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11

It sounds like you can just use map with a condition: List<String> list2 = list .stream() .map(str -> someCondition(str) ? doSomething(str) : doSomethingElse(str)) .collect(Collectors.toList()); Short but complete example mapping short strings to lower case and long ones to upper case: import java.util.*; import java.util.stream.*; ...


9

If you can really reuse check between calls to my, then you can create my and check within an inline-invoked scoping function and return my out of it: var my = function() { // <=== Scoping function function my(){ console.log( check() ? "yes" : "no"); } function check(){ return true; } return my; // <=== ...


7

An usual way in Common Lisp would be to use LET* (let* ((thing1 (thing-operation0 thing0 extra-arg0)) (thing2 (thing-operation1 thing1 extra-arg1)) (thing3 (thing-operation2 thing2 extra-arg2))) (thing-operation3 thing3 extra-arg3)) That way one can name the return values, which improves readability and one could write declarations for ...


7

Let's look at the type of fmap specialized for the Either functor: fmap :: (a -> b) -> Either e a -> Either e b As we can see from this, in fmap f all@(Left _), the type of all is Either e a. This doesn't match the intended result type Either e b prescribed by the signature of fmap, so fmap f all@(Left _) = all is not well-typed. Similarly for ...


5

What you're trying to do boils down to this: f :: Either a Bool -> Either a () f (Right _) = Right () f left = left with error: foo.hs:3:7: Couldn't match type ‘Bool’ with ‘()’ Expected type: Either a () Actual type: Either a Bool In the expression: left In an equation for ‘f’: f left = left Failed, modules loaded: none. left ...


5

We want to generate random numbers and keep the random number generator (as of now RNG) (of type scala.util.Random) as state in your State class. We can define the type Rand[A] as : type Rand[A] = State[Random, A] We want to be able to get a random integer in a range. If we have a RNG, this can easily be done using : def randomInRange(rng: Random, ...


5

If you don't care about a few extra instructions: fun isLeapYear(y) = case (y mod 400, y mod 100, y mod 4) of (0, _, _) => true | (_, 0, _) => false | (_, _, 0) => true | (_, _, _) => false


4

Firstly, case X of true => E1 | false => E2" directly corresponds to if X then E1 else E2, which I personally would prefer. (After all, if ... then ... else ... is kind of a specialized case construct, which only works on booleans, right?) Turning it into that gives us: fun isLeapYear(y) = if y mod 400 = 0 then true else if y mod 100 = ...


4

Your second case is wrong; you want fun flipAlternate(nil) = nil | flipAlternate([x]) = [x] | flipAlternate(x::y::xs) = y::x::flipAlternate(xs); SML is looking at the second case and concluding flipAlternate :: 'z list list -> 'z list which isn't compatible with the recursion in your third case. Edit: It knows the result is a list from the first ...


3

Clojure has a threading operator, ->, which does what you expect: (-> thing (thing-operation1 extra-arg1) (thing-operation2 extra-arg2) (thing-operation3 extra-arg3)) You can implement this easily as a macro in other Lisp dialects. Greg Hendershott's rackjure library has a ~> form that does the same thing in Racket, for example. The ...


3

You might be able to bodge something for Option with view bounds, but the general solution is to define a typeclass: you define an interface and provide an implicit instance of that interface for each type you want to support: trait CanGetOnlyOne[F[_]] { def getOnlyOne[A](fa: F[A]): Option[A] } object CanGetOnlyOne { implicit object ...


3

right now it's no function but a value, so let's make it into a function by adding unit () as it's only argument ;) let rec recFunc() = let read = stream.Read(buffer, 0, buffer.Length) match read with | a when a <= 0 -> ms.ToArray() |_ -> recFunc () // Called recursion Function buffer


3

Yes, it is usual (but there are techniques to lessen its presence) Abstracting from some details of your implementation with Interaction Nets, and also from your hypothesis of soundness of the abstract algorithm for your div, everything seems just fine to me. No further interaction can be applied to the output you show, in spite of chi's claim, because ...


2

In general whenever you see case p of true => true | false => q (or equivalently if p then true else q) you should write p orelse q Likewise case p of false => false true => q is just p andalso q Finally case p of true => true false => false is just p. So your example is better written as y mod 400 = 0 orelse (y ...


2

In this case, all the closures inside checkAttendanceFunc point to a reference of the i and nameArr variable. When the loop is done, i's value is 4 for all the functions you generated, what you need is copying i each time you pass it to a closure. There are several ways for you to achieve this: Immediately call the function var checkAttendanceFunc = ...


2

Still not sure I understand the intent of this code, but here's a working version that does what I think you're trying to do: var students = ["alex", "brownex", "chris", "mack"]; var _class = students.map(function(name, i) { return function() { console.log('Is', name, 'present?', i); }; }); See it in action here. If you're really just ...


2

Option can be implicitly converted to an Iterable, so the following works: implicit class GetOnlyOne[A, Coll](coll: Coll) (implicit view: Coll => Iterable[A]) { def getonlyone = { val it: Iterable[A] = coll if (it.isEmpty) None else if (it.tail.isEmpty) it.headOption else None } } However for Option ...


2

First, let's make it possible to see how we're doing by making your Drug class printable: class Drug : CustomStringConvertible { var name:String var dosage:[(dose:String,time:String)] init(name:String){ self.name = name self.dosage = [] } var description:String { return "\(name):\(dosage)" } } Then here's ...


2

So at first, you should restructure your objects little better, so it is easier and more readable, possibly like this: struct Dosage { // Declare variables let dose : String let time : String // Get dosage from drug data init(drugData : DrugData) { self.dose = drugData["dose"]! self.time = drugData["time"]! } } ...


2

Your direct issue is that .addNode isn't a function, but some sugar around the . special form. You can't pass special forms around this way, so you'll need to wrap it in a function that the agent knows how to call - #(.addNode %&) or something similar. The special form is then only evaluated once all the arguments are there, and it can see that there is ...


2

Is it correct to make Predicate of type Promotion or should I build a wrapper class with Promotion and Customer? Yes it's correct. The filtering function you want to implement will be of the form f(x) = y where y belongs to {false, true}. Here the type of x is the type of the element on which you want to apply the function (so the type of the ...


2

Well, I think one answer is to just abstract away the caching like so: class Test { static function main() { var sideeffects = 0; var cached = memoize(function (x) return x + sideeffects++); cached(1); trace(sideeffects);//1 cached(1); trace(sideeffects);//1 cached(3); ...


2

As the error message shows, it is complaining about a different line. And it is complaining because the right operand of the :: operator in that line (the result of the recursive call to truncate) is a string, not a list. You probably want to use ^ instead, which denotes string concatenation. Hint: There are other issues with your code. At least it is ...


2

No, you will need to define the exception in a let expression, such as: fun toUpper(myChar) = let exception invalidCharacter; in if ord(myChar) >= ord(#"A") andalso ord(myChar) <= ord(#"Z") then myChar else if ord(myChar) >= ord(#"a") andalso ord(myChar) <= ord(#"z") then chr(ord(myChar) - (ord(#"a") - ord(#"A"))) ...


2

d = { "key1":[1,2,3], "key2":[1,2] } from itertools import product [{'key1':i,'key2':j} for i,j in product(d['key1'],d['key2'])] [{'key1': 1, 'key2': 1}, {'key1': 1, 'key2': 2}, {'key1': 2, 'key2': 1}, {'key1': 2, 'key2': 2}, {'key1': 3, 'key2': 1}, {'key1': 3, 'key2': 2}]


1

It may be good idea to group all your significant capturing groups using parentheses and ignore all constant tokens using ~> or <~ operators. In this case you will need to match only significant results: def attachRoad = ("attach" ~> ("primary" | "secondary")) ~ ("road" ~> ident) ~ ("with" ~> "length" ~> floatingPointNumber) ~ ...


1

The Streams from the linked answer seem like an analog of core.async channels. Instead of removing all listeners each event maybe pass in a channel that has event details put to it. The same channel should go to the button's logic handler where it will repeatedly be taken from.


1

What @eclanrs has mentioned can look like this getTxns: function () { return this.data.reduce(function (accumulator, page) { return accumulator.concat(page.txns.map(function(txn){ return { page: txn.page_idx, txn: txn.grade ? page.txns.indexOf(txn) : 0, virtual: ...


1

What you are trying to do could be possible but IMHO not idiomatic, you are thinking in an OO way yet. As the docs says, Agent should be itself immutable (preferably an instance of one of Clojure's persistent collections) You can model a tree with a Map, have a look at this example. Generally speaking 4clojure it's a good place to get started to ...



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