Optimizations can rely on alias analysis to know that an in-argument (or parts of it) is not actually read.
We have to do the same in the verifier: if alias analysis says that an in-argument is not read, there is no need that the memory location is initialized.
Fixes a false verifier error.
rdar://106806899
- SILPackType carries whether the elements are stored directly
in the pack, which we're not currently using in the lowering,
but it's probably something we'll want in the final ABI.
Having this also makes it clear that we're doing the right
thing with substitution and element lowering. I also toyed
with making this a scalar type, which made it necessary in
various places, although eventually I pulled back to the
design where we always use packs as addresses.
- Pack boundaries are a core ABI concept, so the lowering has
to wrap parameter pack expansions up as packs. There are huge
unimplemented holes here where the abstraction pattern will
need to tell us how many elements to gather into the pack,
but a naive approach is good enough to get things off the
ground.
- Pack conventions are related to the existing parameter and
result conventions, but they're different on enough grounds
that they deserve to be separated.
For yielded, nontrivial addresses, verify based on convention:
- guaranteed -> must be initialized at end_apply/abort_apply
- owned -> must be deinitialized at end_apply/abort_apply
- inout -> must be initialized at end_apply/abort_apply
Add ScopedAddressOperand and ScopedAddressValue abstraction utilities
Introduce verification for store_borrow to validate its uses are correctly enclosed in their scope.
Include end_borrow/end_access as implicit uses while validating a borrow introducer
Add flow sensitive verifier rule for store_borrow/end_borrow pair
Make sure store_borrow is always to an alloc_stack
Make sure uses to store borrow location are via its return address only
When optimizing an enum `store` to an `alloc_stack`, require that all uses are in the same block.
Otherwise it could be a `switch_enum` of an optional where the none-case does not have a destroy of the enum value.
After transforming such an `alloc_stack`, the value would leak in the none-case block.
Fixes a OSSA verification error.
Added trailing "be" to match "is" in "memory is [not] initialized, but
should[n't]". The errors are now "meemory is [not] initialized, but
should[n't] be".
This instruction is similar to a copy_addr except that it marks a move of an
address that has to be checked. In order to keep the memory lifetime verifier
happy, the semantics before the checker runs are the mark_unresolved_move_addr is
equivalent to copy_addr [init] (not copy_addr [take][init]).
The use of this instruction is that Mandatory Inlining converts builtin "move"
to a mark_unresolved_move_addr when inlining the function "_move" (the only
place said builtin is invoked).
This is then run through a special checker (that is later in this PR) that
either proves that the mark_unresolved_move_addr can actually be a move in which
case it converts it to copy_addr [take][init] or if it can not be a move, emit
an error and convert the instruction to a copy_addr [init]. After this is done
for all instructions, we loop back through again and emit an error on any
mark_unresolved_move_addr that were not processed earlier allowing for us to
know that we have completeness.
NOTE: The move kills checker for addresses is going to run after Mandatory
Inlining, but before predictable memory opts and friends.
This patch replace all in-memory objects of DebugValueAddrInst with
DebugValueInst + op_deref, and duplicates logics that handles
DebugValueAddrInst with the latter. All related check in the tests
have been updated as well.
Note that this patch neither remove the DebugValueAddrInst class nor
remove `debug_value_addr` syntax in the test inputs.
The MemoryLifetimeVerifier issued a false alarm if a tuple with a trivial enum-case (e.g. an Optional nil) is stored to a memory location.
rdar://79781939
... with a fix for a non-assert build crash: I used the wrong ilist type for SlabList. This does not explain the crash, though. What I think happened here is that llvm miscompiled and put the llvm_unreachable from the Slab's deleteNode function unconditionally into the SILModule destructor.
Now by using simple_ilist, there is no need for a deleteNode at all.
And rename MemoryDataflow -> BitDataflow.
MemoryLifetime contained MemoryLocations, MemoryDataflow and the MemoryLifetimeVerifier.
Three independent things, for which it makes sense to have them in three separated files.
NFC.
