Before this commit, the passed in length would always be given to the RtlCaptureStackBackTrace call. Now we always give the length of the actual buffer we're using (the addr_buf_stack size of 32 or the passed in length if it's larger than 32; this matches what the doc comment says the function was meant to be doing as well).
This was causing empty stack traces for things like the GeneralPurposeAllocator leak checking.
Fixes#6687
We now ensure the "bss" section is last, which allows us to not
emit this section and let the runtime initialize the memory with 0's instead.
This allows for smaller binaries.
The order of the other segments is arbitrary and does not matter, this may
change in the future.
Includes both traditiona and incremental codepaths with one caveat that
in incremental case, the requested size cannot be smaller than the
default padding size due to prealloc required due to incremental nature
of linking.
Also parse `-headerpad_max_install_names`, however, not actionable just yet -
missing implementation.
Unlike targeting ELF-based OSes such as Linux, resolving system libs
on Darwin should follow one of two strategies: `-search_paths_first`
or `-search_dylibs_first` and hence we defer always forcing linking
a static library to the linker.
Decls will now be put into their respective segment.
e.g. a constant decl will be inserted into the "rodata" segment,
whereas an uninitialized decl will be put in the "bss" segment instead.
Ignore MachO-specific flag -search_paths_first, since it is the default
in zld and ld64.
Also see Jakub's comment[1]:
Changing topic slightly, @motiejus dunno if you noticed, with this
change building arm64 Zig binary fails on macos - it complains about
unknown -search_paths_first flag. This one is an easy fix: we should
ignore it since this is the default behaviour in both ld64 and zld.
[1]: https://github.com/ziglang/zig/pull/11906#issuecomment-1163545849
Change BigTomb implementation to call to Liveness' implementation
rather than implementing feed() in itself.
This is modelled after the AArch64 backend.
This adds clarification to the getGlobalSymbol doc comments,
as well as renames the `addExternFn` function for MachO to `getGlobalSymbol`.
This function will now be called from 'src/link.zig' as well.
Finally, this also enables compiling zig's libc using LLVM even though
the `fno-LLVM` flag is given.
`genFunctype` now accepts calling convention, param types, and return type
as part of its function signature rather than `fnData`. This means
we no longer have to create a dummy for our intrinsic call abstraction.
This also adds support for f16 division and builtins such as `@ceil` & more.
Rather than checking if the user wants to use LLVM for the current compilation,
check for the existance of LLVM as part of the compiler. This is temporarily,
until other backends gain the ability to compiler LLVM themselves.
This means that when a user passed `-fno-LLVM` we will use the native
backend for the user's code, but use LLVM for compiler-rt.
This also fixes emitting names for symbols in the Wasm linker,
by deduplicating symbol names when multiple symbols point the same object.
Implements `@mulAdd` for floats with bitsize 16, where it generates
a call into compiler-rt's `fmaf` function. Note that arguments
for fmaf are different in order than `@mulAdd`.
This implements binary operations and comparisons
for floats with bitsize 16. It does this by calling into
compiler-rt to first extend the float to 32 bits, perform the operation,
and then finally truncate back to 16 bits. When loading and storing the f16,
we do this as an unsigned 16bit integer.
