clang::ImplicitCastExpr Class Reference

ImplicitCastExpr - Allows us to explicitly represent implicit type conversions, which have no direct representation in the original source code. More...

#include "clang/AST/Expr.h"

Inheritance diagram for clang::ImplicitCastExpr:

Public Types
enum	OnStack_t { OnStack }
Public Types inherited from clang::CastExpr
typedef CXXBaseSpecifier **	path_iterator
typedef const CXXBaseSpecifier *const *	path_const_iterator
Public Types inherited from clang::Expr
enum	LValueClassification {   LV_Valid , LV_NotObjectType , LV_IncompleteVoidType , LV_DuplicateVectorComponents ,   LV_InvalidExpression , LV_InvalidMessageExpression , LV_MemberFunction , LV_SubObjCPropertySetting ,   LV_ClassTemporary , LV_ArrayTemporary }
enum	isModifiableLvalueResult {   MLV_Valid , MLV_NotObjectType , MLV_IncompleteVoidType , MLV_DuplicateVectorComponents ,   MLV_InvalidExpression , MLV_LValueCast , MLV_IncompleteType , MLV_ConstQualified ,   MLV_ConstQualifiedField , MLV_ConstAddrSpace , MLV_ArrayType , MLV_NoSetterProperty ,   MLV_MemberFunction , MLV_SubObjCPropertySetting , MLV_InvalidMessageExpression , MLV_ClassTemporary ,   MLV_ArrayTemporary }
enum	SideEffectsKind { SE_NoSideEffects , SE_AllowUndefinedBehavior , SE_AllowSideEffects }
enum class	ConstantExprKind { Normal , NonClassTemplateArgument , ClassTemplateArgument , ImmediateInvocation }
enum	NullPointerConstantKind {   NPCK_NotNull = 0 , NPCK_ZeroExpression , NPCK_ZeroLiteral , NPCK_CXX11_nullptr ,   NPCK_GNUNull }
	Enumeration used to describe the kind of Null pointer constant returned from isNullPointerConstant(). More...
enum	NullPointerConstantValueDependence { NPC_NeverValueDependent = 0 , NPC_ValueDependentIsNull , NPC_ValueDependentIsNotNull }
	Enumeration used to describe how isNullPointerConstant() should cope with value-dependent expressions. More...
Public Types inherited from clang::Stmt
enum	StmtClass { NoStmtClass = 0 }
enum	Likelihood { LH_Unlikely = -1 , LH_None , LH_Likely }
	The likelihood of a branch being taken. More...
using	child_iterator = StmtIterator
	Child Iterators: All subclasses must implement 'children' to permit easy iteration over the substatements/subexpressions of an AST node.
using	const_child_iterator = ConstStmtIterator
using	child_range = llvm::iterator_range< child_iterator >
using	const_child_range = llvm::iterator_range< const_child_iterator >

Public Member Functions
	ImplicitCastExpr (OnStack_t _, QualType ty, CastKind kind, Expr *op, ExprValueKind VK, FPOptionsOverride FPO)
bool	isPartOfExplicitCast () const
void	setIsPartOfExplicitCast (bool PartOfExplicitCast)
SourceLocation	getBeginLoc () const LLVM_READONLY
SourceLocation	getEndLoc () const LLVM_READONLY
Public Member Functions inherited from clang::CastExpr
CastKind	getCastKind () const
void	setCastKind (CastKind K)
const char *	getCastKindName () const
Expr *	getSubExpr ()
const Expr *	getSubExpr () const
void	setSubExpr (Expr *E)
Expr *	getSubExprAsWritten ()
	Retrieve the cast subexpression as it was written in the source code, looking through any implicit casts or other intermediate nodes introduced by semantic analysis.
const Expr *	getSubExprAsWritten () const
NamedDecl *	getConversionFunction () const
	If this cast applies a user-defined conversion, retrieve the conversion function that it invokes.
bool	path_empty () const
unsigned	path_size () const
path_iterator	path_begin ()
path_iterator	path_end ()
path_const_iterator	path_begin () const
path_const_iterator	path_end () const
llvm::iterator_range< path_iterator >	path ()
	Path through the class hierarchy taken by casts between base and derived classes (see implementation of CastConsistency() for a full list of cast kinds that have a path).
llvm::iterator_range< path_const_iterator >	path () const
const FieldDecl *	getTargetUnionField () const
bool	hasStoredFPFeatures () const
FPOptionsOverride	getStoredFPFeatures () const
	Get FPOptionsOverride from trailing storage.
FPOptionsOverride	getStoredFPFeaturesOrDefault () const
	Get the store FPOptionsOverride or default if not stored.
FPOptions	getFPFeaturesInEffect (const LangOptions &LO) const
	Get the FP features status of this operation.
FPOptionsOverride	getFPFeatures () const
bool	changesVolatileQualification () const
	Return.
child_range	children ()
const_child_range	children () const
Public Member Functions inherited from clang::Expr
	Expr ()=delete
	Expr (const Expr &)=delete
	Expr (Expr &&)=delete
Expr &	operator= (const Expr &)=delete
Expr &	operator= (Expr &&)=delete
QualType	getType () const
void	setType (QualType t)
QualType	getEnumCoercedType (const ASTContext &Ctx) const
	If this expression is an enumeration constant, return the enumeration type under which said constant was declared.
ExprDependence	getDependence () const
bool	isValueDependent () const
	Determines whether the value of this expression depends on.
bool	isTypeDependent () const
	Determines whether the type of this expression depends on.
bool	isInstantiationDependent () const
	Whether this expression is instantiation-dependent, meaning that it depends in some way on.
bool	containsUnexpandedParameterPack () const
	Whether this expression contains an unexpanded parameter pack (for C++11 variadic templates).
bool	containsErrors () const
	Whether this expression contains subexpressions which had errors, e.g.
SourceLocation	getExprLoc () const LLVM_READONLY
	getExprLoc - Return the preferred location for the arrow when diagnosing a problem with a generic expression.
bool	isReadIfDiscardedInCPlusPlus11 () const
	Determine whether an lvalue-to-rvalue conversion should implicitly be applied to this expression if it appears as a discarded-value expression in C++11 onwards.
bool	isUnusedResultAWarning (const Expr *&WarnExpr, SourceLocation &Loc, SourceRange &R1, SourceRange &R2, ASTContext &Ctx) const
	isUnusedResultAWarning - Return true if this immediate expression should be warned about if the result is unused.
bool	isLValue () const
	isLValue - True if this expression is an "l-value" according to the rules of the current language.
bool	isPRValue () const
bool	isXValue () const
bool	isGLValue () const
LValueClassification	ClassifyLValue (ASTContext &Ctx) const
	Reasons why an expression might not be an l-value.
isModifiableLvalueResult	isModifiableLvalue (ASTContext &Ctx, SourceLocation *Loc=nullptr) const
	isModifiableLvalue - C99 6.3.2.1: an lvalue that does not have array type, does not have an incomplete type, does not have a const-qualified type, and if it is a structure or union, does not have any member (including, recursively, any member or element of all contained aggregates or unions) with a const-qualified type.
Classification	Classify (ASTContext &Ctx) const
	Classify - Classify this expression according to the C++11 expression taxonomy.
Classification	ClassifyModifiable (ASTContext &Ctx, SourceLocation &Loc) const
	ClassifyModifiable - Classify this expression according to the C++11 expression taxonomy, and see if it is valid on the left side of an assignment.
FPOptions	getFPFeaturesInEffect (const LangOptions &LO) const
	Returns the set of floating point options that apply to this expression.
ExprValueKind	getValueKind () const
	getValueKind - The value kind that this expression produces.
ExprObjectKind	getObjectKind () const
	getObjectKind - The object kind that this expression produces.
bool	isOrdinaryOrBitFieldObject () const
void	setValueKind (ExprValueKind Cat)
	setValueKind - Set the value kind produced by this expression.
void	setObjectKind (ExprObjectKind Cat)
	setObjectKind - Set the object kind produced by this expression.
bool	refersToBitField () const
	Returns true if this expression is a gl-value that potentially refers to a bit-field.
FieldDecl *	getSourceBitField ()
	If this expression refers to a bit-field, retrieve the declaration of that bit-field.
EnumConstantDecl *	getEnumConstantDecl ()
	If this expression refers to an enum constant, retrieve its declaration.
const EnumConstantDecl *	getEnumConstantDecl () const
const FieldDecl *	getSourceBitField () const
Decl *	getReferencedDeclOfCallee ()
const Decl *	getReferencedDeclOfCallee () const
const ObjCPropertyRefExpr *	getObjCProperty () const
	If this expression is an l-value for an Objective C property, find the underlying property reference expression.
bool	isObjCSelfExpr () const
	Check if this expression is the ObjC 'self' implicit parameter.
bool	refersToVectorElement () const
	Returns whether this expression refers to a vector element.
bool	refersToMatrixElement () const
	Returns whether this expression refers to a matrix element.
bool	refersToGlobalRegisterVar () const
	Returns whether this expression refers to a global register variable.
bool	hasPlaceholderType () const
	Returns whether this expression has a placeholder type.
bool	hasPlaceholderType (BuiltinType::Kind K) const
	Returns whether this expression has a specific placeholder type.
bool	isKnownToHaveBooleanValue (bool Semantic=true) const
	isKnownToHaveBooleanValue - Return true if this is an integer expression that is known to return 0 or 1.
bool	isFlexibleArrayMemberLike (ASTContext &Context, LangOptions::StrictFlexArraysLevelKind StrictFlexArraysLevel, bool IgnoreTemplateOrMacroSubstitution=false) const
	Check whether this array fits the idiom of a flexible array member, depending on the value of -fstrict-flex-array.
std::optional< llvm::APSInt >	getIntegerConstantExpr (const ASTContext &Ctx, SourceLocation *Loc=nullptr) const
	isIntegerConstantExpr - Return the value if this expression is a valid integer constant expression.
bool	isIntegerConstantExpr (const ASTContext &Ctx, SourceLocation *Loc=nullptr) const
bool	isCXX98IntegralConstantExpr (const ASTContext &Ctx) const
	isCXX98IntegralConstantExpr - Return true if this expression is an integral constant expression in C++98.
bool	isCXX11ConstantExpr (const ASTContext &Ctx, APValue *Result=nullptr, SourceLocation *Loc=nullptr) const
	isCXX11ConstantExpr - Return true if this expression is a constant expression in C++11.
bool	isConstantInitializer (ASTContext &Ctx, bool ForRef, const Expr **Culprit=nullptr) const
	isConstantInitializer - Returns true if this expression can be emitted to IR as a constant, and thus can be used as a constant initializer in C.
const ValueDecl *	getAsBuiltinConstantDeclRef (const ASTContext &Context) const
	If this expression is an unambiguous reference to a single declaration, in the style of __builtin_function_start, return that declaration.
bool	EvaluateAsRValue (EvalResult &Result, const ASTContext &Ctx, bool InConstantContext=false) const
	EvaluateAsRValue - Return true if this is a constant which we can fold to an rvalue using any crazy technique (that has nothing to do with language standards) that we want to, even if the expression has side-effects.
bool	EvaluateAsBooleanCondition (bool &Result, const ASTContext &Ctx, bool InConstantContext=false) const
	EvaluateAsBooleanCondition - Return true if this is a constant which we can fold and convert to a boolean condition using any crazy technique that we want to, even if the expression has side-effects.
bool	EvaluateAsInt (EvalResult &Result, const ASTContext &Ctx, SideEffectsKind AllowSideEffects=SE_NoSideEffects, bool InConstantContext=false) const
	EvaluateAsInt - Return true if this is a constant which we can fold and convert to an integer, using any crazy technique that we want to.
bool	EvaluateAsFloat (llvm::APFloat &Result, const ASTContext &Ctx, SideEffectsKind AllowSideEffects=SE_NoSideEffects, bool InConstantContext=false) const
	EvaluateAsFloat - Return true if this is a constant which we can fold and convert to a floating point value, using any crazy technique that we want to.
bool	EvaluateAsFixedPoint (EvalResult &Result, const ASTContext &Ctx, SideEffectsKind AllowSideEffects=SE_NoSideEffects, bool InConstantContext=false) const
	EvaluateAsFixedPoint - Return true if this is a constant which we can fold and convert to a fixed point value.
bool	isEvaluatable (const ASTContext &Ctx, SideEffectsKind AllowSideEffects=SE_NoSideEffects) const
	isEvaluatable - Call EvaluateAsRValue to see if this expression can be constant folded without side-effects, but discard the result.
bool	HasSideEffects (const ASTContext &Ctx, bool IncludePossibleEffects=true) const
	HasSideEffects - This routine returns true for all those expressions which have any effect other than producing a value.
bool	hasNonTrivialCall (const ASTContext &Ctx) const
	Determine whether this expression involves a call to any function that is not trivial.
llvm::APSInt	EvaluateKnownConstInt (const ASTContext &Ctx, SmallVectorImpl< PartialDiagnosticAt > *Diag=nullptr) const
	EvaluateKnownConstInt - Call EvaluateAsRValue and return the folded integer.
llvm::APSInt	EvaluateKnownConstIntCheckOverflow (const ASTContext &Ctx, SmallVectorImpl< PartialDiagnosticAt > *Diag=nullptr) const
void	EvaluateForOverflow (const ASTContext &Ctx) const
bool	EvaluateAsLValue (EvalResult &Result, const ASTContext &Ctx, bool InConstantContext=false) const
	EvaluateAsLValue - Evaluate an expression to see if we can fold it to an lvalue with link time known address, with no side-effects.
bool	EvaluateAsInitializer (APValue &Result, const ASTContext &Ctx, const VarDecl *VD, SmallVectorImpl< PartialDiagnosticAt > &Notes, bool IsConstantInitializer) const
	EvaluateAsInitializer - Evaluate an expression as if it were the initializer of the given declaration.
bool	EvaluateWithSubstitution (APValue &Value, ASTContext &Ctx, const FunctionDecl *Callee, ArrayRef< const Expr * > Args, const Expr *This=nullptr) const
	EvaluateWithSubstitution - Evaluate an expression as if from the context of a call to the given function with the given arguments, inside an unevaluated context.
bool	EvaluateAsConstantExpr (EvalResult &Result, const ASTContext &Ctx, ConstantExprKind Kind=ConstantExprKind::Normal) const
	Evaluate an expression that is required to be a constant expression.
bool	tryEvaluateObjectSize (uint64_t &Result, ASTContext &Ctx, unsigned Type) const
	If the current Expr is a pointer, this will try to statically determine the number of bytes available where the pointer is pointing.
bool	tryEvaluateStrLen (uint64_t &Result, ASTContext &Ctx) const
	If the current Expr is a pointer, this will try to statically determine the strlen of the string pointed to.
bool	EvaluateCharRangeAsString (std::string &Result, const Expr *SizeExpression, const Expr *PtrExpression, ASTContext &Ctx, EvalResult &Status) const
std::optional< std::string >	tryEvaluateString (ASTContext &Ctx) const
	If the current Expr can be evaluated to a pointer to a null-terminated constant string, return the constant string (without the terminating null).
NullPointerConstantKind	isNullPointerConstant (ASTContext &Ctx, NullPointerConstantValueDependence NPC) const
	isNullPointerConstant - C99 6.3.2.3p3 - Test if this reduces down to a Null pointer constant.
bool	isOBJCGCCandidate (ASTContext &Ctx) const
	isOBJCGCCandidate - Return true if this expression may be used in a read/ write barrier.
bool	isBoundMemberFunction (ASTContext &Ctx) const
	Returns true if this expression is a bound member function.
Expr *	IgnoreUnlessSpelledInSource ()
	Skip past any invisible AST nodes which might surround this statement, such as ExprWithCleanups or ImplicitCastExpr nodes, but also injected CXXMemberExpr and CXXConstructExpr which represent implicit conversions.
const Expr *	IgnoreUnlessSpelledInSource () const
Expr *	IgnoreImpCasts () LLVM_READONLY
	Skip past any implicit casts which might surround this expression until reaching a fixed point.
const Expr *	IgnoreImpCasts () const
Expr *	IgnoreCasts () LLVM_READONLY
	Skip past any casts which might surround this expression until reaching a fixed point.
const Expr *	IgnoreCasts () const
Expr *	IgnoreImplicit () LLVM_READONLY
	Skip past any implicit AST nodes which might surround this expression until reaching a fixed point.
const Expr *	IgnoreImplicit () const
Expr *	IgnoreImplicitAsWritten () LLVM_READONLY
	Skip past any implicit AST nodes which might surround this expression until reaching a fixed point.
const Expr *	IgnoreImplicitAsWritten () const
Expr *	IgnoreParens () LLVM_READONLY
	Skip past any parentheses which might surround this expression until reaching a fixed point.
const Expr *	IgnoreParens () const
Expr *	IgnoreParenImpCasts () LLVM_READONLY
	Skip past any parentheses and implicit casts which might surround this expression until reaching a fixed point.
const Expr *	IgnoreParenImpCasts () const
Expr *	IgnoreParenCasts () LLVM_READONLY
	Skip past any parentheses and casts which might surround this expression until reaching a fixed point.
const Expr *	IgnoreParenCasts () const
Expr *	IgnoreConversionOperatorSingleStep () LLVM_READONLY
	Skip conversion operators.
const Expr *	IgnoreConversionOperatorSingleStep () const
Expr *	IgnoreParenLValueCasts () LLVM_READONLY
	Skip past any parentheses and lvalue casts which might surround this expression until reaching a fixed point.
const Expr *	IgnoreParenLValueCasts () const
Expr *