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Say a table has, name, ID, age, sex, education, etc. ID is the key and the table is also indexed for name, age and sex. I need all male students, older than 25, sorted by their names.

This is easy in mySQL:

    SELECT * FROM table WHERE age > 25 AND sex = "M" ORDER BY name

IndexDB allows creation of an index and orders the query based on that index. But it doesn't allow multiple queries like age and sex. I found a small library called queryIndexedDB ( which allows compound queries but doesn't provide sorted results.

So is there a way to make a sorted compound query, while using IndexedDB?

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up vote 28 down vote accepted

IDB does seem to allow what you call 'compound queries', but with some limitations.

There is no explicit, formal mention of this feature in the indexedDB specification. However, there is a subtle and not very well explained method for achieving similar results. You can generate an index with a keypath that consists of an array of string names of object properties from the referenced object store.

Example of creating an index on an array of object property names

In this example, name, gender, and age correspond to property names of student objects stored within the students object store.

function myOnUpgradeNeeded(event) {
  var db =;
  var students = db.createObjectStore('students');
  students.createIndex('males25', ['name','gender','age'], {unique:false});

Opening a cursor on the index with a range

Similar to how an array keypath was used to create the index, you can specify an array keypath as a parameter to IDBObjectStore.openCursor, IDBObjectStore.get, or IDBKeyRange.bound and IDBKeyRange.only.

var lowerBound = ['AAAAA','male',26];
var upperBound = ['ZZZZZ','male',200];
var range = IDBKeyRange.bound(lowerBound,upperBound);
var request = students.index('males25').openCursor(range, 'next');

Be careful interpeting this query. This code actually does not work as desired. The reason why is explained below. Before I do that, let's review some fundamentals.

Fundamental index concepts

Indices are essentially object stores that you cannot directly modify. Instead, you use CRUD operations on a referenced object store, and then indexedDB automatically cascades updates to dependent indices.

An index is basically a sorted collection of objects. Using a sorted collection enables indexedDB to jump to values in this list using fewer steps.

When you open a cursor with a range, you are basically just iterating over some or all of the objects in the collection, in the order the objects were stored in the index (let's ignore the optional 'prev' and the 'unique' arguments for now).

Therefore, understanding sorting is fundamental to understanding indices. If you have some experience with Array.prototype.sort, or Comparators in Java, then you know that sorting boils down to a comparison function that compares two items and returns whether one object is less than the other one, greater than the other one, or equal.

Strings are compared lexicographically

The first caveat is that string values are compared lexicographically. Essentially, by char code of each character. This means that 'Z' is less than 'a' as uppercase characters have lower char codes than lower case characters, and '10' is greater than '020000', because the first character '1' is greater than the first character '0' (as a character, not a number).

Similarly, objects with different types are sorted according to the spec (e.g. a string type value, regardless of value, comes before or after a date type according to spec rules).

Objects with undefined properties do not appear in indices whose keypath is comprised of one or more of those properties

When you put an object into an object store using put/add, the object will not appear in the various indices if it has missing values for the properties upon which those indices are based. For example, if we have a student where we don't know the age, and we insert this into the students store, the particular student will not appear in the males25 index.

Remember this when you wonder why an object doesn't appear when iterating a cursor on the index.

Also note the subtle difference between null and an empty string. An empty string is not a missing value in indexedDB so it could still appear in the index. For example, if the gender value for some student was an empty string, that student would still appear in the males25 index. It is wrong to use an analogy to how false-like values (null, undefined, 0, etc) work in other parts of Javascript.

You must specify each property of an array keypath when creating an IDBKeyRange

The third caveat is that you must specify a valid value for each property in the array when creating a lower or upper bound to use in a range for when opening a cursor over that range. Otherwise, you will get some type of Javascript error (varies by browser).

For example, you cannot create a range such as IDBKeyRange.only([undefined,'male',25]) because the name property is undefined.

Confusingly, if you specify the wrong type of value, such as using a number instead of a string for a string property, there is no Javascript error. Instead, the values are compared using the type ordering described earlier (and much more clearly in the spec).

Furthermore, there is an exception to this general rule I have attempted to define. According to the indexedDB spec, you can successfully compare arrays of different lengths. Therefore, you can use an array keypath when creating a bound for a range that is of different length than the array used by the index keypath. Therefore, you technically can omit properties from the range, provided that you do so from the end of the array, and that you appropriately truncate the array. For example, you could use IDBKeyRange.only(['josh','male']).

Short-circuited array sorting

The indexedDB specification provides an explicit method for sorting arrays:

Values of type Array are compared to other values of type Array as follows:

  1. Let A be the first Array value and B be the second Array value.
  2. Let length be the lesser of A's length and B's length.
  3. Let i be 0.
  4. If the ith value of A is less than the ith value of B, then A is less than B. Skip the remaining steps.
  5. If the ith value of A is greater than the ith value of B, then A is greater than B. Skip the remaining steps.
  6. Increase i by 1.
  7. If i is not equal to length, go back to step 4. Otherwise continue to next step.
  8. If A's length is less than B's length, then A is less than B. If A's length is greater than B's length, then A is greater than B. Otherwise A and B are equal.

The catch is in steps 4 and 5: Skip the remaining steps. What this basically means is that if we are comparing two arrays for order, such as [1,'Z'] and [0,'A'], the method only considers the first element because at that point 1 is > 0. It never gets around to checking Z vs A because of short-circuited evaluation (steps 4 and 5 in the spec).

So, the earlier example code is not going to work. It actually works more like the following:

WHERE ( >= 'AAAAA' && <= 'ZZZZZ') || 
( >= 'AAAAA' && <= 'ZZZZZ' && 
students.gender >= 'male' && students.gender <= 'male') || 
( >= 'AAAAA' && <= 'ZZZZZ' && 
students.gender >= 'male' && students.gender <= 'male' && 
students.age >= 26 && students.age <= 200)

If you have any experience with such Boolean clauses in SQL or in general programming, then you already should recognize how the full set of conditions are not necessarily involved if one of the earlier evaluated conditions is met. That means you will not get the list of objects you want, and this is why you cannot truly get the same behavior as relational database queries.

Dealing with short-circuiting

You cannot easily avoid this short-circuiting behavior in the current implementation. In the worst case you have to load all objects from the store/index into memory and then sort the collection using your own custom sorting function.

There are ways to minimize or avoid some of the short-circuiting issues. For example, if you are using indexedDB.get(array) or indexedDB.openCursor(array), then there is no shortcircuiting concern. There is either an entire match or not an entire match. In this case, the comparison function is only evaluating whether two values are the same, not whether one is greater than or less than the other.

Other techniques to consider:

  • Rearrange the elements of the keypath from narrowest to widest. Basically provide early clamps on ranges that cut off some of the unwanted results of short-circuiting.
  • Store a wrapped object in a store that uses specially customized properties so that it can be sorted using a non-array keypath (a non-compound index), or, can make use of a compound index that is not affected by the short-circuiting behavior.
  • Use multiple indices. This leads to the exploding index problem. Note this link is about another no-sql database, but the same concepts and explanation applies to indexedDB, and the link is a reasonable (and lengthy and complicated) explanation so I am not repeating it here.

A late update: One of the creators of indexedDB (the spec, and the Chrome implementation) recently suggested using a trick with cursor.continue. Check out this example:

Testing with indexedDB.cmp

The cmp function provides a quick and simple way to examine how sorting works. For example:

var a = ['Hello',1];
var b = ['World',2];

One nice property of the indexedDB.cmp function is that its signature is the same as the function parameter to Array.prototype.filter and Array.prototype.sort. You can easily test values from the console without dealing with connections/schemas/indices and all that. Furthermore, indexedDB.cmp is synchronous, so your test code does not need to involve async callbacks/promises.

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Note that IE10 and therefore Windows 8 does not currently support this. – rgardler Apr 11 '13 at 23:56
This is a really clever solution, although I'm not yet convinced it's correct behavior. In any case, multiEntry is useful here. When used on index creation, it says whether a single row or multiple rows are added for each item in the array. – buley Mar 11 '14 at 3:02
+1 for the hint on indexedDB.cmp! – jduncanator Jun 10 '14 at 9:01
This is a great post. Followup question to the part about querying a compound index with a shorter array:… – dumbmatter Oct 5 '14 at 13:39

Try using Linq2indexedDB this library allows you to use multiple filtes, multiple sorts and even select data out of your objects. It also works cross browser (IE10, Firefox & Chrome)

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thanks! that helps. I am following this repo in codeplex. – jason Sep 17 '12 at 5:27
there was a huge memory leak when I used Linq2indexedDB. I see this issue is documented over here: but was never resolved. So I had to rewrite my app not using this framework. – jason Apr 7 '13 at 19:49
Wasn't able to solve it because I couldn't reproduce the issue. If you have some additional information, I can take a look at it again. To avoid a leak one thing you need to done is turnoff the logging. This is because the logging logs all the objects you are using (easier to debug), but the downside is the fact it is leaking memory. – Kristof Degrave Apr 10 '13 at 6:09

You can open only open one key range query in indexedDB. So use most efficient index, in this case, 'age'. Just filter out sex on cursor iteration. Ordering you can do later using Array iteration methods. IndexedDB API has no interested in ordering other than pre-arranging index entries.

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