I have a question about the pattern matching stuff that's used in the Instruction Combiner. If I have code like this: if (match(B, m_Select(m_Value(), m_ConstantInt(0), m_ConstantInt(-1)))) { if (match(C, m_Not(m_Value(B)))) return SelectInst::Create(cast<User>(B)->getOperand(0), D, A); and we match, the program fails during the "SelectInst::Create" phase. The problem is because B is now a Constant with "-2" as its value, so it has 0 operands. It appears that the m_Not() match is changing the value of B during this call. Is this intentional? This happens in the "bind_ty" template in PatternMatch.h: template<typename Class> struct bind_ty { Class *&VR; bind_ty(Class *&V) : VR(V) {} template<typename ITy> bool match(ITy *V) { if (Class *CV = dyn_cast<Class>(V)) { VR = CV; return true; } return false; } }; Why are we taking a reference to a pointer here? The assignment in the "match" method over writes the value of "B", which seems weird and wrong to me. -bw
Bill Wendling wrote:> I have a question about the pattern matching stuff that's used in the > Instruction Combiner. If I have code like this: > > if (match(B, m_Select(m_Value(), m_ConstantInt(0), > m_ConstantInt(-1)))) { > if (match(C, m_Not(m_Value(B)))) > return SelectInst::Create(cast<User>(B)->getOperand(0), D, A); > > and we match, the program fails during the "SelectInst::Create" phase. > The problem is because B is now a Constant with "-2" as its value, so > it has 0 operands. It appears that the m_Not() match is changing the > value of B during this call. > > Is this intentional? This happens in the "bind_ty" template in > PatternMatch.h: > > template<typename Class> > struct bind_ty { > Class *&VR; > bind_ty(Class *&V) : VR(V) {} > > template<typename ITy> > bool match(ITy *V) { > if (Class *CV = dyn_cast<Class>(V)) { > VR = CV; > return true; > } > return false; > } > }; > > Why are we taking a reference to a pointer here? The assignment in the > "match" method over writes the value of "B", which seems weird and > wrong to me.This is deliberate. m_Foo(V) means "match any Foo and put its result into V." The way it's generally used is to declare empty variables, match against them, and test the equality: Value *A, *B, *C, *D; if (match(Expr, m_Or(m_And(A, B), m_And(C, D))) { if (B == D) { ... do optimization ... Nick> -bw > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >
On Nov 9, 2008, at 7:51 AM, Nick Lewycky wrote:> Bill Wendling wrote: >> Why are we taking a reference to a pointer here? The assignment in >> the >> "match" method over writes the value of "B", which seems weird and >> wrong to me. > > This is deliberate. m_Foo(V) means "match any Foo and put its result > into V." The way it's generally used is to declare empty variables, > match against them, and test the equality: > > Value *A, *B, *C, *D; > if (match(Expr, m_Or(m_And(A, B), m_And(C, D))) { > if (B == D) { > ... do optimization ... >Ah! Okay. Thanks for the explanation. -bw
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