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Angular/TypeScript + WebGL Project Template

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Angular/TypeScript + WebGL Project Template

This is a template project that may serve as a quick start for creation of WebGL applications using Angular and TypeScript.

The aim is to provide a simple, easy to understand, flexible and properly organized frame for this kind of applications.


Recommended Environment

Visual Studio Code is recommended.

The following VSC extensions are also recommended:

  • EditorConfig for VS Code (v.0.12.4+), uses the ./.editorconfig file.
  • ESLint (v1.4.12+), with default configuration.
  • TSLint (v1.0.30+), uses the ./tsconfig.json, ./tslint.json and ./src/tsconfig.*.json files.

NPM Commands and Tasks

Pre-Requisites

NodeJS v5.6.0+ must be installed in order to lauch the application in development mode.

Commands

The following commands runnable with npm {command} or npm run {command} are defined in package.json:

  • clean: removes the contents of the current dist directory, supposed to contain last production build files.
  • start: executes a build in development mode and launches the server on http://localhost:4200.
  • build:dev: executes a build in development mode, without starting the server.
  • build:prod: cleans the current distribution files and executes a build in production mode. The resulting files are placed in the ./dist folder.
  • lint: executes linting checks.

Quickstart after cloning the source repository:

  • npm install to retrieve all the necessary dependencies.
  • npm start command should launch the application at http://localhost:4200.

The commands above should work equally from VSC integrated terminals or from any terminal/CLI tools.


Implementation Details

All source files having names starting with template- or entities prefixed with Template* are examples of the implementation of rendering a simple animated cube. These files/entities should be removed in case this template is used for a more meaningful WebGL application.

Several parts of boilerplate code necessary for WebGL applications are wrapped into abstract entities of this template. To create a WebGL application with it, the following steps should be executed:

  • put shaders code into entities extending AbstractShader.

  • extend abstract Program class that wraps a WebGL program and contains its rendering logic.

  • plug the program(s) into the application in AppComponent.

Shaders

WebGL shaders code should be placed into classes extending VertexShader and FragmentShader from app/renderers/program/shaders. The source code of a shader should be returned by getSource() method implementation, for example:

export class CustomVertexShader extends VertexShader {

  constructor(gl: WebGLRenderingContext) {
    super(gl);
  }

  public getSource(): string {
    return `
      attribute vec3 a_Vertex;

      void main() {
        gl_Position = vec4(a_Vertex, 1.0);
      }
    `;
  }
}

WebGL Program

WebGL program instances are handled in descendants of Program class from app/renderers/program.

A WebGL program can be created as follows:

export class CustomProgram extends Program {

  private transformMatrixLocation: WebGLUniformLocation;

  constructor(gl: WebGLRenderingContext) {
    // also instantiate the shaders for this program:
    super(gl, new CustomVertexShader(gl), new CustomFragmentShader(gl));
    this.use();
    this.transformMatrixLocation = this.getUniformLocation('u_Transform');
  }

  public setTransformMatrix(matrix: any): void {
    this.gl.uniformMatrix4fv(this.transformMatrixLocation, false, matrix);
  }

  // implement abstract methods: initShapes(), bindDataBuffers() and render().

}

It is useful to put into the implementation the setters for uniforms and attributes of the shaders, like u_Transform in the example above.

Application Component

One or more Program implementations may exist for a single application and they should be instantiated in AppComponent class:

private initPrograms(): void {
  this.program = new CustomProgram(this.gl);
}

Once instantiated, its render() method should invoke render() methods on each existing program:

private render(): void {
  const animate = () => {
    this.clearViewport();
    this.program.render(); // delegate the rendering to the program
    requestAnimationFrame(animate);
  };
  animate();
}

Version Control

The most recent validated version of the project is available on the master branch.


License

This software is distributed under MIT license conditions.

Please check more details in LICENSE file.


(c) 2018 Anton Telechev

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