trait Treez { self: Shmeez => abstract class Tree case class Beez(i:Int) extends Tree case object HagbardCeline extends Tree } trait Shmeez extends AnyRef with Treez { val tree: Tree def foo = tree match { case Beez(2) => 1 case HagbardCeline => 0 } } import scala.testing.SUnit._ object Test extends TestConsoleMain { //just compilation def zipFun[a,b](xs:List[a], ys:List[b]):List[Pair[a,b]] = (Pair(xs,ys): @unchecked) match { // !!! case Pair(List(), _), Pair(_, List()) => List() case (x :: xs1, y :: ys1) => (x, y) :: zipFun(xs1, ys1) } def suite = new TestSuite( new TestSimpleIntSwitch, new SimpleUnapply, SeqUnapply, applyFromJcl, new Test717, TestGuards, TestEqualsPatternOpt, TestSequence01, TestSequence02, TestSequence03, TestSequence04, TestSequence05, TestSequence06, TestSequence07, TestSequence08, TestStream, new Test903, new Test1163_Order, new TestUnbox, Bug457, Bug508, Bug789, Bug995, Bug1093, Bug1094, ClassDefInGuard, Ticket2, Ticket11, Ticket37, Ticket44, Ticket346 ) class Foo(j:Int) { case class Bar(i:Int) } class SimpleUnapply extends TestCase("simpleUnapply") { override def runTest() { // from sortedmap, old version List((1, 2)).head match { case kv @ Pair(key, _) => kv.toString + " " + key.toString } } } object SeqUnapply extends TestCase("seqUnapply") { case class SFB(i: Int, xs: List[Int]) override def runTest() { List(1,2) match { case List(1) => assert(false, "wrong case") case List(1,2,xs @ _*) => assert(xs.isEmpty, "not empty") case Nil => assert(false, "wrong case") } SFB(1,List(1)) match { case SFB(_, List(x)) => assert(x == 1) case SFB(_, _) => assert(false) } } } object applyFromJcl extends TestCase("applyFromJcl") { override def runTest { val p = (1,2) Some(2) match { case Some(p._2) => case _ => assert(false) } } } class TestSimpleIntSwitch extends TestCase("SimpleIntSwitch") { override def runTest() = { assertEquals("s1", 1, 1 match { case 3 => 3 case 2 => 2 case 1 => 1 case 0 => 0 }) assertEquals("s2", 1, 1 match { case 1 => 1 case _ => 0 }) assertEquals("s2boxed", 1, (1:Any) match { case 1 => 1 case _ => 0 }) assertEquals("s3", 1, ("hello") match { case s:String => 1 //case _ => 0 // unreachable! }) val xyz: (Int, String, Boolean) = (1, "abc", true); assertEquals("s4", 1, xyz._1 match { case 1 => 1 case _ => 0 }) } } class Test717 extends TestCase("#717 test path of case classes") { val foo1 = new Foo(1) val foo2 = new Foo(2) override def runTest() = { val res = (foo1.Bar(2):Any) match { case foo2.Bar(2) => false case foo1.Bar(2) => true } assertTrue("ok", res); } } object TestGuards extends TestCase("multiple guards for same pattern") with Shmeez { val tree:Tree = Beez(2) override def runTest = { val res = tree match { case Beez(x) if x == 3 => false case Beez(x) if x == 2 => true } assertTrue("ok", res); val ret = (Beez(3):Tree) match { case Beez(x) if x == 3 => true case Beez(x) if x == 2 => false } assertTrue("ok", ret); } } object TestEqualsPatternOpt extends TestCase("test EqualsPatternClass in combination with MixTypes opt, bug #1276") { val NoContext = new Object override def runTest { assertEquals(1,((NoContext:Any) match { case that : AnyRef if this eq that => 0 case NoContext => 1 case _ => 2 })) } } object TestSequence01 extends TestCase("uno (all ignoring patterns on List)") { def doMatch(xs: List[String]): String = xs match { case List(_*) => "ok" } def doMatch2(xs: List[String]): List[String] = xs match { case List(_, rest @ _*) => rest.toList } override def runTest() { val list1 = List() assertEquals(doMatch(list1), "ok") val list2 = List("1","2","3") assertEquals(doMatch(list2), "ok") val list3 = List("1","2","3") assertEquals(doMatch2(list3), List("2","3")) } } object TestSequence02 extends TestCase("due (all ignoring patterns on Seq)") { def doMatch(l: Seq[String]): String = l match { case Seq(_*) => "ok" } override def runTest() { val list1 = List() assertEquals(doMatch(list1), "ok") val list2 = List("1", "2", "3") assertEquals(doMatch(list2), "ok") val array3 = Array[String]() assertEquals(doMatch(array3), "ok") val array4 = Array[String]("ga", "gu") assertEquals(doMatch(array4), "ok") } } object TestSequence03 extends TestCase("tre (right-ignoring patterns on List, defaults)") { def doMatch(xs: List[String]): String = xs match { case List(_,_,_,_*) => "ok" case _ => "not ok" } override def runTest() { val list1 = List() assertEquals(doMatch(list1), "not ok") val list2 = List("1","2","3") assertEquals(doMatch(list2), "ok") val list3 = List("1","2","3","4") assertEquals(doMatch(list3), "ok") } } object TestSequence04 extends TestCase("quattro (all- and right-ignoring pattern on case class w/ seq param)") { case class Foo(i: Int, chars: Char*) override def runTest() = { val a = Foo(0, 'a') match { case Foo(i, c, chars @ _*) => c case _ => null } assertEquals(a, 'a') val b = Foo(0, 'a') match { case Foo(i, chars @ _*) => 'b' case _ => null } assertEquals(b, 'b') } } object TestSequence05 extends TestCase("cinque (sealed case class with ignoring seq patterns)") { sealed abstract class Con; case class Foo() extends Con case class Bar(xs:Con*) extends Con override def runTest() { val res = (Bar(Foo()):Con) match { case Bar(xs@_*) => xs // this should be optimized away to a pattern Bar(xs) case _ => Nil } assertEquals("res instance"+res.isInstanceOf[Seq[Con] forSome { type Con }]+" res(0)="+res(0), true, res.isInstanceOf[Seq[Foo] forSome { type Foo}] && res(0) == Foo() ) } } object TestSequence06 extends TestCase("sei (not regular) fancy guards / bug#644 ") { case class A(i: Any) def doMatch(x: Any, bla: Int) = x match { case x:A if (bla==1) => 0 case A(1) => 1 case A(A(1)) => 2 } override def runTest() { assertEquals(doMatch(A(null),1), 0) assertEquals(doMatch(A(1),2), 1) assertEquals(doMatch(A(A(1)),2), 2) } } object TestSequence07 extends TestCase("sette List of chars") { def doMatch1(xs: List[Char]) = xs match { case List(x, y, _*) => x::y::Nil } def doMatch2(xs: List[Char]) = xs match { case List(x, y, z, w) => List(z,w) } //def doMatch3(xs:List[char]) = xs match { // case List(_*, z, w) => w::Nil //} // // Since the second case should have been unreachable all along, // let's just comment this one out. // // def doMatch4(xs:Seq[Char]) = xs match { // case Seq(x, y, _*) => x::y::Nil // case Seq(x, y, z, w) => List(z,w) // redundant! // } def doMatch5(xs:Seq[Char]) = xs match { case Seq(x, y, 'c', w @ _*) => x::y::Nil case Seq(x, y, z @ _*) => z } def doMatch6(xs:Seq[Char]) = xs match { case Seq(x, 'b') => x::'b'::Nil case Seq(x, y, z @ _*) => z.toList } override def runTest() { assertEquals(List('a','b'), doMatch1(List('a','b','c','d'))) assertEquals(List('c','d'), doMatch2(List('a','b','c','d'))) // assertEquals(doMatch3(List('a','b','c','d')), List('d')) // assertEquals(List('a','b'), doMatch4(List('a','b','c','d'))) assertEquals(List('a','b'), doMatch5(List('a','b','c','d'))) assertEquals(List('c','d'), doMatch6(List('a','b','c','d'))) } } object TestSequence08 extends TestCase("backquoted identifiers in pattern") { override def runTest() { val xs = List(2, 3) val ys = List(1, 2, 3) match { case x :: `xs` => xs case _ => Nil } assertEquals(xs, ys) } } object TestStream extends TestCase("unapply for Streams") { def sum(stream: Stream[Int]): Int = stream match { case Stream.Empty => 0 case Stream.cons(hd, tl) => hd + sum(tl) } val str: Stream[Int] = List(1,2,3).iterator.toStream def runTest() = assertEquals(sum(str), 6) } class Test1163_Order extends TestCase("bug#1163 order of temps must be preserved") { abstract class Function case class Var(n: String) extends Function case class Const(v: Double) extends Function def f(): (Function, Function) = { (Var("x"): Function, Var("y"): Function) match { case (Const(v), Const(w)) => throw new Error case (leftOne, Var("z")) => throw new Error case (leftTwo, rightTwo) => (leftTwo, rightTwo) // was giving "y","x" } } def flips(l: List[Int]): Int = (l: @unchecked) match { case 1 :: ls => 0 case n :: ls => flips((l take n reverse) ::: (l drop n)) + 1 } def runTest() = assertEquals("both", (Var("x"),Var("y")), f) } class TestUnbox extends TestCase("unbox") { override def runTest() { val xyz: (Int, String, Boolean) = (1, "abc", true) xyz._1 match { case 1 => "OK" case 2 => assert(false); "KO" case 3 => assert(false); "KO" } } } class Test806_818 { // #806, #811 compile only -- type of bind // bug811 trait Core { trait NodeImpl trait OtherImpl extends NodeImpl trait DoubleQuoteImpl extends NodeImpl def asDQ(node : OtherImpl) = node match { case dq : DoubleQuoteImpl => dq } } trait IfElseMatcher { type Node <: NodeImpl trait NodeImpl trait IfImpl private def coerceIf(node: Node) = node match { case node : IfImpl => node // var node is of type Node with IfImpl! case _ => null } } } class Person(_name : String, _father : Person) { def name = _name def father = _father } object PersonFather { def unapply(p : Person) : Option[Person] = if (p.father == null) None else Some(p.father) } class Test903 extends TestCase("bug903") { override def runTest = { val p1 = new Person("p1",null) val p2 = new Person("p2",p1) assertEquals((p2.name, p1.name), p2 match { case aPerson@PersonFather(f) => (aPerson.name,f.name) case _ => "No father" }) } } object Test1253 { // compile-only def foo(t : (Int, String)) = t match { case (1, "") => throw new Exception case (r, _) => throw new Exception(r.toString) } } object Foo1258 { case object baz def foo(bar : AnyRef) = { val Baz = baz bar match { case Baz => () } } } object Foo1 { class Bar1(val x : String) def p(b : Bar1) = Console.println(b.x) def unapply(s : String) : Option[Bar1] = Some(new Bar1(s)) } object bug881 extends TestCase("881") { override def runTest = { "baz" match { case Foo1(x) => Foo1.p(x) } } } // these are exhaustive matches // should not generate any warnings def f[A](z:(Option[A],Option[A])) = z match { case Pair(None,Some(x)) => 1 case Pair(Some(x),None ) => 2 case Pair(Some(x),Some(y)) => 3 case _ => 4 } def g1[A](z:Option[List[A]]) = z match { case Some(Nil) => true case Some(x::Nil) => true case _ => true } def g2[A](z:Option[List[A]]) = z match { case Some(x::Nil) => true case Some(_) => false case _ => true } def h[A](x: (Option[A],Option[A])) = x match { case Pair(None,_:Some[_]) => 1 case Pair(_:Some[_],None ) => 2 case Pair(_:Some[_],_:Some[_]) => 3 case _ => 4 } def j = (List[Int](), List[Int](1)) match { case (Nil, _) => 'a' case (_, Nil) => 'b' case (h1 :: t1, h2 :: t2) => 'c' } def k (x:AnyRef) = x match { case null => 1 case _ => 2 } val FooBar = 42 def lala() = 42 match { case FooBar => true } object Bug1270 { // unapply13 class Sync { def apply(x: Int): Int = 42 def unapply(scrut: Any): Option[Int] = None } class Buffer { object Get extends Sync var ps: PartialFunction[Any, Any] = { case Get(y) if y > 4 => // y gets a wildcard type for some reason?! hack } } println((new Buffer).ps.isDefinedAt(42)) } object Bug1261 { sealed trait Elem case class Foo() extends Elem case class Bar() extends Elem trait Row extends Elem object Row { def unapply(r: Row) = true def f(elem: Elem) { elem match { case Bar() => ; case Row() => ; case Foo() => ; // used to give ERROR (unreachable code) }}} } /* object Feature1196 { def f(l: List[Int]) { } val l: Seq[Int] = List(1, 2, 3) l match { case x @ List(1, _) => f(x) // x needs to get better type List[int] here } } */ object TestIfOpt { //compile-only "test EqualsPatternClass in combination with MixTypes opt, bug #1278" trait Token { val offset : Int def matching : Option[Token] } def go(tok : Token) = (tok.matching: @unchecked) match { case Some(other) if true => Some(other) case _ if true => tok.matching match { case Some(other) => Some(other) case _ => None } } } object Go { // bug #1277 compile-only trait Core { def next : Position = null } trait Dir val NEXT = new Dir{} trait Position extends Core (null:Core, null:Dir) match { case (_, NEXT) if true => false // no matter whether NEXT test succeed, cannot throw column because of guard case (at2:Position,dir) => true } } trait Outer { // bug #1282 compile-only object No trait File { (null:AnyRef) match { case No => false } } } object cast2 { // #1281 class Sync { def unapplySeq(scrut: Int): Option[Seq[Int]] = { println("unapplySeq: "+scrut) if (scrut == 42) Some(List(1, 2)) else None } } class Buffer { val Get = new Sync val jp: PartialFunction[Any, Any] = { case Get(xs) => println(xs) // the argDummy should have proper arg.tpe (Int in this case) } } println((new Buffer).jp.isDefinedAt(40)) println((new Buffer).jp.isDefinedAt(42)) } object ClassDefInGuard extends TestCase("classdef in guard") { // compile-and-load only val z:PartialFunction[Any,Any] = { case x::xs if xs.forall { y => y.hashCode() > 0 } => 1 } override def runTest { val s:PartialFunction[Any,Any] = { case List(4::xs) => 1 case List(5::xs) => 1 case _ if false => case List(3::xs) if List(3:Any).forall { g => g.hashCode() > 0 } => 1 } z.isDefinedAt(42) s.isDefinedAt(42) // just load the thing, to see if the classes are found (None:Option[Boolean] @unchecked) match { case x if x.map(x => x).isEmpty => } } } // bug#457 object Bug457 extends TestCase("Bug457") { def method1() = { val x = "Hello, world"; val y = 100; y match { case _: Int if (x match { case t => t.trim().length() > 0 }) => false; case _ => true; }} def method2(): scala.Boolean = { val x: String = "Hello, world"; val y: scala.Int = 100; { var temp1: scala.Int = y var result: scala.Boolean = false if ( { var result1: scala.Boolean = true; if (y == 100) result1 else throw new MatchError("crazybox.scala, line 11") } && (y > 90) ) result else throw new MatchError("crazybox.scala, line 9") }} override def runTest { method1(); method2(); } } // bug#508 object Bug508 extends TestCase("aladdin #508") { case class Operator(x: Int); val EQ = new Operator(2); def analyze(x: Pair[Operator, Int]) = x match { case Pair(EQ, 0) => "0" case Pair(EQ, 1) => "1" case Pair(EQ, 2) => "2" } override def runTest { val x = Pair(EQ, 0); assertEquals("0", analyze(x)); // should print "0" val y = Pair(EQ, 1); assertEquals("1", analyze(y)); // should print "1" val z = Pair(EQ, 2); assertEquals("2", analyze(z)); // should print "2" } } // bug#789 object Bug789 extends TestCase("aladdin #789") { // don't do this at home trait Impl trait SizeImpl extends Impl { def size = 42 } trait ColorImpl extends Impl { def color = "red" } type Both = SizeImpl with ColorImpl def info(x:Impl) = x match { case x:Both => "size "+x.size+" color "+x.color // you wish case x:SizeImpl => "!size "+x.size case x:ColorImpl => "color "+x.color case _ => "n.a." } def info2(x:Impl) = x match { case x:SizeImpl with ColorImpl => "size "+x.size+" color "+x.color // you wish case x:SizeImpl => "!size "+x.size case x:ColorImpl => "color "+x.color case _ => "n.a." } override def runTest { // make up some class that has a size class MyNode extends SizeImpl assertEquals("!size 42", info(new MyNode)) assertEquals("!size 42", info2(new MyNode)) } } // bug#995 object Bug995 extends TestCase("aladdin #995") { def foo(v: Any): String = v match { case s: Seq[_] => "Seq" // see hack in object Seq.unapplySeq //case a: AnyRef if runtime.ScalaRunTime.isArray(a) => "Array" case _ => v.toString } override def runTest { assertEquals("Seq", foo(Array(0))) } } // bug#1093 (contribution #460) object Bug1093 extends TestCase("aladdin #1093") { override def runTest {assertTrue(Some(3) match { case Some(1 | 2) => false case Some(3) => true })} } // bug#1094 (contribution #461) object Bug1094 extends TestCase("aladdin #1094") { def foo(ps: String*) = "Foo" case class X(p: String, ps: String*) def bar = X("a", "b") match { case X(p, ps @ _*) => foo(ps : _*) } override def runTest { assertEquals("Foo", bar) } } // #2 class Outer_2 { case class Foo(x: Int, y: Int) { override def equals(other: Any) = other match { case Outer_2.this.Foo(`x`, `y`) => true case _ => false } } } object Ticket2 extends TestCase("#2") { override def runTest { val o1 = new Outer_2; val o2 = new Outer_2; val x: Any = o1.Foo(1, 2); val y: Any = o2.Foo(1, 2) assertFalse("equals test returns true (but should not)", x equals y) assertTrue("match enters wrong case", x match { case o2.Foo(x, y) => false case o1.Foo(x, y) => true case _ => false }) }} // #11 class MyException1 extends Exception // Commenting out the following line and uncommenting the second line // will cause the test to succeed. trait SpecialException extends MyException1 // trait SpecialException class MyException2 extends MyException1 with SpecialException object Ticket11 extends TestCase("#11") { override def runTest { Array[Throwable](new Exception("abc"), new MyException1, new MyException2).foreach { e => try { throw e } catch { case e : SpecialException => { assume(e.isInstanceOf[SpecialException]) } case e => { assume(e.isInstanceOf[Throwable]) } } } } } // #37 object Ticket37 extends TestCase("#37") { def foo() {} val (a,b) = { foo(); (2,3) } override def runTest { assertEquals(this.a, 2) } } // #44 trait _X { case class _Foo(); object _Bar { def unapply(foo: _Foo):Boolean = true; } } object Y extends _X { val foo = _Foo() foo match { case _Bar() => case _ => assert(false) } } object Ticket44 extends TestCase("#44") { override def runTest { assert(Y.toString ne null) /*instantiate Y*/ } } object Ticket211 extends TestCase("#211") { override def runTest { (Some(123):Option[Int]) match { case (x:Option[a]) if false => {}; case (y:Option[b]) => {}; } } } sealed abstract class Tree case class Node(l: Tree, v: Int, r: Tree) extends Tree case object EmptyTree extends Tree object Ticket335 extends TestCase("#335") { // compile-only override def runTest { (EmptyTree: Tree @unchecked) match { case Node(_,v,_) if (v == 0) => 0 case EmptyTree => 2 } } } // this test case checks nothing more than whether // case N for object N is translated to a check scrutinee.equals(N) // (or the other way round)... for a long time, we got away with // scrutinee eq N, but those golden days are, apparently, over. object Ticket346 extends TestCase("#346") { class L(val content: List[Int]) { def isEmpty = content.isEmpty def head = content.head def tail = content.tail override def equals(that: Any): Boolean = { val result = that.isInstanceOf[N.type] println("L("+content+").equals("+that+") returning "+result) result } } object N extends L(Nil) { override def equals(that: Any): Boolean = { val result = (that.isInstanceOf[L] && that.asInstanceOf[L].isEmpty) //println("N.equals("+that+") returning "+result) result } } object C { def unapply(xs: L): Option[(Int, L)] = { if (xs.isEmpty) { println("xs is empty"); None } else Some((xs.head, new L(xs.tail))) } } def empty(xs : L) : Boolean = xs match { case N => true case _ => false } def singleton(xs : L) : Boolean = xs match { case C(_, N) => true case _ => false } override def runTest() { // We no longer assert these are true, because they are no longer true! // See ticket #1503 for details, but it is unsound to let L(Nil) be // seen as an N by the LHS of a match. // assertTrue(empty( new L(Nil) )) // assertTrue(singleton( new L(List(1)) )) } } // end Ticket346 object Ticket495bis { // compile-only def signum(x: Int): Int = x match { case 0 => 0 case _ if x < 0 => -1 case _ if x > 0 => 1 } def pair_m(x: Int, y: Int) = (x,y) match { case (_, 0) => 0 case (-1, _) => -1 case (_, _) => 1 } } object Ticket522 { // compile-only class Term[X] object App { // i'm hidden case class InternalApply[Y,Z](fun:Y=>Z, arg:Y) extends Term[Z] def apply[Y,Z](fun:Y=>Z, arg:Y): Term[Z] = new InternalApply[Y,Z](fun,arg) def unapply[X](arg: Term[X]): Option[(Y=>Z,Y)] forSome {type Y; type Z} = arg match { case i:InternalApply[y,z] => Some(i.fun, i.arg) case _ => None } } App({x: Int => x}, 5) match { case App(arg, a) => } } // end Ticket522 object Ticket710 { // compile-only def method { sealed case class Parent() case object Child extends Parent() val x: Parent = Child x match { case Child => () } } } }