Previously, we exploded argument to the most-derived fields, i.e. the field that
can no longer be exploded further. And in the spliced (newly created) function,
we form aggregates if necessary.
Changing this to explode only to the deepest level accessed, this enables us to
create the projection tree nodes for fields of which its level is accessed, instead of
all fields on all levels.
Note: this also changes the definition of a leaf node. Leaf node now means the node
which does not have children based on current explosion (it however could have children
if exploded further).
I am refining the old projection tree first before (mostly copying) it to create the
new projection tree.
SIL already has a pretty good infrastructure for tail-allocated operands, although
it's not enforced in any way. SwitchEnumInstBase would also benefit from this if
we were willing to make it a template, or if we had a way to override the 'final'
requirement on llvm::TrailingObjects.
Headers in include/ are meant to be used across libraries, headers in lib/
are only used within that library.
Thanks @jrose-apple for pointing this out.
Certain type circularities weren't being checked until this point. Such as
```
struct X<T> { let a: X<X> }
struct Y<T> { let a: (Int, Y<Y>) }
enum Z<T> { case A(Optional<Z<Z>>) }
```
We introduce a more comprehensive approach to detect these in type checker.
After name lookup, exam each value field in declared structs and enums for
self-reference types that creates inifinite sizes.
TypeAlignments.h predates this whole mess; it was used for types with
stronger alignment in PointerLikeTypeTraits than the old default of
"2 by fiat and assumption". All remaining forward-declared types are
AST types, so fold them into TypeAlignments.h.
(The one exception is SILTypeList.h, but that's already gone on master.)
To avoid future ODR issues, explicitly include TypeAlignments.h into
every header that defines a type it forward-declares.
I wish we could use partial specialization to provide PointerLikeTypeTraits
for all derived classes of Decl, TypeBase, etc, but that's not something
you can do in C++ if you don't control the traits class.
This will be used to help IRGen record protocol requirements
with resilient default implementations in protocol metadata.
To enable testing before all the Sema support is in place, this
patch adds SIL parser, printer and verifier support for default
witness tables.
For now, SILGen emits empty default witness tables for protocol
declarations in resilient modules, and IRGen ignores them when
emitting protocol metadata.
inlined-at chain.
The previous implementation was only correct for cases where the inliner
inlined bottom-up in the call graph, which happened to cover the majority
of all cases.
rdar://problem/24462475
function signature opt.
Instead of replacing %1 with UNDEF in debugvalueinst %1, we form an aggregate,
taking the alive part of %1 and fill the dead part with undef.
rdar://23727705
This is where the AllowLoweredTypes flag to Type::subst() is important,
since this function is used on both canonical AST types, and lowered
AST types.
As part of SE-0022, introduce an 'objc_selector' encoding for string
literals that places the UTF-8 string literal into the appropriate
segment for uniquing of Objective-C selector names.
to disamuguite index_address with same base but different indices.
But the indices here have to be constant. This is a limitation/design choice
made in the projection code.
In order to handle non-constant indices, we need an analysis to compute the index
difference.
rdar://22484392
This patch also implements some of the missing functions used by RLE and DSE in new projection
that exist in the old projection.
New projection provides better memory usage, eventually we will phase out the old projection code.
New projection is now copyable, i.e. we have a proper constructor for it. This helps make the code
more readable.
We do see a bit increase in compilation time in compiling stdlib -O, this is a result of the way
we now get types of a projection path, but I expect this to go down (away) with further improvement
on how memory locations are constructed and cached with later patches.
=== With the OLD Projection. ===
Total amount of memory allocated.
--------------------------------
Bytes Used Count Symbol Name
13032.01 MB 50.6% 2158819 swift::SILPassManager::runPassesOnFunction(llvm::ArrayRef<swift::SILFunctionTransform*>, swift::SILFunction*)
2879.70 MB 11.1% 3076018 (anonymous namespace)::ARCSequenceOpts::run()
2663.68 MB 10.3% 1375465 (anonymous namespace)::RedundantLoadElimination::run()
1534.35 MB 5.9% 5067928 (anonymous namespace)::SimplifyCFGPass::run()
1278.09 MB 4.9% 576714 (anonymous namespace)::SILCombine::run()
1052.68 MB 4.0% 935809 (anonymous namespace)::DeadStoreElimination::run()
771.75 MB 2.9% 1677391 (anonymous namespace)::SILCSE::run()
715.07 MB 2.7% 4198193 (anonymous namespace)::GenericSpecializer::run()
434.87 MB 1.6% 652701 (anonymous namespace)::SILSROA::run()
402.99 MB 1.5% 658563 (anonymous namespace)::SILCodeMotion::run()
341.13 MB 1.3% 962459 (anonymous namespace)::DCE::run()
279.48 MB 1.0% 415031 (anonymous namespace)::StackPromotion::run()
Compilation time breakdown.
--------------------------
Running Time Self (ms) Symbol Name
25716.0ms 35.8% 0.0 swift::runSILOptimizationPasses(swift::SILModule&)
25513.0ms 35.5% 0.0 swift::SILPassManager::runOneIteration()
20666.0ms 28.8% 24.0 swift::SILPassManager::runFunctionPasses(llvm::ArrayRef<swift::SILFunctionTransform*>)
19664.0ms 27.4% 77.0 swift::SILPassManager::runPassesOnFunction(llvm::ArrayRef<swift::SILFunctionTransform*>, swift::SILFunction*)
3272.0ms 4.5% 12.0 (anonymous namespace)::SimplifyCFGPass::run()
3266.0ms 4.5% 7.0 (anonymous namespace)::ARCSequenceOpts::run()
2608.0ms 3.6% 5.0 (anonymous namespace)::SILCombine::run()
2089.0ms 2.9% 104.0 (anonymous namespace)::SILCSE::run()
1929.0ms 2.7% 47.0 (anonymous namespace)::RedundantLoadElimination::run()
1280.0ms 1.7% 14.0 (anonymous namespace)::GenericSpecializer::run()
1010.0ms 1.4% 45.0 (anonymous namespace)::DeadStoreElimination::run()
966.0ms 1.3% 191.0 (anonymous namespace)::DCE::run()
496.0ms 0.6% 6.0 (anonymous namespace)::SILCodeMotion::run()
=== With the NEW Projection. ===
Total amount of memory allocated.
--------------------------------
Bytes Used Count Symbol Name
11876.64 MB 48.4% 22112349 swift::SILPassManager::runPassesOnFunction(llvm::ArrayRef<swift::SILFunctionTransform*>, swift::SILFunction*)
2887.22 MB 11.8% 3079485 (anonymous namespace)::ARCSequenceOpts::run()
1820.89 MB 7.4% 1877674 (anonymous namespace)::RedundantLoadElimination::run()
1533.16 MB 6.2% 5073310 (anonymous namespace)::SimplifyCFGPass::run()
1282.86 MB 5.2% 577024 (anonymous namespace)::SILCombine::run()
772.21 MB 3.1% 1679154 (anonymous namespace)::SILCSE::run()
721.69 MB 2.9% 936958 (anonymous namespace)::DeadStoreElimination::run()
715.08 MB 2.9% 4196263 (anonymous namespace)::GenericSpecializer::run()
Compilation time breakdown.
--------------------------
Running Time Self (ms) Symbol Name
25137.0ms 37.3% 0.0 swift::runSILOptimizationPasses(swift::SILModule&)
24939.0ms 37.0% 0.0 swift::SILPassManager::runOneIteration()
20226.0ms 30.0% 29.0 swift::SILPassManager::runFunctionPasses(llvm::ArrayRef<swift::SILFunctionTransform*>)
19241.0ms 28.5% 83.0 swift::SILPassManager::runPassesOnFunction(llvm::ArrayRef<swift::SILFunctionTransform*>, swift::SILFunction*)
3214.0ms 4.7% 10.0 (anonymous namespace)::SimplifyCFGPass::run()
3005.0ms 4.4% 14.0 (anonymous namespace)::ARCSequenceOpts::run()
2438.0ms 3.6% 7.0 (anonymous namespace)::SILCombine::run()
2217.0ms 3.2% 54.0 (anonymous namespace)::RedundantLoadElimination::run()
2212.0ms 3.2% 131.0 (anonymous namespace)::SILCSE::run()
1195.0ms 1.7% 11.0 (anonymous namespace)::GenericSpecializer::run()
1168.0ms 1.7% 39.0 (anonymous namespace)::DeadStoreElimination::run()
853.0ms 1.2% 150.0 (anonymous namespace)::DCE::run()
499.0ms 0.7% 7.0 (anonymous namespace)::SILCodeMotion::run()
