Based on measurements, it seemed to save about 0.2 ms - 0.4 ms for a module
with a large number of imports from the SDK. That's insignificant compared to
the compile time for a typical module, which usually takes somewhere between
a few seconds and a few minutes.
- deduplicate the logic to compute the resource folder
- install headers and module files in shared and static resource folders
- forward -static flag when calling swiftc with -print-target-info
Seperating out TBD file generation uncovered a bug
in the frontend where we could fail to notice that
we emitted an error during the end-of-pipeline
actions and returned a zero exit code. Tweak the
logic to detect this case.
We need to traverse the module dependency graph and track which modules expose
which other modules' ABIs, while making sure that we don't hit a loop while
trawling through Clang (sub)modules.
Fixes rdar://64993153.
This flag no longer does anything now that the unified statistics
reporting infrastructure exists. It is better to use
-driver-time-compilation to see a bird's eye view of timing statistics
for frontend jobs, and -stats-output-dir to see a down-and-dirty view of
everything including performance counters.
A couple of clients are iterating over the result,
so switch to a vector to ensure we don't
accidentally introduce any non-determinism.
(cherry picked from commit 56929fdaaa)
With an inverted pipeline, IRGen needs to be able
to compute the linker directives itself, so sink
it down such that it can be computed by the
`IRGenDescriptor`.
(cherry picked from commit c0a2ea7d0e)
Instead of taking an out parameter, have it return
the set directly. Also coalesce the two overloads
into a single overload that takes a
`TBDGenDescriptor`.
(cherry picked from commit 0e97ecedd6)
With an inverted pipeline, IRGen needs to be able
to compute the linker directives itself, so sink
it down such that it can be computed by the
`IRGenDescriptor`.
Instead of taking an out parameter, have it return
the set directly. Also coalesce the two overloads
into a single overload that takes a
`TBDGenDescriptor`.
The driver and any other client that attempts to properly link Swift
code need to know which compatibility libraries should be linked on a
per-target basis. Vend that information as part of -print-target-info.
Expand the FrontendOptions to allow the enabling
of the dependency tracker for non-system
dependencies, and switch the previous clients of
`createDependencyTracker` over to using this
option. This ensures that the dependency tracker
is now set only during `CompilerInstance::setup`.
The use of `SWIFT_DEFER` previously meant that we
may return `false` from `performCompile` even if
an error was produced from
`performEndOfPipelineActions`.
To remedy this, introduce a lambda that both calls
`performEndOfPipelineActions`, and checks to see
if there was an error. Then, enforce that all exit
paths call this lambda.
Move both the loaded module trace output and
"additional whole module outputs" to the end of
the pipeline, ensuring to preserve the behaviour
where we skip them if we encountered an error.
There's no reason clients need to be able to access this data directly.
It obscures where module loading is actually happening, and makes it too
easy to accidentally register a module with the wrong identifier in the
context.
Hide the registration operations behind opaque accessors.
