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move some code around, no other change. 

llvm-svn: 49324
This commit is contained in:
Chris Lattner 2008-04-07 06:51:04 +00:00
parent ec646834e7
commit 49af6a4beb
1 changed files with 67 additions and 63 deletions
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130
clang/lib/AST/ASTContext.cpp
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@ -1435,69 +1435,9 @@ void ASTContext::setObjCConstantStringInterface(ObjCInterfaceDecl *Decl) {
ObjCConstantStringType = getObjCInterfaceType(Decl);
}
/// areCompatObjCInterfaces - Return true if the two interface types are
/// compatible for assignment from RHS to LHS. This handles validation of any
/// protocol qualifiers on the LHS or RHS.
///
static bool
areCompatObjCInterfaces(const ObjCInterfaceType *LHS,
const ObjCInterfaceType *RHS) {
// Verify that the base decls are compatible: the RHS must be a subclass of
// the LHS.
if (!LHS->getDecl()->isSuperClassOf(RHS->getDecl()))
return false;
// RHS must have a superset of the protocols in the LHS. If the LHS is not
// protocol qualified at all, then we are good.
if (!isa<ObjCQualifiedInterfaceType>(LHS))
return true;
// Okay, we know the LHS has protocol qualifiers. If the RHS doesn't, then it
// isn't a superset.
if (!isa<ObjCQualifiedInterfaceType>(RHS))
return true; // FIXME: should return false!
// Finally, we must have two protocol-qualified interfaces.
const ObjCQualifiedInterfaceType *LHSP =cast<ObjCQualifiedInterfaceType>(LHS);
const ObjCQualifiedInterfaceType *RHSP =cast<ObjCQualifiedInterfaceType>(RHS);
ObjCQualifiedInterfaceType::qual_iterator LHSPI = LHSP->qual_begin();
ObjCQualifiedInterfaceType::qual_iterator LHSPE = LHSP->qual_end();
ObjCQualifiedInterfaceType::qual_iterator RHSPI = RHSP->qual_begin();
ObjCQualifiedInterfaceType::qual_iterator RHSPE = RHSP->qual_end();
// All protocols in LHS must have a presence in RHS. Since the protocol lists
// are both sorted alphabetically and have no duplicates, we can scan RHS and
// LHS in a single parallel scan until we run out of elements in LHS.
assert(LHSPI != LHSPE && "Empty LHS protocol list?");
ObjCProtocolDecl *LHSProto = *LHSPI;
while (RHSPI != RHSPE) {
ObjCProtocolDecl *RHSProto = *RHSPI++;
// If the RHS has a protocol that the LHS doesn't, ignore it.
if (RHSProto != LHSProto)
continue;
// Otherwise, the RHS does have this element.
++LHSPI;
if (LHSPI == LHSPE)
return true; // All protocols in LHS exist in RHS.
LHSProto = *LHSPI;
}
// If we got here, we didn't find one of the LHS's protocols in the RHS list.
return false;
}
/// areCompatVectorTypes - Return true if the two specified vector types are
/// compatible.
static bool areCompatVectorTypes(const VectorType *LHS,
const VectorType *RHS) {
assert(LHS->isCanonical() && RHS->isCanonical());
return LHS->getElementType() == RHS->getElementType() &&
LHS->getNumElements() == RHS->getNumElements();
}
//===----------------------------------------------------------------------===//
// Type Compatibility Testing
//===----------------------------------------------------------------------===//
/// C99 6.2.7p1: If both are complete types, then the following additional
/// requirements apply.
@ -1606,6 +1546,70 @@ bool ASTContext::arrayTypesAreCompatible(QualType lhs, QualType rhs) {
return true;
}
/// areCompatVectorTypes - Return true if the two specified vector types are
/// compatible.
static bool areCompatVectorTypes(const VectorType *LHS,
const VectorType *RHS) {
assert(LHS->isCanonical() && RHS->isCanonical());
return LHS->getElementType() == RHS->getElementType() &&
LHS->getNumElements() == RHS->getNumElements();
}
/// areCompatObjCInterfaces - Return true if the two interface types are
/// compatible for assignment from RHS to LHS. This handles validation of any
/// protocol qualifiers on the LHS or RHS.
///
static bool
areCompatObjCInterfaces(const ObjCInterfaceType *LHS,
const ObjCInterfaceType *RHS) {
// Verify that the base decls are compatible: the RHS must be a subclass of
// the LHS.
if (!LHS->getDecl()->isSuperClassOf(RHS->getDecl()))
return false;
// RHS must have a superset of the protocols in the LHS. If the LHS is not
// protocol qualified at all, then we are good.
if (!isa<ObjCQualifiedInterfaceType>(LHS))
return true;
// Okay, we know the LHS has protocol qualifiers. If the RHS doesn't, then it
// isn't a superset.
if (!isa<ObjCQualifiedInterfaceType>(RHS))
return true; // FIXME: should return false!
// Finally, we must have two protocol-qualified interfaces.
const ObjCQualifiedInterfaceType *LHSP =cast<ObjCQualifiedInterfaceType>(LHS);
const ObjCQualifiedInterfaceType *RHSP =cast<ObjCQualifiedInterfaceType>(RHS);
ObjCQualifiedInterfaceType::qual_iterator LHSPI = LHSP->qual_begin();
ObjCQualifiedInterfaceType::qual_iterator LHSPE = LHSP->qual_end();
ObjCQualifiedInterfaceType::qual_iterator RHSPI = RHSP->qual_begin();
ObjCQualifiedInterfaceType::qual_iterator RHSPE = RHSP->qual_end();
// All protocols in LHS must have a presence in RHS. Since the protocol lists
// are both sorted alphabetically and have no duplicates, we can scan RHS and
// LHS in a single parallel scan until we run out of elements in LHS.
assert(LHSPI != LHSPE && "Empty LHS protocol list?");
ObjCProtocolDecl *LHSProto = *LHSPI;
while (RHSPI != RHSPE) {
ObjCProtocolDecl *RHSProto = *RHSPI++;
// If the RHS has a protocol that the LHS doesn't, ignore it.
if (RHSProto != LHSProto)
continue;
// Otherwise, the RHS does have this element.
++LHSPI;
if (LHSPI == LHSPE)
return true; // All protocols in LHS exist in RHS.
LHSProto = *LHSPI;
}
// If we got here, we didn't find one of the LHS's protocols in the RHS list.
return false;
}
/// typesAreCompatible - C99 6.7.3p9: For two qualified types to be compatible,
/// both shall have the identically qualified version of a compatible type.
/// C99 6.2.7p1: Two types have compatible types if their types are the