Animated plots¶
Animations are generated from a list (or other iterable) of graphics
objects.
Images are produced by calling the save_image
method on each input
object, creating a sequence of PNG files.
These are then assembled to various target formats using different
tools.
In particular, the convert
program from ImageMagick can be used to
generate an animated GIF file.
FFmpeg (with the command line program ffmpeg
) provides support for
various video formats, but also an alternative method of generating
animated GIFs.
For browsers which support it, APNG can be used as another
alternative which works without any extra dependencies.
Warning
Note that ImageMagick and FFmpeg are not included with Sage, and
must be installed by the user. On unix systems, type which
convert
at a command prompt to see if convert
(part of the
ImageMagick suite) is installed. If it is, you will be given its
location. Similarly, you can check for ffmpeg
with which
ffmpeg
. See the websites of ImageMagick or FFmpeg for
installation instructions.
EXAMPLES:
The sine function:
sage: sines = [plot(c*sin(x), (-2*pi,2*pi), color=Color(c,0,0), ymin=-1, ymax=1) for c in sxrange(0,1,.2)]
sage: a = animate(sines)
sage: a # optional -- ImageMagick
Animation with 5 frames
sage: a.show() # optional -- ImageMagick
Animate using FFmpeg instead of ImageMagick:
sage: f = tmp_filename(ext='.gif')
sage: a.save(filename=f, use_ffmpeg=True) # optional -- ffmpeg
Animate as an APNG:
sage: a.apng() # long time
An animated sage.plot.multigraphics.GraphicsArray
of rotating ellipses:
sage: E = animate((graphics_array([[ellipse((0,0),a,b,angle=t,xmin=-3,xmax=3)+circle((0,0),3,color='blue') for a in range(1,3)] for b in range(2,4)]) for t in sxrange(0,pi/4,.15)))
sage: str(E) # animations produced from a generator do not have a known length
'Animation with unknown number of frames'
sage: E.show() # optional -- ImageMagick
A simple animation of a circle shooting up to the right:
sage: c = animate([circle((i,i), 1-1/(i+1), hue=i/10) for i in srange(0,2,0.2)],
....: xmin=0,ymin=0,xmax=2,ymax=2,figsize=[2,2])
sage: c.show() # optional -- ImageMagick
Animations of 3d objects:
sage: var('s,t')
(s, t)
sage: def sphere_and_plane(x):
....: return sphere((0,0,0),1,color='red',opacity=.5)+parametric_plot3d([t,x,s],(s,-1,1),(t,-1,1),color='green',opacity=.7)
sage: sp = animate([sphere_and_plane(x) for x in sxrange(-1,1,.3)])
sage: sp[0] # first frame
Graphics3d Object
sage: sp[-1] # last frame
Graphics3d Object
sage: sp.show() # optional -- ImageMagick
sage: (x,y,z) = var('x,y,z')
sage: def frame(t):
....: return implicit_plot3d((x^2 + y^2 + z^2), (x, -2, 2), (y, -2, 2), (z, -2, 2), plot_points=60, contour=[1,3,5], region=lambda x,y,z: x<=t or y>=t or z<=t)
sage: a = animate([frame(t) for t in srange(.01,1.5,.2)])
sage: a[0] # long time
Graphics3d Object
sage: a.show() # optional -- ImageMagick
If the input objects do not have a save_image
method, then the
animation object attempts to make an image by calling its internal
method sage.plot.animate.Animation.make_image()
. This is
illustrated by the following example:
sage: t = var('t')
sage: a = animate((sin(c*pi*t) for c in sxrange(1,2,.2)))
sage: a.show() # optional -- ImageMagick
AUTHORS:
- William Stein
- John Palmieri
- Niles Johnson (2013-12): Expand to animate more graphics objects
- Martin von Gagern (2014-12): Added APNG support
REFERENCES:
-
class
sage.plot.animate.
APngAssembler
(out, num_frames, num_plays=0, delay=200, delay_denominator=100)¶ Bases:
object
Builds an APNG (Animated PNG) from a sequence of PNG files. This is used by the
sage.plot.animate.Animation.apng()
method.This code is quite simple; it does little more than copying chunks from input PNG files to the output file. There is no optimization involved. This does not depend on external programs or libraries.
INPUT:
out
– a file opened for binary writing to which the data will be writtennum_frames
– the number of frames in the animationnum_plays
– how often to iterate, 0 means infinitelydelay
– numerator of the delay fraction in secondsdelay_denominator
– denominator of the delay in seconds
EXAMPLES:
sage: from sage.plot.animate import APngAssembler sage: def assembleAPNG(): ....: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, figsize=[2,1]) ....: pngdir = a.png() ....: outfile = sage.misc.temporary_file.tmp_filename(ext='.png') ....: with open(outfile, "wb") as f: ....: apng = APngAssembler(f, len(a)) ....: for i in range(len(a)): ....: png = os.path.join(pngdir, "{:08d}.png".format(i)) ....: apng.add_frame(png, delay=10*i + 10) ....: return outfile ....: sage: assembleAPNG() # long time '...png'
REFERENCES:
-
add_frame
(pngfile, delay=None, delay_denominator=None)¶ Adds a single frame to the APNG file.
INPUT:
pngfile
– file name of the PNG file with data for this framedelay
– numerator of the delay fraction in secondsdelay_denominator
– denominator of the delay in seconds
If the delay is not specified, the default from the constructor applies.
-
set_default
(pngfile)¶ Adds a default image for the APNG file.
This image is used as a fallback in case some application does not understand the APNG format. This method must be called prior to any calls to the
add_frame
method, if it is called at all. If it is not called, then the first frame of the animation will be the default.INPUT:
pngfile
– file name of the PNG file with data for the default image
-
class
sage.plot.animate.
Animation
(v=None, **kwds)¶ Bases:
sage.misc.fast_methods.WithEqualityById
,sage.structure.sage_object.SageObject
Return an animation of a sequence of plots of objects.
INPUT:
v
- iterable of Sage objects. These should preferably be graphics objects, but if they aren’t thenmake_image()
is called on them.xmin, xmax, ymin, ymax
- the ranges of the x and y axes.**kwds
- all additional inputs are passed onto the rendering command. E.g., use figsize to adjust the resolution and aspect ratio.
EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.3)], ....: xmin=0, xmax=2*pi, figsize=[2,1]) sage: a # optional -- ImageMagick Animation with 21 frames sage: a[:5] # optional -- ImageMagick Animation with 5 frames sage: a.show() # optional -- ImageMagick sage: a[:5].show() # optional -- ImageMagick
The
show()
method takes arguments to specify the delay between frames (measured in hundredths of a second, default value 20) and the number of iterations (default value 0, which means to iterate forever). To iterate 4 times with half a second between each frame:sage: a.show(delay=50, iterations=4) # optional -- ImageMagick
An animation of drawing a parabola:
sage: step = 0.1 sage: L = Graphics() sage: v = [] sage: for i in srange(0,1,step): ....: L += line([(i,i^2),(i+step,(i+step)^2)], rgbcolor=(1,0,0), thickness=2) ....: v.append(L) sage: a = animate(v, xmin=0, ymin=0) sage: a.show() # optional -- ImageMagick sage: show(L)
-
apng
(savefile=None, show_path=False, delay=20, iterations=0)¶ Creates an animated PNG composed from rendering the graphics objects in self. Return the absolute path to that file.
Notice that not all web browsers are capable of displaying APNG files, though they should still present the first frame of the animation as a fallback.
The generated file is not optimized, so it may be quite large.
Input:
delay
- (default: 20) delay in hundredths of a second between framessavefile
- file that the animated gif gets saved toiterations
- integer (default: 0); number of iterations of animation. If 0, loop forever.show_path
- boolean (default: False); if True, print the path to the saved file
EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, figsize=[2,1]) sage: dir = tmp_dir() sage: a.apng() # long time sage: a.apng(savefile=dir + 'my_animation.png', delay=35, iterations=3) # long time sage: a.apng(savefile=dir + 'my_animation.png', show_path=True) # long time Animation saved to .../my_animation.png.
If the individual frames have different sizes, an error will be raised:
sage: a = animate([plot(sin(x), (x, 0, k)) for k in range(1,4)], ....: ymin=-1, ymax=1, aspect_ratio=1, figsize=[2,1]) sage: a.apng() # long time Traceback (most recent call last): ... ValueError: Chunk IHDR mismatch
-
ffmpeg
(savefile=None, show_path=False, output_format=None, ffmpeg_options='', delay=None, iterations=0, pix_fmt='rgb24')¶ Returns a movie showing an animation composed from rendering the frames in self.
This method will only work if ffmpeg is installed. See http://www.ffmpeg.org for information about ffmpeg.
INPUT:
savefile
- file that the mpeg gets saved to.
show_path
- boolean (default: False); if True, print the path to the saved fileoutput_format
- string (default: None); format and suffix to use for the video. This may be ‘mpg’, ‘mpeg’, ‘avi’, ‘gif’, or any other format that ffmpeg can handle. If this is None and the user specifiessavefile
with a suffix, saysavefile='animation.avi'
, try to determine the format (‘avi’ in this case) from that file name. If no file is specified or if the suffix cannot be determined, ‘mpg’ is used.ffmpeg_options
- string (default: ‘’); this string is passed directly to ffmpeg.delay
- integer (default: None); delay in hundredths of a second between frames. The framerate is 100/delay. This is not supported for mpeg files: for mpegs, the frame rate is always 25 fps.iterations
- integer (default: 0); number of iterations of animation. If 0, loop forever. This is only supported for animated gif output and requires ffmpeg version 0.9 or later. For older versions, setiterations=None
.pix_fmt
- string (default: ‘rgb24’); used only for gif output. Different values such as ‘rgb8’ or ‘pal8’ may be necessary depending on how ffmpeg was installed. Setpix_fmt=None
to disable this option.
If
savefile
is not specified: in notebook mode, display the animation; otherwise, save it to a default file name. Usesage.misc.misc.set_verbose()
withlevel=1
to see additional output.EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, ymin=-1, ymax=1, figsize=[2,1]) sage: td = tmp_dir() sage: a.ffmpeg(savefile=td + 'new.mpg') # optional -- ffmpeg sage: a.ffmpeg(savefile=td + 'new.avi') # optional -- ffmpeg sage: a.ffmpeg(savefile=td + 'new.gif') # optional -- ffmpeg sage: a.ffmpeg(savefile=td + 'new.mpg', show_path=True) # optional -- ffmpeg Animation saved to .../new.mpg.
Note
If ffmpeg is not installed, you will get an error message like this:
Error: ffmpeg does not appear to be installed. Saving an animation to a movie file in any format other than GIF requires this software, so please install it and try again. See www.ffmpeg.org for more information.
-
gif
(delay=20, savefile=None, iterations=0, show_path=False, use_ffmpeg=False)¶ Returns an animated gif composed from rendering the graphics objects in self.
This method will only work if either (a) the ImageMagick software suite is installed, i.e., you have the
convert
command or (b)ffmpeg
is installed. See the web sites of ImageMagick and FFmpeg for more details. By default, this produces the gif usingconvert
if it is present. If this can’t findconvert
or ifuse_ffmpeg
is True, then it usesffmpeg
instead.INPUT:
delay
- (default: 20) delay in hundredths of a second between framessavefile
- file that the animated gif gets saved toiterations
- integer (default: 0); number of iterations of animation. If 0, loop forever.show_path
- boolean (default: False); if True, print the path to the saved fileuse_ffmpeg
- boolean (default: False); if True, use ‘ffmpeg’ by default instead of ‘convert’.
If
savefile
is not specified: in notebook mode, display the animation; otherwise, save it to a default file name.EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, ymin=-1, ymax=1, figsize=[2,1]) sage: td = tmp_dir() sage: a.gif() # not tested sage: a.gif(savefile=td + 'my_animation.gif', delay=35, iterations=3) # optional -- ImageMagick sage: with open(td + 'my_animation.gif', 'rb') as f: print('\x21\xf9\x04\x08\x23\x00' in f.read()) # optional -- ImageMagick True sage: a.gif(savefile=td + 'my_animation.gif', show_path=True) # optional -- ImageMagick Animation saved to .../my_animation.gif. sage: a.gif(savefile=td + 'my_animation_2.gif', show_path=True, use_ffmpeg=True) # optional -- ffmpeg Animation saved to .../my_animation_2.gif.
Note
If neither ffmpeg nor ImageMagick is installed, you will get an error message like this:
Error: Neither ImageMagick nor ffmpeg appears to be installed. Saving an animation to a GIF file or displaying an animation requires one of these packages, so please install one of them and try again. See www.imagemagick.org and www.ffmpeg.org for more information.
REFERENCES:
-
graphics_array
(ncols=3)¶ Return a
sage.plot.multigraphics.GraphicsArray
with plots of the frames of this animation, using the given number of columns. The frames must be acceptable inputs forsage.plot.multigraphics.GraphicsArray
.EXAMPLES:
sage: E = EllipticCurve('37a') sage: v = [E.change_ring(GF(p)).plot(pointsize=30) for p in [97, 101, 103, 107]] sage: a = animate(v, xmin=0, ymin=0, axes=False) sage: a # optional -- ImageMagick Animation with 4 frames sage: a.show() # optional -- ImageMagick
Modify the default arrangement of array:
sage: g = a.graphics_array(); print(g) Graphics Array of size 2 x 3 sage: g.show(figsize=[6,3]) # not tested
Specify different arrangement of array and save it with a given file name:
sage: g = a.graphics_array(ncols=2); print(g) Graphics Array of size 2 x 2 sage: f = tmp_filename(ext='.png') sage: g.save(f)
Frames can be specified as a generator too; it is internally converted to a list:
sage: t = var('t') sage: b = animate((plot(sin(c*pi*t)) for c in sxrange(1,2,.2))) sage: g = b.graphics_array() sage: g Graphics Array of size 2 x 3
-
make_image
(frame, filename, **kwds)¶ Given a frame which has no
save_image()
method, make a graphics object and save it as an image with the given filename. By default, this issage.plot.plot.plot()
. To make animations of other objects, override this method in a subclass.EXAMPLES:
sage: from sage.plot.animate import Animation sage: class MyAnimation(Animation): ....: def make_image(self, frame, filename, **kwds): ....: P = parametric_plot(frame[0], frame[1], **frame[2]) ....: P.save_image(filename,**kwds) sage: t = var('t') sage: x = lambda t: cos(t) sage: y = lambda n,t: sin(t)/n sage: B = MyAnimation([([x(t), y(i+1,t)],(t,0,1), {'color':Color((1,0,i/4)), 'aspect_ratio':1, 'ymax':1}) for i in range(4)]) sage: d = B.png(); v = os.listdir(d); v.sort(); v # long time ['00000000.png', '00000001.png', '00000002.png', '00000003.png'] sage: B.show() # not tested sage: class MyAnimation(Animation): ....: def make_image(self, frame, filename, **kwds): ....: G = frame.plot() ....: G.set_axes_range(floor(G.xmin()),ceil(G.xmax()),floor(G.ymin()),ceil(G.ymax())) ....: G.save_image(filename, **kwds) sage: B = MyAnimation([graphs.CompleteGraph(n) for n in range(7,11)], figsize=5) sage: d = B.png() sage: v = os.listdir(d); v.sort(); v ['00000000.png', '00000001.png', '00000002.png', '00000003.png'] sage: B.show() # not tested
-
png
(dir=None)¶ Render PNG images of the frames in this animation, saving them in
dir
. Return the absolute path to that directory. If the frames have been previously rendered anddir
isNone
, just return the directory in which they are stored.When
dir
is other thanNone
, force re-rendering of frames.INPUT:
dir
– Directory in which to store frames. DefaultNone
; in this case, a temporary directory will be created for storing the frames.
EXAMPLES:
sage: a = animate([plot(x^2 + n) for n in range(4)], ymin=0, ymax=4) sage: d = a.png(); v = os.listdir(d); v.sort(); v # long time ['00000000.png', '00000001.png', '00000002.png', '00000003.png']
-
save
(filename=None, show_path=False, use_ffmpeg=False, **kwds)¶ Save this animation.
INPUT:
filename
- (default: None) name of save fileshow_path
- boolean (default: False); if True, print the path to the saved fileuse_ffmpeg
- boolean (default: False); if True, use ‘ffmpeg’ by default instead of ‘convert’ when creating GIF files.
If filename is None, then in notebook mode, display the animation; otherwise, save the animation to a GIF file. If filename ends in ‘.sobj’, save to an sobj file. Otherwise, try to determine the format from the filename extension (‘.mpg’, ‘.gif’, ‘.avi’, etc.). If the format cannot be determined, default to GIF.
For GIF files, either ffmpeg or the ImageMagick suite must be installed. For other movie formats, ffmpeg must be installed. An sobj file can be saved with no extra software installed.
EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, ymin=-1, ymax=1, figsize=[2,1]) sage: td = tmp_dir() sage: a.save() # not tested sage: a.save(td + 'wave.gif') # optional -- ImageMagick sage: a.save(td + 'wave.gif', show_path=True) # optional -- ImageMagick Animation saved to file .../wave.gif. sage: a.save(td + 'wave.avi', show_path=True) # optional -- ffmpeg Animation saved to file .../wave.avi. sage: a.save(td + 'wave0.sobj') sage: a.save(td + 'wave1.sobj', show_path=True) Animation saved to file .../wave1.sobj.
-
show
(delay=None, iterations=None, **kwds)¶ Show this animation immediately.
This method attempts to display the graphics immediately, without waiting for the currently running code (if any) to return to the command line. Be careful, calling it from within a loop will potentially launch a large number of external viewer programs.
INPUT:
delay
– (default: 20) delay in hundredths of a second between frames.iterations
– integer (default: 0); number of iterations of animation. If 0, loop forever.format
- (default: gif) format to use for output. Currently supported formats are: gif, ogg, webm, mp4, flash, matroska, avi, wmv, quicktime.
OUTPUT:
This method does not return anything. Use
save()
if you want to save the figure as an image.Note
Currently this is done using an animated gif, though this could change in the future. This requires that either ffmpeg or the ImageMagick suite (in particular, the
convert
command) is installed.See also the
ffmpeg()
method.EXAMPLES:
sage: a = animate([sin(x + float(k)) for k in srange(0,2*pi,0.7)], ....: xmin=0, xmax=2*pi, figsize=[2,1]) sage: a.show() # optional -- ImageMagick
The preceding will loop the animation forever. If you want to show only three iterations instead:
sage: a.show(iterations=3) # optional -- ImageMagick
To put a half-second delay between frames:
sage: a.show(delay=50) # optional -- ImageMagick
You can also make use of the HTML5 video element in the Sage Notebook:
sage: a.show(format="ogg") # optional -- ffmpeg sage: a.show(format="webm") # optional -- ffmpeg sage: a.show(format="mp4") # optional -- ffmpeg sage: a.show(format="webm", iterations=1) # optional -- ffmpeg
Other backends may support other file formats as well:
sage: a.show(format="flash") # optional -- ffmpeg sage: a.show(format="matroska") # optional -- ffmpeg sage: a.show(format="avi") # optional -- ffmpeg sage: a.show(format="wmv") # optional -- ffmpeg sage: a.show(format="quicktime") # optional -- ffmpeg
Note
If you don’t have ffmpeg or ImageMagick installed, you will get an error message like this:
Error: Neither ImageMagick nor ffmpeg appears to be installed. Saving an animation to a GIF file or displaying an animation requires one of these packages, so please install one of them and try again. See www.imagemagick.org and www.ffmpeg.org for more information.
-
sage.plot.animate.
animate
(frames, **kwds)¶ Animate a list of frames by creating a
sage.plot.animate.Animation
object.EXAMPLES:
sage: t = var('t') sage: a = animate((cos(c*pi*t) for c in sxrange(1,2,.2))) sage: a.show() # optional -- ImageMagick
See also
sage.plot.animate
for more examples.