static int macroif_exec(struct ast_channel *chan, void *data)
{
char *expr = NULL, *label_a = NULL, *label_b = NULL;
int res = 0;
struct localuser *u;
LOCAL_USER_ADD(u);
expr = ast_strdupa(data);
if (!expr) {
ast_log(LOG_ERROR, "Out of Memory!\n");
LOCAL_USER_REMOVE(u);
return -1;
}
if ((label_a = strchr(expr, '?'))) {
*label_a = '\0';
label_a++;
if ((label_b = strchr(label_a, ':'))) {
*label_b = '\0';
label_b++;
}
if (ast_true(expr))
macro_exec(chan, label_a);
else if (label_b)
macro_exec(chan, label_b);
} else
ast_log(LOG_WARNING, "Invalid Syntax.\n");
LOCAL_USER_REMOVE(u);
return res;
}
static int macroif_exec(struct ast_channel *chan, const char *data)
{
char *expr = NULL, *label_a = NULL, *label_b = NULL;
int res = 0;
expr = ast_strdupa(data);
if ((label_a = strchr(expr, '?'))) {
*label_a = '\0';
label_a++;
if ((label_b = strchr(label_a, ':'))) {
*label_b = '\0';
label_b++;
}
if (pbx_checkcondition(expr))
res = macro_exec(chan, label_a);
else if (label_b)
res = macro_exec(chan, label_b);
} else
ast_log(LOG_WARNING, "Invalid Syntax.\n");
return res;
}
obj eval(obj exp){
ev: assert(!! exp);
obj rr,lt, rt;
switch (exp->type) {
case tInd:
return doInd(eval(ult(exp)), ul(eval(urt(exp))));
case LIST:
return List2v(evalList(ul(exp)));
case tArray:
return map_obj(eval, exp);
case tAnd:
return prod_eval(ul(exp), mult);
case MULT:
return prod_eval(ul(exp), mult);
case ARITH:
return prod_eval(ul(exp), add);
case POW:
return prod_eval(ul(exp), power);
case DIVIDE:
return prod_eval(ul(exp), divide);
case tRef:
return retain(uref(exp));
case tSymbol:
if( macromode) {
if(obj rr = search_assoc(car(macro_env), exp)){
macromode = false;
// macro lexical scope should be pushed to the stack here
rr = exec(rr);
macromode = true;
return rr;
}
}
return eval_symbol(exp);
case tMinus:
lt = eval(uref(exp));
rr = uMinus(lt); // releasing
if(rr) {release(lt); return rr;}
static obj symumn = Symbol("-");
rr = udef_op0(symumn, lt);
if(rr) {release(lt); return rr;}
error("uMinus: not defined to that type");
case tReturn:
if(! uref(exp)) return encap(tSigRet, nil);
return encap(tSigRet, eval(uref(exp)));
case tBreak:
return retain(exp);
case CONDITION:
return evalCond(exp);
case tOp:
if(type(ult(exp)) ==tSymbol) {
lt = search_assoc(curr_interp->types, ult(exp));
if(lt) return encap((ValueType)vrInt(lt), eval(urt(exp)));}
lt = eval(ult(exp));
push(lt);
switch(lt->type){
case tCont:
assert(0);
case tSpecial:
rr = ufn(lt)(urt(exp));
break;
case tSyntaxLam:
rr = macro_exec(lt, urt(exp));
break;
case tInternalFn:
case tClosure:
rt = eval(urt(exp));
rr = eval_function(lt, rt);
break;
default:
rt = eval(urt(exp));
rr = call_fn(mult, lt, rt);
release(rt);
}
release(pop(&is));
return rr;
case tClosure:
assert(0);
case tCurry:
return eval_curry(exp, em0(exp));
/* obj vars = Assoc();
bind_vars(&vars, em0(exp), em2(exp));
rr = eval_curry(exp, vars);
release(vars);
return rr;
*/ case tArrow:
// return enclose(exp);
/* if(macromode){
if(obj rr = search_assoc(car(macro_env), exp)){
}
}
*/ return render(tClosure, list3(retain(em0(exp)), retain(em1(exp)), retain(env)));
case tDefine:
return func_def(em0(exp), em1(exp), em2(exp));
case tSyntaxDef:
let(lfind_var(em0(exp)), render(tSyntaxLam, list3(retain(em1(exp)), retain(em2(exp)), nil)));
return nil;
case tExec:
return exec(exp);
case tAssign:
lt = car(exp);
if(type(lt)==tOp){
return func_def(ult(lt), urt(lt), cdr(exp));
} else if(type(lt)==tMinus){
static obj symumn = Symbol("-");
return func_def(symumn, uref(lt), cdr(exp));
} else return do_assign(lt, eval(cdr(exp)));
case tIf:
rr = eval(em0(exp));
if (type(rr) != INT) error("if: Boolean Expected");
if (vrInt(rr)) {
rr = em1(exp);
} else {
rr = em2(exp);
}
return eval(rr);
case tWhile:
for(;;) {
rr = eval(car(exp));
if (type(rr) != INT) error("while: Boolean expected");
if(!vrInt(rr)) break;
rr = exec(cdr(exp));
if(rr && type(rr)==tSigRet) return rr;
if(rr && type(rr)==tBreak) {release(rr); break;}
if(rr) release(rr);
}
return nil;
default:
return retain(exp);
}
}
