Replicate: Difference between revisions
(Created page with "{{Built-ins|Replicate|/|⌿}}, or '''Copy''' (<source lang=j inline>#</source>) in J, is a dyadic function or monadic operator that copies each element of the...") |
(→External Links: NARS2000 documentation) |
||
| (12 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
{{Built-ins|Replicate|/|⌿}}, or '''Copy''' (<source lang=j inline>#</source>) in [[J]], is a [[dyadic function]] or [[monadic operator]] that copies each [[element]] of the right [[argument]] a given number of times, ordering the copies along a specified [[axis]]. Typically <source lang=apl inline>/</source> is called Replicate while <source lang=apl inline>⌿</source> is called "Replicate First" or an equivalent. Replicate is a widely-accepted extension of the function '''Compress''', which requires the number of copies to be [[Boolean]]: each element is either retained (1 copy) or discarded (0 copies). Replicate with a Boolean left argument or [[operand]] may still be called "Compress". | {{Built-ins|Replicate|/|⌿}}, or '''Copy''' (<source lang=j inline>#</source>) in [[J]], is a [[dyadic function]] or [[monadic operator]] that copies each [[element]] of the right [[argument]] a given number of times, ordering the copies along a specified [[axis]]. Typically <source lang=apl inline>/</source> is called Replicate while <source lang=apl inline>⌿</source> is called "Replicate First" or an equivalent. Replicate is a widely-accepted extension of the function '''Compress''', which requires the number of copies to be [[Boolean]]: each element is either retained (1 copy) or discarded (0 copies). Replicate with a Boolean left argument or [[operand]] may still be called "Compress". | ||
Replicate is usually associated with [[Expand]] (<source lang=apl inline>\</source>), and the two functions are related to [[Mask]] and [[Mesh]]. It is also closely related to the [[Indices]] function. It shares a [[glyph]] with [[Reduce]] even though Replicate is naturally a [[function]] and Reduce must be an [[operator]]. This incongruity is occasionally resolved by making Replicate an operator itself, and more often by | Replicate is usually associated with [[Expand]] (<source lang=apl inline>\</source>), and the two functions are related to [[Mask]] and [[Mesh]]. It is also closely related to the [[Indices]] function. It shares a [[glyph]] with [[Reduce]] even though Replicate is naturally a [[function]] and Reduce must be an [[operator]]. This incongruity is occasionally resolved by making Replicate an operator itself, and more often by [[function-operator overloading]] allowing both syntactic elements to coexist. | ||
Outside of APL, [[wikipedia:filter (higher-order function)|filter]] typically provides the functionality of Compress, while Replicate has no common equivalent. | Outside of APL, [[wikipedia:filter (higher-order function)|filter]] typically provides the functionality of Compress, while Replicate has no common equivalent. | ||
| Line 57: | Line 57: | ||
== History == | == History == | ||
Compress was described in [[A Programming Language]], | Compress was described in [[A Programming Language]], where it was written with the symbols <math>/</math> and <math>/\!\!/</math>. In [[Iverson notation]] compression was particularly important because [[Take]] and [[Drop]] could be performed only by compression with a [[prefix]] or [[suffix]] vector. It was included in [[APL\360]], which changed the doubled slash to a barred slash <source lang=apl inline>⌿</source>, and allowed a [[specified axis]] and [[singleton extension]] on both sides (very briefly, singleton extension was allowed only for the right argument<ref>Falkoff, A.D., and K.E. Iverson, "[http://keiapl.org/archive/APL360_UsersMan_Aug1968.pdf APL\360 User's Manual]". IBM, August 1968.</ref>). The APL\360 definition continued to be included in APLs unchanged until 1980. | ||
In 1980, [[Bob Bernecky]] introduced the extension Replicate to [[SHARP APL]]: he allowed an operand (since SHARP's Replicate is an operator) consisting of non-negative integers rather than just [[Boolean]]s to indicate the number of times to copy.<ref>[[Bob Bernecky|Bernecky, Bob]]. SATN-34: Replication. [[IPSA]]. 1980-08-15.</ref> This extension was | In 1980, [[Bob Bernecky]] introduced the extension Replicate to [[SHARP APL]]: he allowed an operand (since SHARP's Replicate is an operator) consisting of non-negative integers rather than just [[Boolean]]s to indicate the number of times to copy.<ref>[[Bob Bernecky|Bernecky, Bob]]. SATN-34: Replication. [[IPSA]]. 1980-08-15.</ref> This extension was rapidly and widely adopted, starting with [[NARS]] in 1981, and is now a feature of the [[ISO/IEC 13751:2001]] standard. | ||
Two extensions to allow negative numbers in the left argument have been introduced, in each case specifying that the negative of a number indicates that many [[fill element]]s should appear in the result. In 1981 [[NARS]] specified that these fill elements replace the corresponding right argument element, so that the lengths of the left and right arguments are always equal, and extended [[Expand]] similarly. [[APL2]], in 1984, made the opposite choice, so that the length of the right argument along the specified axis is equal to the number of non-negative elements on the left. [[APL2]] also loosened the [[conformability]] requirements further than simply allowing [[singleton extension]]: it allowed a right argument with length 1 along the replication axis to be extended. [[Dyalog APL]], created before APL2, adopted the [[NARS]] definition for negative elements but added APL2 conformability extension in [[Dyalog APL 13.1|version 13.1]]. Later [[APLX]] took advantage of the fact that the two negative number extensions can be distinguished by the length of the left argument, and implemented every NARS and APL2 extension. | |||
[[A+]] and [[J]] modified Replicate to fit [[leading axis theory]]. Rather than allow Replicate to operate on any axis they have only one Replicate function (in A+, <source lang=apl inline>/</source>; in J, <source lang=j inline>#</source>) which works on the first axis—it copies [[major cell]]s rather than elements. Both languages rejected the [[NARS]] extension to negative left arguments, but J introduced its own system to add [[fill element]]s by allowing [[complex number]]s in the left argument, and removed the [[Expand]] function entirely. [[Arthur Whitney]] went on to make a more radical change in [[K]], removing Replicate entirely in favor of [[Where]]. | |||
== Extension support == | |||
Here ">1" refers to the [[SHARP APL]] extension to non-negative integers, while "<0" refers to extension to negative integers in either NARS or APL2 style. | |||
{| class=wikitable | |||
!rowspan=2| Language | |||
!rowspan=2| Type | |||
!rowspan=2 style="min-width:6em"| >1 | |||
!colspan=2| <0 | |||
!rowspan=2| Conformability<br/>extension | |||
!rowspan=2| Axis<br/>specification | |||
!rowspan=2| Notes | |||
|- | |||
! NARS !! APL2 | |||
|- | |||
| [[APL\360]] || Ambiguous || {{No}} ||colspan=2 {{No}} || {{Maybe|Single}} || {{Yes}} || | |||
|- | |||
| [[SHARP APL]] || Operator || {{Yes}} ||colspan=2 {{No}} || {{No|Scalar}} || {{Yes}} || | |||
|- | |||
| [[NARS]] || Function || {{Yes}} || {{Yes}} || {{No}} || {{Maybe|Single}} || {{Yes}} || | |||
|- | |||
| [[Dyalog APL]] || Function || {{Yes}} || {{Yes}} || {{No}} || {{Yes|APL2 (13.1)}} || {{Yes}} || | |||
|- | |||
| [[APL2]] || Operator || {{Yes}} || {{No}} || {{Yes}} || {{Yes|APL2}} || {{Yes}} || | |||
|- | |||
| [[A+]] (<source lang=apl inline>/</source>) || Function || {{Yes}} ||colspan=2 {{No}} || {{Maybe|Single}} || {{No}} || | |||
|- | |||
| [[J]] (<source lang=j inline>#</source>) || Function || {{Yes}} ||colspan=2 {{No}} || {{No|Scalar}} || {{No}} || Complex left argument allowed | |||
|- | |||
| [[ISO/IEC 13751:2001]] || Function || {{Yes}} ||colspan=2 {{No}} || {{No|Scalar}} || {{Yes}} || | |||
|- | |||
| [[APLX]] || Function || {{Yes}} || {{Yes}} || {{Yes}} || {{Yes|APL2}} || {{Yes}} || | |||
|- | |||
| [[NARS2000]] || Function || {{Yes}} || {{Yes}} || {{No}} || {{Maybe|Single}} || {{Yes}} || | |||
|- | |||
| [[ngn/apl]] || Ambiguous || {{Yes}} || {{Yes}} || {{No}} || {{Yes|APL2}} || {{Yes}} || Implemented as an operator | |||
|- | |||
| [[GNU APL]] || Function || {{Yes}} || {{No}} || {{Yes}} || {{Yes|APL2}} || {{Yes}} || | |||
|- | |||
| [[dzaima/APL]] (<source lang=apl inline>⌿</source>) || Function || {{Yes}} || {{Yes}} || {{No}} || {{None}} || {{No}} || Vector right argument only | |||
|} | |||
In each language without axis specification, there is only one form of Replicate, which always applies to the first axis or [[major cell]]s—the last-axis form is discarded. | |||
== Outside of APL == | |||
While Replicate is rarely used in non-array programming languages, Compress is sometimes seen. Usually the same functionality is provided by the higher-order function [[wikipedia:filter (higher-order function)|filter]], which an APLer might define as the [[monadic operator]] <source lang=apl inline>filter←{(⍺⍺¨ ⍵) / ⍵}</source> on a [[vector]] argument. | |||
While filter is similar to Compress, some extensions to the [[wikipedia:x86|x86]] instruction set are exactly equivalent to Compress on particular data types. In [[wikipedia:BMI2|BMI2]], the PEXT and PDEP instructions (parallel bit extract and deposit) are identical to Compress and [[Expand]] on the bits of a register argument. Indeed, [[Dyalog APL]] uses these instructions to implement those primitives (see [[Dyalog APL#Instruction set usage]]). The [[wikipedia:AVX-512|AVX-512]] instructions VPCOMPRESSQ and VPEXPANDQ (and variations) are not only equivalent to Compress and Expand using a mask register for the [[Boolean]] argument and a vector register for the other argument, but are named after the APL functions. These instructions allow compression of 4-byte and 8-byte elements, and with AVX-512_VBMI2 support was added for 1-byte and 2-byte elements as well. | |||
== External Links == | == External Links == | ||
| Line 70: | Line 123: | ||
* [http://help.dyalog.com/latest/index.htm#Language/Primitive%20Functions/Replicate.htm Dyalog] | * [http://help.dyalog.com/latest/index.htm#Language/Primitive%20Functions/Replicate.htm Dyalog] | ||
* [http://wiki.nars2000.org/index.php/Symbol_Slash NARS2000] | |||
* [http://microapl.com/apl_help/ch_020_020_840.htm APLX] | * [http://microapl.com/apl_help/ch_020_020_840.htm APLX] | ||
* J [https://www.jsoftware.com/help/dictionary/d400.htm Dictionary], [https://code.jsoftware.com/wiki/Vocabulary/number#dyadic NuVoc] | * J [https://www.jsoftware.com/help/dictionary/d400.htm Dictionary], [https://code.jsoftware.com/wiki/Vocabulary/number#dyadic NuVoc] | ||
=== Other === | |||
* [[Marshall Lochbaum]] [https://www.dyalog.com/blog/2018/06/expanding-bits-in-shrinking-time/ "Expanding Bits in Shrinking Time"]: On implementing Replicate of a [[Boolean]] array by a [[scalar]]. | |||
== References == | == References == | ||
Revision as of 15:04, 13 March 2020
/ ⌿
|
Replicate (/, ⌿), or Copy (#) in J, is a dyadic function or monadic operator that copies each element of the right argument a given number of times, ordering the copies along a specified axis. Typically / is called Replicate while ⌿ is called "Replicate First" or an equivalent. Replicate is a widely-accepted extension of the function Compress, which requires the number of copies to be Boolean: each element is either retained (1 copy) or discarded (0 copies). Replicate with a Boolean left argument or operand may still be called "Compress".
Replicate is usually associated with Expand (\), and the two functions are related to Mask and Mesh. It is also closely related to the Indices function. It shares a glyph with Reduce even though Replicate is naturally a function and Reduce must be an operator. This incongruity is occasionally resolved by making Replicate an operator itself, and more often by function-operator overloading allowing both syntactic elements to coexist.
Outside of APL, filter typically provides the functionality of Compress, while Replicate has no common equivalent.
Examples
When used with a Boolean array (often called a "mask") on the left, Replicate is called Compress. It filters the right argument, returning only those elements which correspond to 1s in the provided mask.
1 1 0 1 0 1 0 0 / 'compress' cope
If the right argument is an array of indices generated by Iota, Replicate resembles the function Indices.
1 1 0 0 1 / ⍳5 1 2 5
With an array of non-negative integers, Replicate copies each element of the right argument the corresponding number of times. As with Compress, these copies retain their original ordering, and the length of the result is the sum of the control array.
0 3 0 0 2 0 1 0 2 / 'replicate'
eeeiiaee
+/ 0 3 0 0 2 0 1 0 2
8
⍴ 0 3 0 0 2 0 1 0 2 / 'replicate'
8
A second extension introduced by NARS allows either positive or negative integers, where a negative number indicates that a fill element should be used instead of an element from the right argument. In this case the length of the result is the sum of the absolute value of the control array.
0 2 ¯3 1 / ⍳4 2 2 0 0 0 4
Replicate works along a particular axis, which can be specified in languages with function axis and otherwise is the first axis for ⌿, and the last axis for / (except in A+, which uses / for the first-axis form and has no last-axis form).
⊢A ← 4 6⍴⎕A
ABCDEF
GHIJKL
MNOPQR
STUVWX
1 0 0 4 0 2 / A
ADDDDFF
GJJJJLL
MPPPPRR
SVVVVXX
0 2 1 1 ⌿ A
GHIJKL
GHIJKL
MNOPQR
STUVWX
Replicate usually allows scalar extension of the left argument, which results in every element being copied a fixed number of times.
3 / 'replicate' rrreeepppllliiicccaaattteee
History
Compress was described in A Programming Language, where it was written with the symbols and . In Iverson notation compression was particularly important because Take and Drop could be performed only by compression with a prefix or suffix vector. It was included in APL\360, which changed the doubled slash to a barred slash ⌿, and allowed a specified axis and singleton extension on both sides (very briefly, singleton extension was allowed only for the right argument[1]). The APL\360 definition continued to be included in APLs unchanged until 1980.
In 1980, Bob Bernecky introduced the extension Replicate to SHARP APL: he allowed an operand (since SHARP's Replicate is an operator) consisting of non-negative integers rather than just Booleans to indicate the number of times to copy.[2] This extension was rapidly and widely adopted, starting with NARS in 1981, and is now a feature of the ISO/IEC 13751:2001 standard.
Two extensions to allow negative numbers in the left argument have been introduced, in each case specifying that the negative of a number indicates that many fill elements should appear in the result. In 1981 NARS specified that these fill elements replace the corresponding right argument element, so that the lengths of the left and right arguments are always equal, and extended Expand similarly. APL2, in 1984, made the opposite choice, so that the length of the right argument along the specified axis is equal to the number of non-negative elements on the left. APL2 also loosened the conformability requirements further than simply allowing singleton extension: it allowed a right argument with length 1 along the replication axis to be extended. Dyalog APL, created before APL2, adopted the NARS definition for negative elements but added APL2 conformability extension in version 13.1. Later APLX took advantage of the fact that the two negative number extensions can be distinguished by the length of the left argument, and implemented every NARS and APL2 extension.
A+ and J modified Replicate to fit leading axis theory. Rather than allow Replicate to operate on any axis they have only one Replicate function (in A+, /; in J, #) which works on the first axis—it copies major cells rather than elements. Both languages rejected the NARS extension to negative left arguments, but J introduced its own system to add fill elements by allowing complex numbers in the left argument, and removed the Expand function entirely. Arthur Whitney went on to make a more radical change in K, removing Replicate entirely in favor of Where.
Extension support
Here ">1" refers to the SHARP APL extension to non-negative integers, while "<0" refers to extension to negative integers in either NARS or APL2 style.
| Language | Type | >1 | <0 | Conformability extension |
Axis specification |
Notes | |
|---|---|---|---|---|---|---|---|
| NARS | APL2 | ||||||
| APL\360 | Ambiguous | No | No | Single | Yes | ||
| SHARP APL | Operator | Yes | No | Scalar | Yes | ||
| NARS | Function | Yes | Yes | No | Single | Yes | |
| Dyalog APL | Function | Yes | Yes | No | APL2 (13.1) | Yes | |
| APL2 | Operator | Yes | No | Yes | APL2 | Yes | |
A+ (/) |
Function | Yes | No | Single | No | ||
J (#) |
Function | Yes | No | Scalar | No | Complex left argument allowed | |
| ISO/IEC 13751:2001 | Function | Yes | No | Scalar | Yes | ||
| APLX | Function | Yes | Yes | Yes | APL2 | Yes | |
| NARS2000 | Function | Yes | Yes | No | Single | Yes | |
| ngn/apl | Ambiguous | Yes | Yes | No | APL2 | Yes | Implemented as an operator |
| GNU APL | Function | Yes | No | Yes | APL2 | Yes | |
dzaima/APL (⌿) |
Function | Yes | Yes | No | None | No | Vector right argument only |
In each language without axis specification, there is only one form of Replicate, which always applies to the first axis or major cells—the last-axis form is discarded.
Outside of APL
While Replicate is rarely used in non-array programming languages, Compress is sometimes seen. Usually the same functionality is provided by the higher-order function filter, which an APLer might define as the monadic operator filter←{(⍺⍺¨ ⍵) / ⍵} on a vector argument.
While filter is similar to Compress, some extensions to the x86 instruction set are exactly equivalent to Compress on particular data types. In BMI2, the PEXT and PDEP instructions (parallel bit extract and deposit) are identical to Compress and Expand on the bits of a register argument. Indeed, Dyalog APL uses these instructions to implement those primitives (see Dyalog APL#Instruction set usage). The AVX-512 instructions VPCOMPRESSQ and VPEXPANDQ (and variations) are not only equivalent to Compress and Expand using a mask register for the Boolean argument and a vector register for the other argument, but are named after the APL functions. These instructions allow compression of 4-byte and 8-byte elements, and with AVX-512_VBMI2 support was added for 1-byte and 2-byte elements as well.
External Links
Lessons
Documentation
Other
- Marshall Lochbaum "Expanding Bits in Shrinking Time": On implementing Replicate of a Boolean array by a scalar.
References
- ↑ Falkoff, A.D., and K.E. Iverson, "APL\360 User's Manual". IBM, August 1968.
- ↑ Bernecky, Bob. SATN-34: Replication. IPSA. 1980-08-15.