This is done by splitting the transformation into an analysis phase and a transformation phase (which does not use the dominator tree anymore).
The domintator tree is recalucated once after the whole function is processed.
This change eventually solves the compile time problem of rdar://problem/24410167.
Allow function passes to:
1. Add new functions, to be optimized before continuing with the current
function.
2. Restart the pipeline on the current function after the current pass
completes.
This makes it possible to fully optimize callees that are the result of
specialization prior to generating interprocedural information or making
inlining choices about these callees.
It also allows us to solve a phase-ordering issue we have with generic
specialization, devirtualization, and inlining, by rescheduling the
current function after changes happen in one of these passes as opposed
to running all of these as part of the inlining pass as happens today.
Currently this is NFC since we have no passes that use this
functionality.
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()
SILValue.h/.cpp just defines the SIL base classes. Referring to specific instructions is a (small) kind of layering violation.
Also I want to keep SILValue small so that it is really just a type alias of ValueBase*.
NFC.
As there are no instructions left which produce multiple result values, this is a NFC regarding the generated SIL and generated code.
Although this commit is large, most changes are straightforward adoptions to the changes in the ValueBase and SILValue classes.
And use project_box to get to the address value.
SILGen now generates a project_box for each alloc_box.
And IRGen re-uses the address value from the alloc_box if the operand of project_box is an alloc_box.
This lets the generated code be the same as before.
Other than that most changes of this (quite large) commit are straightforward.
In all of the cases where this is being used, we already immediately perform an
unreachable if we find a TermKind::Invalid. So simplify the code and move it
into the conversion switch itself.
This reverts commit 81e7bdfe1b.
This is not true in non-loop canonicalized SIL. It is true in loop-canonicalized
SIL though. So I need to fix the test to avoid the assert.
Correct format:
```
//===--- Name of file - Description ----------------------------*- Lang -*-===//
```
Notes:
* Comment line should be exactly 80 chars.
* Padding: Pad with dashes after "Description" to reach 80 chars.
* "Name of file", "Description" and "Lang" are all optional.
* In case of missing "Lang": drop the "-*-" markers.
* In case of missing space: drop one, two or three dashes before "Name of file".
This allows for the RCIdentityAnalysis to be tested independent of other
passes.
Also add some initial tests for RCIdentity. I am stepping through "strip by
strip" but I did not have time to finish the coverage.
If we use a shared valueenumerator, imagine the case when one of the AAcache or MBcache
is cleared and we clear the valueenumerator.
This could give rise to collisions (false positives) in the not-yet-cleared cache!
Add back a stand-alone devirtualizer pass, running prior to generic
specialization. As with the stand-alone generic specializer pass, this
may add functions to the pass manager's work list.
This is another step in unbundling these passes from the performance
inliner.
This exposed the first interesting bug found by using TermKind, in DCE we were
not properly handling switch_enum_addr and checked_cast_addr_br.
SR-335
rdar://23980060
