//===-- SPIRVInstrInfo.td - Target Description for SPIR-V Target ----------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file describes the SPIR-V instructions in TableGen format. // //===----------------------------------------------------------------------===// include "SPIRVInstrFormats.td" include "SPIRVSymbolicOperands.td" // Codegen only metadata instructions let isCodeGenOnly=1 in { def ASSIGN_TYPE: Pseudo<(outs ANYID:$dst_id), (ins ANYID:$src_id, TYPE:$src_ty)>; def DECL_TYPE: Pseudo<(outs ANYID:$dst_id), (ins ANYID:$src_id, TYPE:$src_ty)>; def GET_ID: Pseudo<(outs ID:$dst_id), (ins ANYID:$src)>; def GET_fID: Pseudo<(outs fID:$dst_id), (ins ANYID:$src)>; def GET_pID: Pseudo<(outs pID:$dst_id), (ins ANYID:$src)>; def GET_vID: Pseudo<(outs vID:$dst_id), (ins ANYID:$src)>; def GET_vfID: Pseudo<(outs vfID:$dst_id), (ins ANYID:$src)>; } def SPVTypeBin : SDTypeProfile<1, 2, []>; def assigntype : SDNode<"SPIRVISD::AssignType", SPVTypeBin>; def : GINodeEquiv; class BinOp opCode, list pattern=[]> : Op; class BinOpTyped opCode, RegisterClass CID, SDNode node> : Op; class TernOpTyped opCode, RegisterClass CCond, RegisterClass CID, SDNode node> : Op; multiclass BinOpTypedGen opCode, SDNode node, bit genF = 0, bit genV = 0> { if genF then def S: BinOpTyped; else def S: BinOpTyped; if genV then { if genF then def V: BinOpTyped; else def V: BinOpTyped; } } multiclass TernOpTypedGen opCode, SDNode node, bit genI = 1, bit genF = 0, bit genV = 0> { if genF then { def SFSCond: TernOpTyped; def SFVCond: TernOpTyped; } if genI then { def SISCond: TernOpTyped; def SIVCond: TernOpTyped; } if genV then { if genF then { def VFSCond: TernOpTyped; def VFVCond: TernOpTyped; } if genI then { def VISCond: TernOpTyped; def VIVCond: TernOpTyped; } } } class UnOp opCode, list pattern=[]> : Op; class UnOpTyped opCode, RegisterClass CID, SDNode node> : Op; class SimpleOp opCode>: Op; // 3.42.1 Miscellaneous Instructions def OpNop: SimpleOp<"OpNop", 0>; def OpUndef: Op<1, (outs ID:$res), (ins TYPE:$type), "$res = OpUndef $type">; def OpSizeOf: Op<321, (outs ID:$res), (ins TYPE:$ty, ID:$ptr), "$res = OpSizeOf $ty $ptr">; // 3.42.2 Debug Instructions def OpSourceContinued: Op<2, (outs), (ins StringImm:$str, variable_ops), "OpSourceContinued $str">; def OpSource: Op<3, (outs), (ins SourceLanguage:$lang, i32imm:$version, variable_ops), "OpSource $lang $version">; def OpSourceExtension: Op<4, (outs), (ins StringImm:$extension, variable_ops), "OpSourceExtension $extension">; def OpName: Op<5, (outs), (ins ANY:$tar, StringImm:$name, variable_ops), "OpName $tar $name">; def OpMemberName: Op<6, (outs), (ins TYPE:$ty, i32imm:$mem, StringImm:$name, variable_ops), "OpMemberName $ty $mem $name">; def OpString: Op<7, (outs ID:$r), (ins StringImm:$s, variable_ops), "$r = OpString $s">; def OpLine: Op<8, (outs), (ins ID:$file, i32imm:$ln, i32imm:$col), "OpLine $file $ln $col">; def OpNoLine: Op<317, (outs), (ins), "OpNoLine">; def OpModuleProcessed: Op<330, (outs), (ins StringImm:$process, variable_ops), "OpModuleProcessed $process">; // 3.42.3 Annotation Instructions def OpDecorate: Op<71, (outs), (ins ANY:$target, Decoration:$dec, variable_ops), "OpDecorate $target $dec">; def OpMemberDecorate: Op<72, (outs), (ins TYPE:$t, i32imm:$m, Decoration:$d, variable_ops), "OpMemberDecorate $t $m $d">; // TODO Currently some deprecated opcodes are missing: OpDecorationGroup, // OpGroupDecorate and OpGroupMemberDecorate def OpDecorateId: Op<332, (outs), (ins ANY:$target, Decoration:$dec, variable_ops), "OpDecorateId $target $dec">; def OpDecorateString: Op<5632, (outs), (ins ANY:$t, Decoration:$d, StringImm:$s, variable_ops), "OpDecorateString $t $d $s">; def OpMemberDecorateString: Op<5633, (outs), (ins TYPE:$ty, i32imm:$mem, Decoration:$dec, StringImm:$str, variable_ops), "OpMemberDecorateString $ty $mem $dec $str">; // 3.42.4 Extension Instructions def OpExtension: Op<10, (outs), (ins StringImm:$name, variable_ops), "OpExtension $name">; def OpExtInstImport: Op<11, (outs ID:$res), (ins StringImm:$extInstsName, variable_ops), "$res = OpExtInstImport $extInstsName">; def OpExtInst: Op<12, (outs ID:$res), (ins TYPE:$ty, ID:$set, Extension:$inst, variable_ops), "$res = OpExtInst $ty $set $inst">; // 3.42.5 Mode-Setting Instructions def OpMemoryModel: Op<14, (outs), (ins AddressingModel:$addr, MemoryModel:$mem), "OpMemoryModel $addr $mem">; def OpEntryPoint: Op<15, (outs), (ins ExecutionModel:$model, ID:$entry, StringImm:$name, variable_ops), "OpEntryPoint $model $entry $name">; def OpExecutionMode: Op<16, (outs), (ins ID:$entry, ExecutionMode:$mode, variable_ops), "OpExecutionMode $entry $mode">; def OpCapability: Op<17, (outs), (ins Capability:$cap), "OpCapability $cap">; def OpExecutionModeId: Op<331, (outs), (ins ID:$entry, ExecutionMode:$mode, variable_ops), "OpExecutionModeId $entry $mode">; // 3.42.6 Type-Declaration Instructions def OpTypeVoid: Op<19, (outs TYPE:$type), (ins), "$type = OpTypeVoid">; def OpTypeBool: Op<20, (outs TYPE:$type), (ins), "$type = OpTypeBool">; def OpTypeInt: Op<21, (outs TYPE:$type), (ins i32imm:$width, i32imm:$signedness), "$type = OpTypeInt $width $signedness">; def OpTypeFloat: Op<22, (outs TYPE:$type), (ins i32imm:$width), "$type = OpTypeFloat $width">; def OpTypeVector: Op<23, (outs TYPE:$type), (ins TYPE:$compType, i32imm:$compCount), "$type = OpTypeVector $compType $compCount">; def OpTypeMatrix: Op<24, (outs TYPE:$type), (ins TYPE:$colType, i32imm:$colCount), "$type = OpTypeMatrix $colType $colCount">; def OpTypeImage: Op<25, (outs TYPE:$res), (ins TYPE:$sampTy, Dim:$dim, i32imm:$depth, i32imm:$arrayed, i32imm:$MS, i32imm:$sampled, ImageFormat:$imFormat, variable_ops), "$res = OpTypeImage $sampTy $dim $depth $arrayed $MS $sampled $imFormat">; def OpTypeSampler: Op<26, (outs TYPE:$res), (ins), "$res = OpTypeSampler">; def OpTypeSampledImage: Op<27, (outs TYPE:$res), (ins TYPE:$imageType), "$res = OpTypeSampledImage $imageType">; def OpTypeArray: Op<28, (outs TYPE:$type), (ins TYPE:$elementType, ID:$length), "$type = OpTypeArray $elementType $length">; def OpTypeRuntimeArray: Op<29, (outs TYPE:$type), (ins TYPE:$elementType), "$type = OpTypeRuntimeArray $elementType">; def OpTypeStruct: Op<30, (outs TYPE:$res), (ins variable_ops), "$res = OpTypeStruct">; def OpTypeOpaque: Op<31, (outs TYPE:$res), (ins StringImm:$name, variable_ops), "$res = OpTypeOpaque $name">; def OpTypePointer: Op<32, (outs TYPE:$res), (ins StorageClass:$storage, TYPE:$type), "$res = OpTypePointer $storage $type">; def OpTypeFunction: Op<33, (outs TYPE:$funcType), (ins TYPE:$returnType, variable_ops), "$funcType = OpTypeFunction $returnType">; def OpTypeEvent: Op<34, (outs TYPE:$res), (ins), "$res = OpTypeEvent">; def OpTypeDeviceEvent: Op<35, (outs TYPE:$res), (ins), "$res = OpTypeDeviceEvent">; def OpTypeReserveId: Op<36, (outs TYPE:$res), (ins), "$res = OpTypeReserveId">; def OpTypeQueue: Op<37, (outs TYPE:$res), (ins), "$res = OpTypeQueue">; def OpTypePipe: Op<38, (outs TYPE:$res), (ins AccessQualifier:$a), "$res = OpTypePipe $a">; def OpTypeForwardPointer: Op<39, (outs), (ins TYPE:$ptrType, StorageClass:$storageClass), "OpTypeForwardPointer $ptrType $storageClass">; def OpTypePipeStorage: Op<322, (outs TYPE:$res), (ins), "$res = OpTypePipeStorage">; def OpTypeNamedBarrier: Op<327, (outs TYPE:$res), (ins), "$res = OpTypeNamedBarrier">; def OpTypeAccelerationStructureNV: Op<5341, (outs TYPE:$res), (ins), "$res = OpTypeAccelerationStructureNV">; def OpTypeCooperativeMatrixNV: Op<5358, (outs TYPE:$res), (ins TYPE:$compType, ID:$scope, ID:$rows, ID:$cols), "$res = OpTypeCooperativeMatrixNV $compType $scope $rows $cols">; // 3.42.7 Constant-Creation Instructions def imm_to_i32 : SDNodeXFormgetTargetConstant( N->getValueAP().bitcastToAPInt().getZExtValue(), SDLoc(N), MVT::i32); }]>; def fimm_to_i32 : SDNodeXFormgetTargetConstant( N->getValueAPF().bitcastToAPInt().getZExtValue(), SDLoc(N), MVT::i32); }]>; def gi_bitcast_fimm_to_i32 : GICustomOperandRenderer<"renderFImm32">, GISDNodeXFormEquiv; def gi_bitcast_imm_to_i32 : GICustomOperandRenderer<"renderImm32">, GISDNodeXFormEquiv; def PseudoConstI: IntImmLeaf; def PseudoConstF: FPImmLeaf; def ConstPseudoTrue: IntImmLeaf; def ConstPseudoFalse: IntImmLeaf; def ConstPseudoNull: IntImmLeaf; multiclass IntFPImm opCode, string name> { def I: Op; def F: Op; } def OpConstantTrue: Op<41, (outs ID:$dst), (ins TYPE:$src_ty), "$dst = OpConstantTrue $src_ty", [(set ID:$dst, (assigntype ConstPseudoTrue, TYPE:$src_ty))]>; def OpConstantFalse: Op<42, (outs ID:$dst), (ins TYPE:$src_ty), "$dst = OpConstantFalse $src_ty", [(set ID:$dst, (assigntype ConstPseudoFalse, TYPE:$src_ty))]>; defm OpConstant: IntFPImm<43, "OpConstant">; def OpConstantComposite: Op<44, (outs ID:$res), (ins TYPE:$type, variable_ops), "$res = OpConstantComposite $type">; def OpConstantSampler: Op<45, (outs ID:$res), (ins TYPE:$t, SamplerAddressingMode:$s, i32imm:$p, SamplerFilterMode:$f), "$res = OpConstantSampler $t $s $p $f">; def OpConstantNull: Op<46, (outs ID:$dst), (ins TYPE:$src_ty), "$dst = OpConstantNull $src_ty", [(set ID:$dst, (assigntype ConstPseudoNull, TYPE:$src_ty))]>; def OpSpecConstantTrue: Op<48, (outs ID:$r), (ins TYPE:$t), "$r = OpSpecConstantTrue $t">; def OpSpecConstantFalse: Op<49, (outs ID:$r), (ins TYPE:$t), "$r = OpSpecConstantFalse $t">; def OpSpecConstant: Op<50, (outs ID:$res), (ins TYPE:$type, i32imm:$imm, variable_ops), "$res = OpSpecConstant $type $imm">; def OpSpecConstantComposite: Op<51, (outs ID:$res), (ins TYPE:$type, variable_ops), "$res = OpSpecConstantComposite $type">; def OpSpecConstantOp: Op<52, (outs ID:$res), (ins TYPE:$t, i32imm:$c, ID:$o, variable_ops), "$res = OpSpecConstantOp $t $c $o">; // 3.42.8 Memory Instructions def OpVariable: Op<59, (outs ID:$res), (ins TYPE:$type, StorageClass:$sc, variable_ops), "$res = OpVariable $type $sc">; def OpImageTexelPointer: Op<60, (outs ID:$res), (ins TYPE:$resType, ID:$image, ID:$coord, ID:$sample), "$res = OpImageTexelPointer $resType $image $coord $sample">; def OpLoad: Op<61, (outs ID:$res), (ins TYPE:$resType, ID:$pointer, variable_ops), "$res = OpLoad $resType $pointer">; def OpStore: Op<62, (outs), (ins ID:$pointer, ID:$objectToStore, variable_ops), "OpStore $pointer $objectToStore">; def OpCopyMemory: Op<63, (outs), (ins ID:$dest, ID:$src, variable_ops), "OpCopyMemory $dest $src">; def OpCopyMemorySized: Op<64, (outs), (ins ID:$dest, ID:$src, ID:$size, variable_ops), "OpCopyMemorySized $dest $src $size">; def OpAccessChain: Op<65, (outs ID:$res), (ins TYPE:$type, ID:$base, variable_ops), "$res = OpAccessChain $type $base">; def OpInBoundsAccessChain: Op<66, (outs ID:$res), (ins TYPE:$type, ID:$base, variable_ops), "$res = OpInBoundsAccessChain $type $base">; def OpPtrAccessChain: Op<67, (outs ID:$res), (ins TYPE:$type, ID:$base, ID:$element, variable_ops), "$res = OpPtrAccessChain $type $base $element">; def OpArrayLength: Op<68, (outs ID:$res), (ins TYPE:$resTy, ID:$struct, i32imm:$arrayMember), "$res = OpArrayLength $resTy $struct $arrayMember">; def OpGenericPtrMemSemantics: Op<69, (outs ID:$res), (ins TYPE:$resType, ID:$pointer), "$res = OpGenericPtrMemSemantics $resType $pointer">; def OpInBoundsPtrAccessChain: Op<70, (outs ID:$res), (ins TYPE:$type, ID:$base, ID:$element, variable_ops), "$res = OpInBoundsPtrAccessChain $type $base $element">; def OpPtrEqual: Op<401, (outs ID:$res), (ins TYPE:$resType, ID:$a, ID:$b), "$res = OpPtrEqual $resType $a $b">; def OpPtrNotEqual: Op<402, (outs ID:$res), (ins TYPE:$resType, ID:$a, ID:$b), "$res = OpPtrNotEqual $resType $a $b">; def OpPtrDiff: Op<403, (outs ID:$res), (ins TYPE:$resType, ID:$a, ID:$b), "$res = OpPtrDiff $resType $a $b">; // 3.42.9 Function Instructions def OpFunction: Op<54, (outs ID:$func), (ins TYPE:$resType, FunctionControl:$funcControl, TYPE:$funcType), "$func = OpFunction $resType $funcControl $funcType">; def OpFunctionParameter: Op<55, (outs ID:$arg), (ins TYPE:$type), "$arg = OpFunctionParameter $type">; def OpFunctionEnd: Op<56, (outs), (ins), "OpFunctionEnd"> { let isTerminator=1; } def OpFunctionCall: Op<57, (outs ID:$res), (ins TYPE:$resType, ID:$function, variable_ops), "$res = OpFunctionCall $resType $function">; // 3.42.10 Image Instructions def OpSampledImage: BinOp<"OpSampledImage", 86>; def OpImageSampleImplicitLod: Op<87, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, variable_ops), "$res = OpImageSampleImplicitLod $type $sampledImage $coord">; def OpImageSampleExplicitLod: Op<88, (outs ID:$res), (ins TYPE:$ty, ID:$sImage, ID:$uv, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSampleExplicitLod $ty $sImage $uv $op $i">; def OpImageSampleDrefImplicitLod: Op<89, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$dref, variable_ops), "$res = OpImageSampleDrefImplicitLod $type $sampledImage $dref $coord">; def OpImageSampleDrefExplicitLod: Op<90, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSampleDrefExplicitLod $ty $im $uv $d $op $i">; def OpImageSampleProjImplicitLod: Op<91, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, variable_ops), "$res = OpImageSampleProjImplicitLod $type $sampledImage $coord">; def OpImageSampleProjExplicitLod: Op<92, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSampleProjExplicitLod $ty $im $uv $op $i">; def OpImageSampleProjDrefImplicitLod: Op<93, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$dref, variable_ops), "$res = OpImageSampleProjDrefImplicitLod $type $sampledImage $dref $coord">; def OpImageSampleProjDrefExplicitLod: Op<94, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSampleProjDrefExplicitLod $ty $im $uv $d $op $i">; def OpImageFetch: Op<95, (outs ID:$res), (ins TYPE:$type, ID:$image, ID:$coord, variable_ops), "$res = OpImageFetch $type $image $coord">; def OpImageGather: Op<96, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$component, variable_ops), "$res = OpImageGather $type $sampledImage $coord $component">; def OpImageDrefGather: Op<97, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$dref, variable_ops), "$res = OpImageDrefGather $type $sampledImage $coord $dref">; def OpImageRead: Op<98, (outs ID:$res), (ins TYPE:$type, ID:$image, ID:$coord, variable_ops), "$res = OpImageRead $type $image $coord">; def OpImageWrite: Op<99, (outs), (ins ID:$image, ID:$coord, ID:$texel, variable_ops), "OpImageWrite $image $coord $texel">; def OpImage: UnOp<"OpImage", 100>; def OpImageQueryFormat: UnOp<"OpImageQueryFormat", 101>; def OpImageQueryOrder: UnOp<"OpImageQueryOrder", 102>; def OpImageQuerySizeLod: BinOp<"OpImageQuerySizeLod", 103>; def OpImageQuerySize: UnOp<"OpImageQuerySize", 104>; def OpImageQueryLod: BinOp<"OpImageQueryLod", 105>; def OpImageQueryLevels: UnOp<"OpImageQueryLevels", 106>; def OpImageQuerySamples: UnOp<"OpImageQuerySamples", 107>; def OpImageSparseSampleImplicitLod: Op<305, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, variable_ops), "$res = OpImageSparseSampleImplicitLod $type $sampledImage $coord">; def OpImageSparseSampleExplicitLod: Op<306, (outs ID:$res), (ins TYPE:$ty, ID:$sImage, ID:$uv, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSparseSampleExplicitLod $ty $sImage $uv $op $i">; def OpImageSparseSampleDrefImplicitLod: Op<307, (outs ID:$res), (ins TYPE:$type, ID:$sampledImg, ID:$coord, ID:$dref, variable_ops), "$res = OpImageSparseSampleDrefImplicitLod $type $sampledImg $dref $coord">; def OpImageSparseSampleDrefExplicitLod: Op<308, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSparseSampleDrefExplicitLod $ty $im $uv $d $op $i">; def OpImageSparseSampleProjImplicitLod: Op<309, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, variable_ops), "$res = OpImageSparseSampleProjImplicitLod $type $sampledImage $coord">; def OpImageSparseSampleProjExplicitLod: Op<310, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSparseSampleProjExplicitLod $ty $im $uv $op $i">; def OpImageSparseSampleProjDrefImplicitLod: Op<311, (outs ID:$res), (ins TYPE:$type, ID:$sImage, ID:$coord, ID:$dref, variable_ops), "$res = OpImageSparseSampleProjDrefImplicitLod $type $sImage $dref $coord">; def OpImageSparseSampleProjDrefExplicitLod: Op<312, (outs ID:$res), (ins TYPE:$ty, ID:$im, ID:$uv, ID:$d, ImageOperand:$op, ID:$i, variable_ops), "$res = OpImageSparseSampleProjDrefExplicitLod $ty $im $uv $d $op $i">; def OpImageSparseFetch: Op<313, (outs ID:$res), (ins TYPE:$type, ID:$image, ID:$coord, variable_ops), "$res = OpImageSparseFetch $type $image $coord">; def OpImageSparseGather: Op<314, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$component, variable_ops), "$res = OpImageSparseGather $type $sampledImage $coord $component">; def OpImageSparseDrefGather: Op<315, (outs ID:$res), (ins TYPE:$type, ID:$sampledImage, ID:$coord, ID:$dref, variable_ops), "$res = OpImageSparseDrefGather $type $sampledImage $coord $dref">; def OpImageSparseTexelsResident: UnOp<"OpImageSparseTexelsResident", 316>; def OpImageSparseRead: Op<320, (outs ID:$res), (ins TYPE:$type, ID:$image, ID:$coord, variable_ops), "$res = OpImageSparseRead $type $image $coord">; def OpImageSampleFootprintNV: Op<5283, (outs ID:$res), (ins TYPE:$ty, ID:$sImg, ID:$uv, ID:$granularity, ID:$coarse, variable_ops), "$res = OpImageSampleFootprintNV $ty $sImg $uv $granularity $coarse">; // 3.42.11 Conversion instructions def OpConvertFToU : UnOp<"OpConvertFToU", 109>; def OpConvertFToS : UnOp<"OpConvertFToS", 110>; def OpConvertSToF : UnOp<"OpConvertSToF", 111>; def OpConvertUToF : UnOp<"OpConvertUToF", 112>; def OpUConvert : UnOp<"OpUConvert", 113>; def OpSConvert : UnOp<"OpSConvert", 114>; def OpFConvert : UnOp<"OpFConvert", 115>; def OpQuantizeToF16 : UnOp<"OpQuantizeToF16", 116>; def OpConvertPtrToU : UnOp<"OpConvertPtrToU", 117>; def OpSatConvertSToU : UnOp<"OpSatConvertSToU", 118>; def OpSatConvertUToS : UnOp<"OpSatConvertUToS", 119>; def OpConvertUToPtr : UnOp<"OpConvertUToPtr", 120>; def OpPtrCastToGeneric : UnOp<"OpPtrCastToGeneric", 121>; def OpGenericCastToPtr : UnOp<"OpGenericCastToPtr", 122>; def OpGenericCastToPtrExplicit : Op<123, (outs ID:$r), (ins TYPE:$t, ID:$p, StorageClass:$s), "$r = OpGenericCastToPtrExplicit $t $p $s">; def OpBitcast : UnOp<"OpBitcast", 124>; // 3.42.12 Composite Instructions def OpVectorExtractDynamic: Op<77, (outs ID:$res), (ins TYPE:$type, vID:$vec, ID:$idx), "$res = OpVectorExtractDynamic $type $vec $idx", [(set ID:$res, (assigntype (extractelt vID:$vec, ID:$idx), TYPE:$type))]>; def OpVectorInsertDynamic: Op<78, (outs ID:$res), (ins TYPE:$ty, ID:$vec, ID:$comp, ID:$idx), "$res = OpVectorInsertDynamic $ty $vec $comp $idx">; def OpVectorShuffle: Op<79, (outs ID:$res), (ins TYPE:$ty, ID:$v1, ID:$v2, variable_ops), "$res = OpVectorShuffle $ty $v1 $v2">; def OpCompositeConstruct: Op<80, (outs ID:$res), (ins TYPE:$type, variable_ops), "$res = OpCompositeConstruct $type">; def OpCompositeExtract: Op<81, (outs ID:$res), (ins TYPE:$type, ID:$base, variable_ops), "$res = OpCompositeExtract $type $base">; def OpCompositeInsert: Op<82, (outs ID:$r), (ins TYPE:$ty, ID:$obj, ID:$base, variable_ops), "$r = OpCompositeInsert $ty $obj $base">; def OpCopyObject: UnOp<"OpCopyObject", 83>; def OpTranspose: UnOp<"OpTranspose", 84>; def OpCopyLogical: UnOp<"OpCopyLogical", 400>; // 3.42.13 Arithmetic Instructions def OpSNegate: UnOp<"OpSNegate", 126>; def OpFNegate: UnOpTyped<"OpFNegate", 127, fID, fneg>; def OpFNegateV: UnOpTyped<"OpFNegate", 127, vfID, fneg>; defm OpIAdd: BinOpTypedGen<"OpIAdd", 128, add, 0, 1>; defm OpFAdd: BinOpTypedGen<"OpFAdd", 129, fadd, 1, 1>; defm OpISub: BinOpTypedGen<"OpISub", 130, sub, 0, 1>; defm OpFSub: BinOpTypedGen<"OpFSub", 131, fsub, 1, 1>; defm OpIMul: BinOpTypedGen<"OpIMul", 132, mul, 0, 1>; defm OpFMul: BinOpTypedGen<"OpFMul", 133, fmul, 1, 1>; defm OpUDiv: BinOpTypedGen<"OpUDiv", 134, udiv, 0, 1>; defm OpSDiv: BinOpTypedGen<"OpSDiv", 135, sdiv, 0, 1>; defm OpFDiv: BinOpTypedGen<"OpFDiv", 136, fdiv, 1, 1>; defm OpUMod: BinOpTypedGen<"OpUMod", 137, urem, 0, 1>; defm OpSRem: BinOpTypedGen<"OpSRem", 138, srem, 0, 1>; def OpSMod: BinOp<"OpSMod", 139>; defm OpFRem: BinOpTypedGen<"OpFRem", 140, frem, 1, 1>; def OpFMod: BinOp<"OpFMod", 141>; def OpVectorTimesScalar: BinOp<"OpVectorTimesScalar", 142>; def OpMatrixTimesScalar: BinOp<"OpMatrixTimesScalar", 143>; def OpVectorTimesMatrix: BinOp<"OpVectorTimesMatrix", 144>; def OpMatrixTimesVector: BinOp<"OpMatrixTimesVector", 145>; def OpMatrixTimesMatrix: BinOp<"OpMatrixTimesMatrix", 146>; def OpOuterProduct: BinOp<"OpOuterProduct", 147>; def OpDot: BinOp<"OpDot", 148>; def OpIAddCarry: BinOpTyped<"OpIAddCarry", 149, ID, addc>; def OpISubBorrow: BinOpTyped<"OpISubBorrow", 150, ID, subc>; def OpUMulExtended: BinOp<"OpUMulExtended", 151>; def OpSMulExtended: BinOp<"OpSMulExtended", 152>; // 3.42.14 Bit Instructions defm OpShiftRightLogical: BinOpTypedGen<"OpShiftRightLogical", 194, srl, 0, 1>; defm OpShiftRightArithmetic: BinOpTypedGen<"OpShiftRightArithmetic", 195, sra, 0, 1>; defm OpShiftLeftLogical: BinOpTypedGen<"OpShiftLeftLogical", 196, shl, 0, 1>; defm OpBitwiseOr: BinOpTypedGen<"OpBitwiseOr", 197, or, 0, 1>; defm OpBitwiseXor: BinOpTypedGen<"OpBitwiseXor", 198, xor, 0, 1>; defm OpBitwiseAnd: BinOpTypedGen<"OpBitwiseAnd", 199, and, 0, 1>; def OpNot: UnOp<"OpNot", 200>; def OpBitFieldInsert: Op<201, (outs ID:$res), (ins TYPE:$ty, ID:$base, ID:$insert, ID:$offset, ID:$count), "$res = OpBitFieldInsert $ty $base $insert $offset $count">; def OpBitFieldSExtract: Op<202, (outs ID:$res), (ins TYPE:$ty, ID:$base, ID:$offset, ID:$count), "$res = OpBitFieldSExtract $ty $base $offset $count">; def OpBitFieldUExtract: Op<203, (outs ID:$res), (ins TYPE:$ty, ID:$base, ID:$offset, ID:$count), "$res = OpBitFieldUExtract $ty $base $offset $count">; def OpBitReverse: Op<204, (outs ID:$r), (ins TYPE:$ty, ID:$b), "$r = OpBitReverse $ty $b">; def OpBitCount: Op<205, (outs ID:$r), (ins TYPE:$ty, ID:$b), "$r = OpBitCount $ty $b">; // 3.42.15 Relational and Logical Instructions def OpAny: Op<154, (outs ID:$res), (ins TYPE:$ty, ID:$vec), "$res = OpAny $ty $vec">; def OpAll: Op<155, (outs ID:$res), (ins TYPE:$ty, ID:$vec), "$res = OpAll $ty $vec">; def OpIsNan: UnOp<"OpIsNan", 156>; def OpIsInf: UnOp<"OpIsInf", 157>; def OpIsFinite: UnOp<"OpIsFinite", 158>; def OpIsNormal: UnOp<"OpIsNormal", 159>; def OpSignBitSet: UnOp<"OpSignBitSet", 160>; def OpLessOrGreater: BinOp<"OpLessOrGreater", 161>; def OpOrdered: BinOp<"OpOrdered", 162>; def OpUnordered: BinOp<"OpUnordered", 163>; def OpLogicalEqual: BinOp<"OpLogicalEqual", 164>; def OpLogicalNotEqual: BinOp<"OpLogicalNotEqual", 165>; def OpLogicalOr: BinOp<"OpLogicalOr", 166>; def OpLogicalAnd: BinOp<"OpLogicalAnd", 167>; def OpLogicalNot: UnOp<"OpLogicalNot", 168>; defm OpSelect: TernOpTypedGen<"OpSelect", 169, select, 1, 1, 1>; def OpIEqual: BinOp<"OpIEqual", 170>; def OpINotEqual: BinOp<"OpINotEqual", 171>; def OpUGreaterThan: BinOp<"OpUGreaterThan", 172>; def OpSGreaterThan: BinOp<"OpSGreaterThan", 173>; def OpUGreaterThanEqual: BinOp<"OpUGreaterThanEqual", 174>; def OpSGreaterThanEqual: BinOp<"OpSGreaterThanEqual", 175>; def OpULessThan: BinOp<"OpULessThan", 176>; def OpSLessThan: BinOp<"OpSLessThan", 177>; def OpULessThanEqual: BinOp<"OpULessThanEqual", 178>; def OpSLessThanEqual: BinOp<"OpSLessThanEqual", 179>; def OpFOrdEqual: BinOp<"OpFOrdEqual", 180>; def OpFUnordEqual: BinOp<"OpFUnordEqual", 181>; def OpFOrdNotEqual: BinOp<"OpFOrdNotEqual", 182>; def OpFUnordNotEqual: BinOp<"OpFUnordNotEqual", 183>; def OpFOrdLessThan: BinOp<"OpFOrdLessThan", 184>; def OpFUnordLessThan: BinOp<"OpFUnordLessThan", 185>; def OpFOrdGreaterThan: BinOp<"OpFOrdGreaterThan", 186>; def OpFUnordGreaterThan: BinOp<"OpFUnordGreaterThan", 187>; def OpFOrdLessThanEqual: BinOp<"OpFOrdLessThanEqual", 188>; def OpFUnordLessThanEqual: BinOp<"OpFUnordLessThanEqual", 189>; def OpFOrdGreaterThanEqual: BinOp<"OpFOrdGreaterThanEqual", 190>; def OpFUnordGreaterThanEqual: BinOp<"OpFUnordGreaterThanEqual", 191>; // 3.42.16 Derivative Instructions def OpDPdx: UnOp<"OpDPdx", 207>; def OpDPdy: UnOp<"OpDPdy", 208>; def OpFwidth: UnOp<"OpFwidth", 209>; def OpDPdxFine: UnOp<"OpDPdxFine", 210>; def OpDPdyFine: UnOp<"OpDPdyFine", 211>; def OpFwidthFine: UnOp<"OpFwidthFine", 212>; def OpDPdxCoarse: UnOp<"OpDPdxCoarse", 213>; def OpDPdyCoarse: UnOp<"OpDPdyCoarse", 214>; def OpFwidthCoarse: UnOp<"OpFwidthCoarse", 215>; // 3.42.17 Control-Flow Instructions def OpPhi: Op<245, (outs ID:$res), (ins TYPE:$type, ID:$var0, ID:$block0, variable_ops), "$res = OpPhi $type $var0 $block0">; def OpLoopMerge: Op<246, (outs), (ins ID:$merge, ID:$continue, LoopControl:$lc, variable_ops), "OpLoopMerge $merge $merge $continue $lc">; def OpSelectionMerge: Op<247, (outs), (ins ID:$merge, SelectionControl:$sc), "OpSelectionMerge $merge $sc">; def OpLabel: Op<248, (outs ID:$label), (ins), "$label = OpLabel">; let isTerminator=1 in { def OpBranch: Op<249, (outs), (ins ID:$label), "OpBranch $label">; def OpBranchConditional: Op<250, (outs), (ins ID:$cond, ID:$true, ID:$false, variable_ops), "OpBranchConditional $cond $true $false">; def OpSwitch: Op<251, (outs), (ins ID:$sel, ID:$dflt, variable_ops), "OpSwitch $sel $dflt">; } let isReturn = 1, hasDelaySlot=0, isBarrier = 0, isTerminator=1, isNotDuplicable = 1 in { def OpKill: SimpleOp<"OpKill", 252>; def OpReturn: SimpleOp<"OpReturn", 253>; def OpReturnValue: Op<254, (outs), (ins ANYID:$ret), "OpReturnValue $ret">; def OpUnreachable: SimpleOp<"OpUnreachable", 255>; } def OpLifetimeStart: Op<256, (outs), (ins ID:$ptr, i32imm:$sz), "OpLifetimeStart $ptr, $sz">; def OpLifetimeStop: Op<257, (outs), (ins ID:$ptr, i32imm:$sz), "OpLifetimeStop $ptr, $sz">; // 3.42.18 Atomic Instructions class AtomicOp opCode>: Op; class AtomicOpVal opCode>: Op; def OpAtomicLoad: AtomicOp<"OpAtomicLoad", 227>; def OpAtomicStore: Op<228, (outs), (ins ID:$ptr, ID:$sc, ID:$sem, ID:$val), "OpAtomicStore $ptr $sc $sem $val">; def OpAtomicExchange: Op<229, (outs ID:$res), (ins TYPE:$ty, ID:$ptr, ID:$sc, ID:$sem, ID:$val), "$res = OpAtomicExchange $ty $ptr $sc $sem $val">; def OpAtomicCompareExchange: Op<230, (outs ID:$res), (ins TYPE:$ty, ID:$ptr, ID:$sc, ID:$eq, ID:$neq, ID:$val, ID:$cmp), "$res = OpAtomicCompareExchange $ty $ptr $sc $eq $neq $val $cmp">; def OpAtomicCompareExchangeWeak: Op<231, (outs ID:$res), (ins TYPE:$ty, ID:$ptr, ID:$sc, ID:$eq, ID:$neq, ID:$val, ID:$cmp), "$res = OpAtomicCompareExchangeWeak $ty $ptr $sc $eq $neq $val $cmp">; def OpAtomicIIncrement: AtomicOp<"OpAtomicIIncrement", 232>; def OpAtomicIDecrement: AtomicOp<"OpAtomicIDecrement", 233>; def OpAtomicIAdd: AtomicOpVal<"OpAtomicIAdd", 234>; def OpAtomicISub: AtomicOpVal<"OpAtomicISub", 235>; def OpAtomicSMin: AtomicOpVal<"OpAtomicSMin", 236>; def OpAtomicUMin: AtomicOpVal<"OpAtomicUMin", 237>; def OpAtomicSMax: AtomicOpVal<"OpAtomicSMax", 238>; def OpAtomicUMax: AtomicOpVal<"OpAtomicUMax", 239>; def OpAtomicAnd: AtomicOpVal<"OpAtomicAnd", 240>; def OpAtomicOr: AtomicOpVal<"OpAtomicOr", 241>; def OpAtomicXor: AtomicOpVal<"OpAtomicXor", 242>; def OpAtomicFlagTestAndSet: AtomicOp<"OpAtomicFlagTestAndSet", 318>; def OpAtomicFlagClear: Op<319, (outs), (ins ID:$ptr, ID:$sc, ID:$sem), "OpAtomicFlagClear $ptr $sc $sem">; // 3.42.19 Primitive Instructions def OpEmitVertex: SimpleOp<"OpEmitVertex", 218>; def OpEndPrimitive: SimpleOp<"OpEndPrimitive", 219>; def OpEmitStreamVertex: Op<220, (outs), (ins ID:$stream), "OpEmitStreamVertex $stream">; def OpEndStreamPrimitive: Op<221, (outs), (ins ID:$stream), "OpEndStreamPrimitive $stream">; // 3.42.20 Barrier Instructions def OpControlBarrier: Op<224, (outs), (ins ID:$exec, ID:$mem, ID:$sem), "OpControlBarrier $exec $mem $sem">; def OpMemoryBarrier: Op<225, (outs), (ins ID:$mem, ID:$sem), "OpMemoryBarrier $mem $sem">; def OpNamedBarrierInitialize: UnOp<"OpNamedBarrierInitialize", 328>; def OpMemoryNamedBarrier: Op<329, (outs), (ins ID:$barr, ID:$mem, ID:$sem), "OpMemoryNamedBarrier $barr $mem $sem">; // 3.42.21. Group and Subgroup Instructions def OpGroupAsyncCopy: Op<259, (outs ID:$res), (ins TYPE:$ty, ID:$scope, ID:$dst, ID:$src, ID:$nelts, ID:$stride, ID:$event), "$res = OpGroupAsyncCopy $ty $scope $dst $src $nelts $stride $event">; def OpGroupWaitEvents: Op<260, (outs), (ins ID:$scope, ID:$nelts, ID:$elist), "OpGroupWaitEvents $scope $nelts $elist">; def OpGroupAll: Op<261, (outs ID:$res), (ins TYPE:$ty, ID:$scope, ID:$pr), "$res = OpGroupAll $ty $scope $pr">; def OpGroupAny: Op<262, (outs ID:$res), (ins TYPE:$ty, ID:$scope, ID:$pr), "$res = OpGroupAny $ty $scope $pr">; def OpGroupBroadcast: Op<263, (outs ID:$res), (ins TYPE:$ty, ID:$scope, ID:$val, ID:$id), "$res = OpGroupBroadcast $ty $scope $val $id">; class OpGroup opCode>: Op; def OpGroupIAdd: OpGroup<"IAdd", 264>; def OpGroupFAdd: OpGroup<"FAdd", 265>; def OpGroupFMin: OpGroup<"FMin", 266>; def OpGroupUMin: OpGroup<"UMin", 267>; def OpGroupSMin: OpGroup<"SMin", 268>; def OpGroupFMax: OpGroup<"FMax", 269>; def OpGroupUMax: OpGroup<"UMax", 270>; def OpGroupSMax: OpGroup<"SMax", 271>; // TODO: 3.42.22. Device-Side Enqueue Instructions def OpEnqueueKernel: Op<292, (outs ID:$res), (ins TYPE:$type, ID:$queue, ID:$flags, ID:$NDR, ID:$nevents, ID:$wevents, ID:$revent, ID:$invoke, ID:$param, ID:$psize, ID:$palign, variable_ops), "$res = OpEnqueueKernel $type $queue $flags $NDR $nevents $wevents $revent $invoke $param $psize $palign">; def OpRetainEvent: Op<297, (outs), (ins ID:$event), "OpRetainEvent $event">; def OpReleaseEvent: Op<298, (outs), (ins ID:$event), "OpReleaseEvent $event">; def OpCreateUserEvent: Op<299, (outs ID:$res), (ins TYPE:$type), "$res = OpCreateUserEvent $type">; def OpIsValidEvent: Op<300, (outs ID:$res), (ins TYPE:$type, ID:$event), "$res = OpIsValidEvent $type $event ">; def OpSetUserEventStatus: Op<301, (outs), (ins ID:$event, ID:$status), "OpSetUserEventStatus $event $status">; def OpCaptureEventProfilingInfo: Op<302, (outs), (ins ID:$event, ID:$info, ID:$value), "OpCaptureEventProfilingInfo $event $info $value">; def OpGetDefaultQueue: Op<303, (outs ID:$res), (ins TYPE:$type), "$res = OpGetDefaultQueue $type">; def OpBuildNDRange: Op<304, (outs ID:$res), (ins TYPE:$type, ID:$GWS, ID:$LWS, ID:$GWO), "$res = OpBuildNDRange $type $GWS $LWS $GWO">; // TODO: 3.42.23. Pipe Instructions // 3.42.24. Non-Uniform Instructions def OpGroupNonUniformElect: Op<333, (outs ID:$res), (ins TYPE:$ty, ID:$scope), "$res = OpGroupNonUniformElect $ty $scope">; class OpGroupNU3 opCode>: Op; class OpGroupNU4 opCode>: Op; def OpGroupNonUniformAll: OpGroupNU3<"All", 334>; def OpGroupNonUniformAny: OpGroupNU3<"Any", 335>; def OpGroupNonUniformAllEqual: OpGroupNU3<"AllEqual", 336>; def OpGroupNonUniformBroadcast: OpGroupNU4<"Broadcast", 337>; def OpGroupNonUniformBroadcastFirst: OpGroupNU3<"BroadcastFirst", 338>; def OpGroupNonUniformBallot: OpGroupNU3<"Ballot", 339>; def OpGroupNonUniformInverseBallot: OpGroupNU3<"InverseBallot", 340>; def OpGroupNonUniformBallotBitExtract: OpGroupNU4<"BallotBitExtract", 341>; def OpGroupNonUniformBallotBitCount: Op<342, (outs ID:$res), (ins TYPE:$ty, ID:$scope, GroupOperation:$groupOp, ID:$val), "$res = OpGroupNonUniformBallotBitCount " "$ty $scope $groupOp $val">; def OpGroupNonUniformBallotFindLSB: OpGroupNU3<"BallotFindLSB", 343>; def OpGroupNonUniformBallotFindMSB: OpGroupNU3<"BallotFindMSB", 344>; def OpGroupNonUniformShuffle: OpGroupNU4<"Shuffle", 345>; def OpGroupNonUniformShuffleXor: OpGroupNU4<"ShuffleXor", 346>; def OpGroupNonUniformShuffleUp: OpGroupNU4<"ShuffleUp", 347>; def OpGroupNonUniformShuffleDown: OpGroupNU4<"ShuffleDown", 348>; class OpGroupNUGroup opCode>: Op; def OpGroupNonUniformIAdd: OpGroupNUGroup<"IAdd", 349>; def OpGroupNonUniformFAdd: OpGroupNUGroup<"FAdd", 350>; def OpGroupNonUniformIMul: OpGroupNUGroup<"IMul", 351>; def OpGroupNonUniformFMul: OpGroupNUGroup<"FMul", 352>; def OpGroupNonUniformSMin: OpGroupNUGroup<"SMin", 353>; def OpGroupNonUniformUMin: OpGroupNUGroup<"UMin", 354>; def OpGroupNonUniformFMin: OpGroupNUGroup<"FMin", 355>; def OpGroupNonUniformSMax: OpGroupNUGroup<"SMax", 356>; def OpGroupNonUniformUMax: OpGroupNUGroup<"UMax", 357>; def OpGroupNonUniformFMax: OpGroupNUGroup<"FMax", 358>; def OpGroupNonUniformBitwiseAnd: OpGroupNUGroup<"BitwiseAnd", 359>; def OpGroupNonUniformBitwiseOr: OpGroupNUGroup<"BitwiseOr", 360>; def OpGroupNonUniformBitwiseXor: OpGroupNUGroup<"BitwiseXor", 361>; def OpGroupNonUniformLogicalAnd: OpGroupNUGroup<"LogicalAnd", 362>; def OpGroupNonUniformLogicalOr: OpGroupNUGroup<"LogicalOr", 363>; def OpGroupNonUniformLogicalXor: OpGroupNUGroup<"LogicalXor", 364>;