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# JavaScript Database (JSDB)
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__Work in progress:__ A transparent, in-memory, streaming write-on-update JavaScript database for Small Web applications that persists to a JavaScript transaction log.
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__Needless to say, this is not ready for use yet. But feel free to take a look around.__

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## Roadmap to version 1.0.0.

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  - [x] __Implement persistence.__ (15 Sept)
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  - [x]  ╰─ Add unit tests for persistence. (19 Sept)
  - [x]  ╰─ Document persistence. (19 Sept)
  - [x]  ╰─ Add persistence example. (19 Sept)
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  - [x] __Implement queries.__ (22 Sept)
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  - [x]  ╰─ Add queries example. (22 Sept)
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  - [x] __Refactor to implement persistence as append-only JavaScript transaction log and use streaming writes.__ (29 Sept)
  - [x]  ╰─  Update documentation to reflect new persistence engine. (29 Sept)
  - [x]  ╰─  Update examples to work with new persistence engine. (30 Sept)
  - [x] __Continue working on queries.__ (1 Oct)
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  - [x]  ╰─ Add unit tests for queries. (1 Oct)
  - [x]  ╰─ Document queries. (1 Oct)
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  - [x] __Bring code coverage back up to 100%.__ (2 Oct)
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  - [x] __Implement safety controls on instantiation and table replacement.__ (5 Oct)
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  - [x] __Implement JSDF serialiser__ (inc. support for custom objects, and Date, etc.) (12 Oct)
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  - [ ] __Integrate into [Site.js](https://sitejs.org)__ _(in progress)_
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  - [ ] __Use/test on upcoming small-web.org site__
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  - [ ] __Release version 1.0.0__

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## Ideas for post 1.0.0.

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  - [ ] __Implement [transactions](https://github.com/small-tech/jsdb/issues/1).__
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  - [ ]  ╰─ Ensure 100% code coverage for transactions.
  - [ ]  ╰─ Document transactions.
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  - [ ]  ╰─ Add transaction example.
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  - [ ] __Implement indices.__
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  - [ ]  ╰─ Ensure 100% code coverage for indices.
  - [ ]  ╰─ Document indices.
  - [ ]  ╰─ Add indices example.
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## Use case

A data layer for simple [Small Web](https://ar.al/2020/08/07/what-is-the-small-web/) sites for basic public (e.g., anonymous comments on articles) or configuration data. Built for use in [Site.js](https://sitejs.org).

__Not to farm people for their data.__ Surveillance capitalists can jog on now.


## Features

  - __Transparent:__ if you know how to work with arrays and objects and call methods in JavaScript, you already know how to use JSDB? It’s not called JavaScript Database for nothing.

  - __Automatic:__ it just works. No configuration.

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  - __100% code coverage:__ meticulously tested. Note that this does not mean it is bug free ;)

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## Limitations

  - __Small Data:__ this is for small data, not Big Data™.

  - __For Node.js:__ will not work in the browser. (Although data tables are plain JavaScript files and can be loaded in the browser.)

  - __Runs on untrusted nodes:__ this is for data kept on untrusted nodes (servers). Use it judiciously if you must for public data, configuration data, etc. If you want to store personal data or model human communication, consider end-to-end encrypted and peer-to-peer replicating data structures instead to protect privacy and freedom of speech. Keep an eye on the work taking place around the [Hypercore Protocol](https://hypercore-protocol.org/).

  - __In-memory:__ all data is kept in memory and, [without tweaks, cannot exceed 1.4GB in size](https://www.the-data-wrangler.com/nodejs-memory-limits/). While JSDB will work with large datasets, that’s not its primary purpose and it’s definitely not here to help you farm people for their data, so please don’t use it for that. (If that’s what you want, quite literally every other database out there is for your use case so please use one of those instead.)

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  - __Streaming writes on update:__ writes are streamed to disk to an append-only transaction log as JavaScript statements and are both quick (in the single-digit miliseconds region on a development laptop with an SSD drive) and as safe as we can make them (synchronous as the kernel level).
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  - __No schema, no migrations__: again, this is meant to be a very simple persistence, query, and observation layer for local server-side data. If you want schemas and migrations, take a look at nearly every other database out there.


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## To install

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Currently, you need to clone or install from this repo as this is a work-in-progress and no releases have been made yet to npm.

```
npm i github:small-tech/jsdb
```
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## Usage

Here’s a quick example to whet your appetite:

```js
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const JSDB = require('@small-tech/jsdb')
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// Create your database in the test folder.
// (This is where your JSON files – “tables” – will be saved.)
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//
const db = JSDB.open('db')

// Create db/people.js table with some initial data if it
// doesn’t already exist.
if (!db.people) {
  db.people = [
    {name: 'Aral', age: 43},
    {name: 'Laura', age: 34}
  ]

  // Correct Laura’s age. (This will automatically update db/people.js)
  db.people[1].age = 33

  // Add Oskar to the family. (This will automatically update db/people.js)
  db.people.push({name: 'Oskar', age: 8})

  // Update Oskar’s name to use his nickname. (This will automatically update db/people.js)
  db.people[2].name = 'Osky'
}
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```

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After running the above script, take a look at the resulting database table in the `./db/people.js` file.

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## JavaScript Data Format (JSDF)

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JSDB tables are written into JavaScript Data Format (JSDF) files. A JSDF file is a plain JavaScript file that comprises an append-only transaction log that creates the table in memory. For our example, it looks like this:

```js
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globalThis._ = [ { name: `Aral`, age: 43 }, { name: `Laura`, age: 34 } ];
(function () { if (typeof define === 'function' && define.amd) { define([], globalThis._); } else if (typeof mo;
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_[1]['age'] = 33;
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_[2] = { name: `Oskar`, age: 8 };
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_[2]['name'] = `Osky`;
```

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## It’s just JavaScript!

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Given that a JSDF file is just JavaScript, and includes a [UMD](https://github.com/umdjs/umd)-like declaration in its header (the first two lines), you can simply `require()` it as a module in Node.js or even load it in a script tag.

For example, create an _index.html_ file with the following content in the same folder as the other script and serve it locally using [Site.js](https://sitejs.org) and you will see the data printed out in your browser:

```html
<script src="db/people.js"></script>
<h1>People</h1>
<ul>
<script>
  people.forEach(person => {
    document.write(`<li>${person.name} (${person.age} years old)</li>`)
  })
</script>
</ul>
```

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## Supported and unsupported data types.

Just because it’s JavaScript, it doesn’t mean that you can throw anything into JSDB and expect it to work.

### Supported data types

  - `Number`
  - `Boolean`
  - `String`
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  - `Object` (and `bound Object`)
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  - `Array`
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  - `Date`
  - `Symbol`
  - [Custom data types](#custom-data-types) (see below).

### Custom data types

Custom data types (instances of your own classes) are also supported.

During serialisation, class information for custom data types will be persisted.

During deserialisation, if the class in question exists in memory, your object will be correctly initialised as an instance of that class. If the class does not exist in memory, your object will be initialised as a plain JavaScript object.

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e.g.,

```js
const JSDB = require('@small-tech/jsdb')

class Person {
  constructor (name = 'Jane Doe') {
    this.name = name
  }
  introduceYourself () {
    console.log(`Hello, I’m ${this.name}.`)
  }
}

const db = JSDB.open('db')

// Initialise the people table if it doesn’t already exist.
if (!db.people) {
  db.people = [
    new Person('Aral'),
    new Person('Laura')
  ]
}

// Will always print out “Hello, I’m Laura.”
// (On the first run and on subsequent runs when the objects are loaded from disk.)
db.people[1].introduceYourself()
```

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If you look in the created `db/people.js` file, this time you’ll see:

```js
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globalThis._ = [ Object.create(typeof Person === 'function' ? Person.prototype : {}, Object.getOwnPropertyDescriptors({ name: `Aral` })), Object.create(typeof Person === 'function' ? Person.prototype : {}, Object.getOwnPropertyDescriptors({ name: `Laura` })) ];
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(function () { if (typeof define === 'function' && define.amd) { define([], globalThis._); } else if (typeof module === 'object' && module.exports) { module.exports = globalThis._ } else { globalThis.people = globalThis._ } })();
```

If you were to load the database in an environment where the `Person` class does not exist, you will get a regular object back.

To test this, you can run the following code:

```js
const JSDB = require('@small-tech/jsdb')
const db = JSDB.open('db')

// Prints out { name: 'Laura' }
console.log(db.people[1])
```

You can find these examples in the `examples/custom-data-types` folder of the source code.

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### Unsupported data types

If you try to add an instance of an unsupported data type to a JSDB table, you will get a `TypeError`.

The following data types are currently unsupported but support is planned for the future:

  - `Map` (and `WeakMap`)
  - `Set` (and `WeakSet`)
  - Binary collections (`ArrayBuffer`, `Float32Array`, `Float64Array`, `Int8Array`, `Int16Array`, `Int32Array`, `TypedArray`, `Uint8Array`, `Uint16Array`, `Uint32Array`, and `Uint8ClampedArray`)

The following intrinsic objects are not supported as they don’t make sense to support:

  - Intrinsic objects (`DataView`, `Function`, `Generator`, `Promise`, `Proxy`, `RegExp`)
  - Error types (`Error`, `EvalError`, `RangeError`, `ReferenceError`, `SyntaxError`, `TypeError`, and `URIError`)

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## Important security note

Note that JSDF is __not__ a data exchange format. Since it contains JavaScript code that is run, you must only load JSDF files from a domain that you own and control and have a secure connection to.

__Do not load in JSDF files from third parties.__

If you want a data _exchange_ format, use [JSON](https://www.json.org/json-en.html).

Remember:

  - JSON is a terrible format for a database but a great format for data exchange.
  - JSDF is a terrible format for data exchange but a great format for a JavaScript database.

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## JavaScript Query Language (JSQL)

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In the browser-based example, above, you loaded the data in directly. When you do that, of course, you are not running it inside JSDB so you cannot update the data or use the JavaScript Query Language (JSQL) to query it.
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To test out JSQL, open a Node.js command-line interface (run `node`) from the directory that your scripts are in and enter the following commands:
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```js
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const JSDB = require('@small-tech/jsdb')
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// This will load test database with the people table we created earlier.
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const db = JSDB.open('db')
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// Let’s carry out a query that should find us Osky.
console.log(db.people.where('age').isLessThan(21).get())
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```
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For details, see the [JSQL Reference](#jsql-reference) section.

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## Compaction

When you load in a JSDB table, by default JSDB will compact the JSDF file.

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Compaction is important for two reasons; during compaction:
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  - Deleted data is actually deleted from disk. (Privacy.)
  - Old versions of updated data are actually removed. (Again, privacy.)
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Compaction will also reduce the size of your tables.

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That said, compaction is a relatively slow process that gets uniformly slower as the size of your database grows (it has O(N) time complexity as the whole database is recreated).
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You do have the option to override the default behaviour and keep all history. You might want to do this, for example, if you’re creating a web app that lets you create a drawing and you want to play the drawing back stroke by stroke, etc.

Now that you’ve loaded the file back, look at the `./db/people.js` JSDF file again to see how it looks after compaction:

```js
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globalThis._ = [ { name: `Aral`, age: 43 }, { name: `Laura`, age: 33 }, { name: `Osky`, age: 8 } ];
(function () { if (typeof define === 'function' && define.amd) { define([], globalThis._); } else if (typeof module === 'object' && module.exports) { module.exports = globalThis._ } else { globalThis.people = globalThis._ } })();
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```

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Ah, that is neater. You can see that Laura’s record is created with the correct age from the outset and Oskar’s name is set to its final value of Osky from the outset.
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(You can find these examples in the `examples/basic` folder of the source code.)
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## Closing a database

Your database tables will be automatically closed if you exit your script. However, there might be times when you want to manually close a database (for example, to reopen it with different settings, etc.) In that case, you can call the asynchronous `close()` method on the database proxy.

Here’s what you’d do to close the database in the above example:

```js
async main () {
  // … 🠑 the earlier code from the example, above.

  await db.close()

  // The database and all of its tables are now closed.
  // It is now safe (and allowed) to reopen it.
}

main()
```

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## Working with JSON

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As mentioned earlier, JSDB writes out its tables as append-only logs of JavaScript statements in what we call JavaScript Data Format (JSDF). This is not the same as [JavaScript Object Notation (JSON)](https://www.json.org/json-en.html).
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JSON is not a good format for a database but it is excellent – not to mention ubiquitous – for its original use case of data exchange. You can easily find or export datasets in JSON format. And using them in JSDB is effortless. Here’s an example that you can find in the `examples/json` folder of the source code:
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Given a JSON data file of spoken languages by country in the following format:

```json
[
  {
    "country": "Aruba",
    "languages": [
      "Dutch",
      "English",
      "Papiamento",
      "Spanish"
    ]
  },
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  {
    "etc.": "…"
  }
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]
```

The following code will load in the file, populate a JSDB table with it, and perform a query on it:

```js
const fs = require('fs')
const JSDB = require('@small-tech/jsdb')

const db = JSDB.open('db')

// If the data has not been populated yet, populate it.
if (!db.countries) {
  const countries = JSON.parse(fs.readFileSync('./countries.json', 'utf-8'))
  db.countries = countries
}

// Query the data.
const countriesThatSpeakKurdish = db.countries.where('languages').includes('Kurdish').get()

console.log(countriesThatSpeakKurdish)
```

When you run it, you should see the following result:

```js
[
  {
    country: 'Iran',
    languages: [
      'Arabic',    'Azerbaijani',
      'Bakhtyari', 'Balochi',
      'Gilaki',    'Kurdish',
      'Luri',      'Mazandarani',
      'Persian',   'Turkmenian'
    ]
  },
  {
    country: 'Iraq',
    languages: [ 'Arabic', 'Assyrian', 'Azerbaijani', 'Kurdish', 'Persian' ]
  },
  { country: 'Syria', languages: [ 'Arabic', 'Kurdish' ] },
  { country: 'Turkey', languages: [ 'Arabic', 'Kurdish', 'Turkish' ] }
]
```

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The code for this example is in the `examples/json` folder of the source code.
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## Dispelling the magic and a pointing out a couple of gotchas
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Here are a couple of facts to dispel the magic behind what’s going on:
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  - What we call a _database_ in JSDB is just a regular directory on your file system.
  - Inside that directory, you can have zero or more tables.
  - A table is a JSDF file.
  - A JSDF file is a sequence of JavaScript statements that creates a data object (either an object or an array). It is an append-only log that is compacted at load. JSDF files are valid JavaScript files and should run correctly under any JavaScript interpreter.
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  - When you open a database, you get a Proxy instance back, not an instance of JSDB.
  - Similarly, when you reference a table or the data within it, you are referencing proxy objects, not the table instance or the data itself.
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### How the sausage is made

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When you open a database, JSDB loads in any `.js` files it can find in your database directory. Doing so creates the data structures defined in those files in memory. Alongside, JSDB also creates a structure of [proxies](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Proxy) that mirrors the data structure and traps (captures) calls to get, set, or delete values. Every time you set or delete a value, the corresponding JavaScript statement is appended to your table on disk.
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By calling the `where()` or `whereIsTrue()` methods, you start a [query](#jsql-reference). Queries help you search for specific bits of data. They are implemented using the get traps in the proxy.
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### Gotchas and limitations

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Given that a core goal for JSDB is to be transparent, you will mostly feel like you’re working with regular JavaScript collections (objects and arrays) instead of a database. That said, there are a couple of gotchas and limitations that arise from the use of proxies and the impedance mismatch between synchronous data manipulation in JavaScript and the asynchronous nature of file handling:
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  1. __You can only have one copy of a database open at one time.__ Given that tables are append-only logs, having multiple streams writing to them would corrupt your tables. The JSDB class enforces this by forcing you to use the `open()` factory method to create or load in your databases.
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  2. __You cannot reassign a value to your tables without first deleting them.__ Since assignment is a synchronous action and since we cannot safely replace the existing table on disk with a different one synchronously, you must first call the asynchronous `delete()` method on a table instance before assigning a new value for it on the database, thereby creating a new table.
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      ```js
      async main () {
        // … 🠑 the earlier code from the example, above.
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        await db.people.delete()
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        // The people table is now deleted and we can recreate it.
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        // This is OK.
        db.people = [
          {name: 'Ed Snowden', age: 37}
        ]
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        // This is NOT.
        try {
          db.people = [
            {name: 'Someone else', age: 100}
          ]
        } catch (error) {
          console.log('This throws as we haven’t deleted the table first.')
        }
      }
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      main()
      ```
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  3. __There are certain reserved words you cannot use in your data.__ This is a trade-off between usability and polluting the mirrored proxy structure. JSDB strives to keep reserved words to a minimum.

        This is the full list:

        |                            | Reserved words                                                                 |
        | -------------------------- | ------------------------------------------------------------------------------ |
        | __As table name__          | `close`                                                                        |
        | __Property names in data__ | `where`, `whereIsTrue`, `addListener`, `removeListener`, `delete`, `__table__` |
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        Note: You can use the `__table__` property from any level of your data to get a reference to the table instance (`JSTable` instance) that it belongs to. This is mostly for internal use but it’s there if you need it.
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### Table events

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You can listen for the following events on tables:

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| Event name | Description                           |
| ---------- | ------------------------------------- |
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| persist    | The table has been persisted to disk. |
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| delete     | The table has been deleted from disk. |

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#### Example

The following handler will get called whenever a change is persisted to disk for the `people` table:

```js
db.people.addListener('persist', (table, change) => {
  console.log(`Table ${table.tableName} persisted change ${change.replace('\n', '')} to disk.`)
})
```

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## JSQL Reference

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The examples in the reference all use the following random dataset. _Note, I know nothing about cars, the tags are also arbitrary. Don’t @ me ;)_
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```js
const cars = [
  { make: "Subaru", model: "Loyale", year: 1991, colour: "Fuscia", tags: ['fun', 'sporty'] },
  { make: "Chevrolet", model: "Suburban 1500", year: 2004, colour: "Turquoise", tags: ['regal', 'expensive'] },
  { make: "Honda", model: "Element", year: 2004, colour: "Orange", tags: ['fun', 'affordable'] },
  { make: "Subaru", model: "Impreza", year: 2011, colour: "Crimson", tags: ['sporty', 'expensive']},
  { make: "Hyundai", model: "Santa Fe", year: 2009, colour: "Turquoise", tags: ['sensible', 'affordable'] },
  { make: "Toyota", model: "Avalon", year: 2005, colour: "Khaki", tags: ['fun', 'affordable']},
  { make: "Mercedes-Benz", model: "600SEL", year: 1992, colour: "Crimson", tags: ['regal', 'expensive', 'fun']},
  { make: "Jaguar", model: "XJ Series", year: 2004, colour: "Red", tags: ['fun', 'expensive', 'sporty']},
  { make: "Isuzu", model: "Hombre Space", year: 2000, colour: "Yellow", tags: ['sporty']},
  { make: "Lexus", model: "LX", year: 1997, colour: "Indigo", tags: ['regal', 'expensive', 'AMAZING'] }
]
```

### Starting a query (the `where()` method)

```js
const carsMadeIn1991 = db.cars.where('year').is(1991).get()
```

The `where()` method starts a query.

You call it on a table reference. It takes a property name (string) as its only argument and returns a query instance.

On the returned query instance, you can call various operators like `is()` or `startsWith()`.

Finally, to invoke the query you use one one of the invocation methods: `get()`, `getFirst()`, or `getLast()`.

### The anatomy of a query.

Idiomatically, we chain the operator and invocation calls to the `where` call and write our queries out in a single line as shown above. However, you can split the three parts up, should you so wish. Here’s such an example, for academic purposes.

This starts the query and returns an incomplete query object:

```js
const incompleteCarYearQuery = db.cars.where('year')
```

Once you call an operator on a query, it is considered complete:

```js
const completeCarYearQuery = incompleteCarYearQuery.is(1991)
```

To execute a completed query, you can use one of the invocation methods: `get()`, `getFirst()`, or `getLast()`.

Note that `get()` returns an array of results (which might be an empty array) while `getFirst()` and `getLast()` return a single result (which may be `undefined`).

```js
const resultOfCarYearQuery = completeCarYearQuery.get()
```

Here are the three parts of a query shown together:

```js
const incompleteCarYearQuery = db.cars.where('year')
const completeCarYearQuery = incompleteCarYearQuery.is(1991)
const resultOfCarYearQuery = completeCarYearQuery.get()
```

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Again, idiomatically, we chain the operator and invocation calls to the `where()` call and write our queries out in a single line like this:
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```js
const carsMadeIn1991 = db.cars.where('year').is(1991).get()
```

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### Connectives (`and()` and `or()`)
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You can chain conditions onto a query using the connectives `and()` and `or()`. Using a connective transforms a completed query back into an incomplete query awaiting an operator. e.g.,
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```js
const veryOldOrOrangeCars = db.cars.where('year').isLessThan(2000).or('colour').is('Orange').get()
```

#### Example

```js
const carsThatAreFunAndSporty = db.cars.where('tags').includes('fun').and('tags').includes('sporty').get()
```

#### Result

```js
[
  { make: "Subaru", model: "Loyale", year: 1991, colour: "Fuscia", tags: ['fun', 'sporty'] },
  { make: "Jaguar", model: "XJ Series", year: 2004, colour: "Red", tags: ['fun', 'expensive', 'sporty']},
]
```

### Custom queries (`whereIsTrue()`)

For more complex queries – for example, if you need to include parenthetical grouping – you can compose your JSQL by hand. To do so, you call the `whereIsTrue()` method on a table instead of the `where()` method and you pass it a full JSQL query string. A completed query is returned.

When writing your custom JSQL query, prefix property names with `valueOf.`.

#### Example

```js
const customQueryResult = db.cars.whereIsTrue(`(valueOf.tags.includes('fun') && valueOf.tags.includes('affordable')) || (valueOf.tags.includes('regal') && valueOf.tags.includes('expensive'))`).get()
```

#### Result

```js
[
  { make: 'Chevrolet', model: 'Suburban 1500', year: 2004, colour: 'Turquoise', tags: [ 'regal', 'expensive' ] },
  { make: 'Honda', model: 'Element', year: 2004, colour: 'Orange', tags: [ 'fun', 'affordable' ] },
  { make: 'Toyota', model: 'Avalon', year: 2005, colour: 'Khaki', tags: [ 'fun', 'affordable' ] },
  { make: 'Mercedes-Benz', model: '600SEL', year: 1992, colour: 'Crimson', tags: [ 'regal', 'expensive', 'fun' ] },
  { make: 'Lexus', model: 'LX', year: 1997, colour: 'Indigo', tags: [ 'regal', 'expensive', 'AMAZING' ] }
]
```

### Relational operators

  - `is()`, `isEqualTo()`, `equals()`
  - `isNot()`, `doesNotEqual()`
  - `isGreaterThan()`
  - `isGreaterThanOrEqualTo()`
  - `isLessThan()`
  - `isLessThanOrEqualTo()`

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Note: operators listed on the same line are aliases and may be used interchangeably (e.g., `isNot()` and `doesNotEqual()`).
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#### Example (is)

```js
const carWhereYearIs1991 = db.cars.where('year').is(1991).getFirst()
```

#### Result (is)

```js
{ make: "Subaru", model: "Loyale", year: 1991, colour: "Fuscia", tags: ['fun', 'sporty'] }
```

#### Example (isNot)

```js
const carsWhereYearIsNot1991 = db.cars.where('year').isNot(1991).get()
```

#### Result (isNot)

```js
[
  { make: "Chevrolet", model: "Suburban 1500", year: 2004, colour: "Turquoise", tags: ['regal', 'expensive'] },
  { make: "Honda", model: "Element", year: 2004, colour: "Orange", tags: ['fun', 'affordable'] },
  { make: "Subaru", model: "Impreza", year: 2011, colour: "Crimson", tags: ['sporty', 'expensive']},
  { make: "Hyundai", model: "Santa Fe", year: 2009, colour: "Turquoise", tags: ['sensible', 'affordable'] },
  { make: "Toyota", model: "Avalon", year: 2005, colour: "Khaki", tags: ['fun', 'affordable'] },
  { make: "Mercedes-Benz", model: "600SEL", year: 1992, colour: "Crimson", tags: ['regal', 'expensive', 'fun'] },
  { make: "Jaguar", model: "XJ Series", year: 2004, colour: "Red", tags: ['fun', 'expensive', 'sporty'] },
  { make: "Isuzu", model: "Hombre Space", year: 2000, colour: "Yellow", tags: ['sporty'] },
  { make: "Lexus", model: "LX", year: 1997, colour: "Indigo", tags: ['regal', 'expensive', 'AMAZING'] }
]
```

Note how `getFirst()` returns the first item (in this case, an _object_) whereas `get()` returns the whole _array_ of results.

The other relational operators work the same way and as expected.

### String subset comparison operators

  - `startsWith()`
  - `endsWith()`
  - `includes()`
  - `startsWithCaseInsensitive()`
  - `endsWithCaseInsensitive()`
  - `includesCaseInsensitive()`

The string subset comparison operators carry out case sensitive string subset comparisons. They also have case insensitive versions that you can use.

#### Example (`includes()` and `includesCaseInsensitive()`)

```js
const result1 = db.cars.where('make').includes('su').get()
const result2 = db.cars.where('make').includes('SU').get()
const result3 = db.cars.where('make').includesCaseInsensitive('SU')
```

#### Result 1

```js
[
  { make: "Isuzu", model: "Hombre Space", year: 2000, colour: "Yellow", tags: ['sporty']}
]
```

Since `includes()` is case sensitive, the string `'su`' matches only the make `Isuzu`.

#### Result 2

```js
[]
```

Again, since `includes()` is case sensitive, the string `'SU`' doesn’t match the make of any of the entries.

#### Result 3

```js
[
  { make: "Subaru", model: "Impreza", year: 2011, colour: "Crimson", tags: ['sporty', 'expensive'] },
  { make: "Isuzu", model: "Hombre Space", year: 2000, colour: "Yellow", tags: ['sporty'] }
]
```

Here, `includesCaseInsensitive('SU')` matches both the `Subaru` and `Isuzu` makes due to the case-insensitive string comparison.

### Array inclusion check operator

  - `includes()`

The `includes()` array inclusion check operator can also be used to check for the existence of an object (or scalar value) in an array.

Note that the `includesCaseInsensitive()` string operator cannot be used for this purpose and will throw an error if you try.

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#### Example (`includes()` array inclusion check):
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```js
const carsThatAreRegal = db.cars.where('tags').includes('regal').get()
```

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#### Result (`includes()` array inclusion check)
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```js
[
  { make: "Chevrolet", model: "Suburban 1500", year: 2004, colour: "Turquoise", tags: ['regal', 'expensive'] },
  { make: "Mercedes-Benz", model: "600SEL", year: 1992, colour: "Crimson", tags: ['regal', 'expensive', 'fun']},
  { make: "Lexus", model: "LX", year: 1997, colour: "Indigo", tags: ['regal', 'expensive', 'AMAZING'] }
]
```

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## Performance characteristics

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  - The time complexity of reads and writes are both O(1).
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  - Reads are fast (take fraction of a millisecond and are about an order of magnitude slower than direct memory reads).
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  - Writes are fast (in the order of a couple of milliseconds on tests on a dev machine).
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  - Initial table load time and full table write/compaction times are O(N) and increase linearly as your table size grows.
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## Suggested limits

  - Break up your database into multiple tables whenever possible.
  - Keep your table sizes under 100MB.

## Hard limits
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  - Your database size is limited by available memory.
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  - If your database size is larger than > ~1.3GB, you should start your node process with a larger heap size than the default (~1.4GB). E.g., to set aside 8GB of heap space:
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  ```
  node --max-old-space-size=8192 why-is-my-database-so-large-i-hope-im-not-doing-anything-shady.js
  ```
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## Memory Usage

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The reason JSDB is fast is because it keeps the whole database in memory. Also, to provide a transparent persistence and query API, it maintains a parallel object structure of proxies. This means that the amount of memory used will be multiples of the size of your database on disk and exhibits O(N) memory complexity.
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Initial load time and full table write/compaction both exhibit O(N) time complexity.
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For example, here’s just one sample from a development laptop using the simple performance example in the `examples/performance` folder of the source code which creates random records that are around ~2KB in size each:
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| Number of records | Table size on disk | Memory used | Initial load time | Full table write/compaction time |
| ----------------- | ------------------ | ----------- | ----------------- | -------------------------------- |
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| 1,000             | 2.5MB              | 15.8MB      | 85ms              | 45ms                             |
| 10,000            | 25MB               | 121.4MB     | 845ms             | 400ms                            |
| 100,000           | 250MB              | 1.2GB       | 11 seconds        | 4.9 seconds                      |
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(The baseline app used about 14.6MB without any table in memory. The memory used column subtracts that from the total reported memory so as not to skew the smaller dataset results.)
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Note: For tables > 500GB, compaction is turned off and a line-by-line streaming load strategy is implemented. If you foresee your tables being this large, you (a) are probably doing something nasty (and won’t mind me pointing it out if you’re not) and (b) should turn off compaction from the start for best performance. Keeping compaction off from the start will decrease initial table load times. Again, don’t use this to invade people’s privacy or profile them.

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## Developing

Please open an issue before starting to work on pull requests.

1. Clone this repository.
2. `npm i`
3. `npm test`

For code coverage, run `npm run coverage`.
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## Related projects, inspiration, etc.

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  - [Initial brainstorming (query language)](https://gist.github.com/aral/fc4115fdf338e02d735ae58e245817ce)
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  - [proxy-fun](https://github.com/mikaelbr/awesome-es2015-proxy)
  - [filejson](https://github.com/bchr02/filejson)
  - [Declaraoids](https://github.com/Matsemann/Declaraoids/blob/master/src/declaraoids.js)
  - [ScunMEngine](https://github.com/jlvaquero/SCUNM/blob/master/SCUNMEngine/SCUNMEngine.js)
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## Copyright

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&copy; 2020 [Aral Balkan](https://ar.al), [Small Technology Foundation](https://small-tech.org).