formal parameter - определение. Что такое formal parameter
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Что (кто) такое formal parameter - определение

IN COMPUTER PROGRAMMING, SPECIAL KIND OF VARIABLE THAT HOLDS DATA THAT WAS PASSED AS AN ARGUMENT TO A SUBROUTINE
Argument (computer science); Argument (programming); Parameter (programming); Formal parameter; Actual parameter; Parameters (computer science); Formal parameters; Function parameter; Argument (computing); Parameter (computer science); Parameter (computing); Output parameter; Out parameter; Return parameter; Argument (computer programming); Input parameter; Input value; Output value; Actual parameters
Найдено результатов: 538
Parameter (computer programming)         
In computer programming, a parameter or a formal argument is a special kind of variable used in a subroutine to refer to one of the pieces of data provided as input to the subroutine. These pieces of data are the values of the arguments (often called actual arguments or actual parameters) with which the subroutine is going to be called/invoked.
Statistical parameter         
QUANTITY THAT INDEXES A PARAMETRIZED FAMILY OF PROBABILITY DISTRIBUTIONS
Numerical parameter; Population parameter; Statistical measure; Numeric parameter; Statistical parameters; True value
In statistics, as opposed to its general use in mathematics, a parameter is any measured quantity of a statistical population that summarises or describes an aspect of the population, such as a mean or a standard deviation. If a population exactly follows a known and defined distribution, for example the normal distribution, then a small set of parameters can be measured which completely describes the population, and can be considered to define a probability distribution for the purposes of extracting samples from this population.
Uncertainty parameter         
  • Function graph U(r)
PARAMETER QUANTIFYING THE UNCERTAINTY OF A PERTURBED ORBITAL SOLUTION FOR A MINOR PLANET
Uncertainty Parameter U; Uncertainty Parameter; Uncertainty parameter U
The uncertainty parameter U is introduced by the Minor Planet Center (MPC) to quantify the uncertainty of a perturbed orbital solution for a minor planet. The parameter is a logarithmic scale from 0 to 9 that measures the anticipated longitudinal uncertainty in the minor planet's mean anomaly after 10 years.
Formal (university)         
FORMAL UNIVERSITY DINNER EVENT IN COMMONWEALTH COUNTRIES
Formal Hall; Formal hall; Second hall; Second Hall
Formal hall or formal meal is a meal held at some of the oldest universities in the United Kingdom and the Republic of Ireland (as well as some other Commonwealth countries) at which students usually dress in formal attire and often gowns to dine. These are held commonly in the colleges and halls of Oxford, Cambridge,Meals & Formal Hall, Trinity Hall, Cambridge, UK.
Immirzi parameter         
NUMERICAL COEFFICIENT IN LOOP QUANTUM GRAVITY
Immirzi discrepancy; Barbero-Immirzi parameter
The Immirzi parameter (also known as the Barbero–Immirzi parameter) is a numerical coefficient appearing in loop quantum gravity (LQG), a nonperturbative theory of quantum gravity. The Immirzi parameter measures the size of the quantum of area in Planck units.
Formal power series         
GENERALIZATION OF A POLYNOMIAL, WHERE THE NUMBER OF TERMS IS ALLOWED TO BE INFINITE, DEFINED ALGEBRAICALLY WITHOUT CONSIDERATION OF CONVERGENCE (SO THAT E.G. EVALUATION IS NOT ALWAYS DEFINED)
Formal Laurent series; Formal series; Non-commuting formal power series; Power series ring; Ring of formal power series; K((x)); R((x)); Ring of formal Laurent series; Formal power series ring; Magnus ring; Formal power serie; Formal power series over a semiring; Operations on formal power series
In mathematics, a formal series is an infinite sum that is considered independently from any notion of convergence, and can be manipulated with the usual algebraic operations on series (addition, subtraction, multiplication, division, partial sums, etc.).
Distributed parameter system         
SYSTEMS THAT HAVE AN INFINITE-DIMENSIONAL STATE-SPACE
Distributed parameter systems
In control theory, a distributed-parameter system (as opposed to a lumped-parameter system) is a system whose state space is infinite-dimensional. Such systems are therefore also known as infinite-dimensional systems.
Head-directionality parameter         
  • German head-final AP Structure
  • Gbe AP structure
  • German head-initial AP Structure
  • head-initial and head-final constructions
  • English AspP Structure
  • Gbe CP structure
  • German CP Structure
  • head-initial and head-final constructions
  • English DP structure
  • Japanese DP structure
  • Dependency distance between constituents in Indonesian
  • Governor-Dependent relationship in SVO Head-initial languages
  • English NP structure
  • Gbe NP structure
  • Japanese NP structure
  • head-initial and head-final constructions
  • English PP structure
  • German head-initial PP structure
  • Japanese PP structure
  • head-initial and head-final constructions
  • Turkish TP structure
  • Turkish PP Structure
  • Canonical SOV word order in Turkish
  • Turkish VP structure
  • Turkish DP structure
  • English VP structure
  • German VP structure
  • Japanese VP structure
  • head-initial and head-final constructions
  • Indonesian head-initial word order in VP
  • Indonesian head-initial word order in VP
IN GENERATIVE GRAMMAR, A PARAMETER THAT CLASSIFIES LANGUAGES ACCORDING TO WHETHER THEY ARE HEAD-INITIAL (THE HEAD OF A PHRASE PRECEDES ITS COMPLEMENTS) OR HEAD-FINAL (THE HEAD FOLLOWS ITS COMPLEMENTS)
Head-first; Head-last; Head-final; Head initial; Head final; Head-initial; Head directionality; Head initial language; Head final language; Head directionality parameter; Head last; Head parameter
In linguistics, head directionality is a proposed parameter that classifies languages according to whether they are head-initial (the head of a phrase precedes its complements) or head-final (the head follows its complements). The head is the element that determines the category of a phrase: for example, in a verb phrase, the head is a verb.
head-first         
  • German head-final AP Structure
  • Gbe AP structure
  • German head-initial AP Structure
  • head-initial and head-final constructions
  • English AspP Structure
  • Gbe CP structure
  • German CP Structure
  • head-initial and head-final constructions
  • English DP structure
  • Japanese DP structure
  • Dependency distance between constituents in Indonesian
  • Governor-Dependent relationship in SVO Head-initial languages
  • English NP structure
  • Gbe NP structure
  • Japanese NP structure
  • head-initial and head-final constructions
  • English PP structure
  • German head-initial PP structure
  • Japanese PP structure
  • head-initial and head-final constructions
  • Turkish TP structure
  • Turkish PP Structure
  • Canonical SOV word order in Turkish
  • Turkish VP structure
  • Turkish DP structure
  • English VP structure
  • German VP structure
  • Japanese VP structure
  • head-initial and head-final constructions
  • Indonesian head-initial word order in VP
  • Indonesian head-initial word order in VP
IN GENERATIVE GRAMMAR, A PARAMETER THAT CLASSIFIES LANGUAGES ACCORDING TO WHETHER THEY ARE HEAD-INITIAL (THE HEAD OF A PHRASE PRECEDES ITS COMPLEMENTS) OR HEAD-FINAL (THE HEAD FOLLOWS ITS COMPLEMENTS)
Head-first; Head-last; Head-final; Head initial; Head final; Head-initial; Head directionality; Head initial language; Head final language; Head directionality parameter; Head last; Head parameter
also headfirst
If you move head-first in a particular direction, your head is the part of your body that is furthest forward as you are moving.
He had apparently fallen head-first down the stairwell...
ADV: ADV after v
Helmert transformation         
  • The transformation from a reference frame 1 to a reference frame 2 can be described with three translations Δx, Δy, Δz, three rotations Rx, Ry, Rz and a scale parameter μ.
TRANSFORMATION METHOD WITHIN A THREE-DIMENSIONAL SPACE
Seven parameter transformation; Seven-parameter transformation
The Helmert transformation (named after Friedrich Robert Helmert, 1843–1917) is a geometric transformation method within a three-dimensional space.

Википедия

Parameter (computer programming)

In computer programming, a parameter or a formal argument is a special kind of variable used in a subroutine to refer to one of the pieces of data provided as input to the subroutine. These pieces of data are the values of the arguments (often called actual arguments or actual parameters) with which the subroutine is going to be called/invoked. An ordered list of parameters is usually included in the definition of a subroutine, so that, each time the subroutine is called, its arguments for that call are evaluated, and the resulting values can be assigned to the corresponding parameters.

Unlike argument in usual mathematical usage, the argument in computer science is the actual input expression passed/supplied to a function, procedure, or routine in the invocation/call statement, whereas the parameter is the variable inside the implementation of the subroutine. For example, if one defines the add subroutine as def add(x, y): return x + y, then x, y are parameters, while if this is called as add(2, 3), then 2, 3 are the arguments. Note that variables (and expressions thereof) from the calling context can be arguments: if the subroutine is called as a = 2; b = 3; add(a, b) then the variables a, b are the arguments, not the values 2, 3. See the Parameters and arguments section for more information.

The semantics for how parameters can be declared and how the (value of) arguments are passed to the parameters of subroutines are defined by the evaluation strategy of the language, and the details of how this is represented in any particular computer system depend on the calling convention of that system. In the most common case, call by value, a parameter acts within the subroutine as a new local variable initialized to the value of the argument (a local (isolated) copy of the argument if the argument is a variable), but in other cases, e.g. call by reference, the argument variable supplied by the caller can be affected by actions within the called subroutine.