Update accepted Ira Baxter's answer since it pointed me into the right direction: I first figured out what I actually needed by starting the implementation of the compiling stage, and it became obvious pretty soon that traversal within the nodes made thie an impossible approach. Not all nodes should be visited, and some of them in reverse order (for example, first the rhs of an assignment so the compiler can check if the type matches with the rhs/operator). Putting traversal in the visitor makes this all very easy.
I'm playing around with ASTs and the likes before deciding a major refactory of the handling of a mini-language used in an applicaiton. I've built a Lexer/Parser and can get the AST just fine. There's also a Visitor and as concrete implementation I made an ASTToOriginal which just recreates the original source file. Eventually there's goin to be some sort of compiler that also implements the Vsisitor and creates the actual C++ code at runtime so I want to make sure everything is right from the start. While everything works fine now, there is some similar/duplicate code since the traversal order is implemented in the Visitor itself.
When looking up more information, it seems that some implementations prefer keeping the traversal order in the visited objects themselves instead, in order not to repeat this in each concrete visitor. Even the GoF only talks briefly about this, in the same way. So I wanted to give this approach a try as well but got stuck pretty soon.. Let me explain.
Sample source line and corresponding AST nodes:
if(t>100?x=1;sety(20,true):x=2)
Conditional
BinaryOp
left=Variable [name=t], operator=[>], right=Integer [value=100]
IfTrue
Assignment
left=Variable [name=x], operator=[=], right=Integer [value=1]
Method
MethodName [name=sety], Arguments( Integer [value=20], Boolean [value=true] )
IfFalse
Assignment
left=Variable [name=x], operator=[=], right=Integer [value=1]
Some code:
class BinaryOp {
void Accept( Visitor* v ){ v->Visit( this ); }
Expr* left;
Op* op;
Expr* right;
};
class Variable {
void Accept( Visitor* v ){ v->Visit( this ); }
Name* name;
};
class Visitor { //provide basic traversal, terminal visitors are abstract
void Visit( Variable* ) = 0;
void Visit( BinaryOp* p ) {
p->left->Accept( this );
p->op->Accept( this );
p->right->Accept( this );
}
void Visit( Conditional* p ) {
p->cond->Accept( this );
VisitList( p->ifTrue ); //VisitList just iterates over the array, calling Accept on each element
VisitList( p->ifFalse );
}
};
Implementing ASTToOriginal is pretty straightforward: all abstract Visitor methods just print out the name or value member of the terminal. For the non-terminals it depends; printing an Assignment works ok with the default Visitor traversal, for a Conditional extra code is needed:
class ASTToOriginal {
void Visit( Conditional* p ) {
str << "if(";
p->cond->Accept( this );
str << "?";
//VisitListWithPostOp is like VisitList but calls op for each *except the last* iteration
VisitListWithPostOp( p->ifTrue, AppendText( str, ";" ) );
VisitListWithPostOp( p->ifFalse, AppendText( str, ";" ) );
str << ")";
}
};
So as one can see both the Visit methods for a Conditional in Visitor and ASTToOriginal are indeed very similar. However trying to solve this by putting traversal into the nodes made things not just worse, but rather a complete mess. I tried an approach with PreVisit and PostVisit methods which solved some problems, but just introduced more and more code into the Nodes. It also started to look like I would have to keep track of a number of states inside the Visitor to be able to know when to add closing brackets etc.
class BinaryOp {
void Accept( Conditional* v ) {
v->Visit( this );
op->Accept( v )
VisitList( ifTrue, v );
VisitList( ifFalse, v );
};
class Vistor {
//now all methods are pure virtual
};
class ASTToOriginal {
void Visit( Conditional* p ) {
str << "if(";
//now what??? after returning here, BinaryOp will visit the op automatically so I can't insert the "?"
//If I make a PostVisit( BinaryOp* ), and call it it BinaryOp::Accept, I get the chance to insert the "?",
//but now I have to keep a state: my PostVisit method needs to know it's currently being called as part of a Conditional
//Things are even worse for the ifTrue/ifFalse statement arrays: each element needs a ";" appended, but not the last one,
//how am I ever going to do that in a clean way?
}
};
Question: is this approach just not suited for my case, or am I overlooking something essential? Is there a common design to cope with these problems? What if I also need traversal in a different direction?