public interface Graph extends AutoCloseable, org.apache.tinkerpop.gremlin.structure.util.Host
Graph
is a container object for a collection of Vertex
, Edge
, VertexProperty
,
and Property
objects.Modifier and Type | Interface and Description |
---|---|
static class |
Graph.Exceptions
Common exceptions to use with a graph.
|
static interface |
Graph.Features
An interface that represents the capabilities of a
Graph implementation. |
static class |
Graph.Hidden
This should only be used by providers to create keys, labels, etc.
|
static interface |
Graph.OptIn
Defines the test suite that the implementer has decided to support and represents publicly as "passing".
|
static interface |
Graph.OptIns
Holds a collection of
Graph.OptIn enabling multiple Graph.OptIn to be applied to a
single suite. |
static interface |
Graph.OptOut
Defines a test in the suite that the implementer does not want to run.
|
static interface |
Graph.OptOuts
Holds a collection of
Graph.OptOut enabling multiple Graph.OptOut to be applied to a
single suite. |
static interface |
Graph.Variables
Graph variables are a set of key/value pairs associated with the graph.
|
Modifier and Type | Field and Description |
---|---|
static String |
GRAPH
Configuration key used by
GraphFactory } to determine which graph to instantiate. |
Modifier and Type | Method and Description |
---|---|
Vertex |
addVertex(Object... keyValues)
Add a
Vertex to the graph given an optional series of key/value pairs. |
default Vertex |
addVertex(String label)
Add a
Vertex to the graph with provided vertex label. |
void |
close()
Closing a
Graph is equivalent to "shutdown" and implies that no further operations can be executed on
the instance. |
GraphComputer |
compute()
Generate a
GraphComputer using the default engine of the underlying graph system. |
<C extends GraphComputer> |
compute(Class<C> graphComputerClass)
Declare the
GraphComputer to use for OLAP operations on the graph. |
org.apache.commons.configuration.Configuration |
configuration()
Get the
Configuration associated with the construction of this graph. |
Iterator<Edge> |
edges(Object... edgeIds)
|
default Graph.Features |
features()
Gets the
Graph.Features exposed by the underlying Graph implementation. |
default <I extends Io> |
io(Io.Builder<I> builder)
Construct a particular
Io implementation for reading and writing the Graph and other data. |
default GraphTraversalSource |
traversal()
Generate a reusable
GraphTraversalSource instance. |
default <C extends TraversalSource> |
traversal(Class<C> traversalSourceClass)
Generate a
TraversalSource using the specified TraversalSource class. |
default <C extends TraversalSource> |
traversal(TraversalSource.Builder<C> sourceBuilder)
Deprecated.
As of release 3.2.0. Please use
traversal(Class) . |
Transaction |
tx()
Configure and control the transactions for those graphs that support this feature.
|
Graph.Variables |
variables()
A collection of global
Graph.Variables associated with the graph. |
Iterator<Vertex> |
vertices(Object... vertexIds)
|
static final String GRAPH
GraphFactory
} to determine which graph to instantiate.Vertex addVertex(Object... keyValues)
Vertex
to the graph given an optional series of key/value pairs. These key/values
must be provided in an even number where the odd numbered arguments are String
property keys and the
even numbered arguments are the related property values.keyValues
- The key/value pairs to turn into vertex propertiesdefault Vertex addVertex(String label)
Vertex
to the graph with provided vertex label.label
- the label of the vertex<C extends GraphComputer> C compute(Class<C> graphComputerClass) throws IllegalArgumentException
GraphComputer
to use for OLAP operations on the graph.
If the graph does not support graph computer then an UnsupportedOperationException
is thrown.graphComputerClass
- The graph computer class to use.IllegalArgumentException
- if the provided GraphComputer
class is not supported.GraphComputer compute() throws IllegalArgumentException
GraphComputer
using the default engine of the underlying graph system.
This is a shorthand method for the more involved method that uses compute(Class)
.IllegalArgumentException
- if there is no default graph computerdefault <C extends TraversalSource> C traversal(Class<C> traversalSourceClass)
TraversalSource
using the specified TraversalSource
class.
The reusable TraversalSource
provides methods for spawning Traversal
instances.C
- The traversal source classtraversalSourceClass
- The traversal source class@Deprecated default <C extends TraversalSource> C traversal(TraversalSource.Builder<C> sourceBuilder)
traversal(Class)
.TraversalSource
using the specified TraversalSource.Builder
.
The reusable TraversalSource
provides methods for spawning Traversal
instances.C
- The traversal source classsourceBuilder
- The traversal source builder to usedefault GraphTraversalSource traversal()
GraphTraversalSource
instance.
The GraphTraversalSource
provides methods for creating
GraphTraversal
instances.Iterator<Vertex> vertices(Object... vertexIds)
Vertex
objects in this graph with the provided vertex ids or Vertex
objects themselves.
If no ids are provided, get all vertices. Note that a vertex identifier does not need to correspond to the
actual id used in the graph. It needs to be a bit more flexible than that in that given the
Graph.Features
around id support, multiple arguments might be applicable here.
If the graph return true
for Graph.Features.ElementFeatures.supportsNumericIds()
then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsCustomIds()
()} then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsAnyIds()
()} then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsStringIds()
()} then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsStringIds()
()} then it should support
filters as with:
vertexIds
- the ids of the vertices to getIterator
of vertices that match the provided vertex idsIterator<Edge> edges(Object... edgeIds)
Edge
objects in this graph with the provided edge ids or Edge
objects. If no ids are
provided, get all edges. Note that an edge identifier does not need to correspond to the actual id used in the
graph. It needs to be a bit more flexible than that in that given the Graph.Features
around id support,
multiple arguments might be applicable here.
If the graph return true
for Graph.Features.ElementFeatures.supportsNumericIds()
then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsCustomIds()
()} then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsAnyIds()
()} then it should support
filters as with:
true
for Graph.Features.ElementFeatures.supportsStringIds()
()} then it should support
filters as with:
edgeIds
- the ids of the edges to getIterator
of edges that match the provided edge idsTransaction tx()
Transaction
in the TinkerPop context is a
transaction "factory" or "controller" that helps manage transactions owned by the underlying graph database.void close() throws Exception
Graph
is equivalent to "shutdown" and implies that no further operations can be executed on
the instance. Users should consult the documentation of the underlying graph database implementation for what
this "shutdown" will mean in general and, if supported, how open transactions are handled. It will typically
be the end user's responsibility to synchronize the thread that calls close()
with other threads that
are accessing open transactions. In other words, be sure that all work performed on the Graph
instance
is complete prior to calling this method.
TinkerPop does not enforce any particular semantics with respect to "shutdown". It is up to the graph provider
to decide what this method will do.close
in interface AutoCloseable
Exception
default <I extends Io> I io(Io.Builder<I> builder)
Io
implementation for reading and writing the Graph
and other data.
End-users will "select" the Io
implementation that they want to use by supplying the
Io.Builder
that constructs it. In this way, Graph
vendors can supply their IoRegistry
to that builder thus allowing for custom serializers to be
auto-configured into the Io
instance. Registering custom serializers is particularly useful for those
graphs that have complex types for Element
identifiers.
For those graphs that do not need to register any custom serializers, the default implementation should suffice.
If the default is overridden, take care to register the current graph via the
Io.Builder.graph(Graph)
method.Graph.Variables variables()
Graph.Variables
associated with the graph.
Variables are used for storing metadata about the graph.org.apache.commons.configuration.Configuration configuration()
Configuration
associated with the construction of this graph.
Whatever configuration was passed to GraphFactory.open(org.apache.commons.configuration.Configuration)
is what should be returned by this method.default Graph.Features features()
Graph.Features
exposed by the underlying Graph
implementation.Copyright © 2013–2017 Apache Software Foundation. All rights reserved.