--- id: node title: Nodes --- Node is a second object representing a node or system component. ## Basic Node is an abstract concept that represents a single system component object. A node object consists of three parts: **provider**, **resource type** and **name**. You may already have seen each part in the previous example. ```python from diagrams import Diagram from diagrams.aws.compute import EC2 with Diagram("Simple Diagram"): EC2("web") ``` In above example, the `EC2` is a node of `compute` resource type which provided by `aws` provider. You can use other node objects in a similar manner like: ```python # aws resources from diagrams.aws.compute import ECS, Lambda from diagrams.aws.database import RDS, ElastiCache from diagrams.aws.network import ELB, Route53, VPC ... # azure resources from diagrams.azure.compute import FunctionApps from diagrams.azure.storage import BlobStorage ... # gcp resources from diagrams.gcp.compute import AppEngine, GKE from diagrams.gcp.ml import AutoML ... # k8s resources from diagrams.k8s.compute import Pod, StatefulSet from diagrams.k8s.network import Service from diagrams.k8s.storage import PV, PVC, StorageClass ``` You can find all available nodes list in [Here](https://diagrams.mingrammer.com/docs/nodes/aws). ## Data Flow You can represent data flow by connecting the nodes with these operators: `>>`, `<<` and `-`. * **>>**: Connect nodes in left to right direction. * **<<**: Connect nodes in right to left direction. * **-**: Connect nodes in no direction. Undirected. ```python from diagrams import Diagram from diagrams.aws.compute import EC2 from diagrams.aws.database import RDS from diagrams.aws.network import ELB from diagrams.aws.storage import S3 with Diagram("Web Services", show=False): ELB("lb") >> EC2("web") >> RDS("userdb") >> S3("store") ELB("lb") >> EC2("web") >> RDS("userdb") << EC2("stat") (ELB("lb") >> EC2("web")) - EC2("web") >> RDS("userdb") ``` > Be careful when using the `-` and any shift operators together, which could cause unexpected results due to operator precedence. ![web services diagram](/img/web_services_diagram.png) > The order of rendered diagrams is the reverse of the declaration order. You can change the data flow direction with `direction` parameter. Default is **LR**. > (TB, BT, LR and RL) are allowed. ```python from diagrams import Diagram from diagrams.aws.compute import EC2 from diagrams.aws.database import RDS from diagrams.aws.network import ELB with Diagram("Workers", show=False, direction="TB"): lb = ELB("lb") db = RDS("events") lb >> EC2("worker1") >> db lb >> EC2("worker2") >> db lb >> EC2("worker3") >> db lb >> EC2("worker4") >> db lb >> EC2("worker5") >> db ``` ![workers diagram](/img/workers_diagram.png) ## Group Data Flow Above worker example has too many redundant flows. In this case, you can group nodes into a list so that all nodes are connected to other nodes at once. ```python from diagrams import Diagram from diagrams.aws.compute import EC2 from diagrams.aws.database import RDS from diagrams.aws.network import ELB with Diagram("Grouped Workers", show=False, direction="TB"): ELB("lb") >> [EC2("worker1"), EC2("worker2"), EC2("worker3"), EC2("worker4"), EC2("worker5")] >> RDS("events") ``` ![grouped workers diagram](/img/grouped_workers_diagram.png) > You can't connect two **lists** directly because shift/arithmetic operations between lists are not allowed in Python.