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In the enclosed test case, which defines:
trait PA[H1] {
type Apply[A <: H1] = Any
}
The type selection `PA[Int]#Apply` was being eta expanded
to `[A <: H1]Any`.
After this commit, it is expanded to `[A' <: Int]Any`. This avoids
a spurious kind conformance error in the test.
Refactors duplication between these methods. I've left the old code with assertions that the old and new results are equivalent, I'll remove these crutches in the subsequent commit.
Part II, remove the old implementation.
Owner
Author
|
Fails during boostrapping: |
Owner
Author
|
The problem minimizes to: |
retronym
added a commit
that referenced
this pull request
Mar 30, 2016
Rather than in implementation of the abstract method in the
expanded anonymous class.
This leads to more more efficient use of the constant pool,
code shapes more amenable to SAM inlining, and is compatible
with the old behaviour of `-Xexperimental` in Scala 2.11,
which ScalaJS now relies upon.
Manual test:
```
scala> :paste -raw
// Entering paste mode (ctrl-D to finish)
package p1; trait T { val x = 0; def apply(): Any }; class DelambdafyInline { def t: T = (() => "") }
// Exiting paste mode, now interpreting.
scala> :javap -c p1.DelambdafyInline
Compiled from "<pastie>"
public class p1.DelambdafyInline {
public p1.T t();
Code:
0: new #10 // class p1/DelambdafyInline$$anonfun$t$1
3: dup
4: aload_0
5: invokespecial #16 // Method p1/DelambdafyInline$$anonfun$t$1."<init>":(Lp1/DelambdafyInline;)V
8: areturn
public final java.lang.Object p1$DelambdafyInline$$$anonfun$1();
Code:
0: ldc #22 // String
2: areturn
public p1.DelambdafyInline();
Code:
0: aload_0
1: invokespecial #25 // Method java/lang/Object."<init>":()V
4: return
}
scala> :javap -c p1.DelambdafyInline$$anonfun$t$1
Compiled from "<pastie>"
public final class p1.DelambdafyInline$$anonfun$t$1 implements p1.T,scala.Serializable {
public static final long serialVersionUID;
public int x();
Code:
0: aload_0
1: getfield #25 // Field x:I
4: ireturn
public void p1$T$_setter_$x_$eq(int);
Code:
0: aload_0
1: iload_1
2: putfield #25 // Field x:I
5: return
public final java.lang.Object apply();
Code:
0: aload_0
1: getfield #34 // Field $outer:Lp1/DelambdafyInline;
4: invokevirtual #37 // Method p1/DelambdafyInline.p1$DelambdafyInline$$$anonfun$1:()Ljava/lang/Object;
7: areturn
public p1.DelambdafyInline$$anonfun$t$1(p1.DelambdafyInline);
Code:
0: aload_1
1: ifnonnull 6
4: aconst_null
5: athrow
6: aload_0
7: aload_1
8: putfield #34 // Field $outer:Lp1/DelambdafyInline;
11: aload_0
12: invokespecial #42 // Method java/lang/Object."<init>":()V
15: aload_0
16: invokespecial #45 // Method p1/T.$init$:()V
19: return
}
scala> :quit
```
retronym
added a commit
that referenced
this pull request
Mar 30, 2016
Rather than in implementation of the abstract method in the
expanded anonymous class.
This leads to more more efficient use of the constant pool,
code shapes more amenable to SAM inlining, and is compatible
with the old behaviour of `-Xexperimental` in Scala 2.11,
which ScalaJS now relies upon.
Manual test:
```
scala> :paste -raw
// Entering paste mode (ctrl-D to finish)
package p1; trait T { val x = 0; def apply(): Any }; class DelambdafyInline { def t: T = (() => "") }
// Exiting paste mode, now interpreting.
scala> :javap -c p1.DelambdafyInline
Compiled from "<pastie>"
public class p1.DelambdafyInline {
public p1.T t();
Code:
0: new #10 // class p1/DelambdafyInline$$anonfun$t$1
3: dup
4: aload_0
5: invokespecial #16 // Method p1/DelambdafyInline$$anonfun$t$1."<init>":(Lp1/DelambdafyInline;)V
8: areturn
public final java.lang.Object p1$DelambdafyInline$$$anonfun$1();
Code:
0: ldc #22 // String
2: areturn
public p1.DelambdafyInline();
Code:
0: aload_0
1: invokespecial #25 // Method java/lang/Object."<init>":()V
4: return
}
scala> :javap -c p1.DelambdafyInline$$anonfun$t$1
Compiled from "<pastie>"
public final class p1.DelambdafyInline$$anonfun$t$1 implements p1.T,scala.Serializable {
public static final long serialVersionUID;
public int x();
Code:
0: aload_0
1: getfield #25 // Field x:I
4: ireturn
public void p1$T$_setter_$x_$eq(int);
Code:
0: aload_0
1: iload_1
2: putfield #25 // Field x:I
5: return
public final java.lang.Object apply();
Code:
0: aload_0
1: getfield #34 // Field $outer:Lp1/DelambdafyInline;
4: invokevirtual #37 // Method p1/DelambdafyInline.p1$DelambdafyInline$$$anonfun$1:()Ljava/lang/Object;
7: areturn
public p1.DelambdafyInline$$anonfun$t$1(p1.DelambdafyInline);
Code:
0: aload_1
1: ifnonnull 6
4: aconst_null
5: athrow
6: aload_0
7: aload_1
8: putfield #34 // Field $outer:Lp1/DelambdafyInline;
11: aload_0
12: invokespecial #42 // Method java/lang/Object."<init>":()V
15: aload_0
16: invokespecial #45 // Method p1/T.$init$:()V
19: return
}
scala> :quit
```
retronym
added a commit
that referenced
this pull request
Apr 14, 2016
Rather than in implementation of the abstract method in the
expanded anonymous class.
This leads to more more efficient use of the constant pool,
code shapes more amenable to SAM inlining, and is compatible
with the old behaviour of `-Xexperimental` in Scala 2.11,
which ScalaJS now relies upon.
Manual test:
```
scala> :paste -raw
// Entering paste mode (ctrl-D to finish)
package p1; trait T { val x = 0; def apply(): Any }; class DelambdafyInline { def t: T = (() => "") }
// Exiting paste mode, now interpreting.
scala> :javap -c p1.DelambdafyInline
Compiled from "<pastie>"
public class p1.DelambdafyInline {
public p1.T t();
Code:
0: new #10 // class p1/DelambdafyInline$$anonfun$t$1
3: dup
4: aload_0
5: invokespecial #16 // Method p1/DelambdafyInline$$anonfun$t$1."<init>":(Lp1/DelambdafyInline;)V
8: areturn
public final java.lang.Object p1$DelambdafyInline$$$anonfun$1();
Code:
0: ldc #22 // String
2: areturn
public p1.DelambdafyInline();
Code:
0: aload_0
1: invokespecial #25 // Method java/lang/Object."<init>":()V
4: return
}
scala> :javap -c p1.DelambdafyInline$$anonfun$t$1
Compiled from "<pastie>"
public final class p1.DelambdafyInline$$anonfun$t$1 implements p1.T,scala.Serializable {
public static final long serialVersionUID;
public int x();
Code:
0: aload_0
1: getfield #25 // Field x:I
4: ireturn
public void p1$T$_setter_$x_$eq(int);
Code:
0: aload_0
1: iload_1
2: putfield #25 // Field x:I
5: return
public final java.lang.Object apply();
Code:
0: aload_0
1: getfield #34 // Field $outer:Lp1/DelambdafyInline;
4: invokevirtual #37 // Method p1/DelambdafyInline.p1$DelambdafyInline$$$anonfun$1:()Ljava/lang/Object;
7: areturn
public p1.DelambdafyInline$$anonfun$t$1(p1.DelambdafyInline);
Code:
0: aload_1
1: ifnonnull 6
4: aconst_null
5: athrow
6: aload_0
7: aload_1
8: putfield #34 // Field $outer:Lp1/DelambdafyInline;
11: aload_0
12: invokespecial #42 // Method java/lang/Object."<init>":()V
15: aload_0
16: invokespecial #45 // Method p1/T.$init$:()V
19: return
}
scala> :quit
```
Adriaan is to `git blame` for `reflection-mem-typecheck.scala`.
retronym
added a commit
that referenced
this pull request
Aug 19, 2016
- Avoid boxing the {Object, Int, ...}Ref itself by storing it in
a val, not a var
- Avoid box/unbox of primitive lazy expressions due which are added
to "adapt" it to the erased type of the fictional syncronized
method, by using a `return`. We have to add a dummy throw after
the synchronized block, but this is elimnated by the always-on
DCE in the code generator.
```
⚡ qscalac -Xprint:mixin $(f "class C { def foo = { lazy val x = 42; x }}"); javap -private -c -cp . C
[[syntax trees at end of mixin]] // a.scala
package <empty> {
class C extends Object {
def foo(): Int = {
lazy <artifact> val x$lzy: scala.runtime.LazyInt = new scala.runtime.LazyInt();
C.this.x$1(x$lzy)
};
final private[this] def x$1(x$lzy$1: scala.runtime.LazyInt): Int = {
x$lzy$1.synchronized({
if (x$lzy$1.initialized().unary_!())
{
x$lzy$1.initialized_=(true);
x$lzy$1.value_=(42)
};
return x$lzy$1.value()
});
throw null
};
def <init>(): C = {
C.super.<init>();
()
}
}
}
Compiled from "a.scala"
public class C {
public int foo();
Code:
0: new #12 // class scala/runtime/LazyInt
3: dup
4: invokespecial #16 // Method scala/runtime/LazyInt."<init>":()V
7: astore_1
8: aload_1
9: invokestatic #20 // Method x$1:(Lscala/runtime/LazyInt;)I
12: ireturn
private static final int x$1(scala.runtime.LazyInt);
Code:
0: aload_0
1: dup
2: astore_1
3: monitorenter
4: aload_0
5: invokevirtual #31 // Method scala/runtime/LazyInt.initialized:()Z
8: ifne 22
11: aload_0
12: iconst_1
13: invokevirtual #35 // Method scala/runtime/LazyInt.initialized_$eq:(Z)V
16: aload_0
17: bipush 42
19: invokevirtual #39 // Method scala/runtime/LazyInt.value_$eq:(I)V
22: aload_0
23: invokevirtual #42 // Method scala/runtime/LazyInt.value:()I
26: istore_2
27: goto 33
30: aload_1
31: monitorexit
32: athrow
33: aload_1
34: monitorexit
35: iload_2
36: ireturn
Exception table:
from to target type
4 30 30 Class java/lang/Throwable
public C();
Code:
0: aload_0
1: invokespecial #43 // Method java/lang/Object."<init>":()V
4: return
}
```
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