A filter pen that passes outline data to another pen, but reversing
the winding direction of all contours.
Like ufoLib's ReverseContourPointPen, but using segment-wise pen
interface, without additional point/segment converters, and without
ufoLib.
627f997ddb/Lib/ufoLib/pointPen.py (L327-L406)
A filter pen that accumulates contour data, passes it through a
`filterContour` method as the contour is closed or ended, and
draws the result with the output pen.
In the docstring of programToCommands, it says that:
> Each command is a two-tuple of commandname,arg-list
Previously the T2CharStringPen was passing command args as tuples instead
of lists to the specializeCommands function with option generalizeFirst=False,
which would only make a shallow copy of the input commands to modify them
in place. The problem is that it attempted to call list-only methods, leading
to errors like:
File "fontTools/cffLib/specializer.py", line 432, in specializeCommands
args.insert(pos, 0)
AttributeError: 'tuple' object has no attribute 'insert'
Since the expectation of the code here and elsewhere is that args is a
list, it makes sense that the T2 pen passes lists instead of tuples to the
specializeCommands function.
Tests are failing now, as cffLib.specializer combines operations whereas
previous pen didn't. I checked all failures and they all look like the
expectation needs to be updated to me.
Fixes https://github.com/fonttools/fonttools/issues/403
This is so we can reuse addComponent with the recording pen, without having to
inherit from the BasePen (which also splits curveTo and qCurveTo commands).
Log warning message on missing glyphs by default, optionally raise KeyError
if skipMissingComponents = False
Otherwise I get this error on python2.7:
SyntaxError: Non-ASCII character '\xc2' in file perimeterPen.py on line 87, but no encoding declared; see http://python.org/dev/peps/pep-0263/ for details
Rounding of coordinates is now disabled by default.
The pen now accepts an optional 'roundTolerance' float, with values between
0 and 1 (default is 0).
Values >= 0.5 mean round all coordinates to integers.
Values between 0 and 0.5 mean round only when the absolute difference
between the original float and the rounded integer is within the tolerance
Fixes#769
