A simple introduction to CouchDB view collation.
Basics
View functions specify a key and a value to be returned for each row. CouchDB collates the view rows by this key. In the following example, the !LastName property serves as the key, thus the result will be sorted by !LastName:
function(doc) { if (doc.Type == "customer") { emit(doc.LastName, {FirstName: doc.FirstName, Address: doc.Address}); } }
CouchDB allows arbitrary JSON structures to be used as keys. You can use complex keys for fine-grained control over sorting and grouping.
Examples
The following clever trick would return both customer and order documents. The key is composed of a customer _id and a sorting token. Because the key for order documents begins with the _id of a customer document, all the orders will be sorted by customer. Because the sorting token for customers is lower than the token for orders, the customer document will come before the associated orders. The values 0 and 1 for the sorting token are arbitrary.
function(doc) { if (doc.Type == "customer") { emit([doc._id, 0], doc); } else if (doc.Type == "order") { emit([doc.customer_id, 1], doc); } }
This trick was originally documented by Christopher Lenz.
Sorting by Dates
It maybe be convenient to store date attributes in a human readable format (i.e. as a String), but still sort by date. This can be done by converting the date to a number in the emit function. For example, given a document with a created_at attribute of 'Wed Jul 23 16:29:21 +0100 2008', the following emit function would sort by date
emit(Date.parse(doc.created_at).getTime(), doc);
Alternatively, if you use a date format which sorts lexicographically, such as "2008/06/09 13:52:11 +0000" you can just
emit(doc.created_at, doc);
and avoid the conversion. As a bonus, this date format is compatible with the Javascript date parser, so you can use new Date(doc.created_at) in your client side Javascript to make date sorting easy in the browser.
String Ranges
If you need start and end keys that encompass every string with a given prefix, it is better to use a high value unicode character, than to use a 'ZZZZ' suffix.
That is, rather than:
startkey="abc"&endkey="abcZZZZZZZZZ"
You should use:
startkey="abc"&endkey="abc\ufff0"
Collation Specification
This section is based on the view_collation function in couch_tests.js:
// special values sort before all other types null false true // then numbers 1 2 3.0 4 // then text, case sensitive "a" "A" "aa" "b" "B" "ba" "bb" // then arrays. compared element by element until different. // Longer arrays sort after their prefixes ["a"] ["b"] ["b","c"] ["b","c", "a"] ["b","d"] ["b","d", "e"] // then object, compares each key value in the list until different. // larger objects sort after their subset objects. {a:1} {a:2} {b:1} {b:2} {b:2, a:1} // Member order does matter for collation. // CouchDB preserves member order // but doesn't require that clients will. // this test might fail if used with a js engine // that doesn't preserve order {b:2, c:2}
Comparison of strings is done using ICU which implements the Unicode Collation Algorithm, giving a dictionary sorting of keys. This can give surprising results if you were expecting ASCII ordering. Note that:
- All symbols sort before numbers and letters (even the "high" symbols like tilde, 0x7e)
- Differing sequences of letters are compared without regard to case, so a < aa but also A < aa and a < AA
- Identical sequences of letters are compared with regard to case, with lowercase before uppercase, so a < A
You can demonstrate the collation sequence for 7-bit ASCII characters like this:
require 'rubygems' require 'restclient' require 'json' DB="http://127.0.0.1:5984/collator" RestClient.delete DB rescue nil RestClient.put "#{DB}","" (32..126).each do |c| RestClient.put "#{DB}/#{c.to_s(16)}", {"x"=>c.chr}.to_json end RestClient.put "#{DB}/_design/test", <<EOS { "views":{ "one":{ "map":"function (doc) { emit(doc.x,null); }" } } } EOS puts RestClient.get("#{DB}/_design/test/_view/one")
This shows the collation sequence to be:
` ^ _ - , ; : ! ? . ' " ( ) [ ] { } @ * / \ & # % + < = > | ~ $ 0 1 2 3 4 5 6 7 8 9 a A b B c C d D e E f F g G h H i I j J k K l L m M n N o O p P q Q r R s S t T u U v V w W x X y Y z Z
Key ranges
Take special care when querying key ranges. For example: the query
startkey="Abc"&endkey="AbcZZZZ"
will match "ABC" and "abc1", but not "abc". This is because UCA sorts as
abc < Abc < ABC < abc1 < AbcZZZZZ
For most applications, to avoid problems you should lowercase the startkey, e.g.
startkey="abc"&endkey="abcZZZZZZZZ"
will match all keys starting with [aA][bB][cC]
Complex keys
The query startkey=["foo"]&endkey=["foo",{}] will match most array keys with "foo" in the first element, such as ["foo","bar"] and ["foo",["bar","baz"]]. However it will not match ["foo",{"an":"object"}]
_all_docs
The _all_docs view is a special case because it uses ASCII collation for doc ids, not UCA. For example,
startkey="_design/"&endkey="_design/ZZZZZZZZ"
will not find _design/abc because 'Z' comes before 'a' in the ASCII sequence. A better solution is:
startkey="_design/"&endkey="_design0"
Raw collation
To squeeze a little more performance out of views, you can specify "options":{"collation":"raw"} within the view definition for native Erlang collation, especially if you don't require UCA. This gives a different collation sequence:
1 false null true {"a":"a"}, ["a"] "a"
Beware that {} is no longer a suitable "high" key sentinel value. Use a string like "~~~~~" instead.