//===-- SequenceToOffsetTable.h - Compress similar sequences ----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // SequenceToOffsetTable can be used to emit a number of null-terminated // sequences as one big array. Use the same memory when a sequence is a suffix // of another. // //===----------------------------------------------------------------------===// #ifndef TBLGEN_SEQUENCE_TO_OFFSET_TABLE_H #define TBLGEN_SEQUENCE_TO_OFFSET_TABLE_H #include "llvm/Support/raw_ostream.h" #include <algorithm> #include <cassert> #include <cctype> #include <functional> #include <vector> namespace llvm { /// SequenceToOffsetTable - Collect a number of terminated sequences of T. /// Compute the layout of a table that contains all the sequences, possibly by /// reusing entries. /// /// @tparam SeqT The sequence container. (vector or string). /// @tparam Less A stable comparator for SeqT elements. template<typename SeqT, typename Less = std::less<typename SeqT::value_type> > class SequenceToOffsetTable { typedef typename SeqT::value_type ElemT; // Define a comparator for SeqT that sorts a suffix immediately before a // sequence with that suffix. struct SeqLess : public std::binary_function<SeqT, SeqT, bool> { Less L; bool operator()(const SeqT &A, const SeqT &B) const { return std::lexicographical_compare(A.rbegin(), A.rend(), B.rbegin(), B.rend(), L); } }; // Keep sequences ordered according to SeqLess so suffixes are easy to find. // Map each sequence to its offset in the table. typedef std::map<SeqT, unsigned, SeqLess> SeqMap; // Sequences added so far, with suffixes removed. SeqMap Seqs; // Entries in the final table, or 0 before layout was called. unsigned Entries; // isSuffix - Returns true if A is a suffix of B. static bool isSuffix(const SeqT &A, const SeqT &B) { return A.size() <= B.size() && std::equal(A.rbegin(), A.rend(), B.rbegin()); } public: SequenceToOffsetTable() : Entries(0) {} /// add - Add a sequence to the table. /// This must be called before layout(). void add(const SeqT &Seq) { assert(Entries == 0 && "Cannot call add() after layout()"); typename SeqMap::iterator I = Seqs.lower_bound(Seq); // If SeqMap contains a sequence that has Seq as a suffix, I will be // pointing to it. if (I != Seqs.end() && isSuffix(Seq, I->first)) return; I = Seqs.insert(I, std::make_pair(Seq, 0u)); // The entry before I may be a suffix of Seq that can now be erased. if (I != Seqs.begin() && isSuffix((--I)->first, Seq)) Seqs.erase(I); } bool empty() const { return Seqs.empty(); } /// layout - Computes the final table layout. void layout() { assert(Entries == 0 && "Can only call layout() once"); // Lay out the table in Seqs iteration order. for (typename SeqMap::iterator I = Seqs.begin(), E = Seqs.end(); I != E; ++I) { I->second = Entries; // Include space for a terminator. Entries += I->first.size() + 1; } } /// get - Returns the offset of Seq in the final table. unsigned get(const SeqT &Seq) const { assert(Entries && "Call layout() before get()"); typename SeqMap::const_iterator I = Seqs.lower_bound(Seq); assert(I != Seqs.end() && isSuffix(Seq, I->first) && "get() called with sequence that wasn't added first"); return I->second + (I->first.size() - Seq.size()); } /// emit - Print out the table as the body of an array initializer. /// Use the Print function to print elements. void emit(raw_ostream &OS, void (*Print)(raw_ostream&, ElemT), const char *Term = "0") const { assert(Entries && "Call layout() before emit()"); for (typename SeqMap::const_iterator I = Seqs.begin(), E = Seqs.end(); I != E; ++I) { OS << " /* " << I->second << " */ "; for (typename SeqT::const_iterator SI = I->first.begin(), SE = I->first.end(); SI != SE; ++SI) { Print(OS, *SI); OS << ", "; } OS << Term << ",\n"; } } }; // Helper function for SequenceToOffsetTable<string>. static inline void printChar(raw_ostream &OS, char C) { unsigned char UC(C); if (isalnum(UC) || ispunct(UC)) { OS << '\''; if (C == '\\' || C == '\'') OS << '\\'; OS << C << '\''; } else { OS << unsigned(UC); } } } // end namespace llvm #endif