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https://github.com/capstone-engine/llvm-capstone.git
synced 2024-12-14 11:39:35 +00:00
Implement semantic checking of static_cast and dynamic_cast.
llvm-svn: 58509
This commit is contained in:
parent
8758851908
commit
72b8aef613
@ -1096,6 +1096,8 @@ DIAG(ext_reinterpret_cast_fn_obj, EXTENSION,
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"an extension")
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DIAG(err_bad_reinterpret_cast_small_int, ERROR,
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"cast from pointer to smaller type '%0' loses information")
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DIAG(err_bad_dynamic_cast_operand, ERROR,
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"'%0' is %1")
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DIAG(err_invalid_use_of_function_type, ERROR,
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"a function type is not allowed here")
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@ -1072,15 +1072,17 @@ bool Expr::isIntegerConstantExpr(llvm::APSInt &Result, ASTContext &Ctx,
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/// integer constant expression with the value zero, or if this is one that is
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/// cast to void*.
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bool Expr::isNullPointerConstant(ASTContext &Ctx) const {
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// Strip off a cast to void*, if it exists.
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// Strip off a cast to void*, if it exists. Except in C++.
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if (const ExplicitCastExpr *CE = dyn_cast<ExplicitCastExpr>(this)) {
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// Check that it is a cast to void*.
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if (const PointerType *PT = CE->getType()->getAsPointerType()) {
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QualType Pointee = PT->getPointeeType();
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if (Pointee.getCVRQualifiers() == 0 &&
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Pointee->isVoidType() && // to void*
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CE->getSubExpr()->getType()->isIntegerType()) // from int.
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return CE->getSubExpr()->isNullPointerConstant(Ctx);
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if(!Ctx.getLangOptions().CPlusPlus) {
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// Check that it is a cast to void*.
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if (const PointerType *PT = CE->getType()->getAsPointerType()) {
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QualType Pointee = PT->getPointeeType();
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if (Pointee.getCVRQualifiers() == 0 &&
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Pointee->isVoidType() && // to void*
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CE->getSubExpr()->getType()->isIntegerType()) // from int.
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return CE->getSubExpr()->isNullPointerConstant(Ctx);
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}
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}
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} else if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(this)) {
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// Ignore the ImplicitCastExpr type entirely.
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@ -707,13 +707,22 @@ public:
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SourceLocation LParenLoc, ExprTy *E,
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SourceLocation RParenLoc);
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private:
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// Helpers for ActOnCXXCasts
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bool CastsAwayConstness(QualType SrcType, QualType DestType);
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void CheckConstCast(SourceLocation OpLoc, Expr *&SrcExpr, QualType DestType);
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void CheckReinterpretCast(SourceLocation OpLoc, Expr *&SrcExpr,
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QualType DestType);
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void CheckStaticCast(SourceLocation OpLoc, Expr *&SrcExpr, QualType DestType);
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void CheckDynamicCast(SourceLocation OpLoc, Expr *&SrcExpr,
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QualType DestType, const SourceRange &DestRange);
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bool CastsAwayConstness(QualType SrcType, QualType DestType);
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bool IsStaticReferenceDowncast(Expr *SrcExpr, QualType DestType);
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bool IsStaticPointerDowncast(QualType SrcType, QualType DestType);
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bool IsStaticDowncast(QualType SrcType, QualType DestType);
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ImplicitConversionSequence TryDirectInitialization(Expr *SrcExpr,
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QualType DestType);
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public:
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//// ActOnCXXThis - Parse 'this' pointer.
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virtual ExprResult ActOnCXXThis(SourceLocation ThisLoc);
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@ -12,6 +12,7 @@
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//===----------------------------------------------------------------------===//
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#include "Sema.h"
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#include "SemaInherit.h"
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#include "clang/AST/ExprCXX.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/Parse/DeclSpec.h"
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@ -40,6 +41,8 @@ Sema::ActOnCXXNamedCast(SourceLocation OpLoc, tok::TokenKind Kind,
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DestType, OpLoc);
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case tok::kw_dynamic_cast:
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CheckDynamicCast(OpLoc, Ex, DestType,
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SourceRange(LAngleBracketLoc, RAngleBracketLoc));
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return new CXXDynamicCastExpr(DestType.getNonReferenceType(), Ex,
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DestType, OpLoc);
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@ -49,10 +52,11 @@ Sema::ActOnCXXNamedCast(SourceLocation OpLoc, tok::TokenKind Kind,
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DestType, OpLoc);
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case tok::kw_static_cast:
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CheckStaticCast(OpLoc, Ex, DestType);
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return new CXXStaticCastExpr(DestType.getNonReferenceType(), Ex,
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DestType, OpLoc);
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}
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return true;
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}
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@ -325,41 +329,347 @@ Sema::CastsAwayConstness(QualType SrcType, QualType DestType)
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}
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/// CheckStaticCast - Check that a static_cast\<DestType\>(SrcExpr) is valid.
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/// Refer to C++ 5.2.9 for details. Static casts are mostly used for making
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/// implicit conversions explicit and getting rid of data loss warnings.
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void
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Sema::CheckStaticCast(SourceLocation OpLoc, Expr *&SrcExpr, QualType DestType)
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{
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#if 0
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// 5.2.9/1 sets the ground rule of disallowing casting away constness.
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// 5.2.9/2 permits everything allowed for direct-init, deferring to 8.5.
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// Note: for class destination, that's overload resolution over dest's
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// constructors. Src's conversions are only considered in overload choice.
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// For any other destination, that's just the clause 4 standards convs.
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// 5.2.9/4 permits static_cast<cv void>(anything), which is a no-op.
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// 5.2.9/5 permits explicit non-dynamic downcasts for lvalue-to-reference.
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// 5.2.9/6 permits reversing all implicit conversions except lvalue-to-rvalue,
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// function-to-pointer, array decay and to-bool, with some further
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// restrictions. Defers to 4.
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// 5.2.9/7 permits integer-to-enum conversion. Interesting note: if the
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// integer does not correspond to an enum value, the result is unspecified -
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// but it still has to be some value of the enum. I don't think any compiler
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// complies with that.
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// 5.2.9/8 is 5.2.9/5 for pointers.
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// 5.2.9/9 messes with member pointers. TODO. No need to think about that yet.
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// 5.2.9/10 permits void* to T*.
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QualType OrigDestType = DestType, OrigSrcType = SrcExpr->getType();
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DestType = Context.getCanonicalType(DestType);
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// Tests are ordered by simplicity and a wild guess at commonness.
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if (const BuiltinType *BuiltinDest = DestType->getAsBuiltinType()) {
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// 5.2.9/4
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if (BuiltinDest->getKind() == BuiltinType::Void) {
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// Conversions are tried roughly in the order the standard specifies them.
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// This is necessary because there are some conversions that can be
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// interpreted in more than one way, and the order disambiguates.
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// DR 427 specifies that paragraph 5 is to be applied before paragraph 2.
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// This option is unambiguous and simple, so put it here.
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// C++ 5.2.9p4: Any expression can be explicitly converted to type "cv void".
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if (DestType->isVoidType()) {
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return;
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}
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DestType = Context.getCanonicalType(DestType);
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// C++ 5.2.9p5, reference downcast.
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// See the function for details.
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if (IsStaticReferenceDowncast(SrcExpr, DestType)) {
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return;
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}
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// C++ 5.2.9p2: An expression e can be explicitly converted to a type T
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// [...] if the declaration "T t(e);" is well-formed, [...].
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ImplicitConversionSequence ICS = TryDirectInitialization(SrcExpr, DestType);
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if (ICS.ConversionKind != ImplicitConversionSequence::BadConversion) {
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if (ICS.ConversionKind == ImplicitConversionSequence::StandardConversion &&
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ICS.Standard.First != ICK_Identity)
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{
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DefaultFunctionArrayConversion(SrcExpr);
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}
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return;
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}
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// FIXME: Missing the validation of the conversion, e.g. for an accessible
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// base.
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// C++ 5.2.9p6: May apply the reverse of any standard conversion, except
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// lvalue-to-rvalue, array-to-pointer, function-to-pointer, and boolean
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// conversions, subject to further restrictions.
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// Also, C++ 5.2.9p1 forbids casting away constness, which makes reversal
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// of qualification conversions impossible.
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// The lvalue-to-rvalue, array-to-pointer and function-to-pointer conversions
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// are applied to the expression.
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DefaultFunctionArrayConversion(SrcExpr);
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QualType SrcType = Context.getCanonicalType(SrcExpr->getType());
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// Reverse integral promotion/conversion. All such conversions are themselves
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// again integral promotions or conversions and are thus already handled by
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// p2 (TryDirectInitialization above).
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// (Note: any data loss warnings should be suppressed.)
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// The exception is the reverse of enum->integer, i.e. integer->enum (and
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// enum->enum). See also C++ 5.2.9p7.
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// The same goes for reverse floating point promotion/conversion and
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// floating-integral conversions. Again, only floating->enum is relevant.
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if (DestType->isEnumeralType()) {
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if (SrcType->isComplexType() || SrcType->isVectorType()) {
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// Fall through - these cannot be converted.
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} else if (SrcType->isArithmeticType() || SrcType->isEnumeralType()) {
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return;
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}
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// Primitive conversions for 5.2.9/2 and 6.
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}
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#endif
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// Reverse pointer upcast. C++ 4.10p3 specifies pointer upcast.
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// C++ 5.2.9p8 additionally disallows a cast path through virtual inheritance.
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if (IsStaticPointerDowncast(SrcType, DestType)) {
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return;
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}
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// Reverse member pointer conversion. C++ 5.11 specifies member pointer
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// conversion. C++ 5.2.9p9 has additional information.
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// DR54's access restrictions apply here also.
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// FIXME: Don't have member pointers yet.
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// Reverse pointer conversion to void*. C++ 4.10.p2 specifies conversion to
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// void*. C++ 5.2.9p10 specifies additional restrictions, which really is
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// just the usual constness stuff.
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if (const PointerType *SrcPointer = SrcType->getAsPointerType()) {
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QualType SrcPointee = SrcPointer->getPointeeType();
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if (SrcPointee->isVoidType()) {
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if (const PointerType *DestPointer = DestType->getAsPointerType()) {
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QualType DestPointee = DestPointer->getPointeeType();
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if (DestPointee->isObjectType() &&
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DestPointee.isAtLeastAsQualifiedAs(SrcPointee))
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{
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return;
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}
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}
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}
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}
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// We tried everything. Everything! Nothing works! :-(
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// FIXME: Error reporting could be a lot better. Should store the reason
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// why every substep failed and, at the end, select the most specific and
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// report that.
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Diag(OpLoc, diag::err_bad_cxx_cast_generic, "static_cast",
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OrigDestType.getAsString(), OrigSrcType.getAsString());
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}
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/// Tests whether a conversion according to C++ 5.2.9p5 is valid.
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bool
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Sema::IsStaticReferenceDowncast(Expr *SrcExpr, QualType DestType)
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{
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// C++ 5.2.9p5: An lvalue of type "cv1 B", where B is a class type, can be
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// cast to type "reference to cv2 D", where D is a class derived from B,
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// if a valid standard conversion from "pointer to D" to "pointer to B"
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// exists, cv2 >= cv1, and B is not a virtual base class of D.
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// In addition, DR54 clarifies that the base must be accessible in the
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// current context. Although the wording of DR54 only applies to the pointer
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// variant of this rule, the intent is clearly for it to apply to the this
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// conversion as well.
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if (SrcExpr->isLvalue(Context) != Expr::LV_Valid) {
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return false;
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}
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DestType = Context.getCanonicalType(DestType);
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const ReferenceType *DestReference = DestType->getAsReferenceType();
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if (!DestReference) {
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return false;
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}
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QualType DestPointee = DestReference->getPointeeType();
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QualType SrcType = Context.getCanonicalType(SrcExpr->getType());
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return IsStaticDowncast(SrcType, DestPointee);
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}
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/// Tests whether a conversion according to C++ 5.2.9p8 is valid.
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bool
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Sema::IsStaticPointerDowncast(QualType SrcType, QualType DestType)
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{
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// C++ 5.2.9p8: An rvalue of type "pointer to cv1 B", where B is a class
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// type, can be converted to an rvalue of type "pointer to cv2 D", where D
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// is a class derived from B, if a valid standard conversion from "pointer
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// to D" to "pointer to B" exists, cv2 >= cv1, and B is not a virtual base
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// class of D.
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// In addition, DR54 clarifies that the base must be accessible in the
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// current context.
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SrcType = Context.getCanonicalType(SrcType);
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const PointerType *SrcPointer = SrcType->getAsPointerType();
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if (!SrcPointer) {
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return false;
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}
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DestType = Context.getCanonicalType(DestType);
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const PointerType *DestPointer = DestType->getAsPointerType();
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if (!DestPointer) {
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return false;
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}
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return IsStaticDowncast(SrcPointer->getPointeeType(),
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DestPointer->getPointeeType());
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}
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/// IsStaticDowncast - Common functionality of IsStaticReferenceDowncast and
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/// IsStaticPointerDowncast. Tests whether a static downcast from SrcType to
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/// DestType, both of which must be canonical, is possible and allowed.
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bool
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Sema::IsStaticDowncast(QualType SrcType, QualType DestType)
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{
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assert(SrcType->isCanonical());
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assert(DestType->isCanonical());
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if (!DestType->isRecordType()) {
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return false;
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}
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if (!SrcType->isRecordType()) {
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return false;
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}
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// Comparing cv is cheaper, so do it first.
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if (!DestType.isAtLeastAsQualifiedAs(SrcType)) {
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return false;
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}
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BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/false,
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/*DetectVirtual=*/true);
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if (!IsDerivedFrom(DestType, SrcType, Paths)) {
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return false;
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}
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if (Paths.isAmbiguous(SrcType.getUnqualifiedType())) {
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return false;
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}
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if (Paths.getDetectedVirtual() != 0) {
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return false;
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}
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// FIXME: Test accessibility.
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return true;
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}
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/// TryDirectInitialization - Attempt to direct-initialize a value of the
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/// given type (DestType) from the given expression (SrcExpr), as one would
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/// do when creating an object with new with parameters. This function returns
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/// an implicit conversion sequence that can be used to perform the
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/// initialization.
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/// This routine is very similar to TryCopyInitialization; the differences
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/// between the two (C++ 8.5p12 and C++ 8.5p14) are:
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/// 1) In direct-initialization, all constructors of the target type are
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/// considered, including those marked as explicit.
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/// 2) In direct-initialization, overload resolution is performed over the
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/// constructors of the target type. In copy-initialization, overload
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/// resolution is performed over all conversion functions that result in
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/// the target type. This can lead to different functions used.
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ImplicitConversionSequence
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Sema::TryDirectInitialization(Expr *SrcExpr, QualType DestType)
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{
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if (!DestType->isRecordType()) {
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// For non-class types, copy and direct initialization are identical.
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// C++ 8.5p11
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// FIXME: Those parts should be in a common function, actually.
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return TryCopyInitialization(SrcExpr, DestType);
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}
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// Not enough support for the rest yet, actually.
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ImplicitConversionSequence ICS;
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ICS.ConversionKind = ImplicitConversionSequence::BadConversion;
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return ICS;
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}
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/// CheckDynamicCast - Check that a dynamic_cast\<DestType\>(SrcExpr) is valid.
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/// Refer to C++ 5.2.7 for details. Dynamic casts are used mostly for runtime-
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/// checked downcasts in class hierarchies.
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void
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Sema::CheckDynamicCast(SourceLocation OpLoc, Expr *&SrcExpr, QualType DestType,
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const SourceRange &DestRange)
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{
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QualType OrigDestType = DestType, OrigSrcType = SrcExpr->getType();
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DestType = Context.getCanonicalType(DestType);
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// C++ 5.2.7p1: T shall be a pointer or reference to a complete class type,
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// or "pointer to cv void".
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QualType DestPointee;
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const PointerType *DestPointer = DestType->getAsPointerType();
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const ReferenceType *DestReference = DestType->getAsReferenceType();
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if (DestPointer) {
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DestPointee = DestPointer->getPointeeType();
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} else if (DestReference) {
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DestPointee = DestReference->getPointeeType();
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} else {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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OrigDestType.getAsString(), "not a reference or pointer", DestRange);
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return;
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}
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const RecordType *DestRecord = DestPointee->getAsRecordType();
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if (DestPointee->isVoidType()) {
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assert(DestPointer && "Reference to void is not possible");
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} else if (DestRecord) {
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if (!DestRecord->getDecl()->isDefinition()) {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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DestPointee.getUnqualifiedType().getAsString(),
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"incomplete", DestRange);
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return;
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}
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} else {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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DestPointee.getUnqualifiedType().getAsString(),
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"not a class", DestRange);
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return;
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}
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// C++ 5.2.7p2: If T is a pointer type, v shall be an rvalue of a pointer to
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// complete class type, [...]. If T is a reference type, v shall be an
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// lvalue of a complete class type, [...].
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QualType SrcType = Context.getCanonicalType(OrigSrcType);
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QualType SrcPointee;
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if (DestPointer) {
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if (const PointerType *SrcPointer = SrcType->getAsPointerType()) {
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SrcPointee = SrcPointer->getPointeeType();
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} else {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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OrigSrcType.getAsString(), "not a pointer", SrcExpr->getSourceRange());
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return;
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}
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} else {
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if (SrcExpr->isLvalue(Context) != Expr::LV_Valid) {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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OrigDestType.getAsString(), "not an lvalue", SrcExpr->getSourceRange());
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}
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SrcPointee = SrcType;
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}
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const RecordType *SrcRecord = SrcPointee->getAsRecordType();
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if (SrcRecord) {
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if (!SrcRecord->getDecl()->isDefinition()) {
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Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
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SrcPointee.getUnqualifiedType().getAsString(), "incomplete",
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SrcExpr->getSourceRange());
|
||||
return;
|
||||
}
|
||||
} else {
|
||||
Diag(OpLoc, diag::err_bad_dynamic_cast_operand,
|
||||
SrcPointee.getUnqualifiedType().getAsString(), "not a class",
|
||||
SrcExpr->getSourceRange());
|
||||
return;
|
||||
}
|
||||
|
||||
// Assumptions to this point.
|
||||
assert(DestPointer || DestReference);
|
||||
assert(DestRecord || DestPointee->isVoidType());
|
||||
assert(SrcRecord);
|
||||
|
||||
// C++ 5.2.7p1: The dynamic_cast operator shall not cast away constness.
|
||||
if (!DestPointee.isAtLeastAsQualifiedAs(SrcPointee)) {
|
||||
Diag(OpLoc, diag::err_bad_cxx_cast_const_away, "dynamic_cast",
|
||||
OrigDestType.getAsString(), OrigSrcType.getAsString());
|
||||
return;
|
||||
}
|
||||
|
||||
// C++ 5.2.7p3: If the type of v is the same as the required result type,
|
||||
// [except for cv].
|
||||
if (DestRecord == SrcRecord) {
|
||||
return;
|
||||
}
|
||||
|
||||
// C++ 5.2.7p5
|
||||
// Upcasts are resolved statically.
|
||||
if (DestRecord && IsDerivedFrom(SrcPointee, DestPointee)) {
|
||||
CheckDerivedToBaseConversion(SrcPointee, DestPointee, OpLoc, SourceRange());
|
||||
// Diagnostic already emitted on error.
|
||||
return;
|
||||
}
|
||||
|
||||
// C++ 5.2.7p6: Otherwise, v shall be [polymorphic].
|
||||
// FIXME: Information not yet available.
|
||||
|
||||
// Done. Everything else is run-time checks.
|
||||
}
|
||||
|
||||
/// ActOnCXXBoolLiteral - Parse {true,false} literals.
|
||||
|
@ -42,6 +42,7 @@ void BasePaths::clear() {
|
||||
Paths.clear();
|
||||
ClassSubobjects.clear();
|
||||
ScratchPath.clear();
|
||||
DetectedVirtual = 0;
|
||||
}
|
||||
|
||||
/// IsDerivedFrom - Determine whether the type Derived is derived from
|
||||
@ -50,7 +51,8 @@ void BasePaths::clear() {
|
||||
/// Derived* to a Base* is legal, because it does not account for
|
||||
/// ambiguous conversions or conversions to private/protected bases.
|
||||
bool Sema::IsDerivedFrom(QualType Derived, QualType Base) {
|
||||
BasePaths Paths(/*FindAmbiguities=*/false, /*RecordPaths=*/false);
|
||||
BasePaths Paths(/*FindAmbiguities=*/false, /*RecordPaths=*/false,
|
||||
/*DetectVirtual=*/false);
|
||||
return IsDerivedFrom(Derived, Base, Paths);
|
||||
}
|
||||
|
||||
@ -64,10 +66,10 @@ bool Sema::IsDerivedFrom(QualType Derived, QualType Base) {
|
||||
/// information about all of the paths (if @c Paths.isRecordingPaths()).
|
||||
bool Sema::IsDerivedFrom(QualType Derived, QualType Base, BasePaths &Paths) {
|
||||
bool FoundPath = false;
|
||||
|
||||
|
||||
Derived = Context.getCanonicalType(Derived).getUnqualifiedType();
|
||||
Base = Context.getCanonicalType(Base).getUnqualifiedType();
|
||||
|
||||
|
||||
if (!Derived->isRecordType() || !Base->isRecordType())
|
||||
return false;
|
||||
|
||||
@ -87,9 +89,17 @@ bool Sema::IsDerivedFrom(QualType Derived, QualType Base, BasePaths &Paths) {
|
||||
// updating the count of subobjects appropriately.
|
||||
std::pair<bool, unsigned>& Subobjects = Paths.ClassSubobjects[BaseType];
|
||||
bool VisitBase = true;
|
||||
bool SetVirtual = false;
|
||||
if (BaseSpec->isVirtual()) {
|
||||
VisitBase = !Subobjects.first;
|
||||
Subobjects.first = true;
|
||||
if (Paths.isDetectingVirtual() && Paths.DetectedVirtual == 0) {
|
||||
// If this is the first virtual we find, remember it. If it turns out
|
||||
// there is no base path here, we'll reset it later.
|
||||
Paths.DetectedVirtual = static_cast<const CXXRecordType*>(
|
||||
BaseType->getAsRecordType());
|
||||
SetVirtual = true;
|
||||
}
|
||||
} else
|
||||
++Subobjects.second;
|
||||
|
||||
@ -127,6 +137,10 @@ bool Sema::IsDerivedFrom(QualType Derived, QualType Base, BasePaths &Paths) {
|
||||
// collecting paths).
|
||||
if (Paths.isRecordingPaths())
|
||||
Paths.ScratchPath.pop_back();
|
||||
// If we set a virtual earlier, and this isn't a path, forget it again.
|
||||
if (SetVirtual && !FoundPath) {
|
||||
Paths.DetectedVirtual = 0;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
@ -148,7 +162,8 @@ Sema::CheckDerivedToBaseConversion(QualType Derived, QualType Base,
|
||||
// ambiguous. This is slightly more expensive than checking whether
|
||||
// the Derived to Base conversion exists, because here we need to
|
||||
// explore multiple paths to determine if there is an ambiguity.
|
||||
BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/false);
|
||||
BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/false,
|
||||
/*DetectVirtual=*/false);
|
||||
bool DerivationOkay = IsDerivedFrom(Derived, Base, Paths);
|
||||
assert(DerivationOkay && "Can only be used with a derived-to-base conversion");
|
||||
if (!DerivationOkay)
|
||||
|
@ -25,6 +25,7 @@
|
||||
namespace clang {
|
||||
class Sema;
|
||||
class CXXBaseSpecifier;
|
||||
class CXXRecordType;
|
||||
|
||||
/// BasePathElement - An element in a path from a derived class to a
|
||||
/// base class. Each step in the path references the link from a
|
||||
@ -97,20 +98,28 @@ namespace clang {
|
||||
std::map<QualType, std::pair<bool, unsigned>, QualTypeOrdering>
|
||||
ClassSubobjects;
|
||||
|
||||
/// FindAmbiguities - Whether Sema::IsDirectedFrom should try find
|
||||
/// FindAmbiguities - Whether Sema::IsDerivedFrom should try find
|
||||
/// ambiguous paths while it is looking for a path from a derived
|
||||
/// type to a base type.
|
||||
bool FindAmbiguities;
|
||||
|
||||
/// RecordPaths - Whether Sema::IsDirectedFrom should record paths
|
||||
/// RecordPaths - Whether Sema::IsDerivedFrom should record paths
|
||||
/// while it is determining whether there are paths from a derived
|
||||
/// type to a base type.
|
||||
bool RecordPaths;
|
||||
|
||||
/// DetectVirtual - Whether Sema::IsDerivedFrom should abort the search
|
||||
/// if it finds a path that goes across a virtual base. The virtual class
|
||||
/// is also recorded.
|
||||
bool DetectVirtual;
|
||||
|
||||
/// ScratchPath - A BasePath that is used by Sema::IsDerivedFrom
|
||||
/// to help build the set of paths.
|
||||
BasePath ScratchPath;
|
||||
|
||||
/// DetectedVirtual - The base class that is virtual.
|
||||
const CXXRecordType *DetectedVirtual;
|
||||
|
||||
friend class Sema;
|
||||
|
||||
public:
|
||||
@ -118,8 +127,12 @@ namespace clang {
|
||||
|
||||
/// BasePaths - Construct a new BasePaths structure to record the
|
||||
/// paths for a derived-to-base search.
|
||||
explicit BasePaths(bool FindAmbiguities = true, bool RecordPaths = true)
|
||||
: FindAmbiguities(FindAmbiguities), RecordPaths(RecordPaths) { }
|
||||
explicit BasePaths(bool FindAmbiguities = true,
|
||||
bool RecordPaths = true,
|
||||
bool DetectVirtual = true)
|
||||
: FindAmbiguities(FindAmbiguities), RecordPaths(RecordPaths),
|
||||
DetectVirtual(DetectVirtual), DetectedVirtual(0)
|
||||
{}
|
||||
|
||||
paths_iterator begin() const { return Paths.begin(); }
|
||||
paths_iterator end() const { return Paths.end(); }
|
||||
@ -137,6 +150,14 @@ namespace clang {
|
||||
/// paths or not.
|
||||
void setRecordingPaths(bool RP) { RecordPaths = RP; }
|
||||
|
||||
/// isDetectingVirtual - Whether we are detecting virtual bases.
|
||||
bool isDetectingVirtual() const { return DetectVirtual; }
|
||||
|
||||
/// getDetectedVirtual - The virtual base discovered on the path.
|
||||
const CXXRecordType* getDetectedVirtual() const {
|
||||
return DetectedVirtual;
|
||||
}
|
||||
|
||||
void clear();
|
||||
};
|
||||
}
|
||||
|
@ -423,8 +423,9 @@ Sema::TryImplicitConversion(Expr* From, QualType ToType)
|
||||
FromType = ToType.getUnqualifiedType();
|
||||
}
|
||||
// Integral conversions (C++ 4.7).
|
||||
// FIXME: isIntegralType shouldn't be true for enums in C++.
|
||||
else if ((FromType->isIntegralType() || FromType->isEnumeralType()) &&
|
||||
(ToType->isIntegralType() || ToType->isEnumeralType())) {
|
||||
(ToType->isIntegralType() && !ToType->isEnumeralType())) {
|
||||
ICS.Standard.Second = ICK_Integral_Conversion;
|
||||
FromType = ToType.getUnqualifiedType();
|
||||
}
|
||||
@ -434,16 +435,19 @@ Sema::TryImplicitConversion(Expr* From, QualType ToType)
|
||||
FromType = ToType.getUnqualifiedType();
|
||||
}
|
||||
// Floating-integral conversions (C++ 4.9).
|
||||
// FIXME: isIntegralType shouldn't be true for enums in C++.
|
||||
else if ((FromType->isFloatingType() &&
|
||||
ToType->isIntegralType() && !ToType->isBooleanType()) ||
|
||||
ToType->isIntegralType() && !ToType->isBooleanType() &&
|
||||
!ToType->isEnumeralType()) ||
|
||||
((FromType->isIntegralType() || FromType->isEnumeralType()) &&
|
||||
ToType->isFloatingType())) {
|
||||
ICS.Standard.Second = ICK_Floating_Integral;
|
||||
FromType = ToType.getUnqualifiedType();
|
||||
}
|
||||
// Pointer conversions (C++ 4.10).
|
||||
else if (IsPointerConversion(From, FromType, ToType, FromType))
|
||||
else if (IsPointerConversion(From, FromType, ToType, FromType)) {
|
||||
ICS.Standard.Second = ICK_Pointer_Conversion;
|
||||
}
|
||||
// FIXME: Pointer to member conversions (4.11).
|
||||
// Boolean conversions (C++ 4.12).
|
||||
// FIXME: pointer-to-member type
|
||||
@ -502,21 +506,25 @@ Sema::TryImplicitConversion(Expr* From, QualType ToType)
|
||||
bool Sema::IsIntegralPromotion(Expr *From, QualType FromType, QualType ToType)
|
||||
{
|
||||
const BuiltinType *To = ToType->getAsBuiltinType();
|
||||
if (!To) {
|
||||
return false;
|
||||
}
|
||||
|
||||
// An rvalue of type char, signed char, unsigned char, short int, or
|
||||
// unsigned short int can be converted to an rvalue of type int if
|
||||
// int can represent all the values of the source type; otherwise,
|
||||
// the source rvalue can be converted to an rvalue of type unsigned
|
||||
// int (C++ 4.5p1).
|
||||
if (FromType->isPromotableIntegerType() && !FromType->isBooleanType() && To) {
|
||||
if (FromType->isPromotableIntegerType() && !FromType->isBooleanType()) {
|
||||
if (// We can promote any signed, promotable integer type to an int
|
||||
(FromType->isSignedIntegerType() ||
|
||||
// We can promote any unsigned integer type whose size is
|
||||
// less than int to an int.
|
||||
(!FromType->isSignedIntegerType() &&
|
||||
Context.getTypeSize(FromType) < Context.getTypeSize(ToType))))
|
||||
Context.getTypeSize(FromType) < Context.getTypeSize(ToType)))) {
|
||||
return To->getKind() == BuiltinType::Int;
|
||||
|
||||
}
|
||||
|
||||
return To->getKind() == BuiltinType::UInt;
|
||||
}
|
||||
|
||||
@ -552,7 +560,7 @@ bool Sema::IsIntegralPromotion(Expr *From, QualType FromType, QualType ToType)
|
||||
// We found the type that we can promote to. If this is the
|
||||
// type we wanted, we have a promotion. Otherwise, no
|
||||
// promotion.
|
||||
return Context.getCanonicalType(FromType).getUnqualifiedType()
|
||||
return Context.getCanonicalType(ToType).getUnqualifiedType()
|
||||
== Context.getCanonicalType(PromoteTypes[Idx]).getUnqualifiedType();
|
||||
}
|
||||
}
|
||||
@ -576,13 +584,15 @@ bool Sema::IsIntegralPromotion(Expr *From, QualType FromType, QualType ToType)
|
||||
|
||||
// Are we promoting to an int from a bitfield that fits in an int?
|
||||
if (BitWidth < ToSize ||
|
||||
(FromType->isSignedIntegerType() && BitWidth <= ToSize))
|
||||
(FromType->isSignedIntegerType() && BitWidth <= ToSize)) {
|
||||
return To->getKind() == BuiltinType::Int;
|
||||
|
||||
}
|
||||
|
||||
// Are we promoting to an unsigned int from an unsigned bitfield
|
||||
// that fits into an unsigned int?
|
||||
if (FromType->isUnsignedIntegerType() && BitWidth <= ToSize)
|
||||
if (FromType->isUnsignedIntegerType() && BitWidth <= ToSize) {
|
||||
return To->getKind() == BuiltinType::UInt;
|
||||
}
|
||||
|
||||
return false;
|
||||
}
|
||||
@ -590,8 +600,9 @@ bool Sema::IsIntegralPromotion(Expr *From, QualType FromType, QualType ToType)
|
||||
|
||||
// An rvalue of type bool can be converted to an rvalue of type int,
|
||||
// with false becoming zero and true becoming one (C++ 4.5p4).
|
||||
if (FromType->isBooleanType() && To && To->getKind() == BuiltinType::Int)
|
||||
if (FromType->isBooleanType() && To->getKind() == BuiltinType::Int) {
|
||||
return true;
|
||||
}
|
||||
|
||||
return false;
|
||||
}
|
||||
@ -630,7 +641,7 @@ bool Sema::IsPointerConversion(Expr *From, QualType FromType, QualType ToType,
|
||||
ConvertedType = ToType;
|
||||
return true;
|
||||
}
|
||||
|
||||
|
||||
// An rvalue of type "pointer to cv T," where T is an object type,
|
||||
// can be converted to an rvalue of type "pointer to cv void" (C++
|
||||
// 4.10p2).
|
||||
@ -709,7 +720,8 @@ bool Sema::CheckPointerConversion(Expr *From, QualType ToType) {
|
||||
|
||||
if (const PointerType *FromPtrType = FromType->getAsPointerType())
|
||||
if (const PointerType *ToPtrType = ToType->getAsPointerType()) {
|
||||
BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/false);
|
||||
BasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/false,
|
||||
/*DetectVirtual=*/false);
|
||||
QualType FromPointeeType = FromPtrType->getPointeeType(),
|
||||
ToPointeeType = ToPtrType->getPointeeType();
|
||||
if (FromPointeeType->isRecordType() &&
|
||||
|
@ -18,7 +18,7 @@ void test() {
|
||||
|
||||
while (struct S {} x=0) ; // expected-error: {{types may not be defined in conditions}} expected-error: {{incompatible type}} expected-error: {{expression must have bool type}}
|
||||
while (struct {} x=0) ; // expected-error: {{types may not be defined in conditions}} expected-error: {{incompatible type}} expected-error: {{expression must have bool type}}
|
||||
switch (enum {E} x=0) ; // expected-error: {{types may not be defined in conditions}}
|
||||
switch (enum {E} x=0) ; // expected-error: {{types may not be defined in conditions}} expected-error: {{incompatible type}}
|
||||
|
||||
if (int x=0) { // expected-error: {{previous definition is here}}
|
||||
int x; // expected-error: {{redefinition of 'x'}}
|
||||
|
55
clang/test/SemaCXX/dynamic-cast.cpp
Normal file
55
clang/test/SemaCXX/dynamic-cast.cpp
Normal file
@ -0,0 +1,55 @@
|
||||
// RUN: clang -fsyntax-only -verify %s
|
||||
|
||||
struct A {};
|
||||
struct B : A {};
|
||||
struct C : B {};
|
||||
|
||||
struct D : private A {};
|
||||
struct E : A {};
|
||||
struct F : B, E {};
|
||||
|
||||
struct Incomplete;
|
||||
|
||||
void basic_bad()
|
||||
{
|
||||
// ptr -> nonptr
|
||||
(void)dynamic_cast<A>((A*)0); // expected-error {{'struct A' is not a reference or pointer}}
|
||||
// nonptr -> ptr
|
||||
(void)dynamic_cast<A*>(0); // expected-error {{'int' is not a pointer}}
|
||||
// ptr -> noncls
|
||||
(void)dynamic_cast<int*>((A*)0); // expected-error {{'int' is not a class}}
|
||||
// noncls -> ptr
|
||||
(void)dynamic_cast<A*>((int*)0); // expected-error {{'int' is not a class}}
|
||||
// ref -> noncls
|
||||
(void)dynamic_cast<int&>(*((A*)0)); // expected-error {{'int' is not a class}}
|
||||
// noncls -> ref
|
||||
(void)dynamic_cast<A&>(*((int*)0)); // expected-error {{'int' is not a class}}
|
||||
// ptr -> incomplete
|
||||
(void)dynamic_cast<Incomplete*>((A*)0); // expected-error {{'struct Incomplete' is incomplete}}
|
||||
// incomplete -> ptr
|
||||
(void)dynamic_cast<A*>((Incomplete*)0); // expected-error {{'struct Incomplete' is incomplete}}
|
||||
}
|
||||
|
||||
void same()
|
||||
{
|
||||
(void)dynamic_cast<A*>((A*)0);
|
||||
(void)dynamic_cast<A&>(*((A*)0));
|
||||
}
|
||||
|
||||
void up()
|
||||
{
|
||||
(void)dynamic_cast<A*>((B*)0);
|
||||
(void)dynamic_cast<A&>(*((B*)0));
|
||||
(void)dynamic_cast<A*>((C*)0);
|
||||
(void)dynamic_cast<A&>(*((C*)0));
|
||||
|
||||
// Inaccessible
|
||||
//(void)dynamic_cast<A*>((D*)0);
|
||||
//(void)dynamic_cast<A&>(*((D*)0));
|
||||
|
||||
// Ambiguous
|
||||
(void)dynamic_cast<A*>((F*)0); // expected-error {{ambiguous conversion from derived class 'struct F' to base class 'struct A':\n struct F -> struct B -> struct A\n struct F -> struct E -> struct A}}
|
||||
(void)dynamic_cast<A&>(*((F*)0)); // expected-error {{ambiguous conversion from derived class 'struct F' to base class 'struct A':\n struct F -> struct B -> struct A\n struct F -> struct E -> struct A}}
|
||||
}
|
||||
|
||||
// FIXME: Other test cases require recognition of polymorphic classes.
|
120
clang/test/SemaCXX/static-cast.cpp
Normal file
120
clang/test/SemaCXX/static-cast.cpp
Normal file
@ -0,0 +1,120 @@
|
||||
// RUN: clang -fsyntax-only -verify %s
|
||||
|
||||
struct A {};
|
||||
struct B : public A {}; // Single public base.
|
||||
struct C1 : public virtual B {}; // Single virtual base.
|
||||
struct C2 : public virtual B {};
|
||||
struct D : public C1, public C2 {}; // Diamond
|
||||
struct E : private A {}; // Single private base.
|
||||
struct F : public C1 {}; // Single path to B with virtual.
|
||||
struct G1 : public B {};
|
||||
struct G2 : public B {};
|
||||
struct H : public G1, public G2 {}; // Ambiguous path to B.
|
||||
|
||||
enum Enum { En1, En2 };
|
||||
enum Onom { On1, On2 };
|
||||
|
||||
// Explicit implicits
|
||||
void t_529_2()
|
||||
{
|
||||
int i = 1;
|
||||
(void)static_cast<float>(i);
|
||||
double d = 1.0;
|
||||
(void)static_cast<float>(d);
|
||||
(void)static_cast<int>(d);
|
||||
(void)static_cast<char>(i);
|
||||
(void)static_cast<unsigned long>(i);
|
||||
(void)static_cast<int>(En1);
|
||||
(void)static_cast<double>(En1);
|
||||
(void)static_cast<int&>(i);
|
||||
(void)static_cast<const int&>(i);
|
||||
|
||||
int ar[1];
|
||||
(void)static_cast<const int*>(ar);
|
||||
(void)static_cast<void (*)()>(t_529_2);
|
||||
|
||||
(void)static_cast<void*>(0);
|
||||
(void)static_cast<void*>((int*)0);
|
||||
(void)static_cast<volatile const void*>((const int*)0);
|
||||
(void)static_cast<A*>((B*)0);
|
||||
// TryCopyInitialization doesn't handle references yet.
|
||||
(void)static_cast<A&>(*((B*)0));
|
||||
(void)static_cast<const B*>((C1*)0);
|
||||
(void)static_cast<B&>(*((C1*)0));
|
||||
(void)static_cast<A*>((D*)0);
|
||||
(void)static_cast<const A&>(*((D*)0));
|
||||
|
||||
// TODO: User-defined conversions
|
||||
|
||||
// Bad code below
|
||||
|
||||
(void)static_cast<void*>((const int*)0); // expected-error {{static_cast from 'int const *' to 'void *' is not allowed}}
|
||||
//(void)static_cast<A*>((E*)0); // {{static_cast from 'struct E *' to 'struct A *' is not allowed}}
|
||||
//(void)static_cast<A*>((H*)0); // {{static_cast from 'struct H *' to 'struct A *' is not allowed}}
|
||||
(void)static_cast<int>((int*)0); // expected-error {{static_cast from 'int *' to 'int' is not allowed}}
|
||||
(void)static_cast<A**>((B**)0); // expected-error {{static_cast from 'struct B **' to 'struct A **' is not allowed}}
|
||||
(void)static_cast<char&>(i); // expected-error {{static_cast from 'int' to 'char &' is not allowed}}
|
||||
}
|
||||
|
||||
// Anything to void
|
||||
void t_529_4()
|
||||
{
|
||||
static_cast<void>(1);
|
||||
static_cast<void>(t_529_4);
|
||||
}
|
||||
|
||||
// Static downcasts
|
||||
void t_529_5_8()
|
||||
{
|
||||
(void)static_cast<B*>((A*)0);
|
||||
(void)static_cast<B&>(*((A*)0));
|
||||
(void)static_cast<const G1*>((A*)0);
|
||||
(void)static_cast<const G1&>(*((A*)0));
|
||||
|
||||
// Bad code below
|
||||
|
||||
(void)static_cast<C1*>((A*)0); // expected-error {{static_cast from 'struct A *' to 'struct C1 *' is not allowed}}
|
||||
(void)static_cast<C1&>(*((A*)0)); // expected-error {{static_cast from 'struct A' to 'struct C1 &' is not allowed}}
|
||||
(void)static_cast<D*>((A*)0); // expected-error {{static_cast from 'struct A *' to 'struct D *' is not allowed}}
|
||||
(void)static_cast<D&>(*((A*)0)); // expected-error {{static_cast from 'struct A' to 'struct D &' is not allowed}}
|
||||
(void)static_cast<B*>((const A*)0); // expected-error {{static_cast from 'struct A const *' to 'struct B *' is not allowed}}
|
||||
(void)static_cast<B&>(*((const A*)0)); // expected-error {{static_cast from 'struct A const' to 'struct B &' is not allowed}}
|
||||
// Accessibility is not yet tested
|
||||
//(void)static_cast<E*>((A*)0); // {{static_cast from 'struct A *' to 'struct E *' is not allowed}}
|
||||
//(void)static_cast<E&>(*((A*)0)); // {{static_cast from 'struct A' to 'struct E &' is not allowed}}
|
||||
(void)static_cast<H*>((A*)0); // expected-error {{static_cast from 'struct A *' to 'struct H *' is not allowed}}
|
||||
(void)static_cast<H&>(*((A*)0)); // expected-error {{static_cast from 'struct A' to 'struct H &' is not allowed}}
|
||||
(void)static_cast<E*>((B*)0); // expected-error {{static_cast from 'struct B *' to 'struct E *' is not allowed}}
|
||||
(void)static_cast<E&>(*((B*)0)); // expected-error {{static_cast from 'struct B' to 'struct E &' is not allowed}}
|
||||
|
||||
// TODO: Test inaccessible base in context where it's accessible, i.e.
|
||||
// member function and friend.
|
||||
|
||||
// TODO: Test DR427. This requires user-defined conversions, though.
|
||||
}
|
||||
|
||||
// Enum conversions
|
||||
void t_529_7()
|
||||
{
|
||||
(void)static_cast<Enum>(1);
|
||||
(void)static_cast<Enum>(1.0);
|
||||
(void)static_cast<Onom>(En1);
|
||||
|
||||
// Bad code below
|
||||
|
||||
(void)static_cast<Enum>((int*)0); // expected-error {{static_cast from 'int *' to 'enum Enum' is not allowed}}
|
||||
}
|
||||
|
||||
// Void pointer to object pointer
|
||||
void t_529_10()
|
||||
{
|
||||
(void)static_cast<int*>((void*)0);
|
||||
(void)static_cast<const A*>((void*)0);
|
||||
|
||||
// Bad code below
|
||||
|
||||
(void)static_cast<int*>((const void*)0); // expected-error {{static_cast from 'void const *' to 'int *' is not allowed}}
|
||||
(void)static_cast<void (*)()>((void*)0); // expected-error {{static_cast from 'void *' to 'void (*)(void)' is not allowed}}
|
||||
}
|
||||
|
||||
// TODO: Test member pointers.
|
Loading…
Reference in New Issue
Block a user