Branch: Difference between revisions
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Branch was the only form of flow control in early versions of APL, having been carried over from the conditional flow arrows of [[Iverson Notation]]. Some APL dialects later added the more modern [[control structure]]s leading to deprecation of Branch. | Branch was the only form of flow control in early versions of APL, having been carried over from the conditional flow arrows of [[Iverson Notation]]. Some APL dialects later added the more modern [[control structure]]s leading to deprecation of Branch. | ||
Branch is unusual having syntax resembling a [[monadic function]], but affecting program flow rather than altering arrays. In addition, a so called "naked branch", that is, a [[niladic]] < | Branch is unusual having syntax resembling a [[monadic function]], but affecting program flow rather than altering arrays. <span id=Abort>In addition, a so called "naked branch" or"abort", that is, a [[niladic]] <syntaxhighlight lang=apl inline>→</syntaxhighlight> will cut one level off the call stack.</span> | ||
In a [[tradfn]], Branch can take a [[scalar]] or [[vector]] argument, and immediately cause execution to resume on the line indicated by the first element of the argument, which must be a non-negative integer. If the line number is 0, the function will return to its caller. If the argument is empty, the effect is that of consuming the argument and giving no result, equivalent to the dfn < | In a [[tradfn]], Branch can take a [[scalar]] or [[vector]] argument, and immediately cause execution to resume on the line indicated by the first element of the argument, which must be a non-negative integer. If the line number is 0, the function will return to its caller. If the argument is empty, the effect is that of consuming the argument and giving no result, equivalent to the dfn <syntaxhighlight lang=apl inline>{}</syntaxhighlight>. Inserting a label (an identifier followed by a colon <syntaxhighlight lang=apl inline>:</syntaxhighlight>) into a function, in a sense declares a name as a constant with the scalar value of the current number for whichever line the label occurs on. This ensures stability when lines are inserted into a function. | ||
[[Dfn]]s do not support branching except the naked branch to cut the stack. | [[Dfn]]s do not support branching except the naked branch to cut the stack. | ||
In a [[tacit]] function (which doesn't have its own stack frame), the effect of Branch will be exercised in its caller. Tacit functions containing Branch can therefore be used to write covers for Branch, including various conditions. | In a [[tacit]] function (which doesn't have its own stack frame), the effect of Branch will be exercised in its caller. Tacit functions containing Branch can therefore be used to write covers for Branch, including various conditions. | ||
== Keyword alternatives == | |||
In dialects with [[control structure]]s, branching can also be effected with <syntaxhighlight lang=apl inline>:GoTo</syntaxhighlight> and specifically leaving the current function (which is normally <syntaxhighlight lang=apl inline>→0</syntaxhighlight>) can be written <syntaxhighlight lang=apl inline>:Return</syntaxhighlight>. | |||
==Examples== | ==Examples== | ||
Branch function can be used to implement [[wikipedia:Structured programming|structured programming]] constructs without the use of special keywords:<ref>[[Garth Foster|Garth H. Foster]]. (1975). [https://doi.org/10.1145/800117.803792 What lies beyond the branch arrow?].</ref> | Branch function can be used to implement [[wikipedia:Structured programming|structured programming]] constructs without the use of special keywords:<ref>[[Garth Foster|Garth H. Foster]]. (1975). [https://doi.org/10.1145/800117.803792 What lies beyond the branch arrow?].</ref> | ||
< | <syntaxhighlight lang=apl> | ||
⍝ If-Then-Else construct | ⍝ If-Then-Else construct | ||
→(~B)/Else | →(~B)/Else | ||
Line 23: | Line 25: | ||
S2 | S2 | ||
End: | End: | ||
</ | </syntaxhighlight> | ||
< | <syntaxhighlight lang=apl> | ||
⍝ Select construct | ⍝ Select construct | ||
→(Case1, Case2, Case3, Case4)[i] | →(Case1, Case2, Case3, Case4)[i] | ||
Line 35: | Line 37: | ||
Case4: S4 | Case4: S4 | ||
Next: | Next: | ||
</ | </syntaxhighlight> | ||
< | <syntaxhighlight lang=apl> | ||
⍝ While-Do construct | ⍝ While-Do construct | ||
While: →(~B)/Done | While: →(~B)/Done | ||
Line 42: | Line 44: | ||
→While | →While | ||
Done: | Done: | ||
</ | </syntaxhighlight> | ||
< | <syntaxhighlight lang=apl> | ||
⍝ Repeat-Until construct | ⍝ Repeat-Until construct | ||
Repeat: S2 | Repeat: S2 | ||
→(~B)/Repeat | →(~B)/Repeat | ||
</ | </syntaxhighlight> | ||
Note that < | Note that <syntaxhighlight inline lang=apl>Else</syntaxhighlight>, <syntaxhighlight inline lang=apl>End</syntaxhighlight>, <syntaxhighlight inline lang=apl>CaseN</syntaxhighlight>, <syntaxhighlight inline lang=apl>Next</syntaxhighlight>, <syntaxhighlight inline lang=apl>While</syntaxhighlight>, <syntaxhighlight inline lang=apl>Done</syntaxhighlight>, <syntaxhighlight inline lang=apl>Repeat</syntaxhighlight> in the examples above are all user-defined labels rather than keywords. | ||
==External links== | ==External links== | ||
Line 58: | Line 60: | ||
===References=== | ===References=== | ||
<references/> | <references/> | ||
{{APL syntax}} | |||
[[Category:APL syntax]] | [[Category:APL syntax]] |
Latest revision as of 11:50, 4 July 2024
→
|
Branch (→
) is a special primitive with a function-like syntax which provides a way to control execution flow in an APL program. It fulfils the role of goto, return statements, and call stack unwinding in other programming languages, though it is slightly more powerful in APL.
Behaviour
Branch was the only form of flow control in early versions of APL, having been carried over from the conditional flow arrows of Iverson Notation. Some APL dialects later added the more modern control structures leading to deprecation of Branch.
Branch is unusual having syntax resembling a monadic function, but affecting program flow rather than altering arrays. In addition, a so called "naked branch" or"abort", that is, a niladic →
will cut one level off the call stack.
In a tradfn, Branch can take a scalar or vector argument, and immediately cause execution to resume on the line indicated by the first element of the argument, which must be a non-negative integer. If the line number is 0, the function will return to its caller. If the argument is empty, the effect is that of consuming the argument and giving no result, equivalent to the dfn {}
. Inserting a label (an identifier followed by a colon :
) into a function, in a sense declares a name as a constant with the scalar value of the current number for whichever line the label occurs on. This ensures stability when lines are inserted into a function.
Dfns do not support branching except the naked branch to cut the stack.
In a tacit function (which doesn't have its own stack frame), the effect of Branch will be exercised in its caller. Tacit functions containing Branch can therefore be used to write covers for Branch, including various conditions.
Keyword alternatives
In dialects with control structures, branching can also be effected with :GoTo
and specifically leaving the current function (which is normally →0
) can be written :Return
.
Examples
Branch function can be used to implement structured programming constructs without the use of special keywords:[1]
⍝ If-Then-Else construct →(~B)/Else S1 →End Else: S2 End:
⍝ Select construct →(Case1, Case2, Case3, Case4)[i] Case1: S1 →Next Case2: S2 →Next Case3: S3 →Next Case4: S4 Next:
⍝ While-Do construct While: →(~B)/Done S1 →While Done:
⍝ Repeat-Until construct Repeat: S2 →(~B)/Repeat
Note that Else
, End
, CaseN
, Next
, While
, Done
, Repeat
in the examples above are all user-defined labels rather than keywords.
External links
Tutorials
- Bernard Legrand. Mastering Dyalog APL (page 208). Dyalog Ltd. November 2009.