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Takes a set of predicates and returns a function f that returns true if all of its composing predicates return a logical true value against all of its arguments.
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/* | |
* @description | |
* ported from Clojure's own [(every-pred)](https://clojuredocs.org/clojure.core/every-pred) | |
* array.everyPred(pred0, pred1...predN) | |
* | |
* From Clojure's documentation: | |
* Takes a set of predicates and returns a function f that returns true if all of its composing predicates return a logical true | |
* value against all of its arguments, else it returns false. | |
* Note that f is short-circuiting in that it will stop execution on the first argument that triggers a - | |
* logical false result against the original predicates. | |
* @params | |
* any number of [predicate functions](https://en.wikipedia.org/wiki/Predicate_(mathematical_logic)) | |
*/ | |
Array.prototype.everyPred = function(...predFns) { | |
return predFns.every(fn => this.every(fn)); | |
} | |
let isEven = val => !(val%2); | |
let isModuloOf = modulo => val => !(val%modulo); | |
let t = [4,8,16].everyPred(Number.isInteger, isEven, isModuloOf(4)); // true |
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@benjamingr
TL;DR
Your approach doesn't short-circuit.
I see the point in not touching the prototype, but you can achieve the same with something like
everyPred(arr, ...predFns)
.Although
false && true
will only evaluate the left hand of the expression, the reduction loop will continue until the end of the array even if one of them might be evaluated as false, contrary toevery
- which will break on the first falsy result, which, depends on the case - can optimize the loops average complexity.Still, I love your approach as an additional feature, and would love to hear your comment about this.