I know that this sort of goes against the principles of a relational database but let me describe the situation.

I have a page where the user will place a number of items.

| -Item1         |
| -Item2         |
| -Item3         |
| -Item4         |

These items have must stay in a the order the user gives them. However this order may be changed an arbitrary number of times by the user.

| -Item1         |
| -Item4         |
| -Item2         |
| -Item3         |

Approach 1

My original thought was to give the items an index to represent thier place in the list

Page           Item
-----------    ---------------
FK | pid       FK | pid 
   | name      PK | iid 
                  | index
                  | content 

With this solution you can select items where pid = Page.pid and order by index which is convenient. However every time you change the order you have to change anywhere between one other item (best case) and all the other items (worst case).

Approach 2

I also considered making a "linked list" like data structure where each item points to the next item in the list.

Page           Item
-----------    ---------------
FK | pid       FK | pid 
   | name      PK | iid 
                  | next
                  | content 

This potentially makes changing the order less expensive but we would have to rely on front end programming to extract the order.

Is there an approach that I haven't thought of? Please let me know.

  • Why not just delete/insert the new list with a new sequential index? – Jé Queue Mar 2 '12 at 15:55
  • In practice, how many times a user chanegs the order? And how many items do you expect per user? – a1ex07 Mar 2 '12 at 16:02
  • 7
    Data that records the order of something is in no way "against the principles of a relational database". The point is that in a relational database the ordering is not inherent in the structure of the database itself. In a relational database therefore, such information must always be stored as values of attributes within tuples within relations - which is exactly what you are proposing. – nvogel Mar 2 '12 at 19:55
  • @sqlvogel thanks for clearing that up, do you know of any design patterns that implement this more efficiently than I proposed? – Greg Guida Mar 2 '12 at 22:30
  • Possible duplicate of What would be the best way to store records order in SQL – philipxy May 7 '19 at 7:12

I think @a1ex07 is on the right track here (+1). I don't think gaps in itemOrder violate 3NF, but I do worry about a different violation of 3NF (more on this below). We also have to watch out for bad data in the itemOrder field. Here's how I'd start:

create table pages (
  pid int,
  primary key (pid)

create table users (
  uid int,
  primary key (uid)

create table items (
  iid int,
  primary key (iid)

create table details (
  pid int not null references pages(pid),
  uid int not null references users(uid),
  iid int not null references items(iid), 
  itemOrder int,
  primary key (pid, uid, iid),
  unique (pid, uid, itemOrder)

The primary key ensures that for each page, for each user, there are unique items. The unique constraint ensures that for each page, for each user, there are unique itemOrders. Here's my worry about 3NF: in this scenario, itemOrder is not fully dependent on the primary key; it depends only on the (pid, uid) parts. That's not even 2NF; and that's a problem. We could include itemOrder in the primary key, but then I worry that it might not be minimal, as PKs need to be. We might need to decompose this into more tables. Still thinking . . .

[ EDIT - More thinking on the topic . . . ]


  1. There are users.

  2. There are pages.

  3. There are items.

  4. (page, user) identifies a SET of items.

  5. (page, user) identifies an ordered LIST of slots in which we can store items if we like.

  6. We do not wish to have duplicate items in a (page,user)'s list.

Plan A

Kill the details table, above.

Add a table, ItemsByPageAndUser, to represent the SET of items identified by (page, user).

create table ItemsByPageAndUser (
   pid int not null references pages(pid),
   uid int not null references users(uid),
   iid int not null references items(iid),
  primary key (pid, uid, iid)   

Add table, SlotsByPageAndUser, to represent the ordered LIST of slots that might contain items.

create table SlotsByPageAndUser (
   pid       int not null references pages(pid),
   uid       int not null references users(uid),
   slotNum   int not null,
   iidInSlot int          references items(iid),
 primary key (pid, uid, slotNum),   
 foreign key (pid, uid, iid) references ItemsByPageAndUser(pid, uid, iid),
 unique (pid, uid, iid)

Note 1: iidInSlot is nullable so that we can have empty slots if we want to. But if there is an item present it has to be checked against the items table.

Note 2: We need the last FK to ensure that we don't add any items that are not in the set of possible items for this (user,page).

Note 3: The unique constraint on (pid, uid, iid) enforces our design goal of having unique items in the list (assumption 6). Without this we could add as many items from the set identified by (page,user) as we like so long as they are in different slots.

Now we have nicely decoupled the items from their slots while preserving their common dependence on (page, user).

This design is certainly in 3NF and might be in BCNF, though I worry about SlotsByPageAndUser in that regard.

The problem is that because of the unique constraint in table SlotsByPageAndUser the cardinality of the relationship between SlotsByPageAndUser and ItemsByPageAndUser is one-to-one. In general, 1-1 relationships that are not entity subtypes are wrong. There are exceptions, of course, and maybe this is one. But maybe there's an even better way . . .

Plan B

  1. Kill the SlotsByPageAndUser table.

  2. Add a slotNum column to ItemsByPageAndUser.

  3. Add a unique constraint on (pid, uid, iid) to ItemsByPageAndUser.

Now it's:

create table ItemsByPageAndUser (
   pid     int not null references pages(pid),
   uid     int not null references users(uid),
   iid     int not null references items(iid),
   slotNum int,
 primary key (pid, uid, iid),   
 unique (pid, uid, slotNum)

Note 4: Leaving slotNum nullable preserves our ability to specify items in the set that are not in the list. But . . .

Note 5: Putting a unique constraint on a expression involving a nullable column might cause "interesting" results in some databases. I think it will work as we intend it to in Postgres. (See this discussion here on SO.) For other databases, your mileage may vary.

Now there is no messy 1-1 relationship hanging around, so that's better. It's still 3NF as the only non-key attribute (slotNum) depends on the key, the whole key, and nothing but the key. (You can't ask about slotNum without telling me what page, user, and item you are talking about.)

It's not BCNF because [ (pid, uid, iid) -> slotNum ] and [(pid,uid,slotNum) -> iid ]. But that's why we have the unique constraint on (pid, uid, slotNum) which prevents the data from getting into an inconsistent state.

I think this is a workable solution.

  • Plan B is the same as the original post? At least that's what I see. – Mallow May 15 '14 at 23:37
  • Third normal form (3NF) is the third step in normalizing a database and it builds on the first and second normal forms, 1NF and 2NF. – mbigras Jul 12 '18 at 5:37
  • Nothing in this violates 3NF or any other NF or has to do with affecting NFs, because itemorder is a CK. (NF definitions involve all CKs, not PKs, & it doesn't matter what CK might get called PK.) This post does not reflect an understanding of normalization & NFs. @mbigras 3NF was the 3rd found. Normalization to such NFs based on FDs & JDs does not involve going through less strict ones. – philipxy May 7 '19 at 8:49
  • Slots in a separate table is indeed the correct way of avoiding integrity check failures when updating indexes – Antoine Marques Aug 7 '19 at 11:37

Solution: make index a string (because strings, in essence, have infinite "arbitrary precision"). Or if you use an int, increment index by 100 instead of 1.

The performance problem is this: there is no "in between" values between two sorted items.

item      index
gizmo     1
              <<------ Oh no! no room between 1 and 2.
                       This requires incrementing _every_ item after it
gadget    2
gear      3
toolkit   4
box       5

Instead, do like this (better solution below):

item      index
gizmo     100
              <<------ Sweet :). I can re-order 99 (!) items here
                       without having to change anything else
gadget    200
gear      300
toolkit   400
box       500

Even better: here is how Jira solves this problem. Their "rank" (what you call index) is a string value that allows a ton of breathing room in between ranked items.

Here is a real example of a jira database I work with

   id    | jira_rank
 AP-2405 | 0|hzztxk:
 ES-213  | 0|hzztxs:
 AP-2660 | 0|hzztzc:
 AP-2688 | 0|hzztzk:
 AP-2643 | 0|hzztzs:
 AP-2208 | 0|hzztzw:
 AP-2700 | 0|hzztzy:
 AP-2702 | 0|hzztzz:
 AP-2411 | 0|hzztzz:i
 AP-2440 | 0|hzztzz:r

Notice this example hzztzz:i. The advantage of a string rank is that you run out of room between two items, you still don't have to re-rank anything else. You just start appending more characters to the string to narrow down focus.

EDIT: as mentioned in the comments, you can't insert anything between 0|hzztzz: and 0|hzztzz:a. I guess that's why I see jira's database automatically append :i at the end regularly instead of :a to avoid that scenario. If you really want to prevent problems, then I think you can change your algorithm so that (for example) every time you would insert :a at the end, you instead insert :ai. This way you logically guarantee that no ranking will end with the letter a -- which should mean that you will always have "room" to insert more items without having to re-order anything.

  • Do you have any reference material re: the string approach? – dandoen Apr 28 '18 at 17:17
  • 1
    Best I could find quickly: confluence.atlassian.com/jirakb/… – Alexander Bird Apr 29 '18 at 1:46
  • 5
    you can't insert anything between 0|hzztzz: and 0|hzztzz:a, though – njzk2 Jun 13 '18 at 5:23
  • 2
    @AlexanderBird I'm looking into getting a working implementation, and I'd say by inserting a second letter everytime you reach a it should mitigate the issue – njzk2 Jun 14 '18 at 3:10
  • 1
    @SamLevin I have a basic implementation here that works as far as I have tested it: github.com/smaspe/taskman/tree/master/src/tools Sometime when I have time I'll separate it from that repo and make it into a library – njzk2 Sep 17 '18 at 2:21

You could add a new character (nvarchar) column to the Page table called order that contains a delimited list of iid's in the order you prefer, i.e. 1,4,3,2. The advantage is just one field in one table to maintain - the obvious disadvantage would be the need to write a utility function(s) to convert between the character and numeric types which in reality probably wouldn't take too long.

  • I don't understand why this is such a bad idea. There are many problems with reordering items in relational databases; this takes a page right out of NoSQL and solves it quickly. I agree it might not be so nice, but it does solve the problem quickly. – Kenn Cal Jan 16 '17 at 5:37

If you expect number of items is not huge, you can use a bit modified version of your first approach. Just make gap between consecutive indexes. For example, first item has index 100, second 200, etc. This way you don't have to update all indexes every time, only if you cannot find a gap

  • This is something I have considered (an idea left over from programming BASIC in high-school), something feels wrong about it though. I think that it breaks 3NF to have gaps like this since the meaning of the number is now dependent on the values of all the other items. – Greg Guida Mar 2 '12 at 17:55
  • 1
    @Greg Guida: I'm not sure I follow. Meaning of number is still the same . 1 is less than 10, and 5 is less than 10. – a1ex07 Mar 2 '12 at 19:14

Use the Approach 1 and live with the performance implications of index updates. Unless you are dealing with millions of items per page, you are unlikely to find the performance lacking, and you retain all the power of SQL in dealing with sets of data.

In addition to being much harder to work with from the pure non-procedural SQL, the Approach 2 would still require you to traverse the list to find the right place to reconnect the "links" when reordering the item.

  • About your second statement, there is no need to traverse the whole list to exchange two items. All you need is these two items, the two items pointing to them and the two items pointed by them. All of these can be selected with very simple conjunctive queries. (Sorry for necro-posting, I don't know if this is bad practice here ...) – Fabian Pijcke Sep 7 '15 at 9:18
  • @FabianPijcke Sure, if you have a doubly-linked list. I was commenting on the original poster's "Approach 2" which appears to be single-linked. That being said, I probably should have mentioned doubly-linked list... Maybe you can post that answer? – Branko Dimitrijevic Sep 7 '15 at 13:17
  • @FabianPijcke But in both cases, ordering the list (e.g. if you want to display it in-order) would be inefficient. – Branko Dimitrijevic Sep 7 '15 at 13:19
  • I don't agree, even with a classic linked list, given a node N, you can get the predecessor of N with something like "SELECT id FROM node WHERE successor = N" and its successor with "SELECT successor FROM node WHERE id = N". I agree with the fact that printing the list is not efficient. – Fabian Pijcke Sep 7 '15 at 13:44
  • 1
    @FabianPijcke Sure, but you'd have to index successor to make it efficient. That index acts as a reverse pointer, making the list doubly-linked. Whether it's better to implement the reverse pointer as index or as explicit field (without index) is another matter... – Branko Dimitrijevic Sep 7 '15 at 14:44

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