The flag makes compiler_rt and libfuzzer be in debug mode.
Also:
* fuzzer: override debug logs and disable debug logs for frequently
called functions
* std.Build.Fuzz: fix bug of rerunning the old unit test binary
* report errors from rebuilding the unit tests better
* link.Elf: additionally add tsan lib and fuzzer lib to the hash
This flag makes the build runner rebuild unit tests after the pipeline
finishes, if it finds any unit tests.
I did not make this integrate with file system watching yet.
The test runner is updated to detect which tests are fuzz tests.
Run step is updated to track which test indexes are fuzz tests.
This was added as an architecture to LLVM's target triple parser and the Clang
driver in 2015. No backend ever materialized as far as I can see (same for GCC).
In 2016, other code referring to it started using "Myriad" instead. Ultimately,
all code related to it that isn't in the target triple parser was removed. It
seems to be a real product, just... literally no one seems to know anything
about the ISA. I figure after almost a decade with no public ISA documentation
to speak of, and no LLVM backend to reference, it's probably safe to assume that
we're not going to learn much about this ISA, making it useless for Zig.
See: 1b5767f72b
See: 84a7564b28
See: 8cfe9d8f2a
This was used for LoongArch64, where:
* `gnuf64` -> `ilp32d` / `lp64d` (full hard float)
* `gnuf32` -> `ilp32f` / `lp64f` (hard float for `f32` only)
* `gnusf` -> `ilp32` / `lp64` (soft float)
But Loongson eventually settled on just `gnu` for the first case since that's
what most people will actually be targeting outside embedded scenarios. The
`gnuf32` and `gnusf` specifiers remain in use.
Remove --debug-incremental
This flag is also added to the build system. Importantly, this tells
Compile step whether or not to keep the compiler running between
rebuilds. It defaults off because it is currently crashing
zirUpdateRefs.
Changes the `make` function signature to take an options struct, which
additionally includes `watch: bool`. I intentionally am not exposing
this information to configure phase logic.
Also adds global zig cache to the compiler cache prefixes.
Closes#20600
Makes the build runner compile successfully for non-linux targets;
printing an error if you ask for --watch rather than making build
scripts fail to compile.
Updates the build runner to unconditionally require a zig lib directory
parameter. This parameter is needed in order to correctly understand
file system inputs from zig compiler subprocesses, since they will refer
to "the zig lib directory", and the build runner needs to place file
system watches on directories in there.
The build runner's fanotify file watching implementation now accounts
for when two or more Cache.Path instances compare unequal but ultimately
refer to the same directory in the file system.
Breaking change: std.Build no longer has a zig_lib_dir field. Instead,
there is the Graph zig_lib_directory field, and individual Compile steps
can still have their zig lib directories overridden. I think this is
unlikely to break anyone's build in practice.
The compiler now sends a "file_system_inputs" message to the build
runner which shares the full set of files that were added to the cache
system with the build system, so that the build runner can watch
properly and redo the Compile step. This is implemented for whole cache
mode but not yet for incremental cache mode.
So far, only implemented for InstallFile steps.
Default debounce interval bumped to 50ms. I think it should be
configurable.
Next I have an idea to simplify the fanotify implementation, but other
OS implementations might want to refer back to this commit before I make
those changes.
I'm still learning how the fanotify API works but I think after playing
with it in this commit, I finally know how to implement it, at least on
Linux. This commit does not accomplish the goal but I want to take the
code in a different direction and still be able to reference this point
in time by viewing a source control diff.
I think the move is going to be saving the file_handle for the parent
directory, which combined with the dirent names is how we can correlate
the events back to the Step instances that have registered file system
inputs. I predict this to be similar to implementations on other
operating systems.
Deprecated aliases that are now compile errors:
- `std.fs.MAX_PATH_BYTES` (renamed to `std.fs.max_path_bytes`)
- `std.mem.tokenize` (split into `tokenizeAny`, `tokenizeSequence`, `tokenizeScalar`)
- `std.mem.split` (split into `splitSequence`, `splitAny`, `splitScalar`)
- `std.mem.splitBackwards` (split into `splitBackwardsSequence`, `splitBackwardsAny`, `splitBackwardsScalar`)
- `std.unicode`
+ `utf16leToUtf8Alloc`, `utf16leToUtf8AllocZ`, `utf16leToUtf8`, `fmtUtf16le` (all renamed to have capitalized `Le`)
+ `utf8ToUtf16LeWithNull` (renamed to `utf8ToUtf16LeAllocZ`)
- `std.zig.CrossTarget` (moved to `std.Target.Query`)
Deprecated `lib/std/std.zig` decls were deleted instead of made a `@compileError` because the `refAllDecls` in the test block would trigger the `@compileError`. The deleted top-level `std` namespaces are:
- `std.rand` (renamed to `std.Random`)
- `std.TailQueue` (renamed to `std.DoublyLinkedList`)
- `std.ChildProcess` (renamed/moved to `std.process.Child`)
This is not exhaustive. Deprecated aliases that I didn't touch:
+ `std.io.*`
+ `std.Build.*`
+ `std.builtin.Mode`
+ `std.zig.c_translation.CIntLiteralRadix`
+ anything in `src/`
