Using std.os.linux directly in e.g. std.posix.timerfd_create() causes
the function to compile but silently fail at runtime when targeting any
OS other than Linux.
To catch errors like this at compile time, std.os.linux must only be
directly accessed within std.posix where there has been a comptime check
that the target os is in fact Linux.
switch from `inline for` with `std.mem.eql`
to `inline else` and tag comparison;
expectEqualDeep(Inner) was already doing this.
add a previously-failing test case.
I believe this was accidentally broken when the E enum for errno values
was introduces. These functions are quite the special case in that they
return the error value directly rather than returning -1 and passing the
error value through the errno variable.
In any case, using a u16 as the return type at the ABI boundary where a
c_int is expected is asking for trouble.
This reverts commit d7daf7c203f583ed440efc68df6ee690ee8f8f32.
This is no longer needed with the LLVM 18 upgrade, and it was breaking PIE.
Closes#20306.
Now there is `captureChildProcess` which gives access to the
`std.process.Child.RunResult`, which is useful for accessing the stdout.
It also accepts and passes an optional `std.Progress.Node` to the child.
There were two primary issues at play here:
1. The hex float prefix was not handled correctly when the stream was
reset for the fallback parsing path, which occured when the mantissa was
longer max mantissa digits.
2. The implied exponent was not adjusted for hex-floats in this branch.
Additionally, some of the float parsing routines have been condensed, making
use of comptime.
closes#20275
Before this commit, the DIRECTORY_NOT_EMPTY/FILE_IS_A_DIRECTORY/NOT_A_DIRECTORY statuses were assumed only to be possible when using `FILE_RENAME_INFORMATION_EX` and `FILE_RENAME_POSIX_SEMANTICS`, but that has empirically been shown to be false; a networked samba share can return the DIRECTORY_NOT_EMPTY status from `FILE_RENAME_INFORMATION` (which doesn't support `FILE_RENAME_POSIX_SEMANTICS`).
`FILE_IS_A_DIRECTORY` and `NOT_A_DIRECTORY` were not proven to be possible, but they were also moved to the outer switch just in case.
Fixes#19785
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/`
The doc comments for this global said:
"Locked to avoid interleaving panic messages from multiple threads."
Huh? There's already a mutex for that, it's the stderr mutex. Lock that
one instead.
The surrogate code points U+D800 to U+DFFF are valid code points but are not Unicode scalar values. This commit makes the error message more accurately reflect what is actually allowed in `\u` escape sequences.
From https://www.unicode.org/versions/Unicode15.0.0/ch03.pdf:
> D71 High-surrogate code point: A Unicode code point in the range U+D800 to U+DBFF.
> D73 Low-surrogate code point: A Unicode code point in the range U+DC00 to U+DFFF.
>
> 3.9 Unicode Encoding Forms
> D76 Unicode scalar value: Any Unicode code point except high-surrogate and low-surrogate code points.
Related: #20270
A node may be freed during the execution of this loop, causing there to
be a parent reference to a nonexistent node. Without this assignment,
this would lead to the map entry containing stale data. By assigning
none, the child node with the bad parent pointer will be harmlessly
omitted from the tree.
Closes#20262
These instructions are not emitted by AstGen. They also would have no
effect even if they did appear in ZIR: the Sema handling for these
instructions creates a Decl which the name strategy is applied to, and
proceeds to never use it. This pointless CPU heater is now gone, saving
2 ZIR tags in the process.
`Elf*_Rela` relocations store their argument in `r_addend`, including for `R_*_RELATIVE` relocations. Unlike `Elf*_Rel` relocations, they are not applied as a delta to the destination virtual address. Instead, they are computed from `base_address + r_addend` directly.
We are posting two submission (zero copy send and receive) and then
reading two completions. There is no guarantee that those completions
will be in the order of submissions.
This test was expecting fist send completion then receive.
Fix is allowing them to come other way too.
Had constrained the `aarch64_be` target, but not `aarch64`. This
constraint is necessary because earlier versions of glibc do not support
the aarch64 architecture.
Also, skip unsupported test cases.
The actual `zig objcopy` does not accept keeping multiple sections.
If you pass multiple `-j .section` arguments to `zig objcopy`, it will
only respect the last one passed.
Originally I changed `zig objcopy` to accept multiple sections
and then concatenate them instead of returning after outputting the
first section (see emitElf) but I realized concatenating probably doesn't make sense.
