Dfn: Difference between revisions
m (Link to definition of "shy") |
|||
Line 51: | Line 51: | ||
</source> | </source> | ||
=== Shy results === | === Shy results === | ||
[[Roger Hui]]'s <source lang=apl inline>assert</source> is a dfn that has become the de facto standard when it comes to test suites.<ref>Stefan Kruger. [https://www.dyalog.com/blog/2021/04/2020-problem-solving-competition-phase-ii-highlights/ 2020 Problem Solving Competition – Phase II highlights]. [[Dyalog Ltd.|Dyalog]] blog. April 30, 2021.</ref>. In it, Hui uses both a [[default left argument]] and a final assignment to make the dfn shy: | [[Roger Hui]]'s <source lang=apl inline>assert</source> is a dfn that has become the de facto standard when it comes to test suites.<ref>Stefan Kruger. [https://www.dyalog.com/blog/2021/04/2020-problem-solving-competition-phase-ii-highlights/ 2020 Problem Solving Competition – Phase II highlights]. [[Dyalog Ltd.|Dyalog]] blog. April 30, 2021.</ref>. In it, Hui uses both a [[default left argument]] and a final assignment to make the dfn [[shy]]: | ||
<source lang=apl> | <source lang=apl> | ||
assert ← {⍺←'assertion failure' ⋄ 0∊⍵:⍺ ⎕signal 8 ⋄ shy←0}</source> | assert ← {⍺←'assertion failure' ⋄ 0∊⍵:⍺ ⎕signal 8 ⋄ shy←0}</source> |
Revision as of 05:44, 22 January 2022
- "dfns" redirects here. For the workspace by Scholes, see dfns workspace.
A dfn (contraction of direct function or dynamic function, pronounced "dee fun") is an alternative way to define a function and operator, invented by John Scholes. A dfn operator can also be called a dop (pronounced "dee op").
John Scholes was responsible for numerous presentations and publications on and about dfns, and until his passing he maintained the dfns workspace, a collection of dfns examples.
As of 2020, dfns are fully implemented in Dyalog APL, NARS2000, ngn/apl, dzaima/APL, and partially in GNU APL, although not all dialects implement lexical scoping, in contrast to the dynamic scoping of tradfns. In other words, a dfn cannot "see" locals of its caller, but can see locals of its definer.
Wikipedia includes a thorough treatment of dfns.
Examples
{⍵*0.5} 16 ⍝ square root 4 3 {⍵*÷⍺} 27 ⍝ ⍺th root 3
Default left arguments
Assignment to ⍺
is unusual in that the entire statement is only executed if the dfn is called monadically:[1]
root←{ ⍺←2 ⍝ square root by default ⍵*÷⍺ ⍝ result }
Guards
Guards provide dfns with support for basic flow control.[2] This is a multiline dfn with a conditional result:
root←{ ⍺=0:0 ⍝ return zero if zeroth root ⍵*÷⍺ ⍝ result }
Error-guards
Dyalog APL dfns support error-guards for processing errors by error codes.[3]
In the following example, there are two error-guards for the error code 11 (DOMAIN ERROR):[4]
Gravity←{ G←6.6743E¯11 ⍝ gravitational constant 11::'N/A' ⍝ second DOMAIN ERROR: return 'N/A' 11::∇⍎¨⍵ ⍝ first DOMAIN ERROR: maybe the argument is a vector of strings? G×⍵[1]×⍵[2]÷⍵[3]*2 ⍝ the argument is a vector of numbers } ⍝ Calculate gravity force between the Earth and the Sun Gravity '1.99e30' '5.97e24' '1.50e11' 3.524119391E22 Gravity 1.99e30 5.97e24 1.50e11 3.524119391E22 Gravity 1.99e30 5.97e24 0 ⍝ trigger division by zero N/A
Shy results
Roger Hui's assert
is a dfn that has become the de facto standard when it comes to test suites.[5]. In it, Hui uses both a default left argument and a final assignment to make the dfn shy:
assert ← {⍺←'assertion failure' ⋄ 0∊⍵:⍺ ⎕signal 8 ⋄ shy←0}
External links
Tutorials
- APL Cultivation: Diving Into Functions in APL
- Mastering Dyalog: page 174
Documentation
References
- ↑ Default Left Argument – Dyalog APL.
- ↑ Guards – Dyalog APL.
- ↑ Error Guards – Dyalog APL.
- ↑ APL Error Messages and Codes – Dyalog APL.
- ↑ Stefan Kruger. 2020 Problem Solving Competition – Phase II highlights. Dyalog blog. April 30, 2021.