Turns out that around 10.13/10.14 macOS release version, Apple changed the target tags in
tbd files from `macosx` to `macos`. In order to be compliant and therefore actually support
linking on older platforms against `libSystem.tbd`, we add `<cpu_arch>-macosx` to target strings.
This logic (currently) has a non-trivial cost (particularly in terms of
peak RSS) for tracking dependencies. Until incremental compilation is in
use in the wild, it doesn't make sense for users to pay that cost.
* Functions failing codegen now set this failure on the function
analysis state. Decl analysis `codegen_failure` is reserved for
failures generating constant values.
* `liveness_failure` is consolidated into `codegen_failure`, as we do
not need to distinguish these, and Liveness.Verify is just a debugging
feature anyway.
* `sema_failure_retryable` and `codegen_failure_retryable` are removed.
Instead, retryable failures are recorded in the new
`Zcu.retryable_failures` list. On an incremental update, this list is
flushed, and all elements are marked as outdated so that we re-attempt
analysis and code generation.
Also remove the `generation` fields from `Zcu` and `Decl` as these are
not needed by our new strategy for incremental updates.
* Mark root Decls for re-analysis separately
* Check for re-analysis of root Decls
* Remove `outdated` entry when analyzing fn body
* Remove legacy `outdated` field from Decl analysis state
* Invalidate `decl_val` dependencies
* Recursively mark and un-mark all dependencies correctly
* Queue analysis of outdated dependers in `Compilation.performAllTheWork`
Introduces logic to invalidate `decl_val` dependencies after
`Zcu.semaDecl` completes. Also, recursively un-mark dependencies as PO
where needed.
With this, all dependency invalidation logic is in place. The next step
is analyzing outdated dependencies and triggering appropriate
re-analysis.
Sema now tracks dependencies appropriately. Early logic in Zcu for
resolving outdated decls/functions is in place. The setup used does not
support `usingnamespace`; compilations using this construct are not yet
supported by this incremental compilation model.
Wrapping strange integers before an operation was initially
done as an attempt to minimize the amount of normalizations
required: This way, there would not be a normalization
necessary between two modular operations. This was a
premature optimization, since the resulting logic is more
complicated than naive way of wrapping the result after
the operation.
This commit updates handling of strange integers to do
wrapping after each operation. It also seems slightly
more efficient in terms of size of generated code, as
it reduces the size of the behavior tests binary by
about 1%.
As reported by jacobly, the Apple system linker matches sections to
segments by name and not by flags causing Zig's executable section
ending up in a segment with incorrect permission flags.
