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Revert "Resurrect r191017 " GVN proceeds in the presence of dead code" plus a fix to PR17307 & 17308." 

This causes PR17852.

This reverts commit d93e8a06b2ca09ab18f390cd514b7443e2e571f7.

Conflicts:
	test/Transforms/GVN/cond_br2.ll

llvm-svn: 194348
This commit is contained in:
Bill Wendling 2013-11-10 07:34:34 +00:00
parent c900303e2f
commit fed6c220ec
9 changed files with 28 additions and 389 deletions
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174
llvm/lib/Transforms/Scalar/GVN.cpp
View File

@ -21,7 +21,6 @@
#include "llvm/ADT/DepthFirstIterator.h"
#include "llvm/ADT/Hashing.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/SetVector.h"
#include "llvm/ADT/Statistic.h"
#include "llvm/Analysis/AliasAnalysis.h"
#include "llvm/Analysis/CFG.h"
@ -508,9 +507,7 @@ namespace {
enum ValType {
SimpleVal, // A simple offsetted value that is accessed.
LoadVal, // A value produced by a load.
MemIntrin, // A memory intrinsic which is loaded from.
UndefVal // A UndefValue representing a value from dead block (which
// is not yet physically removed from the CFG).
MemIntrin // A memory intrinsic which is loaded from.
};
/// V - The value that is live out of the block.
@ -548,20 +545,10 @@ namespace {
Res.Offset = Offset;
return Res;
}
static AvailableValueInBlock getUndef(BasicBlock *BB) {
AvailableValueInBlock Res;
Res.BB = BB;
Res.Val.setPointer(0);
Res.Val.setInt(UndefVal);
Res.Offset = 0;
return Res;
}
bool isSimpleValue() const { return Val.getInt() == SimpleVal; }
bool isCoercedLoadValue() const { return Val.getInt() == LoadVal; }
bool isMemIntrinValue() const { return Val.getInt() == MemIntrin; }
bool isUndefValue() const { return Val.getInt() == UndefVal; }
Value *getSimpleValue() const {
assert(isSimpleValue() && "Wrong accessor");
@ -589,7 +576,6 @@ namespace {
DominatorTree *DT;
const DataLayout *TD;
const TargetLibraryInfo *TLI;
SetVector<BasicBlock *> DeadBlocks;
ValueTable VN;
@ -712,9 +698,6 @@ namespace {
unsigned replaceAllDominatedUsesWith(Value *From, Value *To,
const BasicBlockEdge &Root);
bool propagateEquality(Value *LHS, Value *RHS, const BasicBlockEdge &Root);
bool processFoldableCondBr(BranchInst *BI);
void addDeadBlock(BasicBlock *BB);
void assignValNumForDeadCode();
};
char GVN::ID = 0;
@ -1272,10 +1255,8 @@ static Value *ConstructSSAForLoadSet(LoadInst *LI,
// just use the dominating value directly.
if (ValuesPerBlock.size() == 1 &&
gvn.getDominatorTree().properlyDominates(ValuesPerBlock[0].BB,
LI->getParent())) {
assert(!ValuesPerBlock[0].isUndefValue() && "Dead BB dominate this block");
LI->getParent()))
return ValuesPerBlock[0].MaterializeAdjustedValue(LI->getType(), gvn);
}
// Otherwise, we have to construct SSA form.
SmallVector<PHINode*, 8> NewPHIs;
@ -1345,7 +1326,7 @@ Value *AvailableValueInBlock::MaterializeAdjustedValue(Type *LoadTy, GVN &gvn) c
<< *getCoercedLoadValue() << '\n'
<< *Res << '\n' << "\n\n\n");
}
} else if (isMemIntrinValue()) {
} else {
const DataLayout *TD = gvn.getDataLayout();
assert(TD && "Need target data to handle type mismatch case");
Res = GetMemInstValueForLoad(getMemIntrinValue(), Offset,
@ -1353,10 +1334,6 @@ Value *AvailableValueInBlock::MaterializeAdjustedValue(Type *LoadTy, GVN &gvn) c
DEBUG(dbgs() << "GVN COERCED NONLOCAL MEM INTRIN:\nOffset: " << Offset
<< " " << *getMemIntrinValue() << '\n'
<< *Res << '\n' << "\n\n\n");
} else {
assert(isUndefValue() && "Should be UndefVal");
DEBUG(dbgs() << "GVN COERCED NONLOCAL Undef:\n";);
return UndefValue::get(LoadTy);
}
return Res;
}
@ -1380,13 +1357,6 @@ void GVN::AnalyzeLoadAvailability(LoadInst *LI, LoadDepVect &Deps,
BasicBlock *DepBB = Deps[i].getBB();
MemDepResult DepInfo = Deps[i].getResult();
if (DeadBlocks.count(DepBB)) {
// Dead dependent mem-op disguise as a load evaluating the same value
// as the load in question.
ValuesPerBlock.push_back(AvailableValueInBlock::getUndef(DepBB));
continue;
}
if (!DepInfo.isDef() && !DepInfo.isClobber()) {
UnavailableBlocks.push_back(DepBB);
continue;
@ -2223,13 +2193,11 @@ bool GVN::processInstruction(Instruction *I) {
// For conditional branches, we can perform simple conditional propagation on
// the condition value itself.
if (BranchInst *BI = dyn_cast<BranchInst>(I)) {
if (!BI->isConditional())
if (!BI->isConditional() || isa<Constant>(BI->getCondition()))
return false;
if (isa<Constant>(BI->getCondition()))
return processFoldableCondBr(BI);
Value *BranchCond = BI->getCondition();
BasicBlock *TrueSucc = BI->getSuccessor(0);
BasicBlock *FalseSucc = BI->getSuccessor(1);
// Avoid multiple edges early.
@ -2346,9 +2314,6 @@ bool GVN::runOnFunction(Function& F) {
}
if (EnablePRE) {
// Fabricate val-num for dead-code in order to suppress assertion in
// performPRE().
assignValNumForDeadCode();
bool PREChanged = true;
while (PREChanged) {
PREChanged = performPRE(F);
@ -2362,9 +2327,6 @@ bool GVN::runOnFunction(Function& F) {
// Actually, when this happens, we should just fully integrate PRE into GVN.
cleanupGlobalSets();
// Do not cleanup DeadBlocks in cleanupGlobalSets() as it's called for each
// iteration.
DeadBlocks.clear();
return Changed;
}
@ -2375,9 +2337,6 @@ bool GVN::processBlock(BasicBlock *BB) {
// (and incrementing BI before processing an instruction).
assert(InstrsToErase.empty() &&
"We expect InstrsToErase to be empty across iterations");
if (DeadBlocks.count(BB))
return false;
bool ChangedFunction = false;
for (BasicBlock::iterator BI = BB->begin(), BE = BB->end();
@ -2671,124 +2630,3 @@ void GVN::verifyRemoved(const Instruction *Inst) const {
}
}
}
// BB is declared dead, which implied other blocks become dead as well. This
// function is to add all these blocks to "DeadBlocks". For the dead blocks'
// live successors, update their phi nodes by replacing the operands
// corresponding to dead blocks with UndefVal.
//
void GVN::addDeadBlock(BasicBlock *BB) {
SmallVector<BasicBlock *, 4> NewDead;
SmallSetVector<BasicBlock *, 4> DF;
NewDead.push_back(BB);
while (!NewDead.empty()) {
BasicBlock *D = NewDead.pop_back_val();
if (DeadBlocks.count(D))
continue;
// All blocks dominated by D are dead.
SmallVector<BasicBlock *, 8> Dom;
DT->getDescendants(D, Dom);
DeadBlocks.insert(Dom.begin(), Dom.end());
// Figure out the dominance-frontier(D).
for (SmallVectorImpl<BasicBlock *>::iterator I = Dom.begin(),
E = Dom.end(); I != E; I++) {
BasicBlock *B = *I;
for (succ_iterator SI = succ_begin(B), SE = succ_end(B); SI != SE; SI++) {
BasicBlock *S = *SI;
if (DeadBlocks.count(S))
continue;
bool AllPredDead = true;
for (pred_iterator PI = pred_begin(S), PE = pred_end(S); PI != PE; PI++)
if (!DeadBlocks.count(*PI)) {
AllPredDead = false;
break;
}
if (!AllPredDead) {
// S could be proved dead later on. That is why we don't update phi
// operands at this moment.
DF.insert(S);
} else {
// While S is not dominated by D, it is dead by now. This could take
// place if S already have a dead predecessor before D is declared
// dead.
NewDead.push_back(S);
}
}
}
}
// For the dead blocks' live successors, update their phi nodes by replacing
// the operands corresponding to dead blocks with UndefVal.
for(SmallSetVector<BasicBlock *, 4>::iterator I = DF.begin(), E = DF.end();
I != E; I++) {
BasicBlock *B = *I;
if (DeadBlocks.count(B))
continue;
for (pred_iterator PI = pred_begin(B), PE = pred_end(B); PI != PE; PI++) {
BasicBlock *P = *PI;
if (!DeadBlocks.count(P))
continue;
for (BasicBlock::iterator II = B->begin(); isa<PHINode>(II); ++II) {
PHINode &Phi = cast<PHINode>(*II);
Phi.setIncomingValue(Phi.getBasicBlockIndex(P),
UndefValue::get(Phi.getType()));
}
}
}
}
// If the given branch is recognized as a foldable branch (i.e. conditional
// branch with constant condition), it will perform following analyses and
// transformation.
// 1) If the dead out-coming edge is a critical-edge, split it. Let
// R be the target of the dead out-coming edge.
// 1) Identify the set of dead blocks implied by the branch's dead outcoming
// edge. The result of this step will be {X| X is dominated by R}
// 2) Identify those blocks which haves at least one dead prodecessor. The
// result of this step will be dominance-frontier(R).
// 3) Update the PHIs in DF(R) by replacing the operands corresponding to
// dead blocks with "UndefVal" in an hope these PHIs will optimized away.
//
// Return true iff *NEW* dead code are found.
bool GVN::processFoldableCondBr(BranchInst *BI) {
if (!BI || BI->isUnconditional())
return false;
ConstantInt *Cond = dyn_cast<ConstantInt>(BI->getCondition());
if (!Cond)
return false;
BasicBlock *DeadRoot = Cond->getZExtValue() ?
BI->getSuccessor(1) : BI->getSuccessor(0);
if (DeadBlocks.count(DeadRoot))
return false;
if (!DeadRoot->getSinglePredecessor())
DeadRoot = splitCriticalEdges(BI->getParent(), DeadRoot);
addDeadBlock(DeadRoot);
return true;
}
// performPRE() will trigger assert if it come across an instruciton without
// associated val-num. As it normally has far more live instructions than dead
// instructions, it makes more sense just to "fabricate" a val-number for the
// dead code than checking if instruction involved is dead or not.
void GVN::assignValNumForDeadCode() {
for (SetVector<BasicBlock *>::iterator I = DeadBlocks.begin(),
E = DeadBlocks.end(); I != E; I++) {
BasicBlock *BB = *I;
for (BasicBlock::iterator II = BB->begin(), EE = BB->end();
II != EE; II++) {
Instruction *Inst = &*II;
unsigned ValNum = VN.lookup_or_add(Inst);
addToLeaderTable(ValNum, Inst, BB);
}
}
}

8
llvm/test/Transforms/GVN/2007-07-26-InterlockingLoops.ll
View File

@ -2,7 +2,7 @@
@last = external global [65 x i32*]
define i32 @NextRootMove(i32 %wtm, i32 %x, i32 %y, i32 %z) {
define i32 @NextRootMove(i32 %wtm) {
entry:
%A = alloca i32*
%tmp17618 = load i32** getelementptr ([65 x i32*]* @last, i32 0, i32 1), align 4
@ -15,14 +15,12 @@ entry:
br label %cond_true116
cond_true116:
%cmp = icmp eq i32 %x, %y
br i1 %cmp, label %cond_true128, label %cond_true145
br i1 false, label %cond_true128, label %cond_true145
cond_true128:
%tmp17625 = load i32** getelementptr ([65 x i32*]* @last, i32 0, i32 1), align 4
store i32* %tmp17625, i32** %A
%cmp1 = icmp eq i32 %x, %z
br i1 %cmp1 , label %bb98.backedge, label %return.loopexit
br i1 false, label %bb98.backedge, label %return.loopexit
bb98.backedge:
br label %cond_true116

8
llvm/test/Transforms/GVN/2008-07-02-Unreachable.ll
View File

@ -3,11 +3,10 @@
@g_3 = external global i8 ; <i8*> [#uses=2]
define i8 @func_1(i32 %x, i32 %y) nounwind {
define i8 @func_1() nounwind {
entry:
%A = alloca i8
%cmp = icmp eq i32 %x, %y
br i1 %cmp, label %ifelse, label %ifthen
br i1 false, label %ifelse, label %ifthen
ifthen: ; preds = %entry
br label %ifend
@ -15,6 +14,9 @@ ifthen: ; preds = %entry
ifelse: ; preds = %entry
%tmp3 = load i8* @g_3 ; <i8> [#uses=0]
store i8 %tmp3, i8* %A
br label %forcond.thread
forcond.thread: ; preds = %ifelse
br label %afterfor
forcond: ; preds = %forinc

55
llvm/test/Transforms/GVN/cond_br.ll
View File

@ -1,55 +0,0 @@
; RUN: opt -basicaa -gvn -S < %s | FileCheck %s
@y = external global i32
@z = external global i32
; Function Attrs: nounwind ssp uwtable
define void @foo(i32 %x) {
; CHECK: @foo(i32 %x)
; CHECK: %.pre = load i32* @y
; CHECK: call void @bar(i32 %.pre)
%t = sub i32 %x, %x
%.pre = load i32* @y, align 4
%cmp = icmp sgt i32 %t, 2
br i1 %cmp, label %if.then, label %entry.if.end_crit_edge
entry.if.end_crit_edge: ; preds = %entry
br label %if.end
if.then: ; preds = %entry
%add = add nsw i32 %x, 3
store i32 %add, i32* @y, align 4
br label %if.end
if.end: ; preds = %entry.if.end_crit_edge, %if.then
%1 = phi i32 [ %.pre, %entry.if.end_crit_edge ], [ %add, %if.then ]
tail call void @bar(i32 %1)
ret void
}
define void @foo2(i32 %x) {
; CHECK: @foo2(i32 %x)
; CHECK: %.pre = load i32* @y
; CHECK: tail call void @bar(i32 %.pre)
entry:
%t = sub i32 %x, %x
%.pre = load i32* @y, align 4
%cmp = icmp sgt i32 %t, 2
br i1 %cmp, label %if.then, label %if.else
if.then: ; preds = %entry
%add = add nsw i32 %x, 3
store i32 %add, i32* @y, align 4
br label %if.end
if.else: ; preds = %entry
store i32 1, i32* @z, align 4
br label %if.end
if.end: ; preds = %if.else, %if.then
%0 = phi i32 [ %.pre, %if.else ], [ %add, %if.then ]
tail call void @bar(i32 %0)
ret void
}
declare void @bar(i32)

140
llvm/test/Transforms/GVN/cond_br2.ll
View File

@ -1,140 +0,0 @@
; RUN: opt -basicaa -gvn -S < %s | FileCheck %s
target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
%"class.llvm::SmallVector" = type { %"class.llvm::SmallVectorImpl", [1 x %"union.llvm::SmallVectorBase::U"] }
%"class.llvm::SmallVectorImpl" = type { %"class.llvm::SmallVectorTemplateBase" }
%"class.llvm::SmallVectorTemplateBase" = type { %"class.llvm::SmallVectorTemplateCommon" }
%"class.llvm::SmallVectorTemplateCommon" = type { %"class.llvm::SmallVectorBase" }
%"class.llvm::SmallVectorBase" = type { i8*, i8*, i8*, %"union.llvm::SmallVectorBase::U" }
%"union.llvm::SmallVectorBase::U" = type { x86_fp80 }
; Function Attrs: ssp uwtable
define void @_Z4testv() #0 {
; CHECK: @_Z4testv()
; CHECK: invoke.cont:
; CHECK: br i1 true, label %new.notnull.i11, label %if.end.i14
; CHECK: Retry.i10:
entry:
%sv = alloca %"class.llvm::SmallVector", align 16
%0 = bitcast %"class.llvm::SmallVector"* %sv to i8*
call void @llvm.lifetime.start(i64 64, i8* %0) #1
%BeginX.i.i.i.i.i.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 0
%FirstEl.i.i.i.i.i.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 3
%1 = bitcast %"union.llvm::SmallVectorBase::U"* %FirstEl.i.i.i.i.i.i to i8*
store i8* %1, i8** %BeginX.i.i.i.i.i.i, align 16, !tbaa !4
%EndX.i.i.i.i.i.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 1
store i8* %1, i8** %EndX.i.i.i.i.i.i, align 8, !tbaa !4
%CapacityX.i.i.i.i.i.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 2
%add.ptr.i.i.i.i2.i.i = getelementptr inbounds %"union.llvm::SmallVectorBase::U"* %FirstEl.i.i.i.i.i.i, i64 2
%add.ptr.i.i.i.i.i.i = bitcast %"union.llvm::SmallVectorBase::U"* %add.ptr.i.i.i.i2.i.i to i8*
store i8* %add.ptr.i.i.i.i.i.i, i8** %CapacityX.i.i.i.i.i.i, align 16, !tbaa !4
%EndX.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 1
%2 = load i8** %EndX.i, align 8, !tbaa !4
%CapacityX.i = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0, i32 2
%cmp.i = icmp ult i8* %2, %add.ptr.i.i.i.i.i.i
br i1 %cmp.i, label %Retry.i, label %if.end.i
Retry.i: ; preds = %.noexc, %entry
%3 = phi i8* [ %2, %entry ], [ %.pre.i, %.noexc ]
%new.isnull.i = icmp eq i8* %3, null
br i1 %new.isnull.i, label %invoke.cont, label %new.notnull.i
new.notnull.i: ; preds = %Retry.i
%4 = bitcast i8* %3 to i32*
store i32 1, i32* %4, align 4, !tbaa !5
br label %invoke.cont
if.end.i: ; preds = %entry
%5 = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0
invoke void @_ZN4llvm15SmallVectorBase8grow_podEmm(%"class.llvm::SmallVectorBase"* %5, i64 0, i64 4)
to label %.noexc unwind label %lpad
.noexc: ; preds = %if.end.i
%.pre.i = load i8** %EndX.i, align 8, !tbaa !4
br label %Retry.i
invoke.cont: ; preds = %new.notnull.i, %Retry.i
%add.ptr.i = getelementptr inbounds i8* %3, i64 4
store i8* %add.ptr.i, i8** %EndX.i, align 8, !tbaa !4
%6 = load i8** %CapacityX.i, align 16, !tbaa !4
%cmp.i8 = icmp ult i8* %add.ptr.i, %6
br i1 %cmp.i8, label %new.notnull.i11, label %if.end.i14
Retry.i10: ; preds = %if.end.i14
%.pre.i13 = load i8** %EndX.i, align 8, !tbaa !4
%new.isnull.i9 = icmp eq i8* %.pre.i13, null
br i1 %new.isnull.i9, label %invoke.cont2, label %new.notnull.i11
new.notnull.i11: ; preds = %invoke.cont, %Retry.i10
%7 = phi i8* [ %.pre.i13, %Retry.i10 ], [ %add.ptr.i, %invoke.cont ]
%8 = bitcast i8* %7 to i32*
store i32 2, i32* %8, align 4, !tbaa !5
br label %invoke.cont2
if.end.i14: ; preds = %invoke.cont
%9 = getelementptr inbounds %"class.llvm::SmallVector"* %sv, i64 0, i32 0, i32 0, i32 0, i32 0
invoke void @_ZN4llvm15SmallVectorBase8grow_podEmm(%"class.llvm::SmallVectorBase"* %9, i64 0, i64 4)
to label %Retry.i10 unwind label %lpad
invoke.cont2: ; preds = %new.notnull.i11, %Retry.i10
%10 = phi i8* [ null, %Retry.i10 ], [ %7, %new.notnull.i11 ]
%add.ptr.i12 = getelementptr inbounds i8* %10, i64 4
store i8* %add.ptr.i12, i8** %EndX.i, align 8, !tbaa !4
invoke void @_Z1gRN4llvm11SmallVectorIiLj8EEE(%"class.llvm::SmallVector"* %sv)
to label %invoke.cont3 unwind label %lpad
invoke.cont3: ; preds = %invoke.cont2
%11 = load i8** %BeginX.i.i.i.i.i.i, align 16, !tbaa !4
%cmp.i.i.i.i19 = icmp eq i8* %11, %1
br i1 %cmp.i.i.i.i19, label %_ZN4llvm11SmallVectorIiLj8EED1Ev.exit21, label %if.then.i.i.i20
if.then.i.i.i20: ; preds = %invoke.cont3
call void @free(i8* %11) #1
br label %_ZN4llvm11SmallVectorIiLj8EED1Ev.exit21
_ZN4llvm11SmallVectorIiLj8EED1Ev.exit21: ; preds = %invoke.cont3, %if.then.i.i.i20
call void @llvm.lifetime.end(i64 64, i8* %0) #1
ret void
lpad: ; preds = %if.end.i14, %if.end.i, %invoke.cont2
%12 = landingpad { i8*, i32 } personality i8* bitcast (i32 (...)* @__gxx_personality_v0 to i8*)
cleanup
%13 = load i8** %BeginX.i.i.i.i.i.i, align 16, !tbaa !4
%cmp.i.i.i.i = icmp eq i8* %13, %1
br i1 %cmp.i.i.i.i, label %eh.resume, label %if.then.i.i.i
if.then.i.i.i: ; preds = %lpad
call void @free(i8* %13) #1
br label %eh.resume
eh.resume: ; preds = %if.then.i.i.i, %lpad
resume { i8*, i32 } %12
}
; Function Attrs: nounwind
declare void @llvm.lifetime.start(i64, i8* nocapture) #1
declare i32 @__gxx_personality_v0(...)
declare void @_Z1gRN4llvm11SmallVectorIiLj8EEE(%"class.llvm::SmallVector"*) #2
; Function Attrs: nounwind
declare void @llvm.lifetime.end(i64, i8* nocapture) #1
declare void @_ZN4llvm15SmallVectorBase8grow_podEmm(%"class.llvm::SmallVectorBase"*, i64, i64) #2
; Function Attrs: nounwind
declare void @free(i8* nocapture) #3
attributes #0 = { ssp uwtable "less-precise-fpmad"="false" "no-frame-pointer-elim"="true" "no-frame-pointer-elim-non-leaf" "no-infs-fp-math"="false" "no-nans-fp-math"="false" "stack-protector-buffer-size"="8" "unsafe-fp-math"="false" "use-soft-float"="false" }
attributes #1 = { nounwind }
attributes #2 = { "less-precise-fpmad"="false" "no-frame-pointer-elim"="true" "no-frame-pointer-elim-non-leaf" "no-infs-fp-math"="false" "no-nans-fp-math"="false" "stack-protector-buffer-size"="8" "unsafe-fp-math"="false" "use-soft-float"="false" }
attributes #3 = { nounwind "less-precise-fpmad"="false" "no-frame-pointer-elim"="true" "no-frame-pointer-elim-non-leaf" "no-infs-fp-math"="false" "no-nans-fp-math"="false" "stack-protector-buffer-size"="8" "unsafe-fp-math"="false" "use-soft-float"="false" }
!0 = metadata !{metadata !"any pointer", metadata !1}
!1 = metadata !{metadata !"omnipotent char", metadata !2}
!2 = metadata !{metadata !"Simple C/C++ TBAA"}
!3 = metadata !{metadata !"int", metadata !1}
!4 = metadata !{metadata !0, metadata !0, i64 0}
!5 = metadata !{metadata !3, metadata !3, i64 0}

6
llvm/test/Transforms/GVN/local-pre.ll
View File

@ -1,9 +1,9 @@
; RUN: opt < %s -gvn -enable-pre -S | grep "b.pre"
define i32 @main(i32 %p, i32 %q) {
define i32 @main(i32 %p) {
block1:
%cmp = icmp eq i32 %p, %q
br i1 %cmp, label %block2, label %block3
br i1 true, label %block2, label %block3
block2:
%a = add i32 %p, 1

5
llvm/test/Transforms/GVN/rle-nonlocal.ll
View File

@ -1,9 +1,8 @@
; RUN: opt < %s -basicaa -gvn -S | FileCheck %s
define i32 @main(i32** %p, i32 %x, i32 %y) {
define i32 @main(i32** %p) {
block1:
%cmp = icmp eq i32 %x, %y
br i1 %cmp , label %block2, label %block3
br i1 true, label %block2, label %block3
block2:
%a = load i32** %p

5
llvm/test/Transforms/GVN/rle-semidominated.ll
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@ -1,10 +1,9 @@
; RUN: opt < %s -basicaa -gvn -S | grep "DEAD = phi i32 "
define i32 @main(i32* %p, i32 %x, i32 %y) {
define i32 @main(i32* %p) {
block1:
%z = load i32* %p
%cmp = icmp eq i32 %x, %y
br i1 %cmp, label %block2, label %block3
br i1 true, label %block2, label %block3
block2:
br label %block4

16
llvm/test/Transforms/GVN/rle.ll
View File

@ -369,14 +369,13 @@ Cont:
; CHECK: ret i8 %A
}
define i32 @chained_load(i32** %p, i32 %x, i32 %y) {
define i32 @chained_load(i32** %p) {
block1:
%A = alloca i32*
%z = load i32** %p
store i32* %z, i32** %A
%cmp = icmp eq i32 %x, %y
br i1 %cmp, label %block2, label %block3
br i1 true, label %block2, label %block3
block2:
%a = load i32** %p
@ -440,11 +439,10 @@ TY:
ret i32 0
}
define i32 @phi_trans3(i32* %p, i32 %x, i32 %y, i32 %z) {
define i32 @phi_trans3(i32* %p) {
; CHECK-LABEL: @phi_trans3(
block1:
%cmpxy = icmp eq i32 %x, %y
br i1 %cmpxy, label %block2, label %block3
br i1 true, label %block2, label %block3
block2:
store i32 87, i32* %p
@ -457,7 +455,7 @@ block3:
block4:
%A = phi i32 [-1, %block2], [42, %block3]
br i1 %cmpxy, label %block5, label %exit
br i1 true, label %block5, label %exit
; CHECK: block4:
; CHECK-NEXT: %D = phi i32 [ 87, %block2 ], [ 97, %block3 ]
@ -465,11 +463,11 @@ block4:
block5:
%B = add i32 %A, 1
br i1 %cmpxy, label %block6, label %exit
br i1 true, label %block6, label %exit
block6:
%C = getelementptr i32* %p, i32 %B
br i1 %cmpxy, label %block7, label %exit
br i1 true, label %block7, label %exit
block7:
%D = load i32* %C