@gemini-testing/sql.js

SQLite library with support for opening and writing databases, prepared statements, and more. This SQLite library is in pure javascript (compiled with emscripten).

Usage no npm install needed!

<script type="module">
  import geminiTestingSqlJs from 'https://cdn.skypack.dev/@gemini-testing/sql.js';
</script>

README

SQLite compiled to JavaScript

Build Status CDNJS version

For the impatients, try the demo here: http://kripken.github.io/sql.js/examples/GUI

sql.js is a port of SQLite to Webassembly, by compiling the SQLite C code with Emscripten. It uses a virtual database file stored in memory, and thus doesn't persist the changes made to the database. However, it allows you to import any existing sqlite file, and to export the created database as a JavaScript typed array.

There are no C bindings or node-gyp compilation here, sql.js is a simple JavaScript file, that can be used like any traditional JavaScript library. If you are building a native application in JavaScript (using Electron for instance), or are working in node.js, you will likely prefer to use a native binding of SQLite to JavaScript.

SQLite is public domain, sql.js is MIT licensed.

Sql.js predates WebAssembly, and thus started as an asm.js project. It still supports asm.js for backwards compatibility.

Version of binaries

Sql.js was last built with: Emscripten version 1.38.47 (2019-10-03) Release History SqlLite version: 3.28.0 (2019-04-16) Release History

Documentation

A full documentation generated from comments inside the source code, is available.

Usage

var initSqlJs = require('sql.js');
// or if you are in a browser:
// var initSqlJs = window.initSqlJs;

initSqlJs().then(SQL => {

  // Create a database
  var db = new SQL.Database();
  // NOTE: You can also use new SQL.Database(data) where
  // data is an Uint8Array representing an SQLite database file

  // Execute some sql
  sqlstr = "CREATE TABLE hello (a int, b char);";
  sqlstr += "INSERT INTO hello VALUES (0, 'hello');"
  sqlstr += "INSERT INTO hello VALUES (1, 'world');"
  db.run(sqlstr); // Run the query without returning anything

  var res = db.exec("SELECT * FROM hello");
  /*
  [
    {columns:['a','b'], values:[[0,'hello'],[1,'world']]}
  ]
  */

  // Prepare an sql statement
  var stmt = db.prepare("SELECT * FROM hello WHERE a=:aval AND b=:bval");

  // Bind values to the parameters and fetch the results of the query
  var result = stmt.getAsObject({':aval' : 1, ':bval' : 'world'});
  console.log(result); // Will print {a:1, b:'world'}

  // Bind other values
  stmt.bind([0, 'hello']);
  while (stmt.step()) console.log(stmt.get()); // Will print [0, 'hello']

  // You can also use JavaScript functions inside your SQL code
  // Create the js function you need
  function add(a, b) {return a+b;}
  // Specifies the SQL function's name, the number of it's arguments, and the js function to use
  db.create_function("add_js", add);
  // Run a query in which the function is used
  db.run("INSERT INTO hello VALUES (add_js(7, 3), add_js('Hello ', 'world'));"); // Inserts 10 and 'Hello world'

  // free the memory used by the statement
  stmt.free();
  // You can not use your statement anymore once it has been freed.
  // But not freeing your statements causes memory leaks. You don't want that.

  // Export the database to an Uint8Array containing the SQLite database file
  var binaryArray = db.export();
});

Demo

There are a few examples available here. The most full-featured is the Sqlite Interpreter.

Examples

The test files provide up to date example of the use of the api.

Inside the browser

Example HTML file:

<meta charset="utf8" />
<html>
  <script src='/dist/sql-wasm.js'></script>
  <script>
    config = {
      locateFile: filename => `/dist/${filename}` 
    }
    // The `initSqlJs` function is globally provided by all of the main dist files if loaded in the browser.
    // We must specify this locateFile function if we are loading a wasm file from anywhere other than the current html page's folder.
    initSqlJs(config).then(function(SQL){
      //Create the database
      var db = new SQL.Database();
      // Run a query without reading the results
      db.run("CREATE TABLE test (col1, col2);");
      // Insert two rows: (1,111) and (2,222)
      db.run("INSERT INTO test VALUES (?,?), (?,?)", [1,111,2,222]);
  
      // Prepare a statement
      var stmt = db.prepare("SELECT * FROM test WHERE col1 BETWEEN $start AND $end");
      stmt.getAsObject({$start:1, $end:1}); // {col1:1, col2:111}
  
      // Bind new values
      stmt.bind({$start:1, $end:2});
      while(stmt.step()) { //
        var row = stmt.getAsObject();
        console.log('Here is a row: ' + JSON.stringify(row));
      }
    });
  </script>
  <body>
    Output is in Javascript console
  </body>
</html>

Creating a database from a file chosen by the user

SQL.Database constructor takes an array of integer representing a database file as an optional parameter. The following code uses an HTML input as the source for loading a database:

dbFileElm.onchange = () => {
  var f = dbFileElm.files[0];
  var r = new FileReader();
  r.onload = function() {
    var Uints = new Uint8Array(r.result);
    db = new SQL.Database(Uints);
  }
  r.readAsArrayBuffer(f);
}

See : http://kripken.github.io/sql.js/examples/GUI/gui.js

Loading a database from a server

var xhr = new XMLHttpRequest();
// For example: https://github.com/lerocha/chinook-database/raw/master/ChinookDatabase/DataSources/Chinook_Sqlite.sqlite
xhr.open('GET', '/path/to/database.sqlite', true);
xhr.responseType = 'arraybuffer';

xhr.onload = e => {
  var uInt8Array = new Uint8Array(this.response);
  var db = new SQL.Database(uInt8Array);
  var contents = db.exec("SELECT * FROM my_table");
  // contents is now [{columns:['col1','col2',...], values:[[first row], [second row], ...]}]
};
xhr.send();

See: https://github.com/kripken/sql.js/wiki/Load-a-database-from-the-server

Use from node.js

sql.js is hosted on npm. To install it, you can simply run npm install sql.js. Alternatively, you can simply download sql-wasm.js and sql-wasm.wasm, from the download link below.

read a database from the disk:

var fs = require('fs');
var initSqlJs = require('sql-wasm.js');
var filebuffer = fs.readFileSync('test.sqlite');
 
initSqlJs().then(function(SQL){
  // Load the db
  var db = new SQL.Database(filebuffer);
});

write a database to the disk

You need to convert the result of db.export to a buffer

var fs = require("fs");
// [...] (create the database)
var data = db.export();
var buffer = new Buffer(data);
fs.writeFileSync("filename.sqlite", buffer);

See : https://github.com/kripken/sql.js/blob/master/test/test_node_file.js

Use as web worker

If you don't want to run CPU-intensive SQL queries in your main application thread, you can use the more limited WebWorker API.

You will need to download dist/worker.sql-wasm.js dist/worker.sql-wasm.wasm.

Example:

<script>
  var worker = new Worker("/dist/worker.sql-wasm.js");
  worker.onmessage = () => {
    console.log("Database opened");
    worker.onmessage = event => {
      console.log(event.data); // The result of the query
    };
    
    worker.postMessage({
      id: 2,
      action: 'exec',
      sql: 'SELECT * FROM test'
    });
  };

  worker.onerror = e => console.log("Worker error: ", e);
  worker.postMessage({
    id:1,
    action:'open',
    buffer:buf, /*Optional. An ArrayBuffer representing an SQLite Database file*/
  });
</script>

See examples/GUI/gui.js for a full working example.

Flavors/versions Targets/Downloads

This library includes both WebAssembly and asm.js versions of Sqlite. (WebAssembly is the newer, preferred way to compile to JavaScript, and has superceded asm.js. It produces smaller, faster code.) Asm.js versions are included for compatibility.

Upgrading from 0.x to 1.x

Version 1.0 of sql.js must be loaded asynchronously, whereas asm.js was able to be loaded synchronously.

So in the past, you would:

<script src='js/sql.js'></script>
<script>
  var db = new SQL.Database();
  //...
</script>

or:

var SQL = require('sql.js');
var db = new SQL.Database();
//...

Version 1.x:

<script src='dist/sql-wasm.js'></script>
<script>
  initSqlJs({ locateFile: filename => `/dist/${filename}` }).then(function(SQL){
    var db = new SQL.Database();
    //...
  });
</script>

or:

var initSqlJs = require('sql-wasm.js');
initSqlJs().then(function(SQL){
  var db = new SQL.Database();
  //...
});

NOTHING is now a reserved word in SQLite, whereas previously it was not. This could cause errors like Error: near "nothing": syntax error

Downloading/Using:

Although asm.js files were distributed as a single Javascript file, WebAssembly libraries are most efficiently distributed as a pair of files, the .js loader and the .wasm file, like dist/sql-wasm.js and dist/sql-wasm.wasm. The .js file is responsible for wrapping/loading the .wasm file.

Versions of sql.js included in dist/

  • sql-wasm.js : The Web Assembly version of Sql.js. Minified and suitable for production. Use this. If you use this, you will need to include/ship sql-wasm.wasm as well.
  • sql-wasm-debug.js : The Web Assembly, Debug version of Sql.js. Larger, with assertions turned on. Useful for local development. You will need to include/ship sql-wasm-debug.wasm if you use this.
  • sql-asm.js : The older asm.js version of Sql.js. Slower and larger. Provided for compatibility reasons.
  • sql-asm-memory-growth.js : Asm.js doesn't allow for memory to grow by default, because it is slower and de-optimizes. If you are using sql-asm.js and you see this error (Cannot enlarge memory arrays), use this file.
  • sql-asm-debug.js : The Debug asm.js version of Sql.js. Use this for local development.
  • worker.* - Web Worker versions of the above libraries. More limited API. See examples/GUI/gui.js for a good example of this.

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