (outs CARRY:$ca), (ins sGPR:$rx),
333                          "tstnbz16\t$rx", []> {
334  bits<4> rx;
335  let Inst{15,14} = 0b01;
336  let Inst{13 - 10} = 0b1010;
337  let Inst{9 - 6} = 0b0000;
338  let Inst{5 - 2} = rx;
339  let Inst{1,0} = 0b11;
340  let isCompare = 1;
341}
342
343//===----------------------------------------------------------------------===//
344// Special instructions.
345//===----------------------------------------------------------------------===//
346
347def BKPT : CSKY16Inst<AddrModeNone, (outs), (ins), "bkpt", []> {
348  let Inst = 0;
349}
350
351let mayStore = 1 in {
352def BPUSHH : I16_BPushPop<0b00010100111, 0, (outs), (ins mGPR:$rz), "bpush.h $rz">;
353def BPUSHW : I16_BPushPop<0b00010100111, 0b10, (outs), (ins mGPR:$rz), "bpush.w $rz">;
354}
355
356let mayLoad = 1 in {
357def BPOPH : I16_BPushPop<0b00010100101, 0, (outs mGPR:$rz), (ins),  "bpop.h $rz">;
358def BPOPW : I16_BPushPop<0b00010100101, 0b10, (outs mGPR:$rz), (ins), "bpop.w $rz">;
359}
360
361def NIE : CSKY16Inst<AddrModeNone, (outs), (ins), "nie", [(CSKY_NIE)]> {
362  let Inst = 0b0001010001100000;
363}
364
365let isBarrier = 1, isReturn = 1, isTerminator = 1 in
366def NIR : CSKY16Inst<AddrModeNone, (outs), (ins), "nir", [(CSKY_NIR)]> {
367  let Inst = 0b0001010001100001;
368}
369
370def IPUSH16 : CSKY16Inst<AddrModeNone, (outs), (ins), "ipush16", []> {
371  let Inst{15- 5} = 0b00010100011;
372  let Inst{4-0} = 0b00010;
373  let Predicates = [iHasE1];
374  let Defs  = [R14];
375  let Uses  = [R14, R0, R1, R2, R3, R12, R13];
376  let mayStore = 1;
377}
378
379def IPOP16 : CSKY16Inst<AddrModeNone, (outs), (ins), "ipop16", []> {
380  let Inst{15- 5} = 0b00010100011;
381  let Inst{4-0} = 0b00011;
382  let Predicates = [iHasE1];
383  let Defs  = [R14, R0, R1, R2, R3, R12, R13];
384  let Uses  = [R14];
385  let mayLoad = 1;
386}
387
388def PUSH16 : CSKY16Inst<AddrModeNone, (outs),
389  (ins reglist:$regs, variable_ops), "push16 $regs", []> {
390  bits<5> regs;
391
392  let Inst{15- 5} = 0b00010100110;
393  let Inst{4-0} = regs;
394  let Predicates = [iHasE1];
395  let Defs  = [R14];
396  let Uses  = [R14];
397  let mayStore = 1;
398}
399
400def POP16 : CSKY16Inst<AddrModeNone, (outs),
401  (ins reglist:$regs, variable_ops), "pop16 $regs", []> {
402  bits<5> regs;
403
404  let Inst{15- 5} = 0b00010100100;
405  let Inst{4-0} = regs;
406  let Predicates = [iHasE1];
407  let Defs  = [R14];
408  let Uses  = [R14];
409  let mayLoad = 1;
410}
411
412//===----------------------------------------------------------------------===//
413// CSKYPseudo
414//===----------------------------------------------------------------------===//
415
416let usesCustomInserter = 1 in  {
417  def ISEL16 : CSKYPseudo<(outs sGPR:$dst),
418    (ins CARRY:$cond, sGPR:$src1, sGPR:$src2),
419    "!isel16\t$dst, $src1, src2",
420    [(set sGPR:$dst, (select CARRY:$cond, sGPR:$src1, sGPR:$src2))]>;
421}
422
423class JBranchPseudo<dag out, dag ins, string opstr> :
424  CSKYPseudo<out, ins, opstr, []> {
425  let isBranch = 1;
426  let isTerminator = 1;
427  let isIndirectBranch = 1;
428  let mayLoad = 1;
429  let Size = 2;
430}
431
432let isBarrier = 1 in
433def JBR16 : JBranchPseudo<(outs),
434  (ins br_symbol_16bit:$src1), "jbr16\t$src1">;
435def JBT16 : JBranchPseudo<(outs),
436  (ins CARRY:$ca, br_symbol_16bit:$src1), "jbt16\t$src1">;
437def JBF16 : JBranchPseudo<(outs),
438  (ins CARRY:$ca, br_symbol_16bit:$src1), "jbf16\t$src1">;
439
440let mayLoad = 1, Size = 2, isCodeGenOnly = 0 in
441def PseudoLRW16 : CSKYPseudo<(outs mGPR:$rz),
442  (ins bare_symbol:$src), "lrw16 $rz, $src", []>;
443
444
445//===----------------------------------------------------------------------===//
446// Compress Instruction tablegen backend.
447//===----------------------------------------------------------------------===//
448
449def : CompressPat<(ADDU32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
450                  (ADDU16XZ sGPR:$rd, sGPR:$rs2)>;
451def : CompressPat<(ADDU32 sGPR:$rd, sGPR:$rs1, sGPR:$rd),
452                  (ADDU16XZ sGPR:$rd, sGPR:$rs1)>;
453def : CompressPat<(ADDU32 mGPR:$rd, mGPR:$rs1, mGPR:$rs2),
454                  (ADDU16 mGPR:$rd, mGPR:$rs1, mGPR:$rs2)>;
455def : CompressPat<(SUBU32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
456                  (SUBU16XZ sGPR:$rd, sGPR:$rs2)>;
457def : CompressPat<(SUBU32 mGPR:$rd, mGPR:$rs1, mGPR:$rs2),
458                  (SUBU16 mGPR:$rd, mGPR:$rs1, mGPR:$rs2)>;
459
460def : CompressPat<
461  (ADDC32 sGPR:$rd, CARRY:$cout, sGPR:$rd, sGPR:$rs2, CARRY:$cout),
462  (ADDC16 sGPR:$rd, CARRY:$cout, sGPR:$rs2, CARRY:$cout)
463  >;
464def : CompressPat<
465  (SUBC32 sGPR:$rd, CARRY:$cout, sGPR:$rd, sGPR:$rs2, CARRY:$cout),
466  (SUBC16 sGPR:$rd, CARRY:$cout, sGPR:$rs2, CARRY:$cout)
467  >;
468
469def : CompressPat<(ADDI32 mGPR:$rd, mGPR:$rs, oimm3:$imm),
470                  (ADDI16XZ mGPR:$rd, mGPR:$rs, oimm3:$imm)>;
471def : CompressPat<(SUBI32 mGPR:$rd, mGPR:$rs, oimm3:$imm),
472                  (SUBI16XZ mGPR:$rd, mGPR:$rs, oimm3:$imm)>;
473
474def : CompressPat<(ADDI32 mGPR:$rd, mGPR:$rd, oimm8:$imm),
475                  (ADDI16 mGPR:$rd, oimm8:$imm)>;
476def : CompressPat<(SUBI32 mGPR:$rd, mGPR:$rd, oimm8:$imm),
477                  (SUBI16 mGPR:$rd, oimm8:$imm)>;
478
479def : CompressPat<(ADDI32 GPRSP:$sp, GPRSP:$sp, uimm7_2:$imm),
480                  (ADDI16SPSP GPRSP:$sp, GPRSP:$sp, uimm7_2:$imm)>;
481def : CompressPat<(SUBI32 GPRSP:$sp, GPRSP:$sp, uimm7_2:$imm),
482                  (SUBI16SPSP GPRSP:$sp, GPRSP:$sp, uimm7_2:$imm)>;
483
484def : CompressPat<(ADDI32 mGPR:$rd, GPRSP:$sp, uimm8_2:$imm),
485                  (ADDI16ZSP mGPR:$rd, GPRSP:$sp, uimm8_2:$imm)>;
486
487def : CompressPat<(MULT32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
488                  (MULT16 sGPR:$rd, sGPR:$rs2)>;
489def : CompressPat<(MULT32 sGPR:$rd, sGPR:$rs1, sGPR:$rd),
490                  (MULT16 sGPR:$rd, sGPR:$rs1)>;
491def : CompressPat<(AND32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
492                  (AND16 sGPR:$rd, sGPR:$rs2)>;
493def : CompressPat<(AND32 sGPR:$rd, sGPR:$rs1, sGPR:$rd),
494                  (AND16 sGPR:$rd, sGPR:$rs1)>;
495def : CompressPat<(OR32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
496                  (OR16 sGPR:$rd, sGPR:$rs2)>;
497def : CompressPat<(OR32 sGPR:$rd, sGPR:$rs1, sGPR:$rd),
498                  (OR16 sGPR:$rd, sGPR:$rs1)>;
499def : CompressPat<(XOR32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
500                  (XOR16 sGPR:$rd, sGPR:$rs2)>;
501def : CompressPat<(XOR32 sGPR:$rd, sGPR:$rs1, sGPR:$rd),
502                  (XOR16 sGPR:$rd, sGPR:$rs1)>;
503
504def : CompressPat<(ANDN32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
505                  (ANDN16 sGPR:$rd, sGPR:$rs2)>;
506def : CompressPat<(NOR32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
507                  (NOR16 sGPR:$rd, sGPR:$rs2)>;
508def : CompressPat<(LSL32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
509                  (LSL16 sGPR:$rd, sGPR:$rs2)>;
510def : CompressPat<(LSR32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
511                  (LSR16 sGPR:$rd, sGPR:$rs2)>;
512def : CompressPat<(ASR32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
513                  (ASR16 sGPR:$rd, sGPR:$rs2)>;
514def : CompressPat<(ROTL32 sGPR:$rd, sGPR:$rd, sGPR:$rs2),
515                  (ROTL16 sGPR:$rd, sGPR:$rs2)>;
516
517def : CompressPat<(NOT32 sGPR:$rd, sGPR:$rd),
518                  (NOT16 sGPR:$rd)>;
519
520let Predicates = [iHas2E3] in
521def : CompressPat<(REVB32 sGPR:$rd, sGPR:$rs),
522                  (REVB16 sGPR:$rd, sGPR:$rs)>;
523
524def : CompressPat<(LSLI32 mGPR:$rd, mGPR:$rs, uimm5:$imm),
525                  (LSLI16 mGPR:$rd, mGPR:$rs, uimm5:$imm)>;
526def : CompressPat<(LSRI32 mGPR:$rd, mGPR:$rs, uimm5:$imm),
527                  (LSRI16 mGPR:$rd, mGPR:$rs, uimm5:$imm)>;
528def : CompressPat<(ASRI32 mGPR:$rd, mGPR:$rs, uimm5:$imm),
529                  (ASRI16 mGPR:$rd, mGPR:$rs, uimm5:$imm)>;
530
531def : CompressPat<(CMPHS32 CARRY:$ca, sGPR:$rs1, sGPR:$rs2),
532                  (CMPHS16 CARRY:$ca, sGPR:$rs1, sGPR:$rs2)>;
533def : CompressPat<(CMPLT32 CARRY:$ca, sGPR:$rs1, sGPR:$rs2),
534                  (CMPLT16 CARRY:$ca, sGPR:$rs1, sGPR:$rs2)>;
535def : CompressPat<(CMPNE32 CARRY:$ca, sGPR:$rs1, sGPR:$rs2),
536                  (CMPNE16 CARRY:$ca, sGPR:$rs1, sGPR:$rs2)>;
537
538def : CompressPat<(CMPHSI32 CARRY:$ca, mGPR:$rs, oimm5:$imm),
539                  (CMPHSI16 CARRY:$ca, mGPR:$rs, oimm5:$imm)>;
540def : CompressPat<(CMPLTI32 CARRY:$ca, mGPR:$rs, oimm5:$imm),
541                  (CMPLTI16 CARRY:$ca, mGPR:$rs, oimm5:$imm)>;
542def : CompressPat<(CMPNEI32 CARRY:$ca, mGPR:$rs, uimm5:$imm),
543                  (CMPNEI16 CARRY:$ca, mGPR:$rs, uimm5:$imm)>;
544
545def : CompressPat<(JSR32 sGPR:$rd),
546                  (JSR16 sGPR:$rd)>;
547
548
549def : CompressPat<(MVCV32 sGPR:$rd, CARRY:$ca),
550                  (MVCV16 sGPR:$rd, CARRY:$ca)>;
551def : CompressPat<(MOV32 sGPR:$rd, sGPR:$ca),
552                  (MOV16 sGPR:$rd, sGPR:$ca)>;
553def : CompressPat<(MOVI32 mGPR:$rd, uimm8:$imm),
554                  (MOVI16 mGPR:$rd, uimm8:$imm)>;
555
556def : CompressPat<(LD32B mGPR:$rd, mGPR:$rs, uimm5:$imm),
557                  (LD16B mGPR:$rd, mGPR:$rs, uimm5:$imm)>;
558def : CompressPat<(LD32H mGPR:$rd, mGPR:$rs, uimm5_1:$imm),
559                  (LD16H mGPR:$rd, mGPR:$rs, uimm5_1:$imm)>;
560def : CompressPat<(LD32W mGPR:$rd, mGPR:$rs, uimm5_2:$imm),
561                  (LD16W mGPR:$rd, mGPR:$rs, uimm5_2:$imm)>;
562def : CompressPat<(LD32W mGPR:$rd, GPRSP:$sp, uimm8_2:$imm),
563                  (LD16WSP mGPR:$rd, GPRSP:$sp, uimm8_2:$imm)>;
564
565def : CompressPat<(ST32B mGPR:$rd, mGPR:$rs, uimm5:$imm),
566                  (ST16B mGPR:$rd, mGPR:$rs, uimm5:$imm)>;
567def : CompressPat<(ST32H mGPR:$rd, mGPR:$rs, uimm5_1:$imm),
568                  (ST16H mGPR:$rd, mGPR:$rs, uimm5_1:$imm)>;
569def : CompressPat<(ST32W mGPR:$rd, mGPR:$rs, uimm5_2:$imm),
570                  (ST16W mGPR:$rd, mGPR:$rs, uimm5_2:$imm)>;
571def : CompressPat<(ST32W mGPR:$rd, GPRSP:$sp, uimm8_2:$imm),
572                  (ST16WSP mGPR:$rd, GPRSP:$sp, uimm8_2:$imm)>;
573
574let Predicates = [HasBTST16] in
575def : CompressPat<(BTSTI32 CARRY:$ca, mGPR:$rs, uimm5:$imm),
576                  (BTSTI16 CARRY:$ca, mGPR:$rs, uimm5:$imm)>;
577def : CompressPat<(BCLRI32 mGPR:$rd, mGPR:$rd, uimm5:$imm),
578                  (BCLRI16 mGPR:$rd, uimm5:$imm)>;
579def : CompressPat<(BSETI32 mGPR:$rd, mGPR:$rd, uimm5:$imm),
580                  (BSETI16 mGPR:$rd, uimm5:$imm)>;
581
582def : CompressPat<(ZEXTB32 sGPR:$rd, sGPR:$rs),
583                  (ZEXTB16 sGPR:$rd, sGPR:$rs)>;
584def : CompressPat<(ZEXTH32 sGPR:$rd, sGPR:$rs),
585                  (ZEXTH16 sGPR:$rd, sGPR:$rs)>;
586def : CompressPat<(SEXTB32 sGPR:$rd, sGPR:$rs),
587                  (SEXTB16 sGPR:$rd, sGPR:$rs)>;
588def : CompressPat<(SEXTH32 sGPR:$rd, sGPR:$rs),
589                  (SEXTH16 sGPR:$rd, sGPR:$rs)>;
590