1*d415bd75Srobert //===- AddressRanges.h ------------------------------------------*- C++ -*-===// 2*d415bd75Srobert // 3*d415bd75Srobert // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4*d415bd75Srobert // See https://llvm.org/LICENSE.txt for license information. 5*d415bd75Srobert // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6*d415bd75Srobert // 7*d415bd75Srobert //===----------------------------------------------------------------------===// 8*d415bd75Srobert 9*d415bd75Srobert #ifndef LLVM_ADT_ADDRESSRANGES_H 10*d415bd75Srobert #define LLVM_ADT_ADDRESSRANGES_H 11*d415bd75Srobert 12*d415bd75Srobert #include "llvm/ADT/STLExtras.h" 13*d415bd75Srobert #include "llvm/ADT/SmallVector.h" 14*d415bd75Srobert #include <cassert> 15*d415bd75Srobert #include <optional> 16*d415bd75Srobert #include <stdint.h> 17*d415bd75Srobert 18*d415bd75Srobert namespace llvm { 19*d415bd75Srobert 20*d415bd75Srobert /// A class that represents an address range. The range is specified using 21*d415bd75Srobert /// a start and an end address: [Start, End). 22*d415bd75Srobert class AddressRange { 23*d415bd75Srobert public: AddressRange()24*d415bd75Srobert AddressRange() {} AddressRange(uint64_t S,uint64_t E)25*d415bd75Srobert AddressRange(uint64_t S, uint64_t E) : Start(S), End(E) { 26*d415bd75Srobert assert(Start <= End); 27*d415bd75Srobert } start()28*d415bd75Srobert uint64_t start() const { return Start; } end()29*d415bd75Srobert uint64_t end() const { return End; } size()30*d415bd75Srobert uint64_t size() const { return End - Start; } contains(uint64_t Addr)31*d415bd75Srobert bool contains(uint64_t Addr) const { return Start <= Addr && Addr < End; } intersects(const AddressRange & R)32*d415bd75Srobert bool intersects(const AddressRange &R) const { 33*d415bd75Srobert return Start < R.End && R.Start < End; 34*d415bd75Srobert } 35*d415bd75Srobert bool operator==(const AddressRange &R) const { 36*d415bd75Srobert return Start == R.Start && End == R.End; 37*d415bd75Srobert } 38*d415bd75Srobert bool operator!=(const AddressRange &R) const { return !(*this == R); } 39*d415bd75Srobert bool operator<(const AddressRange &R) const { 40*d415bd75Srobert return std::make_pair(Start, End) < std::make_pair(R.Start, R.End); 41*d415bd75Srobert } 42*d415bd75Srobert 43*d415bd75Srobert private: 44*d415bd75Srobert uint64_t Start = 0; 45*d415bd75Srobert uint64_t End = 0; 46*d415bd75Srobert }; 47*d415bd75Srobert 48*d415bd75Srobert /// The AddressRanges class helps normalize address range collections. 49*d415bd75Srobert /// This class keeps a sorted vector of AddressRange objects and can perform 50*d415bd75Srobert /// insertions and searches efficiently. The address ranges are always sorted 51*d415bd75Srobert /// and never contain any invalid or empty address ranges. 52*d415bd75Srobert /// Intersecting([100,200), [150,300)) and adjacent([100,200), [200,300)) 53*d415bd75Srobert /// address ranges are combined during insertion. 54*d415bd75Srobert class AddressRanges { 55*d415bd75Srobert protected: 56*d415bd75Srobert using Collection = SmallVector<AddressRange>; 57*d415bd75Srobert Collection Ranges; 58*d415bd75Srobert 59*d415bd75Srobert public: clear()60*d415bd75Srobert void clear() { Ranges.clear(); } empty()61*d415bd75Srobert bool empty() const { return Ranges.empty(); } contains(uint64_t Addr)62*d415bd75Srobert bool contains(uint64_t Addr) const { return find(Addr) != Ranges.end(); } contains(AddressRange Range)63*d415bd75Srobert bool contains(AddressRange Range) const { 64*d415bd75Srobert return find(Range) != Ranges.end(); 65*d415bd75Srobert } getRangeThatContains(uint64_t Addr)66*d415bd75Srobert std::optional<AddressRange> getRangeThatContains(uint64_t Addr) const { 67*d415bd75Srobert Collection::const_iterator It = find(Addr); 68*d415bd75Srobert if (It == Ranges.end()) 69*d415bd75Srobert return std::nullopt; 70*d415bd75Srobert 71*d415bd75Srobert return *It; 72*d415bd75Srobert } 73*d415bd75Srobert Collection::const_iterator insert(AddressRange Range); reserve(size_t Capacity)74*d415bd75Srobert void reserve(size_t Capacity) { Ranges.reserve(Capacity); } size()75*d415bd75Srobert size_t size() const { return Ranges.size(); } 76*d415bd75Srobert bool operator==(const AddressRanges &RHS) const { 77*d415bd75Srobert return Ranges == RHS.Ranges; 78*d415bd75Srobert } 79*d415bd75Srobert const AddressRange &operator[](size_t i) const { 80*d415bd75Srobert assert(i < Ranges.size()); 81*d415bd75Srobert return Ranges[i]; 82*d415bd75Srobert } begin()83*d415bd75Srobert Collection::const_iterator begin() const { return Ranges.begin(); } end()84*d415bd75Srobert Collection::const_iterator end() const { return Ranges.end(); } 85*d415bd75Srobert 86*d415bd75Srobert protected: 87*d415bd75Srobert Collection::const_iterator find(uint64_t Addr) const; 88*d415bd75Srobert Collection::const_iterator find(AddressRange Range) const; 89*d415bd75Srobert }; 90*d415bd75Srobert 91*d415bd75Srobert /// AddressRangesMap class maps values to the address ranges. 92*d415bd75Srobert /// It keeps address ranges and corresponding values. If ranges 93*d415bd75Srobert /// are combined during insertion, then combined range keeps 94*d415bd75Srobert /// newly inserted value. 95*d415bd75Srobert template <typename T> class AddressRangesMap : protected AddressRanges { 96*d415bd75Srobert public: clear()97*d415bd75Srobert void clear() { 98*d415bd75Srobert Ranges.clear(); 99*d415bd75Srobert Values.clear(); 100*d415bd75Srobert } empty()101*d415bd75Srobert bool empty() const { return AddressRanges::empty(); } contains(uint64_t Addr)102*d415bd75Srobert bool contains(uint64_t Addr) const { return AddressRanges::contains(Addr); } contains(AddressRange Range)103*d415bd75Srobert bool contains(AddressRange Range) const { 104*d415bd75Srobert return AddressRanges::contains(Range); 105*d415bd75Srobert } insert(AddressRange Range,T Value)106*d415bd75Srobert void insert(AddressRange Range, T Value) { 107*d415bd75Srobert size_t InputSize = Ranges.size(); 108*d415bd75Srobert Collection::const_iterator RangesIt = AddressRanges::insert(Range); 109*d415bd75Srobert if (RangesIt == Ranges.end()) 110*d415bd75Srobert return; 111*d415bd75Srobert 112*d415bd75Srobert // make Values match to Ranges. 113*d415bd75Srobert size_t Idx = RangesIt - Ranges.begin(); 114*d415bd75Srobert typename ValuesCollection::iterator ValuesIt = Values.begin() + Idx; 115*d415bd75Srobert if (InputSize < Ranges.size()) 116*d415bd75Srobert Values.insert(ValuesIt, T()); 117*d415bd75Srobert else if (InputSize > Ranges.size()) 118*d415bd75Srobert Values.erase(ValuesIt, ValuesIt + InputSize - Ranges.size()); 119*d415bd75Srobert assert(Ranges.size() == Values.size()); 120*d415bd75Srobert 121*d415bd75Srobert // set value to the inserted or combined range. 122*d415bd75Srobert Values[Idx] = Value; 123*d415bd75Srobert } size()124*d415bd75Srobert size_t size() const { 125*d415bd75Srobert assert(Ranges.size() == Values.size()); 126*d415bd75Srobert return AddressRanges::size(); 127*d415bd75Srobert } 128*d415bd75Srobert std::optional<std::pair<AddressRange, T>> getRangeValueThatContains(uint64_t Addr)129*d415bd75Srobert getRangeValueThatContains(uint64_t Addr) const { 130*d415bd75Srobert Collection::const_iterator It = find(Addr); 131*d415bd75Srobert if (It == Ranges.end()) 132*d415bd75Srobert return std::nullopt; 133*d415bd75Srobert 134*d415bd75Srobert return std::make_pair(*It, Values[It - Ranges.begin()]); 135*d415bd75Srobert } 136*d415bd75Srobert std::pair<AddressRange, T> operator[](size_t Idx) const { 137*d415bd75Srobert return std::make_pair(Ranges[Idx], Values[Idx]); 138*d415bd75Srobert } 139*d415bd75Srobert 140*d415bd75Srobert protected: 141*d415bd75Srobert using ValuesCollection = SmallVector<T>; 142*d415bd75Srobert ValuesCollection Values; 143*d415bd75Srobert }; 144*d415bd75Srobert 145*d415bd75Srobert } // namespace llvm 146*d415bd75Srobert 147*d415bd75Srobert #endif // LLVM_ADT_ADDRESSRANGES_H 148