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//
// nd_array.hpp
//
// Created by Joshua Moerman on 10/25/11.
// Copyright 2011 Vadovas. All rights reserved.
//
/*
Dynamic multi-dimensional array.
With the usual c-syntax: v[x][y][z].
Memory is allocated as one big block, instead of multiple smaller blocks (which is the case with std::vector<std::vector<...>>).
Showed no difference in speed compared to std::vector<std::vector<...>> (in release build), so you better can use std::vector.
This class can be used te reinterpret a big chunk of memory as a n-dimensional array. (Could be useful if your legacy-code gives you somthing like that).
It is templated in number of dimensions (and of course type). With extra effort you could make the dimension dynamic (ie not compile-time, but run-time), I leave that as an excercise to the reader.
*/
13 years ago
#ifndef ND_ARRAY_HPP
#define ND_ARRAY_HPP
#include <stdexcept>
#include <numeric>
#include <iterator>
#include <array> // C++11, right here :D (if this fails, try using tr1)
template <typename T, size_t dimension>
class nd_array{
public:
typedef T & reference;
typedef T const & const_reference;
typedef T * iterator;
typedef T const * const_iterator;
typedef size_t size_type;
typedef ptrdiff_t difference_type;
typedef T value_type;
typedef T * pointer;
typedef T const * const_pointer;
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
/*
NOTE: I actually wanted to make a specialisation for N = 0, but this is not possible in class scope, so it had to be in namespace-scope. Problem with the specialisation then is that the outer-class isn't specialised, while the inner is, this is also not possible. So either I had to make this class completly out of the nd_array class (which would require a lot of templating), OR I check things in an non-templated way. I chose for the latter, since it was easier to make. The first one is actually beter (it would have better types, which make dimensionality-errors a type-error, instead of an exception).
*/
template <size_type N>
struct proxy {
nd_array * const data;
size_t const offset;
proxy(nd_array * const c, size_t o)
: data(c)
, offset(o)
{}
proxy<N-1> operator[](size_t y){
if (N == 0) throw std::logic_error("called operator[] on a value");
return proxy<N-1>(data, data->sizes[dimension - N]*offset + y);
}
operator reference(){
if (N != 0) throw std::logic_error("using a non-value");
return *(data->data + offset);
}
reference operator=(T const & n){
if (N != 0) throw std::logic_error("assignment to a non-value");
return *(data->data + offset) = n;
}
};
template <size_type N>
struct const_proxy {
nd_array const * const data;
size_t const offset;
const_proxy(nd_array const * const c, size_t o)
: data(c)
, offset(o)
{}
const_proxy<N-1> operator[](size_t y) const {
if (N == 0) throw std::logic_error("called operator[] on a value");
return const_proxy<N-1>(data, data->sizes[dimension - N]*offset + y);
}
operator const_reference() const {
if (N != 0) throw std::logic_error("using a non-value");
return *(data->data + offset);
}
};
nd_array(size_type width, size_type height)
: data(0)
, sizes()
{
if (dimension != 2) throw std::logic_error("wrong constructor");
sizes[0] = width;
sizes[1] = height;
data = new T[width*height];
}
nd_array(size_type width, size_type height, size_type depth)
: data(0)
, sizes()
{
if (dimension != 3) throw std::logic_error("wrong constructor");
sizes[0] = width;
sizes[1] = height;
sizes[2] = depth;
data = new T[width*height*depth];
}
~nd_array(){
delete[] data;
}
size_type get_size(size_type d) const {
return sizes[d];
}
size_type size() const {
return std::accumulate(sizes.begin(), sizes.end(), 1, std::multiplies<size_type>());
}
proxy<dimension-1> operator[](size_t x){
return proxy<dimension-1>(this, x);
}
const_proxy<dimension-1> operator[](size_t x) const {
return const_proxy<dimension-1>(this, x);
}
iterator begin(){
return data;
}
iterator end(){
size_type length = size();
return data + length;
}
const_iterator cbegin() const {
return data;
}
const_iterator cend() const {
size_type length = size();
return data + length;
}
private:
T * data;
std::array<size_type, dimension> sizes;
};
13 years ago
#endif // ND_ARRAY_HPP