# Documentation

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## Description

example

H = addnode(G,nodeIDs) adds the nodes specified by nodeIDs to graph G. The node names in nodeIDs must not refer to nodes already present in G.

example

H = addnode(G,numNodes) adds a number of new nodes to G equal to numNodes. If G contains nodes with names, then the new nodes are assigned sequential names indicating their row placement in G.Nodes.Name. For example, 'Node5' is located at G.Nodes.Name(5).

example

H = addnode(G,NodeProps) adds new nodes to G with the node properties in NodeProps. One node is added for each row in NodeProps. The NodeProps table must be able to be concatenated to G.Nodes, so that the result is H.Nodes = [G.Nodes; NodeProps].

## Examples

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Add two nodes to a graph that does not have node names.

G = graph([1 2 3],[2 3 4])
G =
graph with properties:

Edges: [3x1 table]
Nodes: [4x0 table]

G =
graph with properties:

Edges: [3x1 table]
Nodes: [6x0 table]

Add node names to the graph, and then add five additional new nodes. The auto-generated names for the new nodes indicate their placement in G.Nodes.Name.

G.Nodes.Name = {'A' 'B' 'C' 'D' 'E' 'F'}'
G =
graph with properties:

Edges: [3x1 table]
Nodes: [6x1 table]

G.Nodes
ans=11x1 table
Name
________

'A'
'B'
'C'
'D'
'E'
'F'
'Node7'
'Node8'
'Node9'
'Node10'
'Node11'

Create a directed graph with named nodes, and then add two named nodes to the graph.

G = digraph({'A' 'B' 'C'},{'D' 'C' 'D'})
G =
digraph with properties:

Edges: [3x1 table]
Nodes: [4x1 table]

G =
digraph with properties:

Edges: [3x1 table]
Nodes: [6x1 table]

If the graph does not already have node names, then adding named nodes to the graph automatically generates names for the other nodes.

Create a directed graph without node names, and then add two named nodes to the graph.

H = digraph([1 2 3],[4 3 4])
H =
digraph with properties:

Edges: [3x1 table]
Nodes: [4x0 table]

H.Nodes
ans=6x1 table
Name
_______

'Node1'
'Node2'
'Node3'
'Node4'
'E'
'F'

Create a graph whose nodes represent airports.

G = graph({'JFK' 'LAX'}, {'LAX' 'DEN'})
G =
graph with properties:

Edges: [2x1 table]
Nodes: [3x1 table]

Add a node attribute to indicate whether each airport has free WIFI.

G.Nodes.WIFI = [false true true]';
G.Nodes
ans=3x2 table
Name     WIFI
_____    _____

'JFK'    false
'LAX'    true
'DEN'    true

Add two new nodes to the graph by creating a table, NodeProps, containing the node name and WIFI status of each new node. Use addnode to concatenate NodeProps to G.Nodes.

NodeProps = table({'ATL' 'ANC'}', [false true]', ...
'VariableNames', {'Name' 'WIFI'});

View the modified node table.

G.Nodes
ans=5x2 table
Name     WIFI
_____    _____

'JFK'    false
'LAX'    true
'DEN'    true
'ATL'    false
'ANC'    true

## Input Arguments

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Input graph, specified as either a graph or digraph object. Use graph to create an undirected graph or digraph to create a directed graph.

Example: G = graph(1,2)

Example: G = digraph([1 2],[2 3])

Node names, specified as a character vector or cell array of character vectors.

Data Types: char | cell

Number of nodes to add, specified as a nonnegative numeric scalar.

Node attributes, specified as a table.

Data Types: table

## Output Arguments

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Output graph, returned as a graph or digraph object.