LLVM: llvm::TypedPointerType Class Reference (original) (raw)

Return true if this is a well-behaved IEEE-like type, which has a IEEE compatible layout as defined by APFloat::isIEEE(), and does not have non-IEEE values, such as x86_fp80's unnormal values.

bool

isFloatingPointTy () const

Return true if this is one of the floating-point types.

bool

isMultiUnitFPType () const

Returns true if this is a floating-point type that is an unevaluated sum of multiple floating-point units.

const fltSemantics &

getFltSemantics () const

bool

isX86_AMXTy () const

Return true if this is X86 AMX.

bool

isTargetExtTy () const

Return true if this is a target extension type.

bool

isScalableTargetExtTy () const

Return true if this is a target extension type with a scalable layout.

bool

isScalableTy (SmallPtrSetImpl< const Type * > &Visited) const

Return true if this is a type whose size is a known multiple of vscale.

bool

isScalableTy () const

bool

containsNonGlobalTargetExtType (SmallPtrSetImpl< const Type * > &Visited) const

Return true if this type is or contains a target extension type that disallows being used as a global.

bool

containsNonGlobalTargetExtType () const

bool

containsNonLocalTargetExtType (SmallPtrSetImpl< const Type * > &Visited) const

Return true if this type is or contains a target extension type that disallows being used as a local.

bool

containsNonLocalTargetExtType () const

bool

isFPOrFPVectorTy () const

Return true if this is a FP type or a vector of FP.

bool

isLabelTy () const

Return true if this is 'label'.

bool

isMetadataTy () const

Return true if this is 'metadata'.

bool

isTokenTy () const

Return true if this is 'token'.

bool

isIntegerTy () const

True if this is an instance of IntegerType.

bool

isIntegerTy (unsigned Bitwidth) const

Return true if this is an IntegerType of the given width.

bool

isIntOrIntVectorTy () const

Return true if this is an integer type or a vector of integer types.

bool

isIntOrIntVectorTy (unsigned BitWidth) const

Return true if this is an integer type or a vector of integer types of the given width.

bool

isIntOrPtrTy () const

Return true if this is an integer type or a pointer type.

bool

isFunctionTy () const

True if this is an instance of FunctionType.

bool

isStructTy () const

True if this is an instance of StructType.

bool

isArrayTy () const

True if this is an instance of ArrayType.

bool

isPointerTy () const

True if this is an instance of PointerType.

bool

isPtrOrPtrVectorTy () const

Return true if this is a pointer type or a vector of pointer types.

bool

isVectorTy () const

True if this is an instance of VectorType.

bool

isRISCVVectorTupleTy () const

bool

canLosslesslyBitCastTo (Type *Ty) const

Return true if this type could be converted with a lossless BitCast to type 'Ty'.

bool

isEmptyTy () const

Return true if this type is empty, that is, it has no elements or all of its elements are empty.

bool

isFirstClassType () const

Return true if the type is "first class", meaning it is a valid type for a Value.

bool

isSingleValueType () const

Return true if the type is a valid type for a register in codegen.

bool

isAggregateType () const

Return true if the type is an aggregate type.

bool

isSized (SmallPtrSetImpl< Type * > *Visited=nullptr) const

Return true if it makes sense to take the size of this type.

TypeSize

getPrimitiveSizeInBits () const LLVM_READONLY

Return the basic size of this type if it is a primitive type.

unsigned

getScalarSizeInBits () const LLVM_READONLY

If this is a vector type, return the getPrimitiveSizeInBits value for the element type.

int

getFPMantissaWidth () const

Return the width of the mantissa of this type.

bool

isIEEE () const

Return whether the type is IEEE compatible, as defined by the eponymous method in APFloat.

Type *

getScalarType () const

If this is a vector type, return the element type, otherwise return 'this'.

subtype_iterator

subtype_begin () const

subtype_iterator

subtype_end () const

ArrayRef< Type * >

subtypes () const

subtype_reverse_iterator

subtype_rbegin () const

subtype_reverse_iterator

subtype_rend () const

Type *

getContainedType (unsigned i) const

This method is used to implement the type iterator (defined at the end of the file).

unsigned

getNumContainedTypes () const

Return the number of types in the derived type.

unsigned

getIntegerBitWidth () const

Type *

getFunctionParamType (unsigned i) const

unsigned

getFunctionNumParams () const

bool

isFunctionVarArg () const

StringRef

getStructName () const

unsigned

getStructNumElements () const

Type *

getStructElementType (unsigned N) const

uint64_t

getArrayNumElements () const

Type *

getArrayElementType () const

StringRef

getTargetExtName () const

Type *

getWithNewType (Type *EltTy) const

Given vector type, change the element type, whilst keeping the old number of elements.

Type *

getWithNewBitWidth (unsigned NewBitWidth) const

Given an integer or vector type, change the lane bitwidth to NewBitwidth, whilst keeping the old number of lanes.

Type *

getExtendedType () const

Given scalar/vector integer type, returns a type with elements twice as wide as in the original type.

unsigned

getPointerAddressSpace () const

Get the address space of this pointer or pointer vector type.

PointerType *

getPointerTo (unsigned AddrSpace=0) const

Return a pointer to the current type.

A few GPU targets, such as DXIL and SPIR-V, have typed pointers.

This pointer type abstraction is used for tracking the types of these pointers. It is not legal to use this type, or derived types containing this type, in LLVM IR.

Definition at line 25 of file TypedPointerType.h.