I read in the book 'On Lisp' that one should avoid excessive use of
cons in the body of expanded macros. Why is
cons considered to be an inefficient operation? Does Lisp not do structure sharing with the cons cells?
You need to understand the jargon first.
CONS is a primitive operation to create a fresh cons cell.
Consing means allocation of memory on the heap in general, not only cons cells: Consing of numbers, Consing of arrays, Consing of CLOS objects, ...
The definition from the 'memory management glossary' says:
So, Graham uses the second meaning.
If Graham says 'Avoid consing especially. A utility which conses unnecessarily can ruin the performance of an otherwise efficient program.' - that means: avoid unnecessary memory allocation on the heap. But this can be true for any code - macro, function, whatever.
That was particular true when computers had less memory and Garbage Collection was more costly (especially when it needed to scan swapped out memory in virtual memory systems, where the physical memory is smaller than the virtual memory).
Today consing is less an issue, but can still be relevant.
Take for example a the function READ-LINE, it reads a line from a stream and 'conses' a new string. Note that the string is not built out of conses, but it is a vector. We mean here 'allocates a string on the heap'. If you have a large file with lots of lines, it can be faster to have a routine that gets a buffer and which fills the buffer with the line characters (there are vectors in Common Lisp with a fill pointer for this). That way the line buffer is just one object and can potentially be reused for calls to this line reading function.
See this example in the Allegro CL documentation: Some techniques for reducing consing when processing very large text files.
I don't think cons is slow. It doesn't create a new copy of the entire list, it just appends a new element onto the front of a linked list.
If anything is slow, it's that it has to allocate some memory for the new node. If you're creating lots and lots of nodes it might be better to create them all in one go instead of one-by-one.
Actually consing is quite fast in good implementations, but you can gain better performance by avoiding it. You can safely use destructive operations if the things you alter have been freshly created by yourself, as in this example:
So: Yes, avoiding consing can improve performance, but you should only use destructive modification if you know what you're doing. I would not say that consing is "slow" per se, but nonetheless avoiding it can be beneficial. If you compare the difference in allocated memory (which takes its time), it should be clear why the second version is faster than the first one.
Consing, which is Lisp jargon for dynamic memory allocation, isn't slow. But it adds overhead to the program. You cannot just look at the cost of allocating the object, but at the full cost of the lifecycle, from creating the object to reclaiming it when it has become garbage.
Unnecessary consing "exerts pressure" against the garbage collector; it makes garbage collection work more often.
(It's not a Lisp issue. For example, C programs that make lots of calls to
You don't have to be paranoid about avoid consing in Lisp, because that will make programming inconvenient, and some of the tricks for avoiding consing, involving destructive re-use of existing objects, are prone to bugs.
But it can pay to watch out for in consing that happens in inner loops that are executed a large number of times, and in low-level code like utility functions that are intended for wide reuse. For instance suppose that