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Use a sorted array to store the information about a few address spaces.
We don't have any test with more than 6 address spaces, so a DenseMap is probably not the correct answer. An unsorted array would also be OK, but we have to sort it for printing anyway. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@202275 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -115,7 +115,14 @@ private:
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/// pointers vs. 64-bit pointers by extending LayoutAlignment, but for now,
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/// we don't.
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SmallVector<LayoutAlignElem, 16> Alignments;
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DenseMap<unsigned, PointerAlignElem> Pointers;
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typedef SmallVector<PointerAlignElem, 8> PointersTy;
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PointersTy Pointers;
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PointersTy::const_iterator findPoiterLowerBound(uint32_t AddressSpace) const {
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return const_cast<DataLayout *>(this)->findPoiterLowerBound(AddressSpace);
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}
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PointersTy::iterator findPoiterLowerBound(uint32_t AddressSpace);
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/// InvalidAlignmentElem - This member is a signal that a requested alignment
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/// type and bit width were not found in the SmallVector.
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@ -374,18 +374,29 @@ DataLayout::setAlignment(AlignTypeEnum align_type, unsigned abi_align,
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pref_align, bit_width));
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}
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static bool comparePointerAlignElem(const PointerAlignElem &A,
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uint32_t AddressSpace) {
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return A.AddressSpace < AddressSpace;
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}
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DataLayout::PointersTy::iterator
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DataLayout::findPoiterLowerBound(uint32_t AddressSpace) {
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return std::lower_bound(Pointers.begin(), Pointers.end(), AddressSpace,
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comparePointerAlignElem);
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}
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void DataLayout::setPointerAlignment(uint32_t AddrSpace, unsigned ABIAlign,
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unsigned PrefAlign,
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uint32_t TypeByteWidth) {
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assert(ABIAlign <= PrefAlign && "Preferred alignment worse than ABI!");
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DenseMap<unsigned,PointerAlignElem>::iterator val = Pointers.find(AddrSpace);
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if (val == Pointers.end()) {
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Pointers[AddrSpace] =
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PointerAlignElem::get(AddrSpace, ABIAlign, PrefAlign, TypeByteWidth);
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PointersTy::iterator I = findPoiterLowerBound(AddrSpace);
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if (I == Pointers.end() || I->AddressSpace != AddrSpace) {
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Pointers.insert(I, PointerAlignElem::get(AddrSpace, ABIAlign, PrefAlign,
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TypeByteWidth));
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} else {
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val->second.ABIAlign = ABIAlign;
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val->second.PrefAlign = PrefAlign;
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val->second.TypeByteWidth = TypeByteWidth;
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I->ABIAlign = ABIAlign;
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I->PrefAlign = PrefAlign;
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I->TypeByteWidth = TypeByteWidth;
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}
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}
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@ -529,19 +540,9 @@ std::string DataLayout::getStringRepresentation() const {
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break;
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}
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SmallVector<unsigned, 8> addrSpaces;
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// Lets get all of the known address spaces and sort them
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// into increasing order so that we can emit the string
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// in a cleaner format.
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for (DenseMap<unsigned, PointerAlignElem>::const_iterator
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pib = Pointers.begin(), pie = Pointers.end();
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pib != pie; ++pib) {
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addrSpaces.push_back(pib->first);
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}
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std::sort(addrSpaces.begin(), addrSpaces.end());
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for (SmallVectorImpl<unsigned>::iterator asb = addrSpaces.begin(),
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ase = addrSpaces.end(); asb != ase; ++asb) {
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const PointerAlignElem &PI = Pointers.find(*asb)->second;
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for (PointersTy::const_iterator I = Pointers.begin(), E = Pointers.end();
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I != E; ++I) {
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const PointerAlignElem &PI = *I;
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// Skip default.
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if (PI.AddressSpace == 0 && PI.ABIAlign == 8 && PI.PrefAlign == 8 &&
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@ -586,27 +587,30 @@ std::string DataLayout::getStringRepresentation() const {
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}
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unsigned DataLayout::getPointerABIAlignment(unsigned AS) const {
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DenseMap<unsigned, PointerAlignElem>::const_iterator val = Pointers.find(AS);
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if (val == Pointers.end()) {
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val = Pointers.find(0);
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PointersTy::const_iterator I = findPoiterLowerBound(AS);
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if (I == Pointers.end() || I->AddressSpace != AS) {
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I = findPoiterLowerBound(0);
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assert(I->AddressSpace == 0);
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}
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return val->second.ABIAlign;
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return I->ABIAlign;
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}
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unsigned DataLayout::getPointerPrefAlignment(unsigned AS) const {
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DenseMap<unsigned, PointerAlignElem>::const_iterator val = Pointers.find(AS);
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if (val == Pointers.end()) {
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val = Pointers.find(0);
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PointersTy::const_iterator I = findPoiterLowerBound(AS);
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if (I == Pointers.end() || I->AddressSpace != AS) {
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I = findPoiterLowerBound(0);
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assert(I->AddressSpace == 0);
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}
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return val->second.PrefAlign;
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return I->PrefAlign;
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}
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unsigned DataLayout::getPointerSize(unsigned AS) const {
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DenseMap<unsigned, PointerAlignElem>::const_iterator val = Pointers.find(AS);
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if (val == Pointers.end()) {
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val = Pointers.find(0);
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PointersTy::const_iterator I = findPoiterLowerBound(AS);
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if (I == Pointers.end() || I->AddressSpace != AS) {
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I = findPoiterLowerBound(0);
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assert(I->AddressSpace == 0);
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}
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return val->second.TypeByteWidth;
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return I->TypeByteWidth;
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}
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unsigned DataLayout::getPointerTypeSizeInBits(Type *Ty) const {
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