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We now construct an interpreter in which all variables have strictly local usage. This discipline is called of variables, and has been used in many programming languages, including Algol 60 [Naur]. The term "lexical" refers to the fact that all references to a local variable binding are textually apparent in the program. The term is also used, indicating that the connection between binding and reference is unchanging at run time.

The difficulty in SCALE is that the body of the LAMBDA-expression (* X L) is evaluated using the ENV which was available to EVAL (and so passed to APPLY) when it was working on the body of MAPCAR. But we want the (* X L) to be evaluated using the ENV which was available when the body of SCALE was being evaluated. Somehow we must arrange for this environment to be available for evaluating (* X L).

The correct environment was available at the time the LAMBDA-expression was evaluated to produce a &PROCEDURE-object. Why not just tack the environment at that point onto the end of the &PROCEDURE-object so that it can be used when the procedure is applied?

This is in fact the right thing to do. The object we want to give to MAPCAR must be not just the text describing the computation to be performed, but also the meanings of the free variables referenced in that text. Only the combination of the two can correctly specify the computation which reflects the complete meaning of the abstract function to be mapped. This is the first place where we find it crucial to distinguish the three ideas: (1) The — the text describing a procedure, e.g. in the form of an S-expression; (2) The  which is executed by the computer; and (3) The mathematical  or other conceptual operation computed by the execution of the procedure.

To install lexical scoping in our interpreter, we must change the treatment of LAMBDA-expressions in EVAL to make the current environment ENV part of the &PROCEDURE-object. We say that the procedure is in the current environment, and the &PROCEDURE-object is therefore called a  of the procedure, or a. We must also change APPLY to bind the new variable-value associations onto the environment in the &PROCEDURE-object, rather than onto that passed by EVAL. When we have done this, we see that in fact the environment passed by EVAL is not used, so we can eliminate the parameter ENV from the definition of APPLY, and change the invocation of APPLY that occurs in EVAL. Thus, while the handling of LAMBDA-expressions has become more complicated, the handling of ENV has been correspondingly simplified. (See Figure 7.)

Had we previously adopted the trick described in the preceding section, wherein the user was required to write '(LAMBDA ...) rather than (LAMBDA...), it would have been more difficult to adjust the interpreter to accommodate lexical scoping — it would have involved a large change rather than a small tweak. (The change from dynamic scoping to lexical scoping does involve a gross change of programming style, and this is undoubtedly why, once dynamic scoping had historically become the standard discipline, the quotation problem was never cleared up. We will see later that dynamic