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//===-- BumpVector.h - Vector-like ADT that uses bump allocation --*- C++ -*-=//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
//  This file provides BumpVector, a vector-like ADT whose contents are
//  allocated from a BumpPtrAllocator.
//
//===----------------------------------------------------------------------===//

// FIXME: Most of this is copy-and-paste from SmallVector.h.  We can
// refactor this core logic into something common that is shared between
// the two.  The main thing that is different is the allocation strategy.

#ifndef LLVM_CLANG_BUMP_VECTOR
#define LLVM_CLANG_BUMP_VECTOR

#include "llvm/Support/type_traits.h"
#include "llvm/Support/Allocator.h"
#include "llvm/ADT/PointerIntPair.h"
#include <algorithm>
#include <cstring>
#include <iterator>
#include <memory>

namespace clang {
  
class BumpVectorContext {
  llvm::PointerIntPair<llvm::BumpPtrAllocator*, 1> Alloc;
public:
  /// Construct a new BumpVectorContext that creates a new BumpPtrAllocator
  /// and destroys it when the BumpVectorContext object is destroyed.
  BumpVectorContext() : Alloc(new llvm::BumpPtrAllocator(), 1) {}
  
  /// Construct a new BumpVectorContext that reuses an existing
  /// BumpPtrAllocator.  This BumpPtrAllocator is not destroyed when the
  /// BumpVectorContext object is destroyed.
  BumpVectorContext(llvm::BumpPtrAllocator &A) : Alloc(&A, 0) {}
  
  ~BumpVectorContext() {
    if (Alloc.getInt())
      delete Alloc.getPointer();
  }
  
  llvm::BumpPtrAllocator &getAllocator() { return *Alloc.getPointer(); }
};
  
template<typename T>
class BumpVector {
  T *Begin, *End, *Capacity;
public:
  // Default ctor - Initialize to empty.
  explicit BumpVector(BumpVectorContext &C, unsigned N)
  : Begin(NULL), End(NULL), Capacity(NULL) {
    reserve(C, N);
  }
  
  ~BumpVector() {
    if (llvm::is_class<T>::value) {
      // Destroy the constructed elements in the vector.
      destroy_range(Begin, End);
    }
  }
  
  typedef size_t size_type;
  typedef ptrdiff_t difference_type;
  typedef T value_type;
  typedef T* iterator;
  typedef const T* const_iterator;
  
  typedef std::reverse_iterator<const_iterator>  const_reverse_iterator;
  typedef std::reverse_iterator<iterator>  reverse_iterator;
  
  typedef T& reference;
  typedef const T& const_reference;
  typedef T* pointer;
  typedef const T* const_pointer;
  
  // forward iterator creation methods.
  iterator begin() { return Begin; }
  const_iterator begin() const { return Begin; }
  iterator end() { return End; }
  const_iterator end() const { return End; }
  
  // reverse iterator creation methods.
  reverse_iterator rbegin()            { return reverse_iterator(end()); }
  const_reverse_iterator rbegin() const{ return const_reverse_iterator(end()); }
  reverse_iterator rend()              { return reverse_iterator(begin()); }
  const_reverse_iterator rend() const { return const_reverse_iterator(begin());}
    
  bool empty() const { return Begin == End; }
  size_type size() const { return End-Begin; }

  reference operator[](unsigned idx) {
    assert(Begin + idx < End);
    return Begin[idx];
  }
  const_reference operator[](unsigned idx) const {
    assert(Begin + idx < End);
    return Begin[idx];
  }
  
  reference front() {
    return begin()[0];
  }
  const_reference front() const {
    return begin()[0];
  }
  
  reference back() {
    return end()[-1];
  }
  const_reference back() const {
    return end()[-1];
  }
  
  void pop_back() {
    --End;
    End->~T();
  }
  
  T pop_back_val() {
    T Result = back();
    pop_back();
    return Result;
  }
  
  void clear() {
    if (llvm::is_class<T>::value) {
      destroy_range(Begin, End);
    }
    End = Begin;
  }
  
  /// data - Return a pointer to the vector's buffer, even if empty().
  pointer data() {
    return pointer(Begin);
  }
  
  /// data - Return a pointer to the vector's buffer, even if empty().
  const_pointer data() const {
    return const_pointer(Begin);
  }
  
  void push_back(const_reference Elt, BumpVectorContext &C) {
    if (End < Capacity) {
    Retry:
      new (End) T(Elt);
      ++End;
      return;
    }
    grow(C);
    goto Retry;    
  }

  /// insert - Insert some number of copies of element into a position. Return
  /// iterator to position after last inserted copy.
  iterator insert(iterator I, size_t Cnt, const_reference E,
      BumpVectorContext &C) {
    assert (I >= Begin && I <= End && "Iterator out of bounds.");
    if (End + Cnt <= Capacity) {
    Retry:
      move_range_right(I, End, Cnt);
      construct_range(I, I + Cnt, E);
      End += Cnt;
      return I + Cnt;
    }
    ptrdiff_t D = I - Begin;
    grow(C, size() + Cnt);
    I = Begin + D;
    goto Retry;
  }

  void reserve(BumpVectorContext &C, unsigned N) {
    if (unsigned(Capacity-Begin) < N)
      grow(C, N);
  }

  /// capacity - Return the total number of elements in the currently allocated
  /// buffer.
  size_t capacity() const { return Capacity - Begin; }  
    
private:
  /// grow - double the size of the allocated memory, guaranteeing space for at
  /// least one more element or MinSize if specified.
  void grow(BumpVectorContext &C, size_type MinSize = 1);
  
  void construct_range(T *S, T *E, const T &Elt) {
    for (; S != E; ++S)
      new (S) T(Elt);
  }
  
  void destroy_range(T *S, T *E) {
    while (S != E) {
      --E;
      E->~T();
    }
  }

  void move_range_right(T *S, T *E, size_t D) {
    for (T *I = E + D - 1, *IL = S + D - 1; I != IL; --I) {
      --E;
      new (I) T(*E);
      E->~T();
    }
  }
};
  
// Define this out-of-line to dissuade the C++ compiler from inlining it.
template <typename T>
void BumpVector<T>::grow(BumpVectorContext &C, size_t MinSize) {
  size_t CurCapacity = Capacity-Begin;
  size_t CurSize = size();
  size_t NewCapacity = 2*CurCapacity;
  if (NewCapacity < MinSize)
    NewCapacity = MinSize;

  // Allocate the memory from the BumpPtrAllocator.
  T *NewElts = C.getAllocator().template Allocate<T>(NewCapacity);
  
  // Copy the elements over.
  if (llvm::is_class<T>::value) {
    std::uninitialized_copy(Begin, End, NewElts);
    // Destroy the original elements.
    destroy_range(Begin, End);
  }
  else {
    // Use memcpy for PODs (std::uninitialized_copy optimizes to memmove).
    memcpy(NewElts, Begin, CurSize * sizeof(T));
  }

  // For now, leak 'Begin'.  We can add it back to a freelist in
  // BumpVectorContext.
  Begin = NewElts;
  End = NewElts+CurSize;
  Capacity = Begin+NewCapacity;
}

} // end: clang namespace
#endif // end: LLVM_CLANG_BUMP_VECTOR

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