Previous: Backtracking, Up: Edebug and Macros [Contents][Index]
It may be easier to understand Edebug specifications by studying the examples provided here.
A let
special form has a sequence of bindings and a body. Each
of the bindings is either a symbol or a sublist with a symbol and
optional expression. In the specification below, notice the gate
inside of the sublist to prevent backtracking once a sublist is found.
(def-edebug-spec let ((&rest &or symbolp (gate symbolp &optional form)) body))
Edebug uses the following specifications for defun
and the
associated argument list and interactive
specifications. It is
necessary to handle interactive forms specially since an expression
argument is actually evaluated outside of the function body. (The
specification for defmacro
is very similar to that for
defun
, but allows for the declare
statement.)
(def-edebug-spec defun
(&define name lambda-list
[&optional stringp] ; Match the doc string, if present.
[&optional ("interactive" interactive)]
def-body))
(def-edebug-spec lambda-list
(([&rest arg]
[&optional ["&optional" arg &rest arg]]
&optional ["&rest" arg]
)))
(def-edebug-spec interactive
(&optional &or stringp def-form)) ; Notice: def-form
The specification for backquote below illustrates how to match
dotted lists and use nil
to terminate recursion. It also
illustrates how components of a vector may be matched. (The actual
specification defined by Edebug is a little different, and does not
support dotted lists because doing so causes very deep recursion that
could fail.)
(def-edebug-spec \` (backquote-form)) ; Alias just for clarity.
(def-edebug-spec backquote-form
(&or ([&or "," ",@"] &or ("quote" backquote-form) form)
(backquote-form . [&or nil backquote-form])
(vector &rest backquote-form)
sexp))