lib/Target/SystemZ/SystemZInstrFP.td - llvm - Git at Google

 //===- SystemZInstrFP.td - SystemZ FP Instruction defs --------*- tblgen-*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file describes the SystemZ (binary) floating point instructions in
 // TableGen format.
 //
 //===----------------------------------------------------------------------===//

 // FIXME: multiclassify!

 //===----------------------------------------------------------------------===//
 // FP Pattern fragments

 def fpimm0 : PatLeaf<(fpimm), [{
   return N->isExactlyValue(+0.0);
 }]>;

 def fpimmneg0 : PatLeaf<(fpimm), [{
   return N->isExactlyValue(-0.0);
 }]>;

 let Uses = [PSW], usesCustomInserter = 1 in {
   def SelectF32 : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, i8imm:$cc),
                         "# SelectF32 PSEUDO",
                         [(set FP32:$dst,
                               (SystemZselect FP32:$src1, FP32:$src2, imm:$cc, PSW))]>;
   def SelectF64 : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, i8imm:$cc),
                         "# SelectF64 PSEUDO",
                         [(set FP64:$dst,
                               (SystemZselect FP64:$src1, FP64:$src2, imm:$cc, PSW))]>;
 }

 //===----------------------------------------------------------------------===//
 // Move Instructions

 // Floating point constant loads.
 let isReMaterializable = 1, isAsCheapAsAMove = 1 in {
 def LD_Fp032 : Pseudo<(outs FP32:$dst), (ins),
                       "lzer\t{$dst}",
                       [(set FP32:$dst, fpimm0)]>;
 def LD_Fp064 : Pseudo<(outs FP64:$dst), (ins),
                       "lzdr\t{$dst}",
                       [(set FP64:$dst, fpimm0)]>;
 }

 let neverHasSideEffects = 1 in {
 def FMOV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
                       "ler\t{$dst, $src}",
                       []>;
 def FMOV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
                       "ldr\t{$dst, $src}",
                       []>;
 }

 let canFoldAsLoad = 1, isReMaterializable = 1 in {
 def FMOV32rm  : Pseudo<(outs FP32:$dst), (ins rriaddr12:$src),
                       "le\t{$dst, $src}",
                       [(set FP32:$dst, (load rriaddr12:$src))]>;
 def FMOV32rmy : Pseudo<(outs FP32:$dst), (ins rriaddr:$src),
                       "ley\t{$dst, $src}",
                       [(set FP32:$dst, (load rriaddr:$src))]>;
 def FMOV64rm  : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
                       "ld\t{$dst, $src}",
                       [(set FP64:$dst, (load rriaddr12:$src))]>;
 def FMOV64rmy : Pseudo<(outs FP64:$dst), (ins rriaddr:$src),
                       "ldy\t{$dst, $src}",
                       [(set FP64:$dst, (load rriaddr:$src))]>;
 }

 def FMOV32mr  : Pseudo<(outs), (ins rriaddr12:$dst, FP32:$src),
                        "ste\t{$src, $dst}",
                        [(store FP32:$src, rriaddr12:$dst)]>;
 def FMOV32mry : Pseudo<(outs), (ins rriaddr:$dst, FP32:$src),
                        "stey\t{$src, $dst}",
                        [(store FP32:$src, rriaddr:$dst)]>;
 def FMOV64mr  : Pseudo<(outs), (ins rriaddr12:$dst, FP64:$src),
                        "std\t{$src, $dst}",
                        [(store FP64:$src, rriaddr12:$dst)]>;
 def FMOV64mry : Pseudo<(outs), (ins rriaddr:$dst, FP64:$src),
                        "stdy\t{$src, $dst}",
                        [(store FP64:$src, rriaddr:$dst)]>;

 def FCOPYSIGN32 : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
                          "cpsdr\t{$dst, $src2, $src1}",
                          [(set FP32:$dst, (fcopysign FP32:$src1, FP32:$src2))]>;
 def FCOPYSIGN64 : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
                          "cpsdr\t{$dst, $src2, $src1}",
                          [(set FP64:$dst, (fcopysign FP64:$src1, FP64:$src2))]>;

 //===----------------------------------------------------------------------===//
 // Arithmetic Instructions


 let Defs = [PSW] in {
 def FNEG32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
                        "lcebr\t{$dst, $src}",
                        [(set FP32:$dst, (fneg FP32:$src)),
                         (implicit PSW)]>;
 def FNEG64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
                        "lcdbr\t{$dst, $src}",
                        [(set FP64:$dst, (fneg FP64:$src)),
                         (implicit PSW)]>;

 def FABS32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
                        "lpebr\t{$dst, $src}",
                        [(set FP32:$dst, (fabs FP32:$src)),
                         (implicit PSW)]>;
 def FABS64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
                        "lpdbr\t{$dst, $src}",
                        [(set FP64:$dst, (fabs FP64:$src)),
                         (implicit PSW)]>;

 def FNABS32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
                        "lnebr\t{$dst, $src}",
                        [(set FP32:$dst, (fneg(fabs FP32:$src))),
                         (implicit PSW)]>;
 def FNABS64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
                        "lndbr\t{$dst, $src}",
                        [(set FP64:$dst, (fneg(fabs FP64:$src))),
                         (implicit PSW)]>;
 }

 let Constraints = "$src1 = $dst" in {
 let Defs = [PSW] in {
 let isCommutable = 1 in { // X = ADD Y, Z  == X = ADD Z, Y
 def FADD32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
                        "aebr\t{$dst, $src2}",
                        [(set FP32:$dst, (fadd FP32:$src1, FP32:$src2)),
                         (implicit PSW)]>;
 def FADD64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
                        "adbr\t{$dst, $src2}",
                        [(set FP64:$dst, (fadd FP64:$src1, FP64:$src2)),
                         (implicit PSW)]>;
 }

 def FADD32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
                        "aeb\t{$dst, $src2}",
                        [(set FP32:$dst, (fadd FP32:$src1, (load rriaddr12:$src2))),
                         (implicit PSW)]>;
 def FADD64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
                        "adb\t{$dst, $src2}",
                        [(set FP64:$dst, (fadd FP64:$src1, (load rriaddr12:$src2))),
                         (implicit PSW)]>;

 def FSUB32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
                        "sebr\t{$dst, $src2}",
                        [(set FP32:$dst, (fsub FP32:$src1, FP32:$src2)),
                         (implicit PSW)]>;
 def FSUB64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
                        "sdbr\t{$dst, $src2}",
                        [(set FP64:$dst, (fsub FP64:$src1, FP64:$src2)),
                         (implicit PSW)]>;

 def FSUB32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
                        "seb\t{$dst, $src2}",
                        [(set FP32:$dst, (fsub FP32:$src1, (load rriaddr12:$src2))),
                         (implicit PSW)]>;
 def FSUB64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
                        "sdb\t{$dst, $src2}",
                        [(set FP64:$dst, (fsub FP64:$src1, (load rriaddr12:$src2))),
                         (implicit PSW)]>;
 } // Defs = [PSW]

 let isCommutable = 1 in { // X = MUL Y, Z  == X = MUL Z, Y
 def FMUL32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
                        "meebr\t{$dst, $src2}",
                        [(set FP32:$dst, (fmul FP32:$src1, FP32:$src2))]>;
 def FMUL64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
                        "mdbr\t{$dst, $src2}",
                        [(set FP64:$dst, (fmul FP64:$src1, FP64:$src2))]>;
 }

 def FMUL32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
                        "meeb\t{$dst, $src2}",
                        [(set FP32:$dst, (fmul FP32:$src1, (load rriaddr12:$src2)))]>;
 def FMUL64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
                        "mdb\t{$dst, $src2}",
                        [(set FP64:$dst, (fmul FP64:$src1, (load rriaddr12:$src2)))]>;

 def FMADD32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, FP32:$src3),
                        "maebr\t{$dst, $src3, $src2}",
                        [(set FP32:$dst, (fadd (fmul FP32:$src2, FP32:$src3),
                                               FP32:$src1))]>;
 def FMADD32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2, FP32:$src3),
                        "maeb\t{$dst, $src3, $src2}",
                        [(set FP32:$dst, (fadd (fmul (load rriaddr12:$src2),
                                                      FP32:$src3),
                                               FP32:$src1))]>;

 def FMADD64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, FP64:$src3),
                        "madbr\t{$dst, $src3, $src2}",
                        [(set FP64:$dst, (fadd (fmul FP64:$src2, FP64:$src3),
                                               FP64:$src1))]>;
 def FMADD64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2, FP64:$src3),
                        "madb\t{$dst, $src3, $src2}",
                        [(set FP64:$dst, (fadd (fmul (load rriaddr12:$src2),
                                                      FP64:$src3),
                                               FP64:$src1))]>;

 def FMSUB32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, FP32:$src3),
                        "msebr\t{$dst, $src3, $src2}",
                        [(set FP32:$dst, (fsub (fmul FP32:$src2, FP32:$src3),
                                               FP32:$src1))]>;
 def FMSUB32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2, FP32:$src3),
                        "mseb\t{$dst, $src3, $src2}",
                        [(set FP32:$dst, (fsub (fmul (load rriaddr12:$src2),
                                                      FP32:$src3),
                                               FP32:$src1))]>;

 def FMSUB64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, FP64:$src3),
                        "msdbr\t{$dst, $src3, $src2}",
                        [(set FP64:$dst, (fsub (fmul FP64:$src2, FP64:$src3),
                                               FP64:$src1))]>;
 def FMSUB64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2, FP64:$src3),
                        "msdb\t{$dst, $src3, $src2}",
                        [(set FP64:$dst, (fsub (fmul (load rriaddr12:$src2),
                                                      FP64:$src3),
                                               FP64:$src1))]>;

 def FDIV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
                        "debr\t{$dst, $src2}",
                        [(set FP32:$dst, (fdiv FP32:$src1, FP32:$src2))]>;
 def FDIV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
                        "ddbr\t{$dst, $src2}",
                        [(set FP64:$dst, (fdiv FP64:$src1, FP64:$src2))]>;

 def FDIV32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
                        "deb\t{$dst, $src2}",
                        [(set FP32:$dst, (fdiv FP32:$src1, (load rriaddr12:$src2)))]>;
 def FDIV64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
                        "ddb\t{$dst, $src2}",
                        [(set FP64:$dst, (fdiv FP64:$src1, (load rriaddr12:$src2)))]>;

 } // Constraints = "$src1 = $dst"

 def FSQRT32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
                        "sqebr\t{$dst, $src}",
                        [(set FP32:$dst, (fsqrt FP32:$src))]>;
 def FSQRT64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
                        "sqdbr\t{$dst, $src}",
                        [(set FP64:$dst, (fsqrt FP64:$src))]>;

 def FSQRT32rm : Pseudo<(outs FP32:$dst), (ins rriaddr12:$src),
                        "sqeb\t{$dst, $src}",
                        [(set FP32:$dst, (fsqrt (load rriaddr12:$src)))]>;
 def FSQRT64rm : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
                        "sqdb\t{$dst, $src}",
                        [(set FP64:$dst, (fsqrt (load rriaddr12:$src)))]>;

 def FROUND64r32 : Pseudo<(outs FP32:$dst), (ins FP64:$src),
                          "ledbr\t{$dst, $src}",
                          [(set FP32:$dst, (fround FP64:$src))]>;

 def FEXT32r64   : Pseudo<(outs FP64:$dst), (ins FP32:$src),
                          "ldebr\t{$dst, $src}",
                          [(set FP64:$dst, (fextend FP32:$src))]>;
 def FEXT32m64   : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
                          "ldeb\t{$dst, $src}",
                          [(set FP64:$dst, (fextend (load rriaddr12:$src)))]>;

 let Defs = [PSW] in {
 def FCONVFP32   : Pseudo<(outs FP32:$dst), (ins GR32:$src),
                          "cefbr\t{$dst, $src}",
                          [(set FP32:$dst, (sint_to_fp GR32:$src)),
                           (implicit PSW)]>;
 def FCONVFP32r64: Pseudo<(outs FP32:$dst), (ins GR64:$src),
                          "cegbr\t{$dst, $src}",
                          [(set FP32:$dst, (sint_to_fp GR64:$src)),
                           (implicit PSW)]>;

 def FCONVFP64r32: Pseudo<(outs FP64:$dst), (ins GR32:$src),
                          "cdfbr\t{$dst, $src}",
                          [(set FP64:$dst, (sint_to_fp GR32:$src)),
                           (implicit PSW)]>;
 def FCONVFP64   : Pseudo<(outs FP64:$dst), (ins GR64:$src),
                          "cdgbr\t{$dst, $src}",
                          [(set FP64:$dst, (sint_to_fp GR64:$src)),
                           (implicit PSW)]>;

 def FCONVGR32   : Pseudo<(outs GR32:$dst), (ins FP32:$src),
                          "cfebr\t{$dst, 5, $src}",
                          [(set GR32:$dst, (fp_to_sint FP32:$src)),
                           (implicit PSW)]>;
 def FCONVGR32r64: Pseudo<(outs GR32:$dst), (ins FP64:$src),
                          "cfdbr\t{$dst, 5, $src}",
                          [(set GR32:$dst, (fp_to_sint FP64:$src)),
                           (implicit PSW)]>;

 def FCONVGR64r32: Pseudo<(outs GR64:$dst), (ins FP32:$src),
                          "cgebr\t{$dst, 5, $src}",
                          [(set GR64:$dst, (fp_to_sint FP32:$src)),
                           (implicit PSW)]>;
 def FCONVGR64   : Pseudo<(outs GR64:$dst), (ins FP64:$src),
                          "cgdbr\t{$dst, 5, $src}",
                          [(set GR64:$dst, (fp_to_sint FP64:$src)),
                           (implicit PSW)]>;
 } // Defs = [PSW]

 def FBCONVG64   : Pseudo<(outs GR64:$dst), (ins FP64:$src),
                          "lgdr\t{$dst, $src}",
                          [(set GR64:$dst, (bitconvert FP64:$src))]>;
 def FBCONVF64   : Pseudo<(outs FP64:$dst), (ins GR64:$src),
                          "ldgr\t{$dst, $src}",
                          [(set FP64:$dst, (bitconvert GR64:$src))]>;

 //===----------------------------------------------------------------------===//
 // Test instructions (like AND but do not produce any result)

 // Integer comparisons
 let Defs = [PSW] in {
 def FCMP32rr : Pseudo<(outs), (ins FP32:$src1, FP32:$src2),
                       "cebr\t$src1, $src2",
                       [(set PSW, (SystemZcmp FP32:$src1, FP32:$src2))]>;
 def FCMP64rr : Pseudo<(outs), (ins FP64:$src1, FP64:$src2),
                       "cdbr\t$src1, $src2",
                       [(set PSW, (SystemZcmp FP64:$src1, FP64:$src2))]>;

 def FCMP32rm : Pseudo<(outs), (ins FP32:$src1, rriaddr12:$src2),
                       "ceb\t$src1, $src2",
                       [(set PSW, (SystemZcmp FP32:$src1,
                                              (load rriaddr12:$src2)))]>;
 def FCMP64rm : Pseudo<(outs), (ins FP64:$src1, rriaddr12:$src2),
                       "cdb\t$src1, $src2",
                       [(set PSW, (SystemZcmp FP64:$src1,
                                              (load rriaddr12:$src2)))]>;
 } // Defs = [PSW]

 //===----------------------------------------------------------------------===//
 // Non-Instruction Patterns
 //===----------------------------------------------------------------------===//

 // Floating point constant -0.0
 def : Pat<(f32 fpimmneg0), (FNEG32rr (LD_Fp032))>;
 def : Pat<(f64 fpimmneg0), (FNEG64rr (LD_Fp064))>;
	//===- SystemZInstrFP.td - SystemZ FP Instruction defs --------- tblgen--===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file describes the SystemZ (binary) floating point instructions in
	// TableGen format.
	//
	//===----------------------------------------------------------------------===//

	// FIXME: multiclassify!

	//===----------------------------------------------------------------------===//
	// FP Pattern fragments

	def fpimm0 : PatLeaf<(fpimm), [{
	return N->isExactlyValue(+0.0);
	}]>;

	def fpimmneg0 : PatLeaf<(fpimm), [{
	return N->isExactlyValue(-0.0);
	}]>;

	let Uses = [PSW], usesCustomInserter = 1 in {
	def SelectF32 : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, i8imm:$cc),
	"# SelectF32 PSEUDO",
	[(set FP32:$dst,
	(SystemZselect FP32:$src1, FP32:$src2, imm:$cc, PSW))]>;
	def SelectF64 : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, i8imm:$cc),
	"# SelectF64 PSEUDO",
	[(set FP64:$dst,
	(SystemZselect FP64:$src1, FP64:$src2, imm:$cc, PSW))]>;
	}

	//===----------------------------------------------------------------------===//
	// Move Instructions

	// Floating point constant loads.
	let isReMaterializable = 1, isAsCheapAsAMove = 1 in {
	def LD_Fp032 : Pseudo<(outs FP32:$dst), (ins),
	"lzer\t{$dst}",
	[(set FP32:$dst, fpimm0)]>;
	def LD_Fp064 : Pseudo<(outs FP64:$dst), (ins),
	"lzdr\t{$dst}",
	[(set FP64:$dst, fpimm0)]>;
	}

	let neverHasSideEffects = 1 in {
	def FMOV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
	"ler\t{$dst, $src}",
	[]>;
	def FMOV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
	"ldr\t{$dst, $src}",
	[]>;
	}

	let canFoldAsLoad = 1, isReMaterializable = 1 in {
	def FMOV32rm : Pseudo<(outs FP32:$dst), (ins rriaddr12:$src),
	"le\t{$dst, $src}",
	[(set FP32:$dst, (load rriaddr12:$src))]>;
	def FMOV32rmy : Pseudo<(outs FP32:$dst), (ins rriaddr:$src),
	"ley\t{$dst, $src}",
	[(set FP32:$dst, (load rriaddr:$src))]>;
	def FMOV64rm : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
	"ld\t{$dst, $src}",
	[(set FP64:$dst, (load rriaddr12:$src))]>;
	def FMOV64rmy : Pseudo<(outs FP64:$dst), (ins rriaddr:$src),
	"ldy\t{$dst, $src}",
	[(set FP64:$dst, (load rriaddr:$src))]>;
	}

	def FMOV32mr : Pseudo<(outs), (ins rriaddr12:$dst, FP32:$src),
	"ste\t{$src, $dst}",
	[(store FP32:$src, rriaddr12:$dst)]>;
	def FMOV32mry : Pseudo<(outs), (ins rriaddr:$dst, FP32:$src),
	"stey\t{$src, $dst}",
	[(store FP32:$src, rriaddr:$dst)]>;
	def FMOV64mr : Pseudo<(outs), (ins rriaddr12:$dst, FP64:$src),
	"std\t{$src, $dst}",
	[(store FP64:$src, rriaddr12:$dst)]>;
	def FMOV64mry : Pseudo<(outs), (ins rriaddr:$dst, FP64:$src),
	"stdy\t{$src, $dst}",
	[(store FP64:$src, rriaddr:$dst)]>;

	def FCOPYSIGN32 : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
	"cpsdr\t{$dst, $src2, $src1}",
	[(set FP32:$dst, (fcopysign FP32:$src1, FP32:$src2))]>;
	def FCOPYSIGN64 : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
	"cpsdr\t{$dst, $src2, $src1}",
	[(set FP64:$dst, (fcopysign FP64:$src1, FP64:$src2))]>;

	//===----------------------------------------------------------------------===//
	// Arithmetic Instructions


	let Defs = [PSW] in {
	def FNEG32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
	"lcebr\t{$dst, $src}",
	[(set FP32:$dst, (fneg FP32:$src)),
	(implicit PSW)]>;
	def FNEG64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
	"lcdbr\t{$dst, $src}",
	[(set FP64:$dst, (fneg FP64:$src)),
	(implicit PSW)]>;

	def FABS32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
	"lpebr\t{$dst, $src}",
	[(set FP32:$dst, (fabs FP32:$src)),
	(implicit PSW)]>;
	def FABS64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
	"lpdbr\t{$dst, $src}",
	[(set FP64:$dst, (fabs FP64:$src)),
	(implicit PSW)]>;

	def FNABS32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
	"lnebr\t{$dst, $src}",
	[(set FP32:$dst, (fneg(fabs FP32:$src))),
	(implicit PSW)]>;
	def FNABS64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
	"lndbr\t{$dst, $src}",
	[(set FP64:$dst, (fneg(fabs FP64:$src))),
	(implicit PSW)]>;
	}

	let Constraints = "$src1 = $dst" in {
	let Defs = [PSW] in {
	let isCommutable = 1 in { // X = ADD Y, Z == X = ADD Z, Y
	def FADD32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
	"aebr\t{$dst, $src2}",
	[(set FP32:$dst, (fadd FP32:$src1, FP32:$src2)),
	(implicit PSW)]>;
	def FADD64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
	"adbr\t{$dst, $src2}",
	[(set FP64:$dst, (fadd FP64:$src1, FP64:$src2)),
	(implicit PSW)]>;
	}

	def FADD32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
	"aeb\t{$dst, $src2}",
	[(set FP32:$dst, (fadd FP32:$src1, (load rriaddr12:$src2))),
	(implicit PSW)]>;
	def FADD64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
	"adb\t{$dst, $src2}",
	[(set FP64:$dst, (fadd FP64:$src1, (load rriaddr12:$src2))),
	(implicit PSW)]>;

	def FSUB32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
	"sebr\t{$dst, $src2}",
	[(set FP32:$dst, (fsub FP32:$src1, FP32:$src2)),
	(implicit PSW)]>;
	def FSUB64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
	"sdbr\t{$dst, $src2}",
	[(set FP64:$dst, (fsub FP64:$src1, FP64:$src2)),
	(implicit PSW)]>;

	def FSUB32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
	"seb\t{$dst, $src2}",
	[(set FP32:$dst, (fsub FP32:$src1, (load rriaddr12:$src2))),
	(implicit PSW)]>;
	def FSUB64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
	"sdb\t{$dst, $src2}",
	[(set FP64:$dst, (fsub FP64:$src1, (load rriaddr12:$src2))),
	(implicit PSW)]>;
	} // Defs = [PSW]

	let isCommutable = 1 in { // X = MUL Y, Z == X = MUL Z, Y
	def FMUL32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
	"meebr\t{$dst, $src2}",
	[(set FP32:$dst, (fmul FP32:$src1, FP32:$src2))]>;
	def FMUL64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
	"mdbr\t{$dst, $src2}",
	[(set FP64:$dst, (fmul FP64:$src1, FP64:$src2))]>;
	}

	def FMUL32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
	"meeb\t{$dst, $src2}",
	[(set FP32:$dst, (fmul FP32:$src1, (load rriaddr12:$src2)))]>;
	def FMUL64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
	"mdb\t{$dst, $src2}",
	[(set FP64:$dst, (fmul FP64:$src1, (load rriaddr12:$src2)))]>;

	def FMADD32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, FP32:$src3),
	"maebr\t{$dst, $src3, $src2}",
	[(set FP32:$dst, (fadd (fmul FP32:$src2, FP32:$src3),
	FP32:$src1))]>;
	def FMADD32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2, FP32:$src3),
	"maeb\t{$dst, $src3, $src2}",
	[(set FP32:$dst, (fadd (fmul (load rriaddr12:$src2),
	FP32:$src3),
	FP32:$src1))]>;

	def FMADD64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, FP64:$src3),
	"madbr\t{$dst, $src3, $src2}",
	[(set FP64:$dst, (fadd (fmul FP64:$src2, FP64:$src3),
	FP64:$src1))]>;
	def FMADD64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2, FP64:$src3),
	"madb\t{$dst, $src3, $src2}",
	[(set FP64:$dst, (fadd (fmul (load rriaddr12:$src2),
	FP64:$src3),
	FP64:$src1))]>;

	def FMSUB32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2, FP32:$src3),
	"msebr\t{$dst, $src3, $src2}",
	[(set FP32:$dst, (fsub (fmul FP32:$src2, FP32:$src3),
	FP32:$src1))]>;
	def FMSUB32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2, FP32:$src3),
	"mseb\t{$dst, $src3, $src2}",
	[(set FP32:$dst, (fsub (fmul (load rriaddr12:$src2),
	FP32:$src3),
	FP32:$src1))]>;

	def FMSUB64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2, FP64:$src3),
	"msdbr\t{$dst, $src3, $src2}",
	[(set FP64:$dst, (fsub (fmul FP64:$src2, FP64:$src3),
	FP64:$src1))]>;
	def FMSUB64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2, FP64:$src3),
	"msdb\t{$dst, $src3, $src2}",
	[(set FP64:$dst, (fsub (fmul (load rriaddr12:$src2),
	FP64:$src3),
	FP64:$src1))]>;

	def FDIV32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src1, FP32:$src2),
	"debr\t{$dst, $src2}",
	[(set FP32:$dst, (fdiv FP32:$src1, FP32:$src2))]>;
	def FDIV64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src1, FP64:$src2),
	"ddbr\t{$dst, $src2}",
	[(set FP64:$dst, (fdiv FP64:$src1, FP64:$src2))]>;

	def FDIV32rm : Pseudo<(outs FP32:$dst), (ins FP32:$src1, rriaddr12:$src2),
	"deb\t{$dst, $src2}",
	[(set FP32:$dst, (fdiv FP32:$src1, (load rriaddr12:$src2)))]>;
	def FDIV64rm : Pseudo<(outs FP64:$dst), (ins FP64:$src1, rriaddr12:$src2),
	"ddb\t{$dst, $src2}",
	[(set FP64:$dst, (fdiv FP64:$src1, (load rriaddr12:$src2)))]>;

	} // Constraints = "$src1 = $dst"

	def FSQRT32rr : Pseudo<(outs FP32:$dst), (ins FP32:$src),
	"sqebr\t{$dst, $src}",
	[(set FP32:$dst, (fsqrt FP32:$src))]>;
	def FSQRT64rr : Pseudo<(outs FP64:$dst), (ins FP64:$src),
	"sqdbr\t{$dst, $src}",
	[(set FP64:$dst, (fsqrt FP64:$src))]>;

	def FSQRT32rm : Pseudo<(outs FP32:$dst), (ins rriaddr12:$src),
	"sqeb\t{$dst, $src}",
	[(set FP32:$dst, (fsqrt (load rriaddr12:$src)))]>;
	def FSQRT64rm : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
	"sqdb\t{$dst, $src}",
	[(set FP64:$dst, (fsqrt (load rriaddr12:$src)))]>;

	def FROUND64r32 : Pseudo<(outs FP32:$dst), (ins FP64:$src),
	"ledbr\t{$dst, $src}",
	[(set FP32:$dst, (fround FP64:$src))]>;

	def FEXT32r64 : Pseudo<(outs FP64:$dst), (ins FP32:$src),
	"ldebr\t{$dst, $src}",
	[(set FP64:$dst, (fextend FP32:$src))]>;
	def FEXT32m64 : Pseudo<(outs FP64:$dst), (ins rriaddr12:$src),
	"ldeb\t{$dst, $src}",
	[(set FP64:$dst, (fextend (load rriaddr12:$src)))]>;

	let Defs = [PSW] in {
	def FCONVFP32 : Pseudo<(outs FP32:$dst), (ins GR32:$src),
	"cefbr\t{$dst, $src}",
	[(set FP32:$dst, (sint_to_fp GR32:$src)),
	(implicit PSW)]>;
	def FCONVFP32r64: Pseudo<(outs FP32:$dst), (ins GR64:$src),
	"cegbr\t{$dst, $src}",
	[(set FP32:$dst, (sint_to_fp GR64:$src)),
	(implicit PSW)]>;

	def FCONVFP64r32: Pseudo<(outs FP64:$dst), (ins GR32:$src),
	"cdfbr\t{$dst, $src}",
	[(set FP64:$dst, (sint_to_fp GR32:$src)),
	(implicit PSW)]>;
	def FCONVFP64 : Pseudo<(outs FP64:$dst), (ins GR64:$src),
	"cdgbr\t{$dst, $src}",
	[(set FP64:$dst, (sint_to_fp GR64:$src)),
	(implicit PSW)]>;

	def FCONVGR32 : Pseudo<(outs GR32:$dst), (ins FP32:$src),
	"cfebr\t{$dst, 5, $src}",
	[(set GR32:$dst, (fp_to_sint FP32:$src)),
	(implicit PSW)]>;
	def FCONVGR32r64: Pseudo<(outs GR32:$dst), (ins FP64:$src),
	"cfdbr\t{$dst, 5, $src}",
	[(set GR32:$dst, (fp_to_sint FP64:$src)),
	(implicit PSW)]>;

	def FCONVGR64r32: Pseudo<(outs GR64:$dst), (ins FP32:$src),
	"cgebr\t{$dst, 5, $src}",
	[(set GR64:$dst, (fp_to_sint FP32:$src)),
	(implicit PSW)]>;
	def FCONVGR64 : Pseudo<(outs GR64:$dst), (ins FP64:$src),
	"cgdbr\t{$dst, 5, $src}",
	[(set GR64:$dst, (fp_to_sint FP64:$src)),
	(implicit PSW)]>;
	} // Defs = [PSW]

	def FBCONVG64 : Pseudo<(outs GR64:$dst), (ins FP64:$src),
	"lgdr\t{$dst, $src}",
	[(set GR64:$dst, (bitconvert FP64:$src))]>;
	def FBCONVF64 : Pseudo<(outs FP64:$dst), (ins GR64:$src),
	"ldgr\t{$dst, $src}",
	[(set FP64:$dst, (bitconvert GR64:$src))]>;

	//===----------------------------------------------------------------------===//
	// Test instructions (like AND but do not produce any result)

	// Integer comparisons
	let Defs = [PSW] in {
	def FCMP32rr : Pseudo<(outs), (ins FP32:$src1, FP32:$src2),
	"cebr\t$src1, $src2",
	[(set PSW, (SystemZcmp FP32:$src1, FP32:$src2))]>;
	def FCMP64rr : Pseudo<(outs), (ins FP64:$src1, FP64:$src2),
	"cdbr\t$src1, $src2",
	[(set PSW, (SystemZcmp FP64:$src1, FP64:$src2))]>;

	def FCMP32rm : Pseudo<(outs), (ins FP32:$src1, rriaddr12:$src2),
	"ceb\t$src1, $src2",
	[(set PSW, (SystemZcmp FP32:$src1,
	(load rriaddr12:$src2)))]>;
	def FCMP64rm : Pseudo<(outs), (ins FP64:$src1, rriaddr12:$src2),
	"cdb\t$src1, $src2",
	[(set PSW, (SystemZcmp FP64:$src1,
	(load rriaddr12:$src2)))]>;
	} // Defs = [PSW]

	//===----------------------------------------------------------------------===//
	// Non-Instruction Patterns
	//===----------------------------------------------------------------------===//

	// Floating point constant -0.0
	def : Pat<(f32 fpimmneg0), (FNEG32rr (LD_Fp032))>;
	def : Pat<(f64 fpimmneg0), (FNEG64rr (LD_Fp064))>;