dukpy
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DukPy is a simple javascript interpreter for Python built on top of
duktape engine without any external dependency.
It comes with a bunch of common transpilers built-in for convenience:
- *CoffeeScript*
- *BabelJS*
- *TypeScript*
- *JSX*
- *LESS*
CoffeeScript Compiler
Using the coffeescript compiler is as easy as running:
.. code:: python
>>> import dukpy
>>> dukpy.coffee_compile('''
... fill = (container, liquid = "coffee") ->
... "Filling the #{container} with #{liquid}..."
... ''')
'(function() {\n var fill;\n\n fill = function*(container, liquid) {\n if (liquid == null) {\n liquid = "coffee";\n }\n return "Filling the " + container + " with " + liquid + "...";\n };\n\n}).call(this);\n'
TypeScript Transpiler
The TypeScript compiler can be used through the
dukpy.typescript_compile
function:
.. code:: python
>>> import dukpy
>>> dukpy.typescript_compile('''
... class Greeter {
... constructor(public greeting: string) { }
... greet() {
... return "<h1>" + this.greeting + "</h1>";
... }
... };
...
... var greeter = new Greeter("Hello, world!");
... ''')
'var Greeter = (function () {\n function Greeter(greeting) {\n this.greeting = greeting;\n }\n Greeter.prototype.greet = function () {\n return "<h1>" + this.greeting + "</h1>";\n };\n return Greeter;\n})();\n;\nvar greeter = new Greeter("Hello, world!");\n'
Currently the compiler has built-in options and doesn't accept additional ones,
The DukPY based TypeScript compiler also provides a WebAssets (
http://webassets.readthedocs.org/en/latest/ ) filter to automatically
compile TypeScript code in your assets pipeline. You register this filter as
typescript
within WebAssets using:
.. code:: python
from webassets.filter import register_filter
from dukpy.webassets import TypeScript
register_filter(TypeScript)
Which makes the filter available with the typescript
name.
NOTE: When using the TypeScript compiler for code that needs to run
in the browser, make sure to add
https://cdnjs.cloudflare.com/ajax/libs/systemjs/0.19.24/system.js
dependency. As import
statements are resolved using SystemJS.
EcmaScript6 BabelJS Transpiler
To compile ES6 code to ES5 for everyday usage you can use
dukpy.babel_compile
:
.. code:: python
>>> import dukpy
>>> dukpy.babel_compile('''
... class Point {
... constructor(x, y) {
... this.x = x;
... this.y = y;
... }
... toString() {
... return '(' + this.x + ', ' + this.y + ')';
... }
... }
... ''')
'"use strict";\n\nvar _prototypeProperties = function (child, staticProps, instanceProps) { if (staticProps) Object.defineProperties(child, staticProps); if (instanceProps) Object.defineProperties(child.prototype, instanceProps); };\n\nvar _classCallCheck = function (instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } };\n\nvar Point = (function () {\n function Point(x, y) {\n _classCallCheck(this, Point);\n\n this.x = x;\n this.y = y;\n }\n\n _prototypeProperties(Point, null, {\n toString: {\n value: function toString() {\n return "(" + this.x + ", " + this.y + ")";\n },\n writable: true,\n configurable: true\n }\n });\n\n return Point;\n})();\n'
You can pass options
__ to the BabelJS compiler just as keywords on
the call to babel_compile()
.
__ http://babeljs.io/docs/usage/options/
The DukPY based BabelJS compiler also provides a WebAssets (
http://webassets.readthedocs.org/en/latest/ ) filter to automatically
compile ES6 code in your assets pipeline. You register this filter as
babeljs
within WebAssets using:
.. code:: python
from webassets.filter import register_filter
from dukpy.webassets import BabelJS
register_filter(BabelJS)
Which makes the filter available with the babeljs
name.
Only supported filter option is currently BABEL_MODULES_LOADER
with value
systemjs
or umd
to specify that compiled code should use SystemJS
or UMD instead of CommonJS for modules.
NOTE: When using the BabelJS compiler for code that needs to run
in the browser, make sure to add
https://cdnjs.cloudflare.com/ajax/libs/babel-polyfill/6.26.0/polyfill.min.js
dependency.
JSX to React Transpiling
DukPy provides a built-in compiler from JSX to React, this is available as
dukpy.jsx_compile
:
.. code:: python
>>> import dukpy
>>> dukpy.jsx_compile('var react_hello = <h1>Hello, world!</h1>;')
u'"use strict";\n\nvar react_hello = React.createElement(\n "h1",\n null,\n "Hello, world!"\n);'
The DukPY based JSX compiler also provides a WebAssets (
http://webassets.readthedocs.org/en/latest/ ) filter to automatically
compile JSX+ES6 code in your assets pipeline. You register this filter as
babeljsx
within WebAssets using:
.. code:: python
from webassets.filter import register_filter
from dukpy.webassets import BabelJSX
register_filter(BabelJSX)
Which makes the filter available with the babeljsx
name.
This filter supports the same options as the babel one.
Less Transpiling
DukPy provides a built-in distribution of the less compiler available
through dukpy.less_compile
:
.. code:: python
>>> import dukpy
>>> dukpy.less_compile('.class { width: (1 + 1) }')
'.class {\n width: 2;\n}\n'
The DukPY based LESS compiler also provides a WebAssets (
http://webassets.readthedocs.org/en/latest/ ) filter to automatically
compile LESS code in your assets pipeline. You register this filter as
lessc
within WebAssets using:
.. code:: python
from webassets.filter import register_filter
from dukpy.webassets import CompileLess
register_filter(CompileLess)
Which makes the filter available with the lessc
name.
Using the JavaScript Interpreter
Using dukpy is as simple as calling the dukpy.evaljs
function with
the javascript code:
.. code:: python
>>> import dukpy
>>> dukpy.evaljs("var o = {'value': 5}; o['value'] += 3; o")
{'value': 8}
The evaljs
function executes the javascript and returns the
resulting value as far as it is possible to encode it in JSON.
If execution fails a dukpy.JSRuntimeError
exception is raised
with the failure reason.
Passing Arguments
Any argument passed to ``evaljs`` is available in JavaScript inside
the ``dukpy`` object in javascript. It must be possible to encode
the arguments using JSON for them to be available in Javascript:
.. code:: python
>>> import dukpy
>>>
>>> def sum3(value):
... return dukpy.evaljs("dukpy['value'] + 3", value=value)
...
>>> sum3(7)
10
Running Multiple Scripts
The evaljs
function supports providing multiple source codes to
be executed in the same context.
Multiple script can be passed in a list or tuple:
.. code:: python
>>> import dukpy
>>> dukpy.evaljs(["var o = {'value': 5}",
... "o['value'] += 3",
... "o"])
{'value': 8}
This is useful when your code requires dependencies to work,
as you can load the dependency and then your code.
This is actually how the coffeescript compiler is implemented
by DukPy itself:
.. code:: python
def coffee_compile(source):
with open(COFFEE_COMPILER, 'r') as coffeescript_js:
return evaljs((coffeescript_js.read(), 'CoffeeScript.compile(dukpy.coffeecode)'),
coffeecode=source)
Using a persistent JavaScript Interpreter
The evaljs
function creates a new interpreter on each call,
this is usually convenient and avoid errors due to dirt global variables
or unexpected execution status.
In some cases you might want to run code that has a slow bootstrap, so
it's convenient to reuse the same interpreter between two different calls
so that the bootstrap cost has already been paid during the first execution.
This can be achieved by using the dukpy.JSInterpreter
object.
Creating a dukpy.JSInterpreter
permits to evaluate code inside that interpreter
and multiple eval
calls will share the same interpreter and global status:
.. code:: python
>>> import dukpy
>>> interpreter = dukpy.JSInterpreter()
>>> interpreter.evaljs("var o = {'value': 5}; o")
{u'value': 5}
>>> interpreter.evaljs("o.value += 1; o")
{u'value': 6}
Loading modules with require
When using the ``dukpy.JSInterpreter`` object it is possible to use
the ``require('modulename')`` instruction to load a module inside javascript.
Modules are looked up in all directories registered with
``dukpy.JSInterpreter.loader.register_path``:
.. code:: python
>>> import dukpy
>>> jsi = dukpy.JSInterpreter()
>>> jsi.loader.register_path('./js_modules')
>>> jsi.evaljs("isEmpty = require('fbjs/lib/isEmpty'); isEmpty([1])")
False
Installing packages from npmjs.org
When using the persistent javascript interpreter it is also possible to install packages
from npmjs.org through the dukpy.install_jspackage
function:
.. code:: python
>>> import dukpy
>>> jsi = dukpy.JSInterpreter()
>>> dukpy.install_jspackage('promise', None, './js_modules')
Packages going to be installed: promise->7.1.1, asap->2.0.3
Fetching https://registry.npmjs.org/promise/-/promise-7.1.1.tgz..........................
Fetching https://registry.npmjs.org/asap/-/asap-2.0.3.tgz............
Installing promise in ./js_modules Done!
The same functionality is also provided by the dukpy-install
shell command::
$ dukpy-install -d ./js_modules promise
Packages going to be installed: promise->7.1.1, asap->2.0.3
Fetching https://registry.npmjs.org/promise/-/promise-7.1.1.tgz..........................
Fetching https://registry.npmjs.org/asap/-/asap-2.0.3.tgz............
Installing promise in ./js_modules Done!
Please note that currently install_jspackage
is not able to resolve conflicting
dependencies.