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llvm-mirror/lib/Target/IA64/IA64InstrInfo.td
Nate Begeman 1ef1013b6c Change how FP immediates are handled.
1) ConstantFP is now expand by default
2) ConstantFP is not turned into TargetConstantFP during Legalize
   if it is legal.

This allows ConstantFP to be handled like Constant, allowing for 
targets that can encode FP immediates as MachineOperands.

As a bonus, fix up Itanium FP constants, which now correctly match,
and match more constants!  Hooray.

llvm-svn: 47121
2008-02-14 08:57:00 +00:00

764 lines
31 KiB
C++

//===- IA64InstrInfo.td - Describe the IA64 Instruction Set -----*- C++ -*-===//
//
// 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 IA64 instruction set, defining the instructions, and
// properties of the instructions which are needed for code generation, machine
// code emission, and analysis.
//
//===----------------------------------------------------------------------===//
include "IA64InstrFormats.td"
//===----------------------------------------------------------------------===//
// IA-64 specific DAG Nodes.
//
def IA64getfd : SDNode<"IA64ISD::GETFD", SDTFPToIntOp, []>;
def SDT_IA64RetFlag : SDTypeProfile<0, 0, []>;
def retflag : SDNode<"IA64ISD::RET_FLAG", SDT_IA64RetFlag,
[SDNPHasChain, SDNPOptInFlag]>;
//===---------
// Instruction types
class isA { bit A=1; } // I or M unit
class isM { bit M=1; } // M unit
class isI { bit I=1; } // I unit
class isB { bit B=1; } // B unit
class isF { bit F=1; } // F unit
class isLX { bit LX=1; } // I/B
//===---------
def u2imm : Operand<i8>;
def u6imm : Operand<i8>;
def s8imm : Operand<i8> {
let PrintMethod = "printS8ImmOperand";
}
def s14imm : Operand<i64> {
let PrintMethod = "printS14ImmOperand";
}
def s22imm : Operand<i64> {
let PrintMethod = "printS22ImmOperand";
}
def u64imm : Operand<i64> {
let PrintMethod = "printU64ImmOperand";
}
def s64imm : Operand<i64> {
let PrintMethod = "printS64ImmOperand";
}
let PrintMethod = "printGlobalOperand" in
def globaladdress : Operand<i64>;
// the asmprinter needs to know about calls
let PrintMethod = "printCallOperand" in
def calltarget : Operand<i64>;
/* new daggy action!!! */
def is32ones : PatLeaf<(i64 imm), [{
// is32ones predicate - True if the immediate is 0x00000000FFFFFFFF
// Used to create ZXT4s appropriately
uint64_t v = (uint64_t)N->getValue();
return (v == 0x00000000FFFFFFFFLL);
}]>;
// isMIXable predicates - True if the immediate is
// 0xFF00FF00FF00FF00, 0x00FF00FF00FF00FF
// etc, through 0x00000000FFFFFFFF
// Used to test for the suitability of mix*
def isMIX1Lable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0xFF00FF00FF00FF00LL);
}]>;
def isMIX1Rable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0x00FF00FF00FF00FFLL);
}]>;
def isMIX2Lable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0xFFFF0000FFFF0000LL);
}]>;
def isMIX2Rable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0x0000FFFF0000FFFFLL);
}]>;
def isMIX4Lable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0xFFFFFFFF00000000LL);
}]>;
def isMIX4Rable: PatLeaf<(i64 imm), [{
return((uint64_t)N->getValue()==0x00000000FFFFFFFFLL);
}]>;
def isSHLADDimm: PatLeaf<(i64 imm), [{
// isSHLADDimm predicate - True if the immediate is exactly 1, 2, 3 or 4
// - 0 is *not* okay.
// Used to create shladd instructions appropriately
int64_t v = (int64_t)N->getValue();
return (v >= 1 && v <= 4);
}]>;
def immSExt14 : PatLeaf<(i64 imm), [{
// immSExt14 predicate - True if the immediate fits in a 14-bit sign extended
// field. Used by instructions like 'adds'.
int64_t v = (int64_t)N->getValue();
return (v <= 8191 && v >= -8192);
}]>;
// imm64 predicate - True if the immediate fits in a 64-bit
// field - i.e., true. used to keep movl happy
def imm64 : PatLeaf<(i64 imm)>;
def ADD : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"add $dst = $src1, $src2",
[(set GR:$dst, (add GR:$src1, GR:$src2))]>, isA;
def ADD1 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"add $dst = $src1, $src2, 1",
[(set GR:$dst, (add (add GR:$src1, GR:$src2), 1))]>, isA;
def ADDS : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, s14imm:$imm),
"adds $dst = $imm, $src1",
[(set GR:$dst, (add GR:$src1, immSExt14:$imm))]>, isA;
def MOVL : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins s64imm:$imm),
"movl $dst = $imm",
[(set GR:$dst, imm64:$imm)]>, isLX;
def ADDL_GA : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, globaladdress:$imm),
"addl $dst = $imm, $src1",
[]>, isA;
// hmm
def ADDL_EA : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, calltarget:$imm),
"addl $dst = $imm, $src1",
[]>, isA;
def SUB : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"sub $dst = $src1, $src2",
[(set GR:$dst, (sub GR:$src1, GR:$src2))]>, isA;
def SUB1 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"sub $dst = $src1, $src2, 1",
[(set GR:$dst, (add (sub GR: $src1, GR:$src2), -1))]>, isA;
let isTwoAddress = 1 in {
def TPCADDIMM22 : AForm<0x03, 0x0b,
(outs GR:$dst), (ins GR:$src1, s22imm:$imm, PR:$qp),
"($qp) add $dst = $imm, $dst">, isA;
def TPCADDS : AForm_DAG<0x03, 0x0b,
(outs GR:$dst), (ins GR:$src1, s14imm:$imm, PR:$qp),
"($qp) adds $dst = $imm, $dst",
[]>, isA;
def TPCMPIMM8NE : AForm<0x03, 0x0b,
(outs PR:$dst), (ins PR:$src1, s22imm:$imm, GR:$src2, PR:$qp),
"($qp) cmp.ne $dst , p0 = $imm, $src2">, isA;
}
// zero extend a bool (predicate reg) into an integer reg
def ZXTb : Pat<(zext PR:$src),
(TPCADDIMM22 (ADDS r0, 0), 1, PR:$src)>;
def AXTb : Pat<(anyext PR:$src),
(TPCADDIMM22 (ADDS r0, 0), 1, PR:$src)>;
// normal sign/zero-extends
def SXT1 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "sxt1 $dst = $src",
[(set GR:$dst, (sext_inreg GR:$src, i8))]>, isI;
def ZXT1 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "zxt1 $dst = $src",
[(set GR:$dst, (and GR:$src, 255))]>, isI;
def SXT2 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "sxt2 $dst = $src",
[(set GR:$dst, (sext_inreg GR:$src, i16))]>, isI;
def ZXT2 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "zxt2 $dst = $src",
[(set GR:$dst, (and GR:$src, 65535))]>, isI;
def SXT4 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "sxt4 $dst = $src",
[(set GR:$dst, (sext_inreg GR:$src, i32))]>, isI;
def ZXT4 : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "zxt4 $dst = $src",
[(set GR:$dst, (and GR:$src, is32ones))]>, isI;
// fixme: shrs vs shru?
def MIX1L : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix1.l $dst = $src1, $src2",
[(set GR:$dst, (or (and GR:$src1, isMIX1Lable),
(and (srl GR:$src2, (i64 8)), isMIX1Lable)))]>, isI;
def MIX2L : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix2.l $dst = $src1, $src2",
[(set GR:$dst, (or (and GR:$src1, isMIX2Lable),
(and (srl GR:$src2, (i64 16)), isMIX2Lable)))]>, isI;
def MIX4L : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix4.l $dst = $src1, $src2",
[(set GR:$dst, (or (and GR:$src1, isMIX4Lable),
(and (srl GR:$src2, (i64 32)), isMIX4Lable)))]>, isI;
def MIX1R : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix1.r $dst = $src1, $src2",
[(set GR:$dst, (or (and (shl GR:$src1, (i64 8)), isMIX1Rable),
(and GR:$src2, isMIX1Rable)))]>, isI;
def MIX2R : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix2.r $dst = $src1, $src2",
[(set GR:$dst, (or (and (shl GR:$src1, (i64 16)), isMIX2Rable),
(and GR:$src2, isMIX2Rable)))]>, isI;
def MIX4R : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"mix4.r $dst = $src1, $src2",
[(set GR:$dst, (or (and (shl GR:$src1, (i64 32)), isMIX4Rable),
(and GR:$src2, isMIX4Rable)))]>, isI;
def GETFSIGD : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins FP:$src),
"getf.sig $dst = $src",
[]>, isM;
def SETFSIGD : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins GR:$src),
"setf.sig $dst = $src",
[]>, isM;
def XMALD : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"xma.l $dst = $src1, $src2, $src3",
[]>, isF;
def XMAHD : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"xma.h $dst = $src1, $src2, $src3",
[]>, isF;
def XMAHUD : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"xma.hu $dst = $src1, $src2, $src3",
[]>, isF;
// pseudocode for integer multiplication
def : Pat<(mul GR:$src1, GR:$src2),
(GETFSIGD (XMALD (SETFSIGD GR:$src1), (SETFSIGD GR:$src2), F0))>;
def : Pat<(mulhs GR:$src1, GR:$src2),
(GETFSIGD (XMAHD (SETFSIGD GR:$src1), (SETFSIGD GR:$src2), F0))>;
def : Pat<(mulhu GR:$src1, GR:$src2),
(GETFSIGD (XMAHUD (SETFSIGD GR:$src1), (SETFSIGD GR:$src2), F0))>;
// TODO: addp4 (addp4 dst = src, r0 is a 32-bit add)
// has imm form, too
// def ADDS : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, s14imm:$imm),
// "adds $dst = $imm, $src1">;
def AND : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"and $dst = $src1, $src2",
[(set GR:$dst, (and GR:$src1, GR:$src2))]>, isA;
def ANDCM : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"andcm $dst = $src1, $src2",
[(set GR:$dst, (and GR:$src1, (not GR:$src2)))]>, isA;
// TODO: and/andcm/or/xor/add/sub/shift immediate forms
def OR : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"or $dst = $src1, $src2",
[(set GR:$dst, (or GR:$src1, GR:$src2))]>, isA;
def pOR : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2, PR:$qp),
"($qp) or $dst = $src1, $src2">, isA;
// the following are all a bit unfortunate: we throw away the complement
// of the compare!
def CMPEQ : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.eq $dst, p0 = $src1, $src2",
[(set PR:$dst, (seteq GR:$src1, GR:$src2))]>, isA;
def CMPGT : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.gt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setgt GR:$src1, GR:$src2))]>, isA;
def CMPGE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.ge $dst, p0 = $src1, $src2",
[(set PR:$dst, (setge GR:$src1, GR:$src2))]>, isA;
def CMPLT : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.lt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setlt GR:$src1, GR:$src2))]>, isA;
def CMPLE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.le $dst, p0 = $src1, $src2",
[(set PR:$dst, (setle GR:$src1, GR:$src2))]>, isA;
def CMPNE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.ne $dst, p0 = $src1, $src2",
[(set PR:$dst, (setne GR:$src1, GR:$src2))]>, isA;
def CMPLTU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.ltu $dst, p0 = $src1, $src2",
[(set PR:$dst, (setult GR:$src1, GR:$src2))]>, isA;
def CMPGTU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.gtu $dst, p0 = $src1, $src2",
[(set PR:$dst, (setugt GR:$src1, GR:$src2))]>, isA;
def CMPLEU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.leu $dst, p0 = $src1, $src2",
[(set PR:$dst, (setule GR:$src1, GR:$src2))]>, isA;
def CMPGEU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2),
"cmp.geu $dst, p0 = $src1, $src2",
[(set PR:$dst, (setuge GR:$src1, GR:$src2))]>, isA;
// and we do the whole thing again for FP compares!
def FCMPEQ : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.eq $dst, p0 = $src1, $src2",
[(set PR:$dst, (seteq FP:$src1, FP:$src2))]>, isF;
def FCMPGT : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.gt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setgt FP:$src1, FP:$src2))]>, isF;
def FCMPGE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.ge $dst, p0 = $src1, $src2",
[(set PR:$dst, (setge FP:$src1, FP:$src2))]>, isF;
def FCMPLT : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.lt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setlt FP:$src1, FP:$src2))]>, isF;
def FCMPLE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.le $dst, p0 = $src1, $src2",
[(set PR:$dst, (setle FP:$src1, FP:$src2))]>, isF;
def FCMPNE : AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.neq $dst, p0 = $src1, $src2",
[(set PR:$dst, (setne FP:$src1, FP:$src2))]>, isF;
def FCMPLTU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.lt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setult FP:$src1, FP:$src2))]>, isF;
def FCMPGTU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.gt $dst, p0 = $src1, $src2",
[(set PR:$dst, (setugt FP:$src1, FP:$src2))]>, isF;
def FCMPLEU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.le $dst, p0 = $src1, $src2",
[(set PR:$dst, (setule FP:$src1, FP:$src2))]>, isF;
def FCMPGEU: AForm_DAG<0x03, 0x0b, (outs PR:$dst), (ins FP:$src1, FP:$src2),
"fcmp.ge $dst, p0 = $src1, $src2",
[(set PR:$dst, (setuge FP:$src1, FP:$src2))]>, isF;
def PCMPEQUNCR0R0 : AForm<0x03, 0x0b, (outs PR:$dst), (ins PR:$qp),
"($qp) cmp.eq.unc $dst, p0 = r0, r0">, isA;
def : Pat<(trunc GR:$src), // truncate i64 to i1
(CMPNE GR:$src, r0)>; // $src!=0? If so, PR:$dst=true
let isTwoAddress=1 in {
def TPCMPEQR0R0 : AForm<0x03, 0x0b, (outs PR:$dst), (ins PR:$bogus, PR:$qp),
"($qp) cmp.eq $dst, p0 = r0, r0">, isA;
def TPCMPNER0R0 : AForm<0x03, 0x0b, (outs PR:$dst), (ins PR:$bogus, PR:$qp),
"($qp) cmp.ne $dst, p0 = r0, r0">, isA;
}
/* our pseudocode for OR on predicates is:
pC = pA OR pB
-------------
(pA) cmp.eq.unc pC,p0 = r0,r0 // pC = pA
;;
(pB) cmp.eq pC,p0 = r0,r0 // if (pB) pC = 1 */
def bOR : Pat<(or PR:$src1, PR:$src2),
(TPCMPEQR0R0 (PCMPEQUNCR0R0 PR:$src1), PR:$src2)>;
/* our pseudocode for AND on predicates is:
*
(pA) cmp.eq.unc pC,p0 = r0,r0 // pC = pA
cmp.eq pTemp,p0 = r0,r0 // pTemp = NOT pB
;;
(pB) cmp.ne pTemp,p0 = r0,r0
;;
(pTemp)cmp.ne pC,p0 = r0,r0 // if (NOT pB) pC = 0 */
def bAND : Pat<(and PR:$src1, PR:$src2),
( TPCMPNER0R0 (PCMPEQUNCR0R0 PR:$src1),
(TPCMPNER0R0 (CMPEQ r0, r0), PR:$src2) )>;
/* one possible routine for XOR on predicates is:
// Compute px = py ^ pz
// using sum of products: px = (py & !pz) | (pz & !py)
// Uses 5 instructions in 3 cycles.
// cycle 1
(pz) cmp.eq.unc px = r0, r0 // px = pz
(py) cmp.eq.unc pt = r0, r0 // pt = py
;;
// cycle 2
(pt) cmp.ne.and px = r0, r0 // px = px & !pt (px = pz & !pt)
(pz) cmp.ne.and pt = r0, r0 // pt = pt & !pz
;;
} { .mmi
// cycle 3
(pt) cmp.eq.or px = r0, r0 // px = px | pt
*** Another, which we use here, requires one scratch GR. it is:
mov rt = 0 // initialize rt off critical path
;;
// cycle 1
(pz) cmp.eq.unc px = r0, r0 // px = pz
(pz) mov rt = 1 // rt = pz
;;
// cycle 2
(py) cmp.ne px = 1, rt // if (py) px = !pz
.. these routines kindly provided by Jim Hull
*/
def bXOR : Pat<(xor PR:$src1, PR:$src2),
(TPCMPIMM8NE (PCMPEQUNCR0R0 PR:$src2), 1,
(TPCADDS (ADDS r0, 0), 1, PR:$src2),
PR:$src1)>;
def XOR : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"xor $dst = $src1, $src2",
[(set GR:$dst, (xor GR:$src1, GR:$src2))]>, isA;
def SHLADD: AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1,s64imm:$imm,GR:$src2),
"shladd $dst = $src1, $imm, $src2",
[(set GR:$dst, (add GR:$src2, (shl GR:$src1, isSHLADDimm:$imm)))]>, isA;
def SHL : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"shl $dst = $src1, $src2",
[(set GR:$dst, (shl GR:$src1, GR:$src2))]>, isI;
def SHRU : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"shr.u $dst = $src1, $src2",
[(set GR:$dst, (srl GR:$src1, GR:$src2))]>, isI;
def SHRS : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, GR:$src2),
"shr $dst = $src1, $src2",
[(set GR:$dst, (sra GR:$src1, GR:$src2))]>, isI;
def MOV : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src), "mov $dst = $src">, isA;
def FMOV : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"mov $dst = $src">, isF; // XXX: there _is_ no fmov
def PMOV : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src, PR:$qp),
"($qp) mov $dst = $src">, isA;
def SPILL_ALL_PREDICATES_TO_GR : AForm<0x03, 0x0b, (outs GR:$dst), (ins),
"mov $dst = pr">, isI;
def FILL_ALL_PREDICATES_FROM_GR : AForm<0x03, 0x0b, (outs), (ins GR:$src),
"mov pr = $src">, isI;
let isTwoAddress = 1 in {
def CMOV : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src2, GR:$src, PR:$qp),
"($qp) mov $dst = $src">, isA;
}
def PFMOV : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src, PR:$qp),
"($qp) mov $dst = $src">, isF;
let isTwoAddress = 1 in {
def CFMOV : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src2, FP:$src, PR:$qp),
"($qp) mov $dst = $src">, isF;
}
def SELECTINT : Pat<(select PR:$which, GR:$src1, GR:$src2),
(CMOV (MOV GR:$src2), GR:$src1, PR:$which)>; // note order!
def SELECTFP : Pat<(select PR:$which, FP:$src1, FP:$src2),
(CFMOV (FMOV FP:$src2), FP:$src1, PR:$which)>; // note order!
// TODO: can do this faster, w/o using any integer regs (see pattern isel)
def SELECTBOOL : Pat<(select PR:$which, PR:$src1, PR:$src2), // note order!
(CMPNE (CMOV
(MOV (TPCADDIMM22 (ADDS r0, 0), 1, PR:$src2)),
(TPCADDIMM22 (ADDS r0, 0), 1, PR:$src1), PR:$which), r0)>;
// load constants of various sizes // FIXME: prettyprint -ve constants
def : Pat<(i64 immSExt14:$imm), (ADDS r0, immSExt14:$imm)>;
def : Pat<(i1 -1), (CMPEQ r0, r0)>; // TODO: this should just be a ref to p0
def : Pat<(i1 0), (CMPNE r0, r0)>; // TODO: any instruction actually *using*
// this predicate should be killed!
// TODO: support postincrement (reg, imm9) loads+stores - this needs more
// tablegen support
let isImplicitDef = 1 in {
def IDEF : PseudoInstIA64<(outs variable_ops), (ins), "// IDEF">;
def IDEF_GR_D : PseudoInstIA64_DAG<(outs GR:$reg), (ins), "// $reg = IDEF",
[(set GR:$reg, (undef))]>;
def IDEF_FP_D : PseudoInstIA64_DAG<(outs FP:$reg), (ins), "// $reg = IDEF",
[(set FP:$reg, (undef))]>;
def IDEF_PR_D : PseudoInstIA64_DAG<(outs PR:$reg), (ins), "// $reg = IDEF",
[(set PR:$reg, (undef))]>;
}
def IUSE : PseudoInstIA64<(outs), (ins variable_ops), "// IUSE">;
def ADJUSTCALLSTACKUP : PseudoInstIA64<(outs), (ins variable_ops),
"// ADJUSTCALLSTACKUP">;
def ADJUSTCALLSTACKDOWN : PseudoInstIA64<(outs), (ins variable_ops),
"// ADJUSTCALLSTACKDOWN">;
def PSEUDO_ALLOC : PseudoInstIA64<(outs), (ins GR:$foo), "// PSEUDO_ALLOC">;
def ALLOC : AForm<0x03, 0x0b,
(outs GR:$dst), (ins i8imm:$inputs, i8imm:$locals, i8imm:$outputs, i8imm:$rotating),
"alloc $dst = ar.pfs,$inputs,$locals,$outputs,$rotating">, isM;
let isTwoAddress = 1 in {
def TCMPNE : AForm<0x03, 0x0b,
(outs PR:$dst), (ins PR:$src2, GR:$src3, GR:$src4),
"cmp.ne $dst, p0 = $src3, $src4">, isA;
def TPCMPEQOR : AForm<0x03, 0x0b,
(outs PR:$dst), (ins PR:$src2, GR:$src3, GR:$src4, PR:$qp),
"($qp) cmp.eq.or $dst, p0 = $src3, $src4">, isA;
def TPCMPNE : AForm<0x03, 0x0b,
(outs PR:$dst), (ins PR:$src2, GR:$src3, GR:$src4, PR:$qp),
"($qp) cmp.ne $dst, p0 = $src3, $src4">, isA;
def TPCMPEQ : AForm<0x03, 0x0b,
(outs PR:$dst), (ins PR:$src2, GR:$src3, GR:$src4, PR:$qp),
"($qp) cmp.eq $dst, p0 = $src3, $src4">, isA;
}
def MOVSIMM14 : AForm<0x03, 0x0b, (outs GR:$dst), (ins s14imm:$imm),
"mov $dst = $imm">, isA;
def MOVSIMM22 : AForm<0x03, 0x0b, (outs GR:$dst), (ins s22imm:$imm),
"mov $dst = $imm">, isA;
def MOVLIMM64 : AForm<0x03, 0x0b, (outs GR:$dst), (ins s64imm:$imm),
"movl $dst = $imm">, isLX;
def SHLI : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, u6imm:$imm),
"shl $dst = $src1, $imm">, isI;
def SHRUI : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, u6imm:$imm),
"shr.u $dst = $src1, $imm">, isI;
def SHRSI : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, u6imm:$imm),
"shr $dst = $src1, $imm">, isI;
def EXTRU : AForm<0x03, 0x0b,
(outs GR:$dst), (ins GR:$src1, u6imm:$imm1, u6imm:$imm2),
"extr.u $dst = $src1, $imm1, $imm2">, isI;
def DEPZ : AForm<0x03, 0x0b,
(outs GR:$dst), (ins GR:$src1, u6imm:$imm1, u6imm:$imm2),
"dep.z $dst = $src1, $imm1, $imm2">, isI;
def PCMPEQOR : AForm<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2, PR:$qp),
"($qp) cmp.eq.or $dst, p0 = $src1, $src2">, isA;
def PCMPEQUNC : AForm<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2, PR:$qp),
"($qp) cmp.eq.unc $dst, p0 = $src1, $src2">, isA;
def PCMPNE : AForm<0x03, 0x0b, (outs PR:$dst), (ins GR:$src1, GR:$src2, PR:$qp),
"($qp) cmp.ne $dst, p0 = $src1, $src2">, isA;
// two destinations!
def BCMPEQ : AForm<0x03, 0x0b, (outs PR:$dst1, PR:$dst2), (ins GR:$src1, GR:$src2),
"cmp.eq $dst1, dst2 = $src1, $src2">, isA;
def ADDIMM14 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, s14imm:$imm),
"adds $dst = $imm, $src1">, isA;
def ADDIMM22 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, s22imm:$imm),
"add $dst = $imm, $src1">, isA;
def CADDIMM22 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$src1, s22imm:$imm, PR:$qp),
"($qp) add $dst = $imm, $src1">, isA;
def SUBIMM8 : AForm<0x03, 0x0b, (outs GR:$dst), (ins s8imm:$imm, GR:$src2),
"sub $dst = $imm, $src2">, isA;
let mayStore = 1 in {
def ST1 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, GR:$value),
"st1 [$dstPtr] = $value">, isM;
def ST2 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, GR:$value),
"st2 [$dstPtr] = $value">, isM;
def ST4 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, GR:$value),
"st4 [$dstPtr] = $value">, isM;
def ST8 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, GR:$value),
"st8 [$dstPtr] = $value">, isM;
def STF4 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, FP:$value),
"stfs [$dstPtr] = $value">, isM;
def STF8 : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, FP:$value),
"stfd [$dstPtr] = $value">, isM;
def STF_SPILL : AForm<0x03, 0x0b, (outs), (ins GR:$dstPtr, FP:$value),
"stf.spill [$dstPtr] = $value">, isM;
}
let isSimpleLoad = 1 in {
def LD1 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$srcPtr),
"ld1 $dst = [$srcPtr]">, isM;
def LD2 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$srcPtr),
"ld2 $dst = [$srcPtr]">, isM;
def LD4 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$srcPtr),
"ld4 $dst = [$srcPtr]">, isM;
def LD8 : AForm<0x03, 0x0b, (outs GR:$dst), (ins GR:$srcPtr),
"ld8 $dst = [$srcPtr]">, isM;
def LDF4 : AForm<0x03, 0x0b, (outs FP:$dst), (ins GR:$srcPtr),
"ldfs $dst = [$srcPtr]">, isM;
def LDF8 : AForm<0x03, 0x0b, (outs FP:$dst), (ins GR:$srcPtr),
"ldfd $dst = [$srcPtr]">, isM;
def LDF_FILL : AForm<0x03, 0x0b, (outs FP:$dst), (ins GR:$srcPtr),
"ldf.fill $dst = [$srcPtr]">, isM;
}
def POPCNT : AForm_DAG<0x03, 0x0b, (outs GR:$dst), (ins GR:$src),
"popcnt $dst = $src",
[(set GR:$dst, (ctpop GR:$src))]>, isI;
// some FP stuff: // TODO: single-precision stuff?
def FADD : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2),
"fadd $dst = $src1, $src2",
[(set FP:$dst, (fadd FP:$src1, FP:$src2))]>, isF;
def FADDS: AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2),
"fadd.s $dst = $src1, $src2">, isF;
def FSUB : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2),
"fsub $dst = $src1, $src2",
[(set FP:$dst, (fsub FP:$src1, FP:$src2))]>, isF;
def FMPY : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2),
"fmpy $dst = $src1, $src2",
[(set FP:$dst, (fmul FP:$src1, FP:$src2))]>, isF;
def FMA : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"fma $dst = $src1, $src2, $src3",
[(set FP:$dst, (fadd (fmul FP:$src1, FP:$src2), FP:$src3))]>, isF;
def FMS : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"fms $dst = $src1, $src2, $src3",
[(set FP:$dst, (fsub (fmul FP:$src1, FP:$src2), FP:$src3))]>, isF;
def FNMA : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"fnma $dst = $src1, $src2, $src3",
[(set FP:$dst, (fneg (fadd (fmul FP:$src1, FP:$src2), FP:$src3)))]>, isF;
def FABS : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fabs $dst = $src",
[(set FP:$dst, (fabs FP:$src))]>, isF;
def FNEG : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fneg $dst = $src",
[(set FP:$dst, (fneg FP:$src))]>, isF;
def FNEGABS : AForm_DAG<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fnegabs $dst = $src",
[(set FP:$dst, (fneg (fabs FP:$src)))]>, isF;
let isTwoAddress=1 in {
def TCFMAS1 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$bogussrc, FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fma.s1 $dst = $src1, $src2, $src3">, isF;
def TCFMADS0 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$bogussrc, FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fma.d.s0 $dst = $src1, $src2, $src3">, isF;
}
def CFMAS1 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fma.s1 $dst = $src1, $src2, $src3">, isF;
def CFNMAS1 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fnma.s1 $dst = $src1, $src2, $src3">, isF;
def CFMADS1 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fma.d.s1 $dst = $src1, $src2, $src3">, isF;
def CFMADS0 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fma.d.s0 $dst = $src1, $src2, $src3">, isF;
def CFNMADS1 : AForm<0x03, 0x0b,
(outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3, PR:$qp),
"($qp) fnma.d.s1 $dst = $src1, $src2, $src3">, isF;
def FRCPAS0 : AForm<0x03, 0x0b, (outs FP:$dstFR, PR:$dstPR), (ins FP:$src1, FP:$src2),
"frcpa.s0 $dstFR, $dstPR = $src1, $src2">, isF;
def FRCPAS1 : AForm<0x03, 0x0b, (outs FP:$dstFR, PR:$dstPR), (ins FP:$src1, FP:$src2),
"frcpa.s1 $dstFR, $dstPR = $src1, $src2">, isF;
def XMAL : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src1, FP:$src2, FP:$src3),
"xma.l $dst = $src1, $src2, $src3">, isF;
def FCVTXF : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.xf $dst = $src">, isF;
def FCVTXUF : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.xuf $dst = $src">, isF;
def FCVTXUFS1 : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.xuf.s1 $dst = $src">, isF;
def FCVTFX : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fx $dst = $src">, isF;
def FCVTFXU : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fxu $dst = $src">, isF;
def FCVTFXTRUNC : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fx.trunc $dst = $src">, isF;
def FCVTFXUTRUNC : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fxu.trunc $dst = $src">, isF;
def FCVTFXTRUNCS1 : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fx.trunc.s1 $dst = $src">, isF;
def FCVTFXUTRUNCS1 : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fcvt.fxu.trunc.s1 $dst = $src">, isF;
def FNORMD : AForm<0x03, 0x0b, (outs FP:$dst), (ins FP:$src),
"fnorm.d $dst = $src">, isF;
def GETFD : AForm<0x03, 0x0b, (outs GR:$dst), (ins FP:$src),
"getf.d $dst = $src">, isM;
def SETFD : AForm<0x03, 0x0b, (outs FP:$dst), (ins GR:$src),
"setf.d $dst = $src">, isM;
def GETFSIG : AForm<0x03, 0x0b, (outs GR:$dst), (ins FP:$src),
"getf.sig $dst = $src">, isM;
def SETFSIG : AForm<0x03, 0x0b, (outs FP:$dst), (ins GR:$src),
"setf.sig $dst = $src">, isM;
// these four FP<->int conversion patterns need checking/cleaning
def SINT_TO_FP : Pat<(sint_to_fp GR:$src),
(FNORMD (FCVTXF (SETFSIG GR:$src)))>;
def UINT_TO_FP : Pat<(uint_to_fp GR:$src),
(FNORMD (FCVTXUF (SETFSIG GR:$src)))>;
def FP_TO_SINT : Pat<(i64 (fp_to_sint FP:$src)),
(GETFSIG (FCVTFXTRUNC FP:$src))>;
def FP_TO_UINT : Pat<(i64 (fp_to_uint FP:$src)),
(GETFSIG (FCVTFXUTRUNC FP:$src))>;
def fpimm0 : PatLeaf<(fpimm), [{
return N->isExactlyValue(+0.0);
}]>;
def fpimm1 : PatLeaf<(fpimm), [{
return N->isExactlyValue(+1.0);
}]>;
def fpimmn0 : PatLeaf<(fpimm), [{
return N->isExactlyValue(-0.0);
}]>;
def fpimmn1 : PatLeaf<(fpimm), [{
return N->isExactlyValue(-1.0);
}]>;
def : Pat<(f64 fpimm0), (FMOV F0)>;
def : Pat<(f64 fpimm1), (FMOV F1)>;
def : Pat<(f64 fpimmn0), (FNEG F0)>;
def : Pat<(f64 fpimmn1), (FNEG F1)>;
let isTerminator = 1, isBranch = 1 in {
def BRL_NOTCALL : RawForm<0x03, 0xb0, (outs), (ins i64imm:$dst),
"(p0) brl.cond.sptk $dst">, isB;
def BRLCOND_NOTCALL : RawForm<0x03, 0xb0, (outs), (ins PR:$qp, i64imm:$dst),
"($qp) brl.cond.sptk $dst">, isB;
def BRCOND_NOTCALL : RawForm<0x03, 0xb0, (outs), (ins PR:$qp, GR:$dst),
"($qp) br.cond.sptk $dst">, isB;
}
let isCall = 1, /* isTerminator = 1, isBranch = 1, */
Uses = [out0,out1,out2,out3,out4,out5,out6,out7],
// all calls clobber non-callee-saved registers, and for now, they are these:
Defs = [r2,r3,r8,r9,r10,r11,r14,r15,r16,r17,r18,r19,r20,r21,r22,r23,r24,
r25,r26,r27,r28,r29,r30,r31,
p6,p7,p8,p9,p10,p11,p12,p13,p14,p15,
F6,F7,F8,F9,F10,F11,F12,F13,F14,F15,
F32,F33,F34,F35,F36,F37,F38,F39,F40,F41,F42,F43,F44,F45,F46,F47,F48,F49,
F50,F51,F52,F53,F54,F55,F56,
F57,F58,F59,F60,F61,F62,F63,F64,F65,F66,F67,F68,F69,F70,F71,F72,F73,F74,
F75,F76,F77,F78,F79,F80,F81,
F82,F83,F84,F85,F86,F87,F88,F89,F90,F91,F92,F93,F94,F95,F96,F97,F98,F99,
F100,F101,F102,F103,F104,F105,
F106,F107,F108,F109,F110,F111,F112,F113,F114,F115,F116,F117,F118,F119,
F120,F121,F122,F123,F124,F125,F126,F127,
out0,out1,out2,out3,out4,out5,out6,out7] in {
// old pattern call
def BRCALL: RawForm<0x03, 0xb0, (outs), (ins calltarget:$dst),
"br.call.sptk rp = $dst">, isB; // FIXME: teach llvm about branch regs?
// new daggy stuff!
// calls a globaladdress
def BRCALL_IPREL_GA : RawForm<0x03, 0xb0, (outs), (ins calltarget:$dst),
"br.call.sptk rp = $dst">, isB; // FIXME: teach llvm about branch regs?
// calls an externalsymbol
def BRCALL_IPREL_ES : RawForm<0x03, 0xb0, (outs), (ins calltarget:$dst),
"br.call.sptk rp = $dst">, isB; // FIXME: teach llvm about branch regs?
// calls through a function descriptor
def BRCALL_INDIRECT : RawForm<0x03, 0xb0, (outs), (ins GR:$branchreg),
"br.call.sptk rp = $branchreg">, isB; // FIXME: teach llvm about branch regs?
def BRLCOND_CALL : RawForm<0x03, 0xb0, (outs), (ins PR:$qp, i64imm:$dst),
"($qp) brl.cond.call.sptk $dst">, isB;
def BRCOND_CALL : RawForm<0x03, 0xb0, (outs), (ins PR:$qp, GR:$dst),
"($qp) br.cond.call.sptk $dst">, isB;
}
// Return branch:
let isTerminator = 1, isReturn = 1 in
def RET : AForm_DAG<0x03, 0x0b, (outs), (ins),
"br.ret.sptk.many rp",
[(retflag)]>, isB; // return
def : Pat<(ret), (RET)>;
// the evil stop bit of despair
def STOP : PseudoInstIA64<(outs), (ins variable_ops), ";;">;