/// represents both boolean and integral constants.
/// @brief Class for constant integers.
class ConstantInt : public Constant {
+ static ConstantInt *TheTrueVal, *TheFalseVal;
protected:
uint64_t Val;
protected:
/// getTrue/getFalse - Return the singleton true/false values.
static inline ConstantInt *getTrue() {
- static ConstantInt *T = 0;
- if (T) return T;
- return T = new ConstantInt(Type::Int1Ty, 1);
+ if (TheTrueVal) return TheTrueVal;
+ return CreateTrueFalseVals(true);
}
static inline ConstantInt *getFalse() {
- static ConstantInt *F = 0;
- if (F) return F;
- return F = new ConstantInt(Type::Int1Ty, 0);
+ if (TheFalseVal) return TheFalseVal;
+ return CreateTrueFalseVals(false);
}
/// Return a ConstantInt with the specified value for the specified type. The
static bool classof(const Value *V) {
return V->getValueType() == ConstantIntVal;
}
+ static void ResetTrueFalse() { TheTrueVal = TheFalseVal = 0; }
+private:
+ static ConstantInt *CreateTrueFalseVals(bool WhichOne);
};
//
static ManagedStatic<ValueMap<uint64_t, IntegerType, ConstantInt> >IntConstants;
+
// Get a ConstantInt from an int64_t. Note here that we canoncialize the value
// to a uint64_t value that has been zero extended down to the size of the
// integer type of the ConstantInt. This allows the getZExtValue method to
// extended. getZExtValue is more common in LLVM than getSExtValue().
ConstantInt *ConstantInt::get(const Type *Ty, int64_t V) {
const IntegerType *ITy = cast<IntegerType>(Ty);
- if (Ty == Type::Int1Ty)
- if (V & 1)
- return getTrue();
- else
- return getFalse();
return IntConstants->getOrCreate(ITy, V & ITy->getBitMask());
}
+ConstantInt *ConstantInt::TheTrueVal = 0;
+ConstantInt *ConstantInt::TheFalseVal = 0;
+
+void CleanupTrueFalse(void *) {
+ ConstantInt::ResetTrueFalse();
+}
+
+static ManagedCleanup<CleanupTrueFalse> TrueFalseCleanup;
+
+ConstantInt *ConstantInt::CreateTrueFalseVals(bool WhichOne) {
+ assert(TheTrueVal == 0 && TheFalseVal == 0);
+ TheTrueVal = get(Type::Int1Ty, 1);
+ TheFalseVal = get(Type::Int1Ty, 0);
+
+ // Ensure that llvm_shutdown nulls out TheTrueVal/TheFalseVal.
+ TrueFalseCleanup.Register();
+
+ return WhichOne ? TheTrueVal : TheFalseVal;
+}
+
+
+
+
//---- ConstantFP::get() implementation...
//
namespace llvm {