From f4267ccd96a9143c910c66a5b0436aaa64b7c9dc Mon Sep 17 00:00:00 2001 From: Paul Phillips Date: Wed, 18 Sep 2013 00:09:46 -0700 Subject: Cull extraneous whitespace. One last flurry with the broom before I leave you slobs to code in your own filth. Eliminated all the trailing whitespace I could manage, with special prejudice reserved for the test cases which depended on the preservation of trailing whitespace. Was reminded I cannot figure out how to eliminate the trailing space on the "scala> " prompt in repl transcripts. At least reduced the number of such empty prompts by trimming transcript code on the way in. Routed ConsoleReporter's "printMessage" through a trailing whitespace stripping method which might help futureproof against the future of whitespace diseases. Deleted the up-to-40 lines of trailing whitespace found in various library files. It seems like only yesterday we performed whitespace surgery on the whole repo. Clearly it doesn't stick very well. I suggest it would work better to enforce a few requirements on the way in. --- test/files/neg/structural.scala | 28 ++++++++++++++-------------- 1 file changed, 14 insertions(+), 14 deletions(-) (limited to 'test/files/neg/structural.scala') diff --git a/test/files/neg/structural.scala b/test/files/neg/structural.scala index bfca37b22a..d783399317 100644 --- a/test/files/neg/structural.scala +++ b/test/files/neg/structural.scala @@ -1,54 +1,54 @@ object Test extends App { - + def f(x: { type D; def m: D }): Null = null - + class Tata - + abstract class Toto[A <: Object] { type B <: Object - + def f1[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: A): Object; val x: A }) = x.m[Tata](x.x) //fail def f2[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: B): Object; val x: B }) = x.m[Tata](x.x) //fail def f3[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: C): Object; val x: C }) = x.m[Tata](x.x) //fail def f4[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: D): Object; val x: D }) = x.m[Tata](x.x) //fail def f5[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: E): Object; val x: Tata }) = x.m[Tata](x.x) //suceed - + def f6[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: Object): A }) = x.m[Tata](null) //suceed def f7[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: Object): B }) = x.m[Tata](null) //suceed def f8[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: Object): C }) = x.m[Tata](null) //suceed def f9[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: Object): D }) = x.m[Tata](null) //fail def f0[C <: Object](x: Object{ type D <: Object; def m[E >: Null <: Object](x: Object): E }) = x.m[Tata](null) //suceed - + } - + val tata = new Tata val toto = new Toto[Tata] { type B = Tata } - + //toto.f1[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Tata): Object = null; val x = tata }) //toto.f2[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Tata): Object = null; val x = tata }) //toto.f3[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Tata): Object = null; val x = tata }) //toto.f4[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: D): Object = null; val x = tata }) toto.f5[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: E): Object = null; val x: Test.Tata = tata }) - + toto.f6[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Object): Tata = null }) toto.f7[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Object): Tata = null }) toto.f8[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Object): Tata = null }) //toto.f9[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Object): D = null }) toto.f0[Tata](new Object{ type D = Tata; def m[E >: Null <: Object](x: Object): E = null }) - + /* Bug #1246 */ type Summable[T] = { def +(v : T) : T } def sum[T <: Summable[T]](xs : List[T]) = xs.reduceLeft[T](_ + _) - + /* Bug #1004 & #967 */ type S1 = { def f(p: this.type): Unit } val s1 = new { def f(p: this.type): Unit = () } - + type S2 = { type T; def f(p: T): Unit } //val s2: S2 = new { type T = A; def f(p: T): Unit = () } - + def s3[U >: Null <: Object](p: { def f(p: U): Unit; def u: U }) = () - + } -- cgit v1.2.3