The test case compiles a project without and with this
setting and checks that a warning is and isn't emitted
respectively.
It's a multi-project build; this bug didn't seem to turn
up in a single-project build.
This way we have a little bit more clear separation
between compiler phase logic and the core logic responsible for
processing each compilation unit and extracting an api for it.
As added benefit, we have a little bit less of mutable state
(e.g. sourceFile doesn't need to be a var anymore).
The API extraction logic contains some internal caches that are
required for correctness. It wasn't very clear if they have to
be maintained during entire phase run or just during single compilation
unit processing. It looks like they have to be maintained during
single compilation unit processing and refactored code both
documents that contracts and implements it in the API phase.
Move collection (a class `Compat`) of compatibility hacks into separate
file. This aids understanding of the code as both Analyzer and API make
use of that class and keeping it `Analyzer.scala` file suggested that
it's used only by Analyzer.
Incremental compiler didn't have any explicit logic to handle
cancelled compilation so it would go into inconsistent state.
Specifically, what would happen is that it would treat cancelled
compilation as a compilation that finished normally and try to
produce a new Analysis object out of partial information collected
in AnalysisCallback. The most obvious outcome would be that the
new Analysis would contain latest hashes for source files. The
next time incremental compiler was asked to recompile the same files
that it didn't recompile due to cancelled compilation it would think
they were already successfully compiled and would do nothing.
We fix that problem by following the same logic that handles compilation
errors, cleans up partial results (produced class files) and makes sure
that no Analysis is created out of broken state.
We do that by introducing a new exception `CompileCancelled`
and throwing it at the same spot as an exception signalizing compilation
errors is being thrown. We also modify `IncrementalCompile` to
catch that exception and gracefully return as there was no compilation
invoked.
NOTE: In case there were compilation errors reported _before_
compilation cancellations was requested we'll still report them
using an old mechanism so partial errors are not lost in case
of cancelled compilation.
Add `apiDiffContextSize` option to `IncOptions` which allows one
to control the size (in lines) of a context used when printing
diffs for textual API representation.
The default value for `apiDiffContextSize` is 5 which seems to be
enough for most situations. This is verified by many debugging
sessions I performed when using api diffing functionality.
Implement displaying API changes by using textual representation
of an API (ShowAPI) and good, old textual diff algorithm. We are
using java-diff-utils library that is distributed under Apache 2.0
license.
Notice that we have only soft dependency on java-diff-utils. It means
that we'll try to lookup java-diff-utils class through reflection
and fail gracefully if none is found on the classpath. This way
sbt is not getting any new dependency. If user needs to debug
api diffs then it's matter of starting sbt with
`-Dsbt.extraClasspath=path/to/diffutils.jar` option passed
to sbt launcher.
1. All parents of public/exported classes/modules/packages are tracked as
'publicInherited' dependencies. These are dealiased and normalized so
that the dependency is on the actual underlying template and not the
source enclosing the alias.
2. All CompilationUnit.depends dependencies are direct dependencies. These
include inherited dependencies.
3. When invalidating changed internal sources,
a. Invalidate all inherited dependencies, transitively and include the
originally modified sources,
b. Invalidate all direct dependencies of these sources,
c. Exclude any sources that were compiled in the previous step unless they
depend on a newly invalidated source.
4. Invalidate changed external sources in the same way as #3 but remove the
external sources from the final set.
Only public inheritance dependencies need to be considered because a template
that is not accessible outside its source file and that inherits from another
file can be handled as a normal, direct dependency. Because the template
isn't public, changes to its API will not propagate outside of the source
file.
Several existing tests cover the correctness, especially:
1. transitive-a covers direct, transitive dependencies with inferred return
types
2. transitive-b covers inherited, transitive dependencies with inferred return
types
There are two new tests, one that tests that public inherited dependencies are
tracked and one that verifies the basic invalidation progression.
More tests are needed to verify the improvements that this algorithm brings:
1. Inheritance-related dependencies are processed in one step to avoid the
otherwise unavoidable several steps.
2. Only immediate direct dependencies are ever processed, which should in many
typical cases avoid large invalidation sets.
In summary this commit:
* drops type normalization in api phase but keeps dealiasing
* fixes#736 and marks corresponding test as passing
I discussed type normalization with @adriaanm and according to him
sbt shouldn't call that method. The purpose of this method to
convert to a form that subtyping algorithm expects. Sbt doesn't need
to call it and it's fairly expensive in some cases.
Dropping type normalization also fixes#726 by not running into
stale cache in Scala compiler problem described in SI-7361.
The infrastructure for resident compilation still exists,
but the actual scalac-side code that was backported is removed.
Future work on using a resident scalac will use that invalidation
code directly from scalac anyway.
Ideally, we wouldn't need to construct the classpath ourselves and instead
reuse the classpath construction code from a compiler (scalac or javac).
However, we need to ensure that we only call the compiler when needed.
Because we need to construct the classpath even when compilation might
not happen, we have to duplicate classpath construction.
This reverts commit 9dd5f076ea which was a revert
itself so we are back to the state before those two reverts.
The problem that caused revert that happened in 9dd5f076ea
has been fixed in 88061dd262.
In `ClassToAPI` both `Private` and `Protected` vals had forward
reference to `Unqualified` so they would get `null` as a result.
Fixed that by rearranging the order of vals being declared.
This fixes a problem described in 9dd5f076ea.
Showing inherited members of a structure was disabled so we would not
run into cycles. To best of my knowledge, we can run into cycles only
if inherited member is `ClassLike`. We filter out those and let
anything else to be shown.
As described in sbt/sbt#676, arguments to `mergeMap` and `merge` methods
were swapped causing wrong structures being created for Java compiled
class files.
This commit fixessbt/sbt#676 and makes pending test to pass now.
That's foundation for API dumping and tests based on API representation contents.
Specific list of changes introduced by this commit:
* `AnalysisCallback` class takes `IncOptions` as argument so it
can determine if API should be minimized in `api` callback.
* Introduce `Incremental.apiDebug` method that determines if api debugging
is enabled. There are two ways to enable api debugging: through system
property and through incremental compiler options. The system property
method will be soon deprecated. We introduce it to make it easier to enable
API debugging until tools (like zinc and ide) catch up with making incremental
compiler configurable.
NOTE: The `apiDebug` method has been introduced in Incremental for two reasons:
1. It's analogous to `incDebug` method that's already there.
2. In other branch I need `apiDebug` to be defined in Incremental.
Once we deprecate and remove enabling debugging options through system properties
the code will be cleaned up.
Introduce a way to configure incremental compiler itself instead
of underlying Java/Scala compiler.
Specific list of changes in this commit:
* Add a method to `xsbti.compile.Setup` that returns incremental
compiler options as a `java.util.Map<String, String>`. We considered
statis interface instead of a `Map` but based on mailing
list feedback we decided that it's not the best way to go because
static interface is hard to evolve it by adding new options.
* Since passing `java.util.Map<String, String>` not very convenient
we convert it immediately to `sbt.inc.IncOptions`
* Add options argument to various methods/classes that implement
incremental compilation so in the end options reach
`sbt.inc.IncOptions` object
* Add `incOptions` task that allows users to configure incremental
compiler options in their build files. Default implementation of
that tasks returns just `IncOptions.DEFAULT`
* Both system property `xsbt.inc.debug` and `IncOptions.relationsDebug`
trigger debugging of relations now. In the near future, we should
deprecate use of `xsbt.inc.debug`.
Some methods take a lot of arguments and I'm about to add one more
which will make them too long for easy reading.
This change is changes code formatting only. That's done on purpose
to make it easier to review other changes.
Jason Zaugg
Grzegorz Kossakowski
Mark Harrah
xuwei-k