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implement the ConstantDataSequential accessor methods.

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No need for 'getOperand' :)


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@148778 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Chris Lattner 2012-01-24 04:43:41 +00:00
parent dfc8e470b6
commit 45bb5c5333
2 changed files with 100 additions and 3 deletions
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7
include/llvm/Constants.h
View File

@ -598,6 +598,10 @@ public:
return reinterpret_cast<SequentialType*>(Value::getType());
}
/// getElementType - Return the element type of the array/vector.
Type *getElementType() const;
/// Methods for support type inquiry through isa, cast, and dyn_cast:
///
static bool classof(const ConstantDataSequential *) { return true; }
@ -605,6 +609,9 @@ public:
return V->getValueID() == ConstantDataArrayVal ||
V->getValueID() == ConstantDataVectorVal;
}
private:
uint64_t getElementByteSize() const;
const char *getElementPointer(unsigned Elt) const;
};
//===----------------------------------------------------------------------===//

96
lib/VMCore/Constants.cpp
View File

@ -1919,6 +1919,40 @@ GetElementPtrConstantExpr(Constant *C, const std::vector<Constant*> &IdxList,
void ConstantDataArray::anchor() {}
void ConstantDataVector::anchor() {}
/// getElementType - Return the element type of the array/vector.
Type *ConstantDataSequential::getElementType() const {
return getType()->getElementType();
}
/// isElementTypeConstantDataCompatible - Return true if this type is valid for
/// a ConstantDataSequential. This is i8/i16/i32/i64/float/double.
static bool isElementTypeConstantDataCompatible(const Type *Ty) {
if (Ty->isFloatTy() || Ty->isDoubleTy()) return true;
if (const IntegerType *IT = dyn_cast<IntegerType>(Ty)) {
switch (IT->getBitWidth()) {
case 8:
case 16:
case 32:
case 64:
return true;
default: break;
}
}
return false;
}
/// getElementByteSize - Return the size in bytes of the elements in the data.
uint64_t ConstantDataSequential::getElementByteSize() const {
return getElementType()->getPrimitiveSizeInBits()/8;
}
/// getElementPointer - Return the start of the specified element.
const char *ConstantDataSequential::getElementPointer(unsigned Elt) const {
assert(Elt < getElementType()->getNumElements() && "Invalid Elt");
return DataElements+Elt*getElementByteSize();
}
/// isAllZeros - return true if the array is empty or all zeros.
static bool isAllZeros(StringRef Arr) {
for (StringRef::iterator I = Arr.begin(), E = Arr.end(); I != E; ++I)
@ -1931,6 +1965,8 @@ static bool isAllZeros(StringRef Arr) {
/// the correct element type. We take the bytes in as an StringRef because
/// we *want* an underlying "char*" to avoid TBAA type punning violations.
Constant *ConstantDataSequential::getImpl(StringRef Elements, Type *Ty) {
assert(isElementTypeConstantDataCompatible(cast<SequentialType>(Ty)->
getElementType()));
// If the elements are all zero, return a CAZ, which is more dense.
if (isAllZeros(Elements))
return ConstantAggregateZero::get(Ty);
@ -1959,9 +1995,7 @@ Constant *ConstantDataSequential::getImpl(StringRef Elements, Type *Ty) {
}
void ConstantDataSequential::destroyConstant() {
uint64_t ByteSize =
getType()->getElementType()->getPrimitiveSizeInBits()/8 *
getType()->getElementType()->getNumElements();
uint64_t ByteSize = getElementByteSize() * getElementType()->getNumElements();
// Remove the constant from the StringMap.
StringMap<ConstantDataSequential*> &CDSConstants =
@ -2059,6 +2093,62 @@ Constant *ConstantDataVector::get(ArrayRef<double> Elts, LLVMContext &Context) {
return getImpl(StringRef((char*)Elts.data(), Elts.size()*8), Ty);
}
/// getElementAsInteger - If this is a sequential container of integers (of
/// any size), return the specified element in the low bits of a uint64_t.
uint64_t ConstantDataSequential::getElementAsInteger(unsigned Elt) const {
assert(isa<IntegerType>(getElementType()) &&
"Accessor can only be used when element is an integer");
const char *EltPtr = getElementPointer(Elt);
// The data is stored in host byte order, make sure to cast back to the right
// type to load with the right endianness.
switch (cast<IntegerType>(getElementType())->getBitWidth()) {
default: assert(0 && "Invalid bitwidth for CDS");
case 8: return *(uint8_t*)EltPtr;
case 16: return *(uint16_t*)EltPtr;
case 32: return *(uint32_t*)EltPtr;
case 64: return *(uint64_t*)EltPtr;
}
}
/// getElementAsAPFloat - If this is a sequential container of floating point
/// type, return the specified element as an APFloat.
APFloat ConstantDataSequential::getElementAsAPFloat(unsigned Elt) const {
const char *EltPtr = getElementPointer(Elt);
switch (getElementType()->getTypeID()) {
default: assert("Accessor can only be used when element is float/double!");
case Type::FloatTyID: return APFloat(*(float*)EltPtr);
case Type::DoubleTyID: return APFloat(*(double*)EltPtr);
}
}
/// getElementAsFloat - If this is an sequential container of floats, return
/// the specified element as a float.
float ConstantDataSequential::getElementAsFloat(unsigned Elt) const {
assert(getElementType()->isFloatTy() &&
"Accessor can only be used when element is a 'float'");
return *(float*)getElementPointer(Elt);
}
/// getElementAsDouble - If this is an sequential container of doubles, return
/// the specified element as a float.
double ConstantDataSequential::getElementAsDouble(unsigned Elt) const {
assert(getElementType()->isDoubleTy() &&
"Accessor can only be used when element is a 'float'");
return *(double*)getElementPointer(Elt);
}
/// getElementAsConstant - Return a Constant for a specified index's element.
/// Note that this has to compute a new constant to return, so it isn't as
/// efficient as getElementAsInteger/Float/Double.
Constant *ConstantDataSequential::getElementAsConstant(unsigned Elt) const {
if (getElementType()->isFloatTy() || getElementType()->isDoubleTy())
return ConstantFP::get(getContext(), getElementAsAPFloat(Elt));
return ConstantInt::get(getElementType(), getElementAsInteger(Elt));
}