NestJS-Module-Diagram
Description
This module does a bit of a dive through the provided module and reads through the dependency tree from the point of entry given. It will find what a module imports
, provides
, has controllers
for, and exports
and will recursively search through the dependency tree until all modules have been scanned. For providers
if there is a custom provider, the Diagram will do its best to determine if Nest is to use a value, a class/standard, or a factory, and if a factory, what value is to be injected.
Installation
Pretty straightforward installation:
npm i nestjs-module-diagram
yarn add nestjs-module-diagram
pnpm add nestjs-module-diagram
Exploration Mode
Exploration Usage
Much like the SwaggerModule
, the DiagramModule
is not a module that you register within Nest's DI system, but rather use after the DI system has done all the heavy lifting. Simple usage of the Diagram could be like:
import { DiagramModule } from 'nestjs-module-diagram';
async function bootstrap() {
const app = await NestFactory.create(AppModule);
console.log(DiagramModule.explore(app));
}
The DiagramModule
will not get in the way of application bootstrapping, and will still allow for the server to listen.
Excluding modules
DiagramModule.explore(app, {
ignoreImports: [
/^TypeOrmModule/i,
(moduleName) => moduleName.endsWith('something'),
],
})
Exploration Sample Output
Given the following source code
Sample code
import * as util from 'util'
import { NestFactory } from '@nestjs/core'
import { DiagramModule } from 'nestjs-module-diagram'
import { AppModule } from './app.module'
async function bootstrap() {
const app = await NestFactory.createApplicationContext(AppModule, { logger: false })
console.log(
util.inspect( DiagramModule.explore(app), { depth: Infinity, colors: true } )
)
}
bootstrap();
import { Module, Injectable, Controller } from '@nestjs/common'
@Controller('hamsters')
export class HamstersController {}
@Injectable()
export class HamstersService {}
@Module({
controllers: [HamstersController],
providers: [HamstersService],
})
export class HamstersModule {}
@Controller('dogs')
export class DogsController {}
export class DogsService {}
@Module({
controllers: [DogsController],
providers: [
{
provide: DogsService,
inject: ['someString'],
useFactory: (str: string) => new DogsService(),
},
{
provide: 'someString',
useValue: 'my string',
},
],
exports: [DogsService],
})
export class DogsModule {}
@Controller('cats')
export class CatsController {}
@Injectable()
export class CatsService {}
@Module({
controllers: [CatsController],
providers: [CatsService],
})
export class CatsModule {}
export class AnimalsService {}
@Controller('animals')
export class AnimalsController {}
@Module({
imports: [CatsModule, DogsModule, HamstersModule],
controllers: [AnimalsController],
providers: [
{
provide: AnimalsService,
useValue: new AnimalsService(),
}
],
exports: [DogsModule],
})
export class AnimalsModule {}
@Module({
imports: [AnimalsModule],
})
export class AppModule {}
it outputs this:
[
{
name: 'AppModule',
imports: [ 'AnimalsModule' ],
providers: {},
controllers: [],
exports: []
},
{
name: 'AnimalsModule',
imports: [ 'CatsModule', 'DogsModule', 'HamstersModule' ],
providers: { AnimalsService: { method: 'value' } },
controllers: [ 'AnimalsController' ],
exports: [ 'DogsModule' ]
},
{
name: 'CatsModule',
imports: [],
providers: { CatsService: { method: 'standard' } },
controllers: [ 'CatsController' ],
exports: []
},
{
name: 'DogsModule',
imports: [],
providers: {
DogsService: { method: 'factory', injections: [ 'someString' ] },
someString: { method: 'value' }
},
controllers: [ 'DogsController' ],
exports: [ 'DogsService' ]
},
{
name: 'HamstersModule',
imports: [],
providers: { HamstersService: { method: 'standard' } },
controllers: [ 'HamstersController' ],
exports: []
}
]
In this example, AppModule
imports AnimalsModule
, and AnimalsModule
imports CatsModule
, DogsModule
, and HamstersModule
and each of those has its own set of providers
and controllers
.
Graph Mode
Sometimes you want to visualize the module interdependencies, so you can better reason about them. The DiagramModule
has a graph
method that builds on the output of the explore
method by generating a doubly-linked graph where each node represents a module and each edge a link to that module's dependencies or dependents. The getEdges
method can traverse this graph from the root (or any given) node, recursively following dependencies and returning a flat array of edges. These edges can be easily mapped to inputs for graphing tools, such as Mermaid.
Graphing Usage
Assume you have the sample output of the above explore
section in a variable called tree. The following code will generate the list of edges suitable for pasting into a Mermaid graph.
Create src/graph.ts
file:
import * as fs from 'fs-extra';
async function bootstrap(): Promise<void> {
const app: INestApplication = await NestFactory.create(AppModule);
const tree = DiagramModule.explore(app);
const root = DiagramModule.graph(tree);
const edges = DiagramModule.findGraphEdges(root);
const mermaidEdges = edges.map(
({ from, to }) => ` ${from.module.name}-->${to.module.name}`,
);
fs.writeFileSync('graph.md', '```mermaid\ngraph LR\n' + mermaidEdges.join('\n') + '\n```');
app.close();
console.log(`\x1b[44m GRAPH \x1b[0m\x1b[34m Graph of module for review is already generated at graph.md !\x1b[0m`);
}
bootstrap().then();
Add script
in your package.json
:
{
"scripts": {
"graph": "nest start --entryFile graph"
}
}
Run command
:
npm run graph
# OR
yarn graph
# OR
pnpm graph
Check content of graph.md
file at your root project:
graph LR
AppModule-->CommonModule
CommonModule-->ConfigModule
ConfigModule-->ConfigHostModule
....
FeatureModule-->TypeOrmCoreModule
AppModule-->ConfigHostModule
AppModule-->TypeOrmCoreModule
You can use the result at: https://mermaid.live/edit
(Do not copy line 1 and last line).
If you use vscode, just install Markdown Preview Mermaid Support
extension:
Open graph.md
file and use this:
And enjoy your result:
The edges can certainly be transformed into formats more suitable for other visualization tools. And the graph can be traversed with other strategies.
Debug Mode
Every now again you may find yourself running into problems where Nest can't resolve a provider's dependencies. The DiagramModule
has a debug
method that's meant to help out with this kind of situation.
Debug Usage
Assume you have a DogsModule
with the following information:
@Module({
controller: [DogsController],
exports: [DogsService],
providers: [
{
provide: 'someString',
useValue: 'something',
},
{
provide: DogsService,
inject: ['someString'],
useFactory: (someStringInjection: string) => {
return new DogsService(someStringInjection)
},
}
]
})
export class DogsModule {}
Now the DiagramModule.debug()
method can be used anywhere with the DogsModule
to get the dependency tree of the DogsModule
including what the controller depends on, what imports are made, and what providers exist and their token dependencies.
async function bootstrap() {
const dogsDeps = await DiagramModule.debug(DogsModule);
const app = await NestFactory.create(AppModule);
await app.listen(3000);
}
Because this method does not require the INestApplicationContext
it can be used before the NestFactory
allowing you to have insight into what is being seen as the injection values and what's needed for the module to run.
Debug Sample Output
The output of the debug()
method is an array of metadata, imports, controllers, exports, and providers. The DogsModule
from above would look like this:
[
{
name: 'DogsModule',
imports: [],
providers: [
{
name: 'someString',
dependencies: [],
type: 'value',
},
{
name: 'DogsService',
dependencies: ['someString'],
type: 'factory',
},
],
controllers: [
{
name: 'DogsController',
dependencies: ['DogsService'],
},
],
exports: [
{
name: 'DogsService',
type: 'provider',
},
],
},
];
Debug Messages
If you are using the debug
method and happen to have an invalid circular, the DiagramModule
will write message to the log about the possibility of an unmarked circular dependency, meaning a missing forwardRef
and the output will have *****
in place of the imports
where there's a problem reading the imported module.