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|{{quote | "I have long been struck by the contrast between the success with which the adventurous learn APL by simply using it, and the frequent failure of lecture courses to communicate the simplicity and applicability of the language."|[[Ken Iverson]]. ''A Working Introduction to APL'', 1981.}} | |{{quote | "I have long been struck by the contrast between the success with which the adventurous learn APL by simply using it, and the frequent failure of lecture courses to communicate the simplicity and applicability of the language."|[[Ken Iverson]]. ''A Working Introduction to APL'', 1981.}} | ||
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To facilitate self-study, the resources here are classified by target audience. However, if you get stuck, don't hesitate to request help in | To facilitate self-study, the resources here are classified by target audience. However, if you get stuck, don't hesitate to request help in a chat room ([[APL Farm]] or [[APL Orchard]]) or [https://stackoverflow.com/questions/ask?tags=apl ask a question on Stack Exchange]. | ||
It may be beneficial to learn the APL [[terminology]]. | It may be beneficial to learn the APL [[terminology]]. | ||
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* APL a Day: [https://www.sacrideo.us/apl-a-day-0-introduction/ Introduction], [https://www.sacrideo.us/apl-a-day-1-functions/ Functions], [https://www.sacrideo.us/apl-a-day-2-arrays-values/ Arrays, Values], [https://www.sacrideo.us/apl-a-day-3-arrays-have-shape/ Arrays have Shape] | * APL a Day: [https://www.sacrideo.us/apl-a-day-0-introduction/ Introduction], [https://www.sacrideo.us/apl-a-day-1-functions/ Functions], [https://www.sacrideo.us/apl-a-day-2-arrays-values/ Arrays, Values], [https://www.sacrideo.us/apl-a-day-3-arrays-have-shape/ Arrays have Shape] | ||
* [http://robertson.uk.net/Files/APL1&2.pdf A Practical Introduction to APL 1 & 2] (3 & 4 is [[#For novice APLers|for experts]]) | * [http://robertson.uk.net/Files/APL1&2.pdf A Practical Introduction to APL 1 & 2] (3 & 4 is [[#For novice APLers|for experts]]) | ||
* Découvrez le langage APL: parts [https://www.youtube.com/watch?v=Nxq1BUUXobM 1], [https://www.youtube.com/watch?v=s-E7BsMg_Qc 2], [https://www.youtube.com/watch?v=csx2Z-GEGPw 3] by Eric Schrafstetter (in French) | * Découvrez le langage APL: parts [https://www.youtube.com/watch?v=Nxq1BUUXobM 1], [https://www.youtube.com/watch?v=s-E7BsMg_Qc 2], [https://www.youtube.com/watch?v=csx2Z-GEGPw 3] by Eric Schrafstetter (video series in French) | ||
* [https://www.youtube.com/playlist?list=PLgTqamKi1MS3p-O0QAgjv5vt4NY5OgpiM Learn APL with neural networks] (video series) | * [https://www.youtube.com/playlist?list=PLgTqamKi1MS3p-O0QAgjv5vt4NY5OgpiM Learn APL with neural networks] (video series) | ||
* [https://romilly.github.io/o-x-o/an-introduction.html MENACE in APL] (An early Reinforcement Learning project reimplemented in APL) | * [https://romilly.github.io/o-x-o/an-introduction.html MENACE in APL] (An early Reinforcement Learning project reimplemented in APL) | ||
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* APL Wiki's [[Books]] | * APL Wiki's [[Books]] | ||
* APL Wiki's [[Papers]] | * APL Wiki's [[Papers]] | ||
* [https://tryapl.org TryAPL online interpreter with lessons] | * [https://tryapl.org TryAPL online interpreter with lessons] | ||
* [https://rikedyp.github.io/APLWorkshop APL Workshop] (self-study course) | * [https://rikedyp.github.io/APLWorkshop APL Workshop] (self-study course) | ||
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== For novice APLers == | == For novice APLers == | ||
* [[APL Cultivations]] by [[Adám Brudzewsky]] (edited by [[user:xpqz|Stefan Kruger]]) | |||
* APL Wiki's [[advanced examples]] | |||
* [https://www.blitter.com/nextcloud/index.php/s/2Wg3HNWHRiYb5K7#pdfviewer APL2 in Depth] by Norman Thomson and [[Ray Polivka]] | * [https://www.blitter.com/nextcloud/index.php/s/2Wg3HNWHRiYb5K7#pdfviewer APL2 in Depth] by Norman Thomson and [[Ray Polivka]] | ||
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* [[Advent of Code]]: A collection of small programming puzzles. | * [[Advent of Code]]: A collection of small programming puzzles. | ||
* [https://www.youtube.com/watch?v=6J0Au6AKGWw&list=PL5ZGZlm-yp_xQfzsBtD66HIMW1M97wCsE Triplets pythagoriciens] by OsKaR: A mathematical problem used as an introduction to the expressive power of APL (video series in French). | |||
== For advanced APLers == | == For advanced APLers == | ||
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Those who learned APL "in the early days" should note that several implementations have made significant extensions to the language and system in the last decade or two. | Those who learned APL "in the early days" should note that several implementations have made significant extensions to the language and system in the last decade or two. | ||
* General video: [https://www.youtube.com/watch?v=XN1l1WiYc_o Dyalog APL for other APL users] ([[assignment]], [[control structure]]s, [[namespace]]s, [[migration level]], [[Bind]], [[user-defined operator]]s, [[dfn]]s, [[Error trapping with Dyalog APL|error trapping]], [[shyness]], [[namelist]]s, [[GCD]], [[LCM]], [[Power operator]], and more) | * General video: [https://www.youtube.com/watch?v=XN1l1WiYc_o Dyalog APL for other APL users] ([[assignment]], [[control structure]]s, [[namespace]]s, [[migration level]], [[Bind]], [[user-defined operator]]s, [[dfn]]s, [[Error trapping with Dyalog APL|error trapping]], [[shyness]], [[namelist]]s, [[GCD]], [[LCM]], [[Power (operator)|Power operator]], and more) | ||
* New primitive functions: <source lang=apl inline>⊢</source> [[Identity|Same]], [[Right_identity|Right]]; <source lang=apl inline>⊣</source> [[Identity|Same]], [[Left_identity|Left]]; <source lang=apl inline>⌷</source> [[Materialise]], [[Squad indexing|Index]]; <source lang=apl inline>≡</source> [[Depth]], [[Match]]; <source lang=apl inline>≢</source> [[Tally]], [[Not Match]]; <source lang=apl inline>≠</source> [[Nub Sieve]]; <source lang=apl inline>⍸</source> [[Where]], [[Interval Index]]; <source lang=apl inline>⊆</source> [[Nest]], [[Partition]] | * New primitive functions: <source lang=apl inline>⊢</source> [[Identity|Same]], [[Right_identity|Right]]; <source lang=apl inline>⊣</source> [[Identity|Same]], [[Left_identity|Left]]; <source lang=apl inline>⌷</source> [[Materialise]], [[Squad indexing|Index]]; <source lang=apl inline>≡</source> [[Depth]], [[Match]]; <source lang=apl inline>≢</source> [[Tally]], [[Not Match]]; <source lang=apl inline>≠</source> [[Nub Sieve]]; <source lang=apl inline>⍸</source> [[Where]], [[Interval Index]]; <source lang=apl inline>⊆</source> [[Nest]], [[Partition]] | ||