mirror of
https://github.com/c64scene-ar/llvm-6502.git
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f53d0bfbfd
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@24845 91177308-0d34-0410-b5e6-96231b3b80d8
730 lines
32 KiB
TableGen
730 lines
32 KiB
TableGen
//===- SparcV8Instrs.td - Target Description for SparcV8 Target -----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file describes the SparcV8 instructions in TableGen format.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// Instruction format superclass
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//===----------------------------------------------------------------------===//
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include "SparcV8InstrFormats.td"
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//===----------------------------------------------------------------------===//
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// Instruction Pattern Stuff
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//===----------------------------------------------------------------------===//
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def simm13 : PatLeaf<(imm), [{
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// simm13 predicate - True if the imm fits in a 13-bit sign extended field.
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return (((int)N->getValue() << (32-13)) >> (32-13)) == (int)N->getValue();
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}]>;
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def LO10 : SDNodeXForm<imm, [{
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return CurDAG->getTargetConstant((unsigned)N->getValue() & 1023, MVT::i32);
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}]>;
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def HI22 : SDNodeXForm<imm, [{
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// Transformation function: shift the immediate value down into the low bits.
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return CurDAG->getTargetConstant((unsigned)N->getValue() >> 10, MVT::i32);
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}]>;
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def SETHIimm : PatLeaf<(imm), [{
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return (((unsigned)N->getValue() >> 10) << 10) == (unsigned)N->getValue();
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}], HI22>;
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// Addressing modes.
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def ADDRrr : ComplexPattern<i32, 2, "SelectADDRrr", []>;
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def ADDRri : ComplexPattern<i32, 2, "SelectADDRri", []>;
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// Address operands
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def MEMrr : Operand<i32> {
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let PrintMethod = "printMemOperand";
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let NumMIOperands = 2;
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let MIOperandInfo = (ops IntRegs, IntRegs);
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}
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def MEMri : Operand<i32> {
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let PrintMethod = "printMemOperand";
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let NumMIOperands = 2;
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let MIOperandInfo = (ops IntRegs, i32imm);
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}
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// Branch targets have OtherVT type.
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def brtarget : Operand<OtherVT>;
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def calltarget : Operand<i32>;
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def SDTV8cmpicc :
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SDTypeProfile<1, 2, [SDTCisVT<0, FlagVT>, SDTCisInt<1>, SDTCisSameAs<1, 2>]>;
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def SDTV8cmpfcc :
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SDTypeProfile<1, 2, [SDTCisVT<0, FlagVT>, SDTCisFP<1>, SDTCisSameAs<1, 2>]>;
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def SDTV8brcc :
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SDTypeProfile<0, 3, [SDTCisVT<0, OtherVT>, SDTCisVT<1, OtherVT>,
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SDTCisVT<2, FlagVT>]>;
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def SDTV8selectcc :
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SDTypeProfile<1, 4, [SDTCisSameAs<0, 1>, SDTCisSameAs<1, 2>,
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SDTCisVT<3, i32>, SDTCisVT<4, FlagVT>]>;
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def V8cmpicc : SDNode<"V8ISD::CMPICC", SDTV8cmpicc>;
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def V8cmpfcc : SDNode<"V8ISD::CMPFCC", SDTV8cmpfcc>;
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def V8bricc : SDNode<"V8ISD::BRICC", SDTV8brcc, [SDNPHasChain]>;
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def V8brfcc : SDNode<"V8ISD::BRFCC", SDTV8brcc, [SDNPHasChain]>;
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def V8hi : SDNode<"V8ISD::Hi", SDTIntUnaryOp>;
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def V8lo : SDNode<"V8ISD::Lo", SDTIntUnaryOp>;
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def V8ftoi : SDNode<"V8ISD::FTOI", SDTFPUnaryOp>;
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def V8itof : SDNode<"V8ISD::ITOF", SDTFPUnaryOp>;
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def V8selecticc : SDNode<"V8ISD::SELECT_ICC", SDTV8selectcc>;
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def V8selectfcc : SDNode<"V8ISD::SELECT_FCC", SDTV8selectcc>;
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// These are target-independent nodes, but have target-specific formats.
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def SDT_V8CallSeq : SDTypeProfile<0, 1, [ SDTCisVT<0, i32> ]>;
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def callseq_start : SDNode<"ISD::CALLSEQ_START", SDT_V8CallSeq, [SDNPHasChain]>;
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def callseq_end : SDNode<"ISD::CALLSEQ_END", SDT_V8CallSeq, [SDNPHasChain]>;
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def SDT_V8Call : SDTypeProfile<1, 2, [SDTCisVT<0, FlagVT>, SDTCisVT<1, i32>,
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SDTCisVT<2, FlagVT>]>;
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def call : SDNode<"ISD::CALL", SDT_V8Call, [SDNPHasChain]>;
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def SDT_V8RetFlag : SDTypeProfile<0, 1, [ SDTCisVT<0, FlagVT>]>;
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def retflag : SDNode<"V8ISD::RET_FLAG", SDT_V8RetFlag, [SDNPHasChain]>;
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//===----------------------------------------------------------------------===//
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// Instructions
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//===----------------------------------------------------------------------===//
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// Pseudo instructions.
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class Pseudo<dag ops, string asmstr, list<dag> pattern>
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: InstV8<ops, asmstr, pattern>;
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def PHI : Pseudo<(ops variable_ops), "PHI", []>;
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def ADJCALLSTACKDOWN : Pseudo<(ops i32imm:$amt),
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"!ADJCALLSTACKDOWN $amt",
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[(callseq_start imm:$amt)]>;
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def ADJCALLSTACKUP : Pseudo<(ops i32imm:$amt),
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"!ADJCALLSTACKUP $amt",
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[(callseq_end imm:$amt)]>;
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def IMPLICIT_DEF_Int : Pseudo<(ops IntRegs:$dst),
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"!IMPLICIT_DEF $dst",
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[(set IntRegs:$dst, (undef))]>;
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def IMPLICIT_DEF_FP : Pseudo<(ops FPRegs:$dst), "!IMPLICIT_DEF $dst",
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[(set FPRegs:$dst, (undef))]>;
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def IMPLICIT_DEF_DFP : Pseudo<(ops DFPRegs:$dst), "!IMPLICIT_DEF $dst",
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[(set DFPRegs:$dst, (undef))]>;
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def FpMOVD : Pseudo<(ops DFPRegs:$dst, DFPRegs:$src),
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"!FpMOVD", []>; // pseudo 64-bit double move
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// SELECT_CC_* - Used to implement the SELECT_CC DAG operation. Expanded by the
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// scheduler into a branch sequence. This has to handle all permutations of
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// selection between i32/f32/f64 on ICC and FCC.
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let usesCustomDAGSchedInserter = 1 in { // Expanded by the scheduler.
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def SELECT_CC_Int_ICC
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: Pseudo<(ops IntRegs:$dst, IntRegs:$T, IntRegs:$F, i32imm:$Cond),
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"; SELECT_CC_Int_ICC PSEUDO!",
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[(set IntRegs:$dst, (V8selecticc IntRegs:$T, IntRegs:$F,
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imm:$Cond, ICC))]>;
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def SELECT_CC_Int_FCC
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: Pseudo<(ops IntRegs:$dst, IntRegs:$T, IntRegs:$F, i32imm:$Cond),
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"; SELECT_CC_Int_FCC PSEUDO!",
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[(set IntRegs:$dst, (V8selectfcc IntRegs:$T, IntRegs:$F,
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imm:$Cond, FCC))]>;
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def SELECT_CC_FP_ICC
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: Pseudo<(ops FPRegs:$dst, FPRegs:$T, FPRegs:$F, i32imm:$Cond),
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"; SELECT_CC_FP_ICC PSEUDO!",
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[(set FPRegs:$dst, (V8selecticc FPRegs:$T, FPRegs:$F,
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imm:$Cond, ICC))]>;
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def SELECT_CC_FP_FCC
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: Pseudo<(ops FPRegs:$dst, FPRegs:$T, FPRegs:$F, i32imm:$Cond),
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"; SELECT_CC_FP_FCC PSEUDO!",
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[(set FPRegs:$dst, (V8selectfcc FPRegs:$T, FPRegs:$F,
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imm:$Cond, FCC))]>;
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def SELECT_CC_DFP_ICC
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: Pseudo<(ops DFPRegs:$dst, DFPRegs:$T, DFPRegs:$F, i32imm:$Cond),
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"; SELECT_CC_DFP_ICC PSEUDO!",
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[(set DFPRegs:$dst, (V8selecticc DFPRegs:$T, DFPRegs:$F,
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imm:$Cond, ICC))]>;
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def SELECT_CC_DFP_FCC
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: Pseudo<(ops DFPRegs:$dst, DFPRegs:$T, DFPRegs:$F, i32imm:$Cond),
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"; SELECT_CC_DFP_FCC PSEUDO!",
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[(set DFPRegs:$dst, (V8selectfcc DFPRegs:$T, DFPRegs:$F,
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imm:$Cond, FCC))]>;
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}
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// Section A.3 - Synthetic Instructions, p. 85
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// special cases of JMPL:
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let isReturn = 1, isTerminator = 1, hasDelaySlot = 1 in {
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let rd = O7.Num, rs1 = G0.Num, simm13 = 8 in
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def RETL: F3_2<2, 0b111000, (ops),
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"retl", [(ret)]>;
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}
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// Section B.1 - Load Integer Instructions, p. 90
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def LDSBrr : F3_1<3, 0b001001,
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(ops IntRegs:$dst, MEMrr:$addr),
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"ldsb [$addr], $dst",
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[(set IntRegs:$dst, (sextload ADDRrr:$addr, i8))]>;
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def LDSBri : F3_2<3, 0b001001,
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(ops IntRegs:$dst, MEMri:$addr),
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"ldsb [$addr], $dst",
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[(set IntRegs:$dst, (sextload ADDRri:$addr, i8))]>;
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def LDSHrr : F3_1<3, 0b001010,
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(ops IntRegs:$dst, MEMrr:$addr),
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"ldsh [$addr], $dst",
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[(set IntRegs:$dst, (sextload ADDRrr:$addr, i16))]>;
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def LDSHri : F3_2<3, 0b001010,
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(ops IntRegs:$dst, MEMri:$addr),
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"ldsh [$addr], $dst",
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[(set IntRegs:$dst, (sextload ADDRri:$addr, i16))]>;
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def LDUBrr : F3_1<3, 0b000001,
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(ops IntRegs:$dst, MEMrr:$addr),
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"ldub [$addr], $dst",
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[(set IntRegs:$dst, (zextload ADDRrr:$addr, i8))]>;
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def LDUBri : F3_2<3, 0b000001,
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(ops IntRegs:$dst, MEMri:$addr),
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"ldub [$addr], $dst",
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[(set IntRegs:$dst, (zextload ADDRri:$addr, i8))]>;
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def LDUHrr : F3_1<3, 0b000010,
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(ops IntRegs:$dst, MEMrr:$addr),
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"lduh [$addr], $dst",
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[(set IntRegs:$dst, (zextload ADDRrr:$addr, i16))]>;
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def LDUHri : F3_2<3, 0b000010,
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(ops IntRegs:$dst, MEMri:$addr),
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"lduh [$addr], $dst",
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[(set IntRegs:$dst, (zextload ADDRri:$addr, i16))]>;
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def LDrr : F3_1<3, 0b000000,
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(ops IntRegs:$dst, MEMrr:$addr),
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"ld [$addr], $dst",
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[(set IntRegs:$dst, (load ADDRrr:$addr))]>;
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def LDri : F3_2<3, 0b000000,
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(ops IntRegs:$dst, MEMri:$addr),
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"ld [$addr], $dst",
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[(set IntRegs:$dst, (load ADDRri:$addr))]>;
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// Section B.2 - Load Floating-point Instructions, p. 92
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def LDFrr : F3_1<3, 0b100000,
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(ops FPRegs:$dst, MEMrr:$addr),
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"ld [$addr], $dst",
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[(set FPRegs:$dst, (load ADDRrr:$addr))]>;
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def LDFri : F3_2<3, 0b100000,
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(ops FPRegs:$dst, MEMri:$addr),
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"ld [$addr], $dst",
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[(set FPRegs:$dst, (load ADDRri:$addr))]>;
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def LDDFrr : F3_1<3, 0b100011,
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(ops DFPRegs:$dst, MEMrr:$addr),
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"ldd [$addr], $dst",
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[(set DFPRegs:$dst, (load ADDRrr:$addr))]>;
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def LDDFri : F3_2<3, 0b100011,
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(ops DFPRegs:$dst, MEMri:$addr),
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"ldd [$addr], $dst",
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[(set DFPRegs:$dst, (load ADDRri:$addr))]>;
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// Section B.4 - Store Integer Instructions, p. 95
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def STBrr : F3_1<3, 0b000101,
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(ops MEMrr:$addr, IntRegs:$src),
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"stb $src, [$addr]",
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[(truncstore IntRegs:$src, ADDRrr:$addr, i8)]>;
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def STBri : F3_2<3, 0b000101,
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(ops MEMri:$addr, IntRegs:$src),
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"stb $src, [$addr]",
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[(truncstore IntRegs:$src, ADDRri:$addr, i8)]>;
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def STHrr : F3_1<3, 0b000110,
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(ops MEMrr:$addr, IntRegs:$src),
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"sth $src, [$addr]",
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[(truncstore IntRegs:$src, ADDRrr:$addr, i16)]>;
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def STHri : F3_2<3, 0b000110,
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(ops MEMri:$addr, IntRegs:$src),
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"sth $src, [$addr]",
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[(truncstore IntRegs:$src, ADDRri:$addr, i16)]>;
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def STrr : F3_1<3, 0b000100,
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(ops MEMrr:$addr, IntRegs:$src),
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"st $src, [$addr]",
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[(store IntRegs:$src, ADDRrr:$addr)]>;
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def STri : F3_2<3, 0b000100,
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(ops MEMri:$addr, IntRegs:$src),
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"st $src, [$addr]",
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[(store IntRegs:$src, ADDRri:$addr)]>;
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// Section B.5 - Store Floating-point Instructions, p. 97
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def STFrr : F3_1<3, 0b100100,
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(ops MEMrr:$addr, FPRegs:$src),
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"st $src, [$addr]",
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[(store FPRegs:$src, ADDRrr:$addr)]>;
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def STFri : F3_2<3, 0b100100,
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(ops MEMri:$addr, FPRegs:$src),
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"st $src, [$addr]",
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[(store FPRegs:$src, ADDRri:$addr)]>;
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def STDFrr : F3_1<3, 0b100111,
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(ops MEMrr:$addr, DFPRegs:$src),
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"std $src, [$addr]",
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[(store DFPRegs:$src, ADDRrr:$addr)]>;
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def STDFri : F3_2<3, 0b100111,
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(ops MEMri:$addr, DFPRegs:$src),
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"std $src, [$addr]",
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[(store DFPRegs:$src, ADDRri:$addr)]>;
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// Section B.9 - SETHI Instruction, p. 104
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def SETHIi: F2_1<0b100,
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(ops IntRegs:$dst, i32imm:$src),
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"sethi $src, $dst",
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[(set IntRegs:$dst, SETHIimm:$src)]>;
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// Section B.10 - NOP Instruction, p. 105
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// (It's a special case of SETHI)
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let rd = 0, imm22 = 0 in
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def NOP : F2_1<0b100, (ops), "nop", []>;
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// Section B.11 - Logical Instructions, p. 106
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def ANDrr : F3_1<2, 0b000001,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"and $b, $c, $dst",
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[(set IntRegs:$dst, (and IntRegs:$b, IntRegs:$c))]>;
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def ANDri : F3_2<2, 0b000001,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"and $b, $c, $dst",
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[(set IntRegs:$dst, (and IntRegs:$b, simm13:$c))]>;
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def ANDNrr : F3_1<2, 0b000101,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"andn $b, $c, $dst",
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[(set IntRegs:$dst, (and IntRegs:$b, (not IntRegs:$c)))]>;
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def ANDNri : F3_2<2, 0b000101,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"andn $b, $c, $dst", []>;
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def ORrr : F3_1<2, 0b000010,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"or $b, $c, $dst",
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[(set IntRegs:$dst, (or IntRegs:$b, IntRegs:$c))]>;
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def ORri : F3_2<2, 0b000010,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"or $b, $c, $dst",
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[(set IntRegs:$dst, (or IntRegs:$b, simm13:$c))]>;
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def ORNrr : F3_1<2, 0b000110,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"orn $b, $c, $dst",
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[(set IntRegs:$dst, (or IntRegs:$b, (not IntRegs:$c)))]>;
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def ORNri : F3_2<2, 0b000110,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"orn $b, $c, $dst", []>;
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def XORrr : F3_1<2, 0b000011,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"xor $b, $c, $dst",
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[(set IntRegs:$dst, (xor IntRegs:$b, IntRegs:$c))]>;
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def XORri : F3_2<2, 0b000011,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"xor $b, $c, $dst",
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[(set IntRegs:$dst, (xor IntRegs:$b, simm13:$c))]>;
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def XNORrr : F3_1<2, 0b000111,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"xnor $b, $c, $dst",
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[(set IntRegs:$dst, (xor IntRegs:$b, (not IntRegs:$c)))]>;
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def XNORri : F3_2<2, 0b000111,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"xnor $b, $c, $dst", []>;
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// Section B.12 - Shift Instructions, p. 107
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def SLLrr : F3_1<2, 0b100101,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"sll $b, $c, $dst",
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[(set IntRegs:$dst, (shl IntRegs:$b, IntRegs:$c))]>;
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def SLLri : F3_2<2, 0b100101,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"sll $b, $c, $dst",
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[(set IntRegs:$dst, (shl IntRegs:$b, simm13:$c))]>;
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def SRLrr : F3_1<2, 0b100110,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"srl $b, $c, $dst",
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[(set IntRegs:$dst, (srl IntRegs:$b, IntRegs:$c))]>;
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def SRLri : F3_2<2, 0b100110,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"srl $b, $c, $dst",
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[(set IntRegs:$dst, (srl IntRegs:$b, simm13:$c))]>;
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def SRArr : F3_1<2, 0b100111,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"sra $b, $c, $dst",
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[(set IntRegs:$dst, (sra IntRegs:$b, IntRegs:$c))]>;
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def SRAri : F3_2<2, 0b100111,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
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"sra $b, $c, $dst",
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[(set IntRegs:$dst, (sra IntRegs:$b, simm13:$c))]>;
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// Section B.13 - Add Instructions, p. 108
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def ADDrr : F3_1<2, 0b000000,
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(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
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"add $b, $c, $dst",
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[(set IntRegs:$dst, (add IntRegs:$b, IntRegs:$c))]>;
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def ADDri : F3_2<2, 0b000000,
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(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"add $b, $c, $dst",
|
|
[(set IntRegs:$dst, (add IntRegs:$b, simm13:$c))]>;
|
|
def ADDCCrr : F3_1<2, 0b010000,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"addcc $b, $c, $dst", []>;
|
|
def ADDCCri : F3_2<2, 0b010000,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"addcc $b, $c, $dst", []>;
|
|
def ADDXrr : F3_1<2, 0b001000,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"addx $b, $c, $dst", []>;
|
|
def ADDXri : F3_2<2, 0b001000,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"addx $b, $c, $dst", []>;
|
|
|
|
// Section B.15 - Subtract Instructions, p. 110
|
|
def SUBrr : F3_1<2, 0b000100,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"sub $b, $c, $dst",
|
|
[(set IntRegs:$dst, (sub IntRegs:$b, IntRegs:$c))]>;
|
|
def SUBri : F3_2<2, 0b000100,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"sub $b, $c, $dst",
|
|
[(set IntRegs:$dst, (sub IntRegs:$b, simm13:$c))]>;
|
|
def SUBXrr : F3_1<2, 0b001100,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"subx $b, $c, $dst", []>;
|
|
def SUBXri : F3_2<2, 0b001100,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"subx $b, $c, $dst", []>;
|
|
def SUBCCrr : F3_1<2, 0b010100,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"subcc $b, $c, $dst", []>;
|
|
def SUBCCri : F3_2<2, 0b010100,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"subcc $b, $c, $dst", []>;
|
|
def SUBXCCrr: F3_1<2, 0b011100,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"subxcc $b, $c, $dst", []>;
|
|
|
|
// Section B.18 - Multiply Instructions, p. 113
|
|
def UMULrr : F3_1<2, 0b001010,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"umul $b, $c, $dst", []>;
|
|
def UMULri : F3_2<2, 0b001010,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"umul $b, $c, $dst", []>;
|
|
def SMULrr : F3_1<2, 0b001011,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"smul $b, $c, $dst",
|
|
[(set IntRegs:$dst, (mul IntRegs:$b, IntRegs:$c))]>;
|
|
def SMULri : F3_2<2, 0b001011,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"smul $b, $c, $dst",
|
|
[(set IntRegs:$dst, (mul IntRegs:$b, simm13:$c))]>;
|
|
|
|
// Section B.19 - Divide Instructions, p. 115
|
|
def UDIVrr : F3_1<2, 0b001110,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"udiv $b, $c, $dst", []>;
|
|
def UDIVri : F3_2<2, 0b001110,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"udiv $b, $c, $dst", []>;
|
|
def SDIVrr : F3_1<2, 0b001111,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"sdiv $b, $c, $dst", []>;
|
|
def SDIVri : F3_2<2, 0b001111,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"sdiv $b, $c, $dst", []>;
|
|
|
|
// Section B.20 - SAVE and RESTORE, p. 117
|
|
def SAVErr : F3_1<2, 0b111100,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"save $b, $c, $dst", []>;
|
|
def SAVEri : F3_2<2, 0b111100,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"save $b, $c, $dst", []>;
|
|
def RESTORErr : F3_1<2, 0b111101,
|
|
(ops IntRegs:$dst, IntRegs:$b, IntRegs:$c),
|
|
"restore $b, $c, $dst", []>;
|
|
def RESTOREri : F3_2<2, 0b111101,
|
|
(ops IntRegs:$dst, IntRegs:$b, i32imm:$c),
|
|
"restore $b, $c, $dst", []>;
|
|
|
|
// Section B.21 - Branch on Integer Condition Codes Instructions, p. 119
|
|
|
|
// conditional branch class:
|
|
class BranchV8<bits<4> cc, dag ops, string asmstr, list<dag> pattern>
|
|
: F2_2<cc, 0b010, ops, asmstr, pattern> {
|
|
let isBranch = 1;
|
|
let isTerminator = 1;
|
|
let hasDelaySlot = 1;
|
|
}
|
|
|
|
let isBarrier = 1 in
|
|
def BA : BranchV8<0b1000, (ops brtarget:$dst),
|
|
"ba $dst",
|
|
[(br bb:$dst)]>;
|
|
def BNE : BranchV8<0b1001, (ops brtarget:$dst),
|
|
"bne $dst",
|
|
[(V8bricc bb:$dst, SETNE, ICC)]>;
|
|
def BE : BranchV8<0b0001, (ops brtarget:$dst),
|
|
"be $dst",
|
|
[(V8bricc bb:$dst, SETEQ, ICC)]>;
|
|
def BG : BranchV8<0b1010, (ops brtarget:$dst),
|
|
"bg $dst",
|
|
[(V8bricc bb:$dst, SETGT, ICC)]>;
|
|
def BLE : BranchV8<0b0010, (ops brtarget:$dst),
|
|
"ble $dst",
|
|
[(V8bricc bb:$dst, SETLE, ICC)]>;
|
|
def BGE : BranchV8<0b1011, (ops brtarget:$dst),
|
|
"bge $dst",
|
|
[(V8bricc bb:$dst, SETGE, ICC)]>;
|
|
def BL : BranchV8<0b0011, (ops brtarget:$dst),
|
|
"bl $dst",
|
|
[(V8bricc bb:$dst, SETLT, ICC)]>;
|
|
def BGU : BranchV8<0b1100, (ops brtarget:$dst),
|
|
"bgu $dst",
|
|
[(V8bricc bb:$dst, SETUGT, ICC)]>;
|
|
def BLEU : BranchV8<0b0100, (ops brtarget:$dst),
|
|
"bleu $dst",
|
|
[(V8bricc bb:$dst, SETULE, ICC)]>;
|
|
def BCC : BranchV8<0b1101, (ops brtarget:$dst),
|
|
"bcc $dst",
|
|
[(V8bricc bb:$dst, SETUGE, ICC)]>;
|
|
def BCS : BranchV8<0b0101, (ops brtarget:$dst),
|
|
"bcs $dst",
|
|
[(V8bricc bb:$dst, SETULT, ICC)]>;
|
|
|
|
// Section B.22 - Branch on Floating-point Condition Codes Instructions, p. 121
|
|
|
|
// floating-point conditional branch class:
|
|
class FPBranchV8<bits<4> cc, dag ops, string asmstr, list<dag> pattern>
|
|
: F2_2<cc, 0b110, ops, asmstr, pattern> {
|
|
let isBranch = 1;
|
|
let isTerminator = 1;
|
|
let hasDelaySlot = 1;
|
|
}
|
|
|
|
def FBU : FPBranchV8<0b0111, (ops brtarget:$dst),
|
|
"fbu $dst",
|
|
[(V8brfcc bb:$dst, SETUO, FCC)]>;
|
|
def FBG : FPBranchV8<0b0110, (ops brtarget:$dst),
|
|
"fbg $dst",
|
|
[(V8brfcc bb:$dst, SETGT, FCC)]>;
|
|
def FBUG : FPBranchV8<0b0101, (ops brtarget:$dst),
|
|
"fbug $dst",
|
|
[(V8brfcc bb:$dst, SETUGT, FCC)]>;
|
|
def FBL : FPBranchV8<0b0100, (ops brtarget:$dst),
|
|
"fbl $dst",
|
|
[(V8brfcc bb:$dst, SETLT, FCC)]>;
|
|
def FBUL : FPBranchV8<0b0011, (ops brtarget:$dst),
|
|
"fbul $dst",
|
|
[(V8brfcc bb:$dst, SETULT, FCC)]>;
|
|
def FBLG : FPBranchV8<0b0010, (ops brtarget:$dst),
|
|
"fblg $dst",
|
|
[(V8brfcc bb:$dst, SETONE, FCC)]>;
|
|
def FBNE : FPBranchV8<0b0001, (ops brtarget:$dst),
|
|
"fbne $dst",
|
|
[(V8brfcc bb:$dst, SETNE, FCC)]>;
|
|
def FBE : FPBranchV8<0b1001, (ops brtarget:$dst),
|
|
"fbe $dst",
|
|
[(V8brfcc bb:$dst, SETEQ, FCC)]>;
|
|
def FBUE : FPBranchV8<0b1010, (ops brtarget:$dst),
|
|
"fbue $dst",
|
|
[(V8brfcc bb:$dst, SETUEQ, FCC)]>;
|
|
def FBGE : FPBranchV8<0b1011, (ops brtarget:$dst),
|
|
"fbge $dst",
|
|
[(V8brfcc bb:$dst, SETGE, FCC)]>;
|
|
def FBUGE: FPBranchV8<0b1100, (ops brtarget:$dst),
|
|
"fbuge $dst",
|
|
[(V8brfcc bb:$dst, SETUGE, FCC)]>;
|
|
def FBLE : FPBranchV8<0b1101, (ops brtarget:$dst),
|
|
"fble $dst",
|
|
[(V8brfcc bb:$dst, SETLE, FCC)]>;
|
|
def FBULE: FPBranchV8<0b1110, (ops brtarget:$dst),
|
|
"fbule $dst",
|
|
[(V8brfcc bb:$dst, SETULE, FCC)]>;
|
|
def FBO : FPBranchV8<0b1111, (ops brtarget:$dst),
|
|
"fbo $dst",
|
|
[(V8brfcc bb:$dst, SETO, FCC)]>;
|
|
|
|
|
|
|
|
// Section B.24 - Call and Link Instruction, p. 125
|
|
// This is the only Format 1 instruction
|
|
let Uses = [O0, O1, O2, O3, O4, O5], hasDelaySlot = 1, isCall = 1,
|
|
Defs = [O0, O1, O2, O3, O4, O5, O7, G1, G2, G3, G4, G5, G6, G7,
|
|
D0, D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15] in {
|
|
// pc-relative call:
|
|
def CALL : InstV8<(ops calltarget:$dst),
|
|
"call $dst",
|
|
[(set ICC/*bogus*/, (call tglobaladdr:$dst, ICC/*bogus*/))]> {
|
|
bits<30> disp;
|
|
let op = 1;
|
|
let Inst{29-0} = disp;
|
|
}
|
|
|
|
// indirect calls
|
|
def JMPLrr : F3_1<2, 0b111000,
|
|
(ops MEMrr:$ptr),
|
|
"jmpl $ptr",
|
|
[(set ICC/*bogus*/, (call ADDRrr:$ptr, ICC/*bogus*/))]>;
|
|
def JMPLri : F3_2<2, 0b111000,
|
|
(ops MEMri:$ptr),
|
|
"jmpl $ptr",
|
|
[(set ICC/*bogus*/, (call ADDRri:$ptr, ICC/*bogus*/))]>;
|
|
}
|
|
|
|
// Section B.28 - Read State Register Instructions
|
|
def RDY : F3_1<2, 0b101000,
|
|
(ops IntRegs:$dst),
|
|
"rdy $dst", []>;
|
|
|
|
// Section B.29 - Write State Register Instructions
|
|
def WRYrr : F3_1<2, 0b110000,
|
|
(ops IntRegs:$b, IntRegs:$c),
|
|
"wr $b, $c, %y", []>;
|
|
def WRYri : F3_2<2, 0b110000,
|
|
(ops IntRegs:$b, i32imm:$c),
|
|
"wr $b, $c, %y", []>;
|
|
|
|
// Convert Integer to Floating-point Instructions, p. 141
|
|
def FITOS : F3_3<2, 0b110100, 0b011000100,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fitos $src, $dst",
|
|
[(set FPRegs:$dst, (V8itof FPRegs:$src))]>;
|
|
def FITOD : F3_3<2, 0b110100, 0b011001000,
|
|
(ops DFPRegs:$dst, DFPRegs:$src),
|
|
"fitod $src, $dst",
|
|
[(set DFPRegs:$dst, (V8itof DFPRegs:$src))]>;
|
|
|
|
// Convert Floating-point to Integer Instructions, p. 142
|
|
def FSTOI : F3_3<2, 0b110100, 0b011010001,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fstoi $src, $dst",
|
|
[(set FPRegs:$dst, (V8ftoi FPRegs:$src))]>;
|
|
def FDTOI : F3_3<2, 0b110100, 0b011010010,
|
|
(ops DFPRegs:$dst, DFPRegs:$src),
|
|
"fdtoi $src, $dst",
|
|
[(set DFPRegs:$dst, (V8ftoi DFPRegs:$src))]>;
|
|
|
|
// Convert between Floating-point Formats Instructions, p. 143
|
|
def FSTOD : F3_3<2, 0b110100, 0b011001001,
|
|
(ops DFPRegs:$dst, FPRegs:$src),
|
|
"fstod $src, $dst",
|
|
[(set DFPRegs:$dst, (fextend FPRegs:$src))]>;
|
|
def FDTOS : F3_3<2, 0b110100, 0b011000110,
|
|
(ops FPRegs:$dst, DFPRegs:$src),
|
|
"fdtos $src, $dst",
|
|
[(set FPRegs:$dst, (fround DFPRegs:$src))]>;
|
|
|
|
// Floating-point Move Instructions, p. 144
|
|
def FMOVS : F3_3<2, 0b110100, 0b000000001,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fmovs $src, $dst", []>;
|
|
def FNEGS : F3_3<2, 0b110100, 0b000000101,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fnegs $src, $dst",
|
|
[(set FPRegs:$dst, (fneg FPRegs:$src))]>;
|
|
def FABSS : F3_3<2, 0b110100, 0b000001001,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fabss $src, $dst",
|
|
[(set FPRegs:$dst, (fabs FPRegs:$src))]>;
|
|
// FIXME: ADD FNEGD/FABSD pseudo instructions.
|
|
|
|
|
|
// Floating-point Square Root Instructions, p.145
|
|
def FSQRTS : F3_3<2, 0b110100, 0b000101001,
|
|
(ops FPRegs:$dst, FPRegs:$src),
|
|
"fsqrts $src, $dst",
|
|
[(set FPRegs:$dst, (fsqrt FPRegs:$src))]>;
|
|
def FSQRTD : F3_3<2, 0b110100, 0b000101010,
|
|
(ops DFPRegs:$dst, DFPRegs:$src),
|
|
"fsqrtd $src, $dst",
|
|
[(set DFPRegs:$dst, (fsqrt DFPRegs:$src))]>;
|
|
|
|
|
|
|
|
// Floating-point Add and Subtract Instructions, p. 146
|
|
def FADDS : F3_3<2, 0b110100, 0b001000001,
|
|
(ops FPRegs:$dst, FPRegs:$src1, FPRegs:$src2),
|
|
"fadds $src1, $src2, $dst",
|
|
[(set FPRegs:$dst, (fadd FPRegs:$src1, FPRegs:$src2))]>;
|
|
def FADDD : F3_3<2, 0b110100, 0b001000010,
|
|
(ops DFPRegs:$dst, DFPRegs:$src1, DFPRegs:$src2),
|
|
"faddd $src1, $src2, $dst",
|
|
[(set DFPRegs:$dst, (fadd DFPRegs:$src1, DFPRegs:$src2))]>;
|
|
def FSUBS : F3_3<2, 0b110100, 0b001000101,
|
|
(ops FPRegs:$dst, FPRegs:$src1, FPRegs:$src2),
|
|
"fsubs $src1, $src2, $dst",
|
|
[(set FPRegs:$dst, (fsub FPRegs:$src1, FPRegs:$src2))]>;
|
|
def FSUBD : F3_3<2, 0b110100, 0b001000110,
|
|
(ops DFPRegs:$dst, DFPRegs:$src1, DFPRegs:$src2),
|
|
"fsubd $src1, $src2, $dst",
|
|
[(set DFPRegs:$dst, (fsub DFPRegs:$src1, DFPRegs:$src2))]>;
|
|
|
|
// Floating-point Multiply and Divide Instructions, p. 147
|
|
def FMULS : F3_3<2, 0b110100, 0b001001001,
|
|
(ops FPRegs:$dst, FPRegs:$src1, FPRegs:$src2),
|
|
"fmuls $src1, $src2, $dst",
|
|
[(set FPRegs:$dst, (fmul FPRegs:$src1, FPRegs:$src2))]>;
|
|
def FMULD : F3_3<2, 0b110100, 0b001001010,
|
|
(ops DFPRegs:$dst, DFPRegs:$src1, DFPRegs:$src2),
|
|
"fmuld $src1, $src2, $dst",
|
|
[(set DFPRegs:$dst, (fmul DFPRegs:$src1, DFPRegs:$src2))]>;
|
|
def FSMULD : F3_3<2, 0b110100, 0b001101001,
|
|
(ops DFPRegs:$dst, FPRegs:$src1, FPRegs:$src2),
|
|
"fsmuld $src1, $src2, $dst",
|
|
[(set DFPRegs:$dst, (fmul (fextend FPRegs:$src1),
|
|
(fextend FPRegs:$src2)))]>;
|
|
def FDIVS : F3_3<2, 0b110100, 0b001001101,
|
|
(ops FPRegs:$dst, FPRegs:$src1, FPRegs:$src2),
|
|
"fdivs $src1, $src2, $dst",
|
|
[(set FPRegs:$dst, (fdiv FPRegs:$src1, FPRegs:$src2))]>;
|
|
def FDIVD : F3_3<2, 0b110100, 0b001001110,
|
|
(ops DFPRegs:$dst, DFPRegs:$src1, DFPRegs:$src2),
|
|
"fdivd $src1, $src2, $dst",
|
|
[(set DFPRegs:$dst, (fdiv DFPRegs:$src1, DFPRegs:$src2))]>;
|
|
|
|
// Floating-point Compare Instructions, p. 148
|
|
// Note: the 2nd template arg is different for these guys.
|
|
// Note 2: the result of a FCMP is not available until the 2nd cycle
|
|
// after the instr is retired, but there is no interlock. This behavior
|
|
// is modelled with a forced noop after the instruction.
|
|
def FCMPS : F3_3<2, 0b110101, 0b001010001,
|
|
(ops FPRegs:$src1, FPRegs:$src2),
|
|
"fcmps $src1, $src2\n\tnop",
|
|
[(set FCC, (V8cmpfcc FPRegs:$src1, FPRegs:$src2))]>;
|
|
def FCMPD : F3_3<2, 0b110101, 0b001010010,
|
|
(ops DFPRegs:$src1, DFPRegs:$src2),
|
|
"fcmpd $src1, $src2\n\tnop",
|
|
[(set FCC, (V8cmpfcc DFPRegs:$src1, DFPRegs:$src2))]>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Non-Instruction Patterns
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
// Small immediates.
|
|
def : Pat<(i32 simm13:$val),
|
|
(ORri G0, imm:$val)>;
|
|
// Arbitrary immediates.
|
|
def : Pat<(i32 imm:$val),
|
|
(ORri (SETHIi (HI22 imm:$val)), (LO10 imm:$val))>;
|
|
|
|
// Global addresses, constant pool entries
|
|
def : Pat<(V8hi tglobaladdr:$in), (SETHIi tglobaladdr:$in)>;
|
|
def : Pat<(V8lo tglobaladdr:$in), (ORri G0, tglobaladdr:$in)>;
|
|
def : Pat<(V8hi tconstpool:$in), (SETHIi tconstpool:$in)>;
|
|
def : Pat<(V8lo tconstpool:$in), (ORri G0, tconstpool:$in)>;
|
|
|
|
// Return of a value, which has an input flag.
|
|
def : Pat<(retflag ICC/*HACK*/), (RETL)>;
|
|
|
|
// Map integer extload's to zextloads.
|
|
def : Pat<(i32 (extload ADDRrr:$src, i1)), (LDUBrr ADDRrr:$src)>;
|
|
def : Pat<(i32 (extload ADDRri:$src, i1)), (LDUBri ADDRri:$src)>;
|
|
def : Pat<(i32 (extload ADDRrr:$src, i8)), (LDUBrr ADDRrr:$src)>;
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def : Pat<(i32 (extload ADDRri:$src, i8)), (LDUBri ADDRri:$src)>;
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def : Pat<(i32 (extload ADDRrr:$src, i16)), (LDUHrr ADDRrr:$src)>;
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def : Pat<(i32 (extload ADDRri:$src, i16)), (LDUHri ADDRri:$src)>;
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// truncstore bool -> truncstore byte.
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def : Pat<(truncstore IntRegs:$src, ADDRrr:$addr, i1),
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(STBrr IntRegs:$src, ADDRrr:$addr)>;
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def : Pat<(truncstore IntRegs:$src, ADDRri:$addr, i1),
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(STBri IntRegs:$src, ADDRri:$addr)>;
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