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Implement add.ll:test29. Codegening:
struct S { unsigned int i : 6, j : 11, k : 15; } b; void plus1 (unsigned int x) { b.i += x; } as: _plus1: lis r2, ha16(L_b$non_lazy_ptr) lwz r2, lo16(L_b$non_lazy_ptr)(r2) lwz r4, 0(r2) add r3, r4, r3 rlwimi r3, r4, 0, 0, 25 stw r3, 0(r2) blr instead of: _plus1: lis r2, ha16(L_b$non_lazy_ptr) lwz r2, lo16(L_b$non_lazy_ptr)(r2) lwz r4, 0(r2) rlwinm r5, r4, 0, 26, 31 add r3, r5, r3 rlwimi r3, r4, 0, 0, 25 stw r3, 0(r2) blr llvm-svn: 23379
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@ -223,6 +223,9 @@ namespace {
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Instruction *OptAndOp(Instruction *Op, ConstantIntegral *OpRHS,
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ConstantIntegral *AndRHS, BinaryOperator &TheAnd);
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Value *FoldLogicalPlusAnd(Value *LHS, Value *RHS, ConstantIntegral *Mask,
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bool isSub, Instruction &I);
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Instruction *InsertRangeTest(Value *V, Constant *Lo, Constant *Hi,
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bool Inside, Instruction &IB);
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};
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@ -1570,6 +1573,46 @@ Instruction *InstCombiner::InsertRangeTest(Value *V, Constant *Lo, Constant *Hi,
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return new SetCondInst(Instruction::SetGT, OffsetVal, AddCST);
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}
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/// FoldLogicalPlusAnd - We know that Mask is of the form 0+1+, and that this is
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/// part of an expression (LHS +/- RHS) & Mask, where isSub determines whether
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/// the operator is a sub. If we can fold one of the following xforms:
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///
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/// ((A & N) +/- B) & Mask -> (A +/- B) & Mask iff N&Mask == Mask
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/// ((A | N) +/- B) & Mask -> (A +/- B) & Mask iff N&Mask == 0
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/// ((A ^ N) +/- B) & Mask -> (A +/- B) & Mask iff N&Mask == 0
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///
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/// return (A +/- B).
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///
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Value *InstCombiner::FoldLogicalPlusAnd(Value *LHS, Value *RHS,
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ConstantIntegral *Mask, bool isSub,
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Instruction &I) {
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Instruction *LHSI = dyn_cast<Instruction>(LHS);
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if (!LHSI || LHSI->getNumOperands() != 2 ||
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!isa<ConstantInt>(LHSI->getOperand(1))) return 0;
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ConstantInt *N = cast<ConstantInt>(LHSI->getOperand(1));
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switch (LHSI->getOpcode()) {
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default: return 0;
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case Instruction::And:
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if (ConstantExpr::getAnd(N, Mask) == Mask)
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break;
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return 0;
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case Instruction::Or:
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case Instruction::Xor:
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if (ConstantExpr::getAnd(N, Mask)->isNullValue())
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break;
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return 0;
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}
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Instruction *New;
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if (isSub)
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New = BinaryOperator::createSub(LHSI->getOperand(0), RHS, "fold");
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else
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New = BinaryOperator::createAdd(LHSI->getOperand(0), RHS, "fold");
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return InsertNewInstBefore(New, I);
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}
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Instruction *InstCombiner::visitAnd(BinaryOperator &I) {
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bool Changed = SimplifyCommutative(I);
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@ -1640,6 +1683,29 @@ Instruction *InstCombiner::visitAnd(BinaryOperator &I) {
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MaskedValueIsZero(Op0RHS, AndRHS))
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return ReplaceInstUsesWith(I, Constant::getNullValue(I.getType()));
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break;
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case Instruction::Add:
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// If the AndRHS is a power of two minus one (0+1+).
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if ((AndRHS->getRawValue() & AndRHS->getRawValue()+1) == 0) {
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// ((A & N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == AndRHS.
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// ((A | N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
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// ((A ^ N) + B) & AndRHS -> (A + B) & AndRHS iff N&AndRHS == 0
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if (Value *V = FoldLogicalPlusAnd(Op0LHS, Op0RHS, AndRHS, false, I))
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return BinaryOperator::createAnd(V, AndRHS);
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if (Value *V = FoldLogicalPlusAnd(Op0RHS, Op0LHS, AndRHS, false, I))
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return BinaryOperator::createAnd(V, AndRHS); // Add commutes
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}
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break;
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case Instruction::Sub:
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// If the AndRHS is a power of two minus one (0+1+).
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if ((AndRHS->getRawValue() & AndRHS->getRawValue()+1) == 0) {
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// ((A & N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == AndRHS.
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// ((A | N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
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// ((A ^ N) - B) & AndRHS -> (A - B) & AndRHS iff N&AndRHS == 0
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if (Value *V = FoldLogicalPlusAnd(Op0LHS, Op0RHS, AndRHS, true, I))
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return BinaryOperator::createAnd(V, AndRHS);
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}
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break;
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}
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if (ConstantInt *Op0CI = dyn_cast<ConstantInt>(Op0I->getOperand(1)))
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