Intepreters are pretty easy to code, once you have an AST:

```
int interpret(tree t)
{ /* left to right, top down scan of tree */
switch (t->nodetype) {
case NodeTypeInt:
return t->value;
case NodeTypeVariable:
return t->symbtable_entry->value
case NodeTypeAdd:
{ int leftvalue= interpret(t->leftchild);
int rightvalue= interpret(t->rightchild);
return leftvalue+rightvalue;
}
case NodeTypeMultiply:
{ int leftvalue= interpret(t->leftchild);
int rightvalue= interpret(t->rightchild);
return leftvalue*rightvalue;
}
...
case NodeTypeStatementSequence: // assuming a right-leaning tree
{ interpret(t->leftchild);
interpret(t->rightchild);
return 0;
}
case NodeTypeAssignment:
{ int right_value=interpret(t->rightchild);
assert: t->leftchild->Nodetype==NodeTypeVariable;
t->leftchild->symbtable_entry->value=right_value;
return right_value;
}
case NodeTypeCompareForEqual:
{ int leftvalue= interpret(t->leftchild);
int rightvalue= interpret(t->rightchild);
return leftvalue==rightvalue;
}
case NodeTypeIfThenElse
{ int condition=interpret(t->leftchild);
if (condition) interpret(t->secondchild);
else intepret(t->thirdchild);
return 0;
case NodeTypeWhile
{ int condition;
while (condition=interpret(t->leftchild))
interpret(t->rightchild);
return 0;
...
}
}
```

What's annoying to do is "goto", because this changes the point of attention of the interpreter. To implement goto or function calls, one has to search the tree for the label or the function declaration, and continue execution there. [ One can speed this up by prescanning the tree and collecting all the label locations/function declarations in a lookup table. This is the first steop towards building a compiler.] Even this isn't quite enough; you have to adjust the recursion stack, which we hid in function calls so it isn't easy to do. If one converts this code to a iterative loop with an explicitly managed recursion stack, it is a lot easier to fix up the stack.