//
// Unfortunately we can't overload operators on pointer types (like this:)
//
-// inline bool operator==(const ConstPoolVal *V1, const ConstPoolVal *V2)
+// inline bool operator==(const Constant *V1, const Constant *V2)
//
// so we must make due with references, even though it leads to some butt ugly
-// looking code downstream. *sigh* (ex: ConstPoolVal *Result = *V1 + *v2; )
+// looking code downstream. *sigh* (ex: Constant *Result = *V1 + *v2; )
//
//===----------------------------------------------------------------------===//
//
//
//===----------------------------------------------------------------------===//
-#ifndef LLVM_OPT_CONSTANTHANDLING_H
-#define LLVM_OPT_CONSTANTHANDLING_H
+#ifndef LLVM_CONSTANTHANDLING_H
+#define LLVM_CONSTANTHANDLING_H
-#include "llvm/ConstPoolVals.h"
-#include "llvm/Instruction.h"
+#include "llvm/Constants.h"
#include "llvm/Type.h"
class PointerType;
-namespace opt {
-
//===----------------------------------------------------------------------===//
// Implement == and != directly...
//===----------------------------------------------------------------------===//
-inline ConstPoolBool *operator==(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
+inline ConstantBool *operator==(const Constant &V1,
+ const Constant &V2) {
assert(V1.getType() == V2.getType() && "Constant types must be identical!");
- return ConstPoolBool::get(&V1 == &V2);
+ return ConstantBool::get(&V1 == &V2);
}
-inline ConstPoolBool *operator!=(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
- return ConstPoolBool::get(&V1 != &V2);
+inline ConstantBool *operator!=(const Constant &V1,
+ const Constant &V2) {
+ return ConstantBool::get(&V1 != &V2);
}
//===----------------------------------------------------------------------===//
public:
static AnnotationID AID; // AnnotationID for this class
- // Unary Operators...
- virtual ConstPoolVal *op_not(const ConstPoolVal *V) const = 0;
-
// Binary Operators...
- virtual ConstPoolVal *add(const ConstPoolVal *V1,
- const ConstPoolVal *V2) const = 0;
- virtual ConstPoolVal *sub(const ConstPoolVal *V1,
- const ConstPoolVal *V2) const = 0;
- virtual ConstPoolVal *mul(const ConstPoolVal *V1,
- const ConstPoolVal *V2) const = 0;
-
- virtual ConstPoolBool *lessthan(const ConstPoolVal *V1,
- const ConstPoolVal *V2) const = 0;
+ virtual Constant *add(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *sub(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *mul(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *div(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *rem(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *op_and(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *op_or (const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *op_xor(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *shl(const Constant *V1, const Constant *V2) const = 0;
+ virtual Constant *shr(const Constant *V1, const Constant *V2) const = 0;
+
+ virtual ConstantBool *lessthan(const Constant *V1,
+ const Constant *V2) const = 0;
// Casting operators. ick
- virtual ConstPoolBool *castToBool (const ConstPoolVal *V) const = 0;
- virtual ConstPoolSInt *castToSByte (const ConstPoolVal *V) const = 0;
- virtual ConstPoolUInt *castToUByte (const ConstPoolVal *V) const = 0;
- virtual ConstPoolSInt *castToShort (const ConstPoolVal *V) const = 0;
- virtual ConstPoolUInt *castToUShort(const ConstPoolVal *V) const = 0;
- virtual ConstPoolSInt *castToInt (const ConstPoolVal *V) const = 0;
- virtual ConstPoolUInt *castToUInt (const ConstPoolVal *V) const = 0;
- virtual ConstPoolSInt *castToLong (const ConstPoolVal *V) const = 0;
- virtual ConstPoolUInt *castToULong (const ConstPoolVal *V) const = 0;
- virtual ConstPoolFP *castToFloat (const ConstPoolVal *V) const = 0;
- virtual ConstPoolFP *castToDouble(const ConstPoolVal *V) const = 0;
- virtual ConstPoolPointer *castToPointer(const ConstPoolVal *V,
- const PointerType *Ty) const = 0;
-
- inline ConstPoolVal *castTo(const ConstPoolVal *V, const Type *Ty) const {
+ virtual ConstantBool *castToBool (const Constant *V) const = 0;
+ virtual ConstantSInt *castToSByte (const Constant *V) const = 0;
+ virtual ConstantUInt *castToUByte (const Constant *V) const = 0;
+ virtual ConstantSInt *castToShort (const Constant *V) const = 0;
+ virtual ConstantUInt *castToUShort(const Constant *V) const = 0;
+ virtual ConstantSInt *castToInt (const Constant *V) const = 0;
+ virtual ConstantUInt *castToUInt (const Constant *V) const = 0;
+ virtual ConstantSInt *castToLong (const Constant *V) const = 0;
+ virtual ConstantUInt *castToULong (const Constant *V) const = 0;
+ virtual ConstantFP *castToFloat (const Constant *V) const = 0;
+ virtual ConstantFP *castToDouble(const Constant *V) const = 0;
+ virtual ConstantPointer *castToPointer(const Constant *V,
+ const PointerType *Ty) const = 0;
+
+ inline Constant *castTo(const Constant *V, const Type *Ty) const {
switch (Ty->getPrimitiveID()) {
case Type::BoolTyID: return castToBool(V);
case Type::UByteTyID: return castToUByte(V);
// we just want to make sure to hit the cache instead of doing it indirectly,
// if possible...
//
- static inline ConstRules *get(const ConstPoolVal &V) {
+ static inline ConstRules *get(const Constant &V) {
return (ConstRules*)V.getType()->getOrCreateAnnotation(AID);
}
private :
};
-inline ConstPoolVal *operator!(const ConstPoolVal &V) {
- return ConstRules::get(V)->op_not(&V);
+// Standard binary operators...
+inline Constant *operator+(const Constant &V1, const Constant &V2) {
+ assert(V1.getType() == V2.getType() && "Constant types must be identical!");
+ return ConstRules::get(V1)->add(&V1, &V2);
}
+inline Constant *operator-(const Constant &V1, const Constant &V2) {
+ assert(V1.getType() == V2.getType() && "Constant types must be identical!");
+ return ConstRules::get(V1)->sub(&V1, &V2);
+}
+inline Constant *operator*(const Constant &V1, const Constant &V2) {
+ assert(V1.getType() == V2.getType() && "Constant types must be identical!");
+ return ConstRules::get(V1)->mul(&V1, &V2);
+}
-inline ConstPoolVal *operator+(const ConstPoolVal &V1, const ConstPoolVal &V2) {
+inline Constant *operator/(const Constant &V1, const Constant &V2) {
assert(V1.getType() == V2.getType() && "Constant types must be identical!");
- return ConstRules::get(V1)->add(&V1, &V2);
+ return ConstRules::get(V1)->div(&V1, &V2);
}
-inline ConstPoolVal *operator-(const ConstPoolVal &V1, const ConstPoolVal &V2) {
+inline Constant *operator%(const Constant &V1, const Constant &V2) {
assert(V1.getType() == V2.getType() && "Constant types must be identical!");
- return ConstRules::get(V1)->sub(&V1, &V2);
+ return ConstRules::get(V1)->rem(&V1, &V2);
}
-inline ConstPoolVal *operator*(const ConstPoolVal &V1, const ConstPoolVal &V2) {
+// Logical Operators...
+inline Constant *operator&(const Constant &V1, const Constant &V2) {
assert(V1.getType() == V2.getType() && "Constant types must be identical!");
- return ConstRules::get(V1)->mul(&V1, &V2);
+ return ConstRules::get(V1)->op_and(&V1, &V2);
}
-inline ConstPoolBool *operator<(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
+inline Constant *operator|(const Constant &V1, const Constant &V2) {
+ assert(V1.getType() == V2.getType() && "Constant types must be identical!");
+ return ConstRules::get(V1)->op_or(&V1, &V2);
+}
+
+inline Constant *operator^(const Constant &V1, const Constant &V2) {
+ assert(V1.getType() == V2.getType() && "Constant types must be identical!");
+ return ConstRules::get(V1)->op_xor(&V1, &V2);
+}
+
+// Shift Instructions...
+inline Constant *operator<<(const Constant &V1, const Constant &V2) {
+ assert(V1.getType()->isInteger() && V2.getType() == Type::UByteTy);
+ return ConstRules::get(V1)->shl(&V1, &V2);
+}
+
+inline Constant *operator>>(const Constant &V1, const Constant &V2) {
+ assert(V1.getType()->isInteger() && V2.getType() == Type::UByteTy);
+ return ConstRules::get(V1)->shr(&V1, &V2);
+}
+
+inline ConstantBool *operator<(const Constant &V1,
+ const Constant &V2) {
assert(V1.getType() == V2.getType() && "Constant types must be identical!");
return ConstRules::get(V1)->lessthan(&V1, &V2);
}
// Implement 'derived' operators based on what we already have...
//===----------------------------------------------------------------------===//
-inline ConstPoolBool *operator>(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
+inline ConstantBool *operator>(const Constant &V1,
+ const Constant &V2) {
return V2 < V1;
}
-inline ConstPoolBool *operator>=(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
+inline ConstantBool *operator>=(const Constant &V1,
+ const Constant &V2) {
return (V1 < V2)->inverted(); // !(V1 < V2)
}
-inline ConstPoolBool *operator<=(const ConstPoolVal &V1,
- const ConstPoolVal &V2) {
+inline ConstantBool *operator<=(const Constant &V1,
+ const Constant &V2) {
return (V1 > V2)->inverted(); // !(V1 > V2)
}
// Implement higher level instruction folding type instructions
//===----------------------------------------------------------------------===//
-inline ConstPoolVal *ConstantFoldCastInstruction(ConstPoolVal *V,
- const Type *DestTy) {
- return ConstRules::get(*V)->castTo(V, DestTy);
-}
+// ConstantFoldInstruction - Attempt to constant fold the specified instruction.
+// If successful, the constant result is returned, if not, null is returned.
+//
+Constant *ConstantFoldInstruction(Instruction *I);
-inline ConstPoolVal *ConstantFoldUnaryInstruction(unsigned Opcode,
- ConstPoolVal *V) {
- switch (Opcode) {
- case Instruction::Not: return !*V;
- // TODO: Handle get element ptr instruction here in the future? GEP null?
- }
- return 0;
-}
-
-inline ConstPoolVal *ConstantFoldBinaryInstruction(unsigned Opcode,
- ConstPoolVal *V1,
- ConstPoolVal *V2) {
- switch (Opcode) {
- case Instruction::Add: return *V1 + *V2;
- case Instruction::Sub: return *V1 - *V2;
-
- case Instruction::SetEQ: return *V1 == *V2;
- case Instruction::SetNE: return *V1 != *V2;
- case Instruction::SetLE: return *V1 <= *V2;
- case Instruction::SetGE: return *V1 >= *V2;
- case Instruction::SetLT: return *V1 < *V2;
- case Instruction::SetGT: return *V1 > *V2;
- }
- return 0;
-}
+// Constant fold various types of instruction...
+Constant *ConstantFoldCastInstruction(const Constant *V, const Type *DestTy);
+Constant *ConstantFoldBinaryInstruction(unsigned Opcode, const Constant *V1,
+ const Constant *V2);
+Constant *ConstantFoldShiftInstruction(unsigned Opcode, const Constant *V1,
+ const Constant *V2);
-} // end namespace opt
#endif