is a minimal Dataflow programming engine
With npm do
npm install dflow
A node represents a block of code: it can have inputs and outputs.
An edge connects an input to an output.
A graph represents a program. It can contain nodes and edges. Nodes are executed, sorted by their connections.
- Implemented in TypeScript.
- Expressive and simple API.
- A graph can be saved as a JSON file. It can be then loaded and executed.
- It is easy to create nodes: just extend
DflowNode
class, define its inputs and outputs and therun()
function. - Minimal internal type system: it is possible to connect an output of type
T
to an input of typeU
, if and only ifU
includesT
. - It is possible to define functions represented by nodes and edges.
NOTA BENE: it is supposed that you implement your own nodes, for example node addition
could be implemented using bigint or some floating point library, according to your needs.
However an example nodes catalog with basic JavaScript features can be imported from dflow/nodes
.
This is a graph that will compute sin(π / 2) = 1
and print the result.
----------------
| number = π / 2 |
----------------
|
|
---------
| mathSin |
---------
\
\
------------
| consoleLog |
------------
You can run the following code with any of the following by cloning this repo and launching npm run example:usage
.
You should see a number 1
printed on output.
import { Dflow, DflowNode } from "dflow";
const { input, output } = Dflow;
class DflowMathSin extends DflowNode {
static kind = "mathSin";
static inputs = [input("number")];
static outputs = [output("number")];
run() {
this.output(0).data = Math.sin(this.input(0).data);
}
}
class DflowConsoleLog extends DflowNode {
static kind = "consoleLog";
static inputs = [input()];
run() {
console.log(this.input(0).data);
}
}
const nodesCatalog = {
[DflowMathSin.kind]: DflowMathSin,
[DflowConsoleLog.kind]: DflowConsoleLog,
// DflowNodeData is a core node
};
function rungraph() {
const dflow = new Dflow(nodesCatalog);
const catalog = dflow.nodesCatalog;
// create nodes
const numNode = dflow.newNode({
kind: catalog.data.kind,
// set numNode output to π / 2
outputs: [{ data: Math.PI / 2 }],
});
const sinNode = dflow.newNode({ kind: catalog.mathSin.kind });
const consoleLogNode = dflow.newNode({ kind: catalog.consoleLog.kind });
// connect numNode to sinNode and sinNode to consoleLog
dflow.connect(numNode).to(sinNode);
dflow.connect(sinNode).to(consoleLogNode);
// run graph
dflow.run();
}
rungraph();
A graph can be executed asynchronously with await dflow.run()
: see custom nodes example.
Available examples are listed here.