This requires you to have Node.js installed.
In your own Node.js environment/application:
npm install https://github.com/scratchfoundation/scratch-storage.gitIf you want to edit/play yourself (requires Git):
git clone https://github.com/scratchfoundation/scratch-storage.git
cd scratch-storage
npm install<script src="scratch-storage/dist/web/scratch-storage.js"></script>
<script>
var storage = new Scratch.Storage();
// continue to "Storage API Quick Start" section below
</script>var storage = require('scratch-storage');
// continue to "Storage API Quick Start" section belowOnce you have an instance of scratch-storage, add some web sources. For each source you'll need to provide a function
to generate a URL for a supported type of asset:
/**
* @param {Asset} asset - calculate a URL for this asset.
* @returns {string} a URL to download a project asset (PNG, WAV, etc.)
*/
var getAssetUrl = function (asset) {
var assetUrlParts = [
'https://assets.example.com/path/to/assets/',
asset.assetId,
'.',
asset.dataFormat,
'/get/'
];
return assetUrlParts.join('');
};Then, let the storage module know about your source:
storage.addWebStore(
[AssetType.ImageVector, AssetType.ImageBitmap, AssetType.Sound],
getAssetUrl);If you're using ES6 you may be able to simplify all of the above quite a bit:
storage.addWebStore(
[AssetType.ImageVector, AssetType.ImageBitmap, AssetType.Sound],
asset => `https://assets.example.com/path/to/assets/${asset.assetId}.${asset.dataFormat}/get/`);Once the storage module is aware of the sources you need, you can start loading assets:
storage.load(AssetType.Sound, soundId).then(function (soundAsset) {
// `soundAsset` is an `Asset` object. File contents are stored in `soundAsset.data`.
});If you'd like to use scratch-storage with scratch-vm you must "attach" the storage module to the VM:
vm.attachStorage(storage);To run all tests:
npm testTo show test coverage:
npm run coverageThis project uses semantic release to ensure version bumps follow semver so that projects using the config don't break unexpectedly.
In order to automatically determine the type of version bump necessary, semantic release expects commit messages to be formatted following conventional-changelog.
<type>(<scope>): <subject>
<BLANK LINE>
<body>
<BLANK LINE>
<footer>
subject and body are your familiar commit subject and body. footer is
where you would include BREAKING CHANGE and ISSUES FIXED sections if
applicable.
type is one of:
fix: A bug fix Causes a patch release (0.0.x)feat: A new feature Causes a minor release (0.x.0)docs: Documentation only changesstyle: Changes that do not affect the meaning of the code (white-space, formatting, missing semi-colons, etc)refactor: A code change that neither fixes a bug nor adds a featureperf: A code change that improves performance May or may not cause a minor release. It's not clear.test: Adding missing tests or correcting existing testsci: Changes to our CI configuration files and scripts (example scopes: Travis, Circle, BrowserStack, SauceLabs)chore: Other changes that don't modify src or test filesrevert: Reverts a previous commit
Use the commitizen CLI to make commits formatted in this way:
npm install -g commitizen
npm installNow you're ready to make commits using git cz.
If you're committing a change that makes an API change, or will otherwise require changes to existing code, ensure your commit specifies a breaking change. In your commit body, prefix the changes with "BREAKING CHANGE: " This will cause a major version bump so downstream projects must choose to upgrade and will not break the build unexpectedly.
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