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[SCCP] Support ranges for loads and stores.
Integer ranges can be used for loaded/stored values. Note that widening can be disabled for loads/stores, as we only rely on instructions that cause continued increases to ranges to be widened (like binary operators). Reviewers: efriedma, mssimpso, davide Reviewed By: efriedma Differential Revision: https://reviews.llvm.org/D78433
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@ -1071,8 +1071,9 @@ void SCCPSolver::visitStoreInst(StoreInst &SI) {
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return;
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// Get the value we are storing into the global, then merge it.
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mergeInValue(I->second, GV, getValueState(SI.getOperand(0)));
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if (isOverdefined(I->second))
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mergeInValue(I->second, GV, getValueState(SI.getOperand(0)),
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ValueLatticeElement::MergeOptions().setCheckWiden(false));
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if (I->second.isOverdefined())
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TrackedGlobals.erase(I); // No need to keep tracking this!
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}
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@ -1085,7 +1086,7 @@ void SCCPSolver::visitLoadInst(LoadInst &I) {
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// ResolvedUndefsIn might mark I as overdefined. Bail out, even if we would
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// discover a concrete value later.
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if (isOverdefined(ValueState[&I]))
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if (ValueState[&I].isOverdefined())
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return (void)markOverdefined(&I);
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ValueLatticeElement PtrVal = getValueState(I.getOperand(0));
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@ -1113,7 +1114,8 @@ void SCCPSolver::visitLoadInst(LoadInst &I) {
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// If we are tracking this global, merge in the known value for it.
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auto It = TrackedGlobals.find(GV);
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if (It != TrackedGlobals.end()) {
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mergeInValue(IV, &I, It->second);
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mergeInValue(IV, &I, It->second,
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ValueLatticeElement::MergeOptions().setCheckWiden(false));
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return;
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}
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}
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@ -8,14 +8,10 @@ declare void @use(i1)
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define void @test1a() {
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; CHECK-LABEL: @test1a(
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; CHECK-NEXT: [[X:%.*]] = load i32, i32* @G
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; CHECK-NEXT: [[T_1:%.*]] = icmp ne i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_1]])
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; CHECK-NEXT: [[T_2:%.*]] = icmp ult i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_2]])
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; CHECK-NEXT: [[F_1:%.*]] = icmp eq i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[F_1]])
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; CHECK-NEXT: [[F_2:%.*]] = icmp ugt i32 [[X]], 123
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; CHECK-NEXT: call void @use(i1 [[F_2]])
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: [[C_1:%.*]] = icmp eq i32 [[X]], 20
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; CHECK-NEXT: call void @use(i1 [[C_1]])
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; CHECK-NEXT: ret void
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@ -59,14 +55,10 @@ F:
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define void @test2a() {
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; CHECK-LABEL: @test2a(
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; CHECK-NEXT: [[X:%.*]] = load i32, i32* @H
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; CHECK-NEXT: [[T_1:%.*]] = icmp ne i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_1]])
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; CHECK-NEXT: [[T_2:%.*]] = icmp ult i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_2]])
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; CHECK-NEXT: [[F_1:%.*]] = icmp eq i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[F_1]])
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; CHECK-NEXT: [[F_2:%.*]] = icmp ugt i32 [[X]], 123
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; CHECK-NEXT: call void @use(i1 [[F_2]])
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: [[C_1:%.*]] = icmp eq i32 [[X]], 20
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; CHECK-NEXT: call void @use(i1 [[C_1]])
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; CHECK-NEXT: ret void
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@ -123,14 +115,10 @@ F:
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define void @test3a() {
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; CHECK-LABEL: @test3a(
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; CHECK-NEXT: [[X:%.*]] = load i32, i32* @I
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; CHECK-NEXT: [[T_1:%.*]] = icmp ne i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_1]])
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; CHECK-NEXT: [[T_2:%.*]] = icmp ult i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[T_2]])
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; CHECK-NEXT: [[F_1:%.*]] = icmp eq i32 [[X]], 124
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; CHECK-NEXT: call void @use(i1 [[F_1]])
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; CHECK-NEXT: [[F_2:%.*]] = icmp ugt i32 [[X]], 123
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; CHECK-NEXT: call void @use(i1 [[F_2]])
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: [[C_1:%.*]] = icmp eq i32 [[X]], 20
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; CHECK-NEXT: call void @use(i1 [[C_1]])
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; CHECK-NEXT: ret void
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@ -245,19 +233,15 @@ exit:
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; Same as test1, but storing 4 different values.
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@K = internal global i32 0
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@K = internal global i32 501
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define void @test5a() {
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; CHECK-LABEL: @test5a(
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; CHECK-NEXT: [[X:%.*]] = load i32, i32* @K
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; CHECK-NEXT: [[T_1:%.*]] = icmp ne i32 [[X]], 499
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; CHECK-NEXT: call void @use(i1 [[T_1]])
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; CHECK-NEXT: [[T_2:%.*]] = icmp ult i32 [[X]], 600
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; CHECK-NEXT: call void @use(i1 [[T_2]])
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; CHECK-NEXT: [[F_1:%.*]] = icmp eq i32 [[X]], 600
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; CHECK-NEXT: call void @use(i1 [[F_1]])
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; CHECK-NEXT: [[F_2:%.*]] = icmp ugt i32 [[X]], 600
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; CHECK-NEXT: call void @use(i1 [[F_2]])
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 true)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: call void @use(i1 false)
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; CHECK-NEXT: [[C_1:%.*]] = icmp eq i32 [[X]], 510
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; CHECK-NEXT: call void @use(i1 [[C_1]])
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; CHECK-NEXT: ret void
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@ -319,5 +303,4 @@ T.3:
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F.3:
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store i32 530, i32* @K
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ret void
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}
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