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этимология

Что (кто) такое normal recursion - определение

Alpha recursion; Α-recursion theory

Найдено результатов: 781

Tail call

SUBROUTINE THAT CALLS ITSELF AS ITS FINAL ACTION

Tail recursion; Tail recursion modulo cons; Tail-recursive; Tail recursive; Tail call optimization; Tail Recursion; Tail-call optimization; Tailcall; Tail-call optimisation; Tail-call elimination; Tail-recursion; Tail-end recursion; Tail call elimination; Tail recursion elimination; Tail recursion optimization; Tail-recursion optimization; Proper tail recursion; Tail function; Tail recursive function; Tail-recursive function

In computer science, a tail call is a subroutine call performed as the final action of a procedure. If the target of a tail is the same subroutine, the subroutine is said to be tail recursive, which is a special case of direct recursion.

https://en.wikipedia.org/wiki/Tail_call

tail recursion

SUBROUTINE THAT CALLS ITSELF AS ITS FINAL ACTION

Tail recursion; Tail recursion modulo cons; Tail-recursive; Tail recursive; Tail call optimization; Tail Recursion; Tail-call optimization; Tailcall; Tail-call optimisation; Tail-call elimination; Tail-recursion; Tail-end recursion; Tail call elimination; Tail recursion elimination; Tail recursion optimization; Tail-recursion optimization; Proper tail recursion; Tail function; Tail recursive function; Tail-recursive function

<programming> When the last thing a function (or procedure) does is to call itself. Such a function is called tail recursive. A function may make several recursive calls but a call is only tail-recursive if the caller returns immediately after it. E.g. f n = if n < 2 then 1 else f (f (n-2) + 1) In this example both calls to f are recursive but only the outer one is tail recursive. Tail recursion is a useful property because it enables {tail recursion optimisation}. If you aren't sick of them already, see recursion and {tail recursion}. [Jargon File] (2006-04-16)

tail call optimization

SUBROUTINE THAT CALLS ITSELF AS ITS FINAL ACTION

Tail recursion; Tail recursion modulo cons; Tail-recursive; Tail recursive; Tail call optimization; Tail Recursion; Tail-call optimization; Tailcall; Tail-call optimisation; Tail-call elimination; Tail-recursion; Tail-end recursion; Tail call elimination; Tail recursion elimination; Tail recursion optimization; Tail-recursion optimization; Proper tail recursion; Tail function; Tail recursive function; Tail-recursive function

last call optimisation

tail recursion modulo cons

SUBROUTINE THAT CALLS ITSELF AS ITS FINAL ACTION

Tail recursion; Tail recursion modulo cons; Tail-recursive; Tail recursive; Tail call optimization; Tail Recursion; Tail-call optimization; Tailcall; Tail-call optimisation; Tail-call elimination; Tail-recursion; Tail-end recursion; Tail call elimination; Tail recursion elimination; Tail recursion optimization; Tail-recursion optimization; Proper tail recursion; Tail function; Tail recursive function; Tail-recursive function

<programming, compiler> A generalisation of tail recursion introduced by D.H.D. Warren. It applies when the last thing a function does is to apply a constructor functions (e.g. cons) to an application of a non-primitive function. This is transformed into a tail call to the function which is also passed a pointer to where its result should be written. E.g. f [] = [] f (x:xs) = 1 : f xs is transformed into (pseudo C/Haskell): f [] = [] f l = f' l allocate_cons f' [] p = { *p = nil; return *p } f' (x:xs) p = { cell = allocate_cons; *p = cell; cell.head = 1; return f' xs &cell.tail } where allocate_cons returns the address of a new cons cell, *p is the location pointed to by p and &c is the address of c. [D.H.D. Warren, DAI Research Report 141, University of Edinburgh 1980]. (1995-03-06)

Normal force

FORCE EXERTED ON AN OBJECT BY A BODY WITH WHICH IT IS IN CONTACT, AND VICE VERSA

Normal Force; Normal reaction

In mechanics, the normal force F_n is the component of a contact force that is perpendicular to the surface that an object contacts, as in Figure 1. In this instance normal is used in the geometric sense and means perpendicular, as opposed to the common language use of normal meaning "ordinary" or "expected".

https://en.wikipedia.org/wiki/Normal_force

recursive

$The [[Sierpinski triangle]]—a confined recursion of triangles that form a fractal$

PROCESS OF REPEATING ITEMS IN A SELF-SIMILAR WAY

Recursion definition; Recursive; Recursivity; Recursionism; Recursively; Infinite Recursion; Recursion, infinite; Recursor function; Recursionisms; Recursion (Concept); Recursion (concept); Recursive routine; Recursions; Recursion principle; Recursive structure; Infinite loop motif; Infinite-loop motif; Recursiveness; Mathematical recursion; Base case (recursion); Recursoin; Recursive step; Recurson; Recursive humour; Recursion in natural languages; Recursion (linguistics)

recursion

recursion

$The [[Sierpinski triangle]]—a confined recursion of triangles that form a fractal$

PROCESS OF REPEATING ITEMS IN A SELF-SIMILAR WAY

Recursion definition; Recursive; Recursivity; Recursionism; Recursively; Infinite Recursion; Recursion, infinite; Recursor function; Recursionisms; Recursion (Concept); Recursion (concept); Recursive routine; Recursions; Recursion principle; Recursive structure; Infinite loop motif; Infinite-loop motif; Recursiveness; Mathematical recursion; Base case (recursion); Recursoin; Recursive step; Recurson; Recursive humour; Recursion in natural languages; Recursion (linguistics)

[r?'k?:?(?)n]

¦ noun chiefly Mathematics & Linguistics the repeated application of a procedure or rule to successive results of the process.

?a recursive procedure or formula.

recursion

$The [[Sierpinski triangle]]—a confined recursion of triangles that form a fractal$

PROCESS OF REPEATING ITEMS IN A SELF-SIMILAR WAY

Recursion definition; Recursive; Recursivity; Recursionism; Recursively; Infinite Recursion; Recursion, infinite; Recursor function; Recursionisms; Recursion (Concept); Recursion (concept); Recursive routine; Recursions; Recursion principle; Recursive structure; Infinite loop motif; Infinite-loop motif; Recursiveness; Mathematical recursion; Base case (recursion); Recursoin; Recursive step; Recurson; Recursive humour; Recursion in natural languages; Recursion (linguistics)

<mathematics, programming> When a function (or procedure) calls itself. Such a function is called "recursive". If the call is via one or more other functions then this group of functions are called "mutually recursive". If a function will always call itself, however it is called, then it will never terminate. Usually however, it first performs some test on its arguments to check for a "base case" - a condition under which it can return a value without calling itself. The canonical example of a recursive function is factorial: factorial 0 = 1 factorial n = n * factorial (n-1) Functional programming languages rely heavily on recursion, using it where a procedural language would use iteration. See also recursion, recursive definition, tail recursion. [Jargon File] (1996-05-11)

Recursion

$The [[Sierpinski triangle]]—a confined recursion of triangles that form a fractal$

PROCESS OF REPEATING ITEMS IN A SELF-SIMILAR WAY

Recursion definition; Recursive; Recursivity; Recursionism; Recursively; Infinite Recursion; Recursion, infinite; Recursor function; Recursionisms; Recursion (Concept); Recursion (concept); Recursive routine; Recursions; Recursion principle; Recursive structure; Infinite loop motif; Infinite-loop motif; Recursiveness; Mathematical recursion; Base case (recursion); Recursoin; Recursive step; Recurson; Recursive humour; Recursion in natural languages; Recursion (linguistics)

Recursion (adjective: recursive) occurs when a thing is defined in terms of itself or of its type. Recursion is used in a variety of disciplines ranging from linguistics to logic.

https://en.wikipedia.org/wiki/Recursion

Recursion

$The [[Sierpinski triangle]]—a confined recursion of triangles that form a fractal$

PROCESS OF REPEATING ITEMS IN A SELF-SIMILAR WAY

Recursion definition; Recursive; Recursivity; Recursionism; Recursively; Infinite Recursion; Recursion, infinite; Recursor function; Recursionisms; Recursion (Concept); Recursion (concept); Recursive routine; Recursions; Recursion principle; Recursive structure; Infinite loop motif; Infinite-loop motif; Recursiveness; Mathematical recursion; Base case (recursion); Recursoin; Recursive step; Recurson; Recursive humour; Recursion in natural languages; Recursion (linguistics)

·noun The act of recurring; return.

Википедия

Alpha recursion theory

In recursion theory, α recursion theory is a generalisation of recursion theory to subsets of admissible ordinals $\alpha$ . An admissible set is closed under $\Sigma _{1}(L_{\alpha })$ functions, where $L_{\xi }$ denotes a rank of Godel's constructible hierarchy. $\alpha$ is an admissible ordinal if $L_{\alpha }$ is a model of Kripke–Platek set theory. In what follows $\alpha$ is considered to be fixed.

The objects of study in $\alpha$ recursion are subsets of $\alpha$ . These sets are said to have some properties:

A set $A\subseteq \alpha$ is said to be $\alpha$ -recursively-enumerable if it is $\Sigma _{1}$ definable over $L_{\alpha }$ , possibly with parameters from $L_{\alpha }$ in the definition.
A is $\alpha$ -recursive if both A and $\alpha \setminus A$ (its relative complement in $\alpha$ ) are $\alpha$ -recursively-enumerable. It's of note that $\alpha$ -recursive sets are members of $L_{\alpha +1}$ by definition of $L$ .
Members of $L_{\alpha }$ are called $\alpha$ -finite and play a similar role to the finite numbers in classical recursion theory.
Members of $L_{\alpha +1}$ are called $\alpha$ -arithmetic.

There are also some similar definitions for functions mapping $\alpha$ to $\alpha$ :

A function mapping $\alpha$ to $\alpha$ is $\alpha$ -recursively-enumerable, or $\alpha$ -partial recursive, iff its graph is $\Sigma _{1}$ -definable in $(L_{\alpha },\in )$ .
A function mapping $\alpha$ to $\alpha$ is $\alpha$ -recursive iff its graph is $\Delta _{1}$ -definable in $(L_{\alpha },\in )$ .
Additionally, a function mapping $\alpha$ to $\alpha$ is $\alpha$ -arithmetical iff there exists some $n\in \omega$ such that the function's graph is $\Sigma _{n}$ -definable in $(L_{\alpha },\in )$ .

Additional connections between recursion theory and α recursion theory can be drawn, although explicit definitions may not have yet been written to formalize them:

The functions $\Delta _{0}$ -definable in $(L_{\alpha },\in )$ play a role similar to those of the primitive recursive functions.

We say R is a reduction procedure if it is $\alpha$ recursively enumerable and every member of R is of the form $\langle H,J,K\rangle$ where H, J, K are all α-finite.

A is said to be α-recursive in B if there exist $R_{0},R_{1}$ reduction procedures such that:

K\subseteq A\leftrightarrow \exists H:\exists J:[\langle H,J,K\rangle \in R_{0}\wedge H\subseteq B\wedge J\subseteq \alpha /B],

K\subseteq \alpha /A\leftrightarrow \exists H:\exists J:[\langle H,J,K\rangle \in R_{1}\wedge H\subseteq B\wedge J\subseteq \alpha /B].

If A is recursive in B this is written $\scriptstyle A\leq _{\alpha }B$ . By this definition A is recursive in $\scriptstyle \varnothing$ (the empty set) if and only if A is recursive. However A being recursive in B is not equivalent to A being $\Sigma _{1}(L_{\alpha }[B])$ .

We say A is regular if $\forall \beta \in \alpha :A\cap \beta \in L_{\alpha }$ or in other words if every initial portion of A is α-finite.

https://en.wikipedia.org/wiki/Alpha recursion theory