My main gripes with this design were that it was incorrectly namespaced, the naming was inconsistent and a bit wrong (`fooAlign` vs `fooAlignment`).
This commit moves all the logic from `PerThread.zig` to use the zcu + tid system that the previous couple commits introduce.
I've organized and merged the functions to be a bit more specific to their own purpose.
- `fieldAlignment` takes a struct or union type, an index, and a Zcu (or the Sema version which takes a Pt), and gives you the alignment of the field at the index.
- `structFieldAlignment` takes the field type itself, and provides the logic to handle special cases, such as externs.
A design goal I had in mind was to avoid using the word 'struct' in the function name, when it worked for things that aren't structs, such as unions.
I don't recall why I put these checks here -- they aren't correct. We
can freely recreate a type even if its fields have changed, because we
are going to re-do all type resolution.
The only conditions for recreations are (a) the ZIR index must not be
lost and (b) the number of captures must be the same. These conditions
are permissible because if either is violated, we can guarantee that
analysis of a valid `zirStructDecl` (etc) will never reference this
type (since the ZIR index has just been tracked, and the captures have
just been created based on the ZIR).
Adds a corresponding test case.
Resolves: #21185
This is necessary to inform the real, non-stub glibc that a program built with
Zig is using a modern `FILE` structure, i.e. glibc 2.1+. This is particularly
important on lesser-used architectures where the legacy code is poorly tested;
for example, glibc 2.40 introduced a regression for the legacy case in the
libio cleanup code, causing all Zig-compiled MIPS binaries to crash on exit.
These are fundamentally incapable of producing accurate information for reasons
I've laid out in #20771. Since our only use of these functions is to check that
object files have the correct machine type, and since #21020 made
`std.Target.to{Coff,Elf}Machine()` more accurate, just switch these checks over
to that and compare the machine type tags instead.
Closes#20771.
* reduce iteration cost by not tracking unused entries
* avoid emitting unused abbrevs to `.debug_abbrev`
* get the compiler executable passing `llvm-dwarfdump --verify`
* make it possible to skip `.debug_line` padding much more quickly
In a `memoized_call`, store how many backwards braches the call
performs. Add this to `sema.branch_count` when using a memoized call. If
this exceeds the quota, perform a non-memoized call to get a correct
"exceeded X backwards branches" error.
Also, do not memoize calls which do `@setEvalBranchQuota` or similar, as
this affects global state which must apply to the caller.
Change some eval branch quotas so that the compiler itself still builds correctly.
This commit manually changes a file in Aro which is automatically
generated. The sources which generate the file are not in this repo.
Upstream Aro should make the suitable changes on their end before the
next sync of Aro sources into the Zig repo.
