#!/usr/bin/env python
# coding=utf-8
"""
Test specific elements API from svg xml lxml custom classes.
"""
import pytest
import math
import inkex
from inkex import (
Group,
Layer,
Pattern,
Guide,
Page,
Polyline,
Use,
Defs,
TextElement,
TextPath,
Tspan,
FlowPara,
FlowRoot,
FlowRegion,
FlowSpan,
PathElement,
Rectangle,
Circle,
Ellipse,
Anchor,
Line as LineElement,
Transform,
Style,
LinearGradient,
RadialGradient,
Stop,
)
from inkex import paths
from inkex.colors import Color
from inkex.paths import Move, Line
from inkex.utils import FragmentError
from inkex.units import parse_unit
from .test_inkex_elements_base import SvgTestCase
from inkex.tester.svg import svg
class ElementTestCase(SvgTestCase):
"""Base element testing"""
tag = "svg"
def setUp(self):
super().setUp()
self.elem = self.svg.getElement("//svg:{}".format(self.tag))
def test_print(self):
"""Print element as string"""
self.assertEqual(str(self.elem), self.tag)
def assertElement(self, elem, compare): # pylint: disable=invalid-name
"""Assert an element"""
self.assertEqual(elem.tostring(), compare)
class PathElementTestCase(ElementTestCase):
"""Test PathElements"""
source_file = "with-lpe.svg"
tag = "path"
def test_new_path(self):
"""Test new path element"""
path = PathElement.new(path=[Move(10, 10), Line(20, 20)])
self.assertEqual(path.get("d"), "M 10 10 L 20 20")
def test_original_path(self):
"""LPE paths can return their original paths"""
lpe = self.svg.getElementById("lpe")
nolpe = self.svg.getElementById("nolpe")
self.assertEqual(str(lpe.path), "M 30 30 L -10 -10 Z")
self.assertEqual(str(lpe.original_path), "M 20 20 L 10 10 Z")
self.assertEqual(str(nolpe.path), "M 30 30 L -10 -10 Z")
self.assertEqual(str(nolpe.original_path), "M 30 30 L -10 -10 Z")
lpe.original_path = "M 60 60 L 5 5"
self.assertEqual(lpe.get("inkscape:original-d"), "M 60 60 L 5 5")
self.assertEqual(lpe.get("d"), "M 30 30 L -10 -10 Z")
lpe.path = "M 60 60 L 15 15 Z"
self.assertEqual(lpe.get("d"), "M 60 60 L 15 15 Z")
nolpe.original_path = "M 60 60 L 5 5"
self.assertEqual(nolpe.get("inkscape:original-d", None), None)
self.assertEqual(nolpe.get("d"), "M 60 60 L 5 5")
def _compare_paths(self, result, reference, precision=4):
reference = inkex.Path(reference)
result = inkex.Path(result)
self.assertEqual(len(reference), len(result))
for c1, c2 in zip(reference, result):
self.assertEqual(c1.letter, c2.letter)
self.assertAlmostTuple(c1.args, c2.args, precision=precision, msg=result)
def test_arc(self):
"""Test arc generation"""
def compare_arc(cx, cy, rx, ry, start, end, reference, type="arc"):
arc = PathElement.arc((cx, cy), rx, ry, start=start, end=end, arctype=type)
self.assertEqual(arc.get("sodipodi:arc-type"), type)
self._compare_paths(arc.get("d"), reference)
compare_arc(
10,
20,
5,
5,
math.pi / 4,
math.pi * 6 / 4,
"""m 13.535534,23.535534 a 5,5 0 0 1 -6.035534,0.794593
5,5 0 0 1 -2.3296291,-5.624222 5,5 0 0 1 4.8296291,-3.705905""",
)
compare_arc(
10,
20,
5,
5,
math.pi / 4,
math.pi * 6 / 4,
"""m 13.535534,23.535534 a 5,5 0 0 1 -6.035534,0.794593
5,5 0 0 1 -2.3296291,-5.624222 5,5 0 0 1 4.8296291,-3.705905 z""",
type="chord",
)
compare_arc(
10,
20,
5,
5,
math.pi / 4,
math.pi * 28 / 18,
"""m 13.535534,23.535534 a 5,5 0 0 1 -6.2830789,0.641905 5,5 0 0 1 -1.8991927,-6.02347
5,5 0 0 1 5.5149786,-3.078008 l -0.868241,4.924039 z""",
type="slice",
)
def test_stars(self):
def compare_star(
cx,
cy,
sides,
r1,
r2,
arg1,
arg2,
flatsided,
rounded,
reference,
precision=4,
):
star = PathElement.star(
(cx, cy), (r1, r2), sides, rounded, (arg1, arg2), flatsided
)
self.assertEqual(star.get("inkscape:flatsided"), str(flatsided).lower())
self._compare_paths(star.get("d"), reference, precision=precision)
# Test a simple polygon
compare_star(
10,
5,
6,
5.5,
10,
7 / 8 * math.pi,
42,
True,
0,
"""m 4.9186625,7.1047587 0.7178942,-5.4529467 5.0813373,-2.10475872
4.363443,3.34818802 -0.717894,5.4529467 -5.0813372,2.104759 z""",
)
# Test a star
compare_star(
5,
10,
7,
35,
17,
0.95545678,
1.4790556,
False,
0,
"""m 25.203254,38.580212 -18.6458484,-11.651701 -11.3057927,16.6865
-2.5158293,-21.842628 -20.0950776,1.564637 15.508661,-15.5856099
-13.752359,-14.7354284 21.8548124,2.4076898 2.94616632,-19.9394165
11.74384528,18.5879506 17.426168,-10.1286176 -7.210477,20.7711057
18.783909,7.3092373 -20.735163,7.313194 z""",
)
# Test a rounded polygon
compare_star(
10,
5,
6,
5.5,
10,
7 / 8 * math.pi,
42,
True,
0.1,
"""m 4.9186625,7.1047587 c -0.2104759,-0.5081337 0.3830754,-5.0166024 0.7178942,-5.4529467
0.3348188,-0.4363443 4.5360433,-2.17654814 5.0813373,-2.10475872
0.545295,0.0717894 4.152968,2.84005422 4.363443,3.34818802
0.210476,0.5081337 -0.383075,5.0166024 -0.717894,5.4529467
-0.334819,0.4363443 -4.5360425,2.176548 -5.0813372,2.104759
-0.5452947,-0.07179 -4.1529674,-2.8400545 -4.3634433,-3.3481883 z""",
)
compare_star(
5,
10,
7,
35,
17,
0.95545678,
1.4790556,
False,
1,
"""m 25.203254,38.580212 c -18.8526653,11.31401 3.036933,-15.296807 -18.6458484,-11.651701
-19.8769816,3.341532 7.5786704,23.731873 -11.3057927,16.6865
-20.6000929,-7.685438 13.8530224,-7.163034 -2.5158293,-21.842628
-15.0056106,-13.4570388 -13.8291026,20.721824 -20.0950776,1.564637
-6.835231,-20.8975929 14.237504,6.364651 15.508661,-15.5856099
1.165291,-20.1221851 -24.823279,2.1078182 -13.752359,-14.7354284
12.076699,-18.3734357 3.900854,15.0996232 21.8548124,2.4076898
16.4587046,-11.6349155 -17.1250194,-18.0934175 2.94616632,-19.9394165
21.89462928,-2.013706 -9.37321772,12.464272 11.74384528,18.5879506
19.358377,5.61368249 3.468728,-24.6699406 17.426168,-10.1286176
15.225456,15.86238583 -15.589066,0.44307 -7.210477,20.7711057
7.680797,18.6350633 21.450453,-12.6694955 18.783909,7.3092373
-2.908795,21.793777 -10.066029,-11.91177319 -20.735163,7.313194
-9.7805797,17.623861 23.27955,8.871339 5.996985,19.243087 z""",
precision=2,
)
class PolylineElementTestCase(ElementTestCase):
"""Test the polyline elements support"""
tag = "polyline"
def test_type(self):
"""Polyline have their own types"""
self.assertTrue(isinstance(self.elem, inkex.Polyline))
def test_polyline_points(self):
"""Basic tests for points attribute as a path"""
pol = Polyline(points="10,10 50,50 10,15 15,10")
self.assertEqual(str(pol.path), "M 10 10 L 50 50 L 10 15 L 15 10")
pol.path = "M 10 10 L 30 9 L 1 2 C 10 45 3 4 45 60 M 35 35"
self.assertEqual(pol.get("points"), "10,10 30,9 1,2 45,60 35,35")
class PolygonElementTestCase(ElementTestCase):
"""Test Polygon Elements"""
tag = "polygon"
def test_type(self):
"""Polygons have their own types"""
self.assertTrue(isinstance(self.elem, inkex.Polygon))
def test_conversion(self):
"""Polygones are converted to paths"""
pol = inkex.Polygon(points="10,10 50,50 10,15 15,10")
self.assertEqual(str(pol.path), "M 10 10 L 50 50 L 10 15 L 15 10 Z")
class LineElementTestCase(ElementTestCase):
"""Test Line Elements"""
tag = "line"
def test_new_line(self):
"""Line creation"""
line = LineElement.new((10, 10), (20, 20))
self.assertElement(line, b'')
def test_type(self):
"""Lines have their own types"""
self.assertTrue(isinstance(self.elem, inkex.Line))
def test_conversion(self):
"""Lines are converted to paths"""
pol = inkex.elements.Line(x1="2", y1="3", x2="4", y2="5")
self.assertEqual(str(pol.path), "M 2 3 L 4 5")
class PatternTestCase(ElementTestCase):
"""Test Pattern elements"""
tag = "pattern"
def test_pattern_transform(self):
"""Patterns have a transformation of their own"""
pattern = Pattern()
self.assertEqual(pattern.patternTransform, Transform())
pattern.patternTransform.add_translate(10, 10)
self.assertEqual(pattern.get("patternTransform"), "translate(10, 10)")
class GroupTest(ElementTestCase):
"""Test extra functionality on a group element"""
tag = "g"
def test_new_group(self):
"""Test creating groups"""
svg = Layer.new("layerA", Group.new("groupA", Rectangle()))
self.assertElement(
svg,
b''
b'',
)
def test_transform_property(self):
"""Test getting and setting a transform"""
self.assertEqual(
str(self.elem.transform), "matrix(1.44985 0 0 1.36417 -107.03 -167.362)"
)
self.elem.transform = "translate(12, 14)"
self.assertEqual(self.elem.transform, Transform("translate(12, 14)"))
self.assertEqual(str(self.elem.transform), "translate(12, 14)")
def test_groupmode(self):
"""Get groupmode is layer"""
self.assertEqual(self.svg.getElementById("A").groupmode, "layer")
self.assertEqual(self.svg.getElementById("C").groupmode, "group")
def test_get_path(self):
"""Group path is combined children"""
print(str(self.svg.getElementById("A").get_path()))
self.assertEqual(
str(self.svg.getElementById("A").get_path()),
"M -108.539 517.61 L -87.6093 496.117 L -98.3066 492.768 L -69.9353 492.301 L -55.5172"
" 506.163 L -66.2146 502.814 L -87.1446 524.307 M 60.0914 498.694 L 156.784 439.145 L"
" 240.218 491.183 L 143.526 550.731 z M -176.909 458.816 a 64.2385 38.9175 -7.86457 1"
" 0 88.3701 -19.0784 a 64.2385 38.9175 -7.86457 0 0 -88.3701 19.0784 z M -300.162"
" 513.715 L -282.488 509.9 Z M -214.583 540.504 L -209.001 448.77 M -193.189 547.201 "
"L -238.536 486.266 L -185.049 503.008 L -230.396 442.073 M -193.189 547.201 L -238.536"
" 486.266 L -185.049 503.008 L -230.396 442.073 Z M 15 15 L 15.5 20",
)
def test_bounding_box(self):
"""A group returns a bounding box"""
empty = self.svg.add(Group(Group()))
self.assertEqual(empty.bounding_box(), None)
self.assertEqual(int(self.svg.getElementById("A").bounding_box().width), 783)
self.assertEqual(int(self.svg.getElementById("B").bounding_box().height), 114)
class RectTest(ElementTestCase):
"""Test extra functionality on a rectangle element"""
tag = "rect"
def test_parse(self):
"""Test Rectangle parsed from XML"""
rect = Rectangle(
attrib={
"x": "10px",
"y": "20px",
"width": "100px",
"height": "200px",
"rx": "15px",
"ry": "30px",
}
)
self.assertEqual(rect.left, 10)
self.assertEqual(rect.top, 20)
self.assertEqual(rect.right, 10 + 100)
self.assertEqual(rect.bottom, 20 + 200)
self.assertEqual(rect.width, 100)
self.assertEqual(rect.height, 200)
self.assertEqual(rect.rx, 15)
self.assertEqual(rect.ry, 30)
def test_compose_transform(self):
"""Composed transformation"""
self.assertEqual(self.elem.transform, Transform("rotate(16.097889)"))
self.assertEqual(
str(self.elem.composed_transform()),
"matrix(1.4019 -0.812338 1.20967 0.709877 -542.221 533.431)",
)
def test_effetive_stylesheet(self):
"""Test the non-parent combination of styles"""
self.assertEqual(
str(self.elem.effective_style()), "fill:#0000ff;stroke-width:1px"
)
self.assertEqual(
str(self.elem.getparent().effective_style()),
"fill:#0000ff;stroke-width:1px;stroke:#f00",
)
def test_compose_stylesheet(self):
"""Test finding the composed stylesheet for the shape"""
self.assertEqual(str(self.elem.style), "fill:#0000ff;stroke-width:1px")
self.assertEqual(
str(self.elem.specified_style()),
"fill:#0000ff;stroke-width:1px;stroke:#d88",
)
def test_path(self):
"""Rectangle path"""
self.assertEqual(self.elem.get_path(), "M 200.0,200.0 h100.0v100.0h-100.0 z")
self.assertEqual(str(self.elem.path), "M 200 200 h 100 v 100 h -100 z")
class PathTest(ElementTestCase):
"""Test path extra functionality"""
tag = "path"
def test_apply_transform(self):
"""Transformation can be applied to path"""
path = self.svg.getElementById("D")
path.transform = Transform(translate=(10, 10))
self.assertEqual(
path.get("d"), "M30,130 L60,130 L60,120 L70,140 L60,160 L60,150 L30,150"
)
path.apply_transform()
self.assertEqual(
path.get("d"),
"M 40 140 L 70 140 L 70 130 L 80 150 " "L 70 170 L 70 160 L 40 160",
)
self.assertFalse(path.transform)
class CircleTest(ElementTestCase):
"""Test extra functionality on a circle element"""
tag = "circle"
def test_parse(self):
"""Test Circle parsed from XML"""
circle = Circle(attrib={"cx": "10px", "cy": "20px", "r": "30px"})
self.assertEqual(circle.center.x, 10)
self.assertEqual(circle.center.y, 20)
self.assertEqual(circle.radius, 30)
ellipse = Ellipse(
attrib={"cx": "10px", "cy": "20px", "rx": "30px", "ry": "40px"}
)
self.assertEqual(ellipse.center.x, 10)
self.assertEqual(ellipse.center.y, 20)
self.assertEqual(ellipse.radius.x, 30)
self.assertEqual(ellipse.radius.y, 40)
def test_new(self):
"""Test new circles"""
elem = Circle.new((10, 10), 50)
self.assertElement(elem, b'')
elem = Ellipse.new((10, 10), (15, 10))
self.assertElement(elem, b'')
def test_path(self):
"""Circle path"""
self.assertEqual(
self.elem.get_path(),
"M 100.0,50.0 a 50.0,50.0 0 1 0 50.0, "
"50.0 a 50.0,50.0 0 0 0 -50.0, -50.0 z",
)
class AnchorTest(ElementTestCase):
"""Test anchor tags"""
def test_new(self):
"""Anchor tag creation"""
link = Anchor.new("https://inkscape.org", Rectangle())
self.assertElement(link, b'')
class NamedViewTest(ElementTestCase):
"""Test the sodipodi namedview tag"""
def test_guides(self):
"""Create a guide and see a list of them"""
self.svg.namedview.add(Guide().move_to(0, 0, 0))
self.svg.namedview.add(Guide().move_to(0, 0, "90"))
self.assertEqual(len(self.svg.namedview.get_guides()), 2)
def test_guides_coincident(self):
"""Test the detection of coincident guides"""
def coincidence_test(data, result):
guide1 = Guide().move_to(*data[0], angle=data[1])
guide2 = Guide().move_to(*data[2], angle=data[3])
self.assertEqual(Guide.guides_coincident(guide1, guide2), result)
# both are good
coincidence_test(((0, 0), (0, 1), (2, 0), (0, 3)), True)
# antiparallel
coincidence_test(((0, 0), (0, 1), (2, 0), (0, -3)), True)
# point not on guide
coincidence_test(((0, 0), (0, 1), (0, 1), (0, 3)), False)
# different orientation
coincidence_test(((0, 0), (0, 1), (2, 0), (1, 0)), False)
# try the same at an angle
coincidence_test(((1, 1), (2, -1), (3, 5), (-2, 1)), True)
coincidence_test(((1, 1), (2, -1), (3, 6), (-2, 1)), False)
# and vertical
coincidence_test(((0, 1), (1, 0), (0, 2), (3, 0)), True)
coincidence_test(((0, 1), (1, 0), (0, 2), (-3, 0)), True)
coincidence_test(((1, 1), (1, 0), (0, 2), (-3, 0)), False)
def test_pages(self):
"""Create some extra pages and see a list of them"""
self.assertEqual(len(self.svg.namedview.get_pages()), 0)
self.svg.namedview.add(Page(width="210", height="297", x="0", y="0"))
self.svg.namedview.new_page(
x="220", y="0", width="147.5", height="210", label="TEST"
)
self.assertEqual(len(self.svg.namedview.get_pages()), 2)
self.assertEqual(self.svg.namedview.get_pages()[0].attrib["x"], "0")
self.assertEqual(
self.svg.namedview.get_pages()[1].get("inkscape:label"), "TEST"
)
self.assertEqual(self.svg.namedview.get_pages()[1].attrib["width"], "147.5")
self.assertEqual(self.svg.namedview.get_pages()[0].attrib["height"], "297")
self.assertEqual(self.svg.namedview.get_pages()[1].attrib["x"], "220")
self.assertEqual(self.svg.namedview.get_pages()[1].attrib["y"], "0")
def test_center(self):
"""Test that the center in mm based documents is correctly computed"""
mmbased = svg(f'width="210mm" viewBox="0 0 210 297"')
mmbased.namedview.set(
"inkscape:cx", 396.57881
) # Values of a freshly opened mm document
mmbased.namedview.set("inkscape:cy", 561.81998)
self.assertAlmostTuple(
mmbased.namedview.center,
[mmbased.viewbox_width / 2, mmbased.viewport_height / 2],
precision=0,
)
class TextTest(ElementTestCase):
"""Test all text functions"""
def test_append_superscript(self):
"""Test adding superscript"""
tap = TextPath()
tap.append(Tspan.superscript("th"))
self.assertEqual(len(tap), 1)
def test_path(self):
"""Test getting paths"""
self.assertFalse(TextPath().get_path())
self.assertFalse(TextElement().get_path())
self.assertFalse(FlowRegion().get_path())
self.assertFalse(FlowRoot().get_path())
self.assertFalse(FlowPara().get_path())
self.assertFalse(FlowSpan().get_path())
self.assertFalse(Tspan().get_path())
class UseTest(ElementTestCase):
"""Test extra functionality on a use element"""
tag = "use"
def test_path(self):
"""Use path follows ref"""
self.assertEqual(str(self.elem.path), "M 0 0 L 10 10 Z")
def test_empty_ref(self):
"""An empty ref or None ref doesn't cause an error"""
use = Use()
use.set("xlink:href", "something")
self.assertRaises(FragmentError, getattr, use, "href")
elem = self.svg.add(Use())
self.assertEqual(elem.href, None)
elem.set("xlink:href", "")
self.assertEqual(elem.href, None)
elem.set("xlink:href", "#badref")
self.assertEqual(elem.href, None)
elem.set("xlink:href", self.elem.get("xlink:href"))
self.assertEqual(elem.href.get("id"), "path1")
def test_unlink(self):
"""Test use tag unlinking"""
elem = self.elem.unlink()
self.assertEqual(str(elem.path), "M 0 0 L 10 10 Z")
self.assertEqual(elem.tag_name, "path")
self.assertEqual(elem.getparent().get("id"), "C")
def test_unlink_xy(self):
"""Check that unlink works if both transform and x, y are set on a clone"""
elem = self.svg.add(Use())
elem.set("xlink:href", "path1")
elem.set("x", "100")
elem.set("y", "20")
elem.set("transform", "rotate(20,-100,100)")
elem2 = elem.unlink()
self.assertEqual(str(elem2.path), "M 0 0 L 10 10 Z")
self.assertEqual(elem2.tag_name, "path")
self.assertAlmostTuple(
tuple(elem2.transform.to_hexad()),
tuple(inkex.Transform("rotate(20,-206.71282,373.56409)").to_hexad()),
3,
)
class StopTests(ElementTestCase):
"""Color stop tests"""
black = Color("#000000")
grey50 = Color("#080808")
white = Color("#111111")
def test_interpolate(self):
"""Interpolate colours"""
stl1 = Style({"stop-color": self.black, "stop-opacity": 0.0})
stop1 = Stop(offset="0.0", style=str(stl1))
stl2 = Style({"stop-color": self.white, "stop-opacity": 1.0})
stop2 = Stop(offset="1.0", style=str(stl2))
stop3 = stop1.interpolate(stop2, 0.5)
assert stop3.style["stop-color"] == str(self.grey50)
assert float(stop3.style["stop-opacity"]) == pytest.approx(0.5, 1e-3)
class GradientTests(ElementTestCase):
"""Gradient testing"""
black = Color("#000000")
grey50 = Color("#080808")
white = Color("#111111")
whiteop1 = Style({"stop-color": white, "stop-opacity": 1.0})
blackop1 = Style({"stop-color": black, "stop-opacity": 1.0})
whiteop0 = Style({"stop-color": white, "stop-opacity": 0.0})
blackop0 = Style({"stop-color": black, "stop-opacity": 0.0})
translate11 = Transform("translate(1.0, 1.0)")
translate22 = Transform("translate(2.0, 2.0)")
def test_parse(self):
"""Gradients parsed from XML"""
values = [
(
LinearGradient,
{"x1": "0px", "y1": "1px", "x2": "2px", "y2": "3px"},
{"x1": 0.0, "y1": 1.0, "x2": 2.0, "y2": 3.0},
),
(
RadialGradient,
{"cx": "0px", "cy": "1px", "fx": "2px", "fy": "3px", "r": "4px"},
{"cx": 0.0, "cy": 1.0, "fx": 2.0, "fy": 3.0},
),
]
for classname, attributes, expected in values:
grad = classname(attrib=attributes)
grad.apply_transform() # identity transform
for key, value in expected.items():
assert float(grad.get(key)) == pytest.approx(value, 1e-3)
grad = classname(attrib=attributes)
grad = grad.interpolate(grad, 0.0)
for key, value in expected.items():
assert float(parse_unit(grad.get(key))[0]) == pytest.approx(value, 1e-3)
def test_apply_transform(self):
"""Transform gradients"""
values = [
(
LinearGradient,
{"x1": 0.0, "y1": 0.0, "x2": 1.0, "y2": 1.0},
{"x1": 1.0, "y1": 1.0, "x2": 2.0, "y2": 2.0},
),
(
RadialGradient,
{"cx": 0.0, "cy": 0.0, "fx": 1.0, "fy": 1.0, "r": 1.0},
{"cx": 1.0, "cy": 1.0, "fx": 2.0, "fy": 2.0, "r": 1.0},
),
]
for classname, orientation, expected in values:
grad = classname().update(**orientation)
grad.gradientTransform = self.translate11
grad.apply_transform()
val = grad.get("gradientTransform")
assert val is None
for key, value in expected.items():
assert float(grad.get(key)) == pytest.approx(value, 1e-3)
def test_stops(self):
"""Gradients have stops"""
for classname in [LinearGradient, RadialGradient]:
grad = classname()
stops = [
Stop().update(offset=0.0, style=self.whiteop0),
Stop().update(offset=1.0, style=self.blackop1),
]
grad.add(*stops)
assert [s1.tostring() == s2.tostring() for s1, s2 in zip(grad.stops, stops)]
def test_stop_styles(self):
"""Gradients have styles"""
for classname in [LinearGradient, RadialGradient]:
grad = classname()
stops = [
Stop().update(offset=0.0, style=self.whiteop0),
Stop().update(offset=1.0, style=self.blackop1),
]
grad.add(*stops)
assert [str(s1) == str(s2.style) for s1, s2 in zip(grad.stop_styles, stops)]
def test_get_stop_offsets(self):
"""Gradients stop offsets"""
for classname in [LinearGradient, RadialGradient]:
grad = classname()
stops = [
Stop().update(offset=0.0, style=self.whiteop0),
Stop().update(offset=1.0, style=self.blackop1),
]
grad.add(*stops)
for stop1, stop2 in zip(grad.stop_offsets, stops):
self.assertEqual(float(stop1), pytest.approx(float(stop2.offset), 1e-3))
def test_interpolate(self):
"""Gradients can be interpolated"""
values = [
(
LinearGradient,
{"x1": 0, "y1": 0, "x2": 1, "y2": 1},
{"x1": 2, "y1": 2, "x2": 1, "y2": 1},
{"x1": 1.0, "y1": 1.0, "x2": 1.0, "y2": 1.0},
),
(
RadialGradient,
{"cx": 0, "cy": 0, "fx": 1, "fy": 1, "r": 0},
{"cx": 2, "cy": 2, "fx": 1, "fy": 1, "r": 1},
{"cx": 1.0, "cy": 1.0, "fx": 1.0, "fy": 1.0, "r": 0.5},
),
]
for classname, orientation1, orientation2, expected in values:
# gradient 1
grad1 = classname()
stops1 = [
Stop().update(offset=0.0, style=self.whiteop0),
Stop().update(offset=1.0, style=self.blackop1),
]
grad1.add(*stops1)
grad1.update(gradientTransform=self.translate11)
grad1.update(**orientation1)
# gradient 2
grad2 = classname()
stops2 = [
Stop().update(offset=0.0, style=self.blackop1),
Stop().update(offset=1.0, style=self.whiteop0),
]
grad2.add(*stops2)
grad2.update(gradientTransform=self.translate22)
grad2.update(**orientation2)
grad = grad1.interpolate(grad2, 0.5)
comp = Style({"stop-color": self.grey50, "stop-opacity": 0.5})
self.assertEqual(str(grad.stops[0].style), str(Style(comp)))
self.assertEqual(str(grad.stops[1].style), str(Style(comp)))
self.assertEqual(str(grad.gradientTransform), "translate(1.5, 1.5)")
for key, value in expected.items():
self.assertEqual(
float(parse_unit(grad.get(key))[0]), pytest.approx(value, 1e-3)
)
class SymbolTest(ElementTestCase):
"""Test Symbol elements"""
source_file = "symbol.svg"
tag = "symbol"
def test_unlink_symbol(self):
"""Test unlink symbols"""
use = self.svg.getElementById("plane01")
self.assertEqual(use.tag_name, "use")
self.assertEqual(use.href.tag_name, "symbol")
# Unlinking should replace symbol with group
elem = use.unlink()
self.assertEqual(elem.tag_name, "g")
self.assertEqual(str(elem.transform), "translate(18, 16)")
self.assertEqual(elem[0].tag_name, "title")
self.assertEqual(elem[1].tag_name, "rect")
class DefsTest(ElementTestCase):
"""Test the definitions tag"""
source_file = "shapes.svg"
tag = "defs"
def test_defs(self):
"""Make sure defs can be seen in the nodes of an svg"""
self.assertTrue(isinstance(self.svg.defs, Defs))
defs = self.svg.getElementById("defs33")
self.assertTrue(isinstance(defs, Defs))
class StyleTest(ElementTestCase):
"""Test a style tag"""
source_file = "css.svg"
tag = "style"
def test_style(self):
"""Make sure style tags can be loaded and saved"""
css = self.svg.stylesheet
self.assertTrue(css)