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Choose-Your-Own-Solution

This project was bootstrapped with Create React App.

Available Scripts

In the project directory, you can run:

npm start

Runs the app in the development mode.
Open http://localhost:3000 to view it in the browser.

The page will reload if you make edits.
You will also see any lint errors in the console.

npm test

Launches the test runner in the interactive watch mode.
See the section about running tests for more information.

npm run build

Builds the app for production to the build folder.
It correctly bundles React in production mode and optimizes the build for the best performance.

The build is minified and the filenames include the hashes.
Your app is ready to be deployed!

See the section about deployment for more information.

npm run eject

Note: this is a one-way operation. Once you eject, you can’t go back!

  • If you aren’t satisfied with the build tool and configuration choices, you can eject at any time. This command will remove the single build dependency from your project.

Instead, it will copy all the configuration files and the transitive dependencies (webpack, Babel, ESLint, etc) right into your project so you have full control over them. All of the commands except eject will still work, but they will point to the copied scripts so you can tweak them. At this point you’re on your own.

You don’t have to ever use eject. The curated feature set is suitable for small and middle deployments, and you shouldn’t feel obligated to use this feature. However we understand that this tool wouldn’t be useful if you couldn’t customize it when you are ready for it.

npm run electron:serve

Builds and serves the app with electron

npm run electron:build

Builds and packages the app with electron-builder, creates an installer executable in ../output folder

Learn More

You can learn more in the Create React App documentation.

To learn React, check out the React documentation.

Developing

Using Visual Studio Code is recommended for this project because of its built-in support for TypeScript. Make sure the ESLint plugin is installed for enforcing code style and automatic fixes of simple rules (like single-quote strings and tabbing). Most interfaces, types, and methods are documented with a combination of JSDoc and TypeScript.

Files

Pages.tsx

Pages.tsx contains a dictionary of unique symbols (think of them like enums). These symbols act as unique identifiers for both pages and projects. For example, anywhere in the app where we wish to refer to the Scope 1 Projects page, we use Pages.scope1Projects. If you wish to add a new Page symbol, simply add a line to Pages.tsx: <key name>: Symbol('<string description>'). To convert Page symbols to string, use their .description property.

Note: In the documentation, the term Page symbol is used frequently. This simply means one of the symbols exported from Pages.tsx, for example Pages.start and Pages.winScreen.

Note 2: The plan was originally to have a new page (e.g. an info dialog box) for each project, but then the ProjectControl class was created and it was separated into two dictionary objects (PageControls and Projects).

PageControls.tsx

PageControls.tsx contains a dictionary of control objects that tell the main app how to render the main page. The exact structure of a PageControl object is not necessary to understand for development because you can use generator functions like newStartPageControl, newInfoDialogControl, and newGroupedChoicesControl to create them. This simultaneously helps reduce uneccessary copied code and enables type checking for the different types of controls.

PageCallback

The PageCallback type is defined in functions-and-types.tsx but it's worth mentioning here. During actions like button presses, the app expects to be told to update its currentPage, i.e., the symbol associated with the page that should display in the main view. PageCallbacks can either be a Page symbol in and of itself, OR a function which returns a Page symbol. See the JSdoc written in functions-and-types.tsx for more info.

Projects.tsx

The top of Projects.tsx contains Scope1Projects and Scope2Projects which must be kept up to date, some type definitions, and a class definition for ProjectControl. Lower down, there are definitions for each project. ProjectControl contains properties and methods necessary for integrating projects in the rest of the app. Projects is a dictionary of ProjectControls whose key is a Page symbol.

App.tsx

App.tsx is the main app and contains the backbone for business logic. It passes properties from its state into child components, and PageCallbacks + Resolvables are bound to the main app when they execute.

functions-and-types.tsx

functions-and-types.tsx contains useful functions and type declarations used across the app. See the JSDoc inside the file for more.

trackedStats.tsx

trackedStats.tsx contains definitions for, and functions related to, the stats that are tracked across the game such as budget and emissions.

Adding new content

Adding new projects

  1. Create a new Page symbol for the project in Pages.tsx.
  2. Add it to either Scope1Projects or Scope2Projects, depending on which scope it's in.
  3. Create the new project in Projects.tsx. See the documentation on ProjectControlParams for info on the necessary parameters.
Projects[Pages.myNewProject] = new ProjectControl({
	pageId: Pages.myNewProject,
	cost: 50_000,
	...
});
  1. In the newGroupedChoicesControl parameters for PageControls[Pages.scope1Projects], add Projects[Pages.myNewProject].getProjectChoiceControl() to the choices list of one of the groups.

Adding new controllable components

  1. Create a React component inside the components subfolder.
import { PureComponentIgnoreFuncs } from './functions-and-types';
import type { ControlCallbacks, PageControl } from './controls';

export class NewComponent extends PureComponentIgnoreFuncs {
	constructor(props) {
		super(props);
	}
	render() {
		return <h1>Hello world! My name is {this.props.name}</h1>;
	}
}
  1. Define a "control props" interface for the component, for use in PageControls.
interface NewComponentControlProps {
	name: string;
}
  1. Make the component's props interface/type extend ControlCallbacks and those control props.
interface NewComponentProps extends ControlCallbacks, NewComponentControlProps { /* Leave it empty */ }

class NewComponent extends PureComponentIgnoreFuncs <NewComponentProps> {
	constructor(props: NewComponentProps) {
		super(props);
	}
	render() {
		return <h1>Hello world! My name is {this.props.name}</h1>;
	}
}
  1. Make a "newControl" constructor function for use in PageControls, which accepts your "control props" as its first parameter.
export function newNewComponentControl(props: NewComponentControlProps, onBack: PageCallback): PageControl {
	return {
		componentClass: NewComponent,
		controlProps: props,
		onBack,
		hideDashboard: false, // you could also include hideDasboard as a required property of NewComponentControlProps, like in GroupedChoicesControlProps
	}
}
  1. In App.tsx -> CurrentPage, include the new component in the switch statement, depending on what props you wish to pass it.
	switch (this.props.componentClass) {
		case StartPage:
		case GroupedChoices:
		case NewComponent:
			if (!this.props.controlProps) throw new Error('currentPageProps not defined'); 
			return (<this.props.componentClass
				{...this.props.controlProps} // Pass everything into the child
				{...controlCallbacks}
			/>);
		...
	}

Misc.

Template text

Most string properties support template text:

  1. Wrapping text in curly braces {} will make them emphasized. For example: "foo {bar} baz" gets turned into "foo bar baz". Note: Do not confuse these braces with JS template strings:
let x = `hello world, my variable = ${myVariable}!`;
  1. Wrapping text in curly braces followed by an underscore _{} will instead make it subscript . For example: foo_{bar} gets turned into foobar .
  2. All instances of the newline character \n will be replaced by a line break, i.e. <br/> in HTML.
  3. The following format [text](url) will result in a clickable link, similar to Markdown. For example, [Better Plants](https://betterbuildingssolutioncenter.energy.gov/better-plants) will result in Better Plants.

When an array of strings is passed into parseSpecialText(), the strings will be joined by two line breaks. This is useful when writing multiple paragraphs.

To add a component that supports this template syntax, you need to use React's dangerouslySetInnerHTML property. Just make sure not to use it for any user-generated input. For example:

return (
	// Turn:
	<Typography variant='body1'>{myProp}</Typography>
	// into:
	<Typography variant='body1' dangerouslySetInnerHTML={parseSpecialText(myProp)}/>	
)

Switching to Resolvables

Some properties in pageControls.tsx and projects.tsx still just take strings, instead of supporting Resolvables, i.e., functions that return the desired type. For info on Resolvables, check functions-and-types.tsx. All you need to do to switch to a Resolvable is change (for example) is:

  1. In the TypeScript interface declaration for props, change myProp: string to myProp: Resolvable<string>, and
  2. In code for the component which takes the property, change all instances of myProp to this.props.resolveToValue(myProp). All components are passed the function App.resolveToValue, which provides them full access to App via this as well as the app state via the first called function parameter.

Icons

First, search for icons that may work in MUI's Material Icons page. It comes with over 2,000 icons, and they're easy to import.

import BoltIcon from '@mui/icons-material/Bolt';
const icon = <BoltIcon/>;

If no icons that fit what you're looking for, try iconmonstr. They're already included in the attributions section. Download it as an svg, then do the following:

  1. Create a new file in the icons subfolder. For example: SmileSunglassesIcon.tsx
  2. Add the following to the top:
import React from 'react';
import { createSvgIcon } from '@mui/material';
  1. Open the svg file downloaded from iconmonstr. Copy everything INSIDE the <svg></svg> tags and place it according to the following pattern:
export default createSvgIcon(
	<Contents_of_SVG>,
	'Name of SVG icon'
);

Example:

<!-- iconmonstr-smiley-20.svg -->
<svg xmlns="http://www.w3.org/2000/svg" width="24" height="24" viewBox="0 0 24 24"><path d="M12 0c-6.627 0-12 5.373-12 12s5.373 12 12 12 12-5.373 12-12-5.373-12-12-12zm0 2c3.691 0 6.915 2.016 8.647 5h-17.294c1.732-2.984 4.956-5 8.647-5zm0 20c-5.514 0-10-4.486-10-10 0-1.045.163-2.052.461-3h1.859c.606 1.518 1.929 3 3.986 3 2.477 0 2.153-2.31 3.694-2.31s1.218 2.31 3.695 2.31c2.055 0 3.379-1.482 3.984-3h1.86c.298.948.461 1.955.461 3 0 5.514-4.486 10-10 10zm5.508-8.059l.492.493c-1.127 1.72-3.199 3.566-5.999 3.566-2.801 0-4.874-1.846-6.001-3.566l.492-.493c1.513 1.195 3.174 1.931 5.509 1.931 2.333 0 3.994-.736 5.507-1.931z"/></svg>

becomes

// icons/SmileSunglassesIcon.tsx
import React from 'react';
import { createSvgIcon } from '@mui/material';

export default createSvgIcon(
	<path d="M12 0c-6.627 0-12 5.373-12 12s5.373 12 12 12 12-5.373 12-12-5.373-12-12-12zm0 2c3.691 0 6.915 2.016 8.647 5h-17.294c1.732-2.984 4.956-5 8.647-5zm0 20c-5.514 0-10-4.486-10-10 0-1.045.163-2.052.461-3h1.859c.606 1.518 1.929 3 3.986 3 2.477 0 2.153-2.31 3.694-2.31s1.218 2.31 3.695 2.31c2.055 0 3.379-1.482 3.984-3h1.86c.298.948.461 1.955.461 3 0 5.514-4.486 10-10 10zm5.508-8.059l.492.493c-1.127 1.72-3.199 3.566-5.999 3.566-2.801 0-4.874-1.846-6.001-3.566l.492-.493c1.513 1.195 3.174 1.931 5.509 1.931 2.333 0 3.994-.736 5.507-1.931z"/>,
	'SmileSunglassesIcon',
);

Acknowledgements

This tool was developed by staff at Oak Ridge National Laboratory (ORNL) and in collaboration with the U.S. Department of Energy. This software tool was funded by the U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy under Oak Ridge National Laboratory Contract No. DE-AC05-00OR22725.

Personnel

Oak Ridge National Laboratory staff

  • Gina Accawi
  • Kristina Armstrong
  • Paulomi Nandy
  • Sachin Nimbalkar
  • Thomas Wenning

Contractors and Oak Ridge Associated Universities student employees

  • Rachel Hernandez

Student Undergraduate Laboratory Internship participants

  • Jordan Lees

Software

Choose Your Own Solution was made possible by open-source software, most notably including:

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