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109 lines
3.5 KiB
TableGen
109 lines
3.5 KiB
TableGen
// RUN: llvm-tblgen -gen-dag-isel -I %p/../../include %s -o %t
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// RUN: FileCheck --check-prefix=ADD %s < %t
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// RUN: FileCheck --check-prefix=ADDINT %s < %t
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// RUN: FileCheck --check-prefix=SUB %s < %t
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// RUN: FileCheck --check-prefix=MULINT %s < %t
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include "llvm/Target/Target.td"
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def TestInstrInfo : InstrInfo;
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def TestTarget : Target {
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let InstructionSet = TestInstrInfo;
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}
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class TestEncoding : Instruction {
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field bits<32> Inst;
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}
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class TestReg<int index> : Register<"R"#index, []> {
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let HWEncoding{15...4} = 0;
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let HWEncoding{3...0} = !cast<bits<4>>(index);
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}
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foreach i = 0...15 in
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def "R"#i : TestReg<i>;
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def Reg : RegisterClass<"TestTarget", [i32], 32, (sequence "R%d", 0, 15)>;
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def IntOperand: Operand<i32>;
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def OptionalIntOperand: OperandWithDefaultOps<i32, (ops (i32 0))>;
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class RRI<string Mnemonic, bits<4> Opcode> : TestEncoding {
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dag OutOperandList = (outs Reg:$dest);
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dag InOperandList = (ins Reg:$src1, Reg:$src2, OptionalIntOperand:$imm);
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string AsmString = Mnemonic # " $dest1, $src1, $src2, #$imm";
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string AsmVariantName = "";
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field bits<4> dest;
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field bits<4> src1;
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field bits<4> src2;
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field bits<16> imm;
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let Inst{31...28} = Opcode;
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let Inst{27...24} = dest;
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let Inst{23...20} = src1;
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let Inst{19...16} = src2;
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let Inst{15...0} = imm;
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}
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def AddRRI : RRI<"add", 0b0001>;
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// I define one of these intrinsics with IntrNoMem and the other
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// without it, so that they'll match different top-level DAG opcodes
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// (INTRINSIC_WO_CHAIN and INTRINSIC_W_CHAIN), which makes the
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// FileCheck-herding easier, because every case I want to detect
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// should show up as a separate top-level switch element.
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def int_addplus1 : Intrinsic<
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[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty], [IntrNoMem]>;
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def int_mul3 : Intrinsic<
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[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty]>;
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def AddPat : Pat<(add i32:$x, i32:$y),
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(AddRRI Reg:$x, Reg:$y)>;
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def Add1Pat : Pat<(int_addplus1 i32:$x, i32:$y),
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(AddRRI Reg:$x, Reg:$y, (i32 1))>;
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def SubRRI : RRI<"sub", 0b0010> {
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let Pattern = [(set Reg:$dest, (sub Reg:$src1, Reg:$src2))];
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}
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def MulRRI : RRI<"mul", 0b0011> {
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let Pattern = [(set Reg:$dest, (int_mul3 Reg:$src1, Reg:$src2, i32:$imm))];
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}
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def MulIRR : RRI<"mul2", 0b0100> {
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let InOperandList = (ins OptionalIntOperand:$imm, Reg:$src1, Reg:$src2);
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}
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def MulIRRPat : Pat<(mul i32:$x, i32:$y), (MulIRR Reg:$x, Reg:$y)>;
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// ADD: SwitchOpcode{{.*}}TARGET_VAL(ISD::ADD)
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// ADD-NEXT: OPC_RecordChild0
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// ADD-NEXT: OPC_RecordChild1
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// ADD-NEXT: OPC_EmitInteger, MVT::i32, 0
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// ADD-NEXT: OPC_MorphNodeTo1, TARGET_VAL(::AddRRI)
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// ADDINT: SwitchOpcode{{.*}}TARGET_VAL(ISD::INTRINSIC_WO_CHAIN)
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// ADDINT-NEXT: OPC_CheckChild0Integer
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// ADDINT-NEXT: OPC_RecordChild1
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// ADDINT-NEXT: OPC_RecordChild2
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// ADDINT-NEXT: OPC_EmitInteger, MVT::i32, 1
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// ADDINT-NEXT: OPC_MorphNodeTo1, TARGET_VAL(::AddRRI)
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// SUB: SwitchOpcode{{.*}}TARGET_VAL(ISD::SUB)
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// SUB-NEXT: OPC_RecordChild0
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// SUB-NEXT: OPC_RecordChild1
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// SUB-NEXT: OPC_EmitInteger, MVT::i32, 0
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// SUB-NEXT: OPC_MorphNodeTo1, TARGET_VAL(::SubRRI)
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// MULINT: SwitchOpcode{{.*}}TARGET_VAL(ISD::INTRINSIC_W_CHAIN)
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// MULINT-NEXT: OPC_RecordNode
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// MULINT-NEXT: OPC_CheckChild1Integer
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// MULINT-NEXT: OPC_RecordChild2
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// MULINT-NEXT: OPC_RecordChild3
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// MULINT-NEXT: OPC_RecordChild4
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// MULINT-NEXT: OPC_EmitMergeInputChains
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// MULINT-NEXT: OPC_MorphNodeTo1, TARGET_VAL(::MulRRI)
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// MUL: SwitchOpcode{{.*}}TARGET_VAL(ISD::MUL)
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// MUL-NEXT: OPC_EmitInteger, MVT::i32, 0
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// MUL-NEXT: OPC_RecordChild0
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// MUL-NEXT: OPC_RecordChild1
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// MUL-NEXT: OPC_MorphNodeTo1, TARGET_VAL(::MulRRI)
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