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example_scenes.py
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example_scenes.py
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#!/usr/bin/env python
from manimlib.imports import *
# To watch one of these scenes, run the following:
# python -m manim example_scenes.py SquareToCircle -pl
#
# Use the flat -l for a faster rendering at a lower
# quality.
# Use -s to skip to the end and just save the final frame
# Use the -p to have the animation (or image, if -s was
# used) pop up once done.
# Use -n <number> to skip ahead to the n'th animation of a scene.
# Use -r <number> to specify a resolution (for example, -r 1080
# for a 1920x1080 video)
class OpeningManimExample(Scene):
def construct(self):
title = TextMobject("This is some \\LaTeX")
basel = TexMobject(
"\\sum_{n=1}^\\infty "
"\\frac{1}{n^2} = \\frac{\\pi^2}{6}"
)
VGroup(title, basel).arrange(DOWN)
self.play(
Write(title),
FadeInFrom(basel, UP),
)
self.wait()
transform_title = TextMobject("That was a transform")
transform_title.to_corner(UP + LEFT)
self.play(
Transform(title, transform_title),
LaggedStart(*map(FadeOutAndShiftDown, basel)),
)
self.wait()
grid = NumberPlane()
grid_title = TextMobject("This is a grid")
grid_title.scale(1.5)
grid_title.move_to(transform_title)
self.add(grid, grid_title) # Make sure title is on top of grid
self.play(
FadeOut(title),
FadeInFromDown(grid_title),
ShowCreation(grid, run_time=3, lag_ratio=0.1),
)
self.wait()
grid_transform_title = TextMobject(
"That was a non-linear function \\\\"
"applied to the grid"
)
grid_transform_title.move_to(grid_title, UL)
grid.prepare_for_nonlinear_transform()
self.play(
grid.apply_function,
lambda p: p + np.array([
np.sin(p[1]),
np.sin(p[0]),
0,
]),
run_time=3,
)
self.wait()
self.play(
Transform(grid_title, grid_transform_title)
)
self.wait()
class SquareToCircle(Scene):
def construct(self):
circle = Circle()
square = Square()
square.flip(RIGHT)
square.rotate(-3 * TAU / 8)
circle.set_fill(PINK, opacity=0.5)
self.play(ShowCreation(square))
self.play(ReplacementTransform(square, circle))
self.play(FadeOut(circle))
class AnimateWithoutAdding(Scene):
def construct(self):
square = Square().shift(LEFT)
circle = Circle().shift(RIGHT)
self.play(ReplacementTransform(square, circle))
class GroupExample(Scene):
def construct(self):
c1 = Circle().shift(LEFT)
s1 = Square().shift(RIGHT)
g1 = Group(c1, s1)
c2 = Circle().shift(RIGHT + 2 * DOWN)
s2 = Square().shift(LEFT + 2 * DOWN)
r2 = Rectangle(height=4, width=2).shift(2 * LEFT + 2 * DOWN)
g2 = Group(r2, s2, c2)
self.play(FadeIn(g1))
self.play(ReplacementTransform(g1, g2))
self.play(FadeOut(c2))
self.wait()
class WarpSquare(Scene):
def construct(self):
square = Square()
self.add(square)
self.play(ApplyPointwiseFunction(
lambda point: complex_to_R3(np.exp(R3_to_complex(point))),
square
))
self.wait()
class WriteStuff(Scene):
def construct(self):
example_text = TextMobject(
"This is a some text",
tex_to_color_map={"text": YELLOW}
)
example_tex = TexMobject(
"\sum_{k=1}^\infty {1 \over k^2} = {\pi^2 \over 6}",
# "\int_{-\infty}^\infty {e^{x^{-2}}}dx= {\sqrt{\pi}}",
)
group = VGroup(example_text, example_tex)
group.arrange(DOWN)
group.set_width(FRAME_WIDTH - 2 * LARGE_BUFF)
self.play(Write(example_text))
self.play(Write(example_tex))
self.wait()
class UpdatersExample(Scene):
def construct(self):
decimal = DecimalNumber(
0,
show_ellipsis=True,
num_decimal_places=3,
include_sign=True,
)
square = Square().to_edge(UP)
decimal.add_updater(lambda d: d.next_to(square, RIGHT))
decimal.add_updater(lambda d: d.set_value(square.get_center()[1]))
self.add(square, decimal)
self.play(
square.to_edge, DOWN,
rate_func=there_and_back,
run_time=5,
)
self.wait()
# See old_projects folder for many, many more