BQN: Difference between revisions
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| released = 2020 | | released = 2020 | ||
| developer = [[Marshall Lochbaum]] | | developer = [[Marshall Lochbaum]] | ||
| latest release version = | | latest release version = 0.7.0 / 2024-05-23 | ||
| implementation languages = BQN | | implementation languages = BQN with [[wikipedia:JavaScript|JavaScript]], [[wikipedia:C (programming language)|C]], or others<ref name="running">[[Marshall Lochbaum]]. [https://mlochbaum.github.io/BQN/running.html "How to run BQN"]</ref> | ||
| source = [https://github.com/mlochbaum/BQN GitHub] | | source = [https://github.com/mlochbaum/BQN GitHub] | ||
| platforms = | | platforms = x86, ARM, in-browser, [[wikipedia:Node.js|Node.js]] | ||
| license = [[wikipedia:ISC license|ISC]] | | license = [[wikipedia:ISC license|ISC]] | ||
| website = [https://mlochbaum.github.io/BQN mlochbaum.github.io/BQN] | | website = [https://mlochbaum.github.io/BQN mlochbaum.github.io/BQN] | ||
| file ext = .bqn | | file ext = .bqn | ||
| documentation = [https://mlochbaum.github.io/BQN/doc Documentation] | | documentation = [https://mlochbaum.github.io/BQN/doc Documentation] | ||
| influenced by = [[J]], [[A+]], [[Dyalog APL]], [[Co-dfns]], [[APL\iv]], [[wikipedia:JavaScript|JavaScript]] | | forum = [https://app.element.io/#/room/%23bqn:matrix.org #bqn:matrix.org] | ||
| influenced = [[ | | influenced by = [[J]], [[A+]], [[Dyalog APL]], [[Co-dfns]], [[APL\iv]], [[wikipedia:JavaScript|JavaScript]]<ref>[[Marshall Lochbaum]]. [https://mlochbaum.github.io/BQN/commentary/history.html "BQN's development history"].</ref> | ||
| run online = [https:// | | influenced = [[Goal]], [[Kap]], [[Uiua]], [[TinyAPL]] | ||
| run online = [https://bqnpad.mechanize.systems/ BQNPAD] | |||
}} | }} | ||
'''BQN''' is an APL-family language designed primarily by [[Marshall Lochbaum]]. Although it maintains the concept of array-driven computing and much of APL's array functionality, BQN discards all [[backwards compatibility|compatibility]] with other array languages and changes many fundamental concepts. It uses the [[based array model]] with dedicated [[array notation]], distinguishes between data types and expression roles to give the language a [[wikipedia:context-free grammar|context-free grammar]] with [[ | '''BQN''' is an APL-family language designed primarily by [[Marshall Lochbaum]]. Although it maintains the concept of array-driven computing and much of APL's array functionality, BQN discards all [[backwards compatibility|compatibility]] with other array languages and changes many fundamental concepts. It uses the [[based array model]] with dedicated [[array notation]], distinguishes between data types and expression roles to give the language a [[wikipedia:context-free grammar|context-free grammar]] with [[first-class function]]s, uses a new set of [[glyph]]s with different primitive pairings, and implements [[character arithmetic]]. The language uses the [[leading axis model]] and [[tacit programming]] as core paradigms. Its implementation is largely self-hosted, with an array-based compiler like [[Co-dfns]]. | ||
== Implementations == | |||
BQN has several implementations,<ref name="running"/> with all complete ones based on self-hosted sources, which are compiled to bytecode and included as literal arrays or similar in the implementation's source. [https://github.com/dzaima/CBQN CBQN], developed by [[dzaima]] in [[wikipedia:C (programming language)|C]], is the primary implementation with the best performance. A [[wikipedia:JavaScript|JavaScript]] version can be run online. It's slower than CBQN compiled to [[wikipedia:WebAssembly|Wasm]], but easier to connect with browser functionality. | |||
The [https://github.com/mlochbaum/Singeli Singeli] language was developed in order to implement BQN more effectively. CBQN uses Singeli for primitive code that uses [[vector instruction]]s, and can be built with or without these optimized implementations. The Singeli implementation is written in BQN and currently targets C. | |||
=== dzaima/BQN === | |||
Now largely replaced by CBQN, dzaima/BQN is [[dzaima]]'s independent implementation in Java, based on [[dzaima/APL]]. While dzaima/APL adds significant new functionality and is different from any other APL, dzaima/BQN follows the BQN specification closely and sometimes extends it with [[system function]]s. It has often been the first implementation to support new functionality, particularly syntax such as block headers, and was the fastest implementation before CBQN was created. It introduced the [[wikipedia:bytecode|bytecode]] format now shared with self-hosted BQN, and was used for development and bootstrapping. | |||
== Primitives == | == Primitives == | ||
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| <code>⌈</code> || [[Ceiling]] || [[Maximum]] | | <code>⌈</code> || [[Ceiling]] || [[Maximum]] | ||
|- | |- | ||
| <code>∧</code> || Sort Up | | <code>∧</code> || [[Sort Up]] || [[And]] | ||
|- | |- | ||
| <code>∨</code> || Sort Down | | <code>∨</code> || [[Sort Down]] || [[Or]] | ||
|- | |- | ||
| <code>¬</code> || [[Not]] || Span | | <code>¬</code> || [[Not]] || Span | ||
|- | |- | ||
| <code>|</code> || [[Absolute Value]] || [[Residue|Modulus]] | | <code><nowiki>|</nowiki></code> || [[Absolute Value]] || [[Residue|Modulus]] | ||
|- | |- | ||
| <code>≤</code> || || [[Less Than or Equal to]] | | <code>≤</code> || || [[Less Than or Equal to]] | ||
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| <code>∾</code> || [[Raze|Join]] || [[Catenate|Join to]] | | <code>∾</code> || [[Raze|Join]] || [[Catenate|Join to]] | ||
|- | |- | ||
| <code>≍</code> || Solo | | <code>≍</code> || [[Solo]] || [[Couple]] | ||
|- | |||
| <code>⋈</code> || [[Pair|Enlist]] || [[Pair]] | |||
|- | |- | ||
| <code>↑</code> || Prefixes || [[Take]] | | <code>↑</code> || Prefixes || [[Take]] | ||
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| <code>⍒</code> || [[Grade|Grade Down]] || [[Interval_Index|Bins Down]] | | <code>⍒</code> || [[Grade|Grade Down]] || [[Interval_Index|Bins Down]] | ||
|- | |- | ||
| <code>⊏</code> || First Cell || Select | | <code>⊏</code> || First Cell || [[Select]] | ||
|- | |- | ||
| <code>⊑</code> || [[First]] || Pick | | <code>⊑</code> || [[First]] || Pick | ||
|- | |- | ||
| <code>⊐</code> || Classify | | <code>⊐</code> || [[Classify]] || [[Index of]] | ||
|- | |- | ||
| <code>⊒</code> || [[Occurrence Count]] || [[Progressive Index of]] | | <code>⊒</code> || [[Occurrence Count]] || [[Progressive Index of]] | ||
|- | |- | ||
| <code>∊</code> || [[ | | <code>∊</code> || [[Nub Sieve|Mark Firsts]] || [[Member of]] | ||
|- | |- | ||
| <code>⍷</code> || [[Unique|Deduplicate]] || [[Find]] | | <code>⍷</code> || [[Unique|Deduplicate]] || [[Find]] | ||
|- | |- | ||
| <code>⊔</code> || Group Indices | | <code>⊔</code> || [[Group Indices]] || [[Group (BQN)|Group]] | ||
|- | |||
| <code>!</code> || Assert || Assert with Message | |||
|} | |} | ||
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| <code>⌜</code> || [[Outer Product|Table]] | | <code>⌜</code> || [[Outer Product|Table]] | ||
|- | |- | ||
| <code>⁼</code> || Undo | | <code>⁼</code> || [[Undo]] | ||
|- | |- | ||
| <code>´</code> || [[Reduce|Fold]] | | <code>´</code> || [[Reduce|Fold]] | ||
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! Glyph !! Name(s) | ! Glyph !! Name(s) | ||
|- | |- | ||
| <code>∘</code> || [[Atop]] | | <code>∘</code> || [[Atop (operator)|Atop]] | ||
|- | |- | ||
| <code>○</code> || [[Over]] | | <code>○</code> || [[Over]] | ||
|- | |- | ||
| <code>⊸</code> || [[Before]]/[[Bind]] | | <code>⊸</code> || [[Hook|Before]]/[[Bind]] | ||
|- | |- | ||
| <code>⟜</code> || [[After]]/[[Bind]] | | <code>⟜</code> || [[Hook|After]]/[[Bind]] | ||
|- | |- | ||
| <code>⌾</code> || [[Under]] | | <code>⌾</code> || [[Under]] | ||
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|- | |- | ||
| <code>⍟</code> || [[Power (operator)|Repeat]] | | <code>⍟</code> || [[Power (operator)|Repeat]] | ||
|- | |||
| <code>⎊</code> || Catch | |||
|} | |} | ||
|} | |} | ||
Some modifiers are closely related, and some of their glyphs are intended to allude to this: | |||
* The three 1-modifers Cells (<code>𝔽˘</code>), Each (<code>𝔽¨</code>), and Undo (<code>𝔽⁼</code>) are equivalent to using a right-[[operand]] of <code>¯1</code> with the 2-modifiers Rank (<code>𝔽⎉¯1</code>), Depth (<code>𝔽⚇¯1</code>), and Repeat (<code>𝔽⍟¯1</code>). Therefore the 2-modifiers are circled versions of the 1-modifiers (except in the case of Undo/Repeat). | |||
* Under (<code>𝔽⌾𝔾</code>) is in principle equivalent to <code>𝔾⁼∘𝔽○𝔾</code>. Therefore, <code>⌾</code> is a combination of the glyphs <code>∘</code> and <code>○</code>. | |||
== The Name BQN == | |||
The name "BQN" was originated as a forward iteration of the letters of APL, and "happens to match the capitals in 'Big Questions Notation'"<ref>[[Marshall Lochbaum]]. [https://mlochbaum.github.io/BQN/#what-kind-of-name-is-bqn "What Kind of a Name is BQN?"]</ref>. | |||
Lochbaum recounts, "I obtained 'BQN' by moving each letter in 'APL' forward by one in the alphabet. I'd come up with the backronym 'Big Questions Notation' by the time I realized N doesn't come after L."<ref>[[Marshall Lochbaum]]. [https://chat.stackexchange.com/transcript/message/54753804#54753804 Stack Exchange Transcript]</ref> | |||
Lochbaum commented further on this, saying: | |||
<blockquote> | |||
...the way I came up with the name BQN was I thought, ... alright, I'm working on this next APL. What do I call [it?] ... I took took APL and I moved it forward and I got BQN. And I said, well, BQN, that sounds pretty good... [B]ig Questions Notation is what I ended up with. I like it 'cause it suggests that not only you're solving big questions, but you have big questions about the notation, so it's a little tongue in cheek. And I said also, you can pronounce it like bacon, so there's even a food pun like Apple. And after some half hour or an hour of thinking about this, I realized that the letter that comes after L is M, not N. I think it would be much more logical for N to come first, because it's the letter with two humps. BQM is a horrible, horrible name, and so I stuck with BQN. | |||
<ref>[[Array Cast#bqn|Marshall Lochbaum and the BQN array language]]. [[Array Cast]]. Aug 7, 2021. (In response to a question starting at the 11:29 mark.)</ref> | |||
</blockquote> | |||
== References == | |||
<references /> | |||
{{APL dialects}}[[Category: | {{APL dialects}}[[Category:Based array languages]][[Category:Languages with first-class functions]][[Category:IR compilers]][[Category:Leading axis languages]][[Category:Languages with tacit programming]] |
Latest revision as of 02:01, 6 September 2024
BQN is an APL-family language designed primarily by Marshall Lochbaum. Although it maintains the concept of array-driven computing and much of APL's array functionality, BQN discards all compatibility with other array languages and changes many fundamental concepts. It uses the based array model with dedicated array notation, distinguishes between data types and expression roles to give the language a context-free grammar with first-class functions, uses a new set of glyphs with different primitive pairings, and implements character arithmetic. The language uses the leading axis model and tacit programming as core paradigms. Its implementation is largely self-hosted, with an array-based compiler like Co-dfns.
Implementations
BQN has several implementations,[1] with all complete ones based on self-hosted sources, which are compiled to bytecode and included as literal arrays or similar in the implementation's source. CBQN, developed by dzaima in C, is the primary implementation with the best performance. A JavaScript version can be run online. It's slower than CBQN compiled to Wasm, but easier to connect with browser functionality.
The Singeli language was developed in order to implement BQN more effectively. CBQN uses Singeli for primitive code that uses vector instructions, and can be built with or without these optimized implementations. The Singeli implementation is written in BQN and currently targets C.
dzaima/BQN
Now largely replaced by CBQN, dzaima/BQN is dzaima's independent implementation in Java, based on dzaima/APL. While dzaima/APL adds significant new functionality and is different from any other APL, dzaima/BQN follows the BQN specification closely and sometimes extends it with system functions. It has often been the first implementation to support new functionality, particularly syntax such as block headers, and was the fastest implementation before CBQN was created. It introduced the bytecode format now shared with self-hosted BQN, and was used for development and bootstrapping.
Primitives
Functions
Glyph | Monadic | Dyadic |
---|---|---|
+ |
Conjugate | Add |
- |
Negate | Subtract |
× |
Sign | Multiply |
÷ |
Reciprocal | Divide |
⋆ |
Exponential | Power |
√ |
Square Root | Root |
⌊ |
Floor | Minimum |
⌈ |
Ceiling | Maximum |
∧ |
Sort Up | And |
∨ |
Sort Down | Or |
¬ |
Not | Span |
| |
Absolute Value | Modulus |
≤ |
Less Than or Equal to | |
< |
Enclose | Less Than |
> |
Merge | Greater Than |
≥ |
Greater Than or Equal to | |
= |
Rank | Equals |
≠ |
Length | Not Equals |
≡ |
Depth | Match |
≢ |
Shape | Not Match |
⊣ |
Identity | Left |
⊢ |
Identity | Right |
⥊ |
Deshape | Reshape |
∾ |
Join | Join to |
≍ |
Solo | Couple |
⋈ |
Enlist | Pair |
↑ |
Prefixes | Take |
↓ |
Suffixes | Drop |
↕ |
Range | Windows |
» |
Nudge | Shift Before |
« |
Nudge Back | Shift After |
⌽ |
Reverse | Rotate |
⍉ |
Transpose | Reorder axes |
/ |
Indices | Replicate |
⍋ |
Grade Up | Bins Up |
⍒ |
Grade Down | Bins Down |
⊏ |
First Cell | Select |
⊑ |
First | Pick |
⊐ |
Classify | Index of |
⊒ |
Occurrence Count | Progressive Index of |
∊ |
Mark Firsts | Member of |
⍷ |
Deduplicate | Find |
⊔ |
Group Indices | Group |
! |
Assert | Assert with Message |
Modifiers
1-modifiers in BQN use superscript symbols, while 2-modifiers use symbols with a circle, but not one with a line through it like ⌽
and ⍉
.
|
|
Some modifiers are closely related, and some of their glyphs are intended to allude to this:
- The three 1-modifers Cells (
𝔽˘
), Each (𝔽¨
), and Undo (𝔽⁼
) are equivalent to using a right-operand of¯1
with the 2-modifiers Rank (𝔽⎉¯1
), Depth (𝔽⚇¯1
), and Repeat (𝔽⍟¯1
). Therefore the 2-modifiers are circled versions of the 1-modifiers (except in the case of Undo/Repeat). - Under (
𝔽⌾𝔾
) is in principle equivalent to𝔾⁼∘𝔽○𝔾
. Therefore,⌾
is a combination of the glyphs∘
and○
.
The Name BQN
The name "BQN" was originated as a forward iteration of the letters of APL, and "happens to match the capitals in 'Big Questions Notation'"[3].
Lochbaum recounts, "I obtained 'BQN' by moving each letter in 'APL' forward by one in the alphabet. I'd come up with the backronym 'Big Questions Notation' by the time I realized N doesn't come after L."[4]
Lochbaum commented further on this, saying:
...the way I came up with the name BQN was I thought, ... alright, I'm working on this next APL. What do I call [it?] ... I took took APL and I moved it forward and I got BQN. And I said, well, BQN, that sounds pretty good... [B]ig Questions Notation is what I ended up with. I like it 'cause it suggests that not only you're solving big questions, but you have big questions about the notation, so it's a little tongue in cheek. And I said also, you can pronounce it like bacon, so there's even a food pun like Apple. And after some half hour or an hour of thinking about this, I realized that the letter that comes after L is M, not N. I think it would be much more logical for N to come first, because it's the letter with two humps. BQM is a horrible, horrible name, and so I stuck with BQN. [5]
References
- ↑ 1.0 1.1 Marshall Lochbaum. "How to run BQN"
- ↑ Marshall Lochbaum. "BQN's development history".
- ↑ Marshall Lochbaum. "What Kind of a Name is BQN?"
- ↑ Marshall Lochbaum. Stack Exchange Transcript
- ↑ Marshall Lochbaum and the BQN array language. Array Cast. Aug 7, 2021. (In response to a question starting at the 11:29 mark.)
APL dialects [edit] | |
---|---|
Maintained | APL+Win ∙ APL2 ∙ APL64 ∙ APL\iv ∙ Aplette ∙ April ∙ Co-dfns ∙ Dyalog APL ∙ Dyalog APL Vision ∙ dzaima/APL ∙ GNU APL ∙ Kap ∙ NARS2000 ∙ Pometo ∙ TinyAPL |
Historical | A Programming Language ∙ A+ (A) ∙ APL# ∙ APL2C ∙ APL\360 ∙ APL/700 ∙ APL\1130 ∙ APL\3000 ∙ APL.68000 ∙ APL*PLUS ∙ APL.jl ∙ APL.SV ∙ APLX ∙ Extended Dyalog APL ∙ Iverson notation ∙ IVSYS/7090 ∙ NARS ∙ ngn/apl ∙ openAPL ∙ Operators and Functions ∙ PAT ∙ Rowan ∙ SAX ∙ SHARP APL ∙ Rationalized APL ∙ VisualAPL (APLNext) ∙ VS APL ∙ York APL |
Derivatives | AHPL ∙ BQN ∙ CoSy ∙ ELI ∙ Glee ∙ I ∙ Ivy ∙ J ∙ Jelly ∙ K (Goal, Klong, Q) ∙ KamilaLisp ∙ Lang5 ∙ Lil ∙ Nial ∙ RAD ∙ Uiua |
Overviews | Comparison of APL dialects ∙ Timeline of array languages ∙ Timeline of influential array languages ∙ Family tree of array languages |