Tone Generator

Abstract

I am a practicing saxophonist. I spend some significant amount of time every day playing long tones (literally just playing a note for an extended period of time to work on tone, intonation, etc.). I found it very helpful to practice along to sine waves as the pure tones helped me naturally focus on intonation. While many tone generating tools exist, none of them worked exactly the way I wanted them to. The Random Sequence Generator was built as a practice aid for a friend. Drones are an alternative long tone practice aid using the more organic sound of a tanpura as opposed to the more specific, but cold pure tones of the Tone Generator. All pitches generated in this project correspond to twelve-tone equal temperament.

Methodology

Tone Generator relies on the web audio api. Each oscillator is created and added to an array of oscillators with individually manipulatable nodes.

About Each Page

Tone Generator

Tone Generator is capable of creating multiple oscillators in which one can set frequency, volume, panning and wave type per generator. One can use the 'Auto Generate Overtones' tool to quickly create multiple oscillators with the pitch automatically set to the closest pitches of the first 3 or 4 overtones in the overtone series based on the selected fundamental. If the frequency does not exactly match the nearest pitch, one can click on the ~ to round the frequency to the nearest pitch. One can also click on the frequency itself to set the frequency manually up to 8 decimal points.

Random Sequence Generator

The Random Sequence Generator generates random pitches in sequence based on a number of options available to the user. One is able to set the lower and upper pitch limits of the range manually or by using the instrument selector. Then one can choose the number of pitches to play in a sequence, the speed in beats per minute (BPM) and whether to play an infinite series of pitches, or a single sequence. If one chooses the infinite option, the Random Sequence Generator will play a rest at the set BPM between each sequence of pitches.

Using the Advanced Controls, one can do the following: -See each pitch as it plays or see a running list of all the pitches played -Play anywhere from 1-4 intervals at once -Choose to limit the set of pitches from which the Random Sequence Generator randomly chooses to any major or minor mode as well as a few symmetrical scales

Svelte Sapper Boilerplate Language

sapper-template

The default template for setting up a Sapper project. Can use either Rollup or webpack as bundler.

Getting started

Using degit

To create a new Sapper project based on Rollup locally, run

npx degit "sveltejs/sapper-template##rollup" my-app

For a webpack-based project, instead run

npx degit "sveltejs/sapper-template##webpack" my-app

degit is a scaffolding tool that lets you create a directory from a branch in a repository.

Replace my-app with the path where you wish to create the project.

Using GitHub templates

Alternatively, you can create the new project as a GitHub repository using GitHub's template feature.

Go to either sapper-template-rollup or sapper-template-webpack and click on "Use this template" to create a new project repository initialized by the template.

Running the project

Once you have created the project, install dependencies and run the project in development mode:

cd my-app
npm install ## or yarn
npm run dev

This will start the development server on localhost:3000. Open it and click around.

You now have a fully functional Sapper project! To get started developing, consult sapper.svelte.dev.

Using TypeScript

By default, the template uses plain JavaScript. If you wish to use TypeScript instead, you need some changes to the project:

  • Add typescript as well as typings as dependences in package.json
  • Configure the bundler to use svelte-preprocess and transpile the TypeScript code.
  • Add a tsconfig.json file
  • Update the project code to TypeScript

The template comes with a script that will perform these changes for you by running

node scripts/setupTypeScript.js

@sapper dependencies are resolved through src/node_modules/@sapper, which is created during the build. You therefore need to run or build the project once to avoid warnings about missing dependencies.

The script does not support webpack at the moment.

Directory structure

Sapper expects to find two directories in the root of your project — src and static.

src

The src directory contains the entry points for your app — client.js, server.js and (optionally) a service-worker.js — along with a template.html file and a routes directory.

######## src/routes

This is the heart of your Sapper app. There are two kinds of routes — pages, and server routes.

Pages are Svelte components written in .svelte files. When a user first visits the application, they will be served a server-rendered version of the route in question, plus some JavaScript that 'hydrates' the page and initialises a client-side router. From that point forward, navigating to other pages is handled entirely on the client for a fast, app-like feel. (Sapper will preload and cache the code for these subsequent pages, so that navigation is instantaneous.)

Server routes are modules written in .js files, that export functions corresponding to HTTP methods. Each function receives Express request and response objects as arguments, plus a next function. This is useful for creating a JSON API, for example.

There are three simple rules for naming the files that define your routes:

  • A file called src/routes/about.svelte corresponds to the /about route. A file called src/routes/blog/[slug].svelte corresponds to the /blog/:slug route, in which case params.slug is available to the route
  • The file src/routes/index.svelte (or src/routes/index.js) corresponds to the root of your app. src/routes/about/index.svelte is treated the same as src/routes/about.svelte.
  • Files and directories with a leading underscore do not create routes. This allows you to colocate helper modules and components with the routes that depend on them — for example you could have a file called src/routes/_helpers/datetime.js and it would not create a /_helpers/datetime route.

######## src/node_modules/images

Images added to src/node_modules/images can be imported into your code using import 'images/<filename>'. They will be given a dynamically generated filename containing a hash, allowing for efficient caching and serving the images on a CDN.

See index.svelte for an example.

######## src/node_modules/@sapper

This directory is managed by Sapper and generated when building. It contains all the code you import from @sapper modules.

static

The static directory contains static assets that should be served publicly. Files in this directory will be available directly under the root URL, e.g. an image.jpg will be available as /image.jpg.

The default service-worker.js will preload and cache these files, by retrieving a list of files from the generated manifest:

import { files } from '@sapper/service-worker';

If you have static files you do not want to cache, you should exclude them from this list after importing it (and before passing it to cache.addAll).

Static files are served using sirv.

Bundler configuration

Sapper uses Rollup or webpack to provide code-splitting and dynamic imports, as well as compiling your Svelte components. With webpack, it also provides hot module reloading. As long as you don't do anything daft, you can edit the configuration files to add whatever plugins you'd like.

Production mode and deployment

To start a production version of your app, run npm run build && npm start. This will disable live reloading, and activate the appropriate bundler plugins.

You can deploy your application to any environment that supports Node 10 or above. As an example, to deploy to Vercel Now when using sapper export, run these commands:

npm install -g vercel
vercel

If your app can't be exported to a static site, you can use the now-sapper builder. You can find instructions on how to do so in its README.

Using external components

When using Svelte components installed from npm, such as @sveltejs/svelte-virtual-list, Svelte needs the original component source (rather than any precompiled JavaScript that ships with the component). This allows the component to be rendered server-side, and also keeps your client-side app smaller.

Because of that, it's essential that the bundler doesn't treat the package as an external dependency. You can either modify the external option under server in rollup.config.js or the externals option in webpack.config.js, or simply install the package to devDependencies rather than dependencies, which will cause it to get bundled (and therefore compiled) with your app:

npm install -D @sveltejs/svelte-virtual-list

Bugs and feedback

Sapper is in early development, and may have the odd rough edge here and there. Please be vocal over on the Sapper issue tracker.

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