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A Dart wrapper that streamlines connection between a TigerGraph cloud instance and Flutter.

tiger_graph #

A Dart wrapper that streamlines connection between a TigerGraph cloud instance and Flutter. Essentially, all the communication between Flutter and TigerGraph is done through REST. This package is a simply wrapper to remove the redundancy and time of writing http requests manually.

Getting Started #

The main class is GraphClient, and it essentially handles the communication between TigerGraph and your requests. Whenever a GraphClient is initialized, it automatically generates a new auth token to communicate with TigerGraph servers. My recommendation is to have one GraphClient through out the app and access that GraphClient to perform actions.

Getting a Vertex and Edge #


//Server for instance is like this: 'fraud-det.i.tgcloud.us:9000'
GraphClient graphClient = await GraphClient.getInstance({Your Secret}, {Your Graph Name}, {Your Server Name});

/*this is the information about the vertex need to get it. In order to get all vertices of a certain Vertex Type
simply set 'vId': ''
*/

Map vertex = {'vType': 'Person', 'vId': '90'};

//getting the vertex data
Map data = graphClient.getVertex(vertex);

// In order to customize the edges we recieve, we can pass optional args
Map fromVertex = {'vType': 'Person', 'vId': '90'};

//grab all edges stemming from the vertex

Map data = await graphClient.getEdge(fromVertex);

//grab all edges of a certain edge type stemming from the vertex

Map data = await graphClient.getEdge(fromVertex, edgeType: 'LIKES');

//grab the edge based on edgeType and ending vertex

Map toVertex = {'vType': 'Person', 'vId': '76'};
Map data = await graphClient.getEdge(fromVertex, edgeType: 'LIKES', toVertex: toVertex);

Deleting vertices and Edges #


//Deleting is very similar to getting vertices and edges

//TigerGraph handles deleting vertices and edges that do not exist very well, so no errors should occur

Map vertex = {'vType': 'Person', 'vId': '90'};

await graphClient.deleteVertex(vertex); //will give a Future<String> for confirmation

Map fromVertex  = {'vType': 'Person', 'vId': '90'};

//WARNING: this will delete all edges stemming from the fromVertex similar to how getEdge() grabs all edges
// The code will immediately stop that from happening, but if you do want to still delete pass in the optional arg override = 'DELETE'

await graphClient.deleteEdge(fromVertex); //CODE WILL STOP THIS FROM DELETING ALL EDGES

await graphClient.deleteEdge(fromVertex, override:'DELETE'); //CODE WILL DELETE ALL EDGES

//The code below will delete all edges of given edgeType similar to getEdge() gets all edges of given edgeType

await graphClient.deleteEdge(fromVertex, edgeType: 'LIKES');

//The code below will delete the edge between 2 vertices

Map toVertex = {'vType': 'Person', 'vId': '76'};

await graphClient.deleteEdge(fromVertex, edgeType: 'LIKES', toVertex:toVertex);

Upserting Data #


//Typically it is recommend to upsert data with a WriteBatch since it upserts a bunch of data in one request

//For example

final batch = graphClient.createWriteBatch();

//the attrs key is essentially the attributes of the vertex, you can ignore having to provide vId or type
//put in the attrs with the attribute name as key and attribute value as value
Map v1 = {'vType': 'Person', 'vId': '55', 'attrs':{'name': 'Jenny'}};
Map v2 = {'vType': 'Person', 'vId': '51', 'attrs':{'name': 'Peter'}};

batch.upsertVertex(v1);
batch.upsertVertex(v2);

//upserting an edge is similar, must provide the fromVertex, toVertex, edgeName and edge attributes
batch.upsertEdge(v1, v2, 'LIKES', {}); //pass in attributes the same way as we did for vertices

//once ready to post the data commit
await batch.commit();

##Calling Written Queries


//In order to call written queries, simply use the callQuery()

await graphClient.callQuery({you query name}, {your query args});

//the query args is a map of parameters that the query takes
//the parameter name will be the key and the the value that is passed shall be the value in the map

//For example

await graphClient.callQuery("Hello Neighbors", {'personId': '55'});

//The code above will call the written query "Hello Neighbors" with the Vertex<Person> parameter "personId"

For help getting started with Flutter, view our online documentation, which offers tutorials, samples, guidance on mobile development, and a full API reference.

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A Dart wrapper that streamlines connection between a TigerGraph cloud instance and Flutter.

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flutter, http

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