While I don't believe (although I'm eager to be corrected) that SBCL allows one to "pin" the pointer-address of an object for a very long time, nor is the garbage collector easily extensible to updating “foreign copies” of pointers to objects, you can obtain a persistent pointer to a Lisp callback function; i.e. a pointer which a C program can
funcall which is actually a Lisp function, using
One (untested) theory might be to wrap your C language calls in such a way:
- C function allocates
c_struct with a NULL pointer slot
- You provide a
(defcallback …) function pointer to your C program;
let's call it
void with_locked_access ((void*) interior_function(struct c_struct *), struct c_struct *struct_to_use)
- when C function(s) want to access this pointer, they call
interior_function with their own function-pointer
interior_function and the pointer to the
c_struct that interests them
interior_function is actually
(defcallback call-c-with-pinned-object…); it, in turn, calls
sb-sys:with-pinned-object and obtains the system-area pointer for the object, and stores it into
c_struct before calling
interior_function with the (now-populated) structure as its parameter.
interior_function does whatever it is that it wants the pinned Lisp object for; it returns, and
call-c-with-pinned-object closes out the
with-pinned-object form and returns, itself.
Naturally, this depends entirely upon what it is you want to do in your C code, and whether it's going to be running in parallel with Lisp code that might be negatively impacted by the pinning, &c &c.
Alternatively, in the special (but common) case that the object in question happens to be a byte vector (e.g. perhaps a buffer of some kind), you might be able to take advantage of