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Add support to ValueTracking for determining that a pointer is non-null
by virtue of inbounds GEPs that preclude a null pointer. This is a very common pattern in the code generated by std::vector and other standard library routines which use allocators that test for null pervasively. This is one step closer to teaching Clang+LLVM to be able to produce an empty function for: void f() { std::vector<int> v; v.push_back(1); v.push_back(2); v.push_back(3); v.push_back(4); } Which is related to getting them to completely fold SmallVector push_back sequences into constants when inlining and other optimizations make that a possibility. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@169573 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -862,6 +862,72 @@ bool llvm::isPowerOfTwo(Value *V, const DataLayout *TD, bool OrZero,
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return false;
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}
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/// \brief Test whether a GEP's result is known to be non-null.
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///
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/// Uses properties inherent in a GEP to try to determine whether it is known
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/// to be non-null.
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///
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/// Currently this routine does not support vector GEPs.
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static bool isGEPKnownNonNull(GEPOperator *GEP, const DataLayout *DL,
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unsigned Depth) {
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if (!GEP->isInBounds() || GEP->getPointerAddressSpace() != 0)
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return false;
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// FIXME: Support vector-GEPs.
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assert(GEP->getType()->isPointerTy() && "We only support plain pointer GEP");
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// If the base pointer is non-null, we cannot walk to a null address with an
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// inbounds GEP in address space zero.
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if (isKnownNonZero(GEP->getPointerOperand(), DL, Depth))
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return true;
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// Past this, if we don't have DataLayout, we can't do much.
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if (!DL)
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return false;
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// Walk the GEP operands and see if any operand introduces a non-zero offset.
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// If so, then the GEP cannot produce a null pointer, as doing so would
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// inherently violate the inbounds contract within address space zero.
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for (gep_type_iterator GTI = gep_type_begin(GEP), GTE = gep_type_end(GEP);
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GTI != GTE; ++GTI) {
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// Struct types are easy -- they must always be indexed by a constant.
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if (StructType *STy = dyn_cast<StructType>(*GTI)) {
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ConstantInt *OpC = cast<ConstantInt>(GTI.getOperand());
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unsigned ElementIdx = OpC->getZExtValue();
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const StructLayout *SL = DL->getStructLayout(STy);
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uint64_t ElementOffset = SL->getElementOffset(ElementIdx);
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if (ElementOffset > 0)
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return true;
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continue;
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}
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// If we have a zero-sized type, the index doesn't matter. Keep looping.
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if (DL->getTypeAllocSize(GTI.getIndexedType()) == 0)
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continue;
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// Fast path the constant operand case both for efficiency and so we don't
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// increment Depth when just zipping down an all-constant GEP.
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if (ConstantInt *OpC = dyn_cast<ConstantInt>(GTI.getOperand())) {
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if (!OpC->isZero())
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return true;
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continue;
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}
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// We post-increment Depth here because while isKnownNonZero increments it
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// as well, when we pop back up that increment won't persist. We don't want
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// to recurse 10k times just because we have 10k GEP operands. We don't
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// bail completely out because we want to handle constant GEPs regardless
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// of depth.
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if (Depth++ >= MaxDepth)
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continue;
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if (isKnownNonZero(GTI.getOperand(), DL, Depth))
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return true;
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}
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return false;
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}
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/// isKnownNonZero - Return true if the given value is known to be non-zero
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/// when defined. For vectors return true if every element is known to be
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/// non-zero when defined. Supports values with integer or pointer type and
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@ -881,6 +947,13 @@ bool llvm::isKnownNonZero(Value *V, const DataLayout *TD, unsigned Depth) {
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if (Depth++ >= MaxDepth)
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return false;
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// Check for pointer simplifications.
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if (V->getType()->isPointerTy()) {
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if (GEPOperator *GEP = dyn_cast<GEPOperator>(V))
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if (isGEPKnownNonNull(GEP, TD, Depth))
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return true;
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}
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unsigned BitWidth = getBitWidth(V->getType(), TD);
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// X | Y != 0 if X != 0 or Y != 0.
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@ -165,6 +165,46 @@ entry:
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ret i1 %cmp
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}
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define i1 @gep13(i8* %ptr) {
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; CHECK: @gep13
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; We can prove this GEP is non-null because it is inbounds.
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%x = getelementptr inbounds i8* %ptr, i32 1
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%cmp = icmp eq i8* %x, null
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ret i1 %cmp
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; CHECK-NEXT: ret i1 false
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}
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define i1 @gep14({ {}, i8 }* %ptr) {
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; CHECK: @gep14
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; We can't simplify this because the offset of one in the GEP actually doesn't
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; move the pointer.
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%x = getelementptr inbounds { {}, i8 }* %ptr, i32 0, i32 1
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%cmp = icmp eq i8* %x, null
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ret i1 %cmp
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; CHECK-NOT: ret i1 false
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}
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define i1 @gep15({ {}, [4 x {i8, i8}]}* %ptr, i32 %y) {
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; CHECK: @gep15
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; We can prove this GEP is non-null even though there is a user value, as we
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; would necessarily violate inbounds on one side or the other.
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%x = getelementptr inbounds { {}, [4 x {i8, i8}]}* %ptr, i32 0, i32 1, i32 %y, i32 1
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%cmp = icmp eq i8* %x, null
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ret i1 %cmp
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; CHECK-NEXT: ret i1 false
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}
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define i1 @gep16(i8* %ptr, i32 %a) {
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; CHECK: @gep16
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; We can prove this GEP is non-null because it is inbounds and because we know
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; %b is non-zero even though we don't know its value.
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%b = or i32 %a, 1
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%x = getelementptr inbounds i8* %ptr, i32 %b
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%cmp = icmp eq i8* %x, null
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ret i1 %cmp
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; CHECK-NEXT: ret i1 false
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}
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define i1 @zext(i32 %x) {
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; CHECK: @zext
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%e1 = zext i32 %x to i64
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