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The MicroBlaze is a highly configurable 32-bit soft-microprocessor for use on Xilinx FPGAs. For more information see: http://www.xilinx.com/tools/microblaze.htm http://en.wikipedia.org/wiki/MicroBlaze The current LLVM MicroBlaze backend generates assembly which can be compiled using the an appropriate binutils assembler. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@96969 91177308-0d34-0410-b5e6-96231b3b80d8
673 lines
30 KiB
C++
673 lines
30 KiB
C++
//===- MBlazeInstrInfo.td - MBlaze Instruction defs -------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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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 "MBlazeInstrFormats.td"
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//===----------------------------------------------------------------------===//
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// MBlaze profiles and nodes
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//===----------------------------------------------------------------------===//
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def SDT_MBlazeRet : SDTypeProfile<0, 1, [SDTCisInt<0>]>;
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def SDT_MBlazeJmpLink : SDTypeProfile<0, 1, [SDTCisVT<0, i32>]>;
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// Call
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def MBlazeJmpLink : SDNode<"MBlazeISD::JmpLink",SDT_MBlazeJmpLink,
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[SDNPHasChain,SDNPOptInFlag,SDNPOutFlag]>;
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// Return
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def MBlazeRet : SDNode<"MBlazeISD::Ret", SDT_MBlazeRet,
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[SDNPHasChain, SDNPOptInFlag]>;
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// Hi and Lo nodes are used to handle global addresses. Used on
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// MBlazeISelLowering to lower stuff like GlobalAddress, ExternalSymbol
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// static model.
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def MBWrapper : SDNode<"MBlazeISD::Wrap", SDTIntUnaryOp>;
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def MBlazeGPRel : SDNode<"MBlazeISD::GPRel", SDTIntUnaryOp>;
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def SDT_MBCallSeqStart : SDCallSeqStart<[SDTCisVT<0, i32>]>;
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def SDT_MBCallSeqEnd : SDCallSeqEnd<[SDTCisVT<0, i32>, SDTCisVT<1, i32>]>;
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// These are target-independent nodes, but have target-specific formats.
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def callseq_start : SDNode<"ISD::CALLSEQ_START", SDT_MBCallSeqStart,
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[SDNPHasChain, SDNPOutFlag]>;
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def callseq_end : SDNode<"ISD::CALLSEQ_END", SDT_MBCallSeqEnd,
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[SDNPHasChain, SDNPOptInFlag, SDNPOutFlag]>;
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def SDTMBlazeSelectCC : SDTypeProfile<1, 3, [SDTCisSameAs<0, 1>]>;
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//===----------------------------------------------------------------------===//
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// MBlaze Instruction Predicate Definitions.
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//===----------------------------------------------------------------------===//
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def HasPipe3 : Predicate<"Subtarget.hasPipe3()">;
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def HasBarrel : Predicate<"Subtarget.hasBarrel()">;
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def NoBarrel : Predicate<"!Subtarget.hasBarrel()">;
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def HasDiv : Predicate<"Subtarget.hasDiv()">;
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def HasMul : Predicate<"Subtarget.hasMul()">;
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def HasFSL : Predicate<"Subtarget.hasFSL()">;
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def HasEFSL : Predicate<"Subtarget.hasEFSL()">;
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def HasMSRSet : Predicate<"Subtarget.hasMSRSet()">;
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def HasException : Predicate<"Subtarget.hasException()">;
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def HasPatCmp : Predicate<"Subtarget.hasPatCmp()">;
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def HasFPU : Predicate<"Subtarget.hasFPU()">;
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def HasESR : Predicate<"Subtarget.hasESR()">;
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def HasPVR : Predicate<"Subtarget.hasPVR()">;
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def HasMul64 : Predicate<"Subtarget.hasMul64()">;
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def HasSqrt : Predicate<"Subtarget.hasSqrt()">;
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def HasMMU : Predicate<"Subtarget.hasMMU()">;
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//===----------------------------------------------------------------------===//
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// MBlaze Operand, Complex Patterns and Transformations Definitions.
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//===----------------------------------------------------------------------===//
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// Instruction operand types
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def brtarget : Operand<OtherVT>;
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def calltarget : Operand<i32>;
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def simm16 : Operand<i32>;
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def uimm5 : Operand<i32>;
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def fimm : Operand<f32>;
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// Unsigned Operand
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def uimm16 : Operand<i32> {
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let PrintMethod = "printUnsignedImm";
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}
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// FSL Operand
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def fslimm : Operand<i32> {
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let PrintMethod = "printFSLImm";
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}
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// Address operand
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def memri : Operand<i32> {
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let PrintMethod = "printMemOperand";
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let MIOperandInfo = (ops simm16, CPURegs);
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}
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def memrr : Operand<i32> {
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let PrintMethod = "printMemOperand";
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let MIOperandInfo = (ops CPURegs, CPURegs);
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}
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// Transformation Function - get the lower 16 bits.
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def LO16 : SDNodeXForm<imm, [{
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return getI32Imm((unsigned)N->getZExtValue() & 0xFFFF);
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}]>;
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// Transformation Function - get the higher 16 bits.
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def HI16 : SDNodeXForm<imm, [{
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return getI32Imm((unsigned)N->getZExtValue() >> 16);
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}]>;
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// Node immediate fits as 16-bit sign extended on target immediate.
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// e.g. addi, andi
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def immSExt16 : PatLeaf<(imm), [{
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return (N->getZExtValue() >> 16) == 0;
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}]>;
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// Node immediate fits as 16-bit zero extended on target immediate.
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// The LO16 param means that only the lower 16 bits of the node
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// immediate are caught.
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// e.g. addiu, sltiu
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def immZExt16 : PatLeaf<(imm), [{
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return (N->getZExtValue() >> 16) == 0;
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}], LO16>;
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// FSL immediate field must fit in 4 bits.
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def immZExt4 : PatLeaf<(imm), [{
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return N->getZExtValue() == ((N->getZExtValue()) & 0xf) ;
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}]>;
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// shamt field must fit in 5 bits.
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def immZExt5 : PatLeaf<(imm), [{
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return N->getZExtValue() == ((N->getZExtValue()) & 0x1f) ;
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}]>;
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// MBlaze Address Mode! SDNode frameindex could possibily be a match
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// since load and store instructions from stack used it.
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def iaddr : ComplexPattern<i32, 2, "SelectAddrRegImm", [frameindex], []>;
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def xaddr : ComplexPattern<i32, 2, "SelectAddrRegReg", [], []>;
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//===----------------------------------------------------------------------===//
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// Pseudo instructions
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//===----------------------------------------------------------------------===//
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// As stack alignment is always done with addiu, we need a 16-bit immediate
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let Defs = [R1], Uses = [R1] in {
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def ADJCALLSTACKDOWN : MBlazePseudo<(outs), (ins simm16:$amt),
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"${:comment} ADJCALLSTACKDOWN $amt",
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[(callseq_start timm:$amt)]>;
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def ADJCALLSTACKUP : MBlazePseudo<(outs),
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(ins uimm16:$amt1, simm16:$amt2),
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"${:comment} ADJCALLSTACKUP $amt1",
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[(callseq_end timm:$amt1, timm:$amt2)]>;
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}
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// Some assembly macros need to avoid pseudoinstructions and assembler
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// automatic reodering, we should reorder ourselves.
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def MACRO : MBlazePseudo<(outs), (ins), ".set macro", []>;
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def REORDER : MBlazePseudo<(outs), (ins), ".set reorder", []>;
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def NOMACRO : MBlazePseudo<(outs), (ins), ".set nomacro", []>;
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def NOREORDER : MBlazePseudo<(outs), (ins), ".set noreorder", []>;
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// When handling PIC code the assembler needs .cpload and .cprestore
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// directives. If the real instructions corresponding these directives
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// are used, we have the same behavior, but get also a bunch of warnings
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// from the assembler.
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def CPLOAD : MBlazePseudo<(outs), (ins CPURegs:$reg), ".cpload $reg", []>;
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def CPRESTORE : MBlazePseudo<(outs), (ins uimm16:$l), ".cprestore $l\n", []>;
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//===----------------------------------------------------------------------===//
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// Instructions specific format
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// Arithmetic Instructions
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//===----------------------------------------------------------------------===//
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class Arith<bits<6> op, bits<11> flags, string instr_asm, SDNode OpNode,
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InstrItinClass itin> :
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TA<op, flags, (outs CPURegs:$dst), (ins CPURegs:$b, CPURegs:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[(set CPURegs:$dst, (OpNode CPURegs:$b, CPURegs:$c))], itin>;
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class ArithI<bits<6> op, string instr_asm, SDNode OpNode,
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Operand Od, PatLeaf imm_type> :
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TAI<op, (outs CPURegs:$dst), (ins CPURegs:$b, Od:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[(set CPURegs:$dst, (OpNode CPURegs:$b, imm_type:$c))], IIAlu>;
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class ArithR<bits<6> op, bits<11> flags, string instr_asm, SDNode OpNode,
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InstrItinClass itin> :
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TA<op, flags, (outs CPURegs:$dst), (ins CPURegs:$c, CPURegs:$b),
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!strconcat(instr_asm, " $dst, $c, $b"),
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[(set CPURegs:$dst, (OpNode CPURegs:$b, CPURegs:$c))], itin>;
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class ArithRI<bits<6> op, string instr_asm, SDNode OpNode,
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Operand Od, PatLeaf imm_type> :
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TAI<op, (outs CPURegs:$dst), (ins Od:$b, CPURegs:$c),
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!strconcat(instr_asm, " $dst, $c, $b"),
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[(set CPURegs:$dst, (OpNode imm_type:$b, CPURegs:$c))], IIAlu>;
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class ArithN<bits<6> op, bits<11> flags, string instr_asm,
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InstrItinClass itin> :
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TA<op, flags, (outs CPURegs:$dst), (ins CPURegs:$b, CPURegs:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[], itin>;
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class ArithNI<bits<6> op, string instr_asm,Operand Od, PatLeaf imm_type> :
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TAI<op, (outs CPURegs:$dst), (ins CPURegs:$b, Od:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[], IIAlu>;
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class ArithRN<bits<6> op, bits<11> flags, string instr_asm,
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InstrItinClass itin> :
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TA<op, flags, (outs CPURegs:$dst), (ins CPURegs:$c, CPURegs:$b),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[], itin>;
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class ArithRNI<bits<6> op, string instr_asm,Operand Od, PatLeaf imm_type> :
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TAI<op, (outs CPURegs:$dst), (ins Od:$c, CPURegs:$b),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[], IIAlu>;
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//===----------------------------------------------------------------------===//
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// Misc Arithmetic Instructions
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//===----------------------------------------------------------------------===//
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class Logic<bits<6> op, bits<11> flags, string instr_asm, SDNode OpNode> :
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TA<op, flags, (outs CPURegs:$dst), (ins CPURegs:$b, CPURegs:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[(set CPURegs:$dst, (OpNode CPURegs:$b, CPURegs:$c))], IIAlu>;
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class LogicI<bits<6> op, string instr_asm, SDNode OpNode> :
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TAI<op, (outs CPURegs:$dst), (ins CPURegs:$b, uimm16:$c),
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!strconcat(instr_asm, " $dst, $b, $c"),
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[(set CPURegs:$dst, (OpNode CPURegs:$b, immZExt16:$c))],
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IIAlu>;
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class EffectiveAddress<string instr_asm> :
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TAI<0x08, (outs CPURegs:$dst), (ins memri:$addr),
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instr_asm, [(set CPURegs:$dst, iaddr:$addr)], IIAlu>;
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//===----------------------------------------------------------------------===//
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// Memory Access Instructions
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//===----------------------------------------------------------------------===//
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class LoadM<bits<6> op, string instr_asm, PatFrag OpNode> :
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TA<op, 0x000, (outs CPURegs:$dst), (ins memrr:$addr),
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!strconcat(instr_asm, " $dst, $addr"),
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[(set CPURegs:$dst, (OpNode xaddr:$addr))], IILoad>;
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class LoadMI<bits<6> op, string instr_asm, PatFrag OpNode> :
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TAI<op, (outs CPURegs:$dst), (ins memri:$addr),
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!strconcat(instr_asm, " $dst, $addr"),
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[(set CPURegs:$dst, (OpNode iaddr:$addr))], IILoad>;
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class StoreM<bits<6> op, string instr_asm, PatFrag OpNode> :
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TA<op, 0x000, (outs), (ins CPURegs:$dst, memrr:$addr),
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!strconcat(instr_asm, " $dst, $addr"),
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[(OpNode CPURegs:$dst, xaddr:$addr)], IIStore>;
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class StoreMI<bits<6> op, string instr_asm, PatFrag OpNode> :
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TAI<op, (outs), (ins CPURegs:$dst, memri:$addr),
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!strconcat(instr_asm, " $dst, $addr"),
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[(OpNode CPURegs:$dst, iaddr:$addr)], IIStore>;
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//===----------------------------------------------------------------------===//
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// Branch Instructions
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//===----------------------------------------------------------------------===//
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class Branch<bits<6> op, bits<5> br, bits<11> flags, string instr_asm> :
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TBR<op, br, flags, (outs), (ins CPURegs:$target),
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!strconcat(instr_asm, " $target"),
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[(brind CPURegs:$target)], IIBranch>;
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class BranchI<bits<6> op, bits<5> brf, string instr_asm> :
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TBRI<op, brf, (outs), (ins brtarget:$target),
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!strconcat(instr_asm, " $target"),
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[(br bb:$target)], IIBranch>;
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//===----------------------------------------------------------------------===//
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// Branch and Link Instructions
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//===----------------------------------------------------------------------===//
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class BranchL<bits<6> op, bits<5> br, bits<11> flags, string instr_asm> :
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TBRL<op, br, flags, (outs), (ins CPURegs:$target),
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!strconcat(instr_asm, " r15, $target"),
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[], IIBranch>;
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class BranchLI<bits<6> op, bits<5> br, string instr_asm> :
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TBRLI<op, br, (outs), (ins calltarget:$target),
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!strconcat(instr_asm, " r15, $target"),
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[], IIBranch>;
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//===----------------------------------------------------------------------===//
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// Conditional Branch Instructions
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//===----------------------------------------------------------------------===//
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class BranchC<bits<6> op, bits<5> br, bits<11> flags, string instr_asm,
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PatFrag cond_op> :
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TBRC<op, br, flags, (outs),
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(ins CPURegs:$a, CPURegs:$b, brtarget:$offset),
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!strconcat(instr_asm, " $a, $b, $offset"),
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[], IIBranch>;
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//(brcond (cond_op CPURegs:$a, CPURegs:$b), bb:$offset)],
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//IIBranch>;
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class BranchCI<bits<6> op, bits<5> br, string instr_asm, PatFrag cond_op> :
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TBRCI<op, br, (outs), (ins CPURegs:$a, brtarget:$offset),
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!strconcat(instr_asm, " $a, $offset"),
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[], IIBranch>;
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//===----------------------------------------------------------------------===//
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// MBlaze arithmetic instructions
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//===----------------------------------------------------------------------===//
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let isCommutable = 1, isAsCheapAsAMove = 1 in {
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def ADD : Arith<0x00, 0x000, "add ", add, IIAlu>;
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def ADDC : Arith<0x02, 0x000, "addc ", adde, IIAlu>;
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def ADDK : Arith<0x04, 0x000, "addk ", addc, IIAlu>;
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def ADDKC : ArithN<0x06, 0x000, "addkc ", IIAlu>;
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def AND : Logic<0x21, 0x000, "and ", and>;
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def OR : Logic<0x20, 0x000, "or ", or>;
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def XOR : Logic<0x22, 0x000, "xor ", xor>;
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}
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let isAsCheapAsAMove = 1 in {
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def ANDN : ArithN<0x23, 0x000, "andn ", IIAlu>;
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def CMP : ArithN<0x05, 0x001, "cmp ", IIAlu>;
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def CMPU : ArithN<0x05, 0x003, "cmpu ", IIAlu>;
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def RSUB : ArithR<0x01, 0x000, "rsub ", sub, IIAlu>;
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def RSUBC : ArithR<0x03, 0x000, "rsubc ", sube, IIAlu>;
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def RSUBK : ArithR<0x05, 0x000, "rsubk ", subc, IIAlu>;
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def RSUBKC : ArithRN<0x07, 0x000, "rsubkc ", IIAlu>;
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}
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let isCommutable = 1, Predicates=[HasMul] in {
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def MUL : Arith<0x10, 0x000, "mul ", mul, IIAlu>;
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}
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let isCommutable = 1, Predicates=[HasMul,HasMul64] in {
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def MULH : Arith<0x10, 0x001, "mulh ", mulhs, IIAlu>;
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def MULHU : Arith<0x10, 0x003, "mulhu ", mulhu, IIAlu>;
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}
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let Predicates=[HasMul,HasMul64] in {
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def MULHSU : ArithN<0x10, 0x002, "mulhsu ", IIAlu>;
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}
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let Predicates=[HasBarrel] in {
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def BSRL : Arith<0x11, 0x000, "bsrl ", srl, IIAlu>;
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def BSRA : Arith<0x11, 0x200, "bsra ", sra, IIAlu>;
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def BSLL : Arith<0x11, 0x400, "bsll ", shl, IIAlu>;
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def BSRLI : ArithI<0x11, "bsrli ", srl, uimm5, immZExt5>;
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def BSRAI : ArithI<0x11, "bsrai ", sra, uimm5, immZExt5>;
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def BSLLI : ArithI<0x11, "bslli ", shl, uimm5, immZExt5>;
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}
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let Predicates=[HasDiv] in {
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def IDIV : Arith<0x12, 0x000, "idiv ", sdiv, IIAlu>;
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def IDIVU : Arith<0x12, 0x002, "idivu ", udiv, IIAlu>;
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}
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//===----------------------------------------------------------------------===//
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// MBlaze immediate mode arithmetic instructions
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//===----------------------------------------------------------------------===//
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let isAsCheapAsAMove = 1 in {
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def ADDI : ArithI<0x08, "addi ", add, simm16, immSExt16>;
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def ADDIC : ArithNI<0x0A, "addic ", simm16, immSExt16>;
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def ADDIK : ArithNI<0x0C, "addik ", simm16, immSExt16>;
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def ADDIKC : ArithI<0x0E, "addikc ", addc, simm16, immSExt16>;
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def RSUBI : ArithRI<0x09, "rsubi ", sub, simm16, immSExt16>;
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def RSUBIC : ArithRNI<0x0B, "rsubi ", simm16, immSExt16>;
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def RSUBIK : ArithRNI<0x0E, "rsubic ", simm16, immSExt16>;
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def RSUBIKC : ArithRI<0x0F, "rsubikc", subc, simm16, immSExt16>;
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def ANDNI : ArithNI<0x2B, "andni ", uimm16, immZExt16>;
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def ANDI : LogicI<0x29, "andi ", and>;
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def ORI : LogicI<0x28, "ori ", or>;
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def XORI : LogicI<0x2A, "xori ", xor>;
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}
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let Predicates=[HasMul] in {
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def MULI : ArithI<0x18, "muli ", mul, simm16, immSExt16>;
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}
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//===----------------------------------------------------------------------===//
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// MBlaze memory access instructions
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//===----------------------------------------------------------------------===//
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let canFoldAsLoad = 1, isReMaterializable = 1 in {
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def LBU : LoadM<0x30, "lbu ", zextloadi8>;
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def LHU : LoadM<0x31, "lhu ", zextloadi16>;
|
|
def LW : LoadM<0x32, "lw ", load>;
|
|
|
|
def LBUI : LoadMI<0x30, "lbui ", zextloadi8>;
|
|
def LHUI : LoadMI<0x31, "lhui ", zextloadi16>;
|
|
def LWI : LoadMI<0x32, "lwi ", load>;
|
|
}
|
|
|
|
def SB : StoreM<0x34, "sb ", truncstorei8>;
|
|
def SH : StoreM<0x35, "sh ", truncstorei16>;
|
|
def SW : StoreM<0x36, "sw ", store>;
|
|
|
|
def SBI : StoreMI<0x34, "sbi ", truncstorei8>;
|
|
def SHI : StoreMI<0x35, "shi ", truncstorei16>;
|
|
def SWI : StoreMI<0x36, "swi ", store>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// MBlaze branch instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
let isBranch = 1, isTerminator = 1, hasCtrlDep = 1 in {
|
|
def BRI : BranchI<0x2E, 0x00, "bri ">;
|
|
def BRAI : BranchI<0x2E, 0x08, "brai ">;
|
|
def BEQI : BranchCI<0x2F, 0x00, "beqi ", seteq>;
|
|
def BNEI : BranchCI<0x2F, 0x01, "bnei ", setne>;
|
|
def BLTI : BranchCI<0x2F, 0x02, "blti ", setlt>;
|
|
def BLEI : BranchCI<0x2F, 0x03, "blei ", setle>;
|
|
def BGTI : BranchCI<0x2F, 0x04, "bgti ", setgt>;
|
|
def BGEI : BranchCI<0x2F, 0x05, "bgei ", setge>;
|
|
}
|
|
|
|
let isBranch = 1, isIndirectBranch = 1, isTerminator = 1, hasCtrlDep = 1 in {
|
|
def BR : Branch<0x26, 0x00, 0x000, "br ">;
|
|
def BRA : Branch<0x26, 0x08, 0x000, "bra ">;
|
|
def BEQ : BranchC<0x27, 0x00, 0x000, "beq ", seteq>;
|
|
def BNE : BranchC<0x27, 0x01, 0x000, "bne ", setne>;
|
|
def BLT : BranchC<0x27, 0x02, 0x000, "blt ", setlt>;
|
|
def BLE : BranchC<0x27, 0x03, 0x000, "ble ", setle>;
|
|
def BGT : BranchC<0x27, 0x04, 0x000, "bgt ", setgt>;
|
|
def BGE : BranchC<0x27, 0x05, 0x000, "bge ", setge>;
|
|
}
|
|
|
|
let isBranch = 1, isTerminator = 1, hasDelaySlot = 1, hasCtrlDep = 1 in {
|
|
def BRID : BranchI<0x2E, 0x10, "brid ">;
|
|
def BRAID : BranchI<0x2E, 0x18, "braid ">;
|
|
def BEQID : BranchCI<0x2F, 0x10, "beqid ", seteq>;
|
|
def BNEID : BranchCI<0x2F, 0x11, "bneid ", setne>;
|
|
def BLTID : BranchCI<0x2F, 0x12, "bltid ", setlt>;
|
|
def BLEID : BranchCI<0x2F, 0x13, "bleid ", setle>;
|
|
def BGTID : BranchCI<0x2F, 0x14, "bgtid ", setgt>;
|
|
def BGEID : BranchCI<0x2F, 0x15, "bgeid ", setge>;
|
|
}
|
|
|
|
let isBranch = 1, isIndirectBranch = 1, isTerminator = 1,
|
|
hasDelaySlot = 1, hasCtrlDep = 1 in {
|
|
def BRD : Branch<0x26, 0x10, 0x000, "brd ">;
|
|
def BRAD : Branch<0x26, 0x18, 0x000, "brad ">;
|
|
def BEQD : BranchC<0x27, 0x10, 0x000, "beqd ", seteq>;
|
|
def BNED : BranchC<0x27, 0x11, 0x000, "bned ", setne>;
|
|
def BLTD : BranchC<0x27, 0x12, 0x000, "bltd ", setlt>;
|
|
def BLED : BranchC<0x27, 0x13, 0x000, "bled ", setle>;
|
|
def BGTD : BranchC<0x27, 0x14, 0x000, "bgtd ", setgt>;
|
|
def BGED : BranchC<0x27, 0x15, 0x000, "bged ", setge>;
|
|
}
|
|
|
|
let isCall = 1, hasCtrlDep = 1, isIndirectBranch = 1,
|
|
Defs = [R3,R4,R5,R6,R7,R8,R9,R10,R11,R12],
|
|
Uses = [R1,R5,R6,R7,R8,R9,R10] in {
|
|
def BRL : BranchL<0x26, 0x04, 0x000, "brl ">;
|
|
def BRAL : BranchL<0x26, 0x0C, 0x000, "bral ">;
|
|
}
|
|
|
|
let isCall = 1, hasDelaySlot = 1, hasCtrlDep = 1,
|
|
Defs = [R3,R4,R5,R6,R7,R8,R9,R10,R11,R12],
|
|
Uses = [R1,R5,R6,R7,R8,R9,R10] in {
|
|
def BRLID : BranchLI<0x2E, 0x14, "brlid ">;
|
|
def BRALID : BranchLI<0x2E, 0x1C, "bralid ">;
|
|
}
|
|
|
|
let isCall = 1, hasDelaySlot = 1, hasCtrlDep = 1, isIndirectBranch = 1,
|
|
Defs = [R3,R4,R5,R6,R7,R8,R9,R10,R11,R12],
|
|
Uses = [R1,R5,R6,R7,R8,R9,R10] in {
|
|
def BRLD : BranchL<0x26, 0x14, 0x000, "brld ">;
|
|
def BRALD : BranchL<0x26, 0x1C, 0x000, "brald ">;
|
|
}
|
|
|
|
let isReturn=1, isTerminator=1, hasDelaySlot=1,
|
|
isBarrier=1, hasCtrlDep=1, imm16=0x8 in {
|
|
def RTSD : TRET<0x2D, (outs), (ins CPURegs:$target),
|
|
"rtsd $target, 8",
|
|
[(MBlazeRet CPURegs:$target)],
|
|
IIBranch>;
|
|
}
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// MBlaze misc instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
let addr = 0 in {
|
|
def NOP : TADDR<0x00, (outs), (ins), "nop ", [], IIAlu>;
|
|
}
|
|
|
|
let usesCustomInserter = 1 in {
|
|
//class PseudoSelCC<RegisterClass RC, string asmstr>:
|
|
// MBlazePseudo<(outs RC:$D), (ins RC:$T, RC:$F, CPURegs:$CMP), asmstr,
|
|
// [(set RC:$D, (MBlazeSelectCC RC:$T, RC:$F, CPURegs:$CMP))]>;
|
|
//def Select_CC : PseudoSelCC<CPURegs, "# MBlazeSelect_CC">;
|
|
|
|
def Select_CC : MBlazePseudo<(outs CPURegs:$dst),
|
|
(ins CPURegs:$T, CPURegs:$F, CPURegs:$CMP, i32imm:$CC),
|
|
"; SELECT_CC PSEUDO!",
|
|
[]>;
|
|
|
|
def ShiftL : MBlazePseudo<(outs CPURegs:$dst),
|
|
(ins CPURegs:$L, CPURegs:$R),
|
|
"; ShiftL PSEUDO!",
|
|
[]>;
|
|
|
|
def ShiftRA : MBlazePseudo<(outs CPURegs:$dst),
|
|
(ins CPURegs:$L, CPURegs:$R),
|
|
"; ShiftRA PSEUDO!",
|
|
[]>;
|
|
|
|
def ShiftRL : MBlazePseudo<(outs CPURegs:$dst),
|
|
(ins CPURegs:$L, CPURegs:$R),
|
|
"; ShiftRL PSEUDO!",
|
|
[]>;
|
|
}
|
|
|
|
|
|
let rb = 0 in {
|
|
def SEXT16 : TA<0x24, 0x061, (outs CPURegs:$dst), (ins CPURegs:$src),
|
|
"sext16 $dst, $src", [], IIAlu>;
|
|
def SEXT8 : TA<0x24, 0x060, (outs CPURegs:$dst), (ins CPURegs:$src),
|
|
"sext8 $dst, $src", [], IIAlu>;
|
|
def SRL : TA<0x24, 0x041, (outs CPURegs:$dst), (ins CPURegs:$src),
|
|
"srl $dst, $src", [], IIAlu>;
|
|
def SRA : TA<0x24, 0x001, (outs CPURegs:$dst), (ins CPURegs:$src),
|
|
"sra $dst, $src", [], IIAlu>;
|
|
def SRC : TA<0x24, 0x021, (outs CPURegs:$dst), (ins CPURegs:$src),
|
|
"src $dst, $src", [], IIAlu>;
|
|
}
|
|
|
|
def LEA_ADDI : EffectiveAddress<"addi $dst, ${addr:stackloc}">;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Arbitrary patterns that map to one or more instructions
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
// Small immediates
|
|
def : Pat<(i32 0), (ADD R0, R0)>;
|
|
def : Pat<(i32 immSExt16:$imm), (ADDI R0, imm:$imm)>;
|
|
def : Pat<(i32 immZExt16:$imm), (ORI R0, imm:$imm)>;
|
|
|
|
// Arbitrary immediates
|
|
def : Pat<(i32 imm:$imm), (ADDI R0, imm:$imm)>;
|
|
|
|
// In register sign extension
|
|
def : Pat<(sext_inreg CPURegs:$src, i16), (SEXT16 CPURegs:$src)>;
|
|
def : Pat<(sext_inreg CPURegs:$src, i8), (SEXT8 CPURegs:$src)>;
|
|
|
|
// Call
|
|
def : Pat<(MBlazeJmpLink (i32 tglobaladdr:$dst)), (BRLID tglobaladdr:$dst)>;
|
|
def : Pat<(MBlazeJmpLink (i32 texternalsym:$dst)),(BRLID texternalsym:$dst)>;
|
|
def : Pat<(MBlazeJmpLink CPURegs:$dst), (BRLD CPURegs:$dst)>;
|
|
|
|
// Shift Instructions
|
|
def : Pat<(shl CPURegs:$L, CPURegs:$R), (ShiftL CPURegs:$L, CPURegs:$R)>;
|
|
def : Pat<(sra CPURegs:$L, CPURegs:$R), (ShiftRA CPURegs:$L, CPURegs:$R)>;
|
|
def : Pat<(srl CPURegs:$L, CPURegs:$R), (ShiftRL CPURegs:$L, CPURegs:$R)>;
|
|
|
|
// SET_CC operations
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETEQ),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 1)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETNE),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 2)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETGT),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 3)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETLT),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 4)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETGE),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 5)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETLE),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMP CPURegs:$L, CPURegs:$R), 6)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETUGT),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMPU CPURegs:$L, CPURegs:$R), 3)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETULT),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMPU CPURegs:$L, CPURegs:$R), 4)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETUGE),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMPU CPURegs:$L, CPURegs:$R), 5)>;
|
|
def : Pat<(setcc CPURegs:$L, CPURegs:$R, SETULE),
|
|
(Select_CC (ADDI R0, 1), (ADDI R0, 0),
|
|
(CMPU CPURegs:$L, CPURegs:$R), 6)>;
|
|
|
|
// SELECT operations
|
|
def : Pat<(select CPURegs:$C, CPURegs:$T, CPURegs:$F),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, CPURegs:$C, 2)>;
|
|
|
|
// SELECT_CC
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETEQ),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 1)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETNE),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 2)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETGT),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 3)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETLT),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 4)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETGE),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 5)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETLE),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMP CPURegs:$L, CPURegs:$R), 6)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETUGT),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMPU CPURegs:$L, CPURegs:$R), 3)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETULT),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMPU CPURegs:$L, CPURegs:$R), 4)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETUGE),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMPU CPURegs:$L, CPURegs:$R), 5)>;
|
|
def : Pat<(selectcc CPURegs:$L, CPURegs:$R, CPURegs:$T, CPURegs:$F, SETULE),
|
|
(Select_CC CPURegs:$T, CPURegs:$F, (CMPU CPURegs:$L, CPURegs:$R), 6)>;
|
|
|
|
// BRCOND instructions
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETEQ), bb:$T),
|
|
(BEQID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETNE), bb:$T),
|
|
(BNEID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETGT), bb:$T),
|
|
(BGTID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETLT), bb:$T),
|
|
(BLTID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETGE), bb:$T),
|
|
(BGEID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETLE), bb:$T),
|
|
(BLEID (CMP CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETUGT), bb:$T),
|
|
(BGTID (CMPU CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETULT), bb:$T),
|
|
(BLTID (CMPU CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETUGE), bb:$T),
|
|
(BGEID (CMPU CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond (setcc CPURegs:$L, CPURegs:$R, SETULE), bb:$T),
|
|
(BLEID (CMPU CPURegs:$R, CPURegs:$L), bb:$T)>;
|
|
def : Pat<(brcond CPURegs:$C, bb:$T),
|
|
(BNEID CPURegs:$C, bb:$T)>;
|
|
|
|
// Jump tables, global addresses, and constant pools
|
|
def : Pat<(MBWrapper tglobaladdr:$in), (ORI R0, tglobaladdr:$in)>;
|
|
def : Pat<(MBWrapper tjumptable:$in), (ORI R0, tjumptable:$in)>;
|
|
def : Pat<(MBWrapper tconstpool:$in), (ORI R0, tconstpool:$in)>;
|
|
|
|
// Misc instructions
|
|
def : Pat<(and CPURegs:$lh, (not CPURegs:$rh)),(ANDN CPURegs:$lh, CPURegs:$rh)>;
|
|
|
|
// Arithmetic with immediates
|
|
def : Pat<(add CPURegs:$in, imm:$imm),(ADDI CPURegs:$in, imm:$imm)>;
|
|
def : Pat<(or CPURegs:$in, imm:$imm),(ORI CPURegs:$in, imm:$imm)>;
|
|
def : Pat<(xor CPURegs:$in, imm:$imm),(XORI CPURegs:$in, imm:$imm)>;
|
|
|
|
// extended load and stores
|
|
def : Pat<(extloadi1 iaddr:$src), (LBUI iaddr:$src)>;
|
|
def : Pat<(extloadi8 iaddr:$src), (LBUI iaddr:$src)>;
|
|
def : Pat<(extloadi16 iaddr:$src), (LHUI iaddr:$src)>;
|
|
def : Pat<(extloadi1 xaddr:$src), (LBU xaddr:$src)>;
|
|
def : Pat<(extloadi8 xaddr:$src), (LBU xaddr:$src)>;
|
|
def : Pat<(extloadi16 xaddr:$src), (LHU xaddr:$src)>;
|
|
|
|
def : Pat<(sextloadi1 iaddr:$src), (SEXT8 (LBUI iaddr:$src))>;
|
|
def : Pat<(sextloadi8 iaddr:$src), (SEXT8 (LBUI iaddr:$src))>;
|
|
def : Pat<(sextloadi16 iaddr:$src), (SEXT16 (LHUI iaddr:$src))>;
|
|
def : Pat<(sextloadi1 xaddr:$src), (SEXT8 (LBU xaddr:$src))>;
|
|
def : Pat<(sextloadi8 xaddr:$src), (SEXT8 (LBU xaddr:$src))>;
|
|
def : Pat<(sextloadi16 xaddr:$src), (SEXT16 (LHU xaddr:$src))>;
|
|
|
|
// peepholes
|
|
def : Pat<(store (i32 0), iaddr:$dst), (SWI R0, iaddr:$dst)>;
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Floating Point Support
|
|
//===----------------------------------------------------------------------===//
|
|
include "MBlazeInstrFSL.td"
|
|
include "MBlazeInstrFPU.td"
|