Context: I need to write some tree-matching rules for an abstract-syntax tree.
I would like a clean-ish way of, for example, matching if a numeric-literal index (rather than symbolic) is given for an array access.
Consider that I have an abstract class (ie. has pure a virtual function), lvalue
.
lvalue
is subclassed to only 2 concrete classes, variable
and array_element
.
To handle these two cases differently, I could apply apply the visitor pattern (but I would consider it overkill here) or use an ugly mess of dynamic_cast
's. (I already use the visitor pattern to traverse my AST and CFG)
void main() {
lvalue *lv = new variable("foo");
// ... somehow do a tree-pattern matching on lv
}
To check if lv
was an array-access with a literal (ie. constant) index, I can certainly write the following:
if (array_element *ae = dynamic_cast<array_element*>(lv)) {
if (dynamic_cast<constant*>(ae->index)) {
cout << "Yes, lv is an array-access and indexed by a literal" << endl;
}
}
... but this is damn ugly and unmaintainable. A step in the right direction would be the following (if only it worked):
void func(variable *n) {
cout << "got a variable" << endl;
}
void func(array_element *n) {
cout << "got a array" << endl;
}
Is there any way to avoid the mess of dynamic_cast
's?
Please advise :)