This will be needed for split-llvm code generation.
If multiple -o options are specified and only a single output file is needed
(currently always), the last one wins. This is NFC.
Swift SVN r25884
As per discussion on the mailing list we don't want different behavior for
programmer errors at Ounchecked than at O for errors that are not diagnosable.
Neither O nor Ounchecked will now emit LLVM's NoAlias attribute for inout
parameters.
rdar://20041458
Swift SVN r25784
We have to guarantee memory safety in the presence of the user violating the
inout assumption. Claiming NoAlias for parameters that might alias is not
memory safe because LLVM will optimize based on that assumption.
Unfortunately, this means that llvm can't optimize arrays as aggressively. For
example, the load of array->buffer won't get hoisted out of loops (this is the
Sim2DArray regression below).
-O numbers (before/after):
CaptureProp 0.888365
Chars 1.09143
ImageProc 0.917197
InsertionSort 0.895204
JSONHelperDeserialize 0.909717
NSDictionaryCastToSwift 0.923466
Sim2DArray 0.76296
SwiftStructuresBubbleSort 0.897483
Continue emitting noalias for inout when compiling Ounchecked.
rdar://20041458
Swift SVN r25770
Move helper function EmbedBitcode() from frontend_main.cpp to IRGen.cpp so we
can call it from performIRGeneration when the input file is Swift.
Add testing case to make sure that -embed-bitcode-marker option adds an
empty LLVM bitcode section.
rdar://19048891
Swift SVN r25577
With -embed-bitcode, save a copy of the llvm IR as data in the __LLVM,__bitcode
section and save the command-line options in the __LLVM,__cmdline section.
rdar://19048891
Swift SVN r25560
Separate InputFileKind from SourceFileKind, FrontendOptions will now use
InputFileKind, while Module will use SourceFileKind.
This is in preparation for adding an input file kind for LLVM IR.
rdar://19048891
Swift SVN r25555
Since a function pointer doesn't carry any context, we can only form a C function pointer from a static reference to a global function or a context-free local function or closure. (Or maybe a static function applied to its metatype, but that's not handled here yet.) As a placeholder for a to-be-bikeshedded surface syntax, let the existing @cc(cdecl) attribute appear in source text when the -enable-c-function-pointers frontend flag is passed.
Swift SVN r25308
This adds the -profile-coverage-mapping option to swift, and teaches
SILGenProfiling to generate mappings from source ranges to counters.
Swift SVN r25266
This is mainly for the debugger's use, to set up CompilerInvocations that
match how a particular app was compiled in certain important ways. Today
that's the target (which is also in the binary), the SDK path (which in
the long run should probably be an SDK name), and any random -Xcc options
we need to pass (which we should probably attempt to minimize).
Because there's only one target and SDK per context, and because -Xcc
options can easily conflict, this is only intended to be used once per
CompilerInvocation.
Note that search paths are not covered by this; they are already being
added at the time the module is loaded. See r24545.
Completes rdar://problem/17670778.
Swift SVN r25227
This adds the -profile-generate flag, which enables LLVM's
instrumentation based profiling. It implements the instrumentation
for basic control flow, such as if statements, loops, and closures.
Swift SVN r25155
We've had a rash of bugs due to inconsistencies between how IRGen and the runtime think types are laid out. Add a '-verify-type-layout' mode to the frontend that causes IRGen to emit a bunch of code that compares its static assumptions against what the runtime value witness does.
Swift SVN r24918
This implicitly adds the named module as an import of every source file
in the module being compiled. This is not intended to be used generally,
but will be useful for playgrounds.
rdar://problem/19605934
Swift SVN r24905
If a subclass overrides methods with variance in the optionality of non-class-type members, emit a thunk to handle wrapping more optional parameters or results and force-unwrapping any IUO parameters made non-optional in the derived. For this to be useful, we need IRGen to finally pay attention to SILVTables, but this is a step on the way to fixing rdar://problem/19321484.
Swift SVN r24705
There's also a testing option, -serialize-debugging-options, to force this
extra info to be serialized even for library targets. In the long run we'll
probably write out this information for all targets, but strip it out of
the "public module" when a framework is built. (That way it ends up in the
debug info's copy of the module.)
Incidentally, this commit includes the ability to add search paths to the
Clang importer on the fly, which is most of rdar://problem/16347147.
Unfortunately there's no centralized way to add search paths to both Clang
/and/ Swift at the moment.
Part of rdar://problem/17670778
Swift SVN r24545
This has been long in coming. We always had it in IRGenOpts (in string form).
We had the version number in LangOpts for availability purposes. We had to
pass IRGenOpts to the ClangImporter to actually create the right target.
Some of our semantic checks tested the current OS by looking at the "os"
target configuration! And we're about to need to serialize the target for
debugging purposes.
Swift SVN r24468
This flag enables one to specify a json file that expresses a specific
pipeline in the following format:
[
[
"$PASS_MANAGER_ID",
"run_n_times"|"run_to_fixed_point",
$NUM_ITERATIONS,
"$PASS1", "$PASS2", ...
],
...
]
This will make it easier to experiment with different pass pipelines by
allowing:
1. Automatic generation of pass pipelines without needing to recompile
the compiler itself.
2. Simple scripting of pass pipelines via the json meta language.
3. Enabling the easy expression and reproducability of a specific
pipeline ordering via radar.
In the next commit I will provide a python library for the generation of these
json files with a few types of pipeline generators already created.
Swift SVN r24055
...and then honor them.
While here, make -l a little more flexible (see interpret_with_options test).
rdar://problem/17830826, which unblocks the LLDB feature for the same.
Swift SVN r24033
This is a hidden frontend-only option intended for debugging purposes,
mainly for identifying where in a file the type checker is spending most
of its time. Use with "sort -g" to get the top problem functions.
Swift SVN r23789
This does not have any tests since I am going to start going through SILGen
tests and updating them for guaranteed self as the appropriate tests.
*NOTE* There is more work to be done in terms of thunks, but the basic
functionality is done.
rdar://15729033
Swift SVN r23653
This currently handles owned -> guaranteed argument conversion and dead argument
elimination.
RecursiveOwnedParameter||90.0%
ClassArrayGetter|||||||||23.3%
Life|||||||||||||||||||||16.7%
Prims||||||||||||||||||||11.2%
StringWalk|||||||||||||||5.7%
The next step is to implement SROA and address -> value optimizations.
rdar://16917049
Swift SVN r23023
This tracks top-level qualified and unqualified lookups in the primary
source file, meaning we see all top-level names used in the file. This
is part of the intra-module dependency tracking work that can enable
incremental rebuilds.
This doesn't quite cover all of a file's dependencies. In particular, it
misses cases involving extensions defined in terms of typealiases, and
it doesn't yet track operator lookups. The whole scheme is also very
dependent on being used to track file-level dependencies; if C is a subclass
of B and B is a subclass of A, C doesn't appear to depend on A. It only
works because changing A will mark B as dirty.
Part of rdar://problem/15353101
Swift SVN r22925
The name -gnone was chosen by analogy with -O and -Onone. Like -O/-Onone,
the last option on the command line wins.
The immediate use case for this is because we want to be able to run the
tests with -g injected into every command line, but some tests will fail
when debug info is included. Those particular tests can be explicitly marked
-gnone.
rdar://problem/18636307
Swift SVN r22777
Whenever we add a requirement, we now know
(1) Why we added the requirement, e.g., whether it was explicitly written, inferred from a signature, or introduced by an outer scope.
(2) Where in the source code that requirement originated.
Also add a debugging flag for dumping the archetype builder information, so we can write tests against it.
This is effectively NFC, but it's infrastructure to help a number of requirements-related tasks.
Swift SVN r22638
Previously we hardcoded a few important default CPUs, ABIs, and features into
Swift's driver, duplicating work in Clang. Now that we're using Clang's
driver to create the Clang "sub-compiler", we can delegate this work to Clang.
As part of this, I've dropped the options for -target-abi (which was a
frontend-only option anyway) and -target-feature (which was a hidden driver
option and is a frontend-only option in /Clang/). We can revisit this later
if it becomes interesting. I left in -target-cpu, which is now mapped
directly to Clang's -mcpu=.
Swift SVN r22449
This patch adds the ability (-enable-experimental-unavailable-as-optional) to
treat potentially unavailable declarations as if they had optional types. For
the moment, this is only implemented for global variables.
The high-level approach is to (1) record the potential unavailability of a
declaration reference in the overload choice during constraint generation; (2)
treat the declaration as if it had an optional type during overload resolution
(this is similar to how optional protocol members are treated); and (3) add an
implicit conversion (UnavailableToOptionalExpr) during constraint application
to represent the run-time availability check and optional injection.
This patch does not implement SILGen for UnavailableToOptionalExpr.
Swift SVN r22245
