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Python module for Framecurve parsing, validation, serialization and more

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framecurve file handling library for Python.

Includes a parser, validator and serialiser

Basic usage

To load a Framecurve file:

>>> import framecurve
>>> curve = framecurve.parse(open("framecurve/test/fixtures/framecurves/sample_framecurve1.framecurve.txt"))

The curve is basically a list of all the records stored in the file, including comments and so on:

>>> for record in curve:
...    print repr(record)
Comment(u'http://framecurve.org/specification-v1')
Comment(u'at_frame\tuse_frame_of_source')
FrameCorrelation(at=1, value=1.0)
FrameCorrelation(at=5, value=12.34)
FrameCorrelation(at=9, value=15.678)
FrameCorrelation(at=15, value=25.764)

Or loop over all the FrameCorrelation records:

>>> for record in curve.frames():
...    print repr(record)
FrameCorrelation(at=1, value=1.0)
FrameCorrelation(at=5, value=12.34)
FrameCorrelation(at=9, value=15.678)
FrameCorrelation(at=15, value=25.764)

You can also load a Framecurve by specifying a path (although passing a file-like object is recommended):

>>> from_path = framecurve.parse("framecurve/test/fixtures/framecurves/sample_framecurve1.framecurve.txt")

Or from a string containing a Framecurve:

>>> from_str = framecurve.parse_str("23\t35.5")

Validating a curve

You can then validate a framecurve.Curve is valid:

>>> v = framecurve.validate(curve = curve)
>>> v.ok
True

The framecurve.validate_* methods are similar to the parse methods, you can also validate a file-like object:

>>> v = framecurve.validate(open("framecurve/test/fixtures/framecurves/sample_framecurve1.framecurve.txt"))
>>> v.ok
True

Or a string:

>>> v = framecurve.validate_str("23\t35.5")
>>> v.errors
[]

Creating a Framecurve from scratch

First, create a Curve object:

>>> curve1 = framecurve.Curve()

Then you can call the generation methods on it to fill it up:

>>> c = framecurve.Curve()
>>> c.add_frame(2, 3.4)
>>> c.add_comment("Here we arriveth at the endeth of the footages")
>>> c.add_frame(125, 125.0)

...or append Comment's, FrameCorrelation's and such:

>>> c1 = framecurve.FrameCorrelation(at = 23, value = 55.25)
>>> curve1.append(c1)
>>> c2 = framecurve.Comment("A comment!")
>>> curve1.append(c2)
>>> c3 = framecurve.FrameCorrelation(at = 24, value = 56)
>>> curve1.append(c3)

You can also construct a Curve object with a list of objects:

>>> curve2 = framecurve.Curve(values = [c1, c2, c3])

These are identical:

>>> print curve1
[FrameCorrelation(at=23, value=55.25), Comment('A comment!'), FrameCorrelation(at=24, value=56)]
>>> print curve2
[FrameCorrelation(at=23, value=55.25), Comment('A comment!'), FrameCorrelation(at=24, value=56)]

This curve can then be validated:

>>> v = framecurve.validate(curve = curve1)
>>> v.errors
[]

..and then serialized to a string, like so:

>>> print framecurve.serialize_str(curve = curve1)
# http://framecurve.org/specification-v1
# at_frame  use_frame_of_source
23  55.25000
# A comment!
24  56.00000

...or to a file-like object (e.g from open("myfile.framecurve.txt", "w+") or a StringIO):

>>> import StringIO
>>> fileobj = StringIO.StringIO()
>>> framecurve.serialize(fileobj = fileobj, curve = curve1)
>>> print fileobj.getvalue()
# http://framecurve.org/specification-v1
# at_frame  use_frame_of_source
23  55.25000
# A comment!
24  56.00000

Simplifying the curves

When Framecurves are baked out it might happen that they are clogged with values on linear segments, where no change in timewarp speed occurs yet there are keyframes. To get rid of these intermediate keyframes, run a reduction pass using simplify:

>>> curve = framecurve.Curve()
>>> c1 = framecurve.FrameCorrelation(at=1, value=2.4)
>>> c2 = framecurve.FrameCorrelation(at=2, value=2.5)
>>> c3 = framecurve.FrameCorrelation(at=3, value=2.6)
>>> curve.append(c1)
>>> curve.append(c2)
>>> curve.append(c3)
>>> 
>>> framecurve.simplify(curve)
[FrameCorrelation(at=1, value=2.4), FrameCorrelation(at=3, value=2.6)]

Make a habit of doing this when importing Framecurve files into your package.

Testing the library

Install nose (via pip or otherwise) and run nosetests in the library directory (you can specify the test/ dir to be "safe")

$ pip install nose
$ nosetests test/
........................................
----------------------------------------------------------------------
Ran 40 tests in 0.135s

The pyflakes output should be clean (it catches things like references to undefined names):

$ pip install pyflakes
$ pyflakes framecurve.py
$

Finally, if you're feeling suitably pedantic, the pep8 module should be run on the module to check for consistency in whitespacing and such,

$ pip install pep8
$ pep8 --repeat --ignore=E501 framecurve.py

The output from pep8.py doesn't have to be perfectly clean (particularly the E501 "line too long" message can often be ignored if it will make the code less readable)

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