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I cannot use logical functions on a range of booleans in Clojure (1.2). Neither of the following works due to logical functions being macros:

(reduce and [... sequence of bools ...])
(apply or [... sequence of bools ...])

The error message says that I "can't take value of a macro: #'clojure.core/and". How to apply these logical functions (macros) without writing boilerplate code?

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2 Answers 2

up vote 36 down vote accepted

Don't -- use every? and some instead.

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Exactly what I was looking for. –  Alex B May 23 '10 at 12:54
3  
Links to docs, every? and some. –  Brad Koch Nov 9 '13 at 21:22

Michal's answer is already spot on, but the following alternative approach can be useful in similar situations whenever you want to use a macro as a function:

(reduce #(and %1 %2) [... sequence of bools ...])

Basically you just wrap the macro in an anonymous function.

There are a couple of good reasons to consider this approach:

  • There are situations where a handy function like some or every? does not exist
  • You may get better performance (reduce is likely to benefit from some very good optimisations in the future, for example applying the function directly to a vector rather than converting the vector into a sequence)
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This may well give worse performance. reduce computes the answer from the whole sequence. every? returns false as soon as it finds a false element. On my machine, (reduce #(and %1 %2) (cons nil (range 100000000))) takes some seconds, whereas (every? identity (cons nil (range 100000000))) returns instantly. Formally, reduce is linear time, whereas - given any probability of there being a false element, every? is constant time on average, though linear in the worst case. –  Thumbnail Sep 2 at 8:34
    
@Thumbnail - very true. Though of course you can get early bailout with reduce by using reduced if you want. And it doesn't change the fact that raw performance of reduce is faster: for stuff like (let [v (vec (repeat 1000000 true))] (time (every? identity v))) the reduce equivalent is about 3x faster at churning through the whole sequence, for example. –  mikera Sep 5 at 0:40

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