You are using the common pattern of a real number for user control of sorting.
That is a fine technique, recommended by Damien Katz. To move between adjacent documents
B, then you set your
sort field to the average of
This question has several parts.
What about floating point precision?
Numbers are double-precision IEEE-754 floating point numbers. They
have limited precision.
Doubles have a lot of precision. If this is human-initiated activity then it
will be a very long time before dragging and dropping hits the limit.
But you have two choices:
1. Re-normalize the sort values in the background
Remember rewriting your line numbers in BASIC? Same thing.
Have a cron job or some other task (NodeJS is getting popular)
to check for unacceptably close sort values and space them out. This
could use sophisticated heuristics such as:
- Wait until the site is under low activity to fix the
- Wait until a specific user to be inactive for X time before fixing his
- Only make modifications which space out
sort values but which never change
the view result. In other words, if you have
0.003 first to e.g.
0.100, then change
may have a slight helpful effect in the UI but remember, replication may not
copy these in the same order so the benefit is marginal, perhaps not worth
2. Use a decimal data type with unlimited precision
Number, it could store a string from
but not including
"1.0" (say, to 100 digits). Then a string sort is
also a numeric sort. (You have "anchors" at 0.0 and 1.0 which are invalid for documents. To insert a document in the first position, set
sort to the average of 0.0 and the current first document. For the last position,
sort is the average of the last document and 1.0.)
Next, your client (whoever calculates the
sort value) needs
arbitrary-precision real number types. Java, Ruby, Python, pretty much all the
languages have them. This post even inspired me to make a quick project,
code from Google Web Toolkit (which itself came from Apache Harmony). But there
are other implementations too.
I personally like
BigDecimal. In your case however you would have to change your
code to use a string for
sort. However the benefit is, you never have to re-normalize
sorts to work around the precision.
What about collisions from concurrent activity?
CouchDB is Relaxed. What will happen is what users expect. CouchDB
documents mimic the real world. As Chris Anderson says, "there are no
transactions in real life."
For three elements in a UI:
What if I move
C and you move
B after C? Clearly, the list will either be
C B A or
C A B. Which should it be? That depends on your application?
Either, it doesn't matter: Great! CouchDB will order
B arbitrarily and you
will be fine. Users will infer (or see if your UI is good) that somebody else moved
the other item.
Or,B must come before A because [some reason]: Well then, your
sort value is wrong.
It should include all relevant data to decide sub-sorts. For example, you can
emit([120.000, doc.userLastName], doc). When users move docs to the same place, the
sort becomes alphabetical.
If you say, A cannot be moved so soon after B moved then that is also application
code that must be implemented regardless of the data store. In other words, it's not
a transactional thing, it is software logic. For dragging and dropping UI elements,
my feeling is, it's not worth it and the "it doesn't matter" solution is best.