Dramatically simplify recursive type processing. Fixed a few bugs, a few still remain :(

Why does this stuff have to come up NOW?

llvm-svn: 1089
This commit is contained in:
Chris Lattner 2001-11-02 07:51:31 +00:00
parent 8573672b7f
commit e40fa529cd

View File

@ -303,15 +303,13 @@ static bool TypesEqual(const Type *Ty, const Type *Ty2,
if (isa<OpaqueType>(Ty))
return false; // Two nonequal opaque types are never equal
if (Ty != Ty2) {
map<const Type*, const Type*>::iterator I = EqTypes.find(Ty);
if (I != EqTypes.end())
return I->second == Ty2; // Looping back on a type, check for equality
map<const Type*, const Type*>::iterator It = EqTypes.find(Ty);
if (It != EqTypes.end())
return It->second == Ty2; // Looping back on a type, check for equality
// Otherwise, add the mapping to the table to make sure we don't get
// recursion on the types...
EqTypes.insert(make_pair(Ty, Ty2));
}
// Otherwise, add the mapping to the table to make sure we don't get
// recursion on the types...
EqTypes.insert(make_pair(Ty, Ty2));
// Iterate over the types and make sure the the contents are equivalent...
Type::subtype_iterator I = Ty ->subtype_begin(), IE = Ty ->subtype_end();
@ -330,7 +328,6 @@ static bool TypesEqual(const Type *Ty, const Type *Ty2,
return false;
}
return I == IE && I2 == IE2; // Types equal if both iterators are done
}
@ -436,11 +433,12 @@ protected:
ValType Tmp(*(ValType*)this); // Copy this.
PATypeHandle<TypeClass> OldType(Table.get(*(ValType*)this), this);
Table.remove(*(ValType*)this); // Destroy's this!
#if 1
// Refine temporary to new state...
Tmp.doRefinement(OldTy, NewTy);
Table.add((ValType&)Tmp, (TypeClass*)OldType.get());
#endif
}
};
@ -685,7 +683,7 @@ void DerivedType::removeAbstractTypeUser(AbstractTypeUser *U) const {
if (AbstractTypeUsers.empty()) {
#ifdef DEBUG_MERGE_TYPES
cerr << "DELETEing unused abstract type: " << getDescription()
<< " " << (void*)this << endl;
<< "[" << (void*)this << "]" << endl;
#endif
delete this; // No users of this abstract type!
}
@ -767,7 +765,7 @@ void DerivedType::refineAbstractTypeTo(const Type *NewType) {
//
void DerivedType::typeIsRefined() {
assert(isRefining >= 0 && isRefining <= 2 && "isRefining out of bounds!");
if (isRefining == 2) return; // Kill recursion here...
if (isRefining == 1) return; // Kill recursion here...
++isRefining;
#ifdef DEBUG_MERGE_TYPES
@ -782,8 +780,9 @@ void DerivedType::typeIsRefined() {
ATU->refineAbstractType(this, this);
// If the user didn't remove itself from the list, continue...
if (AbstractTypeUsers.size() > i && AbstractTypeUsers[i] == ATU)
if (AbstractTypeUsers.size() > i && AbstractTypeUsers[i] == ATU) {
++i;
}
}
--isRefining;
@ -804,37 +803,20 @@ void MethodType::refineAbstractType(const DerivedType *OldType,
<< NewType->getDescription() << "])\n";
#endif
if (OldType == ResultType) {
ResultType = NewType;
if (OldType != NewType) {
if (ResultType == OldType) ResultType = NewType;
for (unsigned i = 0; i < ParamTys.size(); ++i)
if (ParamTys[i] == OldType) ParamTys[i] = NewType;
}
const MethodType *MT = MethodTypes.containsEquivalent(this);
if (MT && MT != this) {
refineAbstractTypeTo(MT); // Different type altogether...
} else {
unsigned i;
for (i = 0; i < ParamTys.size(); ++i)
if (OldType == ParamTys[i]) {
ParamTys[i] = NewType;
break;
}
assert(i != ParamTys.size() && "Did not contain oldtype!");
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
// Notify everyone that I have changed!
if (const MethodType *MTy = MethodTypes.containsEquivalent(this)) {
#ifndef _NDEBUG
// Calculate accurate name for debugging purposes
vector<const Type *> TypeStack;
bool isAbstract = false, isRecursive = false;
setDescription(getTypeProps(this, TypeStack, isAbstract, isRecursive));
#endif
#ifdef DEBUG_MERGE_TYPES
cerr << "Type " << (void*)this << " equilivant to existing " << (void*)MTy
<< " - destroying!\n";
#endif
refineAbstractTypeTo(MTy); // Different type altogether...
return;
}
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined();
}
@ -849,27 +831,15 @@ void ArrayType::refineAbstractType(const DerivedType *OldType,
<< OldType->getDescription() << "], " << (void*)NewType << " ["
<< NewType->getDescription() << "])\n";
#endif
assert(OldType == ElementType && "Cannot refine from OldType!");
ElementType = NewType;
// Notify everyone that I have changed!
if (const ArrayType *ATy = ArrayTypes.containsEquivalent(this)) {
#ifndef _NDEBUG
// Calculate accurate name for debugging purposes
vector<const Type *> TypeStack;
bool isAbstract = false, isRecursive = false;
setDescription(getTypeProps(this, TypeStack, isAbstract, isRecursive));
#endif
#ifdef DEBUG_MERGE_TYPES
cerr << "Type " << (void*)this << " equilivant to existing " << (void*)ATy
<< " - destroying!\n";
#endif
refineAbstractTypeTo(ATy); // Different type altogether...
return;
const ArrayType *AT = ArrayTypes.containsEquivalent(this);
if (AT && AT != this) {
refineAbstractTypeTo(AT); // Different type altogether...
} else {
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
@ -884,40 +854,20 @@ void StructType::refineAbstractType(const DerivedType *OldType,
<< OldType->getDescription() << "], " << (void*)NewType << " ["
<< NewType->getDescription() << "])\n";
#endif
if (OldType != NewType) {
unsigned i;
for (i = 0; i < ETypes.size(); ++i)
if (OldType == ETypes[i]) {
ETypes[i] = NewType;
break;
}
assert(i != ETypes.size() && "Did not contain oldtype!");
// Update old type to new type in the array...
for (unsigned i = 0; i < ETypes.size(); ++i)
if (ETypes[i] == OldType)
ETypes[i] = NewType;
}
vector<const Type *> ElTypes(
map_iterator(ETypes.begin(), mem_fun_ref(&PATypeHandle<Type>::get)),
map_iterator(ETypes.end() , mem_fun_ref(&PATypeHandle<Type>::get)));
// Notify everyone that I have changed!
if (const StructType *STy = StructTypes.containsEquivalent(this)) {
#ifndef _NDEBUG
// Calculate accurate name for debugging purposes
vector<const Type *> TypeStack;
bool isAbstract = false, isRecursive = false;
setDescription(getTypeProps(this, TypeStack, isAbstract, isRecursive));
#endif
#ifdef DEBUG_MERGE_TYPES
cerr << "Type " << (void*)this << " equilivant to existing " << (void*)STy
<< " - destroying!\n";
#endif
refineAbstractTypeTo(STy); // Different type altogether...
return;
const StructType *ST = StructTypes.containsEquivalent(this);
if (ST && ST != this) {
refineAbstractTypeTo(ST); // Different type altogether...
} else {
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
// refineAbstractType - Called when a contained type is found to be more
@ -931,26 +881,15 @@ void PointerType::refineAbstractType(const DerivedType *OldType,
<< OldType->getDescription() << "], " << (void*)NewType << " ["
<< NewType->getDescription() << "])\n";
#endif
assert(OldType == ValueType && "Cannot refine from OldType!");
ValueType = NewType;
const PointerType *PT = PointerTypes.containsEquivalent(this);
// Notify everyone that I have changed!
if (const PointerType *PTy = PointerTypes.containsEquivalent(this)) {
#ifndef _NDEBUG
// Calculate accurate name for debugging purposes
vector<const Type *> TypeStack;
bool isAbstract = false, isRecursive = false;
setDescription(getTypeProps(this, TypeStack, isAbstract, isRecursive));
#endif
#ifdef DEBUG_MERGE_TYPES
cerr << "Type " << (void*)this << " equilivant to existing " << (void*)PTy
<< " - destroying!\n";
#endif
refineAbstractTypeTo(PTy); // Different type altogether...
return;
if (PT && PT != this) {
refineAbstractTypeTo(PT); // Different type altogether...
} else {
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}
setDerivedTypeProperties(); // Update the name and isAbstract
typeIsRefined(); // Same type, different contents...
}