SILFunction that it references. Use this in the mandatory inlining
pass to remove deserialized transparent functions, to clean up the
-emit-sil output of the compiler (and presumably speed up compile
time). This implements rdar://15272652
Swift SVN r9699
Make ApplyInst and PartialApplyInst directly take substitutions for generic functions instead of trying to stage out substitutions separately. The legacy reasons for doing this are gone.
Swift SVN r8747
Replace the existing suite of checked cast instructions with:
- unconditional_checked_cast, which performs an unconditional cast that aborts on failure (like the former downcast unconditional); and
- checked_cast_br, which performs a conditional pass and branches on whether the cast succeeds, passing the result to the true branch as an argument.
Both instructions take a CheckedCastKind that discriminates the different casting modes formerly discriminated by instruction type. This eliminates a source of null references in SIL and eliminates null SIL addresses completely.
Swift SVN r8696
This mirrors the behavior of project_existential and simplifies some special cases in SILGen. It unfortunately makes dynamic_lookup sequences a bit noisier because of the need to explicitly cast the projection from DynamicLookup.Self to Builtin.ObjCPointer, but I think this modeling is more solid and will fit better with my planned redesign of archetype_method/protocol_method.
Swift SVN r8572
getBitWidthForCase() is called from the destructor of the object and it
used to rely on Operand being around. However, dropAllReferences(), which
is run before instruction destruction makes the operand invalid at the
time of instruction death. (This results in a crash if we were to delete a
SwitchInstInt instruction.)
Swift SVN r8472
entire aggregates at once.
This has three worth effects:
- It significantly decreases the amount of SIL required
for these operations.
- It makes it far easier for IR-gen to choose efficient
patterns of destruction, e.g. calling a single entrypoint
or recognizing that it can just use the runtime 'release'
entrypoints.
- It makes it easier to recognize and optimize aggregate
copy/destroy operations.
It does make SROA-like tasks a bit more challenging. The
intent is to give TypeLowering a way to expand these into
their primitive behavior.
Swift SVN r8465
The dynamic_method_br instruction branches depending on whether a
particular object can accept a given message, as determined at
runtime. If the object can accept the message, it branches to the
first basic block, providing the uncurried method as the BB
argument. If the object cannot accept the message, it branches to the
second basic block. Either way, the result is packaged up into an
optional type and passed along to the continuation block, which
provides the optional result.
Note that this instruction is restricted to lookup of Objective-C
methods.
Documentation and IR generation (via -respondsToSelector) to
follow. Review greatly appreciated!
Swift SVN r8065
The dynamic_method instruction handles method lookup on an existential
of type DynamicLookup based on the selector of an [objc] method of a
class or protocol. It is only introduced in the narrow case where we
are forcing a use of the method with '!', e.g.,
class X {
func [objc] f() { println("Dynamic lookup") }
}
var x : DynamicLookup = X()
x.f!()
Swift SVN r8037
The reason we decided to do this is that MayHaveSideEffects implies that a write
can occur, making MayWriteAndHaveSideEffects redundent.
Swift SVN r7943
1. Change assign to follow SILGen's model for a semantic assignment,
which (in the case of unowned pointers) doesn't require the left
and right hand sides to be the same.
2. Change assign to consume/take the refcount from the LHS, following
SILGen's design (which I completely misunderstood before).
Swift SVN r7787
This was not likely an error-free change. Where you see problems
please correct them. This went through a fairly tedious audit
before committing, but comments might have been changed incorrectly,
not changed at all, etc.
Swift SVN r7631
This is was a very mechanical patch where I basically first renamed SILNodes.def
and then just kept fixing things until everything compiled, so even though it is
large patch I feel ok(ish) with committing it.
If anyone has any concerns/etc, please email me and I will revert in 1 second.
Swift SVN r7604
Because union layout may interleave tag bits with payload data, we need to be able to efficiently inject and remove tag bits from an address-only union in-place. To do this, we'll model address-only union initialization by projecting out the data address (union_data_addr) and storing to it, then overlaying the tag bits (inject_union_addr). To dispatch and project out the data, we'll use a destructive_switch_union_addr instruction that clears any tag bits in-place necessary to give a valid data address.
Swift SVN r7589
The instruction represents constructing a loadable union given a case and the data for that case, which will let us emit union constructor functions in SIL instead of IRGen (rdar://problem/14773182).
Swift SVN r7558
to being a semantic assign. The functional difference here is only
for unowned pointers, where now the conversion from strong to unowned
is implicit in the assign.
The logic behind this is that 'assign' is really part of SILGen, that
is only moved later to make it easier to make it be flow sensitive.
Since it is part of SILGen and will be using some of the type lowering
functionality used by SILGen, we should play by its rules.
No functionality change.
Swift SVN r7507
Make the functions support a wider range of builtins and store types to make
it possible.
This is an optimization - the cached ID will be used for builtin identification,
instead of retrieval of the string name and using it as the key.
Swift SVN r7390
The cache is stored in the SILModule.
Add getIntrinsicID() as a member of BuiltinFunctionRefInst.
Test by using the new method in the CCP pass.
Swift SVN r7311
