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package mill.define
import mill.api.Ctx.ImplicitStub
import utest._
import scala.annotation.compileTimeOnly
import scala.language.experimental.macros
object ApplicativeTests extends TestSuite {
implicit def optionToOpt[T](o: Option[T]): Opt[T] = new Opt(o)
class Opt[T](val self: Option[T]) extends Applicative.Applyable[Option, T]
object Opt extends OptGenerated with Applicative.Applyer[Opt, Option, Applicative.Id, String]{
val injectedCtx = "helloooo"
def underlying[A](v: Opt[A]) = v.self
def apply[T](t: T): Option[T] = macro Applicative.impl[Option, T, String]
def mapCtx[A, B](a: Option[A])(f: (A, String) => B): Option[B] = a.map(f(_, injectedCtx))
def zip() = Some(())
def zip[A](a: Option[A]) = a.map(Tuple1(_))
}
class Counter{
var value = 0
def apply() = {
value += 1
value
}
}
@compileTimeOnly("Target.ctx() can only be used with a T{...} block")
@ImplicitStub
implicit def taskCtx: String = ???
val tests = Tests{
'selfContained - {
'simple - assert(Opt("lol " + 1) == Some("lol 1"))
'singleSome - assert(Opt("lol " + Some("hello")()) == Some("lol hello"))
'twoSomes - assert(Opt(Some("lol ")() + Some("hello")()) == Some("lol hello"))
'singleNone - assert(Opt("lol " + None()) == None)
'twoNones - assert(Opt("lol " + None() + None()) == None)
}
'context - {
assert(Opt(Opt.ctx() + Some("World")()) == Some("hellooooWorld"))
}
'capturing - {
val lol = "lol "
def hell(o: String) = "hell" + o
'simple - assert(Opt(lol + 1) == Some("lol 1"))
'singleSome - assert(Opt(lol + Some(hell("o"))()) == Some("lol hello"))
'twoSomes - assert(Opt(Some(lol)() + Some(hell("o"))()) == Some("lol hello"))
'singleNone - assert(Opt(lol + None()) == None)
'twoNones - assert(Opt(lol + None() + None()) == None)
}
'allowedLocalDef - {
// Although x is defined inside the Opt{...} block, it is also defined
// within the LHS of the Applyable#apply call, so it is safe to life it
// out into the `zipMap` arguments list.
val res = Opt{ "lol " + Some("hello").flatMap(x => Some(x)).apply() }
assert(res == Some("lol hello"))
}
'upstreamAlwaysEvaluated - {
// Whether or not control-flow reaches the Applyable#apply call inside an
// Opt{...} block, we always evaluate the LHS of the Applyable#apply
// because it gets lifted out of any control flow statements
val counter = new Counter()
def up = Opt{ "lol " + counter() }
val down = Opt{ if ("lol".length > 10) up() else "fail" }
assert(
down == Some("fail"),
counter.value == 1
)
}
'upstreamEvaluatedOnlyOnce - {
// Even if control-flow reaches the Applyable#apply call more than once,
// it only gets evaluated once due to its lifting out of the Opt{...} block
val counter = new Counter()
def up = Opt{ "lol " + counter() }
def runTwice[T](t: => T) = (t, t)
val down = Opt{ runTwice(up()) }
assert(
down == Some(("lol 1", "lol 1")),
counter.value == 1
)
}
'evaluationsInsideLambdasWork - {
// This required some fiddling with owner chains inside the macro to get
// working, so ensure it doesn't regress
val counter = new Counter()
def up = Opt{ "hello" + counter() }
val down1 = Opt{ (() => up())() }
val down2 = Opt{ Seq(1, 2, 3).map(n => up() * n) }
assert(
down1 == Some("hello1"),
down2 == Some(Seq("hello2", "hello2hello2", "hello2hello2hello2"))
)
}
'appliesEvaluatedOncePerLexicalCallsite - {
// If you have multiple Applyable#apply() lexically in the source code of
// your Opt{...} call, each one gets evaluated once, even if the LHS of each
// apply() call is identical. It's up to the downstream zipMap()
// implementation to decide if it wants to dedup them or do other things.
val counter = new Counter()
def up = Opt{ "hello" + counter() }
val down = Opt{ Seq(1, 2, 3).map(n => n + up() + up()) }
assert(down == Some(Seq("1hello1hello2", "2hello1hello2", "3hello1hello2")))
}
'appliesEvaluateBeforehand - {
// Every Applyable#apply() within a Opt{...} block evaluates before any
// other logic within that block, even if they would happen first in the
// normal Scala evaluation order
val counter = new Counter()
def up = Opt{ counter() }
val down = Opt{
val res = counter()
val one = up()
val two = up()
val three = up()
(res, one, two, three)
}
assert(down == Some((4, 1, 2, 3)))
}
}
}
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