Source code for pymor.analyticalproblems.text

# -*- coding: utf-8 -*-
# This file is part of the pyMOR project (http://www.pymor.org).
# Copyright 2013-2017 pyMOR developers and contributors. All rights reserved.
# License: BSD 2-Clause License (http://opensource.org/licenses/BSD-2-Clause)

from pymor.analyticalproblems.elliptic import StationaryProblem
from pymor.core.defaults import defaults
from pymor.domaindescriptions.basic import RectDomain
from pymor.functions.basic import ConstantFunction, LincombFunction
from pymor.functions.bitmap import BitmapFunction
from pymor.parameters.functionals import ProjectionParameterFunctional
from pymor.parameters.spaces import CubicParameterSpace


[docs]@defaults('font_name') def text_problem(text='pyMOR', font_name=None): import numpy as np from PIL import Image, ImageDraw, ImageFont from tempfile import NamedTemporaryFile font_list = [font_name] if font_name else ['DejaVuSansMono.ttf', 'VeraMono.ttf', 'UbuntuMono-R.ttf', 'Arial.ttf'] font = None for filename in font_list: try: font = ImageFont.truetype(filename, 64) # load some font from file of given size except (OSError, IOError): pass if font is None: raise ValueError('Could not load TrueType font') size = font.getsize(text) # compute width and height of rendered text size = (size[0] + 20, size[1] + 20) # add a border of 10 pixels around the text def make_bitmap_function(char_num): # we need to genereate a BitmapFunction for each character img = Image.new('L', size) # create new Image object of given dimensions d = ImageDraw.Draw(img) # create ImageDraw object for the given Image # in order to position the character correctly, we first draw all characters from the first # up to the wanted character d.text((10, 10), text[:char_num + 1], font=font, fill=255) # next we erase all previous character by drawing a black rectangle if char_num > 0: d.rectangle(((0, 0), (font.getsize(text[:char_num])[0] + 10, size[1])), fill=0, outline=0) # open a new temporary file with NamedTemporaryFile(suffix='.png') as f: # after leaving this 'with' block, the temporary # file is automatically deleted img.save(f, format='png') return BitmapFunction(f.name, bounding_box=[(0, 0), size], range=[0., 1.]) # create BitmapFunctions for each character dfs = [make_bitmap_function(n) for n in range(len(text))] # create an indicator function for the background background = ConstantFunction(1., 2) - LincombFunction(dfs, np.ones(len(dfs))) # form the linear combination dfs = [background] + dfs coefficients = [1] + [ProjectionParameterFunctional('diffusion', (len(text),), (i,)) for i in range(len(text))] diffusion = LincombFunction(dfs, coefficients) return StationaryProblem( domain=RectDomain(dfs[1].bounding_box, bottom='neumann'), neumann_data=ConstantFunction(-1., 2), diffusion=diffusion, parameter_space=CubicParameterSpace(diffusion.parameter_type, 0.1, 1.) )