John and I discussed this and agreed that we only need two cases here,
not four. In the future this may be merged with ResilienceExpansion,
and become a struct with additional availability information, but
we're definitely sure we don't need four levels here.
OpaqueStorageTypeInfo uses iNNN types that don't always have the correct alloc size for an expected
size at the LLVM level. This needs to be fixed before my partial apply closure fixes can hold.
Swift SVN r24551
IRGen uses a typedef, SpareBitVector, for its principal
purpose of tracking spare bits. Other uses should not
use this typedef, and I've tried to follow that, but I
did this rewrite mostly with sed and may have missed
some fixups.
This should be almost completely NFC. There may be
some subtle changes in spare bits for witness tables
and other off-beat pointer types. I also fixed a bug
where IRGen thought that thin functions were two
pointers wide, but this wouldn't have affected anything
because we never store thin functions anyway, since
they're not a valid AST type.
This commit repplies r24305 with two fixes:
- It fixes the computation of spare bits for unusual
integer types to use the already-agreed-upon type
size instead of recomputing it. This fixes the
i386 stdlib build. Joe and I agreed that we should
also change the size to use the LLVM alloc size
instead of the next power of 2, but this patch
does not do that yet.
- It changes the spare bits in function types back
to the empty set. I'll be changing this in a
follow-up, but it needs to be tied to runtime
changes. This fixes the regression test failures.
Swift SVN r24324
IRGen uses a typedef, SpareBitVector, for its principal
purpose of tracking spare bits. Other uses should not
use this typedef, and I've tried to follow that, but I
did this rewrite mostly with sed and may have missed
some fixups.
This should be almost completely NFC. There may be
some subtle changes in spare bits for witness tables
and other off-beat pointer types. I also fixed a bug
where IRGen thought that thin functions were two
pointers wide, but this wouldn't have affected anything
because we never store thin functions anyway, since
they're not a valid AST type.
Swift SVN r24305
Eliminate support code for lowering protocol_method instructions, and eliminate ExtraDataKind::Metadata, which is no longer needed now that SIL provides all the necessary type information at the call site.
Swift SVN r22451
If a type has to be passed or returned resiliently, it
will necessarily be passed indirectly, which is already
represented in SILFunctionType. There is no need to
represent this as a separate channel of information.
NFC. Also fixes a problem where the signature cache
for ExtraData::Block was writing past the end of an
array (but into the storage for an adjacent array
which was fortunately never used).
ExtraData should also disappear as a concept, but we're
still relying on that for existential protocol witnesses.
Swift SVN r21548
In value witness table generation, and probably other places, we're inappropriately assuming that 'initializeWithTake' is equivalent to a memcpy in all cases, which isn't true for types that carry weak references or for potentially other types in the future. Add an 'isBitwiseTakable' property to TypeInfos that can be checked to see whether a type is bitwise-takable.
Swift SVN r16799
Add a 'Block' ExtraData kind, and teach IRGen how to pull the invocation pointer out of a block structure and pass the block object in the right place.
Swift SVN r13940
In general, this forces SILGen and IRGen code that's grabbing
a declaration to state whether it's doing so to define it.
Change SIL serialization to serialize the linkage of functions
and global variables, which means also serializing declarations.
Change the deserializer to use this stored linkage, even when
only deserializing a declaration, and to call a callback to
inform the client that it has deserialized a new entity.
Take advantage of that callback in the linking pass to alter
the deserialized linkage as appropriate for the fact that we
imported the declaration. This computation should really take
advantage of the relationship between modules, but currently
it does not.
Swift SVN r12090
Dynamic forms of these methods will ultimately move to the fully general TypeInfo class, but for now I'm focusing on getting fixed-layout unions working. Set up methods on FixedTypeInfo for getting the fixed count of extra inhabitants and the spare bit mask for a type. Have the default implementation of extra inhabitants count use the spare bits. For now, only actually set spare bits for types with IR-level single scalar non-power-of-two integer representation (e.g., i1, or i21).
Swift SVN r7289
the new LoadableTypeInfo refinement interface.
This protects against bugs which would introduce unbalanced
allocations of temporary memory.
Swift SVN r7227
This cleans up some wishy-washy control flow that relied on the uncurryLevel of a type to distinguish ObjC methods from freestanding C functions. While we're here, clean up all the places we use ad-hoc comparison logic on the AbstractCC enum to use switches that properly cover the enum.
Swift SVN r5251
Sever the last load-bearing link between SILFunction and SILConstant by naming SILFunctions with their mangled symbol names. Move the core of the mangler up to SIL, and teach SILGen how to use it to mangle a SILConstant.
Swift SVN r4964
handling non-fixed layouts.
This uncovered a bug where we weren't rounding up the header
size to the element alignment when allocating an array of archetypes.
Writing up a detailed test case for *that* revealed that we were
never initializing the length field of heap arrays. Fixing that
caused a bunch of tests to crash trying to release stuff. So...
I've left this in a workaround state right now because I have to
catch a plane.
Swift SVN r4804
and non-deallocating destructors and allocating/non-allocating
constructors.
Non-deallocating destructors might not play well with ObjC
classes; we might have to limit them to pure-swift hierarchies.
No functionality change except that I decided to not force
destructors to have internal linkage unconditionally.
Swift SVN r3814
protocol witnesses over to the new API. There's some badness
that we're papering over here involving generic types, but
this is a necessary first step.
Swift SVN r3003
an owner attached. Use this to implement [byref(heap)]. Force
locals to the heap if they've been referenced in a way that requires
this.
Swift SVN r1265
require Explosion.h. This is just to isolate the parts
of IR-generation that shouldn't have anything to do with
emitting code within functions.
Swift SVN r1039
