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import math
import re
import textwrap
from dataclasses import dataclass
@dataclass(frozen=True, slots=True)
class LengthUnit:
""" Convenience length unit class. Used in :py:class:`.GraphicObject` and :py:class:`.Aperture` to store length
information. Provides a number of useful unit conversion functions.
Singleton, use only global instances ``utils.MM`` and ``utils.Inch``.
"""
name: str
shorthand: str
this_in_mm: float
def convert_from(self, unit, value):
""" Convert ``value`` from ``unit`` into this unit.
:param unit: ``MM``, ``Inch`` or one of the strings ``"mm"`` or ``"inch"``
:param float value:
:rtype: float
"""
if isinstance(unit, str):
unit = units[unit]
if unit == self or unit is None or value is None:
return value
return value * unit.this_in_mm / self.this_in_mm
def convert_to(self, unit, value):
""" :py:meth:`.LengthUnit.convert_from` but in reverse. """
if isinstance(unit, str):
unit = to_unit(unit)
if unit is None:
return value
return unit.convert_from(self, value)
def convert_bounds_from(self, unit, value):
""" :py:meth:`.LengthUnit.convert_from` but for ((min_x, min_y), (max_x, max_y)) bounding box tuples. """
if value is None:
return None
(min_x, min_y), (max_x, max_y) = value
min_x = self.convert_from(unit, min_x)
min_y = self.convert_from(unit, min_y)
max_x = self.convert_from(unit, max_x)
max_y = self.convert_from(unit, max_y)
return (min_x, min_y), (max_x, max_y)
def convert_bounds_to(self, unit, value):
""" :py:meth:`.LengthUnit.convert_to` but for ((min_x, min_y), (max_x, max_y)) bounding box tuples. """
if value is None:
return None
(min_x, min_y), (max_x, max_y) = value
min_x = self.convert_to(unit, min_x)
min_y = self.convert_to(unit, min_y)
max_x = self.convert_to(unit, max_x)
max_y = self.convert_to(unit, max_y)
return (min_x, min_y), (max_x, max_y)
def format(self, value):
""" Return a human-readdable string representing value in this unit.
:param float value:
:returns: something like "3mm"
:rtype: str
"""
return f'{value:.3f}{self.shorthand}' if value is not None else ''
def __call__(self, value, unit):
""" Convenience alias for :py:meth:`.LengthUnit.convert_from` """
return self.convert_from(unit, value)
def __eq__(self, other):
if isinstance(other, str):
return other.lower() in (self.name, self.shorthand)
else:
return id(self) == id(other)
# This class is a singleton, we don't want copies around
def __copy__(self):
return self
def __deepcopy__(self, memo):
return self
def __str__(self):
return self.shorthand
def __repr__(self):
return f'<LengthUnit {self.name}>'
MILLIMETERS_PER_INCH = 25.4
Inch = LengthUnit('inch', 'in', MILLIMETERS_PER_INCH)
MM = LengthUnit('millimeter', 'mm', 1)
units = {'inch': Inch, 'mm': MM, None: None}
class Tag:
""" Helper class to ease creation of SVG. All API functions that create SVG allow you to substitute this with your
own implementation by passing a ``tag`` parameter. """
def __init__(self, name, children=None, root=False, **attrs):
if (fill := attrs.get('fill')) and isinstance(fill, tuple):
attrs['fill'], attrs['fill-opacity'] = fill
if (stroke := attrs.get('stroke')) and isinstance(stroke, tuple):
attrs['stroke'], attrs['stroke-opacity'] = stroke
self.name, self.attrs = name, attrs
self.children = children or []
self.root = root
def __str__(self):
prefix = '<?xml version="1.0" encoding="utf-8"?>\n' if self.root else ''
opening = ' '.join([self.name] + [f'{key.replace("__", ":").replace("_", "-")}="{value}"' for key, value in self.attrs.items()])
if self.children:
children = '\n'.join(textwrap.indent(str(c), ' ') for c in self.children)
return f'{prefix}<{opening}>\n{children}\n</{self.name}>'
else:
return f'{prefix}<{opening}/>'
def svg_rotation(angle_rad, cx=0, cy=0):
if math.isclose(angle_rad, 0.0, abs_tol=1e-3):
return {}
else:
return {'transform': f'rotate({float(math.degrees(angle_rad)):.4} {float(cx):.6} {float(cy):.6})'}
def setup_svg(tags, bounds, margin=0, arg_unit=MM, svg_unit=MM, pagecolor='white', tag=Tag, inkscape=False):
(min_x, min_y), (max_x, max_y) = bounds
if margin:
margin = svg_unit(margin, arg_unit)
min_x -= margin
min_y -= margin
max_x += margin
max_y += margin
w, h = max_x - min_x, max_y - min_y
w = 1.0 if math.isclose(w, 0.0) else w
h = 1.0 if math.isclose(h, 0.0) else h
if inkscape:
tags.insert(0, tag('sodipodi:namedview', [], id='namedview1', pagecolor=pagecolor,
inkscape__document_units=svg_unit.shorthand))
namespaces = dict(
xmlns="http://www.w3.org/2000/svg",
xmlns__xlink="http://www.w3.org/1999/xlink",
xmlns__sodipodi='http://sodipodi.sourceforge.net/DTD/sodipodi-0.dtd',
xmlns__inkscape='http://www.inkscape.org/namespaces/inkscape')
else:
namespaces = dict(
xmlns="http://www.w3.org/2000/svg",
xmlns__xlink="http://www.w3.org/1999/xlink")
svg_unit = 'in' if svg_unit == 'inch' else 'mm'
# TODO export apertures as <uses> where reasonable.
return tag('svg', tags,
width=f'{w}{svg_unit}', height=f'{h}{svg_unit}',
viewBox=f'{min_x} {min_y} {w} {h}',
style=f'background-color:{pagecolor}',
**namespaces,
root=True)
class Transform:
xform_re = r'((matrix|translate|scale|rotate|skewX|skewY)\(([-0-9. ]+)\))|(.+)'
def __init__(self, a=1, b=0, c=0, d=1, e=0, f=0):
# Reference: https://developer.mozilla.org/en-US/docs/Web/SVG/Attribute/transform
self.mat = (a, b, c, d, e, f)
def __mul__(self, other):
a1, b1, c1, d1, e1, f1 = self.mat
a2, b2, c2, d2, e2, f2 = other.mat
a = a1*a2 + c1*b2
b = d1*b2 + b1*a2
c = c1*d2 + a1*c2
d = d1*d2 + b1*c2
e = e1 + c1*f2 + a1*e2
f = f1 + d1*f2 + b1*e2
return Transform(a, b, c, d, e, f)
def __str__(self):
a, b, c, d, e, f = self.mat
return f'Transform({a=:.3f} {b=:.3f} {c=:.3f} {d=:.3f} {e=:.3f} {f=:.3f})'
def transform_point(self, x, y):
a, b, c, d, e, f = self.mat
x_new = a*x + c*y + e
y_new = b*x + d*y + f
return x_new, y_new
@classmethod
def translate(kls, x, y):
return kls(1, 0, 0, 1, x, y)
@classmethod
def scale(kls, x, y):
return kls(x, 0, 0, y, 0, 0)
@classmethod
def rotate(kls, a, x=0, y=0):
s, c = math.sin(a), math.cos(a)
mat = kls(c, s, -s, c, 0, 0)
if not math.isclose(x, 0) or not math.isclose(y, 0):
mat = kls.translate(x, y) * (mat * kls.translate(-x, -y))
return mat
@classmethod
def skew_x(kls, a):
return kls(1, 0, math.tan(a), 1, 0, 0)
@classmethod
def skew_y(kls, a):
return kls(1, math.tan(a), 0, 1, 0, 0)
@classmethod
def _parse_single_svg(kls, xform_string):
_transform, name, nums, _garbage = re.match(kls.xform_re, xform_string).groups()
nums = [float(x) for x in nums.strip().split()]
match (name, *nums):
case ('matrix', a, b, c, d, e, f):
return kls(a, b, c, d, e, f)
case ('translate', x):
return kls.translate(x, 0)
case ('translate', x, y):
return kls.translate(x, y)
case ('scale', s):
return kls.scale(s, s)
case ('scale', x, y):
return kls.scale(x, y)
case ('rotate', a):
return kls.rotate(math.radians(a))
case ('rotate', a, x, y):
return kls.rotate(math.radians(a), x, y)
case ('skewX', a):
return kls.skew_x(math.radians(a))
case ('skewY', a):
return kls.skew_y(math.radians(a))
@classmethod
def parse_svg(kls, xform_string):
mat = kls()
for xf in re.finditer(kls.xform_re, xform_string):
component, command, params, garbage = xf.groups()
if garbage:
raise ValueError(f'Unknown SVG transform {garbage!r}')
mat *= kls._parse_single_svg(xf.group(0))
return mat
def as_svg(self):
a, b, c, d, e, f = self.mat
return f'matrix({a} {b} {c} {d} {e} {f})'
def parse_path_d(d):
# Reference: https://developer.mozilla.org/en-US/docs/Web/SVG/Attribute/d#path_commands
cur_x, cur_y = None, None
start_x, start_y = None, None
for m in re.finditer(r'([MmLlHhVvCcSsQqTtAaZz])\s*((-?[0-9.]+)(\s*[\s,]\s*-?[0-9.]+)*)', d):
command = m.group(1)
is_relative, command = command.islower(), command.upper()
params = [float(x or 0) for x in re.split(r'\s*[\s,]\s*', m.group(2).strip())]
def r(x, y, reset=True):
if is_relative:
x, y = x+cur_x, y+cur_y
if reset:
cur_x, cur_y = x, y
return x, y
if command == 'Z':
if params:
raise ValueError('Z (close path) command followed by numeric parameters')
if not math.isclose(cur_x, start_x) or not math.isclose(cur_y, start_y):
yield 'L', (start_x, start_y)
else:
while params:
match (command, *params):
case ('M', x, y, *_extra):
yield 'M', r(x, y)
start_x, start_y = cur_x, cur_y
command = 'L'
params = params[2:]
case ('L', x, y, *_extra):
yield 'L', r(x, y)
params = params[2:]
case ('H', x, *_extra):
yield 'L', r(x, 0 if is_relative else cur_y)
params = params[1:]
case ('V', y, *_extra):
yield 'L', r(0 if is_relative else cur_x, y)
params = params[1:]
case ('C', x1, y1, x2, y2, x, y, *_extra):
yield 'C', r(x1, y1, False), r(x2, y2, False), r(x, y)
params = params[6:]
case ('S', dx2, dy2, x, y, *_extra):
yield 'S', r(dx2, dy2, False), r(x, y)
params = params[4:]
case ('Q', x1, y1, x, y, *_extra):
yield 'Q', r(x1, y1, False), r(x, y)
params = params[4:]
case ('T', x, y, *_extra):
yield 'T', r(x, y)
params = params[2:]
case ('A', rx, ry, a, l, s, x, y, *_extra):
yield 'A', (rx, ry), a, l, s, r(x, y)
params = params[7:]
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