Deep or shallow binding is an implementational technique and can not be observed from inside the program. The difference for the programmer is between lexical and dynamic scoping rules, but both can be implemented with any of the two techniques (i.e. one notion has got nothing to do with the other).
Deep or shallow refers to the choice of stack frame to hold a given outer scoped variable's binding. In deep binding there is a chain of frames to be accessed until the correct frame is entered holding the record for the variable; in shallow binding all bindings are present in one, shallow environment. See also "rerooting" (which only makes sense in the context of shallow binding implementation of lexical scoping).
To your specific question, under lexical scoping rules your code would return (7 4 0)
and under dynamic - (7 7 0)
, because the call ((lambda(y) (list x y)) 0)
is done inside the dynamic scope of x=7
binding (as a side note, (cons x (list y))
is the same as (list x y)
):
x = 7
p = (lambda (y) (list x y)) ; x=4 is unused, in p=(make 4)
(cons 7 (p 0)) == (list 7 7 0) ; 'x' in this line and in lambda body for p
; both refer to same binding that is
; in effect, i.e. x=7
NB same terms (deep/shallow binding) are used in other language(s) now with completely different meaning (they do have something to do with the scoping rules there), which I don't care to fully understand. This answer is given in the context of Scheme.
Reference: Shallow Binding in LISP 1.5 by Baker, Henry G. Jr., 1977.