X-Git-Url: http://lambda.jimpryor.net/git/gitweb.cgi?a=blobdiff_plain;ds=inline;f=offsite_reading.mdwn;h=a6b537ab8f614d24175aba42869f3665357aa952;hb=b9ab5e640cf6ead61cd72c4a484dd55d239a2bb5;hp=8bb42380b30fb731febb77a8c9ad7e6f8311c5ef;hpb=1a71e5b2f4c3f6ebbd14e51b3d139e72ce9cff94;p=lambda.git diff --git a/offsite_reading.mdwn b/offsite_reading.mdwn index 8bb42380..a6b537ab 100644 --- a/offsite_reading.mdwn +++ b/offsite_reading.mdwn @@ -26,6 +26,7 @@ get more out of. (Rinse and repeat.) * [[!wikipedia Functional programming]] * [[!wikipedia Purely functional]] * [[!wikipedia Referential transparency (computer science)]] +* [[!wikipedia Side effect (computer science) desc="Side effects"]] * [[!wikipedia Imperative programming]] ## General issues about variables and scope in programming languages ## @@ -93,36 +94,44 @@ get more out of. (Rinse and repeat.) ## Types ## -* [[!wikipedia Tagged union]] -* [[!wikipedia Algebraic data type]] -* [[!wikipedia Recursive data type]] -* [[!wikipedia Pattern matching]] -* [[!wikipedia Unit type]] -* [[!wikipedia Bottom type]] * [[!wikipedia Typed lambda calculus]] * [[!wikipedia Simply typed lambda calculus]] * [Type Theory](http://plato.stanford.edu/entries/type-theory/) at the Stanford Encyclopedia of Philosophy * [Church's Type Theory](http://plato.stanford.edu/entries/type-theory-church/) at the Stanford Encyclopedia of Philosophy * [[!wikipedia Type polymorphism]] * [[!wikipedia System F]] +
+* [[!wikipedia Tagged union]]
+* [[!wikipedia Algebraic data type]]
+* [[!wikipedia Recursive data type]]
+* [[!wikipedia Pattern matching]]
+* [[!wikipedia Unit type]]
+* [[!wikipedia Bottom type]]
##[[Learning OCaml]]##
-## Side-effects / mutation ##
-
-* [[!wikipedia Side effect (computer science) desc="Side effects"]]
-* [[!wikipedia Reference (computer science) desc="References"]]
-* [[!wikipedia Pointer (computing) desc="Pointers"]]
-* [Pointers in OCaml](http://caml.inria.fr/resources/doc/guides/pointers.html)
-
## Monads ##
-
* [[!wikipedia Monad (functional programming) desc="Monads in Functional Programming"]]
+* [Daniel Friedman. A Schemer's View of Monads](/schemersviewofmonads.ps): from
* [Research Papers/Monads and Arrows](http://www.haskell.org/haskellwiki/Research_papers/Monads_and_arrows)
-* [Philip Wadler. Monads for Functional Programming](http://homepages.inf.ed.ac.uk/wadler/papers/marktoberdorf/baastad.pdf):
-in M. Broy, editor, *Marktoberdorf Summer School on Program Design Calculi*, Springer Verlag, NATO ASI Series F: Computer and systems sciences, Volume 118, August 1992. Also in J. Jeuring and E. Meijer, editors, *Advanced Functional Programming*, Springer Verlag, LNCS 925, 1995. Some errata fixed August 2001.
- The use of monads to structure functional programs is described. Monads provide a convenient framework for simulating effects found in other languages, such as global state, exception handling, output, or non-determinism. Three case studies are looked at in detail: how monads ease the modification of a simple evaluator; how monads act as the basis of a datatype of arrays subject to in-place update; and how monads can be used to build parsers.
+* [Eugenio Moggi, Notions of Computation and Monads](http://www.disi.unige.it/person/MoggiE/ftp/ic91.pdf): Information and Computation 93 (1) 1991.
* [Philip Wadler. The essence of functional programming](http://homepages.inf.ed.ac.uk/wadler/papers/essence/essence.ps):
invited talk, *19'th Symposium on Principles of Programming Languages*, ACM Press, Albuquerque, January 1992.
- This paper explores the use monads to structure functional programs. No prior knowledge of monads or category theory is required.
+
+* [Philip Wadler. Monads for Functional Programming](http://homepages.inf.ed.ac.uk/wadler/papers/marktoberdorf/baastad.pdf):
+in M. Broy, editor, *Marktoberdorf Summer School on Program Design Calculi*, Springer Verlag, NATO ASI Series F: Computer and systems sciences, Volume 118, August 1992. Also in J. Jeuring and E. Meijer, editors, *Advanced Functional Programming*, Springer Verlag, LNCS 925, 1995. Some errata fixed August 2001.
+
+* Ken Shan [Monads for natural language semantics](http://arxiv.org/abs/cs/0205026v1) (2001) uses reader monad to implement intensionality.
+* Ben-Avi and Winter [A modular approach to intensionality](http://parles.upf.es/glif/pub/sub11/individual/bena_wint.pdf) (2007) reinvents the technique.
+
+* Monsters and context-shifting, e.g. Gillies/von Fintel on "ifs" [not sure which paper]
+
## Monads in Category Theory ##
@@ -173,6 +187,16 @@ invited talk, *19'th Symposium on Principles of Programming Languages*, ACM Pres
* [A Partial Ordering of some Category Theory applied to Haskell](http://blog.sigfpe.com/2010/03/partial-ordering-of-some-category.html)
+## Side-effects / mutation ##
+
+* [[!wikipedia Referential transparency (computer science)]]
+* [[!wikipedia Side effect (computer science) desc="Side effects"]]
+* [[!wikipedia Imperative programming]]
+* [[!wikipedia Reference (computer science) desc="References"]]
+* [[!wikipedia Pointer (computing) desc="Pointers"]]
+* [Pointers in OCaml](http://caml.inria.fr/resources/doc/guides/pointers.html)
+
+
## The Curry-Howard Correspondence ##
* The [[!wikipedia Curry-Howard isomorphism]]
* [The Curry-Howard correspondence in Haskell](http://www.thenewsh.com/~newsham/formal/curryhoward/)