What is the exclusive or functions in scheme? I've tried xor
and ^
, but both give me an unbound local variable error.
Googling found nothing.

I suggest you use 


If you mean bitwise xor of two integers, then each Scheme has it's own name (if any) since it's not in any standard. For example, PLT has these bitwise functions, including (Uh, if you talk about booleans, then yes, 


As far as I can tell from the R6RS (the latest definition of scheme), there is no predefined exclusiveor operation. However, Assuming the arguments are restricted to the scheme booleans values
will do the job. 


Kind of a different style of answer:



Since xor could be used with any number of arguments, the only requirement is that the number of true occurences be odd. It could be defined roughly this way:
No argument checking needs to be done since any number of arguments (including none) will return the right answer. However, this simple implementation has efficiency problems: both length and filter traverse the list twice; so I thought I could remove both and also the other useless predicate procedure "true?". The value odd? receives is the value of the accumulator (aka acc) when args has no remaining trueevaluating members. If trueevaluating members exist, repeat with acc+1 and the rest of the args starting at the next true value or evaluate to false, which will cause acc to be returned with the last count.



Reading SRFI1 shed a new light upon my answer. Forget efficiency and simplicity concerns or even testing! This beauty does it all:
Or if you prefer:









I revised my code recently because I needed 'xor in scheme and found out it wasn't good enough... First, my earlier definition of 'true? made the assumption that arguments had been tested under a boolean operation. So I change:
... for:
... which is more like the "true" definition of 'true? However, since 'xor returns #t if its arguments have an 'odd? number of "true" arguments, testing for an even number of false cases is equivalent. So here's my revised 'xor:


