A Python 3 library for programmatically generating SVG images (vector drawings) and rendering them or displaying them in a Jupyter notebook.
Most common SVG tags are supported and others can easily be added by writing a small subclass of DrawableBasicElement or DrawableParentElement.
An interactive Jupyter notebook widget, drawSvg.widgets.DrawingWidget, is included that can update drawings based on mouse events.
drawSvg is available on PyPI:
$ pip3 install drawSvg
Cairo needs to be installed separately. When Cairo is installed, drawSvg can output PNG or other image formats in addition to SVG. See platform-specific instructions for Linux, Windows, and macOS from Cairo. Below are some examples for installing Cairo on Linux distributions and macOS.
Ubuntu
$ sudo apt-get install libcairo2
macOS
Using homebrew:
$ brew install cairo
import drawSvg as draw
d = draw.Drawing(200, 100, origin='center', displayInline=False)
# Draw an irregular polygon
d.append(draw.Lines(-80, -45,
70, -49,
95, 49,
-90, 40,
close=False,
fill='#eeee00',
stroke='black'))
# Draw a rectangle
r = draw.Rectangle(0,0,40,50, fill='#1248ff')
r.appendTitle("Our first rectangle") # Add a tooltip
d.append(r)
# Draw a circle
d.append(draw.Circle(-40, -10, 30,
fill='red', stroke_width=2, stroke='black'))
# Draw an arbitrary path (a triangle in this case)
p = draw.Path(stroke_width=2, stroke='green',
fill='black', fill_opacity=0.5)
p.M(-30,5) # Start path at point (-30, 5)
p.l(60,30) # Draw line to (60, 30)
p.h(-70) # Draw horizontal line to x=-70
p.Z() # Draw line to start
d.append(p)
# Draw multiple circular arcs
d.append(draw.ArcLine(60,-20,20,60,270,
stroke='red', stroke_width=5, fill='red', fill_opacity=0.2))
d.append(draw.Arc(60,-20,20,60,270,cw=False,
stroke='green', stroke_width=3, fill='none'))
d.append(draw.Arc(60,-20,20,270,60,cw=True,
stroke='blue', stroke_width=1, fill='black', fill_opacity=0.3))
# Draw arrows
arrow = draw.Marker(-0.1, -0.5, 0.9, 0.5, scale=4, orient='auto')
arrow.append(draw.Lines(-0.1, -0.5, -0.1, 0.5, 0.9, 0, fill='red', close=True))
p = draw.Path(stroke='red', stroke_width=2, fill='none',
marker_end=arrow) # Add an arrow to the end of a path
p.M(20, -40).L(20, -27).L(0, -20) # Chain multiple path operations
d.append(p)
d.append(draw.Line(30, -20, 0, -10,
stroke='red', stroke_width=2, fill='none',
marker_end=arrow)) # Add an arrow to the end of a line
d.setPixelScale(2) # Set number of pixels per geometry unit
#d.setRenderSize(400,200) # Alternative to setPixelScale
d.saveSvg('example.svg')
d.savePng('example.png')
# Display in Jupyter notebook
d.rasterize() # Display as PNG
d # Display as SVG
import drawSvg as draw
d = draw.Drawing(1.5, 0.8, origin='center')
d.draw(draw.Rectangle(-0.75,-0.5,1.5,1, fill='#ddd'))
# Create gradient
gradient = draw.RadialGradient(0,-0.35,0.7*10)
gradient.addStop(0.5/0.7/10, 'green', 1)
gradient.addStop(1/10, 'red', 0)
# Draw a shape to fill with the gradient
p = draw.Path(fill=gradient, stroke='black', stroke_width=0.002)
p.arc(0,-0.35,0.7,30,120)
p.arc(0,-0.35,0.5,120,30,cw=True, includeL=True)
p.Z()
d.append(p)
# Draw another shape to fill with the same gradient
p = draw.Path(fill=gradient, stroke='red', stroke_width=0.002)
p.arc(0,-0.35,0.75,130,160)
p.arc(0,-0.35,0,160,130,cw=True, includeL=True)
p.Z()
d.append(p)
# Another gradient
gradient2 = draw.LinearGradient(0.1,-0.35,0.1+0.6,-0.35+0.2)
gradient2.addStop(0, 'green', 1)
gradient2.addStop(1, 'red', 0)
d.append(draw.Rectangle(0.1,-0.35,0.6,0.2,
stroke='black', stroke_width=0.002,
fill=gradient2))
# Display
d.setRenderSize(w=600)
d
import drawSvg as draw
d = draw.Drawing(1.4, 1.4, origin='center')
# Define clip path
clip = draw.ClipPath()
clip.append(draw.Rectangle(-.25,.25-1,1,1))
# Draw a cropped circle
c = draw.Circle(0,0,0.5, stroke_width='0.01', stroke='black',
fill_opacity=0.3, clip_path=clip,
id='circle')
d.append(c)
# Make a transparent copy, cropped again
g = draw.Group(opacity=0.5, clip_path=clip)
g.append(draw.Use('circle', 0.25,0.1))
d.append(g)
# Display
d.setRenderSize(400)
d.rasterize()
import drawSvg as draw
# Subclass DrawingBasicElement if it cannot have child nodes
# Subclass DrawingParentElement otherwise
# Subclass DrawingDef if it must go between <def></def> tags in an SVG
class Hyperlink(draw.DrawingParentElement):
TAG_NAME = 'a'
def __init__(self, href, target=None, **kwargs):
# Other init logic...
# Keyword arguments to super().__init__() correspond to SVG node
# arguments: stroke_width=5 -> stroke-width="5"
super().__init__(href=href, target=target, **kwargs)
d = draw.Drawing(1, 1.2, origin='center')
# Create hyperlink
hlink = Hyperlink('https://www.python.org', target='_blank',
transform='skewY(-30)')
# Add child elements
hlink.append(draw.Circle(0,0,0.5, fill='green'))
hlink.append(draw.Text('Hyperlink',0.2, 0,0, center=0.6, fill='white'))
# Draw and display
d.append(hlink)
d.setRenderSize(200)
d
import drawSvg as draw
d = draw.Drawing(200, 200, origin='center')
# Animate the position and color of circle
c = draw.Circle(0, 0, 20, fill='red')
# See for supported attributes:
# https://developer.mozilla.org/en-US/docs/Web/SVG/Element/animate
c.appendAnim(draw.Animate('cy', '6s', '-80;80;-80',
repeatCount='indefinite'))
c.appendAnim(draw.Animate('cx', '6s', '0;80;0;-80;0',
repeatCount='indefinite'))
c.appendAnim(draw.Animate('fill', '6s', 'red;green;blue;yellow',
calcMode='discrete',
repeatCount='indefinite'))
d.append(c)
# Animate a black circle around an ellipse
ellipse = draw.Path()
ellipse.M(-90, 0)
ellipse.A(90, 40, 360, True, True, 90, 0) # Ellipse path
ellipse.A(90, 40, 360, True, True, -90, 0)
ellipse.Z()
c2 = draw.Circle(0, 0, 10)
# See for supported attributes:
# https://developer.mozilla.org/en-US/docs/Web/SVG/Element/animateMotion
c2.appendAnim(draw.AnimateMotion(ellipse, '3s',
repeatCount='indefinite'))
# See for supported attributes:
# https://developer.mozilla.org/en-US/docs/Web/SVG/Element/animateTransform
c2.appendAnim(draw.AnimateTransform('scale', '3s', '1,2;2,1;1,2;2,1;1,2',
repeatCount='indefinite'))
d.append(c2)
d.saveSvg('animated.svg') # Save to file
d # Display in Jupyter notebook
import drawSvg as draw
from drawSvg.widgets import DrawingWidget
import hyperbolic.poincare.shapes as hyper # pip3 install hyperbolic
# Create drawing
d = draw.Drawing(2, 2, origin='center')
d.setRenderSize(500)
d.append(draw.Circle(0, 0, 1, fill='orange'))
group = draw.Group()
d.append(group)
# Update the drawing based on user input
click_list = []
def redraw(points):
group.children.clear()
for x1, y1 in points:
for x2, y2 in points:
if (x1, y1) == (x2, y2): continue
p1 = hyper.Point.fromEuclid(x1, y1)
p2 = hyper.Point.fromEuclid(x2, y2)
if p1.distanceTo(p2) <= 2:
line = hyper.Line.fromPoints(*p1, *p2, segment=True)
group.draw(line, hwidth=0.2, fill='white')
for x, y in points:
p = hyper.Point.fromEuclid(x, y)
group.draw(hyper.Circle.fromCenterRadius(p, 0.1),
fill='green')
redraw(click_list)
# Create interactive widget and register mouse events
widget = DrawingWidget(d)
@widget.mousedown
def mousedown(widget, x, y, info):
if (x**2 + y**2) ** 0.5 + 1e-5 < 1:
click_list.append((x, y))
redraw(click_list)
widget.refresh()
@widget.mousemove
def mousemove(widget, x, y, info):
if (x**2 + y**2) ** 0.5 + 1e-5 < 1:
redraw(click_list + [(x, y)])
widget.refresh()
widget
import drawSvg as draw
# Draw a frame of the animation
def draw_frame(t):
d = draw.Drawing(2, 6.05, origin=(-1,-1.05))
d.setRenderSize(h=300)
d.append(draw.Rectangle(-2, -2, 4, 8, fill='white'))
d.append(draw.Rectangle(-1, -1.05, 2, 0.05, fill='brown'))
t = (t + 1) % 2 - 1
y = 4 - t**2 * 4
d.append(draw.Circle(0, y, 1, fill='lime'))
return d
with draw.animate_jupyter(draw_frame, delay=0.05) as anim:
# Or:
#with draw.animate_video('example6.gif', draw_frame, duration=0.05
# ) as anim:
# Add each frame to the animation
for i in range(20):
anim.draw_frame(i/10)
for i in range(20):
anim.draw_frame(i/10)
for i in range(20):
anim.draw_frame(i/10)
# Jupyter cell 1:
import drawSvg as draw
from drawSvg.widgets import AsyncAnimation
widget = AsyncAnimation(fps=10)
widget
# [Animation is displayed here (click to pause)]
# Jupyter cell 2:
global_variable = 'a'
@widget.set_draw_frame # Animation above is automatically updated
def draw_frame(secs=0):
# Draw something...
d = draw.Drawing(100, 40)
d.append(draw.Text(global_variable, 20, 0, 10))
d.append(draw.Text('{:0.1f}'.format(secs), 20, 30, 10))
return d
# Jupyter cell 3:
global_variable = 'b' # Animation above now displays 'b'