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Optimizing View Query Performance
You can improve the performance of View queries with a primary sort order, stored values and other optimizations
Primary Sort Order
The index behind an ArangoSearch View can have a primary sort order. A direction can be specified upon View creation for each uniquely named attribute (ascending or descending), to enable an optimization for AQL queries which iterate over a View and sort by one or multiple of the attributes. If the field(s) and the sorting direction(s) match then the the data can be read directly from the index without actual sort operation.
View definition example:
{
"links": {
"coll1": {
"fields": {
"text": {}
}
},
"coll2": {
"fields": {
"text": {}
}
},
"primarySort": [
{
"field": "text",
"direction": "asc"
}
]
}
}
AQL query example:
FOR doc IN viewName
SORT doc.name
RETURN doc
Execution plan without a sorted index being used:
Execution plan:
Id NodeType Est. Comment
1 SingletonNode 1 * ROOT
2 EnumerateViewNode 1 - FOR doc IN viewName /* view query */
3 CalculationNode 1 - LET #1 = doc.`val` /* attribute expression */
4 SortNode 1 - SORT #1 ASC /* sorting strategy: standard */
5 ReturnNode 1 - RETURN doc
Execution plan with a the primary sort order of the index being utilized:
Execution plan:
Id NodeType Est. Comment
1 SingletonNode 1 * ROOT
2 EnumerateViewNode 1 - FOR doc IN viewName SORT doc.`val` ASC /* view query */
5 ReturnNode 1 - RETURN doc
To define more than one attribute to sort by, simply add more sub-objects to
the primarySort
array:
{
"links": {
"coll1": {
"fields": {
"text": {},
"date": {}
}
},
"coll2": {
"fields": {
"text": {}
}
},
"primarySort": [
{
"field": "date",
"direction": "desc"
},
{
"field": "text",
"direction": "asc"
}
]
}
}
The optimization can be applied to View queries which sort by both fields as
defined (SORT doc.date DESC, doc.name
), but also if they sort in descending
order by the date
attribute only (SORT doc.date DESC
). Queries which sort
by text
alone (SORT doc.name
) are not eligible, because the View is sorted
by date
first. This is similar to skiplist indexes, but inverted sorting
directions are not covered by the View index
(e.g. SORT doc.date, doc.name DESC
).
Note that the primarySort
option is immutable: it can not be changed after
View creation. It is therefore not possible to configure it through the Web UI.
The View needs to be created via the HTTP or JavaScript API (arangosh) to set it.
The primary sort data is LZ4 compressed by default (primarySortCompression
is
"lz4"
). Set it to "none"
on View creation to trade space for speed.
Stored Values
It is possible to directly store the values of document attributes in View
indexes with the View property storedValues
(not to be confused with
storeValues
).
View indexes may fully cover SEARCH
queries for improved performance.
While late document materialization reduces the amount of fetched documents,
this optimization can avoid to access the storage engine entirely.
{
"links": {
"articles": {
"fields": {
"categories": {}
}
}
},
"primarySort": [
{ "field": "publishedAt", "direction": "desc" }
],
"storedValues": [
{ "fields": [ "title", "categories" ] }
],
...
}
In above View definition, the document attribute categories is indexed for
searching, publishedAt is used as primary sort order and title as well as
categories are stored in the View using the new storedValues
property.
FOR doc IN articlesView
SEARCH doc.categories == "recipes"
SORT doc.publishedAt DESC
RETURN {
title: doc.title,
date: doc.publishedAt,
tags: doc.categories
}
The query searches for articles which contain a certain tag in the categories
array and returns title, date and tags. All three values are stored in the View
(publishedAt
via primarySort
and the two other via storedValues
), thus
no documents need to be fetched from the storage engine to answer the query.
This is shown in the execution plan as a comment to the EnumerateViewNode:
/* view query without materialization */
Execution plan:
Id NodeType Est. Comment
1 SingletonNode 1 * ROOT
2 EnumerateViewNode 1 - FOR doc IN articlesView SEARCH (doc.`categories` == "recipes") SORT doc.`publishedAt` DESC LET #1 = doc.`publishedAt` LET #7 = doc.`categories` LET #5 = doc.`title` /* view query without materialization */
5 CalculationNode 1 - LET #3 = { "title" : #5, "date" : #1, "tags" : #7 } /* simple expression */
6 ReturnNode 1 - RETURN #3
Indexes used:
none
Optimization rules applied:
Id RuleName
1 move-calculations-up
2 move-calculations-up-2
3 handle-arangosearch-views
Condition Optimization Options
The SEARCH
operation in AQL accepts an option conditionOptimization
to
give you control over the search criteria optimization:
FOR doc IN myView
SEARCH doc.val > 10 AND doc.val > 5 /* more conditions */
OPTIONS { conditionOptimization: "none" }
RETURN doc
By default, all conditions get converted into disjunctive normal form (DNF).
Numerous optimizations can be applied, like removing redundant or overlapping
conditions (such as doc.val > 10
which is included by doc.val > 5
).
However, converting to DNF and optimizing the conditions can take quite some
time even for a low number of nested conditions which produce dozens of
conjunctions / disjunctions. It can be faster to just search the index without
optimizations.
Also see SEARCH operation.
Count Approximation
The SEARCH
operation in AQL accepts an option countApproximate
to control
how the total count of rows is calculated if the fullCount
option is enabled
for a query or when a COLLECT WITH COUNT
clause is executed.
By default, rows are actually enumerated for a precise count. In some cases, an
estimate might be good enough, however. You can set countApproximate
to
"cost"
for a cost based approximation. It does not enumerate rows and returns
an approximate result with O(1) complexity. It gives a precise result if the
SEARCH
condition is empty or if it contains a single term query only
(e.g. SEARCH doc.field == "value"
), the usual eventual consistency
of Views aside.
FOR doc IN viewName
SEARCH doc.name == "Carol"
OPTIONS { countApproximate: "cost" }
COLLECT WITH COUNT INTO count
RETURN count