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/**@file Simplified Vector template with aliases. */
/*
* Copyright 2008 Free Software Foundation, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef VECTOR_H
#define VECTOR_H
#include <string.h>
#include <iostream>
#include <assert.h>
// We cant use Logger.h in this file...
extern int gVectorDebug;
#define BVDEBUG(msg) if (gVectorDebug) {std::cout << msg;}
/**
A simplified Vector template with aliases.
Unlike std::vector, this class does not support dynamic resizing.
Unlike std::vector, this class does support "aliases" and subvectors.
*/
template <class T> class Vector {
// TODO -- Replace memcpy calls with for-loops.
public:
/**@name Iterator types. */
//@{
typedef T* iterator;
typedef const T* const_iterator;
//@}
protected:
T* mData; ///< allocated data block, if any
T* mStart; ///< start of useful data
T* mEnd; ///< end of useful data + 1
public:
/****
char *inspect() {
static char buf[100];
sprintf(buf," mData=%p mStart=%p mEnd=%p ",mData,mStart,mEnd);
return buf;
}
***/
/** Return the size of the Vector. */
size_t size() const
{
assert(mStart>=mData);
assert(mEnd>=mStart);
return mEnd - mStart;
}
/** Return size in bytes. */
size_t bytes() const { return size()*sizeof(T); }
/** Change the size of the Vector, discarding content. */
void resize(size_t newSize)
{
if (mData!=NULL) delete[] mData;
if (newSize==0) mData=NULL;
else mData = new T[newSize];
mStart = mData;
mEnd = mStart + newSize;
}
/** Reduce addressable size of the Vector, keeping content. */
void shrink(size_t newSize)
{
assert(newSize <= mEnd - mStart);
mEnd = mStart + newSize;
}
/** Release memory and clear pointers. */
void clear() { resize(0); }
/** Copy data from another vector. */
void clone(const Vector<T>& other)
{
resize(other.size());
memcpy(mData,other.mStart,other.bytes());
}
//@{
/** Build an empty Vector of a given size. */
Vector(size_t wSize=0):mData(NULL) { resize(wSize); }
/** Build a Vector by moving another. */
Vector(Vector<T>&& other)
:mData(other.mData),mStart(other.mStart),mEnd(other.mEnd)
{ other.mData=NULL; }
/** Build a Vector by copying another. */
Vector(const Vector<T>& other):mData(NULL) { clone(other); }
/** Build a Vector with explicit values. */
Vector(T* wData, T* wStart, T* wEnd)
:mData(wData),mStart(wStart),mEnd(wEnd)
{ }
/** Build a vector from an existing block, NOT to be deleted upon destruction. */
Vector(T* wStart, size_t span)
:mData(NULL),mStart(wStart),mEnd(wStart+span)
{ }
/** Build a Vector by concatenation. */
Vector(const Vector<T>& other1, const Vector<T>& other2)
:mData(NULL)
{
resize(other1.size()+other2.size());
memcpy(mStart, other1.mStart, other1.bytes());
memcpy(mStart+other1.size(), other2.mStart, other2.bytes());
}
//@}
/** Destroy a Vector, deleting held memory. */
~Vector() { clear(); }
//@{
/** Assign from another Vector, shifting ownership. */
void operator=(Vector<T>& other)
{
clear();
mData=other.mData;
mStart=other.mStart;
mEnd=other.mEnd;
other.mData=NULL;
}
/** Assign from another Vector, copying. */
void operator=(const Vector<T>& other) { clone(other); }
//@}
//@{
/** Return an alias to a segment of this Vector. */
Vector<T> segment(size_t start, size_t span)
{
T* wStart = mStart + start;
T* wEnd = wStart + span;
assert(wEnd<=mEnd);
return Vector<T>(NULL,wStart,wEnd);
}
/** Return an alias to a segment of this Vector. */
const Vector<T> segment(size_t start, size_t span) const
{
T* wStart = mStart + start;
T* wEnd = wStart + span;
assert(wEnd<=mEnd);
return Vector<T>(NULL,wStart,wEnd);
}
Vector<T> head(size_t span) { return segment(0,span); }
const Vector<T> head(size_t span) const { return segment(0,span); }
Vector<T> tail(size_t start) { return segment(start,size()-start); }
const Vector<T> tail(size_t start) const { return segment(start,size()-start); }
/**
Copy part of this Vector to a segment of another Vector.
@param other The other vector.
@param start The start point in the other vector.
@param span The number of elements to copy.
*/
void copyToSegment(Vector<T>& other, size_t start, size_t span) const
{
T* base = other.mStart + start;
assert(base+span<=other.mEnd);
assert(mStart+span<=mEnd);
memcpy(base,mStart,span*sizeof(T));
}
/** Copy all of this Vector to a segment of another Vector. */
void copyToSegment(Vector<T>& other, size_t start=0) const { copyToSegment(other,start,size()); }
void copyTo(Vector<T>& other) const { copyToSegment(other,0,size()); }
/**
Copy a segment of this vector into another.
@param other The other vector (to copt into starting at 0.)
@param start The start point in this vector.
@param span The number of elements to copy.
*/
void segmentCopyTo(Vector<T>& other, size_t start, size_t span) const
{
const T* base = mStart + start;
assert(base+span<=mEnd);
assert(other.mStart+span<=other.mEnd);
memcpy(other.mStart,base,span*sizeof(T));
}
/**
Move (copy) a segment of this vector into a different position in the vector
@param from Start point from which to copy.
@param to Start point to which to copy.
@param span The number of elements to copy.
*/
void segmentMove(size_t from, size_t to, size_t span)
{
const T* baseFrom = mStart + from;
T* baseTo = mStart + to;
assert(baseFrom+span<=mEnd);
assert(baseTo+span<=mEnd);
memmove(baseTo,baseFrom,span*sizeof(T));
}
void fill(const T& val)
{
T* dp=mStart;
while (dp<mEnd) *dp++=val;
}
void fill(const T& val, unsigned start, unsigned length)
{
T* dp=mStart+start;
T* end=dp+length;
assert(end<=mEnd);
while (dp<end) *dp++=val;
}
//@}
//@{
T& operator[](size_t index)
{
assert(mStart+index<mEnd);
return mStart[index];
}
const T& operator[](size_t index) const
{
assert(mStart+index<mEnd);
return mStart[index];
}
const T* begin() const { return mStart; }
T* begin() { return mStart; }
const T* end() const { return mEnd; }
T* end() { return mEnd; }
bool isOwner() { return !!mData; } // Do we own any memory ourselves?
//@}
};
/** Basic print operator for Vector objects. */
template <class T>
std::ostream& operator<<(std::ostream& os, const Vector<T>& v)
{
for (unsigned i=0; i<v.size(); i++) os << v[i] << " ";
return os;
}
#endif
// vim: ts=4 sw=4
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