Disable the sanitizers and code coverage when building a swift
invocation for the purpose of collecting diagnostics.
This should speed up diagnostic generation and reduce exposure to
compiler bugs.
rdar://40955900
When adding to the AST consumer queue, keep track of the snapshots
expected and only run such AST consumers when a new enough AST is built.
Progress is ensured because we always run the AST consumer that
triggered the build.
This prevents cases where enqueuing a consumer during an AST build has
different behaviour than enqueuing it after the AST has finished.
rdar://40340631
Introduce some metaprogramming of accessors and generally prepare
for storing less-structured accessor lists.
NFC except for a change to the serialization format.
Validation of the input side of FunctionTypeRepr was previously being done in Sema because of expression folding. If we instead push the invariant that the input TypeRepr should always be a TupleTypeRepr into the AST a number of nice cleanups fall out:
- The SIL Parser no longer accepts Swift 2-style type declarations
- Parse is more cleanly able to reject invalid FunctionTypeReprs
- Clients of the AST can be assured the input type is always a TupleType so we can flush Swift 2 hacks
Calling '@objc optional func' requires '?' or '!' after its name. When
completing method calls for them, 'key.sourcetext' should have '?'
whereas 'key.name' shouldn't.
Note that we deliberately do not use optional type name for
'key.typename'. This is consistent with optional chain '?.<propertyName>'
behavior.
rdar://problem/37904574
Refactors the diagnostic code to be run whenever a compilation
notification has been started and there are diagnostics available in the
consumer. This allows us to capture diagnostics on all exit paths, and
specifically when code-completion fails because of invalid arguments.
Note: the editor.open code path still doesn't report invalid arguments
because it fails before even trying to create an AST.
... instead of overriding it after the driver is done. This improves
the fidelity of anything that looks at the resource directory inside the
driver or frontend argument parsing. In particular, it fixes an issue
where sourcekit requests would fail if they included the -sanitize=
option because the driver would fail to find the runtime libraries.
Even though this should be *more correct* for all uses, in the
interests of understanding all possible immediate effects of this
change, I manually audited all the code that looks at the resource
directory in between when it is parsed as and argument and when
createCompilerInvocation returns. I claim that the only changes are:
1. The sanitizer library check that we wanted to change
2. The DWARFDebugFlags, which are for IRGen so don't affect SourceKit
3. The Migrator data paths, which also don't affect SourceKit
For now, I put the -resource-dir option at the end of the arguments so
that it overrides any existing option, which mimics how it behaved
before. We might want to move it to the beginning so that we honour a
user-provided resource directory, but that should be a separate change.
rdar://40147839
This can't arise from a clean build, but it can happen if you have
products lingering in a search path and then either rebuild one of
the modules in the cycle, or change the search paths.
The way this is implemented is for each module to track whether its
imports have all been resolved. If, when loading a module, one of its
dependencies hasn't resolved all of its imports yet, then we know
there's a cycle.
This doesn't produce the best diagnostics, but it's hard to get into
this state in the first place, so that's probably okay.
https://bugs.swift.org/browse/SR-7483
... instead of an array of compiler arguments. This is good enough
for seeing what's going on, and it saves significant time for long
argument strings, because it doesn't create and destroy so many
xpc strings, and more of the string copying that happens is on a large
contiguous string instead of many small strings.
rdar://39538847
This code was an experiment in how to collect information after a crash,
that did not end up being used. It's unclear how much it has bitrotted
at this point, since it has no tests and was not designed with automated
testing in mind. Parts of it interfere with some changes I want to make
to the underlying tracing mechanism, so I am finally removing it. This
also lets us remove the buffer copying in the parts of tracing used by
the compile notifications, improving performance.
For rdar://39538847
Stop filtering out diagnostics with invalid locations in the editor
diagnostic consumer, and instead capture them separately so that we can
include them in did-compile notifications.
rdar://39225000
The only interesting change here is that I stopped filtering out
non-note diagnostics from outside the "inputs". This matches better how
code-completion gets inputs, and shouldn't hurt anything else since only
the tracing code will look at diagnostics that aren't in specific
buffers anyway.
rdar://38438512
When enabled, send a notification before/after every "compilation",
which for now means `performSema`. This piggy-backs and modifies some
existing code that we had for "tracing" operations in sourcekitd that
unfortunately was untested. At least now some of the basic parts are
tested via the new notifications.
Part of rdar://38438512
This is how it was used in all but one place anyway, and makes it easier
to understand. It also aligns better with some further refactoring I
want to do...
