PPCMacroFusion.def source code [llvm/lib/Target/PowerPC/PPCMacroFusion.def]

1	//=== ---- PPCMacroFusion.def - PowerPC MacroFuson Candidates -v-- C++ --===//
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 contains descriptions of the macro-fusion pair for PowerPC.
10	//
11	//===----------------------------------------------------------------------===//
12
13	// NOTE: NO INCLUDE GUARD DESIRED!
14
15	#ifndef FUSION_FEATURE
16
17	// Each FUSION_FEATURE is assigned with one TYPE, and can be enabled/disabled
18	// by HAS_FEATURE. The instructions pair is fusable only when the opcode
19	// of the first instruction is in OPSET1, and the second instruction opcode is
20	// in OPSET2. And if DEP_OP_IDX >=0, we will check the result of first OP is
21	// the operand of the second op with DEP_OP_IDX as its operand index. We assume
22	// that the result of the first op is its operand zero.
23	#define FUSION_FEATURE(TYPE, HAS_FEATURE, DEP_OP_IDX, OPSET1, OPSET2)
24
25	#endif
26
27	#ifndef FUSION_OP_SET
28	#define FUSION_OP_SET(...) __VA_ARGS__
29	#endif
30
31	// Power8 User Manual Section 10.1.12, Instruction Fusion
32	// {addi} followed by one of these {lxvd2x, lxvw4x, lxvdsx, lvebx, lvehx,
33	// lvewx, lvx, lxsdx}
34	FUSION_FEATURE(AddiLoad, hasAddiLoadFusion, `2`, \
35	FUSION_OP_SET(ADDI, ADDI8, ADDItocL, ADDItocL8), \
36	FUSION_OP_SET(LXVD2X, LXVW4X, LXVDSX, LVEBX, LVEHX, LVEWX, \
37	LVX, LXSDX))
38
39	// {addis) followed by one of these {ld, lbz, lhz, lwz}
40	FUSION_FEATURE(AddisLoad, hasAddisLoadFusion, `2`, \
41	FUSION_OP_SET(ADDIS, ADDIS8, ADDIStocHA8), \
42	FUSION_OP_SET(LD, LBZ, LBZ8, LHZ, LHZ8, LWZ, LWZ8))
43
44	// Power10 User Manual Section 19.1.5.4, Fusion
45	// {add, mulld} - add
46	FUSION_FEATURE(ArithAdd, hasArithAddFusion, -`1`,
47	FUSION_OP_SET(ADD4, ADD8, MULLD), FUSION_OP_SET(ADD4, ADD8))
48
49	// {add, subf} - {and, nand, nor, or}
50	FUSION_FEATURE(ArithLogical, hasAddLogicalFusion, -`1`,
51	FUSION_OP_SET(ADD4, ADD8, SUBF, SUBF8),
52	FUSION_OP_SET(AND, AND8, OR, OR8, NAND, NAND8, NOR, NOR8))
53
54	// {and, andc, eqv, nand, nor, or, orc, xor} - {add, subf}
55	FUSION_FEATURE(LogicalArith, hasLogicalAddFusion, -`1`,
56	FUSION_OP_SET(AND, ANDC, EQV, NAND, NOR, OR, ORC, XOR, AND8,
57	ANDC8, EQV8, NAND8, NOR8, OR8, ORC8, XOR8),
58	FUSION_OP_SET(ADD4, ADD8, SUBF, SUBF8))
59
60	// Either of {and, andc, eqv, nand, nor, or, orc, xor}
61	FUSION_FEATURE(Logical, hasLogicalFusion, -`1`,
62	FUSION_OP_SET(AND, ANDC, EQV, NAND, NOR, OR, ORC, XOR, AND8,
63	ANDC8, EQV8, NAND8, NOR8, OR8, ORC8, XOR8),
64	FUSION_OP_SET(AND, ANDC, EQV, NAND, NOR, OR, ORC, XOR, AND8,
65	ANDC8, EQV8, NAND8, NOR8, OR8, ORC8, XOR8))
66
67	// vaddudm - vaddudm
68	FUSION_FEATURE(VecAdd, hasArithAddFusion, -`1`, FUSION_OP_SET(VADDUDM),
69	FUSION_OP_SET(VADDUDM))
70
71	// Either of {vand, vandc, veqv, vnand, vnor, vor, vorc, vxor}
72	FUSION_FEATURE(VecLogical, hasLogicalFusion, -`1`,
73	FUSION_OP_SET(VAND, VANDC, VEQV, VNAND, VNOR, VOR, VORC, VXOR),
74	FUSION_OP_SET(VAND, VANDC, VEQV, VNAND, VNOR, VOR, VORC, VXOR))
75
76	// sldi rx, ra, {3, 6} - {add, subf}
77	// sldi rx, ra n is alias of rldicr rx, ra, n, 63-n
78	FUSION_FEATURE(SldiAdd, hasArithAddFusion, -`1`, FUSION_OP_SET(RLDICR, RLDICR_32),
79	FUSION_OP_SET(ADD4, ADD8, SUBF, SUBF8))
80
81	// rldicl rx, ra, 1, 0 - xor
82	FUSION_FEATURE(RotateLeftXor, hasSha3Fusion, `1`,
83	FUSION_OP_SET(RLDICL, RLDICL_32, RLDICL_32_64),
84	FUSION_OP_SET(XOR, XOR8))
85
86	// rldicr rx, ra, 1, 63 - xor
87	FUSION_FEATURE(RotateRightXor, hasSha3Fusion, `1`,
88	FUSION_OP_SET(RLDICR, RLDICR_32), FUSION_OP_SET(XOR, XOR8))
89
90	// There're two special cases in 'load-compare' series, so we have to split
91	// them into several pattern groups to fit into current framework. This can
92	// be clearer once we switched to a more expressive approach.
93
94	// { lbz,lbzx,lhz,lhzx,lwz,lwzx } - cmpi 0,1,rx,{ 0,1,-1 }
95	// { lbz,lbzx,lhz,lhzx,lwz,lwzx } - cmpli 0,L,rx,{ 0,1 }
96	FUSION_FEATURE(LoadCmp1, hasCompareFusion, `1`,
97	FUSION_OP_SET(LBZ, LBZ8, LBZX, LBZX8, LBZXTLS, LBZXTLS_,
98	LBZXTLS_32, LHZ, LHZ8, LHZX, LHZX8, LHZXTLS,
99	LHZXTLS_, LHZXTLS_32, LWZ, LWZ8, LWZX, LWZX8,
100	LWZXTLS, LWZXTLS_, LWZXTLS_32),
101	FUSION_OP_SET(CMPDI, CMPLDI, CMPLWI))
102
103	// { ld,ldx } - cmpi 0,1,rx,{ 0,1,-1 }
104	// { ld,ldx } - cmpli 0,1,rx,{ 0,1 }
105	FUSION_FEATURE(LoadCmp2, hasCompareFusion, `1`,
106	FUSION_OP_SET(LD, LDX, LDXTLS, LDXTLS_),
107	FUSION_OP_SET(CMPDI, CMPLDI))
108
109	// { lha,lhax,lwa,lwax } - cmpi 0,L,rx,{ 0,1,-1 }
110	FUSION_FEATURE(LoadCmp3, hasCompareFusion, `1`,
111	FUSION_OP_SET(LHA, LHA8, LHAX, LHAX8, LWA, LWA_32, LWAX,
112	LWAX_32),
113	FUSION_OP_SET(CMPLDI, CMPLWI))
114
115	// ori - oris
116	FUSION_FEATURE(OriOris, hasWideImmFusion, `1`, FUSION_OP_SET(ORI, ORI8),
117	FUSION_OP_SET(ORIS, ORIS8))
118
119	// lis - ori
120	FUSION_FEATURE(LisOri, hasWideImmFusion, `1`, FUSION_OP_SET(LIS, LIS8),
121	FUSION_OP_SET(ORI, ORI8))
122
123	// oris - ori
124	FUSION_FEATURE(OrisOri, hasWideImmFusion, `1`, FUSION_OP_SET(ORIS, ORIS8),
125	FUSION_OP_SET(ORI, ORI8))
126
127	// xori - xoris
128	FUSION_FEATURE(XoriXoris, hasWideImmFusion, `1`, FUSION_OP_SET(XORI, XORI8),
129	FUSION_OP_SET(XORIS, XORIS8))
130
131	// xoris - xori
132	FUSION_FEATURE(XorisXori, hasWideImmFusion, `1`, FUSION_OP_SET(XORIS, XORIS8),
133	FUSION_OP_SET(XORI, XORI8))
134
135	// addis rx,ra,si - addi rt,rx,SI, SI >= 0
136	FUSION_FEATURE(AddisAddi, hasWideImmFusion, `1`,
137	FUSION_OP_SET(ADDIS, ADDIS8, ADDIStocHA8, ADDIStocHA),
138	FUSION_OP_SET(ADDI, ADDI8, ADDItocL8, ADDItocL))
139
140	// addi rx,ra,si - addis rt,rx,SI, ra > 0, SI >= 2
141	FUSION_FEATURE(AddiAddis, hasWideImmFusion, `1`,
142	FUSION_OP_SET(ADDI, ADDI8, ADDItocL8, ADDItocL),
143	FUSION_OP_SET(ADDIS, ADDIS8, ADDIStocHA8, ADDIStocHA))
144
145	// mtctr - { bcctr,bcctrl }
146	FUSION_FEATURE(ZeroMoveCTR, hasZeroMoveFusion, -`1`,
147	FUSION_OP_SET(MTCTR, MTCTRloop, MTSPR8, MTSPR),
148	FUSION_OP_SET(BCCTR, BCCTRn, BCCTR8, BCCTR8n, BCCTRL, BCCTRLn,
149	BCCTRL8, BCCTRL8n, gBCCTR, gBCCTRL))
150
151	// mtlr - { bclr,bclrl }
152	FUSION_FEATURE(ZeroMoveLR, hasZeroMoveFusion, -`1`,
153	FUSION_OP_SET(MTLR8, MTLR, MTSPR8, MTSPR),
154	FUSION_OP_SET(BCLR, BCLRn, gBCLR, BCLRL, BCLRLn, gBCLRL))
155
156	#include "PPCBack2BackFusion.def"
157
158	#undef FUSION_FEATURE
159	#undef FUSION_OP_SET
160

source code of llvm/lib/Target/PowerPC/PPCMacroFusion.def