Leaks checking is not thread safe and e.g. lldb creates multiple SILModules in multiple threads, which would result in false alarms.
Ideally we would make it thread safe, e.g. by putting the instruction counters in the SILModule, but this would be a big effort and it's not worth doing it. Leaks checking in the frontend's and SILOpt's SILModule (not including SILModules created for module interface building) is a good enough test.
rdar://84688015
Previously, the flag was a LangOptioins. That didn't make much sense because
this isn't really a user-facing behavior. More importantly, as a member
of that type type it couldn't be accessed when setting up pass
pipelines. Here, the flag is moved to SILOptions.
- If any of the `-g<kind>` flag is given -- except `-gnone`, debug
info will be printed into every generated SIL files.
- The `-gsil` is deprecated in favor of `-sil-based-debuginfo`. The
SILDebugInfoGenerator Pass now generates intermediate SIL file with
name "<output file>.sil_dbg_<n>.sil". Other functionalities of that
Pass remain the same.
Introduce flags `-enable-actor-data-race-checks` and
`-disable-actor-data-race-checks` to enable/disable emission of code
that checks that we are on the correct actor. Default to `false` for
now but make it easy to enable in the future.
-enable-copy-propagation: enables whatever form of copy propagation
the current pipeline runs (mandatory-copy-propagation at -Onone,
regular copy-propation at -O).
-disable-copy-propagation: similarly disables any form of copy
propagation in the current pipelien.
There is some sort of ASAN issue that this exposes on Linux, so I am going to do
this on Darwin and then debug the Linux issue using ASAN over the weekend/next
week.
-enable-subst-sil-function-types-for-function-values
-enable-large-loadable-types
These defaulted to on, and there were no corresponding flags for
turning them off, so the flags had no effect.
Adds a new flag "-experimental-skip-all-function-bodies" that skips
typechecking and SIL generation for all function bodies (where
possible).
`didSet` functions are still typechecked and have SIL generated as their
body is checked for the `oldValue` parameter, but are not serialized.
Parsing will generally be skipped as well, but this isn't necessarily
the case since other flags (eg. "-verify-syntax-tree") may force delayed
parsing off.
Specifically the option: -sil-stop-optzns-before-lowering-ownership. This makes
it possible to write end-to-end tests on OSSA passes. Before one would have to
pattern match after ownership was lowered, losing the ability to do finegrained
FileCheck pattern matching on ossa itself.
Its use in deserialization can be replaced with a
more general check for whether we're deserializing
into the same module. Its use in the SILVerifier
is subsumed by the check for whether the SILModule
is canonical, which it isn't during merge-modules.
This allows the usage of the whole remark infrastructure developed in
LLVM, which includes a new binary format, metadata in object files, etc.
This gets rid of the YAMLTraits-based remark serialization and does the
plumbing for hooking to LLVM's main remark streamer.
For more about the idea behind LLVM's main remark streamer, see the
docs/Remarks.rst changes in https://reviews.llvm.org/D73676.
The flags are now:
* -save-optimization-record: enable remarks, defaults to YAML
* -save-optimization-record=<format>: enable remarks, use <format> for
serialization
* -save-optimization-record-passes <regex>: only serialize passes that
match <regex>.
The YAMLTraits in swift had a different `flow` setting for the debug
location, resulting in some test changes.
This is a first version of cross module optimization (CMO).
The basic idea for CMO is to use the existing library evolution compiler features, but in an automated way. A new SIL module pass "annotates" functions and types with @inlinable and @usableFromInline. This results in functions being serialized into the swiftmodule file and thus available for optimizations in client modules.
The annotation is done with a worklist-algorithm, starting from public functions and continuing with entities which are used from already selected functions. A heuristic performs a preselection on which functions to consider - currently just generic functions are selected.
The serializer then writes annotated functions (including function bodies) into the swiftmodule file of the compiled module. Client modules are able to de-serialize such functions from their imported modules and use them for optimiations, like generic specialization.
The optimization is gated by a new compiler option -cross-module-optimization (also available in the swift driver).
By default this option is off. Without turning the option on, this change is (almost) a NFC.
rdar://problem/22591518
This flag, currently staged in as `-experimental-skip-non-inlinable-function-bodies`, will cause the typechecker to skip typechecking bodies of functions that will not be serialized in the resulting `.swiftmodule`. This patch also includes a SIL verifier that ensures that we don’t accidentally include a body that we should have skipped.
There is still some work left to make sure the emitted .swiftmodule is exactly the same as what’s emitted without the flag, which is what’s causing the benchmark noise above. I’ll be committing follow-up patches to address those, but for now I’m going to land the implementation behind a flag.
@_dynamicReplacement(for: selfRec(x: acc:))
func selfRec_r(x: Int, acc: Int) -> Int {
if x <= 0 {
return acc
}
// Normally, this will call selfRec(x: acc:)'s implementation.
// With the option, this will call to selfRec_r(x: acc:).
return selfRec(x: x - 1, acc: acc + 1)
}
rdar://51229650
This option no longer works but was still in the option file and help
message.
Add a temporary pass-specific option instead for debugging until this
pass has been sufficiently tested yet.
I am going to use this to ensure some end-to-end tests that do not inline from
the stdlib will work after flipping the switch and stripping ownership after
serialization.
I also removed the -verify-sil-ownership flag in favor of a disable flag
-disable-sil-ownership-verifier. I used this on only two tests that still need
work to get them to pass with ownership, but whose problems are well understood,
small corner cases. I am going to fix them in follow on commits. I detail them
below:
1. SILOptimizer/definite_init_inout_super_init.swift. This is a test case where
DI is supposed to error. The only problem is that we crash before we error since
the code emitting by SILGen to trigger this error does not pass ownership
invariants. I have spoken with JoeG about this and he suggested that I fix this
earlier in the compiler. Since we do not run the ownership verifier without
asserts enabled, this should not affect compiler users. Given that it has
triggered DI errors previously I think it is safe to disable ownership here.
2. PrintAsObjC/extensions.swift. In this case, the signature generated by type
lowering for one of the thunks here uses an unsafe +0 return value instead of
doing an autorelease return. The ownership checker rightly flags this leak. This
is going to require either an AST level change or a change to TypeLowering. I
think it is safe to turn this off since it is such a corner case that it was
found by a test that has nothing to do with it.
rdar://43398898
I have been meaning to do this change for a minute, but kept on putting it off.
This describes what is actually happening and is a better name for the option.
Once the flag is flipped, ownership stripping will no longer be done in the
diagnostics pipeline. Instead what will happen is that:
* Onone: At -Onone, we run the entire diagnostics pipeline with ownership
enabled and do not strip ownership until after we serialize in the Onone
"optimization" pass pipeline plan.
* -O: At -O, to temporarily work around serialization issues with transparent
functions, we strip ownership from all but transparent functions at the
beginning of the performance pipeline, serialize, and then strip ownership from
transparent functions. For this to work, I needed to make sure that the
performance pipeline passes that do not support ownership SIL, just skip such
functions. So the transparent functions will arrive (mostly) untouched in
serialized SIL and the rest of the pipeline will optimize non-transparent
functions as they should.
The key thing about the -O change is that it /should/ be performance neutral
since after we serialize we re-run the entire pipeline so we can optimize
semantic functions that we only can inline after we serialize.
We've been running doxygen with the autobrief option for a couple of
years now. This makes the \brief markers into our comments
redundant. Since they are a visual distraction and we don't want to
encourage more \brief markers in new code either, this patch removes
them all.
Patch produced by
for i in $(git grep -l '\\brief'); do perl -pi -e 's/\\brief //g' $i & done
I made this change by removing the SILOption and then doing a compile, fix loop. I
purposely did not move around the code to make the refactoring really easy to
see.
