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rename getSlot -> getSlotType and getOrCreateSlot ->getOrCreateTypeSlot
for types. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@34113 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -55,7 +55,7 @@ void SlotCalculator::insertPrimitives() {
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insertType(Type::FloatTy, true); // 1: FloatTySlot
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insertType(Type::DoubleTy, true); // 2: DoubleTySlot
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insertType(Type::LabelTy, true); // 3: LabelTySlot
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assert(TypeMap.size() == Type::FirstDerivedTyID && "Invalid primitive insert");
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assert(TypeMap.size() == Type::FirstDerivedTyID &&"Invalid primitive insert");
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// Above here *must* correspond 1:1 with the primitive types.
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insertType(Type::Int1Ty, true); // 4: BoolTySlot
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insertType(Type::Int8Ty, true); // 5: Int8TySlot
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@ -161,7 +161,7 @@ void SlotCalculator::processModule() {
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isa<InlineAsm>(*OI))
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getOrCreateSlot(*OI);
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}
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getOrCreateSlot(I->getType());
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getOrCreateTypeSlot(I->getType());
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}
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}
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@ -212,7 +212,7 @@ void SlotCalculator::processModule() {
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void SlotCalculator::processTypeSymbolTable(const TypeSymbolTable *TST) {
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for (TypeSymbolTable::const_iterator TI = TST->begin(), TE = TST->end();
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TI != TE; ++TI )
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getOrCreateSlot(TI->second);
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getOrCreateTypeSlot(TI->second);
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}
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// processSymbolTable - Insert all of the values in the specified symbol table
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@ -237,7 +237,8 @@ void SlotCalculator::incorporateFunction(const Function *F) {
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ModuleTypeLevel = Types.size();
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// Iterate over function arguments, adding them to the value table...
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for(Function::const_arg_iterator I = F->arg_begin(), E = F->arg_end(); I != E; ++I)
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for(Function::const_arg_iterator I = F->arg_begin(), E = F->arg_end();
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I != E; ++I)
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getOrCreateSlot(I);
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if (!ModuleContainsAllFunctionConstants) {
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@ -326,7 +327,7 @@ int SlotCalculator::getSlot(const Value *V) const {
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return -1;
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}
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int SlotCalculator::getSlot(const Type*T) const {
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int SlotCalculator::getTypeSlot(const Type*T) const {
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std::map<const Type*, unsigned>::const_iterator I = TypeMap.find(T);
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if (I != TypeMap.end())
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return (int)I->second;
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@ -369,33 +370,33 @@ int SlotCalculator::getOrCreateSlot(const Value *V) {
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return insertValue(V);
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}
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int SlotCalculator::getOrCreateSlot(const Type* T) {
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int SlotNo = getSlot(T); // Check to see if it's already in!
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if (SlotNo != -1) return SlotNo;
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return insertType(T);
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}
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int SlotCalculator::insertValue(const Value *D, bool dontIgnore) {
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assert(D && "Can't insert a null value!");
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assert(getSlot(D) == -1 && "Value is already in the table!");
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int SlotCalculator::insertValue(const Value *V, bool dontIgnore) {
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assert(V && "Can't insert a null value!");
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assert(getSlot(V) == -1 && "Value is already in the table!");
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// If this node does not contribute to a plane, or if the node has a
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// name and we don't want names, then ignore the silly node... Note that types
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// do need slot numbers so that we can keep track of where other values land.
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//
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if (!dontIgnore) // Don't ignore nonignorables!
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if (D->getType() == Type::VoidTy ) { // Ignore void type nodes
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SC_DEBUG("ignored value " << *D << "\n");
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if (!dontIgnore) // Don't ignore nonignorables!
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if (V->getType() == Type::VoidTy) { // Ignore void type nodes
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SC_DEBUG("ignored value " << *V << "\n");
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return -1; // We do need types unconditionally though
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}
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// Okay, everything is happy, actually insert the silly value now...
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return doInsertValue(D);
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return doInsertValue(V);
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}
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int SlotCalculator::getOrCreateTypeSlot(const Type* T) {
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int SlotNo = getTypeSlot(T); // Check to see if it's already in!
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if (SlotNo != -1) return SlotNo;
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return insertType(T);
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}
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int SlotCalculator::insertType(const Type *Ty, bool dontIgnore) {
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assert(Ty && "Can't insert a null type!");
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assert(getSlot(Ty) == -1 && "Type is already in the table!");
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assert(getTypeSlot(Ty) == -1 && "Type is already in the table!");
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// Insert the current type before any subtypes. This is important because
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// recursive types elements are inserted in a bottom up order. Changing
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@ -414,7 +415,7 @@ int SlotCalculator::insertType(const Type *Ty, bool dontIgnore) {
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if (*I != Ty) {
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const Type *SubTy = *I;
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// If we haven't seen this sub type before, add it to our type table!
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if (getSlot(SubTy) == -1) {
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if (getTypeSlot(SubTy) == -1) {
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SC_DEBUG(" Inserting subtype: " << SubTy->getDescription() << "\n");
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doInsertType(SubTy);
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SC_DEBUG(" Inserted subtype: " << SubTy->getDescription() << "\n");
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@ -436,7 +437,7 @@ int SlotCalculator::doInsertValue(const Value *D) {
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// llvm_cerr << "Inserting type '"<<cast<Type>(D)->getDescription() <<"'!\n";
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if (Typ->isDerivedType()) {
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int ValSlot = getSlot(Typ);
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int ValSlot = getTypeSlot(Typ);
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if (ValSlot == -1) { // Have we already entered this type?
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// Nope, this is the first we have seen the type, process it.
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ValSlot = insertType(Typ, true);
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@ -73,7 +73,7 @@ public:
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/// plane. This returns < 0 on error!
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///
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int getSlot(const Value *V) const;
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int getSlot(const Type* T) const;
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int getTypeSlot(const Type* T) const;
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inline unsigned getNumPlanes() const { return Table.size(); }
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inline unsigned getNumTypes() const { return Types.size(); }
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@ -116,7 +116,7 @@ private:
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// they are ignored.
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//
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int getOrCreateSlot(const Value *V);
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int getOrCreateSlot(const Type *T);
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int getOrCreateTypeSlot(const Type *T);
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// insertValue - Insert a value into the value table... Return the
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// slot that it occupies, or -1 if the declaration is to be ignored
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@ -214,7 +214,7 @@ void BytecodeWriter::outputType(const Type *T) {
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break;
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case Type::FunctionTyID: {
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const FunctionType *MT = cast<FunctionType>(T);
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int Slot = Table.getSlot(MT->getReturnType());
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int Slot = Table.getTypeSlot(MT->getReturnType());
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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output_vbr(unsigned(MT->getParamAttrs(0)));
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@ -226,7 +226,7 @@ void BytecodeWriter::outputType(const Type *T) {
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FunctionType::param_iterator I = MT->param_begin();
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unsigned Idx = 1;
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for (; I != MT->param_end(); ++I) {
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Slot = Table.getSlot(*I);
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Slot = Table.getTypeSlot(*I);
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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output_vbr(unsigned(MT->getParamAttrs(Idx)));
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@ -241,7 +241,7 @@ void BytecodeWriter::outputType(const Type *T) {
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case Type::ArrayTyID: {
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const ArrayType *AT = cast<ArrayType>(T);
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int Slot = Table.getSlot(AT->getElementType());
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int Slot = Table.getTypeSlot(AT->getElementType());
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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output_vbr(AT->getNumElements());
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@ -250,7 +250,7 @@ void BytecodeWriter::outputType(const Type *T) {
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case Type::PackedTyID: {
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const PackedType *PT = cast<PackedType>(T);
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int Slot = Table.getSlot(PT->getElementType());
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int Slot = Table.getTypeSlot(PT->getElementType());
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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output_vbr(PT->getNumElements());
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@ -262,7 +262,7 @@ void BytecodeWriter::outputType(const Type *T) {
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// Output all of the element types...
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for (StructType::element_iterator I = ST->element_begin(),
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E = ST->element_end(); I != E; ++I) {
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int Slot = Table.getSlot(*I);
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int Slot = Table.getTypeSlot(*I);
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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}
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@ -274,7 +274,7 @@ void BytecodeWriter::outputType(const Type *T) {
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case Type::PointerTyID: {
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const PointerType *PT = cast<PointerType>(T);
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int Slot = Table.getSlot(PT->getElementType());
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int Slot = Table.getTypeSlot(PT->getElementType());
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assert(Slot != -1 && "Type used but not available!!");
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output_typeid((unsigned)Slot);
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break;
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@ -309,7 +309,7 @@ void BytecodeWriter::outputConstant(const Constant *CPV) {
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int Slot = Table.getSlot(*OI);
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assert(Slot != -1 && "Unknown constant used in ConstantExpr!!");
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output_vbr((unsigned)Slot);
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Slot = Table.getSlot((*OI)->getType());
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Slot = Table.getTypeSlot((*OI)->getType());
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output_typeid((unsigned)Slot);
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}
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if (CE->isCompare())
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@ -419,7 +419,7 @@ void BytecodeWriter::outputConstantStrings() {
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// Emit all of the strings.
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for (I = Table.string_begin(); I != E; ++I) {
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const ConstantArray *Str = *I;
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int Slot = Table.getSlot(Str->getType());
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int Slot = Table.getTypeSlot(Str->getType());
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assert(Slot != -1 && "Constant string of unknown type?");
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output_typeid((unsigned)Slot);
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@ -459,7 +459,7 @@ void BytecodeWriter::outputInstructionFormat0(const Instruction *I,
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}
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if (isa<CastInst>(I) || isa<VAArgInst>(I)) {
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int Slot = Table.getSlot(I->getType());
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int Slot = Table.getTypeSlot(I->getType());
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assert(Slot != -1 && "Cast return type unknown?");
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output_typeid((unsigned)Slot);
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} else if (isa<CmpInst>(I)) {
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@ -545,7 +545,7 @@ void BytecodeWriter::outputInstrVarArgsCall(const Instruction *I,
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for (unsigned i = NumFixedOperands, e = I->getNumOperands(); i != e; ++i) {
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// Output Arg Type ID
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int Slot = Table.getSlot(I->getOperand(i)->getType());
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int Slot = Table.getTypeSlot(I->getOperand(i)->getType());
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assert(Slot >= 0 && "No slot number for value!?!?");
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output_typeid((unsigned)Slot);
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@ -672,7 +672,7 @@ void BytecodeWriter::outputInstruction(const Instruction &I) {
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}
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unsigned Type;
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int Slot = Table.getSlot(Ty);
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int Slot = Table.getTypeSlot(Ty);
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assert(Slot != -1 && "Type not available!!?!");
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Type = (unsigned)Slot;
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@ -710,7 +710,7 @@ void BytecodeWriter::outputInstruction(const Instruction &I) {
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if (isa<CastInst>(I) || isa<VAArgInst>(I)) {
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// Cast has to encode the destination type as the second argument in the
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// packet, or else we won't know what type to cast to!
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Slots[1] = Table.getSlot(I.getType());
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Slots[1] = Table.getTypeSlot(I.getType());
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assert(Slots[1] != ~0U && "Cast return type unknown?");
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if (Slots[1] > MaxOpSlot) MaxOpSlot = Slots[1];
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NumOperands++;
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@ -887,7 +887,7 @@ void BytecodeWriter::outputConstantsInPlane(const std::vector<const Value*>
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output_vbr(NC);
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// Put out the Type ID Number...
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int Slot = Table.getSlot(Plane.front()->getType());
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int Slot = Table.getTypeSlot(Plane.front()->getType());
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assert (Slot != -1 && "Type in constant pool but not in function!!");
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output_typeid((unsigned)Slot);
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@ -961,7 +961,7 @@ void BytecodeWriter::outputModuleInfoBlock(const Module *M) {
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// Output the types for the global variables in the module...
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for (Module::const_global_iterator I = M->global_begin(),
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End = M->global_end(); I != End; ++I) {
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int Slot = Table.getSlot(I->getType());
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int Slot = Table.getTypeSlot(I->getType());
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assert(Slot != -1 && "Module global vars is broken!");
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assert((I->hasInitializer() || !I->hasInternalLinkage()) &&
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@ -1011,11 +1011,11 @@ void BytecodeWriter::outputModuleInfoBlock(const Module *M) {
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output_vbr((unsigned)Slot);
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}
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}
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output_typeid((unsigned)Table.getSlot(Type::VoidTy));
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output_typeid((unsigned)Table.getTypeSlot(Type::VoidTy));
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// Output the types of the functions in this module.
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for (Module::const_iterator I = M->begin(), End = M->end(); I != End; ++I) {
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int Slot = Table.getSlot(I->getType());
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int Slot = Table.getTypeSlot(I->getType());
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assert(Slot != -1 && "Module slot calculator is broken!");
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assert(Slot >= Type::FirstDerivedTyID && "Derived type not in range!");
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assert(((Slot << 6) >> 6) == Slot && "Slot # too big!");
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@ -1062,7 +1062,7 @@ void BytecodeWriter::outputModuleInfoBlock(const Module *M) {
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}
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}
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}
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output_vbr((unsigned)Table.getSlot(Type::VoidTy) << 5);
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output_vbr((unsigned)Table.getTypeSlot(Type::VoidTy) << 5);
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// Emit the list of dependent libraries for the Module.
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Module::lib_iterator LI = M->lib_begin();
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@ -1129,7 +1129,7 @@ void BytecodeWriter::outputTypeSymbolTable(const TypeSymbolTable &TST) {
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for (TypeSymbolTable::const_iterator TI = TST.begin(), TE = TST.end();
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TI != TE; ++TI) {
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// Symtab entry:[def slot #][name]
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output_typeid((unsigned)Table.getSlot(TI->second));
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output_typeid((unsigned)Table.getTypeSlot(TI->second));
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output(TI->first);
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}
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}
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@ -1165,7 +1165,7 @@ void BytecodeWriter::outputValueSymbolTable(const ValueSymbolTable &VST) {
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output_vbr((unsigned)PI->second.size());
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// Write the slot number of the type for this plane
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Slot = Table.getSlot(PI->first);
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Slot = Table.getTypeSlot(PI->first);
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assert(Slot != -1 && "Type in symtab, but not in table!");
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output_typeid((unsigned)Slot);
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