Blame - lib/Target/SystemZ/SystemZInstrFP.td - fp2-dev/platform/external/llvm

blob: 05f9f81464107ca5c2ca674aae676ebc0bcf757b [file] [log] [blame]

Anton Korobeynikov	3b6124e	2009-07-16 14:20:24 +0000	[diff] [blame]	1	//===- SystemZInstrFP.td - SystemZ FP Instruction defs --------- tblgen--===//
				2	//
				3	// The LLVM Compiler Infrastructure
				4	//
				5	// This file is distributed under the University of Illinois Open Source
				6	// License. See LICENSE.TXT for details.
				7	//
				8	//===----------------------------------------------------------------------===//
				9	//
				10	// This file describes the SystemZ (binary) floating point instructions in
				11	// TableGen format.
				12	//
				13	//===----------------------------------------------------------------------===//
				14
				15	// FIXME: multiclassify!
				16
				17	//===----------------------------------------------------------------------===//
				18	// Move Instructions
				19
				20	let neverHasSideEffects = 1 in {
				21	def FMOV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
				22	"ler\t{$dst, $src}",
				23	[]>;
				24	def FMOV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
				25	"ldr\t{$dst, $src}",
				26	[]>;
				27	}
				28
				29	let canFoldAsLoad = 1, isReMaterializable = 1, mayHaveSideEffects = 1 in {
				30	def FMOV32rm : Pseudo<(outs FP32:$dst), (ins rriaddr12:$src),
				31	"le\t{$dst, $src}",
				32	[(set FP32:$dst, (load rriaddr12:$src))]>;
				33	def FMOV32rmy : Pseudo<(outs FP32:$dst), (ins rriaddr:$src),
				34	"ley\t{$dst, $src}",
				35	[(set FP32:$dst, (load rriaddr:$src))]>;
				36	def FMOV64rm : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
				37	"ld\t{$dst, $src}",
				38	[(set FP64:$dst, (load rriaddr12:$src))]>;
				39	def FMOV64rmy : Pseudo<(outs FP64:$dst), (ins rriaddr:$src),
				40	"ldy\t{$dst, $src}",
				41	[(set FP64:$dst, (load rriaddr:$src))]>;
				42	}
				43
				44	def FMOV32mr : Pseudo<(outs), (ins rriaddr12:$dst, FP32:$src),
				45	"ste\t{$src, $dst}",
				46	[(store FP32:$src, rriaddr12:$dst)]>;
				47	def FMOV32mry : Pseudo<(outs), (ins rriaddr:$dst, FP32:$src),
				48	"stey\t{$src, $dst}",
				49	[(store FP32:$src, rriaddr:$dst)]>;
				50	def FMOV64mr : Pseudo<(outs), (ins rriaddr12:$dst, FP64:$src),
				51	"std\t{$src, $dst}",
				52	[(store FP64:$src, rriaddr12:$dst)]>;
				53	def FMOV64mry : Pseudo<(outs), (ins rriaddr:$dst, FP64:$src),
				54	"stdy\t{$src, $dst}",
				55	[(store FP64:$src, rriaddr:$dst)]>;
				56
				57	//===----------------------------------------------------------------------===//
				58	// Arithmetic Instructions
				59
				60	let isTwoAddress = 1 in {
				61
				62	let isCommutable = 1 in { // X = ADD Y, Z == X = ADD Z, Y
				63	def FADD32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
				64	"aebr\t{$dst, $src2}",
				65	[(set FP32:$dst, (fadd FP32:$src1, FP32:$src2))]>;
				66	def FADD64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
				67	"adbr\t{$dst, $src2}",
				68	[(set FP64:$dst, (fadd FP64:$src1, FP64:$src2))]>;
				69	}
				70
				71	def FADD32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr:$src2),
				72	"aeb\t{$dst, $src2}",
				73	[(set FP32:$dst, (fadd FP32:$src1, (load rriaddr:$src2)))]>;
				74	def FADD64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr:$src2),
				75	"adb\t{$dst, $src2}",
				76	[(set FP64:$dst, (fadd FP64:$src1, (load rriaddr:$src2)))]>;
				77
				78	def FSUB32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
				79	"sebr\t{$dst, $src2}",
				80	[(set FP32:$dst, (fsub FP32:$src1, FP32:$src2))]>;
				81	def FSUB64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
				82	"sdbr\t{$dst, $src2}",
				83	[(set FP64:$dst, (fsub FP64:$src1, FP64:$src2))]>;
				84
				85	def FSUB32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr:$src2),
				86	"seb\t{$dst, $src2}",
				87	[(set FP32:$dst, (fsub FP32:$src1, (load rriaddr:$src2)))]>;
				88	def FSUB64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr:$src2),
				89	"sdb\t{$dst, $src2}",
				90	[(set FP64:$dst, (fsub FP64:$src1, (load rriaddr:$src2)))]>;
				91
				92	let isCommutable = 1 in { // X = MUL Y, Z == X = MUL Z, Y
				93	def FMUL32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
				94	"meebr\t{$dst, $src2}",
				95	[(set FP32:$dst, (fmul FP32:$src1, FP32:$src2))]>;
				96	def FMUL64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
				97	"mdbr\t{$dst, $src2}",
				98	[(set FP64:$dst, (fmul FP64:$src1, FP64:$src2))]>;
				99	}
				100
				101	def FMUL32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr:$src2),
				102	"meeb\t{$dst, $src2}",
				103	[(set FP32:$dst, (fmul FP32:$src1, (load rriaddr:$src2)))]>;
				104	def FMUL64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr:$src2),
				105	"mdb\t{$dst, $src2}",
				106	[(set FP64:$dst, (fmul FP64:$src1, (load rriaddr:$src2)))]>;
				107
				108	def FDIV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
				109	"debr\t{$dst, $src2}",
				110	[(set FP32:$dst, (fdiv FP32:$src1, FP32:$src2))]>;
				111	def FDIV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
				112	"ddbr\t{$dst, $src2}",
				113	[(set FP64:$dst, (fdiv FP64:$src1, FP64:$src2))]>;
				114
				115	def FDIV32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr:$src2),
				116	"deb\t{$dst, $src2}",
				117	[(set FP32:$dst, (fdiv FP32:$src1, (load rriaddr:$src2)))]>;
				118	def FDIV64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr:$src2),
				119	"ddb\t{$dst, $src2}",
				120	[(set FP64:$dst, (fdiv FP64:$src1, (load rriaddr:$src2)))]>;
				121
				122	} // isTwoAddress = 1
				123
				124	def FROUND64r32 : Pseudo<(outs FP32:$dst), (ins FP64:$src),
				125	"ledbr\t{$dst, $src}",
				126	[(set FP32:$dst, (fround FP64:$src))]>;
				127
				128	def FCONVFP32 : Pseudo<(outs FP32:$dst), (ins GR32:$src),
				129	"cefbr\t{$dst, $src}",
				130	[(set FP32:$dst, (sint_to_fp GR32:$src))]>;
Anton Korobeynikov	6030b05	2009-07-16 14:20:39 +0000	[diff] [blame^]	131	def FCONVFP32r64: Pseudo<(outs FP32:$dst), (ins GR64:$src),
				132	"cegbr\t{$dst, $src}",
				133	[(set FP32:$dst, (sint_to_fp GR64:$src))]>;
				134
				135	def FCONVFP64r32: Pseudo<(outs FP64:$dst), (ins GR32:$src),
				136	"cdfbr\t{$dst, $src}",
				137	[(set FP64:$dst, (sint_to_fp GR32:$src))]>;
Anton Korobeynikov	3b6124e	2009-07-16 14:20:24 +0000	[diff] [blame]	138
				139	def FCONVFP64 : Pseudo<(outs FP64:$dst), (ins GR64:$src),
				140	"cdgbr\t{$dst, $src}",
				141	[(set FP64:$dst, (sint_to_fp GR64:$src))]>;
				142
				143	//===----------------------------------------------------------------------===//
				144	// Test instructions (like AND but do not produce any result)
				145
				146	// Integer comparisons
				147	let Defs = [PSW] in {
				148	def FCMP32rr : Pseudo<(outs), (ins FP32:$src1, FP32:$src2),
				149	"cebr\t$src1, $src2",
				150	[(SystemZcmp FP32:$src1, FP32:$src2), (implicit PSW)]>;
				151	def FCMP64rr : Pseudo<(outs), (ins FP64:$src1, FP64:$src2),
				152	"cdbr\t$src1, $src2",
				153	[(SystemZcmp FP64:$src1, FP64:$src2), (implicit PSW)]>;
				154
				155	def FCMP32rm : Pseudo<(outs), (ins FP32:$src1, rriaddr:$src2),
				156	"ceb\t$src1, $src2",
				157	[(SystemZcmp FP32:$src1, (load rriaddr:$src2)),
				158	(implicit PSW)]>;
				159	def FCMP64rm : Pseudo<(outs), (ins FP64:$src1, rriaddr:$src2),
				160	"cdb\t$src1, $src2",
				161	[(SystemZcmp FP64:$src1, (load rriaddr:$src2)),
				162	(implicit PSW)]>;
				163	} // Defs = [PSW]