Consistent Extensions in NARS2000: Difference between revisions

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* [[Axis|Axis operator values may be negative]]:  That is, if the largest allowed value is <apll>N</apll>, then the allowable range for axis operator values is <apll>1 ¯1[1]-N</apll> to <apll>N</apll>, inclusive.
* [[Axis|Axis operator values may be negative]]:  That is, if the largest allowed value is <apll>N</apll>, then the allowable range for axis operator values is <apll>1 ¯1[1]-N</apll> to <apll>N</apll>, inclusive.
* [[User-Defined_Functions/Operators|Strand left and right arguments and result to user-defined functions/operators]] along with optional left argument may be specified:  For example, a strand right argument may be specified as <apll>∇ Z←FOO (R<sub>1</sub> R<sub>2</sub> R<sub>3</sub> R<sub>4</sub>)</apll> or, more fully, with a non-displayable result and strands used in all of the result, left, and right arguments with an optional left argument may be specified as <apll>∇ (Z<sub>1</sub> Z<sub>2</sub>)←{L<sub>1</sub> L<sub>2</sub> L<sub>3</sub>} (LO OP2[X] RO) (R<sub>1</sub> R<sub>2</sub> R<sub>3</sub> R<sub>4</sub>)</apll>.
* [[User-Defined_Functions/Operators|Strand left and right arguments and result to user-defined functions/operators]] along with optional left argument may be specified:  For example, a strand right argument may be specified as <apll>∇ Z←FOO (R<sub>1</sub> R<sub>2</sub> R<sub>3</sub> R<sub>4</sub>)</apll> or, more fully, with a non-displayable result and strands used in all of the result, left, and right arguments with an optional left argument may be specified as <apll>∇ (Z<sub>1</sub> Z<sub>2</sub>)←{L<sub>1</sub> L<sub>2</sub> L<sub>3</sub>} (LO OP2[X] RO) (R<sub>1</sub> R<sub>2</sub> R<sub>3</sub> R<sub>4</sub>)</apll>.
* Note that braces are '''required''' to surround the left argument of an ambivalent function as in <apll>∇ Z←{L} FOO R</apll> — Is this an '''inconsistent''' extension?
* Note that braces are '''required''' to surround the left argument of an ambivalent function as in <apll>∇ Z←{L} FOO R</apll>
* [[User-Defined_Functions/Operators|The result of a user-defined function/operator]] may be marked as non-displayable by enclosing it in braces, as in <apll>∇ {Z}←FOO R</apll>. If the result part of the header consists of multiple names, either <apll>∇ {Z<sub>1</sub> Z<sub>2</sub>}←FOO R</apll> or <apll>∇ ({Z<sub>1</sub> Z<sub>2</sub>})←FOO R</apll> or <apll>∇ {(Z<sub>1</sub> Z<sub>2</sub>)}←FOO R</apll> may be used to mark the result as non-displayable.
* [[User-Defined_Functions/Operators|The result of a user-defined function/operator]] may be marked as non-displayable by enclosing it in braces, as in <apll>∇ {Z}←FOO R</apll>. If the result part of the header consists of multiple names, either <apll>∇ {Z<sub>1</sub> Z<sub>2</sub>}←FOO R</apll> or <apll>∇ ({Z<sub>1</sub> Z<sub>2</sub>})←FOO R</apll> or <apll>∇ {(Z<sub>1</sub> Z<sub>2</sub>)}←FOO R</apll> may be used to mark the result as non-displayable.
* [[User-Defined_Functions/Operators|User-defined function/operator prototype line label]] (<apll>⎕PROTOTYPE:</apll>):  When the user-defined function/operator is called to produce a prototype, this entry point is where execution of the function starts.
* [[User-Defined_Functions/Operators|User-defined function/operator prototype line label]] (<apll>⎕PROTOTYPE:</apll>):  When the user-defined function/operator is called to produce a prototype, this entry point is where execution of the function starts.

Revision as of 09:42, 20 May 2009

The following features are considered consistent extensions to the Extended APL Standard in that they replace error-producing behavior with non-error-producing behavior. Note that Extended APL Standard wants you to know that the use of a consistent extension prevents a program from conforming with the Standard.

Language Features

  • Sink: monadic left arrow (←R) suppresses the display of R.
  • Unified index reference, assignment, and modify assignment (R[L], R[L]←A, and R[L]f←A): these three forms all allow both Reach and Scatter indexing — that is, if L⊃R is valid, it is equivalent to ⊃R[⊂L], and if L⌷R is valid, it is equivalent to R[⊃∘.,/L] — Reach and Scatter indexing may appear together within a single instance of R[L], R[L]←A, and R[L]f←A.
  • Dyadic operator dieresis-jot (f⍤[X] Y) (rank) is used to apply a function to (monadic) or between (dyadic) cells of the argument(s).
  • Dyadic operator jot (fg) (composition) is used to join two functions or a function and a variable to produce a derived function (e.g., ,∘⍋∘⍋∘,) which is applied as a single function. For example, the function *∘2 when applied monadically, squares its argument.
  • Monadic operator null (f): To aid in resolving ambiguities with slash/slope as function/operator, use this operator. It passes through all functions as functions, and forces the symbols slash/slope to be functions rather than operators. For example, use (/⊙)/3 4 instead of (/)/3 4.
  • Monadic iota (⍳R) extended to negative indices. For example, in origin-0, ⍳¯3 returns ¯3 ¯2 ¯1.
  • Monadic iota (⍳R) extended to length > 1 vector right arguments returns an array of indices whose shape is that of the right argument (via an internal magic function).
  • Dyadic iota (L⍳R) extended to rank > 1 left arguments returns an array of vector indices to the left argument (via an internal magic function).
  • Index reference, assignment, modify assignment, squad, transpose, and pick (R[L], R[L]←A, R[L]f←A, L⌷R, L⍉R, and L⊃R) are each extended to negative values in L. That is, if the largest allowed value is N, then the allowable range for the values in L is 1 ¯1[1]-N to N, inclusive. For example, A, A[⍳⍴A], and A[⍳-⍴A] are all identical for any array A in either origin, as are A, (⍳⍴⍴A)⍉A, and (⍳-⍴⍴A)⍉A.
  • Monadic and dyadic domino (⌹R and L⌹R) — matrix inverse/divide extended to use Moore-Penrose pseudo-inverse algorithm via Singular Value Decomposition.
  • Prototypes for all primitive functions and operators.
  • Out of range numeric assignments to ⎕PP and ⎕PW are set to the value in the allowable range nearest the ceiling of the given number. For example, if ⎕PP is set to 23.7, that value is rounded down to 17, the largest value that system variable may assume.
  • Assigning a simple empty vector to a scalar system variable (⎕CT, ⎕IO, ⎕PP, ⎕PW, or ⎕RL) assigns the system default value to the variable.
  • New System Variables
  • New or Changed System Functions
    • ⎕A (Uppercase English Alphabet) — returns the 26-character uppercase English alphabet.
    • ⎕AV (Atomic Vector) — has all UCS-2 Unicode characters (65,536 in length)
    • L ⎕CR R (Canonical Representation) — L=1 (nested vector of character vectors) and L=2 (character matrix)
    • ⎕DM (Diagnostic Message)
    • ⎕DR R and L ⎕DR R (Data Representation)
    • ⎕ERROR R (Signal Error)
    • ⎕FMT R (Format with Boxes)
    • L ⎕FMT R (Format arrays via Format Phrases)
    • ⎕MF R (Monitor Function)
    • ⎕NC R (Name Class) — returns 8 for Magic Functions.
    • ⎕NL R (Name List) — R=8 lists Magic Functions.
    • ⎕SIZE R (Object Size)
    • ⎕SYSID (System Identification)
    • ⎕SYSVER (System Version)
    • ⎕TC and other related ⎕TCxxx (Terminal Character)
    • L ⎕TF R (Transfer Form) — 1=|L (Type 1 Transfer Form) and 2=|L (Type 2 Transfer Form); L<0 interprets R and the result as Unicode characters; L>0 interprets them as APL2 characters
    • ⎕TYPE R (Object Prototype)
    • ⎕UCS R (Unicode Character Set)
    • ⎕VR R (Visual Representation)
    • ⎕WA (Workspace Available)
  • New Datatypes
    • 2-byte Characters (Unicode, that is, UCS-2)
    • 64-bit Integers
    • APAs (Arithmetic Progression Arrays) (e.g., 2 3 4⍴⍳24)
    • ± Infinity (e.g., for infinity and ¯∞ for negative infinity) — considerable development work needs to be done to this feature to handle the many special cases

Miscellaneous Syntax

  • Strand Assignment: A sequence of names enclosed in parentheses can be assigned to. For example, (A B)←1 2 is the same as A←1 followed by B←2.
  • Modify Assignment: An arbitrary (primitive or user-defined) dyadic function may appear immediately to the left of an assignment arrow. For example, Af←1 is the same as A←Af 1, and A[L]f←1 is the same as A[L]←A[L]f 1.
  • Modify Strand Assignment: An arbitrary (primitive or user-defined) dyadic function may appear immediately to the left of the assignment arrow used in Strand Assignment (e.g. (A B)f←1 2 is the same as A←Af 1 followed by B←Bf 2).
  • Function/operator assignment: A primitive function, operator, or derived function may be assigned to any available name (e.g., F←⍋, or F←¨, or F←∘, or F←+.×).
  • Axis operator with primitive scalar dyadic functions: The axis operator indicates how the coordinates of the lower rank argument map to the coordinates of the higher rank argument. For example, (1 2+[1] 2 3⍴R is equivalent to (⍉3 2⍴1 2)+2 3⍴R.
  • Axis operator with primitive scalar dyadic functions: The order of the values in the axis operator brackets is significant. For example, (2 3⍴L)+[1 2] 2 3 4⍴R and (⍉2 3⍴L)+[2 1] 2 3 4⍴R are identical.
  • Axis operator with the dyadic derived function from the Each operator: As with primitive scalar dyadic functions, the axis operator indicates how the coordinates of the lower rank argument map to the coordinates of the higher rank argument. For example, (2 3⍴L)⍴¨[1 2] 2 3 4⍴R is equivalent to (3 1 2⍉4⌿1 2 3⍴L)⍴¨2 3 4⍴R.
  • Axis operator to Ravel: The order of the values in the axis operator brackets is significant, and may transpose coordinates in the right argument before mapping the values to the result. For example, ,[2 1] R and ,[1 2] R are both valid and have the same shape and values but, in general, the values are in a different order.
  • Axis operator with user-defined functions/operators: A user-defined function/operator may be sensitive to the axis operator in the same way various primitive functions and operators are. For example, FOO[2 3] R is valid if the function header is defined as ∇ Z←FOO[X] R.
  • Axis operator values may be negative: That is, if the largest allowed value is N, then the allowable range for axis operator values is 1 ¯1[1]-N to N, inclusive.
  • Strand left and right arguments and result to user-defined functions/operators along with optional left argument may be specified: For example, a strand right argument may be specified as ∇ Z←FOO (R1 R2 R3 R4) or, more fully, with a non-displayable result and strands used in all of the result, left, and right arguments with an optional left argument may be specified as ∇ (Z1 Z2)←{L1 L2 L3} (LO OP2[X] RO) (R1 R2 R3 R4).
  • Note that braces are required to surround the left argument of an ambivalent function as in ∇ Z←{L} FOO R
  • The result of a user-defined function/operator may be marked as non-displayable by enclosing it in braces, as in ∇ {Z}←FOO R. If the result part of the header consists of multiple names, either ∇ {Z1 Z2}←FOO R or ∇ ({Z1 Z2})←FOO R or ∇ {(Z1 Z2)}←FOO R may be used to mark the result as non-displayable.
  • User-defined function/operator prototype line label (⎕PROTOTYPE:): When the user-defined function/operator is called to produce a prototype, this entry point is where execution of the function starts.
  • Control structures on one line or split across multiple lines (e.g., :for I :in ⍳N ⋄ ... ⋄ :endfor).
  • Point Notation (Base, Euler, and Pi) are extensions to the familiar Decimal and Exponential Point Notation for entering numeric constants. For example, the numeric constant 16bffff is a shorthand for entering 16⊥15 15 15 15.

System commands

  • )CLOSE
  • )EDIT
  • )EXIT
  • )NEWTAB
  • )RESET

Session Manager

  • Function editor: this feature may be invoked by typing by itself, or followed by a name, or )EDIT by itself, or )EDIT followed by a name, or by double-right-clicking on a function name in the session manager or function editor windows
  • Multiple workspaces may be open at the same time and switched between via Tabs
  • Workspaces are saved as plain text ASCII files
  • All variable names are two-byte characters (Unicode, that is, UCS-2)
  • Array rank and dimension limit of 64 bits
  • Multilevel Undo in function editing
  • Undo buffer saved with function for reuse on next edit