<?xml version="1.0" encoding="utf-8"?>
<!--
Visual Studio Native Debugging Visualizers for LLVM
For Visual Studio 2013 only, put this file into
"%USERPROFILE%\Documents\Visual Studio 2013\Visualizers" or create a symbolic link so it updates automatically.
For later versions of Visual Studio, no setup is required.
-->
<AutoVisualizer xmlns="http://schemas.microsoft.com/vstudio/debugger/natvis/2010">
<Type Name="llvm::SmallVectorImpl<*>">
<DisplayString Condition="Size == 0">empty</DisplayString>
<DisplayString Condition="Size && Size < 4">{(value_type*)BeginX,[Size]}</DisplayString>
<DisplayString Condition="Size > 3">{Size} elements</DisplayString>
<DisplayString>Uninitialized</DisplayString>
<Expand>
<Item Name="[size]">Size</Item>
<Item Name="[capacity]">Capacity</Item>
<ArrayItems>
<Size>Size</Size>
<ValuePointer>(value_type*)BeginX</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::APInt">
<!-- For now, only handle up to 64-bit unsigned ints -->
<DisplayString Condition="BitWidth <= 64">{U.VAL}</DisplayString>
<DisplayString>Cannot visualize APInts longer than 64 bits</DisplayString>
</Type>
<Type Name="llvm::ArrayRef<*>">
<DisplayString Condition="Length < 4">{Data,[Length]}</DisplayString>
<DisplayString Condition="Length > 3">{Length} elements</DisplayString>
<DisplayString>Uninitialized</DisplayString>
<Expand>
<Item Name="[size]">Length</Item>
<ArrayItems>
<Size>Length</Size>
<ValuePointer>Data</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::SmallString<*>">
<DisplayString>{(const char*)BeginX,[Size]s8}</DisplayString>
<StringView>(const char*)BeginX,[Size]</StringView>
<Expand>
<Item Name="[size]">Size</Item>
<Item Name="[capacity]">Capacity</Item>
<ArrayItems>
<Size>Size</Size>
<ValuePointer>(char*)BeginX</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="StringView">
<DisplayString>{First,[Last - First]s8}</DisplayString>
</Type>
<Type Name="llvm::StringRef">
<DisplayString>{Data,[Length]s8}</DisplayString>
<StringView>Data,[Length]s8</StringView>
<Expand>
<Item Name="[size]">Length</Item>
<ArrayItems>
<Size>Length</Size>
<ValuePointer>Data</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::PunnedPointer">
<DisplayString>{($T1)*(intptr_t *)Data}</DisplayString>
</Type>
<!-- PointerIntPair. In addition to the regular view, it is possible to view
just the pointer or just the int. The same code is duplicated from the
regular viewer to improve the performance of the common case. Note, we
need to specify PointerIntPair<PointerUnion<*>, *> differently because
we need to "look through" the PointerUnion to display it. Otherwise, we
get errors about ambiguous conversion from uintptr_t to PointerUnion.-->
<Type Name="llvm::PointerIntPair<llvm::PointerUnion<*>, *>">
<!-- $T1 is the parameter pack of PointerUnion, $T3 is IntBits,
$T4 is IntType, $T5 is PtrTraits, and $T6 is Info. -->
<DisplayString IncludeView="ptr">{($T1)(*(intptr_t *)Value.Data & $T6::PointerBitMask)}</DisplayString>
<DisplayString IncludeView="int">{($T4)((*(intptr_t *)Value.Data >> $T6::IntShift) & $T6::IntMask)}</DisplayString>
<DisplayString>{$T6::IntMask}: {($T1)(*(intptr_t *)Value.Data & $T6::PointerBitMask)} [{($T4)((*(intptr_t *)Value.Data >> $T6::IntShift) & $T6::IntMask)}]</DisplayString>
<Expand>
<Item Name="[ptr]">($T1)(*(intptr_t *)Value.Data & $T6::PointerBitMask)</Item>
<Item Name="[int]">($T4)((*(intptr_t *)Value.Data >> $T6::IntShift) & $T6::IntMask)</Item>
</Expand>
</Type>
<Type Name="llvm::PointerIntPair<*>">
<DisplayString IncludeView="ptr">{($T1)(*(intptr_t *)Value.Data & $T5::PointerBitMask)}</DisplayString>
<DisplayString IncludeView="int">{((*(intptr_t *)Value.Data >> $T5::IntShift) & $T5::IntMask)}</DisplayString>
<DisplayString>{$T5::IntMask}: {($T1)(*(intptr_t *)Value.Data & $T5::PointerBitMask)} [{((*(intptr_t *)Value.Data >> $T5::IntShift) & $T5::IntMask)}]</DisplayString>
<Expand>
<Item Name="[ptr]">($T1)(*(intptr_t *)Value.Data & $T5::PointerBitMask)</Item>
<Item Name="[int]">((*(intptr_t *)Value.Data >> $T5::IntShift) & $T5::IntMask)</Item>
</Expand>
</Type>
<!-- PointerUnion types -->
<Type Name="llvm::pointer_union_detail::PointerUnionMembers<*>">
<DisplayString Optional="true" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 0">
{($T4)(*(intptr_t *)Val.Value.Data & $T2::InfoTy::PointerBitMask)}
</DisplayString>
<DisplayString Optional="true" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 1">
{($T5)(*(intptr_t *)Val.Value.Data & $T2::InfoTy::PointerBitMask)}
</DisplayString>
<DisplayString>Unexpected index in PointerUnion: {(*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask}</DisplayString>
<Expand>
<Item Name="[Holds]" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 0">"$T4",s8b</Item>
<Item Name="[Ptr]" Optional="true" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 0">
($T4)(*(intptr_t *)Val.Value.Data & $T2::InfoTy::PointerBitMask)
</Item>
<Item Name="[Holds]" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 1">"$T5",s8b</Item>
<Item Name="[Ptr]" Optional="true" Condition="((*(intptr_t *)Val.Value.Data>>$T2::InfoTy::IntShift) & $T2::InfoTy::IntMask) == 1">
($T5)(*(intptr_t *)Val.Value.Data & $T2::InfoTy::PointerBitMask)
</Item>
</Expand>
</Type>
<Type Name="llvm::iplist<*,*>">
<DisplayString Condition="Head == 0">{{ empty }}</DisplayString>
<DisplayString Condition="Head != 0">{{ head={Head} }}</DisplayString>
<Expand>
<LinkedListItems>
<HeadPointer>Head</HeadPointer>
<NextPointer>Next</NextPointer>
<ValueNode>this</ValueNode>
</LinkedListItems>
</Expand>
</Type>
<Type Name="llvm::IntrusiveRefCntPtr<*>">
<DisplayString Condition="Obj == 0">empty</DisplayString>
<DisplayString Condition="(Obj != 0) && (Obj->RefCount == 1)">RefPtr [1 ref] {*Obj}</DisplayString>
<DisplayString Condition="(Obj != 0) && (Obj->RefCount != 1)">RefPtr [{Obj->RefCount} refs] {*Obj}</DisplayString>
<Expand>
<Item Condition="Obj != 0" Name="[refs]">Obj->RefCount</Item>
<ExpandedItem Condition="Obj != 0">Obj</ExpandedItem>
</Expand>
</Type>
<Type Name="llvm::SmallPtrSet<*,*>">
<DisplayString Condition="CurArray == SmallArray">{{ [Small Mode] size={NumNonEmpty}, capacity={CurArraySize} }}</DisplayString>
<DisplayString Condition="CurArray != SmallArray">{{ [Big Mode] size={NumNonEmpty}, capacity={CurArraySize} }}</DisplayString>
<Expand>
<Item Name="[size]">NumNonEmpty</Item>
<Item Name="[capacity]">CurArraySize</Item>
<ArrayItems>
<Size>NumNonEmpty</Size>
<ValuePointer>($T1*)CurArray</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::DenseMap<*,*,*>">
<DisplayString Condition="NumEntries == 0">empty</DisplayString>
<DisplayString Condition="NumEntries != 0">{{ size={NumEntries}, buckets={NumBuckets} }}</DisplayString>
<Expand>
<Item Name="[size]">NumEntries</Item>
<Item Name="[buckets]">NumBuckets</Item>
<ArrayItems>
<Size>NumBuckets</Size>
<ValuePointer>Buckets</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::StringMap<*,*>">
<DisplayString>{{ size={NumItems}, buckets={NumBuckets} }}</DisplayString>
<Expand>
<Item Name="[size]">NumItems</Item>
<Item Name="[buckets]">NumBuckets</Item>
<ArrayItems>
<Size>NumBuckets</Size>
<ValuePointer>(MapEntryTy**)TheTable</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::StringMapEntry<*>">
<DisplayString Condition="keyLength == 0">empty</DisplayString>
<DisplayString Condition="keyLength != 0">({this+1,s8}, {second})</DisplayString>
<Expand>
<Item Name="[key]">this+1,s</Item>
<Item Name="[value]" Condition="keyLength != 0">second</Item>
</Expand>
</Type>
<Type Name="llvm::Triple">
<DisplayString>{Data}</DisplayString>
</Type>
<Type Name="llvm::Optional<*>">
<DisplayString Condition="!Storage.hasVal">None</DisplayString>
<DisplayString Condition="Storage.hasVal">{Storage.value}</DisplayString>
<Expand>
<Item Name="[underlying]" Condition="Storage.hasVal">Storage.value</Item>
</Expand>
</Type>
<Type Name="llvm::Expected<*>">
<DisplayString Condition="HasError">Error</DisplayString>
<DisplayString Condition="!HasError">{*((storage_type *)TStorage.buffer)}</DisplayString>
<Expand>
<Item Name="[value]" Condition="!HasError">*((storage_type *)TStorage.buffer)</Item>
<Item Name="[error]" Condition="HasError">*((error_type *)ErrorStorage.buffer)</Item>
</Expand>
</Type>
<!-- Since we're in MSVC, we can assume that the system is little endian. Therefore
the little and native cases just require a cast. Handle this easy case first. Use
a wildcard for the second template argument (the endianness), but we will use a
specific value of 0 later on for the big endian to give it priority for being a
better match. -->
<Type Name="llvm::support::detail::packed_endian_specific_integral<*,*,1>">
<DisplayString>{{little endian value = {*(($T1*)(unsigned char *)Value.buffer)} }}</DisplayString>
<Expand>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==1">(unsigned char *)Value.buffer,1</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==2">(unsigned char *)Value.buffer,2</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==4">(unsigned char *)Value.buffer,4</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==8">(unsigned char *)Value.buffer,8</Item>
</Expand>
</Type>
<!-- Now handle the hard case of big endian. We need to do the swizzling here, but
we need to specialize it based on the size of the value type. -->
<Type Name="llvm::support::detail::packed_endian_specific_integral<*,0,1>">
<DisplayString Condition="sizeof($T1)==1">{{ big endian value = {*(unsigned char *)Value.buffer} }}</DisplayString>
<DisplayString Condition="sizeof($T1)==2">{{ big endian value = {(($T1)(*(unsigned char *)Value.buffer) << 8)
| ($T1)(*((unsigned char *)Value.buffer+1))} }}</DisplayString>
<DisplayString Condition="sizeof($T1)==4">{{ big endian value = {(($T1)(*(unsigned char *)Value.buffer) << 24)
| (($T1)(*((unsigned char *)Value.buffer+1)) << 16)
| (($T1)(*((unsigned char *)Value.buffer+2)) << 8)
| ($T1)(*((unsigned char *)Value.buffer+3))} }}</DisplayString>
<DisplayString Condition="sizeof($T1)==8">{{ big endian value = {(($T1)(*(unsigned char *)Value.buffer) << 56)
| (($T1)(*((unsigned char *)Value.buffer+1)) << 48)
| (($T1)(*((unsigned char *)Value.buffer+2)) << 40)
| (($T1)(*((unsigned char *)Value.buffer+3)) << 32)
| (($T1)(*((unsigned char *)Value.buffer+4)) << 24)
| (($T1)(*((unsigned char *)Value.buffer+5)) << 16)
| (($T1)(*((unsigned char *)Value.buffer+6)) << 8)
| ($T1)(*((unsigned char *)Value.buffer+7))} }}</DisplayString>
<Expand>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==1">(unsigned char *)Value.buffer,1</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==2">(unsigned char *)Value.buffer,2</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==4">(unsigned char *)Value.buffer,4</Item>
<Item Name="[Raw Bytes]" Condition="sizeof($T1)==8">(unsigned char *)Value.buffer,8</Item>
</Expand>
</Type>
<!-- llvm::Type has two fields, SubclassData and ContainedTys, the meaning of which change depending on the TypeID.
This visualiser decodes those fields based on the value of ID.
-->
<Type Name="llvm::Type">
<DisplayString>{ID}</DisplayString>
<Expand>
<Item Name="ID">ID</Item>
<Item Name="NumBits" Condition="ID == llvm::Type::TypeID::IntegerTyID">SubclassData</Item>
<Item Name="ReturnType" Condition="ID == llvm::Type::TypeID::FunctionTyID">*ContainedTys</Item>
<Synthetic Name="Arguments" Condition="ID == llvm::Type::TypeID::FunctionTyID">
<DisplayString>{NumContainedTys - 1}</DisplayString>
<Expand>
<ArrayItems>
<Size>NumContainedTys - 1</Size>
<ValuePointer>ContainedTys + 1</ValuePointer>
</ArrayItems>
</Expand>
</Synthetic>
<Item Name="IsVarArg" Condition="ID == llvm::Type::TypeID::FunctionTyID">SubclassData == 1</Item>
<Item Name="HasBody" Condition="ID == llvm::Type::TypeID::StructTyID">(SubclassData & llvm::StructType::SCDB_HasBody) != 0</Item>
<Item Name="Packed" Condition="ID == llvm::Type::TypeID::StructTyID">(SubclassData & llvm::StructType::SCDB_Packed) != 0</Item>
<Item Name="IsLiteral" Condition="ID == llvm::Type::TypeID::StructTyID">(SubclassData & llvm::StructType::SCDB_IsLiteral) != 0</Item>
<Item Name="IsSized" Condition="ID == llvm::Type::TypeID::StructTyID">(SubclassData & llvm::StructType::SCDB_IsSized) != 0</Item>
<Synthetic Name="Members" Condition="ID == llvm::Type::TypeID::StructTyID">
<DisplayString>{NumContainedTys}</DisplayString>
<Expand>
<ArrayItems>
<Size>NumContainedTys</Size>
<ValuePointer>ContainedTys</ValuePointer>
</ArrayItems>
</Expand>
</Synthetic>
<Item Name="ElementType" Condition="ID == llvm::Type::TypeID::ArrayTyID">*ContainedTys</Item>
<Item Name="NumElements" Condition="ID == llvm::Type::TypeID::ArrayTyID">((llvm::ArrayType*)this)->NumElements</Item>
<Item Name="ElementType" Condition="ID == llvm::Type::TypeID::FixedVectorTyID">*ContainedTys</Item>
<Item Name="NumElements" Condition="ID == llvm::Type::TypeID::FixedVectorTyID">((llvm::VectorType*)this)->ElementQuantity</Item>
<Item Name="ElementType" Condition="ID == llvm::Type::TypeID::ScalableVectorTyID">*ContainedTys</Item>
<Item Name="MinNumElements" Condition="ID == llvm::Type::TypeID::ScalableVectorTyID">((llvm::VectorType*)this)->ElementQuantity</Item>
<Item Name="AddressSpace" Condition="ID == llvm::Type::TypeID::PointerTyID">SubclassData</Item>
<Item Name="PointeeType" Condition="ID == llvm::Type::TypeID::PointerTyID">*ContainedTys</Item>
<Item Name="Context">Context</Item>
</Expand>
</Type>
<Type Name="llvm::ConstantSDNode">
<DisplayString>$(Type) {*Value}</DisplayString>
</Type>
<Type Name="llvm::SDNode">
<DisplayString>$(Type) {(llvm::ISD::NodeType)this->NodeType}</DisplayString>
<Expand>
<ArrayItems>
<Size>NumOperands</Size>
<ValuePointer>OperandList</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::ConstantInt">
<DisplayString>i{Val.BitWidth} {Val.VAL}</DisplayString>
</Type>
<Type Name="llvm::IntegerType">
<DisplayString>{IDAndSubclassData >> 8}bit integer type</DisplayString>
</Type>
<Type Name="llvm::Value">
<DisplayString Condition="HasName">$(Type) {*VTy} {this->getName()} {SubclassData}</DisplayString>
<DisplayString Condition="!HasName">$(Type) {*VTy} anon {SubclassData}</DisplayString>
<Expand>
<Item Name="[Inst]" Condition="SubclassID > InstructionVal">(Instruction*)this</Item>
<Item Name="Operands">(User*)this</Item>
<LinkedListItems>
<HeadPointer>UseList</HeadPointer>
<NextPointer>Next</NextPointer>
<ValueNode>Prev.Value & 3 == 3 ? (User*)(this + 1) : (User*)(this + 2)</ValueNode>
</LinkedListItems>
</Expand>
</Type>
<Type Name="llvm::Use">
<Expand>
<Item Name="Value">Val</Item>
<!--
<LinkedListItems>
<HeadPointer>this</HeadPointer>
<NextPointer>Next</NextPointer>
<ValueNode>Prev.Value & 3 == 3 ? (User*)(this + 1) : (User*)(this + 2)</ValueNode>
</LinkedListItems>
-->
</Expand>
</Type>
<!-- uses other values, like Operands -->
<Type Name="llvm::User">
<DisplayString Condition="HasName">$(Type) {*VTy} {this->getName()} {SubclassData}</DisplayString>
<DisplayString Condition="!HasName">$(Type) {*VTy} anon {SubclassData}</DisplayString>
<Expand>
<Item Name="[Value]">(Value*)this,nd</Item>
<Item Name="[Type]">*VTy</Item>
<ArrayItems Condition="!HasHungOffUses">
<Size>NumUserOperands</Size>
<ValuePointer>(llvm::Use*)this - NumUserOperands</ValuePointer>
</ArrayItems>
<ArrayItems Condition="HasHungOffUses">
<Size>NumUserOperands</Size>
<ValuePointer>*((llvm::Use**)this - 1)</ValuePointer>
</ArrayItems>
</Expand>
</Type>
<Type Name="llvm::Instruction">
<DisplayString>{getOpcodeName(SubclassID - InstructionVal)}</DisplayString>
<Expand>
<Item Name="[User]">(User*)this,nd</Item>
</Expand>
</Type>
<Type Name="llvm::GlobalValue">
<DisplayString>{this->getName()} {(LinkageTypes)Linkage} {(VisibilityTypes)Visibility} {(DLLStorageClassTypes)DllStorageClass} {(llvm::GlobalValue::ThreadLocalMode) ThreadLocal}</DisplayString>
</Type>
<!-- TODO doesn't work cause it doesn't know the dynamic type -->
<Type Name="llvm::ilist_node">
<Expand>
<LinkedListItems>
<HeadPointer>this</HeadPointer>
<NextPointer>Next</NextPointer>
<ValueNode>this</ValueNode>
</LinkedListItems>
</Expand>
</Type>
<Type Name="llvm::LLVMContext">
<Expand>
<ExpandedItem>pImpl</ExpandedItem>
</Expand>
</Type>
<Type Name="llvm::Module">
<DisplayString>{ModuleID,s8} {TargetTriple}</DisplayString>
</Type>
<Type Name="llvm::Pass">
<DisplayString>$(Type) {PassID} {Kind}</DisplayString>
</Type>
</AutoVisualizer>