| Commit message (Collapse) | Author | Age | Files | Lines |
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The continuations plugin and library will still ship with 2.11 (albeit unsupported).
They now reside at https://github.com/scala/scala-continuations.
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SI-7622 Clean Up Phase Assembly
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Let optimiser components and continuations plugin opt-out
when required flags are not set.
Wasted time on a whitespace error in check file, so let
--debug dump the processed check file and its diff.
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The refactoring in 7e6c723df means that we can't build the CPS
plugin if we skip locker in development mode.
This commit backs out the refactoring and leaves a TODO comment
to perform it at a later date.
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1. blocks now match single term-level expressions to account for
automatic block elimination. E.g.
val q"{ ..$stats }" = q"foo"
will match into stats = List(q"foo"). This is useful to uniformly
deal with blocks on term level.
2. blocks in quasiquotes collapse into single expressions
3. Applied and TypeApplied now have constructors too which helps
to unify matching and extraction in quasiquote reifier
4. TypeApplied now matches AppliedTypeTree too
5. Add Syntactic prefix to Applied and TypeApplied
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in various places. This includes actors, compiler (mostly some new
macro parts) continuations, partest, scaladoc, scalap.
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Without constant inlining, the compiler would not even bootstrap
because it depends on constant inlining hiding initialization issues
which would cause a NPE otherwise.
In this case, global is null at runtime, but no NPE is happening
despite accessing members of global (see SubComponent), because
constant inlining has copied the values of those members to the
call-sites and eliminated the dereference of global.
This commit fixes the initialization order.
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We have lots of core classes for which we need not go through
the symbol to get the type:
ObjectClass.tpe -> ObjectTpe
AnyClass.tpe -> AnyTpe
I updated everything to use the concise/direct version,
and eliminated a bunch of noise where places were calling
typeConstructor, erasedTypeRef, and other different-seeming methods
only to always wind up with the same type they would have received
from sym.tpe. There's only one Object type, before or after erasure,
with or without type arguments.
Calls to typeConstructor were especially damaging because (see
previous commit) it had a tendency to cache a different type than
the type one would find via other means. The two types would
compare =:=, but possibly not == and definitely not eq. (I still
don't understand what == is expected to do with types.)
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It becomes context mode "ReturnExpr".
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Attempting to reduce the frequency of low-level operations
with modes. I mean stuff like this:
if ((mode & (EXPRmode | LHSmode)) == EXPRmode)
THey don't make those ten line boolean guards any easier
to understand. Hopefully this will lead us toward eliminating
some of the modes entirely, or at least better isolating
their logic rather than having it interspersed at arbitrary
points throughout the typer.
Modes are in their entirety a leaked implementation detail.
Typing a tree requires a tree and optionally an expected type.
It shouldn't require a bucket of state bits. In subsequent
commits I will start eliminating them.
This commit also breaks adapt down into more digestible chunks.
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unmoored doc comment" warning when building distribution for
scala itself.
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Conflicts:
src/compiler/scala/tools/nsc/typechecker/Contexts.scala
src/compiler/scala/tools/nsc/typechecker/Namers.scala
src/compiler/scala/tools/nsc/typechecker/Typers.scala
src/continuations/plugin/scala/tools/selectivecps/CPSAnnotationChecker.scala
src/reflect/scala/reflect/internal/AnnotationCheckers.scala
src/reflect/scala/reflect/internal/Symbols.scala
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AnnotationCheckers are insufficient because they live outside the
compiler cake and it's not possible to pass a Typer into an annotation
checker.
Analyzer plugins hook into important places of the compiler:
- when the namer assigns a type to a symbol (plus a special hook for
accessors)
- before typing a tree, to modify the expected type
- after typing a tree, to modify the type assigned to the tree
Analyzer plugins and annotation checker can be activated only during
selected phases of the compiler.
Refactored the CPS plugin to use an analyzer plugin (since
adaptToAnnotations is now part of analyzer plugins, no longer
annotation checkers).
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Calling normalize is very aggressive and is usually the wrong
thing. It is one of the leading contributors to non-determinism
in compiler outcomes (often of the form "I gave a debugging or
logging compiler option and it started/stopped working") and
should be used only in very specific circumstances.
Almost without exception, dealiasWiden is what you want; not
widen, not normalize. If possible I will remove normalize from
Type entirely, making it private to those areas of the compiler
which actually require it.
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This is an obvious place to apply value class goodness and
collect some safety/sanity in typing modes. It does show off
a challenge in introducing value classes without disruption:
there's no way to deprecate the old signature of 'typed',
'adapt', etc. because they erase the same.
class Bippy(val x: Int) extends AnyVal
class A {
@deprecated("Use a bippy") def f(x: Int): Int = 5
def f(x: Bippy): Int = x.x
}
./a.scala:5: error: double definition:
method f:(x: Bippy)Int and
method f:(x: Int)Int at line 4
have same type after erasure: (x: Int)Int
An Int => Mode implicit handles most uses, but nothing can
be done to avoid breaking anything which e.g. extends Typer
and overrides typed.
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PluginComponent contributes description to -Xshow-phases. (Fixes SI-6446)
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In Global, SubComponent is called a phase descriptor, but it doesn't
actually have a description. (Phase itself does.) This fix adds
a description to PluginComponent so that plugins can describe what
they do in -Xshow-phases.
Elliptical descriptions
Exploded archives
Plugged-in partest
Roundup at the Little h!
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Deprecated tpe_= on Tree, which is redundant with and
less useful than setType. To provide a small layer of
insulation from the direct nulling out of mutable fields
used to signal the typer, added def clearType() which is
merely tree.tpe = null but is shamefaced about the null
and var-settings parts like a respectable method should be.
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These implicits were crutches going back to a much Stringier
time. Of course "with great type safety comes great verbosity"
and no doubt this could be cleaned up significantly further.
At least the underpinnings are consistent now - the only
implicits involving name should be String -> TypeName and
String -> TermName.
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And simplify the name implicits.
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* merge-2.10.0-wip:
Use Typed rather than .setType
Wider use and a new variant of typedPos.
SI-6575 Plug inference leak of AbstractPartialFun
Remove compiler phases that don't influence scaladoc generation.
Disabled generation of _1, _2, etc. methods.
SI-6526 Additional test case.
Fix SI-6552, regression with self types.
avoid single-art assert where harmful in duration-tck
Fix for SI-6537, inaccurate unchecked warning.
Crash on missing accessor (internal bug in the lazy vals implementation) instead of trying to recover from the bug
Incorporated changes suggested in code review
Added one more test for SI-6358
Closes SI-6358. Move accessor generation for lazy vals to typers.
SI-6526 Tail call elimination should descend deeper.
Remove unneeded calls to substring()
Changes Tree and Type members from vals to defs.
Scaladoc knows the package structure of the libraries, so don't include them in external documentation setting.
Fixes SI-6170: issue with dragging scaladoc splitter over central iframe
Added a Swing ColorChooser wrapper
Added a Swing PopupMenu wrapper
Conflicts:
src/compiler/scala/reflect/reify/phases/Reshape.scala
src/compiler/scala/tools/nsc/typechecker/Duplicators.scala
src/continuations/plugin/scala/tools/selectivecps/SelectiveCPSTransform.scala
src/reflect/scala/reflect/internal/Types.scala
test/files/neg/unchecked-knowable.check
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# By Jason Zaugg (5) and others
# Via Josh Suereth (5) and others
* origin/2.10.0-wip:
Use Typed rather than .setType
Wider use and a new variant of typedPos.
SI-6575 Plug inference leak of AbstractPartialFun
Disabled generation of _1, _2, etc. methods.
SI-6526 Additional test case.
Fix SI-6552, regression with self types.
avoid single-art assert where harmful in duration-tck
Fix for SI-6537, inaccurate unchecked warning.
SI-6526 Tail call elimination should descend deeper.
Changes Tree and Type members from vals to defs.
Fixes SI-6170: issue with dragging scaladoc splitter over central iframe
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It's safe to replace `localTyper.typed(atPos(pos)(tree))` with
`localTyper.typedPos(pos)(tree)` given that we're all in the
same cake and we'll get to the same `atPos`.
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Until now lazy accessors were handled somehow special because their symbol was created in typers but the corresponding tree was only added in Refchecks. This irregularity caused serious problems for value classes. Also it now looks just better when lazy value is treated in a similar way as other fields.
I needed to adapt reifier so that it handles the new implementation correctly. Previously it had to recreate lazy val only by removing defdef and renaming. Now we basically need to recreate lazy val from scratch.
There is one minor change to cps plugin but that is still fine because lazy vals were never really part of the transformation.
Some range positions needed to be fixed manually. We could do it at the creation time but that would require a lot more "if (symbol.isLazy)" conditions for MethodSyntheis and Symbol/Tree creation and would just unnecessary complicate api. If someone has a better idea, please speak up. Range positions changes were necessary because previously accessors were created at refchecks and they weren't checked by validator (even though they were wrong).
This commit removes lazy val implementation restriction introduced for 2.10.0.
(cherry-picked from 981424b)
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Until now lazy accessors were handled somehow special because their symbol was created in typers but the corresponding tree was only added in Refchecks. This irregularity caused serious problems for value classes. Also it now looks just better when lazy value is treated in a similar way as other fields.
I needed to adapt reifier so that it handles the new implementation correctly. Previously it had to recreate lazy val only by removing defdef and renaming. Now we basically need to recreate lazy val from scratch.
There is one minor change to cps plugin but that is still fine because lazy vals were never really part of the transformation.
Some range positions needed to be fixed manually. We could do it at the creation time but that would require a lot more "if (symbol.isLazy)" conditions for MethodSyntheis and Symbol/Tree creation and would just unnecessary complicate api. If someone has a better idea, please speak up. Range positions changes were necessary because previously accessors were created at refchecks and they weren't checked by validator (even though they were wrong).
This commit removes lazy val implementation restriction introduced for 2.10.0.
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These are the call sites which formerly could be seen to
call .tpe on a symbol with unapplied type parameters. Now
each such call site makes an explicit choice about what is
intended for the result type.
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Add `adaptTypeOfReturn` hook to `AnnotationCheckers`.
Move adaptation of types of return expressions from `addAnnotations`
to `typedReturn` via `adaptTypeOfReturn` hook.
This resolves an inconsistency where previously types could have
a plus marker without additional CPS annotations. This also adds
additional test cases.
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This reverts commit 8d020fab9758ced93eb18fa51c906b95ec104aed.
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Disabled warnings that no longer apply because of tail returns.
Add several test cases.
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Other fixes:
- remove CPSUtils.allCPSMethods
- add clarifying comment about adding a plus marker to a return expression
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Enable return expressions in CPS code if they are in tail position. Note that tail returns are
only removed in methods that do not call `shift` or `reset` (otherwise, an error is reported).
Addresses the issues pointed out in a previous pull request:
https://github.com/scala/scala/pull/720
- Addresses all issues mentioned here:
https://github.com/scala/scala/pull/720#issuecomment-6429705
- Move transformation methods to SelectiveANFTransform.scala:
https://github.com/scala/scala/pull/720#commitcomment-1477497
- Do not keep a list of tail returns.
Tests:
- continuations-neg/t5314-missing-result-type.scala
- continuations-neg/t5314-type-error.scala
- continuations-neg/t5314-npe.scala
- continuations-neg/t5314-return-reset.scala
- continuations-run/t5314.scala
- continuations-run/t5314-2.scala
- continuations-run/t5314-3.scala
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SI-5930 SI-5897 reduce redundant warnings in matches, fix flags usage
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encapsulate creating synthetic case labels while we're at it
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This pretty much takes us down to deprecation and inliner warnings.
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After a discussion on a reflection meeting on Jul 17
we concluded that we should split staticModule into
staticModule and staticPackage to remove the ambiguity
between packageless objects and packageless packages
(more in the comments in the body of the commit).
The motivation is verbosely outlined in the comments,
but the bottom line is that Scala allows packages and
packageless objects to have the same name within the same program.
Therefore at times we need to disambiguate, hence the introduction
of the staticPackage method.
As of such staticModule no longer works for packages.
In the same fashion staticPackage doesn't work for modules.
This is done to ensure robustness of reification.
I would like to do the same for getModule in Definitions,
but we have to maintain backward compatibility. That's why I retained
the old behavior, but replaced getModule invocations with getPackage
where appropriate to be in line with staticModule and staticPackage.
Another important thing that follows from the discussion is that
both staticClass and staticModule prefer parent packages over parent objects
in cases of ambiguity. Say, if we have the following snippet of code:
object B { class C } next to package B { class C }
then staticClass("B.C") will never even consider a C inside the object B.
This is how scalac operates, so we decided to be consistent here.
Finally reification logic got changed to distinguish between
staticModule and staticPackage, and to allow for the fact that
staticClass and staticModule prefer parent packages to parent objects.
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are in tail position)
Reverts commit 0ada0706746c9c603bf5bc8a0e6780e5783297cf.
Reverts commit 51c92f02229098d0b402a65a72267f7a17984022.
Reverts commit cdfbe8e39fbbec00c969cd74f117ae410b98b40b.
Reverts commit 796024c7429a03e974a7d8e1dc5c80b84f82467d.
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Don't crash if cpsParam is not on the classpath.
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When checking if a piece of code needs the continuations plugin, the cpsParam classes may not be on the class path. Assume it does not need it in that case.
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Adds a stack of context trees to AnnotationChecker(s). Here, it is used to
enforce that adaptAnnotations will only adapt the annotation of a return
expression if the expected type is a CPS type.
The remove-tail-return transform is reasonably general, covering cases such as
try-catch-finally. Moreover, an error is thrown if, in a CPS method, a return
is encountered which is not in a tail position such that it will be removed
subsequently.
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A must read: "SIP: Scala Reflection":
https://docs.google.com/document/d/1Z1VhhNPplbUpaZPIYdc0_EUv5RiGQ2X4oqp0i-vz1qw/edit
Highlights:
* Architecture has undergone a dramatic rehash.
* Universes and mirrors are now separate entities:
universes host reflection artifacts (trees, symbols, types, etc),
mirrors abstract loading of those artifacts (e.g. JavaMirror loads stuff
using a classloader and annotation unpickler, while GlobalMirror uses
internal compiler classreader to achieve the same goal).
* No static reflection mirror is imposed on the user.
One is free to choose between lightweight mirrors and full-blown
classloader-based mirror (read below).
* Public reflection API is split into scala.reflect.base and scala.reflect.api.
The former represents a minimalistic snapshot that is exactly enough to
build reified trees and types. To build, but not to analyze - everything smart
(for example, getting a type signature) is implemented in scala.reflect.api.
* Both reflection domains have their own universe: scala.reflect.basis and
scala.reflect.runtime.universe. The former is super lightweight and doesn't
involve any classloaders, while the latter represents a stripped down compiler.
* Classloader problems from 2.10.0-M3 are solved.
* Exprs and type tags are now bound to a mirror upon creation.
* However there is an easy way to migrate exprs and type tags between mirrors
and even between universes.
* This means that no classloader is imposed on the user of type tags and exprs.
If one doesn't like a classloader that's there (associated with tag's mirror),
one can create a custom mirror and migrate the tag or the expr to it.
* There is a shortcut that works in most cases. Requesting a type tag from
a full-blown universe will create that tag in a mirror that corresponds to
the callsite classloader aka `getClass.getClassLoader`. This imposes no
obligations on the programmer, since Type construction is lazy, so one
can always migrate a tag into a different mirror.
Migration notes for 2.10.0-M3 users:
* Incantations in Predef are gone, some of them have moved to scala.reflect.
* Everything path-dependent requires implicit prefix (for example, to refer
to a type tag, you need to explicitly specify the universe it belongs to,
e.g. reflect.basis.TypeTag or reflect.runtime.universe.TypeTag).
* ArrayTags have been removed, ConcreteTypeTag have been renamed to TypeTags,
TypeTags have been renamed to AbsTypeTags. Look for the reasoning in the
nearby children of this commit. Why not in this commit? Scroll this message
to the very bottom to find out the reason.
* Some of the functions have been renamed or moved around.
The rule of thumb is to look for anything non-trivial in scala.reflect.api.
Some of tree build utils have been moved to Universe.build.
* staticModule and staticClass have been moved from universes to mirrors
* ClassTag.erasure => ClassTag.runtimeClass
* For the sake of purity, type tags no longer have erasures.
Use multiple context bounds (e.g. def foo[T: ru.TypeTag : ClassTag](...) = ...)
if you're interested in having both erasures and types for type parameters.
* reify now rolls back macro applications.
* Runtime evaluation is now explicit, requires import scala.tools.reflect.Eval
and scala-compiler.jar on the classpath.
* Macro context now has separate universe and mirror fields.
* Most of the useful stuff is declared in c.universe,
so be sure to change your "import c.universe._" to "import c.mirror._".
* Due to the changes in expressions and type tags, their regular factories
are now really difficult to use. We acknowledge that macro users need to
frequently create exprs and tags, so we added old-style factories to context.
Bottom line: almost always prepend Expr(...)/TypeTag(...) with "c.".
* Expr.eval has been renamed to Expr.splice.
* Expr.value no longer splices (it can still be used to express cross-stage
path-dependent types as specified in SIP-16).
* c.reifyTree now has a mirror parameter that lets one customize the initial
mirror the resulting Expr will be bound to. If you provide EmptyTree, then
the reifier will automatically pick a reasonable mirror (callsite classloader
mirror for a full-blown universe and rootMirror for a basis universe).
Bottom line: this parameter should be EmptyTree in 99% of cases.
* c.reifyErasure => c.reifyRuntimeClass.
Known issues:
* API is really raw, need your feedback.
* All reflection artifacts are now represented by abstract types.
This means that pattern matching against them will emit unchecked warnings.
Adriaan is working on a patch that will fix that.
WARNING, FELLOW CODE EXPLORER! You have entered a turbulence zone.
For this commit and its nearby parents and children
tests are not guaranteed to work. Things get back to normal only after
the "repairs the tests after the refactoring spree" commit.
Why so weird? These twentish changesets were once parts of a humongous blob,
which spanned 1200 files and 15 kLOC. I did my best to split up the blob,
so that the individual parts of the code compile and make sense in isolation.
However doing the same for tests would be too much work.
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And for a bunch of other tickets where we unleash a stack
trace rather than printing a sensible error message. But
SI-3718 is a continuations plugin crash, now a reasonable
if somewhat vague error.
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sort field accessors, necessary after typers -- apparently...
don't throw TypeError, use issueTypeError
don't run patmat phase when -Xoldpatmat
only virtualize matches when -Xexperimental
recycle cps type of match for re-typechecking:
when one of the internal cps-type-state annotations is present, strip all CPS annotations
a cps-type-state-annotated type makes no sense as an expected type (matchX.tpe is used as pt in translateMatch)
don't synth FunctionN impls during typer, only do this for PartialFunction
updated check now function synth for match is deferred until uncurry
patmat-transform try/catch with match in cps
cleanup in selective anf
remove TODO: can there be cases that are not CaseDefs -- nope
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detect partialfunction in cpsannotationchecker
emit apply/isDefinedAt if PF has @cps targs (applyOrElse can't be typed)
further hacky improvements to selective anf
better try/catch support in selective cps using freshly minted anonfun match
make virtpatmat resilient to scaladoc (after uncurry, don't translate matches
TODO: factor out translation all together so presentation compiler/scaladoc can skip it)
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typers&patmatvirtualizer have ad-hoc support for dropping annotations
in a way that makes the CPS plugins happy... this is not ideal,
but unless virtpatmat runs after the plugin phases, I don't see how to solve it
running virtpatmat after the CPS plugin would mean the pattern matching evaluation
cannot be captured by CPS, so it's not even desirable to move it to a later phase
- typedIf must lub annotated types
- drop selector.tpe's annotations
- drop annots in matchEnd's argument type
- deal with annots in casts synth by in virtpatmat
(drop them from type arg to asInstanceof, recover them using type ascription)
- workaround skolemize existential dropping annots
CPS is the main reason why typedMatchAnonFun is not used anymore,
and PartialFunction synthesis is moved back to uncurry (which is quite painful due to labeldefs being so broken)
we can't synth partialfunction during typer since T @cps[U] does not conform to Any,
so we can't pass it as a type arg to PartialFunction, so we can't type a cps-transformed PF
after the CPS plugin, T @cps[U] becomes ControlContext[...], which is a type we can pass
to PartialFunction
virtpatmat is now also run until right before uncurry
(so, can't use isPastTyper, although it means more or less the same thing -- we don't run after uncurry)
the main functional improvements are in the selective ANF transform
its treatment of labeldefs was broken: for example,
LabelDef L1; LabelDef L2 --> DefDef L1; L1(); DefDef L2; L2()
but this does not take into account L1 may jump over L2 to another label
since methods always return (or fail), and the ANF transform generates ValDefs
to store the result of those method calls, both L1 and L2 would always be executed
(so you would run a match with N cases N times, with each partial run starting at a later case)
also fixed a couple of weird bugs in selective anf that caused matches to be duplicated
(with the duplicate being nested in the original)
since label defs are turned into method defs, and later defs
will be nested in the flatMap calls on the controlcontext
yielded by earlier statements, we reverse the list of method
definitions, so that earlier (in the control flow sense) methods
are visible in later ones
selective CPS now generates a catch that's directly digestible by backend
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This reverts commit da35106f81a5c24e78ff51c95e10052ad4f23b18.
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