Rank (computer programming): Difference between revisions
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The box below instead shows how ''rank of a type'' and ''rank of an array expression'' could be defined (in a semi-formal style) for C++ and illustrates a simple way to calculate them at compile time. |
The box below instead shows how ''rank of a type'' and ''rank of an array expression'' could be defined (in a semi-formal style) for C++ and illustrates a simple way to calculate them at compile time. |
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< |
<syntaxhighlight lang="cpp"> |
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#include <type_traits> |
#include <type_traits> |
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#include <cstddef> |
#include <cstddef> |
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return rank_v<unqualified_t<T>>; |
return rank_v<unqualified_t<T>>; |
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} |
} |
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</syntaxhighlight> |
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</source> |
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Given the code above the rank of a type T can be calculated at compile time by |
Given the code above the rank of a type T can be calculated at compile time by |
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:< |
:<syntaxhighlight lang="cpp">rank<T>::value</syntaxhighlight> |
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or the shorter form |
or the shorter form |
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:< |
:<syntaxhighlight lang="cpp">rank_v<T></syntaxhighlight> |
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Calculating the rank of an expression can be done using |
Calculating the rank of an expression can be done using |
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:< |
:<syntaxhighlight lang="cpp">rankof(expr)</syntaxhighlight> |
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==See also== |
==See also== |
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Revision as of 18:25, 11 May 2020
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In computer programming, rank with no further specifications is usually a synonym for (or refers to) "number of dimensions"; thus, a two-dimensional array has rank two, a three-dimensional array has rank three and so on. Strictly, no formal definition can be provided which applies to every programming language, since each of them has its own concepts, semantics and terminology; the term may not even be applicable or, to the contrary, applied with a very specific meaning in the context of a given language.
In the case of APL the notion applies to every operand; and dyads ("binary functions") have a left rank and a right rank.
The box below instead shows how rank of a type and rank of an array expression could be defined (in a semi-formal style) for C++ and illustrates a simple way to calculate them at compile time.
#include <type_traits>
#include <cstddef>
/* Rank of a type
* -------------
*
* Let the rank of a type T be the number of its dimensions if
* it is an array; zero otherwise (which is the usual convention)
*/
template <typename T> struct rank
{
static const std::size_t value = 0;
};
template<typename T, std::size_t N>
struct rank<T[N]>
{
static const std::size_t value = 1 + rank<T>::value;
};
template <typename T>
constexpr auto rank_v = rank<T>::value;
/* Rank of an expression
*
* Let the rank of an expression be the rank of its type
*/
template <typename T>
using unqualified_t = std::remove_cv_t<std::remove_reference_t<T>>;
template <typename T>
auto rankof(T&& expr)
{
return rank_v<unqualified_t<T>>;
}
Given the code above the rank of a type T can be calculated at compile time by
rank<T>::value
or the shorter form
rank_v<T>
Calculating the rank of an expression can be done using
rankof(expr)
See also
- Rank (linear algebra), for a definition of rank as applied to matrices
- Rank (J programming language), a concept of the same name in the J programming language
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