(â ) Functionality available in Neo4j Enterprise Edition.
Neo4j Cheat Sheet
A Neo4j cheat sheet with getting started resources and information on how to query the database with Cypher.
Neo4j Security
(â ) DBMS privileges
GRANT ALL ON DBMS TO my_role
Grant privilege to perform all role management, user management, database management and privilege management to a role.
(â ) Privilege management privileges
GRANT SHOW PRIVILEGE ON DBMS TO my_role
Grant the privilege to show privileges to a role.
DENY ASSIGN PRIVILEGE ON DBMS TO my_role
Deny the privilege to assign privileges to roles to a role.
REVOKE GRANT REMOVE PRIVILEGE ON DBMS FROM my_role
Revoke the granted privilege to remove privileges from roles from a role.
REVOKE PRIVILEGE MANAGEMENT ON DBMS FROM my_role
Revoke all granted and denied privileges for manage privileges from a role.
(â ) Database management privileges
GRANT CREATE DATABASE ON DBMS TO my_role
Grant the privilege to create databases to a role.
REVOKE DENY DROP DATABASE ON DBMS FROM my_role
Revoke the denied privilege to delete databases from a role.
DENY DATABASE MANAGEMENT ON DBMS TO my_role
Deny all privileges to manage database to a role.
(â ) User management privileges
GRANT CREATE USER ON DBMS TO my_role
Grant the privilege to create users to a role.
GRANT RENAME USER ON DBMS TO my_role
Grant the privilege to rename users to a role.
DENY ALTER USER ON DBMS TO my_role
Deny the privilege to alter users to a role.
REVOKE SET PASSWORDS ON DBMS FROM my_role
Revoke the granted and denied privileges to alter users' passwords from a role.
REVOKE GRANT SET USER STATUS ON DBMS FROM my_role
Revoke the granted privilege to alter the account status of users from a role.
GRANT SET USER HOME DATABASE ON DBMS TO my_role
Grant the privilege alter the home database of users to a role.
GRANT DROP USER ON DBMS TO my_role
Grant the privilege to delete users to a role.
REVOKE DENY SHOW USER ON DBMS FROM my_role
Revoke the denied privilege to show users from a role.
GRANT USER MANAGEMENT ON DBMS TO my_role
Grant all privileges to manage users to a role.
(â ) Role management privileges
GRANT CREATE ROLE ON DBMS TO my_role
Grant the privilege to create roles to a role.
GRANT RENAME ROLE ON DBMS TO my_role
Grant the privilege to rename roles to a role.
GRANT DROP ROLE ON DBMS TO my_role
Grant the privilege to delete roles to a role.
DENY ASSIGN ROLE ON DBMS TO my_role
Deny the privilege to assign roles to users to a role.
DENY REMOVE ROLE ON DBMS TO my_role
Deny the privilege to remove roles from users to a role.
REVOKE DENY SHOW ROLE ON DBMS FROM my_role
Revoke the denied privilege to show roles from a role.
GRANT ROLE MANAGEMENT ON DBMS TO my_role
Grant all privileges to manage roles to a role.
(â ) Database privileges
GRANT ACCESS ON DATABASE * TO my_role
Grant privilege to access and run queries against all databases to a role.
GRANT START ON DATABASE * TO my_role
Grant privilege to start all databases to a role.
GRANT STOP ON DATABASE * TO my_role
Grant privilege to stop all databases to a role.
GRANT CREATE INDEX ON DATABASE foo TO my_role
Grant privilege to create indexes on a specified database to a role.
GRANT DROP INDEX ON DATABASE foo TO my_role
Grant privilege to drop indexes on a specified database to a role.
GRANT SHOW INDEX ON DATABASE * TO my_role
Grant privilege to show indexes on all databases to a role.
DENY INDEX MANAGEMENT ON DATABASE bar TO my_role
Deny privilege to create and drop indexes on a specified database to a role.
GRANT CREATE CONSTRAINT ON DATABASE * TO my_role
Grant privilege to create constraints on all databases to a role.
DENY DROP CONSTRAINT ON DATABASE * TO my_role
Deny privilege to drop constraints on all databases to a role.
DENY SHOW CONSTRAINT ON DATABASE foo TO my_role
Deny privilege to show constraints on a specified database to a role.
REVOKE CONSTRAINT ON DATABASE * FROM my_role
Revoke granted and denied privileges to create and drop constraints on all databases from a role.
GRANT CREATE NEW LABELS ON DATABASE * TO my_role
Grant privilege to create new labels on all databases to a role.
DENY CREATE NEW TYPES ON DATABASE foo TO my_role
Deny privilege to create new relationship types on a specified database to a role.
REVOKE GRANT CREATE NEW PROPERTY NAMES ON DATABASE bar FROM my_role
Revoke the grant privilege to create new property names on a specified database from a role.
GRANT NAME MANAGEMENT ON HOME DATABASE TO my_role
Grant privilege to create labels, relationship types, and property names on the home database to a role.
GRANT ALL ON DATABASE baz TO my_role
Grant privilege to access, create and drop indexes and constraints, create new labels, types and property names on a specified database to a role.
GRANT SHOW TRANSACTION (*) ON DATABASE foo TO my_role
Grant privilege to list transactions and queries from all users on a specified database to a role.
DENY TERMINATE TRANSACTION (user1, user2) ON DATABASES * TO my_role
Deny privilege to kill transactions and queries from user1 and user2 on all databases to a role.
REVOKE GRANT TRANSACTION MANAGEMENT ON HOME DATABASE FROM my_role
Revoke the granted privilege to list and kill transactions and queries from all users on the home database from a role.
(â ) SHOW PRIVILEGES
SHOW PRIVILEGES AS COMMANDS
List all privileges in the system as Cypher commands.
SHOW PRIVILEGES
List all privileges in the system, and the roles that they are assigned to.
SHOW PRIVILEGES
YIELD role, action, access
WHERE role = 'my\_role'
List information about privileges, filtered by role, action and access and further refined by the name of the role.
SHOW ROLE my_role PRIVILEGES AS COMMANDS
List all privileges assigned to a role as Cypher commands.
SHOW ROLE my_role, my_second_role PRIVILEGES AS COMMANDS
List all privileges assigned to each of the multiple roles as Cypher commands.
SHOW USER alice PRIVILEGES AS COMMANDS
List all privileges of a user, and the role that they are assigned to as Cypher commands.
SHOW USER PRIVILEGES AS COMMANDS
List all privileges of the currently logged in user, and the role that they are assigned to as Cypher commands.
(â ) Graph write privileges
GRANT CREATE ON GRAPH * NODES Label TO my_role
Grant create privilege on all nodes with a specified label in all graphs to a role.
DENY DELETE ON GRAPH neo4j TO my_role
Deny delete privilege on all nodes and relationships in a specified graph to a role.
REVOKE SET LABEL Label ON GRAPH * FROM my_role
Revoke set label privilege for the specified label on all graphs to a role.
GRANT REMOVE LABEL * ON GRAPH foo TO my_role
Grant remove label privilege for all labels on a specified graph to a role.
DENY SET PROPERTY {prop} ON GRAPH foo RELATIONSHIPS Type TO my_role
Deny set property privilege on a specified property, on all relationships with a specified type in a specified graph, to a role.
GRANT MERGE {*} ON GRAPH * NODES Label TO my_role
Grant merge privilege on all properties, on all nodes with a specified label in all graphs, to a role.
REVOKE WRITE ON GRAPH * FROM my_role
Revoke write privilege on all graphs from a role.
DENY ALL GRAPH PRIVILEGES ON GRAPH foo TO my_role
Deny all graph privileges privilege on a specified graph to a role.
(â ) Graph read privileges
GRANT TRAVERSE ON GRAPH * NODES * TO my_role
Grant traverse privilege on all nodes and all graphs to a role.
DENY READ {prop} ON GRAPH foo RELATIONSHIP Type TO my_role
Deny read privilege on a specified property, on all relationships with a specified type in a specified graph, to a role.
GRANT MATCH {\*} ON HOME GRAPH ELEMENTS Label TO my_role
Grant read privilege on all properties and traverse privilege in the home graph, to a role. Here, both privileges apply to all nodes and relationships with a specified label/type in the graph.
(â ) Role management
CREATE ROLE my\_role
Create a role.
CREATE ROLE my_second_role IF NOT EXISTS AS COPY OF my_role
Create a role named my_second_role, unless it already exists, as a copy of the existing my_role.
RENAME ROLE my\_second\_role TO my_other_role
Rename a role named my_second_role to my_other_role.
GRANT ROLE my\_role, my_other_role TO alice
Assign roles to a user.
REVOKE ROLE my\_other\_role FROM alice
Remove a specified role from a user.
SHOW ROLES
List all roles in the system.
SHOW ROLES
YIELD role
WHERE role CONTAINS 'my'
List roles, filtered by the name of the role and further refined by whether the name contains 'my'.
SHOW POPULATED ROLES WITH USERS
List all roles that are assigned to at least one user in the system, and the users assigned to those roles.
DROP ROLE my\_role
Delete a role.
User management
CREATE USER alice SET PASSWORD $password
Create a new user and a password. This password must be changed on the first login.
ALTER USER alice SET PASSWORD $password CHANGE NOT REQUIRED
Set a new password for a user. This user will not be required to change this password on the next login.
ALTER USER alice IF EXISTS SET PASSWORD CHANGE REQUIRED
If the specified user exists, force this user to change their password on the next login.
ALTER USER alice SET STATUS SUSPENDED
(â ) Change the user status to suspended. Use SET STATUS ACTIVE to reactivate the user.
ALTER USER alice SET HOME DATABASE otherDb
(â ) Change the home database of user to otherDb. Use REMOVE HOME DATABASE to unset the home database for the user and fallback to the default database.
ALTER CURRENT USER SET PASSWORD FROM $old TO $new
Change the password of the logged-in user. The user will not be required to change this password on the next login.
SHOW CURRENT USER
List the currently logged-in user, their status, roles and whether they need to change their password. (â ) Status and roles are Enterprise Edition only.
SHOW USERS
List all users in the system, their status, roles and if they need to change their password. (â ) Status and roles are Enterprise Edition only.
SHOW USERS
YIELD user, suspended
WHERE suspended = true
List users in the system, filtered by their name and status and further refined by whether they are suspended. (â ) Status is Enterprise Edition only.
RENAME USER alice TO alice_delete
Rename the user alice to alice_delete.
DROP USER alice\_delete
Delete the user.
Neo4j Multidatabase
Database management
CREATE OR REPLACE DATABASE myDatabase
(â ) Create a database named myDatabase. If a database with that name exists, then the existing database is deleted and a new one created.
STOP DATABASE myDatabase
(â ) Stop the database myDatabase.
START DATABASE myDatabase
(â ) Start the database myDatabase.
SHOW DATABASES
List all databases in the system and information about them.
SHOW DATABASES
YIELD name, currentStatus
WHERE name CONTAINS 'my' AND currentStatus = 'online'
List information about databases, filtered by name and online status and further refined by conditions on these.
SHOW DATABASE myDatabase
List information about the database myDatabase.
SHOW DEFAULT DATABASE
List information about the default database.
SHOW HOME DATABASE
List information about the current users home database.
DROP DATABASE myDatabase IF EXISTS
(â ) Delete the database myDatabase, if it exists.
Neo4j Schema Operations
Performance
- Use parameters instead of literals when possible. This allows Cypher to re-use your queries instead of having to parse and build new execution plans.
- Always set an upper limit for your variable length patterns. Itâs possible to have a query go wild and touch all nodes in a graph by mistake.
- Return only the data you need. Avoid returning whole nodes and relationshipsâââinstead, pick the data you need and return only that.
- Use
PROFILE
/EXPLAIN
to analyze the performance of your queries. See Query Tuning for more information on these and other topics, such as planner hints.
CONSTRAINT
CREATE CONSTRAINT ON (p:Person)
ASSERT p.name IS UNIQUE
Create a unique property constraint on the label Person and property name. If any other node with that label is updated or created with a name that already exists, the write operation will fail. This constraint will create an accompanying index.
CREATE CONSTRAINT uniqueness ON (p:Person)
ASSERT p.age IS UNIQUE
Create a unique property constraint on the label Person and property age with the name uniqueness. If any other node with that label is updated or created with a age that already exists, the write operation will fail. This constraint will create an accompanying index.
CREATE CONSTRAINT ON (p:Person)
ASSERT p.surname IS UNIQUE
OPTIONS {indexProvider: 'native-btree-1.0'}
Create a unique property constraint on the label Person and property surname with the index provider native-btree-1.0 for the accompanying index.
CREATE CONSTRAINT ON (p:Person)
ASSERT p.name IS NOT NULL
(â ) Create a node property existence constraint on the label Person and property name, throws an error if the constraint already exists. If a node with that label is created without a name, or if the name property is removed from an existing node with the Person label, the write operation will fail.
CREATE CONSTRAINT node_exists IF NOT EXISTS ON (p:Person)
ASSERT p.name IS NOT NULL
(â ) If a node property existence constraint on the label Person and property name or any constraint with the name node_exists already exist then nothing happens. If no such constraint exists, then it will be created.
CREATE CONSTRAINT ON ()-[l:LIKED]-()
ASSERT l.when IS NOT NULL
(â ) Create a relationship property existence constraint on the type LIKED and property when. If a relationship with that type is created without a when, or if the when property is removed from an existing relationship with the LIKED type, the write operation will fail.
CREATE CONSTRAINT relationship_exists ON ()-[l:LIKED]-()
ASSERT l.since IS NOT NULL
(â ) Create a relationship property existence constraint on the type LIKED and property since with the name relationship_exists. If a relationship with that type is created without a since, or if the since property is removed from an existing relationship with the LIKED type, the write operation will fail.
SHOW UNIQUE CONSTRAINTS YIELD *
List all unique constraints.
CREATE CONSTRAINT ON (p:Person)
ASSERT (p.firstname, p.surname) IS NODE KEY
(â ) Create a node key constraint on the label Person and properties firstname and surname. If a node with that label is created without both firstname and surname or if the combination of the two is not unique, or if the firstname and/or surname labels on an existing node with the Person label is modified to violate these constraints, the write operation will fail.
CREATE CONSTRAINT node_key ON (p:Person)
ASSERT (p.name, p.surname) IS NODE KEY
(â ) Create a node key constraint on the label Person and properties name and surname with the name node_key. If a node with that label is created without both name and surname or if the combination of the two is not unique, or if the name and/or surname labels on an existing node with the Person label is modified to violate these constraints, the write operation will fail.
CREATE CONSTRAINT node_key_with_config ON (p:Person)
ASSERT (p.name, p.age) IS NODE KEY
OPTIONS {indexConfig: {`spatial.wgs-84.min`: [-100.0, -100.0], `spatial.wgs-84.max`: [100.0, 100.0]}}
(â ) Create a node key constraint on the label Person and properties name and age with the name node_key_with_config and given spatial.wgs-84 settings for the accompanying index. The other index settings will have their default values.
DROP CONSTRAINT uniqueness
Drop the constraint with the name uniqueness, throws an error if the constraint does not exist.
DROP CONSTRAINT uniqueness IF EXISTS
Drop the constraint with the name uniqueness if it exists, does nothing if it does not exist.
INDEX
CREATE INDEX FOR (p:Person) ON (p.name)
Create an index on nodes with label Person and property name.
CREATE INDEX index_name FOR ()-[k:KNOWS]-() ON (k.since)
Create an index on relationships with type KNOWS and property since with the name index_name.
CREATE INDEX FOR (p:Person) ON (p.surname)
OPTIONS {indexProvider: 'native-btree-1.0', indexConfig: {`spatial.cartesian.min`: [-100.0, -100.0], `spatial.cartesian.max`: [100.0, 100.0]}}
Create an index on nodes with label Person and property surname with the index provider native-btree-1.0 and given spatial.cartesian settings. The other index settings will have their default values.
CREATE INDEX FOR (p:Person) ON (p.name, p.age)
Create a composite index on nodes with label Person and the properties name and age, throws an error if the index already exist.
CREATE INDEX IF NOT EXISTS FOR (p:Person) ON (p.name, p.age)
Create a composite index on nodes with label Person and the properties name and age if it does not already exist, does nothing if it did exist.
CREATE LOOKUP INDEX lookup_index_name FOR (n) ON EACH labels(n)
Create a token lookup index with the name lookup_index_name on nodes with any label .
CREATE LOOKUP INDEX FOR ()-[r]-() ON EACH type(r)
Create a token lookup index on relationships with any relationship type.
CREATE FULLTEXT INDEX node_fulltext_index_name FOR (n:Friend) ON EACH [n.name]
OPTIONS {indexConfig: {`fulltext.analyzer`: 'swedish'}}
Create a fulltext index on nodes with the name node_fulltext_index_name and analyzer swedish. Fulltext indexes on nodes can only be used by from the procedure db.index.fulltext.queryNodes. The other index settings will have their default values.
CREATE FULLTEXT INDEX rel_fulltext_index_name FOR ()-[r:HAS\_PET|BROUGHT\_PET]-() ON EACH [r.since, r.price]
Create a fulltext index on relationships with the name rel_fulltext_index_name. Fulltext indexes on relationships can only be used by from the procedure db.index.fulltext.queryRelationships.
SHOW INDEXES
List all indexes.
MATCH (n:Person) WHERE n.name = $value
An index can be automatically used for the equality comparison. Note that for example toLower(n.name) = $value will not use an index.
MATCH (n:Person)
WHERE n.name IN [$value]
An index can automatically be used for the IN list checks.
MATCH (n:Person)
WHERE n.name = $value and n.age = $value2
A composite index can be automatically used for equality comparison of both properties. Note that there needs to be predicates on all properties of the composite index for it to be used.
MATCH (n:Person)
USING INDEX n:Person(name)
WHERE n.name = $value
Index usage can be enforced when Cypher uses a suboptimal index, or more than one index should be used.
DROP INDEX index_name
Drop the index named index_name, throws an error if the index does not exist.
DROP INDEX index_name IF EXISTS
Drop the index named index_name if it exists, does nothing if it does not exist.
Neo4j Functions
Aggregating functions
count(\*)
The number of matching rows.
count(variable)
The number of non-null values.
count(DISTINCT variable)
All aggregating functions also take the DISTINCT operator, which removes duplicates from the values.
collect(n.property)
List from the values, ignores null.
sum(n.property)
Sum numerical values. Similar functions are avg(), min(), max().
percentileDisc(n.property, $percentile)
Discrete percentile. Continuous percentile is percentileCont(). The percentile argument is from 0.0 to 1.0.
stDev(n.property)
Standard deviation for a sample of a population. For an entire population use stDevP().
Relationship functions
type(a_relationship)
String representation of the relationship type.
startNode(a\_relationship)
Start node of the relationship.
endNode(a\_relationship)
End node of the relationship.
id(a\_relationship)
The internal id of the relationship.
String functions
toString($expression)
String representation of the expression.
replace($original, $search, $replacement)
Replace all occurrences of search with replacement. All arguments must be expressions.
substring($original, $begin, $subLength)
Get part of a string. The subLength argument is optional.
left($original, $subLength),
right($original, $subLength)
The first part of a string. The last part of the string.
trim($original), lTrim($original),
rTrim($original)
Trim all whitespace, or on the left or right side.
toUpper($original), toLower($original)
UPPERCASE and lowercase.
split($original, $delimiter)
Split a string into a list of strings.
reverse($original)
Reverse a string.
size($string)
Calculate the number of characters in the string.
Mathematical functions
abs($expr)
The absolute value.
rand()
Returns a random number in the range from 0 (inclusive) to 1 (exclusive), [0,1). Returns a new value for each call. Also useful for selecting a subset or random ordering.
round($expr)
Round to the nearest integer; ceil() and floor() find the next integer up or down.
sqrt($expr)
The square root.
sign($expr)
0 if zero, -1 if negative, 1 if positive.
sin($expr)
Trigonometric functions also include cos(), tan(), cot(), asin(), acos(), atan(), atan2(), and haversin(). All arguments for the trigonometric functions should be in radians, if not otherwise specified.
degrees($expr), radians($expr), pi()
Converts radians into degrees; use radians() for the reverse, and pi() for Ï.
log10($expr), log($expr), exp($expr), e()
Logarithm base 10, natural logarithm, e to the power of the parameter, and the value of e.
Duration functions
duration("P1Y2M10DT12H45M30.25S")
Returns a duration of 1 year, 2 months, 10 days, 12 hours, 45 minutes and 30.25 seconds.
duration.between($date1,$date2)
Returns a duration between two temporal instances.
WITH duration("P1Y2M10DT12H45M") AS d
RETURN d.years, d.months, d.days, d.hours, d.minutes
Returns 1 year, 14 months, 10 days, 12 hours and 765 minutes.
WITH duration("P1Y2M10DT12H45M") AS d
RETURN d.years, d.monthsOfYear, d.days, d.hours, d.minutesOfHour
Returns 1 year, 2 months, 10 days, 12 hours and 45 minutes.
date("2015-01-01") + duration("P1Y1M1D")
Returns a date of 2016-02-02. It is also possible to subtract durations from temporal instances.
duration("PT30S") * 10
Returns a duration of 5 minutes. It is also possible to divide a duration by a number.
Temporal functions
date("2018-04-05")
Returns a date parsed from a string.
localtime("12:45:30.25")
Returns a time with no time zone.
time("12:45:30.25+01:00")
Returns a time in a specified time zone.
localdatetime("2018-04-05T12:34:00")
Returns a datetime with no time zone.
datetime("2018-04-05T12:34:00[Europe/Berlin]")
Returns a datetime in the specified time zone.
datetime({epochMillis: 3360000})
Transforms 3360000 as a UNIX Epoch time into a normal datetime.
date({year: $year, month: $month, day: $day})
All of the temporal functions can also be called with a map of named components. This example returns a date from year, month and day components. Each function supports a different set of possible components.
datetime({date: $date, time: $time})
Temporal types can be created by combining other types. This example creates a datetime from a date and a time.
date({date: $datetime, day: 5})
Temporal types can be created by selecting from more complex types, as well as overriding individual components. This example creates a date by selecting from a datetime, as well as overriding the day component.
WITH date("2018-04-05") AS d
RETURN d.year, d.month, d.day, d.week, d.dayOfWeek
Accessors allow extracting components of temporal types.
Neo4j Writing Data
Spatial functions
point({x: $x, y: $y})
Returns a point in a 2D cartesian coordinate system.
point({latitude: $y, longitude: $x})
Returns a point in a 2D geographic coordinate system, with coordinates specified in decimal degrees.
point({x: $x, y: $y, z: $z})
Returns a point in a 3D cartesian coordinate system.
point({latitude: $y, longitude: $x, height: $z})
Returns a point in a 3D geographic coordinate system, with latitude and longitude in decimal degrees, and height in meters.
distance(point({x: $x1, y: $y1}), point({x: $x2, y: $y2}))
Returns a floating point number representing the linear distance between two points. The returned units will be the same as those of the point coordinates, and it will work for both 2D and 3D cartesian points.
distance(point({latitude: $y1, longitude: $x1}), point({latitude: $y2, longitude: $x2}))
Returns the geodesic distance between two points in meters. It can be used for 3D geographic points as well.
Path functions
length(path)
The number of relationships in the path.
nodes(path)
The nodes in the path as a list.
relationships(path)
The relationships in the path as a list.
[x IN nodes(path) | x.prop]
Extract properties from the nodes in a path.
Functions
coalesce(n.property, $defaultValue)
The first non-null expression.
timestamp()
Milliseconds since midnight, January 1, 1970 UTC.
id(nodeOrRelationship)
The internal id of the relationship or node.
toInteger($expr)
Converts the given input into an integer if possible; otherwise it returns null.
toFloat($expr)
Converts the given input into a floating point number if possible; otherwise it returns null.
toBoolean($expr)
Converts the given input into a boolean if possible; otherwise it returns null.
keys($expr)
Returns a list of string representations for the property names of a node, relationship, or map.
properties($expr)
Returns a map containing all the properties of a node or relationship.
List expressions
size($list)
Number of elements in the list.
reverse($list)
Reverse the order of the elements in the list.
head($list), last($list), tail($list)
head() returns the first, last() the last element of the list. tail() returns all but the first element. All return null for an empty list.
[x IN list | x.prop]
A list of the value of the expression for each element in the original list.
[x IN list WHERE x.prop <> $value]
A filtered list of the elements where the predicate is true.
[x IN list WHERE x.prop <> $value | x.prop]
A list comprehension that filters a list and extracts the value of the expression for each element in that list.
reduce(s = "", x IN list | s + x.prop)
Evaluate expression for each element in the list, accumulate the results.
CASE
CASE n.eyes
WHEN 'blue' THEN 1
WHEN 'brown' THEN 2
ELSE 3
END
Return THEN value from the matching WHEN value. The ELSE value is optional, and substituted for null if missing.
CASE
WHEN n.eyes = 'blue' THEN 1
WHEN n.age < 40 THEN 2
ELSE 3
END
Return THEN value from the first WHEN predicate evaluating to true. Predicates are evaluated in order.
List predicates
all(x IN coll WHERE x.property IS NOT NULL)
Returns true if the predicate is true for all elements in the list.
any(x IN coll WHERE x.property IS NOT NULL)
Returns true if the predicate is true for at least one element in the list.
none(x IN coll WHERE x.property IS NOT NULL)
Returns true if the predicate is false for all elements in the list.
single(x IN coll WHERE x.property IS NOT NULL)
Returns true if the predicate is true for exactly one element in the list.
Predicates
n.property <> $value
Use comparison operators.
toString(n.property) = $value
Use functions.
n.number >= 1 AND n.number <= 10
Use boolean operators to combine predicates.
1 <= n.number <= 10
Use chained operators to combine predicates.
n:Person
Check for node labels.
variable IS NOT NULL
Check if something is not null, e.g. that a property exists.
n.property IS NULL OR n.property = $value
Either the property does not exist or the predicate is true.
n.property = $value
Non-existing property returns null, which is not equal to anything.
n["property"] = $value
Properties may also be accessed using a dynamically computed property name.
n.property STARTS WITH 'Tim' OR
n.property ENDS WITH 'n' OR
n.property CONTAINS 'goodie'
String matching.
n.property =~ 'Tim.\*'
String regular expression matching.
(n)-[:KNOWS]->(m)
Ensure the pattern has at least one match.
NOT (n)-[:KNOWS]->(m)
Exclude matches to (n)-[:KNOWS]->(m) from the result.
n.property IN [$value1, $value2]
Check if an element exists in a list.
Maps
{name: 'Alice', age: 38,
address: {city: 'London', residential: true}}
Literal maps are declared in curly braces much like property maps. Lists are supported.
WITH {person: {name: 'Anne', age: 25}} AS p
RETURN p.person.name
Access the property of a nested map.
MERGE (p:Person {name: $map.name})
ON CREATE SET p = $map
Maps can be passed in as parameters and used either as a map or by accessing keys.
MATCH (matchedNode:Person)
RETURN matchedNode
Nodes and relationships are returned as maps of their data.
map.name, map.age, map.children[0]
Map entries can be accessed by their keys. Invalid keys result in an error.
Lists
['a', 'b', 'c'] AS list
Literal lists are declared in square brackets.
size($list) AS len, $list[0] AS value
Lists can be passed in as parameters.
range($firstNum, $lastNum, $step) AS list
range() creates a list of numbers (step is optional), other functions returning lists are: labels(), nodes(), relationships().
MATCH p = (a)-[:KNOWS\*]->()
RETURN relationships(p) AS r
The list of relationships comprising a variable length path can be returned using named paths and relationships().
RETURN matchedNode.list[0] AS value,
size(matchedNode.list) AS len
Properties can be lists of strings, numbers or booleans.
list[$idx] AS value,
list[$startIdx..$endIdx] AS slice
List elements can be accessed with idx subscripts in square brackets. Invalid indexes return null. Slices can be retrieved with intervals from start_idx to end_idx, each of which can be omitted or negative. Out of range elements are ignored.
UNWIND $names AS name
MATCH (n {name: name})
RETURN avg(n.age)
With UNWIND, any list can be transformed back into individual rows. The example matches all names from a list of names.
MATCH (a)
RETURN [(a)-->(b) WHERE b.name = 'Bob' | b.age]
Pattern comprehensions may be used to do a custom projection from a match directly into a list.
MATCH (person)
RETURN person { .name, .age}
Map projections may be easily constructed from nodes, relationships and other map values.
Labels
CREATE (n:Person {name: $value})
Create a node with label and property.
MERGE (n:Person {name: $value})
Matches or creates unique node(s) with the label and property.
SET n:Spouse:Parent:Employee
Add label(s) to a node.
MATCH (n:Person)
Matches nodes labeled Person.
MATCH (n:Person)
WHERE n.name = $value
Matches nodes labeled Person with the given name.
WHERE (n:Person)
Checks the existence of the label on the node.
labels(n)
Labels of the node.
REMOVE n:Person
Remove the label from the node.
SHOW FUNCTIONS and PROCEDURES
SHOW FUNCTIONS
Listing all available functions.
SHOW PROCEDURES EXECUTABLE YIELD name
List all procedures that can be executed by the current user and return only the name of the procedures.
USE
USE myDatabase
Select myDatabase to execute query, or query part, against.
USE neo4j
MATCH (n:Person)-[:KNOWS]->(m:Person)
WHERE n.name = 'Alice'
MATCH query executed against neo4j database.
Patterns
(n:Person)
Node with Person label.
(n:Person:Swedish)
Node with both Person and Swedish labels.
(n:Person {name: $value})
Node with the declared properties.
()-[r {name: $value}]-()
Matches relationships with the declared properties.
(n)-->(m)
Relationship from n to m.
(n)--(m)
Relationship in any direction between n and m.
(n:Person)-->(m)
Node n labeled Person with relationship to m.
(m)<-[:KNOWS]-(n)
Relationship of type KNOWS from n to m.
(n)-[:KNOWS|:LOVES]->(m)
Relationship of type KNOWS or of type LOVES from n to m.
(n)-[r]->(m)
Bind the relationship to variable r.
(n)-[\*1..5]->(m)
Variable length path of between 1 and 5 relationships from n to m.
(n)-[\*]->(m)
Variable length path of any number of relationships from n to m. (See Performance section.)
(n)-[:KNOWS]->(m {property: $value})
A relationship of type KNOWS from a node n to a node m with the declared property.
shortestPath((n1:Person)-[\*..6]-(n2:Person))
Find a single shortest path.
allShortestPaths((n1:Person)-[\*..6]->(n2:Person))
Find all shortest paths.
size((n)-->()-->())
Count the paths matching the pattern.
null
null
is used to represent missing/undefined values.null
is not equal tonull
. Not knowing two values does not imply that they are the same value. So the expressionnull = null
yieldsnull
and nottrue
. To check if an expression isnull
, useIS NULL
.- Arithmetic expressions, comparisons and function calls (except
coalesce
) will returnnull
if any argument isnull
. - An attempt to access a missing element in a list or a property that doesnât exist yields
null
. - In
OPTIONAL MATCH
clauses,nulls
will be used for missing parts of the pattern.
Operators
General | DISTINCT, ., [] |
Mathematical | +, -, *, /, %, ^ |
Comparison | =, <>, <, >, <=, >=, IS NULL, IS NOT NULL |
Boolean | AND, OR, XOR, NOT |
String | + |
List | +, IN, [x], [x .. y] |
Regular Expression | =~ |
String matching | STARTS WITH, ENDS WITH, CONTAINS |
Import
LOAD CSV FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists.csv' AS line
CREATE (:Artist {name: line[1], year: toInteger(line[2])})
Load data from a CSV file and create nodes.
LOAD CSV WITH HEADERS FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists-with-headers.csv' AS line
CREATE (:Artist {name: line.Name, year: toInteger(line.Year)})
Load CSV data which has headers.
USING PERIODIC COMMIT 500
LOAD CSV WITH HEADERS FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists-with-headers.csv' AS line
CREATE (:Artist {name: line.Name, year: toInteger(line.Year)})
Commit the current transaction after every 500 rows when importing large amounts of data.
LOAD CSV FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists-fieldterminator.csv'
AS line FIELDTERMINATOR ';'
CREATE (:Artist {name: line[1], year: toInteger(line[2])})
Use a different field terminator, not the default which is a comma (with no whitespace around it).
LOAD CSV FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists.csv' AS line
RETURN DISTINCT file()
Returns the absolute path of the file that LOAD CSV is processing, returns null if called outside of LOAD CSV context.
LOAD CSV FROM
'https://neo4j.com/docs/cypher-refcard/4.3/csv/artists.csv' AS line
RETURN linenumber()
Returns the line number that LOAD CSV is currently processing, returns null if called outside of LOAD CSV context.
CALL procedure
CALL db.labels() YIELD label
This shows a standalone call to the built-in procedure db.labels to list all labels used in the database. Note that required procedure arguments are given explicitly in brackets after the procedure name.
CALL db.labels() YIELD *
Standalone calls may use YIELD * to return all columns.
CALL java.stored.procedureWithArgs
Standalone calls may omit YIELD and also provide arguments implicitly via statement parameters, e.g. a standalone call requiring one argument input may be run by passing the parameter map {input: 'foo'}.
CALL db.labels() YIELD label
RETURN count(label) AS count
Calls the built-in procedure db.labels inside a larger query to count all labels used in the database. Calls inside a larger query always requires passing arguments and naming results explicitly with YIELD.
CALL subquery
CALL {
MATCH (p:Person)-[:FRIEND\_OF]->(other:Person) RETURN p, other
UNION
MATCH (p:Child)-[:CHILD\_OF]->(other:Parent) RETURN p, other
}
This calls a subquery with two union parts. The result of the subquery can afterwards be post-processed.
FOREACH
FOREACH (r IN relationships(path) |
SET r.marked = true)
Execute a mutating operation for each relationship in a path.
FOREACH (value IN coll |
CREATE (:Person {name: value}))
Execute a mutating operation for each element in a list.
REMOVE
REMOVE n:Person
Remove a label from n.
REMOVE n.property
Remove a property.
DELETE
DELETE n, r
Delete a node and a relationship.
DETACH DELETE n
Delete a node and all relationships connected to it.
MATCH (n)
DETACH DELETE n
Delete all nodes and relationships from the database.
MERGE
MERGE (n:Person {name: $value})
ON CREATE SET n.created = timestamp()
ON MATCH SET
n.counter = coalesce(n.counter, 0) + 1,
n.accessTime = timestamp()
Match a pattern or create it if it does not exist. Use ON CREATE and ON MATCH for conditional updates.
MATCH (a:Person {name: $value1}),
(b:Person {name: $value2})
MERGE (a)-[r:LOVES]->(b)
MERGE finds or creates a relationship between the nodes.
MATCH (a:Person {name: $value1})
MERGE
(a)-[r:KNOWS]->(b:Person {name: $value3})
MERGE finds or creates paths attached to the node.
SET
SET n.property1 = $value1,
n.property2 = $value2
Update or create a property.
SET n = $map
Set all properties. This will remove any existing properties.
SET n += $map
Add and update properties, while keeping existing ones.
SET n:Person
Adds a label Person to a node.
CREATE
CREATE (n {name: $value})
Create a node with the given properties.
CREATE (n $map)
Create a node with the given properties.
UNWIND $listOfMaps AS properties
CREATE (n) SET n = properties
Create nodes with the given properties.
CREATE (n)-[r:KNOWS]->(m)
Create a relationship with the given type and direction; bind a variable to it.
CREATE (n)-[:LOVES {since: $value}]->(m)
Create a relationship with the given type, direction, and properties.
Neo4j Reading Data
UNION
MATCH (a)-[:KNOWS]->(b)
RETURN b.name
UNION
MATCH (a)-[:LOVES]->(b)
RETURN b.name
Returns the distinct union of all query results. Result column types and names have to match.
MATCH (a)-[:KNOWS]->(b)
RETURN b.name
UNION ALL
MATCH (a)-[:LOVES]->(b)
RETURN b.name
Returns the union of all query results, including duplicated rows.
WITH
MATCH (user)-[:FRIEND]-(friend)
WHERE user.name = $name
WITH user, count(friend) AS friends
WHERE friends > 10
RETURN user
The WITH syntax is similar to RETURN. It separates query parts explicitly, allowing you to declare which variables to carry over to the next part.
MATCH (user)-[:FRIEND]-(friend)
WITH user, count(friend) AS friends
ORDER BY friends DESC
SKIP 1
LIMIT 3
RETURN user
ORDER BY, SKIP, and LIMIT can also be used with WITH.
RETURN
RETURN *
Return the value of all variables.
RETURN n AS columnName
Use alias for result column name.
RETURN DISTINCT n
Return unique rows.
ORDER BY n.property
Sort the result.
ORDER BY n.property DESC
Sort the result in descending order.
SKIP $skipNumber
Skip a number of results.
LIMIT $limitNumber
Limit the number of results.
SKIP $skipNumber LIMIT $limitNumber
Skip results at the top and limit the number of results.
RETURN count(*)
The number of matching rows. See Aggregating functions for more.
WHERE
WHERE n.property <> $value
Use a predicate to filter. Note that WHERE is always part of a MATCH, OPTIONAL MATCH or WITH clause. Putting it after a different clause in a query will alter what it does.
WHERE EXISTS {
MATCH (n)-->(m) WHERE n.age = m.age
}
Use an existential subquery to filter.
MATCH
MATCH (n:Person)-[:KNOWS]->(m:Person)
WHERE n.name = 'Alice'
Node patterns can contain labels and properties.
MATCH (n)-->(m)
Any pattern can be used in MATCH.
MATCH (n {name: 'Alice'})-->(m)
Patterns with node properties.
MATCH p = (n)-->(m)
Assign a path to p.
OPTIONAL MATCH (n)-[r]->(m)
Optional pattern: nulls will be used for missing parts.
Neo4j Syntax
Read-write query structure
[USE]
[MATCH WHERE]
[OPTIONAL MATCH WHERE]
[WITH [ORDER BY] [SKIP] [LIMIT]]
(CREATE | MERGE)\*
[SET|DELETE|REMOVE|FOREACH]\*
[RETURN [ORDER BY] [SKIP] [LIMIT]]
Write-only query structure
[USE]
(CREATE | MERGE)*
[SET|DELETE|REMOVE|FOREACH]*
[RETURN [ORDER BY] [SKIP] [LIMIT]]
Read query structure
[USE]
[MATCH WHERE]
[OPTIONAL MATCH WHERE]
[WITH [ORDER BY] [SKIP] [LIMIT]]
RETURN [ORDER BY] [SKIP] [LIMIT]
Getting Started
Graph Database Concepts
Nodes | Nodes are commonly used to represent entities or things in your data. For example, a Person or Movie |
Relationships | Relationships are used to connect two nodes together and organise the data into structure. For example, a Person acted in a movie. A relationship has a type and direction, although the direction can be ignored at query time. |
Labels | Labels are used to group nodes into categories. For example, a person may have Person and Actor labels. |
Relationship Type | Each relationship has a type. Relationships allow you to explore smaller sections of a graph. |
Properties | Both nodes and relationships can have properties set against them. Properties are name-value pairs. |
Getting Started with Neo4j
Neo4j is a Graph Database consisting of nodes connected together by relationships. You might consider using a Graph database if you have a highly connected dataset or have queries with many joins.
- Download Neo4j Desktop download Neo4j desktop or server editions
- Neo4j Sandbox pick a data set - no installation required
- Neo4j Aura free Neo4j instance in the cloud
- Neo4j GraphAcademy free, self-paced, hands-on online training
- GraphGists use ase and industry specific example graphs