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When using the Common Lisp sxhash function on structs I'm getting the same value for all structs (in SBCL only structs of the same type). For instance, the following code prints two lists of integers all of which have the same value.

(progn 
  (defstruct foo 
    data)
  (print (mapcar #'sxhash (loop for i below 10 collect (make-foo :data i))))
  (defstruct bar 
    data)
  (print (mapcar #'sxhash (loop for i below 10 collect (make-bar :data i)))))

 ;;; Allegro
 (319 319 319 319 319 319 319 319 319 319) 
 (319 319 319 319 319 319 319 319 319 319) 
 ;;; SBCL
 (22591133455133788 22591133455133788 22591133455133788 22591133455133788
 22591133455133788 22591133455133788 22591133455133788 22591133455133788
 22591133455133788 22591133455133788) 
(21321591953876048 21321591953876048 21321591953876048 21321591953876048
 21321591953876048 21321591953876048 21321591953876048 21321591953876048
 21321591953876048 21321591953876048) 

I've tried this in both Allegro Lisp and SBCL and the both return (different) constants for all structs (of same type in SBCL). On the linked sxhash Hyperspec page there are the following statements:

  1. For any two objects, x and y, both of which are bit vectors, characters, conses, numbers, pathnames, strings, or symbols, and which are similar, (sxhash x) and (sxhash y) yield the same mathematical value even if x and y exist in different Lisp images of the same implementation. See Section 3.2.4 (Literal Objects in Compiled Files).

  2. The hash-code for an object is always the same within a single session provided that the object is not visibly modified with regard to the equivalence test equal. See Section 18.1.2 (Modifying Hash Table Keys).

The latter statement does not specify, but seems to imply, that it would be sensible that two structs which are not equal will have differing hash codes (modulo collision). However, structs are suspiciously absent from the list in the first paragraph. At first I chalked this up to a bug in Allegro Lisp but now that I see it in two different implementations I think there must be something about the spec I don't understand.

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The one guarantee is that if (equal x y) then (= (sxhash x) (sxhash y)). I seem to recall (but I may be conflating comp.lang.lisp and the hyperspec) that what you are seeing is not uncommon, in that there are different things taht will have the same sxhash hash value. –  Vatine Jan 15 '14 at 13:17
    
@Vantine Yes, it appears that at least SBCL and Allegro do this for memory footprint reasons. They can't use the in memory address because it will change, and the hyperspec requires sxhash to be the same for similar objects in the same implementation. Also, they can't do recursive traversal (safely) because the object may be mutated. –  Andrew Myers Jan 15 '14 at 13:23

1 Answer 1

up vote 6 down vote accepted

I've queried Franz support and this was their response. Presumably SBCL is doing something similar for similar reasons.

The function cl:sxhash always returns the same value for structure objects. The reason for this is because it has no extra space to store a unique hash code within it. As a result, using structures as keys is very inefficient. The excl::hash-table-stats function demonstrates this when given a hash-table with structs used as keys; the histogram becomes the worst case, because every key wants the same index.

The decision was made to keep the same behavior for structure objects, because the automatic inclusion of a hashing slot in all structure objects would have made all structs an average of one word longer. For small structs this is unacceptable for many of our users.

Instead, a user may define a struct with an extra slot, and the constructor for that struct type could store a unique value into that slot (either a random value or a value gotten by incrementing a counter each time the constructor is run). Also, create a hash generating function which accesses this hash-slot to generate its value. If the structs to be hashed are buried inside a list, then this hash function would need to know how to traverse these keys to obtain a unique value. Finally, then, build your hash-table using the documented :hash-function argument to make-hash-table (still using the equal test argument), to create a hash-table which will be well-distributed.

Alternatively, and if you can guarantee that none of the slots in your structures will be changed after they are used as keys in the hash-table, you can use the equalp test function in your make-hash-table call, rather than equal. If you do, however, make sure that these struct objects don't change, because then they may not be found in the hash-table.

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1  
There's some discussion at marc.info/?l=sbcl-devel&m=121182898514193&w=2 too. –  Huw Jan 15 '14 at 3:18
    
Thanks, I was hoping someone with more knowledge about SBCL would confirm. –  Andrew Myers Jan 15 '14 at 13:06

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