From "The Evolution Of Lisp"1:

*Macros appear to have been introduced into Lisp by Timothy P. Hart in 1963 in a short MIT AI Memo[.]* [3.3]

So Lisp macros are pretty old, and precede C macros by almost a decade. From Dennis Ritchie's "The Development of The C Language":2

*Many other changes occurred around 1972-3, but the most important was the introduction of the preprocessor, partly at the urging of Alan Snyder[.]*

According to the Online Etymology Dictionary3, the word *macro*, in the context of computing, was seen as early as 1959 in *macro-instruction*.

Macros occur in mathematics. In basic algebra, formulas do not have side effects and issues of scope do not arise, so it is ambiguous whether evaluation is performed by substituting formulas before or after reducing them to their values. For instance given f(x) = x^2, we can make a function g(y) = f(2y). We can then evaluate g(42) by calculating 2*42 to get the value of 2y, and then plug that value into f. Or we can first "macro-substitute" the formula 2y into x^2 for the parameter x, to obtain a simplified function. (We don't have to worry that the scope of f has some local variable called y or that we may produce two occurences of y which produce a side effect twice). Some mathematics notations are pure operators in that they denote some symbolic manipulation or other syntactic sugar. Explicit manipulations of variable bindings and scopes are familiar to logicians, since they occur in derivations.

The upshot of the above is that Lisp macros are more like mathematics than are textual macros. The Lisp people were doing symbolic math, and in symbolic math, it is fundamental "hello world" operation to reliably replace occurrences of a variable inside a formula by another formula. Textual or token-wise macros are a "dumbing down" of algebraic substitution. In mathematics if we substitute `a + a`

for `b`

in the formula `b*b`

we do not blindly obtain `a + a*a + a`

. It's obviously wrong, so we instinctively write `(a + a)*(a + a)`

. It is obvious that the algebraic substitution is not simply text pasting but manipulation of the syntax tree. Whatever is substituted for `b`

must be subordinate to the `*`

node. Lisp was crafted in such a way as to *avoid* manipulating structure by means of manipulating its typography.

Since Lisp macros appeared relatively early, and they appeared in a language used for manipulating formulas, it is unlikely that they were an imitation of textual/token-wise macros occurring in assembly languages.