I-Beam: Difference between revisions

Revision as of 09:46, 14 September 2022

I-Beam (⌶) is a primitive monadic operator that takes a numeric code as it's operand and derives an ambivalent function which provides a range of ad-hoc operations. This range covers non-primitive functions - for example: experimental features, interpreter-level control, access to the environment, and information about APL itself.

Mnemonics

In general, I-Beam's numeric operand isn't intended to be easily recalled. But some are given meaningful names.

One method is to devise a name from the Roman numeral letters I, V, X, L, C, D, and M^[1]

I-Beam	Numeral
Called Monadically	CM (900)
Line Count	LC (50100)

References

↑ I-Beam Mnemonics

APL built-ins [edit]
Primitives (Timeline)	Functions
Scalar
		Monadic	Conjugate ∙ Negate ∙ Signum ∙ Reciprocal ∙ Magnitude ∙ Exponential ∙ Natural Logarithm ∙ Floor ∙ Ceiling ∙ Factorial ∙ Not ∙ Pi Times ∙ Roll ∙ Type ∙ Imaginary ∙ Square Root ∙ Round
		Dyadic	Add ∙ Subtract ∙ Times ∙ Divide ∙ Residue ∙ Power ∙ Logarithm ∙ Minimum ∙ Maximum ∙ Binomial ∙ Comparison functions ∙ Boolean functions (And, Or, Nand, Nor) ∙ GCD ∙ LCM ∙ Circular ∙ Complex ∙ Root
Non-Scalar
		Structural	Shape ∙ Reshape ∙ Tally ∙ Depth ∙ Ravel ∙ Enlist ∙ Table ∙ Catenate ∙ Reverse ∙ Rotate ∙ Transpose ∙ Raze ∙ Mix ∙ Split ∙ Enclose ∙ Nest ∙ Cut (K) ∙ Pair ∙ Link ∙ Partitioned Enclose ∙ Partition
		Selection	First ∙ Pick ∙ Take ∙ Drop ∙ Unique ∙ Identity ∙ Stop ∙ Select ∙ Replicate ∙ Expand ∙ Set functions (Intersection ∙ Union ∙ Without) ∙ Bracket indexing ∙ Index ∙ Cartesian Product ∙ Sort
		Selector	Index generator ∙ Grade ∙ Index Of ∙ Interval Index ∙ Indices ∙ Deal ∙ Prefix and suffix vectors
		Computational	Match ∙ Not Match ∙ Membership ∙ Find ∙ Nub Sieve ∙ Encode ∙ Decode ∙ Matrix Inverse ∙ Matrix Divide ∙ Format ∙ Execute ∙ Materialise ∙ Range
Operators	Monadic	Each ∙ Commute ∙ Constant ∙ Replicate ∙ Expand ∙ Reduce ∙ Windowed Reduce ∙ Scan ∙ Outer Product ∙ Key ∙ I-Beam ∙ Spawn ∙ Function axis ∙ Identity (Null, Ident)
Operators	Dyadic	Bind ∙ Compositions (Compose, Reverse Compose, Beside, Withe, Atop, Over) ∙ Inner Product ∙ Determinant ∙ Power ∙ At ∙ Under ∙ Rank ∙ Depth ∙ Variant ∙ Stencil ∙ Cut ∙ Direct definition (operator) ∙ Identity (Lev, Dex)
Quad names	Index origin ∙ Comparison tolerance ∙ Migration level ∙ Atomic vector

[1] I-Beam Mnemonics

[1]

Revision as of 09:45, 14 September 2022 (view source) Faun Locke (talk \| contribs) (Created page with "{{Built-in\|I-Beam\|⌶}} is a primitive monadic operator that takes a numeric code as it operand and derives an ambivalent function which provides a range of ad-hoc operations. This range covers non-primitive functions - for example: experimental features, interpreter-level control, access to the environment, and information about APL itself. == Mnemonics == In general, I-Beam's numeric operand isn't intended t...")		Revision as of 09:46, 14 September 2022 (view source) Faun Locke (talk \| contribs) mNo edit summary Newer edit →
Line 1:		Line 1:
	{{Built-in\|I-Beam\|⌶}} is a [[primitive operator\|primitive]] [[monadic operator]] that takes a numeric code as it [[operand]] and [[derived function\|derives]] an [[ambivalent]] function which provides a range of ad-hoc operations. This range covers non-[[primitive function]]s - for example: experimental features, interpreter-level control, access to the environment, and information about APL itself.		{{Built-in\|I-Beam\|⌶}} is a [[primitive operator\|primitive]] [[monadic operator]] that takes a numeric code as it's [[operand]] and [[derived function\|derives]] an [[ambivalent]] function which provides a range of ad-hoc operations. This range covers non-[[primitive function]]s - for example: experimental features, interpreter-level control, access to the environment, and information about APL itself.

I-Beam: Difference between revisions

Revision as of 09:46, 14 September 2022

Mnemonics

References

Navigation menu

Search