=====================================================
Project description
=====================================================
zc.customdoctests -- Use doctest with other languages
=====================================================
doctest (and recently manuel) provide hooks for using custom doctest
parsers. `zc.customdoctests` helps to leverage this to support other
languages, such as JavaScript::
js> function double (x) {
... return x*2;
... }
js> double(2)
4
And with `manuel <http://pypi.python.org/pypi/manuel>`_, it
facilitates doctests that mix multiple languages, such as Python,
JavaScript, and sh.
.. contents::
=======
CHANGES
=======
1.0.0 (2013-02-13)
------------------
- Added Python 3.3 support.
- Cleanup `setup.py`, add `tox.ini` and manifest.
0.1.0 (2011-05-19)
------------------
- Initial release
======================
Detailed dcoumentation
======================
Custom doctest parsers
======================
zc.customdoctests provides a little bit of help with creating custom
doctest parsers that work pretty muct like regular doctests, but that
use an alternate means of evaluating examples. To use it, you call
zc.customdoctests.DocTestParser and pass any of the following options:
ps1
The first-line prompt, which defaultd to ``'>>>'``.
This must be a regular expression that matches exact;y 3 characters.
(Note that you can't override the second-line prompt.)
comment_prefix
The comment prefix regular expression, which defaults to '#'.
transform
A function used to transform example source, which defaults to a
no-operation function.
The js module provides support for using JavaScript in doctests using
`python-spidermonkey
<http://pypi.python.org/pypi/python-spidermonkey>`_. It provides some
examples of defining custom doctest parsers.
Javascript and Python-Spidermonkey support
==========================================
This file shows some examples of using spidermonkey APIs in doctests.
To wire this up, you'd use something like::
import doctest, zc.customdoctests.js
test_suite = doctest.DocTestSuite(
parser = zc.customdoctests.js.parser,
setUp = zc.customdoctests.js.spidermonkeySetUp,
)
Or, with manuel::
test_suite = manuel.testing.TestSuite(
manuel.doctest.Manuel(parser=zc.customdoctests.js.parser) +
manuel.doctest.Manuel(parser=zc.customdoctests.js.eq_parser) +
manuel.doctest.Manuel() +
manuel.capture.Manuel(),
'spidermonkey.txt',
setUp=zc.customdoctests.js.spidermonkeySetUp)
)
Note that zc.customdoctests doesn't require spidermonkey, so you need
to install spidermonkey seperately if you want to use it.
An advantage of using manuel is that you can use multiple parsers in
the same document. In the example, above, 2 javascript example
syntaxes (described below) as well as the standard doctest syntax are
supported. This document is run with manuel to allow all 3 syntaxes.
For the rest of this document, we'll show examples of JavaScript
doctests as well as helper APIs used to support JavaScript and to
integrate JavaScript and Python.
Javascript doctests use a "js>" prompt (as used in rhino and the
spidermonkey interpreter)::
js> 2 +
... 'Hi world' // doctest: +ELLIPSIS
u'2Hi...
Assignments return values. This can generate annoying output
in doctests::
js> ob = {a: 1, b: 2}
[object Object]
If you're using manuel, you can avoid this by using js!::
js! x = 3
which suppresses expression values.
load and print functions (similar to those found in rhino) are
provided. For example, given a javascript file, double.js::
function double (x) {
return x*2;
}
.. -> src
>>> with open('double.js', 'w') as f:
... f.write(src)
We can load the file::
js> load('double.js')
js> double(10)
20
We can print values::
js> print('Hi')
Hi
A python object provides access to the open function and the os
module::
js> python.os.path.exists('double.js')
True
js! f = python.open('double.js')
js> print(f.read())
function double (x) {
return x*2;
}
<BLANKLINE>
js> f.close()
If you're using manuel, you can intermix Python and and JavaScript
examples and there are a number of APIs to facilitate using Python and
JavaScript together.
There's an add_js_global function to copy data from Python::
>>> add_js_global('y', 1)
js> y
1
There's also a js object that provides attribute access to js globals::
>>> js.x
3
>>> js.z = 4
js> z
4
You can also call this to run JS code without returning the resulting value::
>>> js('a = x + y')
js> a
4
zc.customdoctests -- Use doctest with other languages
=====================================================
doctest (and recently manuel) provide hooks for using custom doctest
parsers. `zc.customdoctests` helps to leverage this to support other
languages, such as JavaScript::
js> function double (x) {
... return x*2;
... }
js> double(2)
4
And with `manuel <http://pypi.python.org/pypi/manuel>`_, it
facilitates doctests that mix multiple languages, such as Python,
JavaScript, and sh.
.. contents::
=======
CHANGES
=======
1.0.0 (2013-02-13)
------------------
- Added Python 3.3 support.
- Cleanup `setup.py`, add `tox.ini` and manifest.
0.1.0 (2011-05-19)
------------------
- Initial release
======================
Detailed dcoumentation
======================
Custom doctest parsers
======================
zc.customdoctests provides a little bit of help with creating custom
doctest parsers that work pretty muct like regular doctests, but that
use an alternate means of evaluating examples. To use it, you call
zc.customdoctests.DocTestParser and pass any of the following options:
ps1
The first-line prompt, which defaultd to ``'>>>'``.
This must be a regular expression that matches exact;y 3 characters.
(Note that you can't override the second-line prompt.)
comment_prefix
The comment prefix regular expression, which defaults to '#'.
transform
A function used to transform example source, which defaults to a
no-operation function.
The js module provides support for using JavaScript in doctests using
`python-spidermonkey
<http://pypi.python.org/pypi/python-spidermonkey>`_. It provides some
examples of defining custom doctest parsers.
Javascript and Python-Spidermonkey support
==========================================
This file shows some examples of using spidermonkey APIs in doctests.
To wire this up, you'd use something like::
import doctest, zc.customdoctests.js
test_suite = doctest.DocTestSuite(
parser = zc.customdoctests.js.parser,
setUp = zc.customdoctests.js.spidermonkeySetUp,
)
Or, with manuel::
test_suite = manuel.testing.TestSuite(
manuel.doctest.Manuel(parser=zc.customdoctests.js.parser) +
manuel.doctest.Manuel(parser=zc.customdoctests.js.eq_parser) +
manuel.doctest.Manuel() +
manuel.capture.Manuel(),
'spidermonkey.txt',
setUp=zc.customdoctests.js.spidermonkeySetUp)
)
Note that zc.customdoctests doesn't require spidermonkey, so you need
to install spidermonkey seperately if you want to use it.
An advantage of using manuel is that you can use multiple parsers in
the same document. In the example, above, 2 javascript example
syntaxes (described below) as well as the standard doctest syntax are
supported. This document is run with manuel to allow all 3 syntaxes.
For the rest of this document, we'll show examples of JavaScript
doctests as well as helper APIs used to support JavaScript and to
integrate JavaScript and Python.
Javascript doctests use a "js>" prompt (as used in rhino and the
spidermonkey interpreter)::
js> 2 +
... 'Hi world' // doctest: +ELLIPSIS
u'2Hi...
Assignments return values. This can generate annoying output
in doctests::
js> ob = {a: 1, b: 2}
[object Object]
If you're using manuel, you can avoid this by using js!::
js! x = 3
which suppresses expression values.
load and print functions (similar to those found in rhino) are
provided. For example, given a javascript file, double.js::
function double (x) {
return x*2;
}
.. -> src
>>> with open('double.js', 'w') as f:
... f.write(src)
We can load the file::
js> load('double.js')
js> double(10)
20
We can print values::
js> print('Hi')
Hi
A python object provides access to the open function and the os
module::
js> python.os.path.exists('double.js')
True
js! f = python.open('double.js')
js> print(f.read())
function double (x) {
return x*2;
}
<BLANKLINE>
js> f.close()
If you're using manuel, you can intermix Python and and JavaScript
examples and there are a number of APIs to facilitate using Python and
JavaScript together.
There's an add_js_global function to copy data from Python::
>>> add_js_global('y', 1)
js> y
1
There's also a js object that provides attribute access to js globals::
>>> js.x
3
>>> js.z = 4
js> z
4
You can also call this to run JS code without returning the resulting value::
>>> js('a = x + y')
js> a
4
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.