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import torch
import pydiffvg
import xml.etree.ElementTree as etree
from xml.dom import minidom
def prettify(elem):
"""Return a pretty-printed XML string for the Element.
"""
rough_string = etree.tostring(elem, 'utf-8')
reparsed = minidom.parseString(rough_string)
return reparsed.toprettyxml(indent=" ")
def save_svg(filename, width, height, shapes, shape_groups, use_gamma = False, background=None):
root = etree.Element('svg')
root.set('version', '1.1')
root.set('xmlns', 'http://www.w3.org/2000/svg')
root.set('width', str(width))
root.set('height', str(height))
if background is not None:
print(f"setting background to {background}")
root.set('style', str(background))
defs = etree.SubElement(root, 'defs')
g = etree.SubElement(root, 'g')
if use_gamma:
f = etree.SubElement(defs, 'filter')
f.set('id', 'gamma')
f.set('x', '0')
f.set('y', '0')
f.set('width', '100%')
f.set('height', '100%')
gamma = etree.SubElement(f, 'feComponentTransfer')
gamma.set('color-interpolation-filters', 'sRGB')
feFuncR = etree.SubElement(gamma, 'feFuncR')
feFuncR.set('type', 'gamma')
feFuncR.set('amplitude', str(1))
feFuncR.set('exponent', str(1/2.2))
feFuncG = etree.SubElement(gamma, 'feFuncG')
feFuncG.set('type', 'gamma')
feFuncG.set('amplitude', str(1))
feFuncG.set('exponent', str(1/2.2))
feFuncB = etree.SubElement(gamma, 'feFuncB')
feFuncB.set('type', 'gamma')
feFuncB.set('amplitude', str(1))
feFuncB.set('exponent', str(1/2.2))
feFuncA = etree.SubElement(gamma, 'feFuncA')
feFuncA.set('type', 'gamma')
feFuncA.set('amplitude', str(1))
feFuncA.set('exponent', str(1/2.2))
g.set('style', 'filter:url(#gamma)')
# Store color
for i, shape_group in enumerate(shape_groups):
def add_color(shape_color, name):
if isinstance(shape_color, pydiffvg.LinearGradient):
lg = shape_color
color = etree.SubElement(defs, 'linearGradient')
color.set('id', name)
color.set('x1', str(lg.begin[0].item()/width))
color.set('y1', str(lg.begin[1].item()/height))
color.set('x2', str(lg.end[0].item()/width))
color.set('y2', str(lg.end[1].item()/height))
offsets = lg.offsets.data.cpu().numpy()
stop_colors = lg.stop_colors.data.cpu().numpy()
for j in range(offsets.shape[0]):
stop = etree.SubElement(color, 'stop')
stop.set('offset', str(offsets[j]))
c = lg.stop_colors[j, :]
stop.set('stop-color', 'rgb({}, {}, {})'.format(\
int(255 * c[0]), int(255 * c[1]), int(255 * c[2])))
stop.set('stop-opacity', '{}'.format(c[3]))
if isinstance(shape_color, pydiffvg.RadialGradient):
lg = shape_color
color = etree.SubElement(defs, 'radialGradient')
color.set('id', name)
color.set('cx', str(lg.center[0].item()/width))
color.set('cy', str(lg.center[1].item()/height))
# this only support width=height
color.set('r', str(lg.radius[0].item()/width))
offsets = lg.offsets.data.cpu().numpy()
stop_colors = lg.stop_colors.data.cpu().numpy()
for j in range(offsets.shape[0]):
stop = etree.SubElement(color, 'stop')
stop.set('offset', str(offsets[j]))
c = lg.stop_colors[j, :]
stop.set('stop-color', 'rgb({}, {}, {})'.format(\
int(255 * c[0]), int(255 * c[1]), int(255 * c[2])))
stop.set('stop-opacity', '{}'.format(c[3]))
if shape_group.fill_color is not None:
add_color(shape_group.fill_color, 'shape_{}_fill'.format(i))
if shape_group.stroke_color is not None:
add_color(shape_group.stroke_color, 'shape_{}_stroke'.format(i))
for i, shape_group in enumerate(shape_groups):
shape = shapes[shape_group.shape_ids[0]]
if isinstance(shape, pydiffvg.Circle):
shape_node = etree.SubElement(g, 'circle')
shape_node.set('r', str(shape.radius.item()))
shape_node.set('cx', str(shape.center[0].item()))
shape_node.set('cy', str(shape.center[1].item()))
elif isinstance(shape, pydiffvg.Polygon):
shape_node = etree.SubElement(g, 'polygon')
points = shape.points.data.cpu().numpy()
path_str = ''
for j in range(0, shape.points.shape[0]):
path_str += '{} {}'.format(points[j, 0], points[j, 1])
if j != shape.points.shape[0] - 1:
path_str += ' '
shape_node.set('points', path_str)
elif isinstance(shape, pydiffvg.Path):
shape_node = etree.SubElement(g, 'path')
num_segments = shape.num_control_points.shape[0]
num_control_points = shape.num_control_points.data.cpu().numpy()
points = shape.points.data.cpu().numpy()
num_points = shape.points.shape[0]
path_str = 'M {} {}'.format(points[0, 0], points[0, 1])
point_id = 1
for j in range(0, num_segments):
if num_control_points[j] == 0:
p = point_id % num_points
path_str += ' L {} {}'.format(\
points[p, 0], points[p, 1])
point_id += 1
elif num_control_points[j] == 1:
p1 = (point_id + 1) % num_points
path_str += ' Q {} {} {} {}'.format(\
points[point_id, 0], points[point_id, 1],
points[p1, 0], points[p1, 1])
point_id += 2
elif num_control_points[j] == 2:
p2 = (point_id + 2) % num_points
path_str += ' C {} {} {} {} {} {}'.format(\
points[point_id, 0], points[point_id, 1],
points[point_id + 1, 0], points[point_id + 1, 1],
points[p2, 0], points[p2, 1])
point_id += 3
shape_node.set('d', path_str)
elif isinstance(shape, pydiffvg.Rect):
shape_node = etree.SubElement(g, 'rect')
shape_node.set('x', str(shape.p_min[0].item()))
shape_node.set('y', str(shape.p_min[1].item()))
shape_node.set('width', str(shape.p_max[0].item() - shape.p_min[0].item()))
shape_node.set('height', str(shape.p_max[1].item() - shape.p_min[1].item()))
else:
assert(False)
shape_node.set('stroke-width', str(2 * shape.stroke_width.data.cpu().item()))
if shape_group.fill_color is not None:
if isinstance(shape_group.fill_color, pydiffvg.LinearGradient):
shape_node.set('fill', 'url(#shape_{}_fill)'.format(i))
elif isinstance(shape_group.fill_color, pydiffvg.RadialGradient):
shape_node.set('fill', 'url(#shape_{}_fill)'.format(i))
else:
c = shape_group.fill_color.data.cpu().numpy()
shape_node.set('fill', 'rgb({}, {}, {})'.format(\
int(255 * c[0]), int(255 * c[1]), int(255 * c[2])))
shape_node.set('opacity', str(c[3]))
else:
shape_node.set('fill', 'none')
if shape_group.stroke_color is not None:
if isinstance(shape_group.stroke_color, pydiffvg.LinearGradient):
shape_node.set('stroke', 'url(#shape_{}_stroke)'.format(i))
elif isinstance(shape_group.stroke_color, pydiffvg.LinearGradient):
shape_node.set('stroke', 'url(#shape_{}_stroke)'.format(i))
else:
c = shape_group.stroke_color.data.cpu().numpy()
shape_node.set('stroke', 'rgb({}, {}, {})'.format(\
int(255 * c[0]), int(255 * c[1]), int(255 * c[2])))
shape_node.set('stroke-opacity', str(c[3]))
shape_node.set('stroke-linecap', 'round')
shape_node.set('stroke-linejoin', 'round')
with open(filename, "w") as f:
f.write(prettify(root))
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