[llvm-commits] CVS: llvm/include/llvm/ADT/BitVector.h

[Evan Cheng]

Changes in directory llvm/include/llvm/ADT:

BitVector.h added (r1.1)
---
Log message:

Add a BitVector class.

---
Diffs of the changes:  (+347 -0)

 BitVector.h |  347 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 files changed, 347 insertions(+)


Index: llvm/include/llvm/ADT/BitVector.h
diff -c /dev/null llvm/include/llvm/ADT/BitVector.h:1.1
*** /dev/null	Wed Feb 14 23:56:22 2007
--- llvm/include/llvm/ADT/BitVector.h	Wed Feb 14 23:56:11 2007
***************
*** 0 ****
--- 1,347 ----
+ //===- llvm/ADT/BitVector.h - Bit vectors -----------------------*- C++ -*-===//
+ //
+ //                     The LLVM Compiler Infrastructure
+ //
+ // This file was developed by Evan Cheng and is distributed under
+ // the University of Illinois Open Source License. See LICENSE.TXT for details.
+ //
+ //===----------------------------------------------------------------------===//
+ //
+ // This file implements the BitVector class.
+ //
+ //===----------------------------------------------------------------------===//
+ 
+ #ifndef LLVM_ADT_BITVECTOR_H
+ #define LLVM_ADT_BITVECTOR_H
+ 
+ #include "llvm/Support/MathExtras.h"
+ 
+ namespace llvm {
+ 
+ class BitVector {
+   typedef unsigned long BitWord;
+ 
+   enum { BITS_PER_WORD = sizeof(BitWord) * 8 };
+ 
+   BitWord  *Bits;        // Actual bits. 
+   unsigned Size;         // Size of bitvector in bits.
+   unsigned Capacity;     // Size of allocated memory in BitWord.
+ 
+ public:
+   // Encapsulation of a single bit.
+   class reference {
+     friend class BitVector;
+ 
+     BitWord *WordRef;
+     unsigned BitPos;
+ 
+     reference();  // Undefined
+ 
+   public:
+     reference(BitVector &b, unsigned Idx) {
+       WordRef = &b.Bits[Idx / BITS_PER_WORD];
+       BitPos = Idx % BITS_PER_WORD;
+     }
+ 
+     ~reference() {}
+ 
+     reference& operator=(bool t) {
+       if (t)
+         *WordRef |= 1 << BitPos;
+       else
+         *WordRef &= ~(1 << BitPos);
+       return *this;
+     }
+ 
+     reference& operator=(const reference& rhs) {
+       if (*rhs.WordRef & (1 << rhs.BitPos))
+         *WordRef |= 1 << BitPos;
+       else
+         *WordRef &= ~(1 << BitPos);
+       return *this;
+     }
+ 
+     operator bool() const {
+       return (*WordRef) & (1 << BitPos);
+     }
+   };
+ 
+ 
+   /// BitVector default ctor - Creates an empty bitvector.
+   BitVector() : Size(0), Capacity(0) {
+     Bits = new BitWord[0];
+   }
+ 
+   /// BitVector ctor - Creates a bitvector of specified number of bits. All
+   /// bits are initialized to false;
+   BitVector(unsigned s) : Size(s) {
+     Capacity = NumBitWords(s);
+     Bits = new BitWord[Capacity];
+     init_words(Bits, Capacity, false);
+   }
+ 
+   /// BitVector ctor - Creates a bitvector of specified number of bits. All
+   /// bits are initialized to the specified value.
+   BitVector(unsigned s, bool t) : Size(s) {
+     Capacity = NumBitWords(s);
+     Bits = new BitWord[Capacity];
+     init_words(Bits, Capacity, t);
+   }
+ 
+   /// BitVector copy ctor.
+   BitVector(const BitVector &RHS) : Size(RHS.size()) {
+     Capacity = NumBitWords(RHS.size());
+     Bits = new BitWord[Capacity];
+     std::copy(RHS.Bits, &RHS.Bits[Capacity], Bits);
+   }
+ 
+   /// size - Returns the number of bits in this bitvector.
+   unsigned size() const { return Size; }
+ 
+   /// count - Returns the number of bits which are set.
+   unsigned count() const {
+     unsigned NumBits = 0;
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       NumBits = CountPopulation_32(Bits[i]);
+     return NumBits;
+   }
+ 
+   /// any - Returns true if any bit is set.
+   bool any() const {
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       if (Bits[i] != 0)
+         return true;
+     return false;
+   }
+ 
+   /// none - Returns true if none of the bits are set.
+   bool none() const {
+     return !any();
+   }
+ 
+   /// find_first - Returns the index of the first set bit, -1 if none
+   /// of the bits are set.
+   int find_first() const {
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       if (Bits[i] != 0)
+         return i * BITS_PER_WORD + CountTrailingZeros_32(Bits[i]);
+     return -1;
+   }
+ 
+   /// find_next - Returns the index of the next set bit following the
+   /// "Prev" bit. Returns -1 if the next set bit is not found.
+   int find_next(unsigned Prev) const {
+     ++Prev;
+     if (Prev >= Size)
+       return -1;
+ 
+     unsigned WordPos = Prev / BITS_PER_WORD;
+     unsigned BitPos = Prev % BITS_PER_WORD;
+     BitWord Copy = Bits[WordPos];
+     // Mask off previous bits.
+     Copy &= ~0 << BitPos;
+ 
+     if (Copy != 0)
+       return WordPos * BITS_PER_WORD + CountTrailingZeros_32(Copy);
+ 
+     // Check subsequent words.
+     for (unsigned i = WordPos+1; i < NumBitWords(size()); ++i)
+       if (Bits[i] != 0)
+         return i * BITS_PER_WORD + CountTrailingZeros_32(Bits[i]);
+     return -1;
+   }
+ 
+   /// clear - Clear all bits.
+   void clear() {
+     delete[] Bits;
+     Bits = new BitWord[0];
+     Size = Capacity = 0;
+   }
+ 
+   /// resize - Grow or shrink the bitvector.
+   void resize(unsigned N) {
+     if (N > Capacity * BITS_PER_WORD) {
+       unsigned OldCapacity = Capacity;
+       grow(N);
+       init_words(&Bits[OldCapacity], (Capacity-OldCapacity), false);
+     }
+     Size = N;
+   }
+ 
+   void resize(unsigned N, bool t) {
+     if (N > Capacity * BITS_PER_WORD) {
+       unsigned OldCapacity = Capacity;
+       grow(N);
+       init_words(&Bits[OldCapacity], (Capacity-OldCapacity), t);
+     }
+     Size = N;
+   }
+ 
+   void reserve(unsigned N) {
+     if (N > Capacity * BITS_PER_WORD)
+       grow(N);
+   }
+ 
+   // Set, reset, flip
+   BitVector &set() {
+     init_words(Bits, Capacity, true);
+     clear_unused_bits();
+     return *this;
+   }
+ 
+   BitVector &set(unsigned Idx) {
+     Bits[Idx / BITS_PER_WORD] |= 1 << (Idx % BITS_PER_WORD);
+     return *this;
+   }
+ 
+   BitVector &reset() {
+     init_words(Bits, Capacity, false);
+     return *this;
+   }
+ 
+   BitVector &reset(unsigned Idx) {
+     Bits[Idx / BITS_PER_WORD] &= ~(1 << (Idx % BITS_PER_WORD));
+     return *this;
+   }
+ 
+   BitVector &flip() {
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       Bits[i] = ~Bits[i];
+     clear_unused_bits();
+     return *this;
+   }
+ 
+   BitVector &flip(unsigned Idx) {
+     Bits[Idx / BITS_PER_WORD] ^= 1 << (Idx % BITS_PER_WORD);
+     return *this;
+   }
+ 
+   // No argument flip.
+   BitVector operator~() const {
+     return BitVector(*this).flip();
+   }
+ 
+   // Indexing.
+   reference operator[](unsigned Idx) {
+     return reference(*this, Idx);
+   }
+ 
+   bool operator[](unsigned Idx) const {
+     BitWord Mask = 1 << (Idx % BITS_PER_WORD);
+     return (Bits[Idx / BITS_PER_WORD] & Mask) != 0;
+   }
+ 
+   bool test(unsigned Idx) const {
+     return (*this)[Idx];
+   }
+ 
+   // Comparison operators.
+   bool operator==(const BitVector &RHS) const {
+     assert(Size == RHS.Size && "Illegal operation!");
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       if (Bits[i] != RHS.Bits[i])
+         return false;
+     return true;
+   }
+ 
+   bool operator!=(const BitVector &RHS) const {
+     return !(*this == RHS);
+   }
+ 
+   // Intersection, union, disjoint union.
+   BitVector operator&=(const BitVector &RHS) {
+     assert(Size == RHS.Size && "Illegal operation!");
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       Bits[i] &= RHS.Bits[i];
+     return *this;
+   }
+ 
+   BitVector operator|=(const BitVector &RHS) {
+     assert(Size == RHS.Size && "Illegal operation!");
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       Bits[i] |= RHS.Bits[i];
+     return *this;
+   }
+ 
+   BitVector operator^=(const BitVector &RHS) {
+     assert(Size == RHS.Size && "Illegal operation!");
+     for (unsigned i = 0; i < NumBitWords(size()); ++i)
+       Bits[i] ^= RHS.Bits[i];
+     return *this;
+   }
+   
+   // Assignment operator.
+   const BitVector &operator=(const BitVector &RHS) {
+     if (this == &RHS) return *this;
+ 
+     unsigned RHSWords = NumBitWords(RHS.size());
+     unsigned NewSize = RHS.size();
+     if (NewSize <= Capacity * BITS_PER_WORD) {
+       std::copy(RHS.Bits, &RHS.Bits[RHSWords], Bits);
+       Size = NewSize;
+       clear_unused_bits();
+       return *this;
+     }
+   
+     // Grow the bitvector to have enough elements.
+     Capacity = NumBitWords(NewSize);
+     BitWord *NewBits = new BitWord[Capacity];
+     std::copy(RHS.Bits, &RHS.Bits[RHSWords], NewBits);
+ 
+     // Destroy the old bits.
+     delete[] Bits;
+     Bits = NewBits;
+ 
+     return *this;
+   }
+ 
+ private:
+   unsigned NumBitWords(unsigned S) const {
+     return (S + BITS_PER_WORD-1) / BITS_PER_WORD;
+   }
+ 
+   // Clear the unused top bits in the high word.
+   void clear_unused_bits() {
+     unsigned ExtraBits = Size % BITS_PER_WORD;
+     Bits[Size / BITS_PER_WORD] &= ~(~0 << ExtraBits);
+   }
+ 
+   void grow(unsigned NewSize) {
+     unsigned OldCapacity = Capacity;
+     Capacity = NumBitWords(NewSize);
+     BitWord *NewBits = new BitWord[Capacity];
+ 
+     // Copy the old bits over.
+     if (OldCapacity != 0)
+       std::copy(Bits, &Bits[OldCapacity], NewBits);
+ 
+     // Destroy the old bits.
+     delete[] Bits;
+     Bits = NewBits;
+   }
+ 
+   void init_words(BitWord *B, unsigned NumWords, bool t) {
+     memset(B, 0 - (int)t, NumWords*sizeof(BitWord));
+   } 
+ };
+ 
+ inline BitVector operator&(const BitVector &LHS, const BitVector &RHS) {
+   BitVector Result(LHS);
+   Result &= RHS;
+   return Result;
+ }
+ 
+ inline BitVector operator|(const BitVector &LHS, const BitVector &RHS) {
+   BitVector Result(LHS);
+   Result |= RHS;
+   return Result;
+ }
+ 
+ inline BitVector operator^(const BitVector &LHS, const BitVector &RHS) {
+   BitVector Result(LHS);
+   Result ^= RHS;
+   return Result;
+ }
+  
+ } // End llvm namespace
+ #endif