| blob | f2e5eab72bf282270661e1a21816c99b26f8f519 |
1 //===- CallGraphSCCPass.cpp - Pass that operates BU on call graph ---------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file implements the CallGraphSCCPass class, which is used for passes
10 // which are implemented as bottom-up traversals on the call graph. Because
11 // there may be cycles in the call graph, passes of this type operate on the
12 // call-graph in SCC order: that is, they process function bottom-up, except for
13 // recursive functions, which they process all at once.
14 //
15 //===----------------------------------------------------------------------===//
37 #include <cassert>
38 #include <string>
39 #include <utility>
40 #include <vector>
49 }
53 //===----------------------------------------------------------------------===//
54 // CGPassManager
55 //
56 /// CGPassManager manages FPPassManagers and CallGraphSCCPasses.
66 /// Execute all of the passes scheduled for execution. Keep track of
67 /// whether any of the passes modifies the module, and if so, return true.
76 /// Pass Manager itself does not invalidate any analysis info.
78 // CGPassManager walks SCC and it needs CallGraph.
81 }
88 // Print passes managed by this manager
95 }
96 }
101 }
105 }
116 };
134 }
136 {
146 // FIXME: Add getInstructionCount to CallGraphSCC.
148 // Is there a difference in the number of instructions in the module?
150 // Yep. Emit a remark and update InstrCount.
154 FunctionToInstrCount);
156 }
157 }
158 }
160 // After the CGSCCPass is done, when assertions are enabled, use
161 // RefreshCallGraph to verify that the callgraph was correctly updated.
162 #ifndef NDEBUG
165 #endif
168 }
174 // Run pass P on all functions in the current SCC.
178 {
181 }
183 }
184 }
186 // The function pass(es) modified the IR, they may have clobbered the
187 // callgraph.
192 }
194 }
196 /// Scan the functions in the specified CFG and resync the
197 /// callgraph with the call sites found in it. This is used after
198 /// FunctionPasses have potentially munged the callgraph, and can be used after
199 /// CallGraphSCC passes to verify that they correctly updated the callgraph.
200 ///
201 /// This function returns true if it devirtualized an existing function call,
202 /// meaning it turned an indirect call into a direct call. This happens when
203 /// a function pass like GVN optimizes away stuff feeding the indirect call.
204 /// This never happens in checking mode.
217 // Scan all functions in the SCC.
225 // Walk the function body looking for call sites. Sync up the call sites in
226 // CGN with those actually in the function.
228 // Keep track of the number of direct and indirect calls that were
229 // invalidated and removed.
235 // Just remove the edge from the set of callees, keep track of whether
236 // I points to the last element of the vector.
240 // If I pointed to the last element of the vector, we have to bail out:
241 // iterator checking rejects comparisons of the resultant pointer with
242 // end.
248 };
250 // Get the set of call sites currently in the function.
252 // Delete "reference" call records that do not have call instruction. We
253 // reinsert them as needed later. However, keep them in checking mode.
258 }
262 }
264 // If this call site is null, then the function pass deleted the call
265 // entirely and the WeakTrackingVH nulled it out.
268 // If we've already seen this call site, then the FunctionPass RAUW'd
269 // one call with another, which resulted in two "uses" in the edge
270 // list of the same call.
273 // If the call edge is not from a call or invoke, or it is a
274 // instrinsic call, then the function pass RAUW'd a call with
275 // another value. This can happen when constant folding happens
276 // of well known functions etc.
283 // If this was an indirect call site, count it.
286 else
292 }
298 // Ignore intrinsics because they're not really function calls.
301 }
303 }
305 // Loop over all of the instructions in the function, getting the callsites.
306 // Keep track of the number of direct/indirect calls added.
318 // If we are not in checking mode, insert potential callback calls as
319 // references. This is not a requirement but helps to iterate over the
320 // functions in the right order.
324 });
325 }
327 // If this call site already existed in the callgraph, just verify it
328 // matches up to expectations and remove it from Calls.
334 // Remove from Calls since we have now seen it.
337 // Verify that the callee is right.
341 // If we are in checking mode, we are not allowed to actually mutate
342 // the callgraph. If this is a case where we can infer that the
343 // callgraph is less precise than it could be (e.g. an indirect call
344 // site could be turned direct), don't reject it in checking mode, and
345 // don't tweak it to be more precise.
353 // If not, we either went from a direct call to indirect, indirect to
354 // direct, or direct to different direct.
358 // Keep track of whether we turned an indirect call into a direct
359 // one.
364 }
367 }
369 // Update the edge target in CGN.
373 }
378 // If the call site didn't exist in the CGN yet, add it.
386 }
390 }
392 // We scanned the old callgraph node, removing invalidated call sites and
393 // then added back newly found call sites. One thing that can happen is
394 // that an old indirect call site was deleted and replaced with a new direct
395 // call. In this case, we have devirtualized a call, and CGSCCPM would like
396 // to iteratively optimize the new code. Unfortunately, we don't really
397 // have a great way to detect when this happens. As an approximation, we
398 // just look at whether the number of indirect calls is reduced and the
399 // number of direct calls is increased. There are tons of ways to fool this
400 // (e.g. DCE'ing an indirect call and duplicating an unrelated block with a
401 // direct call) but this is close enough.
406 // After scanning this function, if we still have entries in callsites, then
407 // they are dangling pointers. WeakTrackingVH should save us for this, so
408 // abort if
409 // this happens.
412 // Periodically do an explicit clear to remove tombstones when processing
413 // large scc's.
416 }
426 });
430 }
432 /// Execute the body of the entire pass manager on the specified SCC.
433 /// This keeps track of whether a function pass devirtualizes
434 /// any calls and returns it in DevirtualizedCall.
439 // Keep track of whether the callgraph is known to be up-to-date or not.
440 // The CGSSC pass manager runs two types of passes:
441 // CallGraphSCC Passes and other random function passes. Because other
442 // random function passes are not CallGraph aware, they may clobber the
443 // call graph by introducing new calls or deleting other ones. This flag
444 // is set to false when we run a function pass so that we know to clean up
445 // the callgraph when we need to run a CGSCCPass again.
448 // Run all passes on current SCC.
453 // If we're in -debug-pass=Executions mode, construct the SCC node list,
454 // otherwise avoid constructing this string as it is expensive.
457 #ifndef NDEBUG
459 ListSeparator LS;
463 }
465 #endif
467 }
472 #ifdef EXPENSIVE_CHECKS
474 #endif
476 // Actually run this pass on the current SCC.
482 #ifdef EXPENSIVE_CHECKS
487 }
488 #endif
498 }
500 // If the callgraph was left out of date (because the last pass run was a
501 // functionpass), refresh it before we move on to the next SCC.
505 }
507 /// Execute all of the passes scheduled for execution. Keep track of
508 /// whether any of the passes modifies the module, and if so, return true.
513 // Walk the callgraph in bottom-up SCC order.
518 // Copy the current SCC and increment past it so that the pass can hack
519 // on the SCC if it wants to without invalidating our iterator.
524 // At the top level, we run all the passes in this pass manager on the
525 // functions in this SCC. However, we support iterative compilation in the
526 // case where a function pass devirtualizes a call to a function. For
527 // example, it is very common for a function pass (often GVN or instcombine)
528 // to eliminate the addressing that feeds into a call. With that improved
529 // information, we would like the call to be an inline candidate, infer
530 // mod-ref information etc.
531 //
532 // Because of this, we allow iteration up to a specified iteration count.
533 // This only happens in the case of a devirtualized call, so we only burn
534 // compile time in the case that we're making progress. We also have a hard
535 // iteration count limit in case there is crazy code.
548 << Iteration
552 }
555 }
557 /// Initialize CG
567 }
568 }
570 }
572 /// Finalize CG
582 }
583 }
585 }
587 //===----------------------------------------------------------------------===//
588 // CallGraphSCC Implementation
589 //===----------------------------------------------------------------------===//
591 /// This informs the SCC and the pass manager that the specified
592 /// Old node has been deleted, and New is to be used in its place.
600 else
603 }
605 // Update the active scc_iterator so that it doesn't contain dangling
606 // pointers to the old CallGraphNode.
609 }
613 }
615 //===----------------------------------------------------------------------===//
616 // CallGraphSCCPass Implementation
617 //===----------------------------------------------------------------------===//
619 /// Assign pass manager to manage this pass.
621 PassManagerType PreferredType) {
622 // Find CGPassManager
633 // Create new Call Graph SCC Pass Manager if it does not exist.
637 // [1] Create new Call Graph Pass Manager
640 // [2] Set up new manager's top level manager
644 // [3] Assign manager to manage this new manager. This may create
645 // and push new managers into PMS
649 // [4] Push new manager into PMS
651 }
654 }
656 /// For this class, we declare that we require and preserve the call graph.
657 /// If the derived class implements this method, it should
658 /// always explicitly call the implementation here.
662 }
664 //===----------------------------------------------------------------------===//
665 // PrintCallGraphPass Implementation
666 //===----------------------------------------------------------------------===//
670 /// PrintCallGraphPass - Print a Module corresponding to a call graph.
671 ///
684 }
693 };
701 }
710 }
711 }
715 }
716 }
721 }
723 }
726 };
735 }
739 ListSeparator LS;
745 else
747 }
750 }
756 }