[InstCombine] Signed saturation tests. NFC
[llvm-complete.git] / lib / CodeGen / GlobalMerge.cpp
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1 //===- GlobalMerge.cpp - Internal globals merging -------------------------===//
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 pass merges globals with internal linkage into one. This way all the
10 // globals which were merged into a biggest one can be addressed using offsets
11 // from the same base pointer (no need for separate base pointer for each of the
12 // global). Such a transformation can significantly reduce the register pressure
13 // when many globals are involved.
15 // For example, consider the code which touches several global variables at
16 // once:
18 // static int foo[N], bar[N], baz[N];
20 // for (i = 0; i < N; ++i) {
21 // foo[i] = bar[i] * baz[i];
22 // }
24 // On ARM the addresses of 3 arrays should be kept in the registers, thus
25 // this code has quite large register pressure (loop body):
27 // ldr r1, [r5], #4
28 // ldr r2, [r6], #4
29 // mul r1, r2, r1
30 // str r1, [r0], #4
32 // Pass converts the code to something like:
34 // static struct {
35 // int foo[N];
36 // int bar[N];
37 // int baz[N];
38 // } merged;
40 // for (i = 0; i < N; ++i) {
41 // merged.foo[i] = merged.bar[i] * merged.baz[i];
42 // }
44 // and in ARM code this becomes:
46 // ldr r0, [r5, #40]
47 // ldr r1, [r5, #80]
48 // mul r0, r1, r0
49 // str r0, [r5], #4
51 // note that we saved 2 registers here almostly "for free".
53 // However, merging globals can have tradeoffs:
54 // - it confuses debuggers, tools, and users
55 // - it makes linker optimizations less useful (order files, LOHs, ...)
56 // - it forces usage of indexed addressing (which isn't necessarily "free")
57 // - it can increase register pressure when the uses are disparate enough.
59 // We use heuristics to discover the best global grouping we can (cf cl::opts).
61 // ===---------------------------------------------------------------------===//
63 #include "llvm/ADT/BitVector.h"
64 #include "llvm/ADT/DenseMap.h"
65 #include "llvm/ADT/SmallPtrSet.h"
66 #include "llvm/ADT/SmallVector.h"
67 #include "llvm/ADT/Statistic.h"
68 #include "llvm/ADT/StringRef.h"
69 #include "llvm/ADT/Triple.h"
70 #include "llvm/ADT/Twine.h"
71 #include "llvm/CodeGen/Passes.h"
72 #include "llvm/IR/BasicBlock.h"
73 #include "llvm/IR/Constants.h"
74 #include "llvm/IR/DataLayout.h"
75 #include "llvm/IR/DerivedTypes.h"
76 #include "llvm/IR/Function.h"
77 #include "llvm/IR/GlobalAlias.h"
78 #include "llvm/IR/GlobalValue.h"
79 #include "llvm/IR/GlobalVariable.h"
80 #include "llvm/IR/Instruction.h"
81 #include "llvm/IR/Module.h"
82 #include "llvm/IR/Type.h"
83 #include "llvm/IR/Use.h"
84 #include "llvm/IR/User.h"
85 #include "llvm/Pass.h"
86 #include "llvm/Support/Casting.h"
87 #include "llvm/Support/CommandLine.h"
88 #include "llvm/Support/Debug.h"
89 #include "llvm/Support/raw_ostream.h"
90 #include "llvm/Target/TargetLoweringObjectFile.h"
91 #include "llvm/Target/TargetMachine.h"
92 #include <algorithm>
93 #include <cassert>
94 #include <cstddef>
95 #include <cstdint>
96 #include <string>
97 #include <vector>
99 using namespace llvm;
101 #define DEBUG_TYPE "global-merge"
103 // FIXME: This is only useful as a last-resort way to disable the pass.
104 static cl::opt<bool>
105 EnableGlobalMerge("enable-global-merge", cl::Hidden,
106 cl::desc("Enable the global merge pass"),
107 cl::init(true));
109 static cl::opt<unsigned>
110 GlobalMergeMaxOffset("global-merge-max-offset", cl::Hidden,
111 cl::desc("Set maximum offset for global merge pass"),
112 cl::init(0));
114 static cl::opt<bool> GlobalMergeGroupByUse(
115 "global-merge-group-by-use", cl::Hidden,
116 cl::desc("Improve global merge pass to look at uses"), cl::init(true));
118 static cl::opt<bool> GlobalMergeIgnoreSingleUse(
119 "global-merge-ignore-single-use", cl::Hidden,
120 cl::desc("Improve global merge pass to ignore globals only used alone"),
121 cl::init(true));
123 static cl::opt<bool>
124 EnableGlobalMergeOnConst("global-merge-on-const", cl::Hidden,
125 cl::desc("Enable global merge pass on constants"),
126 cl::init(false));
128 // FIXME: this could be a transitional option, and we probably need to remove
129 // it if only we are sure this optimization could always benefit all targets.
130 static cl::opt<cl::boolOrDefault>
131 EnableGlobalMergeOnExternal("global-merge-on-external", cl::Hidden,
132 cl::desc("Enable global merge pass on external linkage"));
134 STATISTIC(NumMerged, "Number of globals merged");
136 namespace {
138 class GlobalMerge : public FunctionPass {
139 const TargetMachine *TM = nullptr;
141 // FIXME: Infer the maximum possible offset depending on the actual users
142 // (these max offsets are different for the users inside Thumb or ARM
143 // functions), see the code that passes in the offset in the ARM backend
144 // for more information.
145 unsigned MaxOffset;
147 /// Whether we should try to optimize for size only.
148 /// Currently, this applies a dead simple heuristic: only consider globals
149 /// used in minsize functions for merging.
150 /// FIXME: This could learn about optsize, and be used in the cost model.
151 bool OnlyOptimizeForSize = false;
153 /// Whether we should merge global variables that have external linkage.
154 bool MergeExternalGlobals = false;
156 bool IsMachO;
158 bool doMerge(SmallVectorImpl<GlobalVariable*> &Globals,
159 Module &M, bool isConst, unsigned AddrSpace) const;
161 /// Merge everything in \p Globals for which the corresponding bit
162 /// in \p GlobalSet is set.
163 bool doMerge(const SmallVectorImpl<GlobalVariable *> &Globals,
164 const BitVector &GlobalSet, Module &M, bool isConst,
165 unsigned AddrSpace) const;
167 /// Check if the given variable has been identified as must keep
168 /// \pre setMustKeepGlobalVariables must have been called on the Module that
169 /// contains GV
170 bool isMustKeepGlobalVariable(const GlobalVariable *GV) const {
171 return MustKeepGlobalVariables.count(GV);
174 /// Collect every variables marked as "used" or used in a landing pad
175 /// instruction for this Module.
176 void setMustKeepGlobalVariables(Module &M);
178 /// Collect every variables marked as "used"
179 void collectUsedGlobalVariables(Module &M, StringRef Name);
181 /// Keep track of the GlobalVariable that must not be merged away
182 SmallPtrSet<const GlobalVariable *, 16> MustKeepGlobalVariables;
184 public:
185 static char ID; // Pass identification, replacement for typeid.
187 explicit GlobalMerge()
188 : FunctionPass(ID), MaxOffset(GlobalMergeMaxOffset) {
189 initializeGlobalMergePass(*PassRegistry::getPassRegistry());
192 explicit GlobalMerge(const TargetMachine *TM, unsigned MaximalOffset,
193 bool OnlyOptimizeForSize, bool MergeExternalGlobals)
194 : FunctionPass(ID), TM(TM), MaxOffset(MaximalOffset),
195 OnlyOptimizeForSize(OnlyOptimizeForSize),
196 MergeExternalGlobals(MergeExternalGlobals) {
197 initializeGlobalMergePass(*PassRegistry::getPassRegistry());
200 bool doInitialization(Module &M) override;
201 bool runOnFunction(Function &F) override;
202 bool doFinalization(Module &M) override;
204 StringRef getPassName() const override { return "Merge internal globals"; }
206 void getAnalysisUsage(AnalysisUsage &AU) const override {
207 AU.setPreservesCFG();
208 FunctionPass::getAnalysisUsage(AU);
212 } // end anonymous namespace
214 char GlobalMerge::ID = 0;
216 INITIALIZE_PASS(GlobalMerge, DEBUG_TYPE, "Merge global variables", false, false)
218 bool GlobalMerge::doMerge(SmallVectorImpl<GlobalVariable*> &Globals,
219 Module &M, bool isConst, unsigned AddrSpace) const {
220 auto &DL = M.getDataLayout();
221 // FIXME: Find better heuristics
222 llvm::stable_sort(
223 Globals, [&DL](const GlobalVariable *GV1, const GlobalVariable *GV2) {
224 return DL.getTypeAllocSize(GV1->getValueType()) <
225 DL.getTypeAllocSize(GV2->getValueType());
228 // If we want to just blindly group all globals together, do so.
229 if (!GlobalMergeGroupByUse) {
230 BitVector AllGlobals(Globals.size());
231 AllGlobals.set();
232 return doMerge(Globals, AllGlobals, M, isConst, AddrSpace);
235 // If we want to be smarter, look at all uses of each global, to try to
236 // discover all sets of globals used together, and how many times each of
237 // these sets occurred.
239 // Keep this reasonably efficient, by having an append-only list of all sets
240 // discovered so far (UsedGlobalSet), and mapping each "together-ness" unit of
241 // code (currently, a Function) to the set of globals seen so far that are
242 // used together in that unit (GlobalUsesByFunction).
244 // When we look at the Nth global, we know that any new set is either:
245 // - the singleton set {N}, containing this global only, or
246 // - the union of {N} and a previously-discovered set, containing some
247 // combination of the previous N-1 globals.
248 // Using that knowledge, when looking at the Nth global, we can keep:
249 // - a reference to the singleton set {N} (CurGVOnlySetIdx)
250 // - a list mapping each previous set to its union with {N} (EncounteredUGS),
251 // if it actually occurs.
253 // We keep track of the sets of globals used together "close enough".
254 struct UsedGlobalSet {
255 BitVector Globals;
256 unsigned UsageCount = 1;
258 UsedGlobalSet(size_t Size) : Globals(Size) {}
261 // Each set is unique in UsedGlobalSets.
262 std::vector<UsedGlobalSet> UsedGlobalSets;
264 // Avoid repeating the create-global-set pattern.
265 auto CreateGlobalSet = [&]() -> UsedGlobalSet & {
266 UsedGlobalSets.emplace_back(Globals.size());
267 return UsedGlobalSets.back();
270 // The first set is the empty set.
271 CreateGlobalSet().UsageCount = 0;
273 // We define "close enough" to be "in the same function".
274 // FIXME: Grouping uses by function is way too aggressive, so we should have
275 // a better metric for distance between uses.
276 // The obvious alternative would be to group by BasicBlock, but that's in
277 // turn too conservative..
278 // Anything in between wouldn't be trivial to compute, so just stick with
279 // per-function grouping.
281 // The value type is an index into UsedGlobalSets.
282 // The default (0) conveniently points to the empty set.
283 DenseMap<Function *, size_t /*UsedGlobalSetIdx*/> GlobalUsesByFunction;
285 // Now, look at each merge-eligible global in turn.
287 // Keep track of the sets we already encountered to which we added the
288 // current global.
289 // Each element matches the same-index element in UsedGlobalSets.
290 // This lets us efficiently tell whether a set has already been expanded to
291 // include the current global.
292 std::vector<size_t> EncounteredUGS;
294 for (size_t GI = 0, GE = Globals.size(); GI != GE; ++GI) {
295 GlobalVariable *GV = Globals[GI];
297 // Reset the encountered sets for this global...
298 std::fill(EncounteredUGS.begin(), EncounteredUGS.end(), 0);
299 // ...and grow it in case we created new sets for the previous global.
300 EncounteredUGS.resize(UsedGlobalSets.size());
302 // We might need to create a set that only consists of the current global.
303 // Keep track of its index into UsedGlobalSets.
304 size_t CurGVOnlySetIdx = 0;
306 // For each global, look at all its Uses.
307 for (auto &U : GV->uses()) {
308 // This Use might be a ConstantExpr. We're interested in Instruction
309 // users, so look through ConstantExpr...
310 Use *UI, *UE;
311 if (ConstantExpr *CE = dyn_cast<ConstantExpr>(U.getUser())) {
312 if (CE->use_empty())
313 continue;
314 UI = &*CE->use_begin();
315 UE = nullptr;
316 } else if (isa<Instruction>(U.getUser())) {
317 UI = &U;
318 UE = UI->getNext();
319 } else {
320 continue;
323 // ...to iterate on all the instruction users of the global.
324 // Note that we iterate on Uses and not on Users to be able to getNext().
325 for (; UI != UE; UI = UI->getNext()) {
326 Instruction *I = dyn_cast<Instruction>(UI->getUser());
327 if (!I)
328 continue;
330 Function *ParentFn = I->getParent()->getParent();
332 // If we're only optimizing for size, ignore non-minsize functions.
333 if (OnlyOptimizeForSize && !ParentFn->hasMinSize())
334 continue;
336 size_t UGSIdx = GlobalUsesByFunction[ParentFn];
338 // If this is the first global the basic block uses, map it to the set
339 // consisting of this global only.
340 if (!UGSIdx) {
341 // If that set doesn't exist yet, create it.
342 if (!CurGVOnlySetIdx) {
343 CurGVOnlySetIdx = UsedGlobalSets.size();
344 CreateGlobalSet().Globals.set(GI);
345 } else {
346 ++UsedGlobalSets[CurGVOnlySetIdx].UsageCount;
349 GlobalUsesByFunction[ParentFn] = CurGVOnlySetIdx;
350 continue;
353 // If we already encountered this BB, just increment the counter.
354 if (UsedGlobalSets[UGSIdx].Globals.test(GI)) {
355 ++UsedGlobalSets[UGSIdx].UsageCount;
356 continue;
359 // If not, the previous set wasn't actually used in this function.
360 --UsedGlobalSets[UGSIdx].UsageCount;
362 // If we already expanded the previous set to include this global, just
363 // reuse that expanded set.
364 if (size_t ExpandedIdx = EncounteredUGS[UGSIdx]) {
365 ++UsedGlobalSets[ExpandedIdx].UsageCount;
366 GlobalUsesByFunction[ParentFn] = ExpandedIdx;
367 continue;
370 // If not, create a new set consisting of the union of the previous set
371 // and this global. Mark it as encountered, so we can reuse it later.
372 GlobalUsesByFunction[ParentFn] = EncounteredUGS[UGSIdx] =
373 UsedGlobalSets.size();
375 UsedGlobalSet &NewUGS = CreateGlobalSet();
376 NewUGS.Globals.set(GI);
377 NewUGS.Globals |= UsedGlobalSets[UGSIdx].Globals;
382 // Now we found a bunch of sets of globals used together. We accumulated
383 // the number of times we encountered the sets (i.e., the number of blocks
384 // that use that exact set of globals).
386 // Multiply that by the size of the set to give us a crude profitability
387 // metric.
388 llvm::stable_sort(UsedGlobalSets,
389 [](const UsedGlobalSet &UGS1, const UsedGlobalSet &UGS2) {
390 return UGS1.Globals.count() * UGS1.UsageCount <
391 UGS2.Globals.count() * UGS2.UsageCount;
394 // We can choose to merge all globals together, but ignore globals never used
395 // with another global. This catches the obviously non-profitable cases of
396 // having a single global, but is aggressive enough for any other case.
397 if (GlobalMergeIgnoreSingleUse) {
398 BitVector AllGlobals(Globals.size());
399 for (size_t i = 0, e = UsedGlobalSets.size(); i != e; ++i) {
400 const UsedGlobalSet &UGS = UsedGlobalSets[e - i - 1];
401 if (UGS.UsageCount == 0)
402 continue;
403 if (UGS.Globals.count() > 1)
404 AllGlobals |= UGS.Globals;
406 return doMerge(Globals, AllGlobals, M, isConst, AddrSpace);
409 // Starting from the sets with the best (=biggest) profitability, find a
410 // good combination.
411 // The ideal (and expensive) solution can only be found by trying all
412 // combinations, looking for the one with the best profitability.
413 // Don't be smart about it, and just pick the first compatible combination,
414 // starting with the sets with the best profitability.
415 BitVector PickedGlobals(Globals.size());
416 bool Changed = false;
418 for (size_t i = 0, e = UsedGlobalSets.size(); i != e; ++i) {
419 const UsedGlobalSet &UGS = UsedGlobalSets[e - i - 1];
420 if (UGS.UsageCount == 0)
421 continue;
422 if (PickedGlobals.anyCommon(UGS.Globals))
423 continue;
424 PickedGlobals |= UGS.Globals;
425 // If the set only contains one global, there's no point in merging.
426 // Ignore the global for inclusion in other sets though, so keep it in
427 // PickedGlobals.
428 if (UGS.Globals.count() < 2)
429 continue;
430 Changed |= doMerge(Globals, UGS.Globals, M, isConst, AddrSpace);
433 return Changed;
436 bool GlobalMerge::doMerge(const SmallVectorImpl<GlobalVariable *> &Globals,
437 const BitVector &GlobalSet, Module &M, bool isConst,
438 unsigned AddrSpace) const {
439 assert(Globals.size() > 1);
441 Type *Int32Ty = Type::getInt32Ty(M.getContext());
442 Type *Int8Ty = Type::getInt8Ty(M.getContext());
443 auto &DL = M.getDataLayout();
445 LLVM_DEBUG(dbgs() << " Trying to merge set, starts with #"
446 << GlobalSet.find_first() << "\n");
448 bool Changed = false;
449 ssize_t i = GlobalSet.find_first();
450 while (i != -1) {
451 ssize_t j = 0;
452 uint64_t MergedSize = 0;
453 std::vector<Type*> Tys;
454 std::vector<Constant*> Inits;
455 std::vector<unsigned> StructIdxs;
457 bool HasExternal = false;
458 StringRef FirstExternalName;
459 Align MaxAlign;
460 unsigned CurIdx = 0;
461 for (j = i; j != -1; j = GlobalSet.find_next(j)) {
462 Type *Ty = Globals[j]->getValueType();
464 // Make sure we use the same alignment AsmPrinter would use.
465 Align Alignment(DL.getPreferredAlignment(Globals[j]));
466 unsigned Padding = alignTo(MergedSize, Alignment) - MergedSize;
467 MergedSize += Padding;
468 MergedSize += DL.getTypeAllocSize(Ty);
469 if (MergedSize > MaxOffset) {
470 break;
472 if (Padding) {
473 Tys.push_back(ArrayType::get(Int8Ty, Padding));
474 Inits.push_back(ConstantAggregateZero::get(Tys.back()));
475 ++CurIdx;
477 Tys.push_back(Ty);
478 Inits.push_back(Globals[j]->getInitializer());
479 StructIdxs.push_back(CurIdx++);
481 MaxAlign = std::max(MaxAlign, Alignment);
483 if (Globals[j]->hasExternalLinkage() && !HasExternal) {
484 HasExternal = true;
485 FirstExternalName = Globals[j]->getName();
489 // Exit early if there is only one global to merge.
490 if (Tys.size() < 2) {
491 i = j;
492 continue;
495 // If merged variables doesn't have external linkage, we needn't to expose
496 // the symbol after merging.
497 GlobalValue::LinkageTypes Linkage = HasExternal
498 ? GlobalValue::ExternalLinkage
499 : GlobalValue::InternalLinkage;
500 // Use a packed struct so we can control alignment.
501 StructType *MergedTy = StructType::get(M.getContext(), Tys, true);
502 Constant *MergedInit = ConstantStruct::get(MergedTy, Inits);
504 // On Darwin external linkage needs to be preserved, otherwise
505 // dsymutil cannot preserve the debug info for the merged
506 // variables. If they have external linkage, use the symbol name
507 // of the first variable merged as the suffix of global symbol
508 // name. This avoids a link-time naming conflict for the
509 // _MergedGlobals symbols.
510 Twine MergedName =
511 (IsMachO && HasExternal)
512 ? "_MergedGlobals_" + FirstExternalName
513 : "_MergedGlobals";
514 auto MergedLinkage = IsMachO ? Linkage : GlobalValue::PrivateLinkage;
515 auto *MergedGV = new GlobalVariable(
516 M, MergedTy, isConst, MergedLinkage, MergedInit, MergedName, nullptr,
517 GlobalVariable::NotThreadLocal, AddrSpace);
519 MergedGV->setAlignment(MaxAlign);
520 MergedGV->setSection(Globals[i]->getSection());
522 const StructLayout *MergedLayout = DL.getStructLayout(MergedTy);
523 for (ssize_t k = i, idx = 0; k != j; k = GlobalSet.find_next(k), ++idx) {
524 GlobalValue::LinkageTypes Linkage = Globals[k]->getLinkage();
525 std::string Name = Globals[k]->getName();
526 GlobalValue::DLLStorageClassTypes DLLStorage =
527 Globals[k]->getDLLStorageClass();
529 // Copy metadata while adjusting any debug info metadata by the original
530 // global's offset within the merged global.
531 MergedGV->copyMetadata(Globals[k],
532 MergedLayout->getElementOffset(StructIdxs[idx]));
534 Constant *Idx[2] = {
535 ConstantInt::get(Int32Ty, 0),
536 ConstantInt::get(Int32Ty, StructIdxs[idx]),
538 Constant *GEP =
539 ConstantExpr::getInBoundsGetElementPtr(MergedTy, MergedGV, Idx);
540 Globals[k]->replaceAllUsesWith(GEP);
541 Globals[k]->eraseFromParent();
543 // When the linkage is not internal we must emit an alias for the original
544 // variable name as it may be accessed from another object. On non-Mach-O
545 // we can also emit an alias for internal linkage as it's safe to do so.
546 // It's not safe on Mach-O as the alias (and thus the portion of the
547 // MergedGlobals variable) may be dead stripped at link time.
548 if (Linkage != GlobalValue::InternalLinkage || !IsMachO) {
549 GlobalAlias *GA = GlobalAlias::create(Tys[StructIdxs[idx]], AddrSpace,
550 Linkage, Name, GEP, &M);
551 GA->setDLLStorageClass(DLLStorage);
554 NumMerged++;
556 Changed = true;
557 i = j;
560 return Changed;
563 void GlobalMerge::collectUsedGlobalVariables(Module &M, StringRef Name) {
564 // Extract global variables from llvm.used array
565 const GlobalVariable *GV = M.getGlobalVariable(Name);
566 if (!GV || !GV->hasInitializer()) return;
568 // Should be an array of 'i8*'.
569 const ConstantArray *InitList = cast<ConstantArray>(GV->getInitializer());
571 for (unsigned i = 0, e = InitList->getNumOperands(); i != e; ++i)
572 if (const GlobalVariable *G =
573 dyn_cast<GlobalVariable>(InitList->getOperand(i)->stripPointerCasts()))
574 MustKeepGlobalVariables.insert(G);
577 void GlobalMerge::setMustKeepGlobalVariables(Module &M) {
578 collectUsedGlobalVariables(M, "llvm.used");
579 collectUsedGlobalVariables(M, "llvm.compiler.used");
581 for (Function &F : M) {
582 for (BasicBlock &BB : F) {
583 Instruction *Pad = BB.getFirstNonPHI();
584 if (!Pad->isEHPad())
585 continue;
587 // Keep globals used by landingpads and catchpads.
588 for (const Use &U : Pad->operands()) {
589 if (const GlobalVariable *GV =
590 dyn_cast<GlobalVariable>(U->stripPointerCasts()))
591 MustKeepGlobalVariables.insert(GV);
597 bool GlobalMerge::doInitialization(Module &M) {
598 if (!EnableGlobalMerge)
599 return false;
601 IsMachO = Triple(M.getTargetTriple()).isOSBinFormatMachO();
603 auto &DL = M.getDataLayout();
604 DenseMap<std::pair<unsigned, StringRef>, SmallVector<GlobalVariable *, 16>>
605 Globals, ConstGlobals, BSSGlobals;
606 bool Changed = false;
607 setMustKeepGlobalVariables(M);
609 // Grab all non-const globals.
610 for (auto &GV : M.globals()) {
611 // Merge is safe for "normal" internal or external globals only
612 if (GV.isDeclaration() || GV.isThreadLocal() || GV.hasImplicitSection())
613 continue;
615 // It's not safe to merge globals that may be preempted
616 if (TM && !TM->shouldAssumeDSOLocal(M, &GV))
617 continue;
619 if (!(MergeExternalGlobals && GV.hasExternalLinkage()) &&
620 !GV.hasInternalLinkage())
621 continue;
623 PointerType *PT = dyn_cast<PointerType>(GV.getType());
624 assert(PT && "Global variable is not a pointer!");
626 unsigned AddressSpace = PT->getAddressSpace();
627 StringRef Section = GV.getSection();
629 // Ignore all 'special' globals.
630 if (GV.getName().startswith("llvm.") ||
631 GV.getName().startswith(".llvm."))
632 continue;
634 // Ignore all "required" globals:
635 if (isMustKeepGlobalVariable(&GV))
636 continue;
638 Type *Ty = GV.getValueType();
639 if (DL.getTypeAllocSize(Ty) < MaxOffset) {
640 if (TM &&
641 TargetLoweringObjectFile::getKindForGlobal(&GV, *TM).isBSS())
642 BSSGlobals[{AddressSpace, Section}].push_back(&GV);
643 else if (GV.isConstant())
644 ConstGlobals[{AddressSpace, Section}].push_back(&GV);
645 else
646 Globals[{AddressSpace, Section}].push_back(&GV);
650 for (auto &P : Globals)
651 if (P.second.size() > 1)
652 Changed |= doMerge(P.second, M, false, P.first.first);
654 for (auto &P : BSSGlobals)
655 if (P.second.size() > 1)
656 Changed |= doMerge(P.second, M, false, P.first.first);
658 if (EnableGlobalMergeOnConst)
659 for (auto &P : ConstGlobals)
660 if (P.second.size() > 1)
661 Changed |= doMerge(P.second, M, true, P.first.first);
663 return Changed;
666 bool GlobalMerge::runOnFunction(Function &F) {
667 return false;
670 bool GlobalMerge::doFinalization(Module &M) {
671 MustKeepGlobalVariables.clear();
672 return false;
675 Pass *llvm::createGlobalMergePass(const TargetMachine *TM, unsigned Offset,
676 bool OnlyOptimizeForSize,
677 bool MergeExternalByDefault) {
678 bool MergeExternal = (EnableGlobalMergeOnExternal == cl::BOU_UNSET) ?
679 MergeExternalByDefault : (EnableGlobalMergeOnExternal == cl::BOU_TRUE);
680 return new GlobalMerge(TM, Offset, OnlyOptimizeForSize, MergeExternal);