//===- AddressRanges.h ------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef LLVM_ADT_ADDRESSRANGES_H #define LLVM_ADT_ADDRESSRANGES_H #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallVector.h" #include #include #include namespace llvm { /// A class that represents an address range. The range is specified using /// a start and an end address: [Start, End). class AddressRange { public: AddressRange() {} AddressRange(uint64_t S, uint64_t E) : Start(S), End(E) { assert(Start <= End); } uint64_t start() const { return Start; } uint64_t end() const { return End; } uint64_t size() const { return End - Start; } uint64_t empty() const { return size() == 0; } bool contains(uint64_t Addr) const { return Start <= Addr && Addr < End; } bool contains(const AddressRange &R) const { return Start <= R.Start && R.End <= End; } bool intersects(const AddressRange &R) const { return Start < R.End && R.Start < End; } bool operator==(const AddressRange &R) const { return Start == R.Start && End == R.End; } bool operator!=(const AddressRange &R) const { return !(*this == R); } bool operator<(const AddressRange &R) const { return std::make_pair(Start, End) < std::make_pair(R.Start, R.End); } private: uint64_t Start = 0; uint64_t End = 0; }; /// The AddressRangesBase class presents the base functionality for the /// normalized address ranges collection. This class keeps a sorted vector /// of AddressRange-like objects and can perform searches efficiently. /// The address ranges are always sorted and never contain any invalid, /// empty or intersected address ranges. template class AddressRangesBase { protected: using Collection = SmallVector; Collection Ranges; public: void clear() { Ranges.clear(); } bool empty() const { return Ranges.empty(); } bool contains(uint64_t Addr) const { return find(Addr, Addr + 1) != Ranges.end(); } bool contains(AddressRange Range) const { return find(Range.start(), Range.end()) != Ranges.end(); } void reserve(size_t Capacity) { Ranges.reserve(Capacity); } size_t size() const { return Ranges.size(); } std::optional getRangeThatContains(uint64_t Addr) const { typename Collection::const_iterator It = find(Addr, Addr + 1); if (It == Ranges.end()) return std::nullopt; return *It; } typename Collection::const_iterator begin() const { return Ranges.begin(); } typename Collection::const_iterator end() const { return Ranges.end(); } const T &operator[](size_t i) const { assert(i < Ranges.size()); return Ranges[i]; } bool operator==(const AddressRangesBase &RHS) const { return Ranges == RHS.Ranges; } protected: typename Collection::const_iterator find(uint64_t Start, uint64_t End) const { if (Start >= End) return Ranges.end(); auto It = std::partition_point(Ranges.begin(), Ranges.end(), [=](const T &R) { return AddressRange(R).start() <= Start; }); if (It == Ranges.begin()) return Ranges.end(); --It; if (End > AddressRange(*It).end()) return Ranges.end(); return It; } }; /// The AddressRanges class helps normalize address range collections. /// This class keeps a sorted vector of AddressRange objects and can perform /// insertions and searches efficiently. Intersecting([100,200), [150,300)) /// and adjacent([100,200), [200,300)) address ranges are combined during /// insertion. class AddressRanges : public AddressRangesBase { public: Collection::const_iterator insert(AddressRange Range) { if (Range.empty()) return Ranges.end(); auto It = llvm::upper_bound(Ranges, Range); auto It2 = It; while (It2 != Ranges.end() && It2->start() <= Range.end()) ++It2; if (It != It2) { Range = {Range.start(), std::max(Range.end(), std::prev(It2)->end())}; It = Ranges.erase(It, It2); } if (It != Ranges.begin() && Range.start() <= std::prev(It)->end()) { --It; *It = {It->start(), std::max(It->end(), Range.end())}; return It; } return Ranges.insert(It, Range); } }; class AddressRangeValuePair { public: operator AddressRange() const { return Range; } AddressRange Range; int64_t Value = 0; }; inline bool operator==(const AddressRangeValuePair &LHS, const AddressRangeValuePair &RHS) { return LHS.Range == RHS.Range && LHS.Value == RHS.Value; } /// AddressRangesMap class maps values to the address ranges. /// It keeps normalized address ranges and corresponding values. /// This class keeps a sorted vector of AddressRangeValuePair objects /// and can perform insertions and searches efficiently. /// Intersecting([100,200), [150,300)) ranges splitted into non-conflicting /// parts([100,200), [200,300)). Adjacent([100,200), [200,300)) address /// ranges are not combined during insertion. class AddressRangesMap : public AddressRangesBase { public: void insert(AddressRange Range, int64_t Value) { if (Range.empty()) return; // Search for range which is less than or equal incoming Range. auto It = std::partition_point(Ranges.begin(), Ranges.end(), [=](const AddressRangeValuePair &R) { return R.Range.start() <= Range.start(); }); if (It != Ranges.begin()) It--; while (!Range.empty()) { // Inserted range does not overlap with any range. // Store it into the Ranges collection. if (It == Ranges.end() || Range.end() <= It->Range.start()) { Ranges.insert(It, {Range, Value}); return; } // Inserted range partially overlaps with current range. // Store not overlapped part of inserted range. if (Range.start() < It->Range.start()) { It = Ranges.insert(It, {{Range.start(), It->Range.start()}, Value}); It++; Range = {It->Range.start(), Range.end()}; continue; } // Inserted range fully overlaps with current range. if (Range.end() <= It->Range.end()) return; // Inserted range partially overlaps with current range. // Remove overlapped part from the inserted range. if (Range.start() < It->Range.end()) Range = {It->Range.end(), Range.end()}; It++; } } }; } // namespace llvm #endif // LLVM_ADT_ADDRESSRANGES_H