XGitUrl: http://lambda.jimpryor.net/git/gitweb.cgi?p=lambda.git;a=blobdiff_plain;f=assignment2.mdwn;h=5d75a855a5a09ef187dcdd9b6e4e22bb11b6ee7a;hp=c60f50e8892777485e3775fe4d5b30ce0c42edf9;hb=d9ef81bf6980969f16aebfed4b6fda9c3c5463bf;hpb=2c3b570cee9e45d3a826a38871fbcbd9bf356d46
diff git a/assignment2.mdwn b/assignment2.mdwn
index c60f50e8..5d75a855 100644
 a/assignment2.mdwn
+++ b/assignment2.mdwn
@@ 1,3 +1,6 @@
+For these assignments, you'll probably want to use our [[lambda evaluator]] to check your work. This accepts any grammatical lambda expression and reduces it to normal form, when possible.
+
+
More Lambda Practice

@@ 30,6 +33,36 @@ Reduce to betanormal forms:
`(\x y z. x z (y z)) (\u v. u)`
+Combinatory Logic
+
+
+Reduce the following forms, if possible:
+
+
+ `Kxy`
+
 `KKxy`
+
 `KKKxy`
+
 `SKKxy`
+
 `SIII`
+
 `SII(SII)`
+
+
 Give Combinatory Logic combinators that behave like our boolean functions.
+ You'll need combinators for `true`, `false`, `neg`, `and`, `or`, and `xor`.
+
+
+Using the mapping specified in the lecture notes,
+translate the following lambda terms into combinatory logic:
+
+
+ `\x.x`
+
 `\xy.x`
+
 `\xy.y`
+
 `\xy.yx`
+
 `\x.xx`
+
 `\xyz.x(yz)`
+
 For each translation, how many I's are there? Give a rule for
+ describing what each I corresponds to in the original lambda term.
+
Lists and Numbers

@@ 74,7 +107,7 @@ For these exercises, assume that `LIST` is the result of evaluating:
 What would be the result of evaluating (see [[Assignment 2 hint 1]] for a hint):
+
 What would be the result of evaluating (see [[hints/Assignment 2 hint]] for a hint):
LIST makelist empty
@@ 88,7 +121,7 @@ For these exercises, assume that `LIST` is the result of evaluating:
should evaluate to a list containing just those of `a`, `b`, `c`, `d`, and `e` such that `f` applied to them evaluates to `true`.

 How would you implement map using the either the version 1 or the version 2 implementation of lists?
+
 What goes wrong when we try to apply these techniques using the version 1 or version 2 implementation of lists?
 Our version 3 implementation of the numbers are usually called "Church numerals". If `m` is a Church numeral, then `m s z` applies the function `s` to the result of applying `s` to ... to `z`, for a total of *m* applications of `s`, where *m* is the number that `m` represents or encodes.