## dictionary list (DIC) { 1 2 3 4 } { 1: 2, 3: 4} {} -> empty dictionary { 1 } -> error, no value. dictionary requires even number of items. ## array list [ 1 2 3 4] [ 1, 2, 3, 4 ] [] -> empty array ## byte array list #[ 1 2 3 4 ] #[ 1, 2, 3, 4 ] each item must be in the byte range. if a given value is not a number in the allowed range, an exception error is raised. (try (set a 20) #[ 1 2 3 (+ a 300)] ; this throws an catchable exception. catch(e) (printf "EXCEPTION - %O\n" e) ) ## non-executable list (QLIST) #(1 2 3 4) #(1 2 3 4 . 5) #() -> same as null comma not allowed to seperate items. ## varaible declaration list (VLIST) | a b c | ## class declaration with methods. (defclass X | x y | ; instance variables ::: | bob jim | ; class variables ; instance variables and class variables must not collide with those of parent classes. ; they must not collide with method names of parent classes (set bob "Bob") ; can access class variables. disallowed to access instance variables (defun setX (a) (set x a) ) ; instance method. a method name must not collide with instance variable names and class variable names. ; the name can be the same as method names of parent classes. (defun K (a b) (:self Y a) (return (+ a b x y)) ) (defun Y (a) (printf "Y=>%d [%s]\n" a bob) ) (defun ::: KK (a b) (printf "K=>%s\n" bob) ; a class method can access class variables but not instance variables (return (+ a b)) ) (set jim (lambda (a b) (+ a b))) ; an anonymous function created ) (set r (object-new X)) (:r Y 10) (printf ">>%d\n" (:X KK 77 99)) ## method invocation send the message aaa to the receiver (:self aaa) send the message aaa to the receiver but let it resolve the method in the superclass side. (:super aaa) send the message dump to the object pointed to by x with arguments 1, 2, 3. (:x dump 1 2 3) ## method types - class method - class instantiation method (defclass P | x y | (defun ::* new () (set x 1) (set y 1) (return self) ) (defun get-x() x) (defun get-y() y) ) (defclass X ::: P | x y | (defun ::* new (a b) (:super new) x = a y = b (return self) ) (defun get-xx() x) (defun get-yy() y) ) (set t (:X new 10 20)) ;t is an instance of X (printf "%d %d %d %d\n" (:t get-x) (:t get-y) (:t get-xx) (:t get-yy)) ; must print 1 1 10 20 (:t new 100 300) ;the x, y in the X part get reset to 100 and 300. doesn't create a new instance (printf "%d %d %d %d\n" (:t get-x) (:t get-y) (:t get-xx) (:t get-yy)) ; must print 1 1 100 300 - instance method ## dynamic dispatching by method name (defclass X (defun t1 (x) (printf "t1 = %d\n" (+ x x x))) (defun t2 (x) (printf "t2 = %d\n" (* x x x))) ) (defun get-name-1() "t1") (defun get-name-2() "t2") (set x (object-new X)) (:x (get-name-1) 100) ; must be same as (:x t1 100) (:x (get-name-2) 100) ; must be same as (:x t2 100) ## Something to look into.. normal function call (f arg1 arg2 arg3) (rcv f arg1 arg2) ## dynamic method invocation??? (:X (f) arg1 arg2) as long as f returns a symbol, it can also invoke a method?? (defun getX() X) ; ->it must return an object ((getX)->show "hello") X.Y push X push_symbol Y lookup (X.Y) push X push_symbol Y lookup call 0 X.Y.Z push X push_symbol Y lookup push_symbol Z lookup --- if this is within a method, it must become push_instvar self.x push self push symbol x lookup fun f(a, b) { } fun f(a, b) -> (c, d) { } class X { var x, y, z var! printer; printer := Printer.new(); fun! new(a, b) { return super.new().init(a, b); } fun init(a, b) { } fun show(a, b) { Printer.dump(a, b); } } x := X.new(10, 20); x.show (40, 50); --------------- variadic arguments -> supported multiple return variables -> supported (defun ff(a b ::: x y z) (set x (+ a b)) (set y (+ x x)) (set z (+ 999 x)) ) (set-r v1 v2 v3 (ff 10 20)) (printf "%d %d %d\n" v1 v2 v3) variadic multiple return variables -> not supported as of now (defun ff(a b ::: x y z ...) <--- can i support something like this??? (set x (+ a b)) (set y (+ x x)) (set z (+ 999 x)) ) (set-r v1 v2 v3 (ff 10 20)) (printf "%d %d %d\n" v1 v2 v3) since va-get is used to get a variadic argument, can i create vr-put to set a variadic return variable?