# -*- coding: utf-8 -*- # # Copyright (c) Aaron Spike # Aurélio A. Heckert # Bulia Byak # Nicolas Dufour, nicoduf@yahoo.fr # Peter J. R. Moulder # Martin Owens # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # """ Convert to and from various units and find the closest matching unit. """ import re # a dictionary of unit to user unit conversion factors CONVERSIONS = { 'in': 96.0, 'pt': 1.3333333333333333, 'px': 1.0, 'mm': 3.779527559055118, 'cm': 37.79527559055118, 'm': 3779.527559055118, 'km': 3779527.559055118, 'Q': 0.94488188976378, 'pc': 16.0, 'yd': 3456.0, 'ft': 1152.0, '': 1.0, # Default px } # allowed unit types, including percentages, relative units, and others # that are not suitable for direct conversion to a length. # Note that this is _not_ an exhaustive list of allowed unit types. UNITS = ['in', 'pt', 'px', 'mm', 'cm', 'm', 'km', 'Q', 'pc', 'yd', 'ft', '',\ '%', 'em', 'ex', 'ch', 'rem', 'vw', 'vh', 'vmin', 'vmax',\ 'deg', 'grad', 'rad', 'turn', 's', 'ms', 'Hz', 'kHz',\ 'dpi', 'dpcm', 'dppx'] UNIT_MATCH = re.compile(r'({})'.format('|'.join(UNITS))) NUMBER_MATCH = re.compile(r'(([-+]?[0-9]+(\.[0-9]*)?|[-+]?\.[0-9]+)([eE][-+]?[0-9]+)?)') BOTH_MATCH = re.compile(r'^\s*{}\s*{}\s*$'.format(NUMBER_MATCH.pattern, UNIT_MATCH.pattern)) def parse_unit(value, default_unit='px', default_value=None): """ Takes a value such as 55.32px and returns (55.32, 'px') Returns default (None) if no match can be found """ ret = BOTH_MATCH.match(str(value)) if ret: return float(ret.groups()[0]), ret.groups()[-1] or default_unit return (default_value, default_unit) if default_value is not None else None def are_near_relative(point_a, point_b, eps=0.01): """Return true if the points are near to eps""" return (point_a - point_b <= point_a * eps) and (point_a - point_b >= -point_a * eps) def discover_unit(value, viewbox, default='px'): """Attempt to detect the unit being used based on the viewbox""" # Default 100px when width can't be parsed (value, unit) = parse_unit(value, default_value=100.0) if unit not in CONVERSIONS: return default this_factor = CONVERSIONS[unit] * value / viewbox # try to find the svgunitfactor in the list of units known. If we don't find something, ... for unit, unit_factor in CONVERSIONS.items(): if unit != '': # allow 1% error in factor if are_near_relative(this_factor, unit_factor, eps=0.01): return unit return default def convert_unit(value, to_unit): """Returns userunits given a string representation of units in another system""" value, from_unit = parse_unit(value, default_value=0.0) if from_unit in CONVERSIONS and to_unit in CONVERSIONS: return value * CONVERSIONS[from_unit] / CONVERSIONS.get(to_unit, CONVERSIONS['px']) return 0.0 def render_unit(value, unit): """Checks and then renders a number with its unit""" try: if isinstance(value, str): (value, unit) = parse_unit(value, default_unit=unit) return "{:.6g}{:s}".format(value, unit) except TypeError: return ''