xref: /freebsd/contrib/llvm-project/llvm/include/llvm/Target/GlobalISel/SelectionDAGCompat.td (revision 7ef62cebc2f965b0f640263e179276928885e33d)
1//===- TargetGlobalISel.td - Common code for GlobalISel ----*- 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 defines the target-independent interfaces used to support
10// SelectionDAG instruction selection patterns (specified in
11// TargetSelectionDAG.td) when generating GlobalISel instruction selectors.
12//
13// This is intended as a compatibility layer, to enable reuse of target
14// descriptions written for SelectionDAG without requiring explicit GlobalISel
15// support.  It will eventually supersede SelectionDAG patterns.
16//
17//===----------------------------------------------------------------------===//
18
19// Declare that a generic Instruction is 'equivalent' to an SDNode, that is,
20// SelectionDAG patterns involving the SDNode can be transformed to match the
21// Instruction instead.
22class GINodeEquiv<Instruction i, SDNode node> {
23  Instruction I = i;
24  SDNode Node = node;
25
26  // SelectionDAG has separate nodes for atomic and non-atomic memory operations
27  // (ISD::LOAD, ISD::ATOMIC_LOAD, ISD::STORE, ISD::ATOMIC_STORE) but GlobalISel
28  // stores this information in the MachineMemoryOperand.
29  bit CheckMMOIsNonAtomic = false;
30  bit CheckMMOIsAtomic = false;
31
32  // SelectionDAG has one node for all loads and uses predicates to
33  // differentiate them. GlobalISel on the other hand uses separate opcodes.
34  // When this is true, the resulting opcode is G_LOAD/G_SEXTLOAD/G_ZEXTLOAD
35  // depending on the predicates on the node.
36  Instruction IfSignExtend = ?;
37  Instruction IfZeroExtend = ?;
38
39  // SelectionDAG has one setcc for all compares. This differentiates
40  // for G_ICMP and G_FCMP.
41  Instruction IfFloatingPoint = ?;
42}
43
44// These are defined in the same order as the G_* instructions.
45def : GINodeEquiv<G_ANYEXT, anyext>;
46def : GINodeEquiv<G_SEXT, sext>;
47def : GINodeEquiv<G_ZEXT, zext>;
48def : GINodeEquiv<G_TRUNC, trunc>;
49def : GINodeEquiv<G_BITCAST, bitconvert>;
50// G_INTTOPTR - SelectionDAG has no equivalent.
51// G_PTRTOINT - SelectionDAG has no equivalent.
52def : GINodeEquiv<G_CONSTANT, imm>;
53// timm must not be materialized and therefore has no GlobalISel equivalent
54def : GINodeEquiv<G_FCONSTANT, fpimm>;
55def : GINodeEquiv<G_IMPLICIT_DEF, undef>;
56def : GINodeEquiv<G_FRAME_INDEX, frameindex>;
57def : GINodeEquiv<G_BLOCK_ADDR, blockaddress>;
58def : GINodeEquiv<G_PTR_ADD, ptradd>;
59def : GINodeEquiv<G_ADD, add>;
60def : GINodeEquiv<G_SUB, sub>;
61def : GINodeEquiv<G_MUL, mul>;
62def : GINodeEquiv<G_UMULH, mulhu>;
63def : GINodeEquiv<G_SMULH, mulhs>;
64def : GINodeEquiv<G_SDIV, sdiv>;
65def : GINodeEquiv<G_UDIV, udiv>;
66def : GINodeEquiv<G_SREM, srem>;
67def : GINodeEquiv<G_UREM, urem>;
68def : GINodeEquiv<G_AND, and>;
69def : GINodeEquiv<G_OR, or>;
70def : GINodeEquiv<G_XOR, xor>;
71def : GINodeEquiv<G_SHL, shl>;
72def : GINodeEquiv<G_LSHR, srl>;
73def : GINodeEquiv<G_ASHR, sra>;
74def : GINodeEquiv<G_SADDSAT, saddsat>;
75def : GINodeEquiv<G_UADDSAT, uaddsat>;
76def : GINodeEquiv<G_SSUBSAT, ssubsat>;
77def : GINodeEquiv<G_USUBSAT, usubsat>;
78def : GINodeEquiv<G_SSHLSAT, sshlsat>;
79def : GINodeEquiv<G_USHLSAT, ushlsat>;
80def : GINodeEquiv<G_SMULFIX, smulfix>;
81def : GINodeEquiv<G_UMULFIX, umulfix>;
82def : GINodeEquiv<G_SMULFIXSAT, smulfixsat>;
83def : GINodeEquiv<G_UMULFIXSAT, umulfixsat>;
84def : GINodeEquiv<G_SDIVFIX, sdivfix>;
85def : GINodeEquiv<G_UDIVFIX, udivfix>;
86def : GINodeEquiv<G_SDIVFIXSAT, sdivfixsat>;
87def : GINodeEquiv<G_UDIVFIXSAT, udivfixsat>;
88def : GINodeEquiv<G_SELECT, select>;
89def : GINodeEquiv<G_FNEG, fneg>;
90def : GINodeEquiv<G_FPEXT, fpextend>;
91def : GINodeEquiv<G_FPTRUNC, fpround>;
92def : GINodeEquiv<G_FPTOSI, fp_to_sint>;
93def : GINodeEquiv<G_FPTOUI, fp_to_uint>;
94def : GINodeEquiv<G_SITOFP, sint_to_fp>;
95def : GINodeEquiv<G_UITOFP, uint_to_fp>;
96def : GINodeEquiv<G_FADD, fadd>;
97def : GINodeEquiv<G_FSUB, fsub>;
98def : GINodeEquiv<G_FMA, fma>;
99def : GINodeEquiv<G_FMAD, fmad>;
100def : GINodeEquiv<G_FMUL, fmul>;
101def : GINodeEquiv<G_FDIV, fdiv>;
102def : GINodeEquiv<G_FREM, frem>;
103def : GINodeEquiv<G_FPOW, fpow>;
104def : GINodeEquiv<G_FEXP2, fexp2>;
105def : GINodeEquiv<G_FLOG2, flog2>;
106def : GINodeEquiv<G_FCANONICALIZE, fcanonicalize>;
107def : GINodeEquiv<G_IS_FPCLASS, is_fpclass>;
108def : GINodeEquiv<G_INTRINSIC, intrinsic_wo_chain>;
109// ISD::INTRINSIC_VOID can also be handled with G_INTRINSIC_W_SIDE_EFFECTS.
110def : GINodeEquiv<G_INTRINSIC_W_SIDE_EFFECTS, intrinsic_void>;
111def : GINodeEquiv<G_INTRINSIC_W_SIDE_EFFECTS, intrinsic_w_chain>;
112def : GINodeEquiv<G_BR, br>;
113def : GINodeEquiv<G_BSWAP, bswap>;
114def : GINodeEquiv<G_BITREVERSE, bitreverse>;
115def : GINodeEquiv<G_FSHL, fshl>;
116def : GINodeEquiv<G_FSHR, fshr>;
117def : GINodeEquiv<G_CTLZ, ctlz>;
118def : GINodeEquiv<G_CTTZ, cttz>;
119def : GINodeEquiv<G_CTLZ_ZERO_UNDEF, ctlz_zero_undef>;
120def : GINodeEquiv<G_CTTZ_ZERO_UNDEF, cttz_zero_undef>;
121def : GINodeEquiv<G_CTPOP, ctpop>;
122def : GINodeEquiv<G_EXTRACT_VECTOR_ELT, extractelt>;
123def : GINodeEquiv<G_CONCAT_VECTORS, concat_vectors>;
124def : GINodeEquiv<G_BUILD_VECTOR, build_vector>;
125def : GINodeEquiv<G_FCEIL, fceil>;
126def : GINodeEquiv<G_FCOS, fcos>;
127def : GINodeEquiv<G_FSIN, fsin>;
128def : GINodeEquiv<G_FABS, fabs>;
129def : GINodeEquiv<G_FSQRT, fsqrt>;
130def : GINodeEquiv<G_FFLOOR, ffloor>;
131def : GINodeEquiv<G_FRINT, frint>;
132def : GINodeEquiv<G_FNEARBYINT, fnearbyint>;
133def : GINodeEquiv<G_INTRINSIC_TRUNC, ftrunc>;
134def : GINodeEquiv<G_INTRINSIC_ROUND, fround>;
135def : GINodeEquiv<G_INTRINSIC_LRINT, lrint>;
136def : GINodeEquiv<G_FCOPYSIGN, fcopysign>;
137def : GINodeEquiv<G_SMIN, smin>;
138def : GINodeEquiv<G_SMAX, smax>;
139def : GINodeEquiv<G_UMIN, umin>;
140def : GINodeEquiv<G_UMAX, umax>;
141def : GINodeEquiv<G_ABS, abs>;
142def : GINodeEquiv<G_FMINNUM, fminnum>;
143def : GINodeEquiv<G_FMAXNUM, fmaxnum>;
144def : GINodeEquiv<G_FMINNUM_IEEE, fminnum_ieee>;
145def : GINodeEquiv<G_FMAXNUM_IEEE, fmaxnum_ieee>;
146def : GINodeEquiv<G_FMAXIMUM, fmaximum>;
147def : GINodeEquiv<G_FMINIMUM, fminimum>;
148def : GINodeEquiv<G_READCYCLECOUNTER, readcyclecounter>;
149def : GINodeEquiv<G_ROTR, rotr>;
150def : GINodeEquiv<G_ROTL, rotl>;
151def : GINodeEquiv<G_LROUND, lround>;
152def : GINodeEquiv<G_LLROUND, llround>;
153
154def : GINodeEquiv<G_STRICT_FADD, strict_fadd>;
155def : GINodeEquiv<G_STRICT_FSUB, strict_fsub>;
156def : GINodeEquiv<G_STRICT_FMUL, strict_fmul>;
157def : GINodeEquiv<G_STRICT_FDIV, strict_fdiv>;
158def : GINodeEquiv<G_STRICT_FREM, strict_frem>;
159def : GINodeEquiv<G_STRICT_FMA, strict_fma>;
160def : GINodeEquiv<G_STRICT_FSQRT, strict_fsqrt>;
161
162// Broadly speaking G_LOAD is equivalent to ISD::LOAD but there are some
163// complications that tablegen must take care of. For example, Predicates such
164// as isSignExtLoad require that this is not a perfect 1:1 mapping since a
165// sign-extending load is (G_SEXTLOAD x) in GlobalISel. Additionally,
166// G_LOAD handles both atomic and non-atomic loads where as SelectionDAG had
167// separate nodes for them. This GINodeEquiv maps the non-atomic loads to
168// G_LOAD with a non-atomic MachineMemOperand.
169def : GINodeEquiv<G_LOAD, ld> {
170  let CheckMMOIsNonAtomic = true;
171  let IfSignExtend = G_SEXTLOAD;
172  let IfZeroExtend = G_ZEXTLOAD;
173}
174
175def : GINodeEquiv<G_ICMP, setcc> {
176  let IfFloatingPoint = G_FCMP;
177}
178
179// Broadly speaking G_STORE is equivalent to ISD::STORE but there are some
180// complications that tablegen must take care of. For example, predicates such
181// as isTruncStore require that this is not a perfect 1:1 mapping since a
182// truncating store is (G_STORE (G_TRUNCATE x)) in GlobalISel. Additionally,
183// G_STORE handles both atomic and non-atomic stores where as SelectionDAG had
184// separate nodes for them. This GINodeEquiv maps the non-atomic stores to
185// G_STORE with a non-atomic MachineMemOperand.
186def : GINodeEquiv<G_STORE, st> { let CheckMMOIsNonAtomic = true; }
187
188def : GINodeEquiv<G_LOAD, atomic_load> {
189  let CheckMMOIsNonAtomic = false;
190  let CheckMMOIsAtomic = true;
191  let IfSignExtend = G_SEXTLOAD;
192  let IfZeroExtend = G_ZEXTLOAD;
193}
194
195// Operands are swapped for atomic_store vs. regular store
196def : GINodeEquiv<G_STORE, atomic_store> {
197  let CheckMMOIsNonAtomic = false;
198  let CheckMMOIsAtomic = true;
199}
200
201def : GINodeEquiv<G_ATOMIC_CMPXCHG, atomic_cmp_swap>;
202def : GINodeEquiv<G_ATOMICRMW_XCHG, atomic_swap>;
203def : GINodeEquiv<G_ATOMICRMW_ADD, atomic_load_add>;
204def : GINodeEquiv<G_ATOMICRMW_SUB, atomic_load_sub>;
205def : GINodeEquiv<G_ATOMICRMW_AND, atomic_load_and>;
206def : GINodeEquiv<G_ATOMICRMW_NAND, atomic_load_nand>;
207def : GINodeEquiv<G_ATOMICRMW_OR, atomic_load_or>;
208def : GINodeEquiv<G_ATOMICRMW_XOR, atomic_load_xor>;
209def : GINodeEquiv<G_ATOMICRMW_MIN, atomic_load_min>;
210def : GINodeEquiv<G_ATOMICRMW_MAX, atomic_load_max>;
211def : GINodeEquiv<G_ATOMICRMW_UMIN, atomic_load_umin>;
212def : GINodeEquiv<G_ATOMICRMW_UMAX, atomic_load_umax>;
213def : GINodeEquiv<G_ATOMICRMW_FADD, atomic_load_fadd>;
214def : GINodeEquiv<G_ATOMICRMW_FSUB, atomic_load_fsub>;
215def : GINodeEquiv<G_ATOMICRMW_FMAX, atomic_load_fmax>;
216def : GINodeEquiv<G_ATOMICRMW_FMIN, atomic_load_fmin>;
217def : GINodeEquiv<G_ATOMICRMW_UINC_WRAP, atomic_load_uinc_wrap>;
218def : GINodeEquiv<G_ATOMICRMW_UDEC_WRAP, atomic_load_udec_wrap>;
219def : GINodeEquiv<G_FENCE, atomic_fence>;
220
221// Specifies the GlobalISel equivalents for SelectionDAG's ComplexPattern.
222// Should be used on defs that subclass GIComplexOperandMatcher<>.
223class GIComplexPatternEquiv<ComplexPattern seldag> {
224  ComplexPattern SelDAGEquivalent = seldag;
225}
226
227// Specifies the GlobalISel equivalents for SelectionDAG's SDNodeXForm.
228// Should be used on defs that subclass GICustomOperandRenderer<>.
229class GISDNodeXFormEquiv<SDNodeXForm seldag> {
230  SDNodeXForm SelDAGEquivalent = seldag;
231}
232