The `-warn-swift3-objc-inference` option turns out to be extremely
useful in vetting code for unintended `@objc` entry points, so make it
available directly on `swiftc`.
But, bury the enable/disable flags under `-frontend` (they were
effectively there anyway because the driver wasn't propagating them).
Introduce flags `-enable-swift3-objc-inference` and
`-disable-swift3-objc-inference` to enable/disable the Swift 3 `@objc`
inference rules. Under `-swift-version 3`, default to the former;
under `-swift-version 4`, default to the latter. For testing purposes,
one can provide either flag in eiher language mode.
Add an -enforce-exclusivity=... flag to control enforcement of the law of
exclusivity. The flag takes one of four options:
"checked": Perform both static (compile-time) and dynamic (run-time) checks.
"unchecked": Perform only static enforcement. This is analogous to -Ounchecked.
"dynamic-only": Perform only dynamic checks. This is for staging purposes.
"none": Perform no checks at all. This is also for staging purposes.
The default, for now, is "none".
The intent is that in the fullness of time, "checked" and "unchecked" will
be the only legal options with "checked" the default. That is, static
enforcement will always be enabled and dynamic enforcement will be enabled
by default.
Add a -verify-debug-info option that invokes dwarfdump --verify as the last step after running dsymutil. dwarfdump is invoked with same options clang 802.0.35 uses to invoke it:
dwarfdump --verify --debug-info --eh-frame --quiet
A warning is produced if -verify-debug-info is set and no debug option is also set.
dwarfdump is failing to validate the debug info in the test verify-debug-info.swift. The failure is:
error: .debug_line[0x0000007d].row[0].file = 1 is not a valid index
https://bugs.swift.org/browse/SR-2396
This is purely designed to cheaply compute dependency graphs between
modules, and thus only lists the top-level names (i.e. not submodules)
and doesn't do any form of semantic analysis.
This has the effect of propagating the search path to the clang importer as '-iframework'.
It doesn't affect whether a swift module is treated as system or not, this can be done as follow-up enhancement.
...in order to generate the correct diagnostics. It would be nice(TM)
if the suppression or warning-to-error mechanism was post-hoc, but it
isn't today, and if we ever get that we can just stop using these
flags.
rdar://problem/25560819
This is a hidden option. It should be used like: -assume-single-threaded
When this function is provided, the compiler assumes that the code will be executed in the single threaded mode. It then performs certain optimizations that can benefit from it, e.g. it marks as non-atomic all reference counting instructions in the user code being compiled.
- Add ImageInspectionStatic.cpp to lookup protocol conformance
and metadata sections in static binaries
- For Linux, build libswiftImageInspectionShared.a and
libswiftImageInspectionStatic.a for linking with libswiftCore.a.
This allows static binaries to be built without linking to
libdl. libswiftImageInspectionShared (ImageInspectionELF.cpp) is
automatically compiled into libswiftCore.so
- Adds -static-executable option to swiftc to use along with
-emit-executable that uses linker arguments in
static-executable-args.lnk. This also requires a libicu
to be compiled using the --libicu which has configure options
that dont require libdl for accessing ICU datafiles
- Static binaries only work on Linux at this time
This flag switches the "effective language version" of the compiler,
at least to any version supported (as of this change: "3" or "3.0").
At the moment nothing uses it except the language version build
configuration statements (#if swift(...)) and various other places
that report, encode, or otherwise check version numbers.
In the future, it's intended as scaffolding for backwards compatibility.
Fixes SR-2582
The scope map models all of the name lookup scopes within a source
file. It can be queried by source location to find the innermost scope
that contains that source location. Then, one can follow the parent
pointers in the scope to enumerate the enclosing scopes.
The scope map itself is lazily constructed, only creating scope map
nodes when required implicitly (e.g, when searching for a particular
innermost scope) or forced for debugging purposes.
using a lazily-constructed tree that can be searched by source
location. A search within a particular source location will
Currently the Swift driver stops invoking frontend commands as soon as one of
them reports an error. Add a flag to control this behavior, so that users can
choose whether to see all the errors at once or bail out early.
Background
----------
Now that Swift AST type support in LLDB has matured, we can stop emitting DWARF
type information by default to reduce compile time and ibject file size.
A future commit will change -g to emit only AST type references.
The full set of debug options will be
-gnone
-gline-tables-only
-g // AST types (= everything that LLDB needs)
-gdwarf-types // AST types + DWARF types (for legacy debuggers)
"Sanitizer Coverage" with a new flag ``-sanitize-coverage=``. This
flag is analogous to Clang's ``-fsanitize-coverage=``.
This instrumentation currently requires ASan or TSan to be enabled
because the module pass created by ``createSanitizerCoverageModulePass()``
inserts calls into functions found in compiler-rt's "sanitizer_common".
"sanitizer_common" is not shipped as an individual library but instead
exists in several of the sanitizer runtime libraries so we have to
link with one of them to avoid linking errors.
The rationale between adding this feature is to allow experimentation
with libFuzzer which currently relies on "Sanitizer Coverage"
instrumentation.
This commit adds the flags -static-stdlib and -no-static-stdlib to
create programs statically linked (or not) with the standard library.
Not is the default, which is also the current behavior.
These flags are currently placebos on non-Darwin platforms.
ASan allows to catch and diagnose memory corruption errors, which are possible
when using unsafe pointers.
This patch introduces a new driver/frontend option -sanitize=address to enable
ASan. When option is passed in, the ASan llvm passes will be turned on and
all functions will gain SanitizeAddress llvm attribute.
* Replace 'Fast' with 'Unchecked' everywhere.
* Update the help text to specify DisableReplacement rather than
Replacement and to document Unchecked.
* Simplify tests slightly and add a tests for Unchecked.
...because "build configuration" is already the name of an Xcode feature.
- '#if' et al are "conditional compilation directives".
- The condition is a "conditional compilation expression", or just
"condition" if it's obvious.
- The predicates are "platform conditions" (including 'swift(>=...)')
- The options set with -D are "custom conditional compilation flags".
(Thanks, Kevin!)
I left "IfConfigDecl" as is, as well as SourceKit's various "BuildConfig"
settings because some of them are part of the SourceKit request format.
We can change these in follow-up commits, or not.
rdar://problem/19812930
Exposes the global warning suppression and treatment as errors
functionality to the Swift driver. Introduces the flags
"-suppress-warnings" and "-warnings-as-errors". Test case include.
Generate frontend commands with -filelist in them. This isn't actually
implemented yet, but we can start testing at this point.
Part 1 of https://bugs.swift.org/browse/SR-280.
This reverts commit 58cfa27eb5.
We require at least clang-3.6 for C++14 build support but
Ubuntu 14.04's clang-3.6 package does not lay down the symlink
/usr/bin/clang++ -> /usr/bin/clang++-3.6. We will require a
clang++ alternatives entry or symlink when building for these
systems (see README.md).
In most Linux distributions, installing a clang package other than the
default unversioned one will not install a symlink from /usr/bin/clang++
-> /usr/bin/clang++-N-M, which can break builds with a not so great
diagnostic (a separate problem).
"ld" and "clang++" are hard-coded in the link job actions, so provide a
frontend flag, -linker-path, as a customization point for these.
rdar://problem/23537079
inside a swift ast section in an object file so it can be passed to the
linker. The driver automatically wraps merged swiftmodules iff the target
is ELF.
rdar://problem/22407666
Swift SVN r31641
The "Tool" abstraction wasn't buying us enough to deserve the added
complexity. Now a ToolChain turns Actions into Jobs, and every helper
tool is searched for relative to Swift first. Much simpler.
Swift SVN r31563
Dependents of modified files are no longer rebuilt by default, only if it turns
out that file's interface has changed. There is a flag
-driver-always-rebuild-dependents to override this, but we expect it to only be
used for testing. (Most of the existing dependency tests pick up this option;
the two new tests have "interface-hash" in the name.)
This is the second half of ChrisW's work on interface hashing.
rdar://problem/15352929
Swift SVN r30478
