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array2.h
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array2.h
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#ifndef ARRAY2_H
#define ARRAY2_H
#include "array1.h"
#include <algorithm>
#include <cassert>
#include <vector>
template<class T, class ArrayT=std::vector<T> >
struct Array2
{
// STL-friendly typedefs
typedef typename ArrayT::iterator iterator;
typedef typename ArrayT::const_iterator const_iterator;
typedef typename ArrayT::size_type size_type;
typedef long difference_type;
typedef T& reference;
typedef const T& const_reference;
typedef T value_type;
typedef T* pointer;
typedef const T* const_pointer;
typedef typename ArrayT::reverse_iterator reverse_iterator;
typedef typename ArrayT::const_reverse_iterator const_reverse_iterator;
// the actual representation
int ni, nj;
ArrayT a;
// the interface
Array2(void)
: ni(0), nj(0)
{}
Array2(int ni_, int nj_)
: ni(ni_), nj(nj_), a(ni_*nj_)
{ assert(ni_>=0 && nj>=0); }
Array2(int ni_, int nj_, ArrayT& a_)
: ni(ni_), nj(nj_), a(a_)
{ assert(ni_>=0 && nj>=0); }
Array2(int ni_, int nj_, const T& value)
: ni(ni_), nj(nj_), a(ni_*nj_, value)
{ assert(ni_>=0 && nj>=0); }
Array2(int ni_, int nj_, const T& value, size_type max_n_)
: ni(ni_), nj(nj_), a(ni_*nj_, value, max_n_)
{ assert(ni_>=0 && nj>=0); }
Array2(int ni_, int nj_, T* data_)
: ni(ni_), nj(nj_), a(ni_*nj_, data_)
{ assert(ni_>=0 && nj>=0); }
Array2(int ni_, int nj_, T* data_, size_type max_n_)
: ni(ni_), nj(nj_), a(ni_*nj_, data_, max_n_)
{ assert(ni_>=0 && nj>=0); }
template<class OtherArrayT>
Array2(Array2<T, OtherArrayT>& other)
: ni(other.ni), nj(other.nj), a(other.a)
{}
~Array2(void)
{
#ifndef NDEBUG
ni=nj=0;
#endif
}
const T& operator()(int i, int j) const
{
assert(i>=0 && i<ni && j>=0 && j<nj);
return a[i+ni*j];
}
T& operator()(int i, int j)
{
assert(i>=0 && i<ni && j>=0 && j<nj);
return a[i+ni*j];
}
bool operator==(const Array2<T>& x) const
{ return ni==x.ni && nj==x.nj && a==x.a; }
bool operator!=(const Array2<T>& x) const
{ return ni!=x.ni || nj!=x.nj || a!=x.a; }
bool operator<(const Array2<T>& x) const
{
if(ni<x.ni) return true; else if(ni>x.ni) return false;
if(nj<x.nj) return true; else if(nj>x.nj) return false;
return a<x.a;
}
bool operator>(const Array2<T>& x) const
{
if(ni>x.ni) return true; else if(ni<x.ni) return false;
if(nj>x.nj) return true; else if(nj<x.nj) return false;
return a>x.a;
}
bool operator<=(const Array2<T>& x) const
{
if(ni<x.ni) return true; else if(ni>x.ni) return false;
if(nj<x.nj) return true; else if(nj>x.nj) return false;
return a<=x.a;
}
bool operator>=(const Array2<T>& x) const
{
if(ni>x.ni) return true; else if(ni<x.ni) return false;
if(nj>x.nj) return true; else if(nj<x.nj) return false;
return a>=x.a;
}
void assign(const T& value)
{ a.assign(value); }
void assign(int ni_, int nj_, const T& value)
{
a.assign(ni_*nj_, value);
ni=ni_;
nj=nj_;
}
void assign(int ni_, int nj_, const T* copydata)
{
a.assign(ni_*nj_, copydata);
ni=ni_;
nj=nj_;
}
const T& at(int i, int j) const
{
assert(i>=0 && i<ni && j>=0 && j<nj);
return a[i+ni*j];
}
T& at(int i, int j)
{
assert(i>=0 && i<ni && j>=0 && j<nj);
return a[i+ni*j];
}
const T& back(void) const
{
assert(a.size());
return a.back();
}
T& back(void)
{
assert(a.size());
return a.back();
}
const_iterator begin(void) const
{ return a.begin(); }
iterator begin(void)
{ return a.begin(); }
size_type capacity(void) const
{ return a.capacity(); }
void clear(void)
{
a.clear();
ni=nj=0;
}
bool empty(void) const
{ return a.empty(); }
const_iterator end(void) const
{ return a.end(); }
iterator end(void)
{ return a.end(); }
void fill(int ni_, int nj_, const T& value)
{
a.fill(ni_*nj_, value);
ni=ni_;
nj=nj_;
}
const T& front(void) const
{
assert(a.size());
return a.front();
}
T& front(void)
{
assert(a.size());
return a.front();
}
size_type max_size(void) const
{ return a.max_size(); }
reverse_iterator rbegin(void)
{ return reverse_iterator(end()); }
const_reverse_iterator rbegin(void) const
{ return const_reverse_iterator(end()); }
reverse_iterator rend(void)
{ return reverse_iterator(begin()); }
const_reverse_iterator rend(void) const
{ return const_reverse_iterator(begin()); }
void reserve(int reserve_ni, int reserve_nj)
{ a.reserve(reserve_ni*reserve_nj); }
void resize(int ni_, int nj_)
{
assert(ni_>=0 && nj_>=0);
a.resize(ni_*nj_);
ni=ni_;
nj=nj_;
}
void resize(int ni_, int nj_, const T& value)
{
assert(ni_>=0 && nj_>=0);
a.resize(ni_*nj_, value);
ni=ni_;
nj=nj_;
}
void set_zero(void)
{ a.set_zero(); }
size_type size(void) const
{ return a.size(); }
void swap(Array2<T>& x)
{
std::swap(ni, x.ni);
std::swap(nj, x.nj);
a.swap(x.a);
}
void trim(void)
{ a.trim(); }
};
// some common arrays
typedef Array2<double, Array1<double> > Array2d;
typedef Array2<float, Array1<float> > Array2f;
typedef Array2<long long, Array1<long long> > Array2ll;
typedef Array2<unsigned long long, Array1<unsigned long long> > Array2ull;
typedef Array2<int, Array1<int> > Array2i;
typedef Array2<unsigned int, Array1<unsigned int> > Array2ui;
typedef Array2<short, Array1<short> > Array2s;
typedef Array2<unsigned short, Array1<unsigned short> > Array2us;
typedef Array2<char, Array1<char> > Array2c;
typedef Array2<unsigned char, Array1<unsigned char> > Array2uc;
// and wrapped versions
typedef Array2<double, WrapArray1<double> > WrapArray2d;
typedef Array2<float, WrapArray1<float> > WrapArray2f;
typedef Array2<long long, WrapArray1<long long> > WrapArray2ll;
typedef Array2<unsigned long long, WrapArray1<unsigned long long> > WrapArray2ull;
typedef Array2<int, WrapArray1<int> > WrapArray2i;
typedef Array2<unsigned int, WrapArray1<unsigned int> > WrapArray2ui;
typedef Array2<short, WrapArray1<short> > WrapArray2s;
typedef Array2<unsigned short, WrapArray1<unsigned short> > WrapArray2us;
typedef Array2<char, WrapArray1<char> > WrapArray2c;
typedef Array2<unsigned char, WrapArray1<unsigned char> > WrapArray2uc;
#endif