Distinguish ref_tail_addr storage from the other storage classes.
We didn't have this originally because be don't expect a begin_access
to directly operate on tail storage. It could occur after inlining, at
least with static access markers. More importantly it helps ditinguish
regular formal accesses from other unidentified access, so we probably
should have always had this.
At any rate, it's particularly important when AccessedStorage is
generalized to arbitrary memory access.
The immediate motivation is to add an AccessPath utility, which will
need to distinguish tail storage.
In the process, rewrite AccessedStorage::isDistinct. This could have a
large positive impact on exclusivity performance.
Rename the existing pass to AccessedStorageAnalysisDumper.
AccessedStorage is useful on its own as a utility without the
analysis. We need a way to test the utility itself.
Add test cases for the previous commit that introduced
FindPhiStorageVisitor.
Prepare to reuse this visitor for an AccessPath utility.
Remove visitIncomplete. Add visitCast and visitPathComponent.
Handle phis in a separate visitor. This simplifies the main
visitor. In the long-term, we may be able to eliminate the pointer-phi
visitor entirely. For now, this lets us enforce that all phi paths
follow the same access path.
For use outside access enforcement passes.
Add isUniquelyIdentifiedAfterEnforcement.
Rename functions for clarity and generality.
Rename isUniquelyIdentifiedOrClass to isFormalAccessBase.
Rename findAccessedStorage to identifyFormalAccess.
Rename findAccessedStorageNonNested to findAccessedStorage.
Part of generalizing the utility for use outside the access
enforcement passes.
Assertion failed:
(accessedAddress == getAccessedAddress(accessedAddress) &&
"caller must find the address root"), function isLetAddress,
file /Users/rjmccall/dev/swift/swift/lib/SIL/Utils/MemAccessUtils.cpp,
line 63.
Teach the getAccessedAddress utility to iterate through nested access
markers with projections interposed.
Fixes <rdar://problem/61464370>
Crash in SILOptimizer/access_marker_verify.swift
The API was accidentally undefined, presumably because I checked in
the wrong code or there was a bad merge. The API will be used by
upcoming commits.
Meanwhile, getAccessedAddress was not stripping access markers, which
means some analysis may have been too conservative.
This fix could expose issues by making existing analyses more effective.
Specifically, I split it into 3 initial categories: IR, Utils, Verifier. I just
did this quickly, we can always split it more later if we want.
I followed the model that we use in SILOptimizer: ./lib/SIL/CMakeLists.txt vends
a macro (sil_register_sources) to the sub-folders that register the sources of
the subdirectory with a global state variable that ./lib/SIL/CMakeLists.txt
defines. Then after including those subdirs, the parent cmake declares the SIL
library. So the output is the same, but we have the flexibility of having
subdirectories to categorize source files.
