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swift-mirror/test/1_stdlib/Interval.swift
Doug Gregor 793b3326af Implement the new rules for argument label defaults. 
The rule changes are as follows:
  * All functions (introduced with the 'func' keyword) have argument
  labels for arguments beyond the first, by default. Methods are no
  longer special in this regard.
  * The presence of a default argument no longer implies an argument
  label.

The actual changes to the parser and printer are fairly simple; the
rest of the noise is updating the standard library, overlays, tests,
etc.

With the standard library, this change is intended to be API neutral:
I've added/removed #'s and _'s as appropriate to keep the user
interface the same. If we want to separately consider using argument
labels for more free functions now that the defaults in the language
have shifted, we can tackle that separately.

Fixes rdar://problem/17218256.

Swift SVN r27704
2015-04-24 19:03:30 +00:00

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5.0 KiB
Swift
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//===--- Interval.swift ---------------------------------------------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2015 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See http://swift.org/LICENSE.txt for license information
// See http://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
// RUN: %target-run-simple-swift
//
// XFAIL: interpret
import StdlibUnittest
var IntervalTestSuite = TestSuite("Interval")
IntervalTestSuite.test("Ambiguity") {
// Ensure type deduction still works as expected; these will fail to
// compile if it's broken
var pieToPie = -3.1415927..<3.1415927
expectType(HalfOpenInterval<Double>.self, &pieToPie)
var pieThruPie = -3.1415927...3.1415927
expectType(ClosedInterval<Double>.self, &pieThruPie)
var zeroToOne = 0..<1
expectType(Range<Int>.self, &zeroToOne)
var zeroThruOne = 0...1
// If/when we get a separate ClosedRange representation, this test
// will have to change.
expectType(Range<Int>.self, &zeroThruOne)
}
IntervalTestSuite.test("PatternMatching") {
let pie = 3.1415927
let expectations : [(Double, halfOpen: Bool, closed: Bool)] = [
(-2 * pie, false, false),
(-pie, true, true),
(0, true, true),
(pie, false, true),
(2 * pie, false, false)
]
for (x, halfOpenExpected, closedExpected) in expectations {
var halfOpen: Bool
switch x {
case -3.1415927..<3.1415927:
halfOpen = true
default:
halfOpen = false
}
var closed: Bool
switch x {
case -3.1415927...3.1415927:
closed = true
default:
closed = false
}
expectEqual(halfOpenExpected, halfOpen)
expectEqual(closedExpected, closed)
}
}
IntervalTestSuite.test("Overlaps") {
func expectOverlaps<
I0: IntervalType, I1: IntervalType where I0.Bound == I1.Bound
>(expectation: Bool, _ lhs: I0, _ rhs: I1) {
if expectation {
expectTrue(overlaps(lhs, rhs))
expectTrue(overlaps(rhs, lhs))
}
else {
expectFalse(overlaps(lhs, rhs))
expectFalse(overlaps(rhs, lhs))
}
}
// 0-4, 5-10
expectOverlaps(false, 0..<4, 5..<10)
expectOverlaps(false, 0..<4, 5...10)
expectOverlaps(false, 0...4, 5..<10)
expectOverlaps(false, 0...4, 5...10)
// 0-5, 5-10
expectOverlaps(false, 0..<5, 5..<10)
expectOverlaps(false, 0..<5, 5...10)
expectOverlaps(true, 0...5, 5..<10)
expectOverlaps(true, 0...5, 5...10)
// 0-6, 5-10
expectOverlaps(true, 0..<6, 5..<10)
expectOverlaps(true, 0..<6, 5...10)
expectOverlaps(true, 0...6, 5..<10)
expectOverlaps(true, 0...6, 5...10)
// 0-20, 5-10
expectOverlaps(true, 0..<20, 5..<10)
expectOverlaps(true, 0..<20, 5...10)
expectOverlaps(true, 0...20, 5..<10)
expectOverlaps(true, 0...20, 5...10)
}
IntervalTestSuite.test("Emptiness") {
expectTrue((0.0..<0.0).isEmpty)
expectFalse((0.0...0.0).isEmpty)
expectFalse((0.0..<0.1).isEmpty)
expectFalse((0.0..<0.1).isEmpty)
}
IntervalTestSuite.test("start/end") {
expectEqual(0.0, (0.0..<0.1).start)
expectEqual(0.0, (0.0...0.1).start)
expectEqual(0.1, (0.0..<0.1).end)
expectEqual(0.1, (0.0...0.1).end)
}
// Something to test with that distinguishes debugDescription from description
struct X<T : Comparable> : Comparable, CustomStringConvertible, CustomDebugStringConvertible {
init(_ a: T) {
self.a = a
}
var description: String {
return String(a)
}
var debugDescription: String {
return "X(\(String(reflecting: a)))"
}
var a: T
}
func < <T : Comparable>(lhs: X<T>, rhs: X<T>) -> Bool {
return lhs.a < rhs.a
}
func == <T : Comparable>(lhs: X<T>, rhs: X<T>) -> Bool {
return lhs.a == rhs.a
}
IntervalTestSuite.test("CustomStringConvertible/CustomDebugStringConvertible") {
expectEqual("0.0..<0.1", String(X(0.0)..<X(0.1)))
expectEqual("0.0...0.1", String(X(0.0)...X(0.1)))
expectEqual(
"HalfOpenInterval(X(0.0)..<X(0.1))",
String(reflecting: HalfOpenInterval(X(0.0)..<X(0.1))))
expectEqual(
"ClosedInterval(X(0.0)...X(0.1))",
String(reflecting: ClosedInterval(X(0.0)...X(0.1))))
}
IntervalTestSuite.test("rdar12016900") {
if true {
let wc = 0
expectFalse((0x00D800 ..< 0x00E000).contains(wc))
}
if true {
let wc = 0x00D800
expectTrue((0x00D800 ..< 0x00E000).contains(wc))
}
}
IntervalTestSuite.test("clamp") {
expectEqual(
(5..<10).clamp(0..<3), 5..<5)
expectEqual(
(5..<10).clamp(0..<9), 5..<9)
expectEqual(
(5..<10).clamp(0..<13), 5..<10)
expectEqual(
(5..<10).clamp(7..<9), 7..<9)
expectEqual(
(5..<10).clamp(7..<13), 7..<10)
expectEqual(
(5..<10).clamp(13..<15), 10..<10)
expectEqual(
(5...10).clamp(0...3), 5...5)
expectEqual(
(5...10).clamp(0...9), 5...9)
expectEqual(
(5...10).clamp(0...13), 5...10)
expectEqual(
(5...10).clamp(7...9), 7...9)
expectEqual(
(5...10).clamp(7...13), 7...10)
expectEqual(
(5...10).clamp(13...15), 10...10)
}
runAllTests()
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