diff --git a/include/llvm/Support/ConstantRange.h b/include/llvm/Support/ConstantRange.h index 8af3fb00c6a..fa4235b0cb3 100644 --- a/include/llvm/Support/ConstantRange.h +++ b/include/llvm/Support/ConstantRange.h @@ -24,8 +24,8 @@ // [0, 0) = {} = Empty set // [255, 255) = {0..255} = Full Set // -// Note that ConstantRange always keeps unsigned values, and -// ConstantSignedRange always keeps signed values. +// Note that ConstantRange can be used to represent either signed or +// unsigned ranges. // //===----------------------------------------------------------------------===// @@ -37,70 +37,13 @@ namespace llvm { -/// ConstantRangeBase - A base class for ConstantRange and ConstantSignedRange. -/// This class implements functionality common to both. -class ConstantRangeBase { -protected: - APInt Lower, Upper; - - /// Initialize a range to hold the single specified value. - /// - ConstantRangeBase(const APInt &Value); - - /// @brief Initialize a range of values explicitly. This will assert out if - /// Lower==Upper and Lower != Min or Max value for its type. It will also - /// assert out if the two APInt's are not the same bit width. - ConstantRangeBase(const APInt& Lower, const APInt& Upper); - -public: - /// getLower - Return the lower value for this range... - /// - const APInt &getLower() const { return Lower; } - - /// getUpper - Return the upper value for this range... - /// - const APInt &getUpper() const { return Upper; } - - /// getBitWidth - get the bit width of this ConstantRange - /// - uint32_t getBitWidth() const { return Lower.getBitWidth(); } - - /// getSingleElement - If this set contains a single element, return it, - /// otherwise return null. - /// - const APInt *getSingleElement() const { - if (Upper == Lower + 1) - return &Lower; - return 0; - } - - /// isSingleElement - Return true if this set contains exactly one member. - /// - bool isSingleElement() const { return getSingleElement() != 0; } - - /// operator== - Return true if this range is equal to another range. - /// - bool operator==(const ConstantRangeBase &CR) const { - return Lower == CR.Lower && Upper == CR.Upper; - } - bool operator!=(const ConstantRangeBase &CR) const { - return !operator==(CR); - } - - /// print - Print out the bounds to a stream... - /// - void print(raw_ostream &OS) const; - - /// dump - Allow printing from a debugger easily... - /// - void dump() const; -}; - -/// ConstantRange - This class represents an range of unsigned values. +/// ConstantRange - This class represents an range of values. /// -class ConstantRange : public ConstantRangeBase { +class ConstantRange { + APInt Lower, Upper; static ConstantRange intersect1Wrapped(const ConstantRange &LHS, const ConstantRange &RHS); + public: /// Initialize a full (the default) or empty set for the specified bit width. /// @@ -115,6 +58,18 @@ public: /// assert out if the two APInt's are not the same bit width. ConstantRange(const APInt& Lower, const APInt& Upper); + /// getLower - Return the lower value for this range... + /// + const APInt &getLower() const { return Lower; } + + /// getUpper - Return the upper value for this range... + /// + const APInt &getUpper() const { return Upper; } + + /// getBitWidth - get the bit width of this ConstantRange + /// + uint32_t getBitWidth() const { return Lower.getBitWidth(); } + /// isFullSet - Return true if this set contains all of the elements possible /// for this data-type /// @@ -133,6 +88,19 @@ public: /// bool contains(const APInt &Val) const; + /// getSingleElement - If this set contains a single element, return it, + /// otherwise return null. + /// + const APInt *getSingleElement() const { + if (Upper == Lower + 1) + return &Lower; + return 0; + } + + /// isSingleElement - Return true if this set contains exactly one member. + /// + bool isSingleElement() const { return getSingleElement() != 0; } + /// getSetSize - Return the number of elements in this set. /// APInt getSetSize() const; @@ -157,6 +125,15 @@ public: /// APInt getSignedMin() const; + /// operator== - Return true if this range is equal to another range. + /// + bool operator==(const ConstantRange &CR) const { + return Lower == CR.Lower && Upper == CR.Upper; + } + bool operator!=(const ConstantRange &CR) const { + return !operator==(CR); + } + /// subtract - Subtract the specified constant from the endpoints of this /// constant range. ConstantRange subtract(const APInt &CI) const; @@ -215,7 +192,6 @@ public: /// smax - Return a new range representing the possible values resulting /// from a signed maximum of a value in this range and a value in Other. - /// TODO: This isn't fully implemented yet. ConstantRange smax(const ConstantRange &Other) const; /// umax - Return a new range representing the possible values resulting @@ -226,147 +202,22 @@ public: /// from an unsigned division of a value in this range and a value in Other. /// TODO: This isn't fully implemented yet. ConstantRange udiv(const ConstantRange &Other) const; + + /// print - Print out the bounds to a stream... + /// + void print(raw_ostream &OS) const; + + /// dump - Allow printing from a debugger easily... + /// + void dump() const; }; -/// ConstantRange - This class represents an range of signed values. -/// -class ConstantSignedRange : public ConstantRangeBase { - static ConstantSignedRange intersect1Wrapped(const ConstantSignedRange &LHS, - const ConstantSignedRange &RHS); -public: - /// Initialize a full (the default) or empty set for the specified bit width. - /// - explicit ConstantSignedRange(uint32_t BitWidth, bool isFullSet = true); - - /// Initialize a range to hold the single specified value. - /// - ConstantSignedRange(const APInt &Value); - - /// @brief Initialize a range of values explicitly. This will assert out if - /// Lower==Upper and Lower != Min or Max value for its type. It will also - /// assert out if the two APInt's are not the same bit width. - ConstantSignedRange(const APInt& Lower, const APInt& Upper); - - /// isFullSet - Return true if this set contains all of the elements possible - /// for this data-type - /// - bool isFullSet() const; - - /// isEmptySet - Return true if this set contains no members. - /// - bool isEmptySet() const; - - /// isWrappedSet - Return true if this set wraps around the top of the range, - /// for example: [100, 8) - /// - bool isWrappedSet() const; - - /// contains - Return true if the specified value is in the set. - /// - bool contains(const APInt &Val) const; - - /// getSetSize - Return the number of elements in this set. - /// - APInt getSetSize() const; - - /// getUnsignedMax - Return the largest unsigned value contained in the - /// ConstantSignedRange. - /// - APInt getUnsignedMax() const; - - /// getUnsignedMin - Return the smallest unsigned value contained in the - /// ConstantSignedRange. - /// - APInt getUnsignedMin() const; - - /// getSignedMax - Return the largest signed value contained in the - /// ConstantSignedRange. - /// - APInt getSignedMax() const; - - /// getSignedMin - Return the smallest signed value contained in the - /// ConstantSignedRange. - /// - APInt getSignedMin() const; - - /// subtract - Subtract the specified constant from the endpoints of this - /// constant range. - ConstantSignedRange subtract(const APInt &CI) const; - - /// intersectWith - Return the range that results from the intersection of - /// this range with another range. The resultant range is pruned as much as - /// possible, but there may be cases where elements are included that are in - /// one of the sets but not the other. For example: [100, 8) intersect [3, - /// 120) yields [3, 120) - /// - ConstantSignedRange intersectWith(const ConstantSignedRange &CR) const; - - /// maximalIntersectWith - Return the range that results from the intersection - /// of this range with another range. The resultant range is guaranteed to - /// include all elements contained in both input ranges, and to have the - /// smallest possible set size that does so. Because there may be two - /// intersections with the same set size, A.maximalIntersectWith(B) might not - /// be equal to B.maximalIntersectWith(A). - /// - ConstantSignedRange maximalIntersectWith(const ConstantSignedRange &CR) const; - - /// unionWith - Return the range that results from the union of this range - /// with another range. The resultant range is guaranteed to include the - /// elements of both sets, but may contain more. For example, [3, 9) union - /// [12,15) is [3, 15), which includes 9, 10, and 11, which were not included - /// in either set before. - /// - ConstantSignedRange unionWith(const ConstantSignedRange &CR) const; - - /// zeroExtend - Return a new range in the specified integer type, which must - /// be strictly larger than the current type. The returned range will - /// correspond to the possible range of values if the source range had been - /// zero extended to BitWidth. - ConstantSignedRange zeroExtend(uint32_t BitWidth) const; - - /// signExtend - Return a new range in the specified integer type, which must - /// be strictly larger than the current type. The returned range will - /// correspond to the possible range of values if the source range had been - /// sign extended to BitWidth. - ConstantSignedRange signExtend(uint32_t BitWidth) const; - - /// truncate - Return a new range in the specified integer type, which must be - /// strictly smaller than the current type. The returned range will - /// correspond to the possible range of values if the source range had been - /// truncated to the specified type. - ConstantSignedRange truncate(uint32_t BitWidth) const; - - /// add - Return a new range representing the possible values resulting - /// from an addition of a value in this range and a value in Other. - /// TODO: This isn't fully implemented yet. - ConstantSignedRange add(const ConstantSignedRange &Other) const; - - /// multiply - Return a new range representing the possible values resulting - /// from a multiplication of a value in this range and a value in Other. - /// TODO: This isn't fully implemented yet. - ConstantSignedRange multiply(const ConstantSignedRange &Other) const; - - /// smax - Return a new range representing the possible values resulting - /// from a signed maximum of a value in this range and a value in Other. - ConstantSignedRange smax(const ConstantSignedRange &Other) const; - - /// umax - Return a new range representing the possible values resulting - /// from an unsigned maximum of a value in this range and a value in Other. - /// TODO: This isn't fully implemented yet. - ConstantSignedRange umax(const ConstantSignedRange &Other) const; - - /// udiv - Return a new range representing the possible values resulting - /// from an unsigned division of a value in this range and a value in Other. - /// TODO: This isn't fully implemented yet. - ConstantSignedRange udiv(const ConstantSignedRange &Other) const; -}; - -inline raw_ostream &operator<<(raw_ostream &OS, const ConstantRangeBase &CR) { +inline raw_ostream &operator<<(raw_ostream &OS, const ConstantRange &CR) { CR.print(OS); return OS; } -std::ostream &operator<<(std::ostream &OS, const ConstantRangeBase &CR); +std::ostream &operator<<(std::ostream &OS, const ConstantRange &CR); } // End llvm namespace diff --git a/lib/Support/ConstantRange.cpp b/lib/Support/ConstantRange.cpp index bb458d4c6b0..809a0241156 100644 --- a/lib/Support/ConstantRange.cpp +++ b/lib/Support/ConstantRange.cpp @@ -25,40 +25,9 @@ #include "llvm/Support/raw_ostream.h" using namespace llvm; -/// Initialize a range to hold the single specified value. -/// -ConstantRangeBase::ConstantRangeBase(const APInt & V) - : Lower(V), Upper(V + 1) {} - -ConstantRangeBase::ConstantRangeBase(const APInt &L, const APInt &U) - : Lower(L), Upper(U) { - assert(L.getBitWidth() == U.getBitWidth() && - "ConstantRange with unequal bit widths"); -} - -/// print - Print out the bounds to a stream... -/// -void ConstantRangeBase::print(raw_ostream &OS) const { - OS << "[" << Lower << "," << Upper << ")"; -} - -/// dump - Allow printing from a debugger easily... -/// -void ConstantRangeBase::dump() const { - print(errs()); -} - -std::ostream &llvm::operator<<(std::ostream &o, - const ConstantRangeBase &CR) { - raw_os_ostream OS(o); - OS << CR; - return o; -} - /// Initialize a full (the default) or empty set for the specified type. /// -ConstantRange::ConstantRange(uint32_t BitWidth, bool Full) : - ConstantRangeBase(APInt(BitWidth, 0), APInt(BitWidth, 0)) { +ConstantRange::ConstantRange(uint32_t BitWidth, bool Full) { if (Full) Lower = Upper = APInt::getMaxValue(BitWidth); else @@ -67,10 +36,12 @@ ConstantRange::ConstantRange(uint32_t BitWidth, bool Full) : /// Initialize a range to hold the single specified value. /// -ConstantRange::ConstantRange(const APInt & V) : ConstantRangeBase(V) {} +ConstantRange::ConstantRange(const APInt & V) : Lower(V), Upper(V + 1) {} -ConstantRange::ConstantRange(const APInt &L, const APInt &U) - : ConstantRangeBase(L, U) { +ConstantRange::ConstantRange(const APInt &L, const APInt &U) : + Lower(L), Upper(U) { + assert(L.getBitWidth() == U.getBitWidth() && + "ConstantRange with unequal bit widths"); assert((L != U || (L.isMaxValue() || L.isMinValue())) && "Lower == Upper, but they aren't min or max value!"); } @@ -514,9 +485,17 @@ ConstantRange::multiply(const ConstantRange &Other) const { ConstantRange ConstantRange::smax(const ConstantRange &Other) const { - // TODO: Implement smax. - return ConstantRange(getBitWidth(), - !(isEmptySet() || Other.isEmptySet())); + // X smax Y is: range(smax(X_smin, Y_smin), + // smax(X_smax, Y_smax)) + if (isEmptySet() || Other.isEmptySet()) + return ConstantRange(getBitWidth(), /*isFullSet=*/false); + if (isFullSet() || Other.isFullSet()) + return ConstantRange(getBitWidth(), /*isFullSet=*/true); + APInt NewL = APIntOps::smax(getSignedMin(), Other.getSignedMin()); + APInt NewU = APIntOps::smax(getSignedMax(), Other.getSignedMax()) + 1; + if (NewU == NewL) + return ConstantRange(getBitWidth(), /*isFullSet=*/true); + return ConstantRange(NewL, NewU); } ConstantRange @@ -541,485 +520,21 @@ ConstantRange::udiv(const ConstantRange &Other) const { !(isEmptySet() || Other.isEmptySet())); } -/// Initialize a full (the default) or empty set for the specified type. +/// print - Print out the bounds to a stream... /// -ConstantSignedRange::ConstantSignedRange(uint32_t BitWidth, bool Full) : - ConstantRangeBase(APInt(BitWidth, 0), APInt(BitWidth, 0)) { - if (Full) - Lower = Upper = APInt::getSignedMaxValue(BitWidth); - else - Lower = Upper = APInt::getSignedMinValue(BitWidth); +void ConstantRange::print(raw_ostream &OS) const { + OS << "[" << Lower << "," << Upper << ")"; } -/// Initialize a range to hold the single specified value. +/// dump - Allow printing from a debugger easily... /// -ConstantSignedRange::ConstantSignedRange(const APInt & V) - : ConstantRangeBase(V) {} - -ConstantSignedRange::ConstantSignedRange(const APInt &L, const APInt &U) - : ConstantRangeBase(L, U) { - assert((L != U || (L.isMaxSignedValue() || L.isMinSignedValue())) && - "Lower == Upper, but they aren't min or max value!"); +void ConstantRange::dump() const { + print(errs()); } -/// isFullSet - Return true if this set contains all of the elements possible -/// for this data-type -bool ConstantSignedRange::isFullSet() const { - return Lower == Upper && Lower.isMaxSignedValue(); -} - -/// isEmptySet - Return true if this set contains no members. -/// -bool ConstantSignedRange::isEmptySet() const { - return Lower == Upper && Lower.isMinSignedValue(); -} - -/// isWrappedSet - Return true if this set wraps around the top of the range, -/// for example: [100, 8) -/// -bool ConstantSignedRange::isWrappedSet() const { - return Lower.sgt(Upper); -} - -/// getSetSize - Return the number of elements in this set. -/// -APInt ConstantSignedRange::getSetSize() const { - if (isEmptySet()) - return APInt(getBitWidth(), 0); - if (getBitWidth() == 1) { - if (Lower != Upper) // One of T or F in the set... - return APInt(2, 1); - return APInt(2, 2); // Must be full set... - } - - // Simply subtract the bounds... - return Upper - Lower; -} - -/// getSignedMax - Return the largest signed value contained in the -/// ConstantSignedRange. -/// -APInt ConstantSignedRange::getSignedMax() const { - if (isFullSet() || isWrappedSet()) - return APInt::getSignedMaxValue(getBitWidth()); - else - return getUpper() - 1; -} - -/// getSignedMin - Return the smallest signed value contained in the -/// ConstantSignedRange. -/// -APInt ConstantSignedRange::getSignedMin() const { - if (isFullSet() || (isWrappedSet() && - getUpper() != APInt::getSignedMinValue(getBitWidth()))) - return APInt::getSignedMinValue(getBitWidth()); - else - return getLower(); -} - -/// getUnsignedMax - Return the largest unsigned value contained in the -/// ConstantSignedRange. -/// -APInt ConstantSignedRange::getUnsignedMax() const { - APInt UnsignedMax(APInt::getMaxValue(getBitWidth())); - if (!isWrappedSet()) { - if (getLower().ule(getUpper() - 1)) - return getUpper() - 1; - else - return UnsignedMax; - } else { - if ((getUpper() - 1).ult(getLower())) { - if (getLower() != UnsignedMax) - return UnsignedMax; - else - return getUpper() - 1; - } else { - return getUpper() - 1; - } - } -} - -/// getUnsignedMin - Return the smallest unsigned value contained in the -/// ConstantSignedRange. -/// -APInt ConstantSignedRange::getUnsignedMin() const { - APInt UnsignedMin(APInt::getMinValue(getBitWidth())); - if (!isWrappedSet()) { - if (getLower().ule(getUpper() - 1)) - return getLower(); - else - return UnsignedMin; - } else { - if ((getUpper() - 1).ult(getLower())) { - if (getUpper() != UnsignedMin) - return UnsignedMin; - else - return getLower(); - } else { - return getLower(); - } - } -} - -/// contains - Return true if the specified value is in the set. -/// -bool ConstantSignedRange::contains(const APInt &V) const { - if (Lower == Upper) - return isFullSet(); - - if (!isWrappedSet()) - return Lower.sle(V) && V.slt(Upper); - else - return Lower.sle(V) || V.slt(Upper); -} - -/// subtract - Subtract the specified constant from the endpoints of this -/// constant range. -ConstantSignedRange ConstantSignedRange::subtract(const APInt &Val) const { - assert(Val.getBitWidth() == getBitWidth() && "Wrong bit width"); - // If the set is empty or full, don't modify the endpoints. - if (Lower == Upper) - return *this; - return ConstantSignedRange(Lower - Val, Upper - Val); -} - - -// intersect1Wrapped - This helper function is used to intersect two ranges when -// it is known that LHS is wrapped and RHS isn't. -// -ConstantSignedRange -ConstantSignedRange::intersect1Wrapped(const ConstantSignedRange &LHS, - const ConstantSignedRange &RHS) { - assert(LHS.isWrappedSet() && !RHS.isWrappedSet()); - - // Check to see if we overlap on the Left side of RHS... - // - if (RHS.Lower.slt(LHS.Upper)) { - // We do overlap on the left side of RHS, see if we overlap on the right of - // RHS... - if (RHS.Upper.sgt(LHS.Lower)) { - // Ok, the result overlaps on both the left and right sides. See if the - // resultant interval will be smaller if we wrap or not... - // - if (LHS.getSetSize().ult(RHS.getSetSize())) - return LHS; - else - return RHS; - - } else { - // No overlap on the right, just on the left. - return ConstantSignedRange(RHS.Lower, LHS.Upper); - } - } else { - // We don't overlap on the left side of RHS, see if we overlap on the right - // of RHS... - if (RHS.Upper.sgt(LHS.Lower)) { - // Simple overlap... - return ConstantSignedRange(LHS.Lower, RHS.Upper); - } else { - // No overlap... - return ConstantSignedRange(LHS.getBitWidth(), false); - } - } -} - -/// intersectWith - Return the range that results from the intersection of this -/// range with another range. -/// -ConstantSignedRange -ConstantSignedRange::intersectWith(const ConstantSignedRange &CR) const { - assert(getBitWidth() == CR.getBitWidth() && - "ConstantSignedRange types don't agree!"); - // Handle common special cases - if (isEmptySet() || CR.isFullSet()) - return *this; - if (isFullSet() || CR.isEmptySet()) - return CR; - - if (!isWrappedSet()) { - if (!CR.isWrappedSet()) { - APInt L = APIntOps::smax(Lower, CR.Lower); - APInt U = APIntOps::smin(Upper, CR.Upper); - - if (L.slt(U)) // If range isn't empty... - return ConstantSignedRange(L, U); - else - return ConstantSignedRange(getBitWidth(), false);// Otherwise, empty set - } else - return intersect1Wrapped(CR, *this); - } else { // We know "this" is wrapped... - if (!CR.isWrappedSet()) - return intersect1Wrapped(*this, CR); - else { - // Both ranges are wrapped... - APInt L = APIntOps::smax(Lower, CR.Lower); - APInt U = APIntOps::smin(Upper, CR.Upper); - return ConstantSignedRange(L, U); - } - } - return *this; -} - -/// maximalIntersectWith - Return the range that results from the intersection -/// of this range with another range. The resultant range is guaranteed to -/// include all elements contained in both input ranges, and to have the -/// smallest possible set size that does so. Because there may be two -/// intersections with the same set size, A.maximalIntersectWith(B) might not -/// be equal to B.maximalIntersect(A). -ConstantSignedRange -ConstantSignedRange::maximalIntersectWith(const ConstantSignedRange &CR) const { - assert(getBitWidth() == CR.getBitWidth() && - "ConstantSignedRange types don't agree!"); - - // Handle common cases. - if ( isEmptySet() || CR.isFullSet()) return *this; - if (CR.isEmptySet() || isFullSet()) return CR; - - if (!isWrappedSet() && CR.isWrappedSet()) - return CR.maximalIntersectWith(*this); - - if (!isWrappedSet() && !CR.isWrappedSet()) { - if (Lower.slt(CR.Lower)) { - if (Upper.sle(CR.Lower)) - return ConstantSignedRange(getBitWidth(), false); - - if (Upper.slt(CR.Upper)) - return ConstantSignedRange(CR.Lower, Upper); - - return CR; - } else { - if (Upper.slt(CR.Upper)) - return *this; - - if (Lower.slt(CR.Upper)) - return ConstantSignedRange(Lower, CR.Upper); - - return ConstantSignedRange(getBitWidth(), false); - } - } - - if (isWrappedSet() && !CR.isWrappedSet()) { - if (CR.Lower.slt(Upper)) { - if (CR.Upper.slt(Upper)) - return CR; - - if (CR.Upper.slt(Lower)) - return ConstantSignedRange(CR.Lower, Upper); - - if (getSetSize().ult(CR.getSetSize())) - return *this; - else - return CR; - } else if (CR.Lower.slt(Lower)) { - if (CR.Upper.sle(Lower)) - return ConstantSignedRange(getBitWidth(), false); - - return ConstantSignedRange(Lower, CR.Upper); - } - return CR; - } - - if (CR.Upper.slt(Upper)) { - if (CR.Lower.slt(Upper)) { - if (getSetSize().ult(CR.getSetSize())) - return *this; - else - return CR; - } - - if (CR.Lower.slt(Lower)) - return ConstantSignedRange(Lower, CR.Upper); - - return CR; - } else if (CR.Upper.slt(Lower)) { - if (CR.Lower.slt(Lower)) - return *this; - - return ConstantSignedRange(CR.Lower, Upper); - } - if (getSetSize().ult(CR.getSetSize())) - return *this; - else - return CR; -} - - -/// unionWith - Return the range that results from the union of this range with -/// another range. The resultant range is guaranteed to include the elements of -/// both sets, but may contain more. For example, [3, 9) union [12,15) is -/// [3, 15), which includes 9, 10, and 11, which were not included in either -/// set before. -/// -ConstantSignedRange -ConstantSignedRange::unionWith(const ConstantSignedRange &CR) const { - assert(getBitWidth() == CR.getBitWidth() && - "ConstantSignedRange types don't agree!"); - - if ( isFullSet() || CR.isEmptySet()) return *this; - if (CR.isFullSet() || isEmptySet()) return CR; - - if (!isWrappedSet() && CR.isWrappedSet()) return CR.unionWith(*this); - - APInt L = Lower, U = Upper; - - if (!isWrappedSet() && !CR.isWrappedSet()) { - if (CR.Lower.slt(L)) - L = CR.Lower; - - if (CR.Upper.sgt(U)) - U = CR.Upper; - } - - if (isWrappedSet() && !CR.isWrappedSet()) { - if ((CR.Lower.slt(Upper) && CR.Upper.slt(Upper)) || - (CR.Lower.sgt(Lower) && CR.Upper.sgt(Lower))) { - return *this; - } - - if (CR.Lower.sle(Upper) && Lower.sle(CR.Upper)) { - return ConstantSignedRange(getBitWidth()); - } - - if (CR.Lower.sle(Upper) && CR.Upper.sle(Lower)) { - APInt d1 = CR.Upper - Upper, d2 = Lower - CR.Upper; - if (d1.slt(d2)) { - U = CR.Upper; - } else { - L = CR.Upper; - } - } - - if (Upper.slt(CR.Lower) && CR.Upper.slt(Lower)) { - APInt d1 = CR.Lower - Upper, d2 = Lower - CR.Upper; - if (d1.slt(d2)) { - U = CR.Lower + 1; - } else { - L = CR.Upper - 1; - } - } - - if (Upper.slt(CR.Lower) && Lower.slt(CR.Upper)) { - APInt d1 = CR.Lower - Upper, d2 = Lower - CR.Lower; - - if (d1.slt(d2)) { - U = CR.Lower + 1; - } else { - L = CR.Lower; - } - } - } - - if (isWrappedSet() && CR.isWrappedSet()) { - if (Lower.slt(CR.Upper) || CR.Lower.slt(Upper)) - return ConstantSignedRange(getBitWidth()); - - if (CR.Upper.sgt(U)) { - U = CR.Upper; - } - - if (CR.Lower.slt(L)) { - L = CR.Lower; - } - - if (L == U) return ConstantSignedRange(getBitWidth()); - } - - return ConstantSignedRange(L, U); -} - -/// zeroExtend - Return a new range in the specified integer type, which must -/// be strictly larger than the current type. The returned range will -/// correspond to the possible range of values as if the source range had been -/// zero extended. -ConstantSignedRange ConstantSignedRange::zeroExtend(uint32_t DstTySize) const { - unsigned SrcTySize = getBitWidth(); - assert(SrcTySize < DstTySize && "Not a value extension"); - if (isEmptySet()) - return ConstantSignedRange(SrcTySize, /*isFullSet=*/false); - if (isFullSet()) - // Change a source full set into [0, 1 << 8*numbytes) - return ConstantSignedRange(APInt(DstTySize,0), - APInt(DstTySize,1).shl(SrcTySize)); - - APInt L, U; - if (Lower.isNegative() && !Upper.isNegative()) { - L = APInt(SrcTySize, 0); - U = APInt::getSignedMinValue(SrcTySize); - } else { - L = Lower; - U = Upper; - } - L.zext(DstTySize); - U.zext(DstTySize); - return ConstantSignedRange(L, U); -} - -/// signExtend - Return a new range in the specified integer type, which must -/// be strictly larger than the current type. The returned range will -/// correspond to the possible range of values as if the source range had been -/// sign extended. -ConstantSignedRange ConstantSignedRange::signExtend(uint32_t DstTySize) const { - unsigned SrcTySize = getBitWidth(); - assert(SrcTySize < DstTySize && "Not a value extension"); - if (isEmptySet()) - return ConstantSignedRange(SrcTySize, /*isFullSet=*/false); - if (isFullSet()) - return ConstantSignedRange(APInt(getSignedMin()).sext(DstTySize), - APInt(getSignedMax()).sext(DstTySize)+1); - - APInt L = Lower; L.sext(DstTySize); - APInt U = Upper; U.sext(DstTySize); - return ConstantSignedRange(L, U); -} - -/// truncate - Return a new range in the specified integer type, which must be -/// strictly smaller than the current type. The returned range will -/// correspond to the possible range of values as if the source range had been -/// truncated to the specified type. -ConstantSignedRange ConstantSignedRange::truncate(uint32_t DstTySize) const { - // TODO: Implement truncate. - return ConstantSignedRange(DstTySize, !isEmptySet()); -} - -ConstantSignedRange -ConstantSignedRange::add(const ConstantSignedRange &Other) const { - // TODO: Implement add. - return ConstantSignedRange(getBitWidth(), - !(isEmptySet() || Other.isEmptySet())); -} - -ConstantSignedRange -ConstantSignedRange::multiply(const ConstantSignedRange &Other) const { - // TODO: Implement multiply. - return ConstantSignedRange(getBitWidth(), - !(isEmptySet() || Other.isEmptySet())); -} - -ConstantSignedRange -ConstantSignedRange::smax(const ConstantSignedRange &Other) const { - // X smax Y is: range(smax(X_smin, Y_smin), - // smax(X_smax, Y_smax)) - if (isEmptySet() || Other.isEmptySet()) - return ConstantSignedRange(getBitWidth(), /*isFullSet=*/false); - if (isFullSet() || Other.isFullSet()) - return ConstantSignedRange(getBitWidth(), /*isFullSet=*/true); - APInt NewL = APIntOps::smax(getSignedMin(), Other.getSignedMin()); - APInt NewU = APIntOps::smax(getSignedMax(), Other.getSignedMax()) + 1; - if (NewU == NewL) - return ConstantSignedRange(getBitWidth(), /*isFullSet=*/true); - return ConstantSignedRange(NewL, NewU); -} - -ConstantSignedRange -ConstantSignedRange::umax(const ConstantSignedRange &Other) const { - // TODO: Implement umax. - return ConstantSignedRange(getBitWidth(), - !(isEmptySet() || Other.isEmptySet())); -} - -ConstantSignedRange -ConstantSignedRange::udiv(const ConstantSignedRange &Other) const { - // TODO: Implement udiv. - return ConstantSignedRange(getBitWidth(), - !(isEmptySet() || Other.isEmptySet())); +std::ostream &llvm::operator<<(std::ostream &o, + const ConstantRange &CR) { + raw_os_ostream OS(o); + OS << CR; + return o; } diff --git a/unittests/Support/ConstantRangeTest.cpp b/unittests/Support/ConstantRangeTest.cpp index c5c575031d1..30730bd6c16 100644 --- a/unittests/Support/ConstantRangeTest.cpp +++ b/unittests/Support/ConstantRangeTest.cpp @@ -207,6 +207,14 @@ TEST(ConstantRangeTest, Unsigned) { ConstantRange(APInt(16, 0x6))); EXPECT_TRUE(Full.add(APInt(16, 4)).isFullSet()); + EXPECT_EQ(Full.add(Empty), Empty); + EXPECT_EQ(Full.add(One), Full); + EXPECT_EQ(Full.add(Some), Full); + EXPECT_EQ(Full.add(Wrap), Full); + EXPECT_EQ(Empty.add(Empty), Empty); + EXPECT_EQ(Empty.add(One), Empty); + EXPECT_EQ(Empty.add(Some), Empty); + EXPECT_EQ(Empty.add(Wrap), Empty); EXPECT_TRUE(Empty.add(APInt(16, 4)).isEmptySet()); EXPECT_EQ(Some.add(APInt(16, 4)), ConstantRange(APInt(16, 0xe), APInt(16, 0xaae))); @@ -254,27 +262,22 @@ TEST(ConstantRangeTest, Unsigned) { // TODO: ConstantRange is currently over-conservative here. EXPECT_EQ(Wrap.multiply(Wrap), Full); - EXPECT_EQ(Full.smax(Full), Full); - EXPECT_EQ(Full.smax(Empty), Empty); - EXPECT_EQ(Full.smax(One), Full); - EXPECT_EQ(Full.smax(Some), Full); - EXPECT_EQ(Full.smax(Wrap), Full); + EXPECT_TRUE(Full.smax(Full).isFullSet()); + EXPECT_TRUE(Full.smax(Empty).isEmptySet()); + EXPECT_TRUE(Full.smax(Some).isFullSet()); + EXPECT_TRUE(Full.smax(Wrap).isFullSet()); + EXPECT_TRUE(Full.smax(One).isFullSet()); EXPECT_EQ(Empty.smax(Empty), Empty); - EXPECT_EQ(Empty.smax(One), Empty); EXPECT_EQ(Empty.smax(Some), Empty); EXPECT_EQ(Empty.smax(Wrap), Empty); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(One.smax(One), Full); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(One.smax(Some), Full); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(One.smax(Wrap), Full); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(Some.smax(Some), Full); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(Some.smax(Wrap), Full); - // TODO: ConstantRange is currently over-conservative here. - EXPECT_EQ(Wrap.smax(Wrap), Full); + EXPECT_EQ(Empty.smax(One), Empty); + EXPECT_EQ(Some.smax(Some), Some); + EXPECT_EQ(Some.smax(Wrap), ConstantRange(APInt(16, 0xa), + APInt(16, INT16_MIN))); + EXPECT_EQ(Some.smax(One), Some); + EXPECT_EQ(Wrap.smax(One), ConstantRange(APInt(16, 0xa), + APInt(16, INT16_MIN))); + EXPECT_EQ(One.smax(One), One); EXPECT_EQ(Full.udiv(Full), Full); EXPECT_EQ(Full.udiv(Empty), Empty); @@ -297,286 +300,6 @@ TEST(ConstantRangeTest, Unsigned) { EXPECT_EQ(Some.udiv(Wrap), Full); // TODO: ConstantRange is currently over-conservative here. EXPECT_EQ(Wrap.udiv(Wrap), Full); - -} - -TEST(ConstantRangeTest, Signed) { - ConstantSignedRange Full(16); - ConstantSignedRange Empty(16, false); - ConstantSignedRange One(APInt(16, 0xa)); - ConstantSignedRange Some(APInt(16, 0xa), APInt(16, 0xaaa)); - ConstantSignedRange Wrap(APInt(16, 0xaaa), APInt(16, 0xa)); - - EXPECT_TRUE(Full.isFullSet()); - EXPECT_FALSE(Full.isEmptySet()); - EXPECT_FALSE(Full.isWrappedSet()); - EXPECT_TRUE(Full.contains(APInt(16, 0x0))); - EXPECT_TRUE(Full.contains(APInt(16, 0x9))); - EXPECT_TRUE(Full.contains(APInt(16, 0xa))); - EXPECT_TRUE(Full.contains(APInt(16, 0xaa9))); - EXPECT_TRUE(Full.contains(APInt(16, 0xaaa))); - - EXPECT_FALSE(Empty.isFullSet()); - EXPECT_TRUE(Empty.isEmptySet()); - EXPECT_FALSE(Empty.isWrappedSet()); - EXPECT_FALSE(Empty.contains(APInt(16, 0x0))); - EXPECT_FALSE(Empty.contains(APInt(16, 0x9))); - EXPECT_FALSE(Empty.contains(APInt(16, 0xa))); - EXPECT_FALSE(Empty.contains(APInt(16, 0xaa9))); - EXPECT_FALSE(Empty.contains(APInt(16, 0xaaa))); - - EXPECT_FALSE(One.isFullSet()); - EXPECT_FALSE(One.isEmptySet()); - EXPECT_FALSE(One.isWrappedSet()); - EXPECT_FALSE(One.contains(APInt(16, 0x0))); - EXPECT_FALSE(One.contains(APInt(16, 0x9))); - EXPECT_TRUE(One.contains(APInt(16, 0xa))); - EXPECT_FALSE(One.contains(APInt(16, 0xaa9))); - EXPECT_FALSE(One.contains(APInt(16, 0xaaa))); - - EXPECT_FALSE(Some.isFullSet()); - EXPECT_FALSE(Some.isEmptySet()); - EXPECT_FALSE(Some.isWrappedSet()); - EXPECT_FALSE(Some.contains(APInt(16, 0x0))); - EXPECT_FALSE(Some.contains(APInt(16, 0x9))); - EXPECT_TRUE(Some.contains(APInt(16, 0xa))); - EXPECT_TRUE(Some.contains(APInt(16, 0xaa9))); - EXPECT_FALSE(Some.contains(APInt(16, 0xaaa))); - - EXPECT_FALSE(Wrap.isFullSet()); - EXPECT_FALSE(Wrap.isEmptySet()); - EXPECT_TRUE(Wrap.isWrappedSet()); - EXPECT_TRUE(Wrap.contains(APInt(16, 0x0))); - EXPECT_TRUE(Wrap.contains(APInt(16, 0x9))); - EXPECT_FALSE(Wrap.contains(APInt(16, 0xa))); - EXPECT_FALSE(Wrap.contains(APInt(16, 0xaa9))); - EXPECT_TRUE(Wrap.contains(APInt(16, 0xaaa))); - - EXPECT_EQ(Full, Full); - EXPECT_EQ(Empty, Empty); - EXPECT_EQ(One, One); - EXPECT_EQ(Some, Some); - EXPECT_EQ(Wrap, Wrap); - EXPECT_NE(Full, Empty); - EXPECT_NE(Full, One); - EXPECT_NE(Full, Some); - EXPECT_NE(Full, Wrap); - EXPECT_NE(Empty, One); - EXPECT_NE(Empty, Some); - EXPECT_NE(Empty, Wrap); - EXPECT_NE(One, Some); - EXPECT_NE(One, Wrap); - EXPECT_NE(Some, Wrap); - - EXPECT_EQ(Full.getSingleElement(), static_cast(NULL)); - EXPECT_EQ(Empty.getSingleElement(), static_cast(NULL)); - EXPECT_EQ(*One.getSingleElement(), APInt(16, 0xa)); - EXPECT_EQ(Some.getSingleElement(), static_cast(NULL)); - EXPECT_EQ(Wrap.getSingleElement(), static_cast(NULL)); - - EXPECT_FALSE(Full.isSingleElement()); - EXPECT_FALSE(Empty.isSingleElement()); - EXPECT_TRUE(One.isSingleElement()); - EXPECT_FALSE(Some.isSingleElement()); - EXPECT_FALSE(Wrap.isSingleElement()); - - EXPECT_EQ(Full.getSetSize(), APInt(16, 0)); - EXPECT_EQ(Empty.getSetSize(), APInt(16, 0)); - EXPECT_EQ(One.getSetSize(), APInt(16, 1)); - EXPECT_EQ(Some.getSetSize(), APInt(16, 0xaa0)); - EXPECT_EQ(Wrap.getSetSize(), APInt(16, 0x10000 - 0xaa0)); - - EXPECT_EQ(Full.getSignedMax(), APInt(16, INT16_MAX, true)); - EXPECT_EQ(One.getSignedMax(), APInt(16, 0xa)); - EXPECT_EQ(Some.getSignedMax(), APInt(16, 0xaa9)); - EXPECT_EQ(Wrap.getSignedMax(), APInt(16, INT16_MAX)); - - EXPECT_EQ(Full.getSignedMin(), APInt(16, INT16_MIN)); - EXPECT_EQ(One.getSignedMin(), APInt(16, 0xa)); - EXPECT_EQ(Some.getSignedMin(), APInt(16, 0xa)); - EXPECT_EQ(Wrap.getSignedMin(), APInt(16, INT16_MIN)); - - EXPECT_EQ(Full.getUnsignedMax(), APInt(16, UINT16_MAX, true)); - EXPECT_EQ(One.getUnsignedMax(), APInt(16, 0xa)); - EXPECT_EQ(Some.getUnsignedMax(), APInt(16, 0xaa9)); - EXPECT_EQ(Wrap.getUnsignedMax(), APInt(16, UINT16_MAX)); - - EXPECT_EQ(Full.getUnsignedMin(), APInt(16, 0)); - EXPECT_EQ(One.getUnsignedMin(), APInt(16, 0xa)); - EXPECT_EQ(Some.getUnsignedMin(), APInt(16, 0xa)); - EXPECT_EQ(Wrap.getUnsignedMin(), APInt(16, 0)); - - ConstantSignedRange TFull = Full.truncate(10); - ConstantSignedRange TEmpty = Empty.truncate(10); - ConstantSignedRange TOne = One.truncate(10); - ConstantSignedRange TSome = Some.truncate(10); - ConstantSignedRange TWrap = Wrap.truncate(10); - EXPECT_TRUE(TFull.isFullSet()); - EXPECT_TRUE(TEmpty.isEmptySet()); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_TRUE(TOne.isFullSet()); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_TRUE(TSome.isFullSet()); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_TRUE(TWrap.isFullSet()); - - ConstantSignedRange ZFull = Full.zeroExtend(20); - ConstantSignedRange ZEmpty = Empty.zeroExtend(20); - ConstantSignedRange ZOne = One.zeroExtend(20); - ConstantSignedRange ZSome = Some.zeroExtend(20); - ConstantSignedRange ZWrap = Wrap.zeroExtend(20); - EXPECT_EQ(ZFull, ConstantSignedRange(APInt(20, 0), APInt(20, 0x10000))); - EXPECT_TRUE(ZEmpty.isEmptySet()); - EXPECT_EQ(ZOne, ConstantSignedRange(APInt(One.getLower()).zext(20), - APInt(One.getUpper()).zext(20))); - EXPECT_EQ(ZSome, ConstantSignedRange(APInt(Some.getLower()).zext(20), - APInt(Some.getUpper()).zext(20))); - EXPECT_EQ(ZWrap, ConstantSignedRange(APInt(Wrap.getLower()).zext(20), - APInt(Wrap.getUpper()).zext(20))); - - ConstantSignedRange SFull = Full.signExtend(20); - ConstantSignedRange SEmpty = Empty.signExtend(20); - ConstantSignedRange SOne = One.signExtend(20); - ConstantSignedRange SSome = Some.signExtend(20); - ConstantSignedRange SWrap = Wrap.signExtend(20); - EXPECT_EQ(SFull, ConstantSignedRange(APInt(20, INT16_MIN), - APInt(20, INT16_MAX+1))); - EXPECT_TRUE(SEmpty.isEmptySet()); - EXPECT_EQ(SOne, ConstantSignedRange(APInt(One.getLower()).sext(20), - APInt(One.getUpper()).sext(20))); - EXPECT_EQ(SSome, ConstantSignedRange(APInt(Some.getLower()).sext(20), - APInt(Some.getUpper()).sext(20))); - EXPECT_EQ(SWrap, ConstantSignedRange(APInt(Wrap.getLower()).sext(20), - APInt(Wrap.getUpper()).sext(20))); - - EXPECT_TRUE(Empty.intersectWith(Full).isEmptySet()); - EXPECT_TRUE(Empty.intersectWith(Empty).isEmptySet()); - EXPECT_TRUE(Empty.intersectWith(One).isEmptySet()); - EXPECT_TRUE(Empty.intersectWith(Some).isEmptySet()); - EXPECT_TRUE(Empty.intersectWith(Wrap).isEmptySet()); - EXPECT_TRUE(Full.intersectWith(Full).isFullSet()); - EXPECT_TRUE(Some.intersectWith(Some) == Some); - EXPECT_TRUE(Some.intersectWith(One) == One); - EXPECT_TRUE(Full.intersectWith(One) == One); - EXPECT_TRUE(Full.intersectWith(Some) == Some); - EXPECT_TRUE(Some.intersectWith(Wrap).isEmptySet()); - EXPECT_TRUE(One.intersectWith(Wrap).isEmptySet()); - EXPECT_EQ(One.intersectWith(Wrap), Wrap.intersectWith(One)); - - EXPECT_TRUE(Empty.maximalIntersectWith(Full).isEmptySet()); - EXPECT_TRUE(Empty.maximalIntersectWith(Empty).isEmptySet()); - EXPECT_TRUE(Empty.maximalIntersectWith(One).isEmptySet()); - EXPECT_TRUE(Empty.maximalIntersectWith(Some).isEmptySet()); - EXPECT_TRUE(Empty.maximalIntersectWith(Wrap).isEmptySet()); - EXPECT_TRUE(Full.maximalIntersectWith(Full).isFullSet()); - EXPECT_TRUE(Some.maximalIntersectWith(Some) == Some); - EXPECT_TRUE(Some.maximalIntersectWith(One) == One); - EXPECT_TRUE(Full.maximalIntersectWith(One) == One); - EXPECT_TRUE(Full.maximalIntersectWith(Some) == Some); - EXPECT_TRUE(Some.maximalIntersectWith(Wrap).isEmptySet()); - EXPECT_TRUE(One.maximalIntersectWith(Wrap).isEmptySet()); - EXPECT_EQ(One.maximalIntersectWith(Wrap), Wrap.maximalIntersectWith(One)); - - EXPECT_EQ(Wrap.unionWith(One), - ConstantSignedRange(APInt(16, 0xaaa), APInt(16, 0xb))); - EXPECT_EQ(One.unionWith(Wrap), Wrap.unionWith(One)); - EXPECT_TRUE(Empty.unionWith(Empty).isEmptySet()); - EXPECT_TRUE(Full.unionWith(Full).isFullSet()); - EXPECT_TRUE(Some.unionWith(Wrap).isFullSet()); - - EXPECT_TRUE(Full.subtract(APInt(16, 4)).isFullSet()); - EXPECT_TRUE(Empty.subtract(APInt(16, 4)).isEmptySet()); - EXPECT_EQ(Some.subtract(APInt(16, 4)), - ConstantSignedRange(APInt(16, 0x6), APInt(16, 0xaa6))); - EXPECT_EQ(Wrap.subtract(APInt(16, 4)), - ConstantSignedRange(APInt(16, 0xaa6), APInt(16, 0x6))); - EXPECT_EQ(One.subtract(APInt(16, 4)), - ConstantSignedRange(APInt(16, 0x6))); - - EXPECT_TRUE(Full.smax(Full).isFullSet()); - EXPECT_TRUE(Full.smax(Empty).isEmptySet()); - EXPECT_TRUE(Full.smax(Some).isFullSet()); - EXPECT_TRUE(Full.smax(Wrap).isFullSet()); - EXPECT_TRUE(Full.smax(One).isFullSet()); - EXPECT_EQ(Empty.smax(Empty), Empty); - EXPECT_EQ(Empty.smax(Some), Empty); - EXPECT_EQ(Empty.smax(Wrap), Empty); - EXPECT_EQ(Empty.smax(One), Empty); - EXPECT_EQ(Some.smax(Some), Some); - EXPECT_EQ(Some.smax(Wrap), ConstantSignedRange(APInt(16, 0xa), - APInt(16, INT16_MIN))); - EXPECT_EQ(Some.smax(One), Some); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Wrap.smax(Wrap), Full); - EXPECT_EQ(Wrap.smax(One), ConstantSignedRange(APInt(16, 0xa), - APInt(16, INT16_MIN))); - EXPECT_EQ(One.smax(One), One); - - EXPECT_EQ(Full.add(Full), Full); - EXPECT_EQ(Full.add(Empty), Empty); - EXPECT_EQ(Full.add(One), Full); - EXPECT_EQ(Full.add(Some), Full); - EXPECT_EQ(Full.add(Wrap), Full); - EXPECT_EQ(Empty.add(Empty), Empty); - EXPECT_EQ(Empty.add(One), Empty); - EXPECT_EQ(Empty.add(Some), Empty); - EXPECT_EQ(Empty.add(Wrap), Empty); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.add(One), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.add(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.add(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.add(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.add(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Wrap.add(Wrap), Full); - - EXPECT_EQ(Full.multiply(Full), Full); - EXPECT_EQ(Full.multiply(Empty), Empty); - EXPECT_EQ(Full.multiply(One), Full); - EXPECT_EQ(Full.multiply(Some), Full); - EXPECT_EQ(Full.multiply(Wrap), Full); - EXPECT_EQ(Empty.multiply(Empty), Empty); - EXPECT_EQ(Empty.multiply(One), Empty); - EXPECT_EQ(Empty.multiply(Some), Empty); - EXPECT_EQ(Empty.multiply(Wrap), Empty); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.multiply(One), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.multiply(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.multiply(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.multiply(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.multiply(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Wrap.multiply(Wrap), Full); - - EXPECT_EQ(Full.umax(Full), Full); - EXPECT_EQ(Full.umax(Empty), Empty); - EXPECT_EQ(Full.umax(One), Full); - EXPECT_EQ(Full.umax(Some), Full); - EXPECT_EQ(Full.umax(Wrap), Full); - EXPECT_EQ(Empty.umax(Empty), Empty); - EXPECT_EQ(Empty.umax(One), Empty); - EXPECT_EQ(Empty.umax(Some), Empty); - EXPECT_EQ(Empty.umax(Wrap), Empty); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.umax(One), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.umax(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(One.umax(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.umax(Some), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Some.umax(Wrap), Full); - // TODO: ConstantSignedRange is currently over-conservative here. - EXPECT_EQ(Wrap.umax(Wrap), Full); } } // anonymous namespace