IT-Wissen/cypher

Cypher

Queries

• A Node can have Properties and Labels
• A Relationship can have Properties and Types.

delete whole db content

MATCH (n) detach delete n;

Nodes

Create

Create a node with label "Student" and properties name, age and nicknames (as array).

CREATE (n :Student {name:"Jack",age:22,nicknames:["Jacko", "Jackie"]});

Merge

Merge erstellt wie Create ein neuer Node. Wenn der Node aber schon existiert, geschieht nichts, im Gegensatz zu Create, wo ein zweiter Node erstellt wird. Merge kann auch verwendet werden, um zusätzliche Properties hinzu zu fügen. Entweder, wenn der Node schon existiert, oder zusammen mit der Neuerstellung, falls der Node noch nicht existiert.

Hier wird, falls der Node existiert, nicknames überschrieben (falls diese Property vorhanden ist)

ET n.nicknames=["J"];
oder explizit
MERGE (n :Student {name:"Jack",age:22}) 
ON MATCH SET n.nicknames=["J"];

Soll nicknames nur hinzugefügt werden, wenn der Node noch nicht existiert, dann so:

ON CREATE SET n.nicknames=["J"];

Kombiniert:

ON CREATE SET n.nicknames=["Jacko"] 
ON MATCH SET n.nicknames=["Jackie"];```

#### Select

Match all nodes with label "Student", show name and first of the nickname(s)

```MATCH (n :Student) RETURN n.name, n.nicknames[0];```
```MATCH (rog :Student {name: "Roger"}), (tim :Student {name: "Timothy"}) RETURN rog, tim```

##### Where clause

Match all nodes with label "Student" and name "Tim"

```MATCH (n :Student { name:"Roger" } ) RETURN n;
is the same as:
MATCH (n :Student ) WHERE n.name="Roger" RETURN n;```

###### AND

```MATCH (n :Student ) WHERE n.name="Roger" AND n.age=42 RETURN n;```

###### OR

```MATCH (n :Student ) WHERE n.name="Roger" OR n.age=21 RETURN n;```

###### NOT

```MATCH (n) WHERE n.name<>"Roger" AND n.name<>"Josh" RETURN n;
oder
MATCH (n) WHERE NOT n.name="Roger" AND NOT n.name="Josh" RETURN n;```

###### Smaller/Larger

```MATCH (n) WHERE n.age>=21 RETURN n;```

#### Update

##### Update Node Property

Student "Tim" name auf "Timothy" ändern.

```MATCH (n :Student { name:"Tim" }) SET n.name="Timothy" RETURN n;```

##### Update Label

Give the label with name "Roger" the labels "Student" and "Teacher".

```MATCH (n {name:"Roger"}) SET n:Student, n:Teacher RETURN n;```

#### Remove

Entfernen zweier Labels vom Node:

```MATCH (n :Student {name:"Roger"}) REMOVE n:Teacher, n:Student RETURN n;```

Entfernen der Property address:

```MATCH (n :Student {name:"Roger"}) REMOVE n.address RETURN n;```

#### Delete

Löschen eines Nodes

```MATCH (n :User) DELETE n RETURN n;```

### Relations

(node1)-[:FRIEND]->(node2) --> Uni-Directional (node1)<-[:FRIEND]-(node2) --> Uni-Directional (node1)-[:FRIEND]-(node2) --> Bi-Directional

`[:FRIEND]` ist ein Type. Wie ein Label bei den Nodes. Aber im Gegensatz zu Labelnodes ist nur ein Type pro Relationship möglich.

#### Create

Create a Uni-Directional Relationship between Roger and Timothy called "Friend".

```MATCH (rog :Student {name: "Roger"}), (tim :Student {name: "Timothy"})
CREATE (rog)-[:FRIEND]->(tim)
RETURN rog, tim```

Hier noch mit einer Relation Property

```MATCH (rog :Student {name: "Roger"}), (tim :Student {name: "Timothy"})
CREATE (rog)-[r :FRIEND {nickname:"Timmi"}]->(tim)
RETURN rog, r, tim```

Um eine Bi-Directional Relation zu machen, muss einfach noch der umgekehrte Weg gemacht werden:

```MATCH (rog :Student {name: "Roger"}), (tim :Student {name: "Timothy"})
CREATE (rog)<-[r :FRIEND {nickname:"Rocket"}]-(tim)
RETURN rog, r, tim```

Bi-Directional auf einen Chlapf:

```MATCH (rog :Student {name: "Roger"}), (jac :Student {name: "Jack"})
CREATE (rog)-[r1 :FRIEND {nickname:"Rocket"}]->(jac)<-[r2 :FRIEND {nickname:"jaccc"}]-(rog)
RETURN rog, r1, r2, jac```

#### Select

Select Relationship between 2 nodes

```MATCH (rog :Student {name:"Roger"})-[r]-(tim :Student {name:"Timothy"})
RETURN rog, r, tim```

#### Update

Update Relationship Property

```MATCH (:Student {name: "Roger"})<-[r:FRIEND]-(:Student {name: "Timothy"}) 
SET r.nickname = "Rog"
RETURN r```

#### Delete

Löschen einer Relationship. Roger will nicht mehr Freund von Timothy sein.

```MATCH (rog :Student {name:"Roger"})-[r:FRIEND]->(tim :Student {name:"Timothy"})
DELETE r
RETURN rog, r, tim```

oder für alle Directions:

```MATCH (rog :Student {name:"Roger"})-[r:FRIEND]-(tim :Student {name:"Timothy"})
DELETE r
RETURN rog, r, tim```

### Node and Relation

#### Create

Create 2 nodes and relations

CREATE p = (da :Student {name:"Daisy", age:30})-[:FRIEND {nickname:"Annabella"}]->(a :Student {name:"Anna", age:31})-[:FRIEND {nickname:"Day"}]->(da) RETURN p;

#### Merge

Used if you don't want to create new entries if it's alreedy there. Doing the following query multiple times will result only in one relationship, whereas CREATE would create new relationships each time.

Here, Roger and Timothy already exist:

MATCH (rog :Student {name: "Roger"}), (tim :Student {name: "Timothy"}) MERGE (rog)<-[r1 :CLASSMATE]-(tim) MERGE (rog)-[r2 :CLASSMATE]->(tim) RETURN rog, tim, type(r1), r1, type(r2), r2;

Here, Roger exists, and Dave is created if not existing.

MATCH (rog :Student {name: "Roger"}) MERGE (dav :Student {name: "Dave", age:25}) MERGE (rog)<-[r1 :CLASSMATE]-(dav) MERGE (rog)-[r2 :CLASSMATE]->(dav) RETURN rog, dav, type(r1), r1, type(r2), r2;

#### Create Unique

! Deprecated in Neo4j version 3.2

Assuming Roger and Dave alredy exists, and they are connected by relationship `CLASSMATE`.
`CREATE UNIQUE` Will create the relationship and the new node if it is not there (completely, relationship AND node). There is no relationship `FRIEND`, so it will create a new node `Dave` even though `Dave` already exists, but this time with the relationship `FRIEND`. So we have `Roger` and 2 times `Dave`, one with relation `CLASSMATE` and the other with relation `FRIEND`.

```MATCH (rog :Student {name: 'Roger'})
CREATE UNIQUE (rog)-[r :FRIEND]->(dav :Student {name:"Dave", age:25})
RETURN rog, type(r), dav;```