I would like to render a truetype letter to be used with the shapely module in python. (Say that I wish to make some morphologic operation on letters.)
Up to now, I managed to write a letter to a SVG file using cairo (see below). The letter is saved as a curve in the file header. The curve is basically what I need, but I believe there must be a much more elegant way to get the curve than to save, process and load a SVG file.
A second task is to load the curve in the format that shapely works with, but I think this can be done.
#!/usr/bin/env python #-*- coding: utf-8 -*- import cairo fo = file('test.svg', 'w') WIDTH, HEIGHT = 256, 256 surface = cairo.SVGSurface (fo, WIDTH, HEIGHT) ## Prepare a destination surface -> out to an SVG file! ctx = cairo.Context (surface) ctx.scale (WIDTH/1.0, HEIGHT/1.0) # Normalizing the canvas ctx.move_to (0.1, 0.9) ctx.set_font_size(1.) character = "a" ctx.show_text(character) surface.finish()
Thank you in advance for your tips!
EDIT: I figured out that instead of show_text() one may draw a real curve using text_path(), but still I cannot read the points...
print ctx.text_path("b") ctx.set_source_rgb (0.3, 0.2, 0.5) # Solid color ctx.set_line_width (0.02) ctx.stroke ()
EDIT2: With a help of my colleague we managed to get a similar result as above. Using fontforge it is also possible to render a glyph and save it to SVG (in Bezier curves). It may be useful to somebody.
#!/usr/bin/python # -*- coding: utf-8 -*- ## Outputs a glyph as a SVG, using FontForge (requires package 'python-fontforge') import fontforge f = fontforge.open("/usr/share/fonts/truetype/ubuntu-font-family/Ubuntu-R.ttf") g = f["Aring"] print g g.export("orig.svg")
Optionally, one can already perform a morphologic dilation on the glyph before saving the SVG. (However, this is the only step of many that would be needed.)
g.stroke("circular", 100, "round", "round", "removeinternal") ## morphologic dilation of the glyph g.export("stroke.svg")
Also the precise bounding box can be established.
print "Stroked: g.boundingBox() =", g.boundingBox()
By the way, trying to write even trivial Inkscape plugins is quite frustrating, but I still believe it is the best way for the task.