X-Git-Url: http://demsky.eecs.uci.edu/git/?a=blobdiff_plain;f=include%2Fllvm%2FSupport%2FIntegersSubset.h;h=d6a3b2f541b2a424177848dfa281a8cb9ad3e224;hb=57ac1f458a754f30cf500410b438fb260f9b8fe5;hp=69c94a39811b80b3bd1f44c3b8797a0ce941b259;hpb=7351256208c9ff2cb7b5bdcf4427229abe2a50a8;p=oota-llvm.git diff --git a/include/llvm/Support/IntegersSubset.h b/include/llvm/Support/IntegersSubset.h index 69c94a39811..d6a3b2f541b 100644 --- a/include/llvm/Support/IntegersSubset.h +++ b/include/llvm/Support/IntegersSubset.h @@ -18,14 +18,13 @@ #ifndef CONSTANTRANGESSET_H_ #define CONSTANTRANGESSET_H_ -#include - #include "llvm/Constants.h" #include "llvm/DerivedTypes.h" #include "llvm/LLVMContext.h" +#include namespace llvm { - + // The IntItem is a wrapper for APInt. // 1. It determines sign of integer, it allows to use // comparison operators >,<,>=,<=, and as result we got shorter and cleaner @@ -33,30 +32,30 @@ namespace llvm { // 2. It helps to implement PR1255 (case ranges) as a series of small patches. // 3. Currently we can interpret IntItem both as ConstantInt and as APInt. // It allows to provide SwitchInst methods that works with ConstantInt for - // non-updated passes. And it allows to use APInt interface for new methods. + // non-updated passes. And it allows to use APInt interface for new methods. // 4. IntItem can be easily replaced with APInt. - - // The set of macros that allows to propagate APInt operators to the IntItem. + + // The set of macros that allows to propagate APInt operators to the IntItem. #define INT_ITEM_DEFINE_COMPARISON(op,func) \ bool operator op (const APInt& RHS) const { \ return getAPIntValue().func(RHS); \ } - + #define INT_ITEM_DEFINE_UNARY_OP(op) \ IntItem operator op () const { \ APInt res = op(getAPIntValue()); \ Constant *NewVal = ConstantInt::get(ConstantIntVal->getContext(), res); \ return IntItem(cast(NewVal)); \ } - + #define INT_ITEM_DEFINE_BINARY_OP(op) \ IntItem operator op (const APInt& RHS) const { \ APInt res = getAPIntValue() op RHS; \ Constant *NewVal = ConstantInt::get(ConstantIntVal->getContext(), res); \ return IntItem(cast(NewVal)); \ } - + #define INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(op) \ IntItem& operator op (const APInt& RHS) {\ APInt res = getAPIntValue();\ @@ -64,8 +63,8 @@ namespace llvm { Constant *NewVal = ConstantInt::get(ConstantIntVal->getContext(), res); \ ConstantIntVal = cast(NewVal); \ return *this; \ - } - + } + #define INT_ITEM_DEFINE_PREINCDEC(op) \ IntItem& operator op () { \ APInt res = getAPIntValue(); \ @@ -73,7 +72,7 @@ namespace llvm { Constant *NewVal = ConstantInt::get(ConstantIntVal->getContext(), res); \ ConstantIntVal = cast(NewVal); \ return *this; \ - } + } #define INT_ITEM_DEFINE_POSTINCDEC(op) \ IntItem& operator op (int) { \ @@ -83,12 +82,12 @@ namespace llvm { OldConstantIntVal = ConstantIntVal; \ ConstantIntVal = cast(NewVal); \ return IntItem(OldConstantIntVal); \ - } - + } + #define INT_ITEM_DEFINE_OP_STANDARD_INT(RetTy, op, IntTy) \ RetTy operator op (IntTy RHS) const { \ return (*this) op APInt(getAPIntValue().getBitWidth(), RHS); \ - } + } class IntItem { ConstantInt *ConstantIntVal; @@ -100,29 +99,29 @@ class IntItem { return *APIntVal; } public: - + IntItem() {} - + operator const APInt&() const { return getAPIntValue(); - } - + } + // Propagate APInt operators. // Note, that // /,/=,>>,>>= are not implemented in APInt. // <<= is implemented for unsigned RHS, but not implemented for APInt RHS. - + INT_ITEM_DEFINE_COMPARISON(<, ult) INT_ITEM_DEFINE_COMPARISON(>, ugt) INT_ITEM_DEFINE_COMPARISON(<=, ule) INT_ITEM_DEFINE_COMPARISON(>=, uge) - + INT_ITEM_DEFINE_COMPARISON(==, eq) INT_ITEM_DEFINE_OP_STANDARD_INT(bool,==,uint64_t) - + INT_ITEM_DEFINE_COMPARISON(!=, ne) INT_ITEM_DEFINE_OP_STANDARD_INT(bool,!=,uint64_t) - + INT_ITEM_DEFINE_BINARY_OP(*) INT_ITEM_DEFINE_BINARY_OP(+) INT_ITEM_DEFINE_OP_STANDARD_INT(IntItem,+,uint64_t) @@ -133,32 +132,32 @@ public: INT_ITEM_DEFINE_BINARY_OP(&) INT_ITEM_DEFINE_BINARY_OP(^) INT_ITEM_DEFINE_BINARY_OP(|) - + INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(*=) INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(+=) INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(-=) INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(&=) INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(^=) INT_ITEM_DEFINE_ASSIGNMENT_BY_OP(|=) - + // Special case for <<= IntItem& operator <<= (unsigned RHS) { APInt res = getAPIntValue(); res <<= RHS; Constant *NewVal = ConstantInt::get(ConstantIntVal->getContext(), res); ConstantIntVal = cast(NewVal); - return *this; + return *this; } - + INT_ITEM_DEFINE_UNARY_OP(-) INT_ITEM_DEFINE_UNARY_OP(~) - + INT_ITEM_DEFINE_PREINCDEC(++) INT_ITEM_DEFINE_PREINCDEC(--) - + // The set of workarounds, since currently we use ConstantInt implemented // integer. - + static IntItem fromConstantInt(const ConstantInt *V) { return IntItem(V); } @@ -185,22 +184,22 @@ protected: bool IsSingleNumber : 1; public: - typedef IntRange self; + typedef IntRange self; typedef std::pair SubRes; - + IntRange() : IsEmpty(true) {} IntRange(const self &RHS) : Low(RHS.Low), High(RHS.High), IsEmpty(RHS.IsEmpty), IsSingleNumber(RHS.IsSingleNumber) {} IntRange(const IntType &C) : Low(C), High(C), IsEmpty(false), IsSingleNumber(true) {} - + IntRange(const IntType &L, const IntType &H) : Low(L), High(H), IsEmpty(false), IsSingleNumber(Low == High) {} - + bool isEmpty() const { return IsEmpty; } bool isSingleNumber() const { return IsSingleNumber; } - + const IntType& getLow() const { assert(!IsEmpty && "Range is empty."); return Low; @@ -209,7 +208,7 @@ public: assert(!IsEmpty && "Range is empty."); return High; } - + bool operator<(const self &RHS) const { assert(!IsEmpty && "Left range is empty."); assert(!RHS.IsEmpty && "Right range is empty."); @@ -226,37 +225,37 @@ public: bool operator==(const self &RHS) const { assert(!IsEmpty && "Left range is empty."); assert(!RHS.IsEmpty && "Right range is empty."); - return Low == RHS.Low && High == RHS.High; + return Low == RHS.Low && High == RHS.High; } - + bool operator!=(const self &RHS) const { - return !operator ==(RHS); + return !operator ==(RHS); } - + static bool LessBySize(const self &LHS, const self &RHS) { return (LHS.High - LHS.Low) < (RHS.High - RHS.Low); } - + bool isInRange(const IntType &IntVal) const { assert(!IsEmpty && "Range is empty."); - return IntVal >= Low && IntVal <= High; - } - + return IntVal >= Low && IntVal <= High; + } + SubRes sub(const self &RHS) const { SubRes Res; - + // RHS is either more global and includes this range or // if it doesn't intersected with this range. if (!isInRange(RHS.Low) && !isInRange(RHS.High)) { - + // If RHS more global (it is enough to check // only one border in this case. if (RHS.isInRange(Low)) - return std::make_pair(self(Low, High), self()); - + return std::make_pair(self(Low, High), self()); + return Res; } - + if (Low < RHS.Low) { Res.first.Low = Low; IntType NewHigh = RHS.Low; @@ -269,9 +268,9 @@ public: Res.second.Low = NewLow; Res.second.High = High; } - return Res; + return Res; } - }; + }; //===----------------------------------------------------------------------===// /// IntegersSubsetGeneric - class that implements the subset of integers. It @@ -288,27 +287,27 @@ public: typedef std::pair RangeLinkTy; typedef std::vector RangeLinksTy; typedef typename RangeLinksTy::const_iterator RangeLinksConstIt; - + typedef IntegersSubsetGeneric self; - + protected: - + FlatCollectionTy FlatCollection; RangeLinksTy RangeLinks; - + bool IsSingleNumber; bool IsSingleNumbersOnly; - + public: - + template explicit IntegersSubsetGeneric(const RangesCollectionTy& Links) { assert(Links.size() && "Empty ranges are not allowed."); - + // In case of big set of single numbers consumes additional RAM space, // but allows to avoid additional reallocation. FlatCollection.reserve(Links.size() * 2); - RangeLinks.reserve(Links.size()); + RangeLinks.reserve(Links.size()); IsSingleNumbersOnly = true; for (typename RangesCollectionTy::const_iterator i = Links.begin(), e = Links.end(); i != e; ++i) { @@ -324,11 +323,11 @@ public: } IsSingleNumber = IsSingleNumbersOnly && RangeLinks.size() == 1; } - + IntegersSubsetGeneric(const self& RHS) { *this = RHS; } - + self& operator=(const self& RHS) { FlatCollection.clear(); RangeLinks.clear(); @@ -348,9 +347,9 @@ public: IsSingleNumbersOnly = RHS.IsSingleNumbersOnly; return *this; } - + typedef IntRange Range; - + /// Checks is the given constant satisfies this case. Returns /// true if it equals to one of contained values or belongs to the one of /// contained ranges. @@ -361,18 +360,18 @@ public: return std::find(FlatCollection.begin(), FlatCollection.end(), CheckingVal) != FlatCollection.end(); - + for (unsigned i = 0, e = getNumItems(); i < e; ++i) { if (RangeLinks[i].first == RangeLinks[i].second) { if (*RangeLinks[i].first == CheckingVal) return true; } else if (*RangeLinks[i].first <= CheckingVal && - *RangeLinks[i].second >= CheckingVal) + *RangeLinks[i].second >= CheckingVal) return true; } - return false; + return false; } - + /// Returns set's item with given index. Range getItem(unsigned idx) const { const RangeLinkTy &Link = RangeLinks[idx]; @@ -380,29 +379,29 @@ public: return Range(*Link.first, *Link.second); else return Range(*Link.first); - } - + } + /// Return number of items (ranges) stored in set. unsigned getNumItems() const { return RangeLinks.size(); } - + /// Returns true if whole subset contains single element. bool isSingleNumber() const { return IsSingleNumber; } - + /// Returns true if whole subset contains only single numbers, no ranges. bool isSingleNumbersOnly() const { return IsSingleNumbersOnly; } /// Does the same like getItem(idx).isSingleNumber(), but - /// works faster, since we avoid creation of temporary range object. + /// works faster, since we avoid creation of temporary range object. bool isSingleNumber(unsigned idx) const { return RangeLinks[idx].first == RangeLinks[idx].second; } - + /// Returns set the size, that equals number of all values + sizes of all /// ranges. /// Ranges set is considered as flat numbers collection. @@ -411,23 +410,23 @@ public: unsigned getSize() const { APInt sz(((const APInt&)getItem(0).getLow()).getBitWidth(), 0); for (unsigned i = 0, e = getNumItems(); i != e; ++i) { - const APInt &Low = getItem(i).getLow(); - const APInt &High = getItem(i).getHigh(); + const APInt Low = getItem(i).getLow(); + const APInt High = getItem(i).getHigh(); APInt S = High - Low + 1; sz += S; } - return sz.getZExtValue(); + return sz.getZExtValue(); } - + /// Allows to access single value even if it belongs to some range. /// Ranges set is considered as flat numbers collection. - /// [<1>, <4,8>] is considered as [1,4,5,6,7,8] + /// [<1>, <4,8>] is considered as [1,4,5,6,7,8] /// For range [<1>, <4,8>] getSingleValue(3) returns 6. APInt getSingleValue(unsigned idx) const { APInt sz(((const APInt&)getItem(0).getLow()).getBitWidth(), 0); for (unsigned i = 0, e = getNumItems(); i != e; ++i) { - const APInt &Low = getItem(i).getLow(); - const APInt &High = getItem(i).getHigh(); + const APInt Low = getItem(i).getLow(); + const APInt High = getItem(i).getHigh(); APInt S = High - Low + 1; APInt oldSz = sz; sz += S; @@ -440,9 +439,9 @@ public: } } assert(0 && "Index exceeds high border."); - return sz; + return sz; } - + /// Does the same as getSingleValue, but works only if subset contains /// single numbers only. const IntTy& getSingleNumber(unsigned idx) const { @@ -450,24 +449,24 @@ public: "contains single numbers only."); return FlatCollection[idx]; } -}; +}; //===----------------------------------------------------------------------===// /// IntegersSubset - currently is extension of IntegersSubsetGeneric /// that also supports conversion to/from Constant* object. class IntegersSubset : public IntegersSubsetGeneric { - + typedef IntegersSubsetGeneric ParentTy; - + Constant *Holder; - + static unsigned getNumItemsFromConstant(Constant *C) { return cast(C->getType())->getNumElements(); } - + static Range getItemFromConstant(Constant *C, unsigned idx) { const Constant *CV = C->getAggregateElement(idx); - + unsigned NumEls = cast(CV->getType())->getNumElements(); switch (NumEls) { case 1: @@ -483,9 +482,9 @@ class IntegersSubset : public IntegersSubsetGeneric { default: assert(0 && "Only pairs and single numbers are allowed here."); return Range(); - } - } - + } + } + std::vector rangesFromConstant(Constant *C) { unsigned NumItems = getNumItemsFromConstant(C); std::vector r; @@ -494,12 +493,16 @@ class IntegersSubset : public IntegersSubsetGeneric { r.push_back(getItemFromConstant(C, i)); return r; } - + public: explicit IntegersSubset(Constant *C) : ParentTy(rangesFromConstant(C)), Holder(C) {} - + + IntegersSubset(const IntegersSubset& RHS) : + ParentTy(*(const ParentTy *)&RHS), // FIXME: tweak for msvc. + Holder(RHS.Holder) {} + template explicit IntegersSubset(const RangesCollectionTy& Src) : ParentTy(Src) { std::vector Elts; @@ -519,18 +522,18 @@ public: r.push_back(R.getLow().toConstantInt()); } Constant *CV = ConstantVector::get(r); - Elts.push_back(CV); + Elts.push_back(CV); } ArrayType *ArrTy = ArrayType::get(Elts.front()->getType(), (uint64_t)Elts.size()); - Holder = ConstantArray::get(ArrTy, Elts); + Holder = ConstantArray::get(ArrTy, Elts); } - + operator Constant*() { return Holder; } operator const Constant*() const { return Holder; } Constant *operator->() { return Holder; } const Constant *operator->() const { return Holder; } -}; +}; }