System Labels
Normally, execution of a user-defined function/operator starts execution at line one. However, in certain contexts, execution may start at a different line depending upon the context and the presence of a System Label. These special labels start with a quad symbol so as to present no confusion with normal labels. The following table lists the system labels defined so far and the special context in which they are used.
|
For example,
∇ Z←{L} foo R
[1] Z←L,R ⋄ →0
[2] ⎕ID :Z←'Identity' ,(⎕NC 'L'),(⎕NC 'R') ⋄ →0
[3] ⎕MS :Z←'Multiset' ,(⎕NC 'L'),(⎕NC 'R') ⋄ →0
[4] ⎕PRO:Z←'Prototype',(⎕NC 'L'),(⎕NC 'R') ⋄ →0
∇
⎕fmt foo/⍬
┌──────────────┐
│┌8───────────┐│
││Identity 2 2││
│└────────────┘2
└∊─────────────┘
foo⍦ 1
Multiset 0 2
2 foo⍦ 1
Multiset 2 2
⎕fmt 1 foo¨⍬
┌0──────────────┐
│┌11───────────┐│
││ 0 0││
│└─────────────┘2
└∊──────────────┘
foo/¨0⍴⊂⍬
NONCE ERROR
foo/¨0⍴⊂⍬
∧
In the Identity element case, the function is called with the reduction function's right argument prototype as the right argument to the user-defined function/operator; the left argument is undefined. For example, in foo/3 0⍴⊂⍳4, the (right) argument passed to the function is 0 0 0 0. The return value from the function is used as the common item in the result. Thus, the ⎕ID entry point is called only once even though the result may have multiple copies of the return value.
In the Multiset case, the user-defined function/operator is called with the same argument(s) as the multiset derived function.
In the Prototype case, the user-defined function/operator is called with arguments that are the prototypes of the respective arguments; in the monadic case, the left argument is undefined.
For the moment, if two or more system labels would be called at the same time (such as the last example above), a NONCE ERROR is signaled.
- This idea was taken from the paper by David A. Rabenhorst, "APL function variants and system labels", ACM SIGAPL APL Quote Quad, APL83, Volume 13, Issue 3 (March 1983), pp. 281-284.