The begin_apply token represents the borrow scope of all owned and guaranteed
call arguments. Although SILToken is (currently) trivially typed, it must
have guaranteed ownership so end_apply and abort_apply will be recognized
as lifetime-ending uses.
This commit is doing a few things:
1. It is centralizing all decisions about whether an operand's owner instruction
or a value's parent instruction is forwarding in each SILInstruction
itself. This will prevent this information from getting out of sync.
2. This allowed me to hide the low level queries in OwnershipUtils.h that
determined if a SILNodeKind was "forwarding". I tried to minimize the amount of
churn in this PR and thus didn't remove the
is{Owned,Ownership,Guaranteed}Forwarding{Use,Value} checks. Instead I left them
alone but added in asserts to make sure that if the old impl ever returns true,
the neew impl does as well. In a subsequent commit, I am going to remove the old
impl in favor of isa queries.
3. I also in the process discovered that there were some instructions that were
being inconsistently marked as forwarding. All of the asserts in the PR caught
these and I fixed these inconsistencies.
This makes it easier to understand conceptually why a ValueOwnershipKind with
Any ownership is invalid and also allowed me to explicitly document the lattice
that relates ownership constraints/value ownership kinds.
This allows us to hoist the error case of having a function signature with
conflicting ownership requirements into the creation of the return inst instead
of at the time of computing Operand Constraints.
This is the last part of the Operand Constraint computation that can fail that
once removed will let me use fail to mean any constriant is allowed.
Previously, we always inferred the ownership of the switch_enum from its phi
operands. This forced us to need to model a failure to find a good
OperandOwnershipKindMap in OperandOwnership.cpp. We want to eliminate such
conditions so that we can use failing to find a constraint to mean that a value
can accept any value rather than showing a failure.
Compute 'isLet' from the VarDecl that is available when constructing
AccessedStorage so we don't need to recover the VarDecl for the base
later.
This generally makes more sense and is more efficient, but it will be
necessary when we look past class casts when finding the reference root.
`get_async_continuation[_addr]` begins a suspend operation by accessing the continuation value that can resume
the task, which can then be used in a callback or event handler before executing `await_async_continuation` to
suspend the task.
I don't have a test case for this bug based on the current code. But
the fix is clearly needed to have a unique AccessStorage object for
each property. The AccessPath commits will contain test cases for this
functionality.
Today unchecked_bitwise_cast returns a value with ObjCUnowned ownership. This is
important to do since the instruction can truncate memory meaning we want to
treat it as a new object that must be copied before use.
This means that in OSSA we do not have a purely ossa forwarding unchecked
layout-compatible assuming cast. This role is filled by unchecked_value_cast.
`DifferentiableFunctionInst` now stores result indices.
`SILAutoDiffIndices` now stores result indices instead of a source index.
`@differentiable` SIL function types may now have multiple differentiability
result indices and `@noDerivative` resutls.
`@differentiable` AST function types do not have `@noDerivative` results (yet),
so this functionality is not exposed to users.
Resolves TF-689 and TF-1256.
Infrastructural support for TF-983: supporting differentiation of `apply`
instructions with multiple active semantic results.
* a new [immutable] attribute on ref_element_addr and ref_tail_addr
* new instructions: begin_cow_mutation and end_cow_mutation
These new instructions are intended to be used for the stdlib's COW containers, e.g. Array.
They allow more aggressive optimizations, especially for Array.
This became necessary after recent function type changes that keep
substituted generic function types abstract even after substitution to
correctly handle automatic opaque result type substitution.
Instead of performing the opaque result type substitution as part of
substituting the generic args the underlying type will now be reified as
part of looking at the parameter/return types which happens as part of
the function convention apis.
rdar://62560867
MSVC does not realize that the switch is exhaustive and requires that
the path is explicitly marked as unreachable. This silences the C4715
warning ("not all control paths return a value").
We had this for some cast instructions, but not for cast instructions with address-types.
Type dependent operands - like for dynamic self - are important for establishing a def-use relationship between the instruction/argument which defines the type and the instruction which uses the type.
Missing those dependencies can cause instructions or the dynamic-self argument to be removed while the type is still used in a cast instruction.
This change involved some class hierarchy gymnastics in SILInstruction.h.
Fixes a compiler crash.
rdar://problem/61816506
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.
