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184 lines
6.1 KiB
Python
184 lines
6.1 KiB
Python
import numpy as np
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import itertools as it
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from mobject import Mobject, Mobject1D, Mobject2D, CompoundMobject
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from image_mobject import tex_mobject
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from constants import *
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from helpers import *
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class FunctionGraph(Mobject1D):
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DEFAULT_CONFIG = {
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"color" : "lightblue",
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"x_min" : -10,
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"x_max" : 10,
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"spacial_radius" : SPACE_WIDTH,
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}
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def __init__(self, function, **kwargs):
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digest_config(self, FunctionGraph, kwargs, locals())
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Mobject1D.__init__(self, **kwargs)
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def generate_points(self):
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numerical_radius = (self.x_max - self.x_min)/2
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numerical_center = (self.x_max + self.x_min)/2
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ratio = numerical_radius / self.spacial_radius
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epsilon = self.epsilon * ratio
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self.add_points([
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np.array([(x-numerical_center)/ratio, self.function(x), 0])
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for x in np.arange(self.x_min, self.x_max, self.epsilon)
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])
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class ParametricFunction(Mobject):
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DEFAULT_CONFIG = {
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"color" : "white",
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"dim" : 1,
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"expected_measure" : 10.0,
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"density" : None
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}
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def __init__(self, function, **kwargs):
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digest_config(self, ParametricFunction, kwargs, locals())
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if self.density:
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self.epsilon = 1.0 / self.density
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elif self.dim == 1:
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self.epsilon = 1.0 / self.expected_measure / DEFAULT_POINT_DENSITY_1D
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else:
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self.epsilon = 1.0 / np.sqrt(self.expected_measure) / DEFAULT_POINT_DENSITY_2D
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Mobject.__init__(self, *args, **kwargs)
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def generate_points(self):
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if self.dim == 1:
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self.add_points([
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self.function(t)
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for t in np.arange(-1, 1, self.epsilon)
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])
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if self.dim == 2:
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self.add_points([
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self.function(s, t)
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for t in np.arange(-1, 1, self.epsilon)
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for s in np.arange(-1, 1, self.epsilon)
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])
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class Grid(Mobject1D):
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DEFAULT_CONFIG = {
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"color" : "green",
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"radius" : max(SPACE_HEIGHT, SPACE_WIDTH),
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"interval_size" : 1.0,
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"subinterval_size" : 0.5,
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}
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def __init__(self, **kwargs):
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digest_config(self, Grid, kwargs)
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Mobject1D.__init__(self, **kwargs)
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def generate_points(self):
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self.add_points([
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(sgns[0] * x, sgns[1] * y, 0)
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for beta in np.arange(0, self.radius, self.interval_size)
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for alpha in np.arange(0, self.radius, self.epsilon)
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for sgns in it.product((-1, 1), (-1, 1))
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for x, y in [(alpha, beta), (beta, alpha)]
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])
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if self.subinterval_size:
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si = self.subinterval_size
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color = Color(self.color)
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color.set_rgb([x/2 for x in color.get_rgb()])
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self.add_points([
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(sgns[0] * x, sgns[1] * y, 0)
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for beta in np.arange(0, self.radius, si)
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if abs(beta % self.interval_size) > self.epsilon
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for alpha in np.arange(0, self.radius, self.epsilon)
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for sgns in it.product((-1, 1), (-1, 1))
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for x, y in [(alpha, beta), (beta, alpha)]
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], color = color)
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class NumberLine(Mobject1D):
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DEFAULT_CONFIG = {
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"radius" : SPACE_WIDTH,
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"unit_length_to_spacial_width" : 1,
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"tick_size" : 0.1,
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"tick_frequency" : 0.5,
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"number_at_center" : 0,
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"numbers_with_elongated_ticks" : [0],
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"longer_tick_multiple" : 2,
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}
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def __init__(self, **kwargs):
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digest_config(self, NumberLine, kwargs)
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numerical_radius = float(self.radius) / self.unit_length_to_spacial_width
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self.left_num = self.number_at_center - numerical_radius
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self.right_num = self.number_at_center + numerical_radius
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Mobject1D.__init__(self, **kwargs)
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def generate_points(self):
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self.add_points([
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(b*x, 0, 0)
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for x in np.arange(0, self.radius, self.epsilon)
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for b in [-1, 1]
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])
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self.index_of_left = np.argmin(self.points[:,0])
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self.index_of_right = np.argmax(self.points[:,0])
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spacial_tick_frequency = self.tick_frequency*self.unit_length_to_spacial_width
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self.add_points([
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(b*x, y, 0)
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for x in np.arange(0, self.radius, spacial_tick_frequency)
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for y in np.arange(-self.tick_size, self.tick_size, self.epsilon)
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for b in ([1, -1] if x > 0 else [1])
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])
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for number in self.numbers_with_elongated_ticks:
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self.elongate_tick_at(number, self.longer_tick_multiple)
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def elongate_tick_at(self, number, multiple = 2):
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x = self.number_to_point(number)[0]
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self.add_points([
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[x, y, 0]
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for y in np.arange(
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-multiple*self.tick_size,
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multiple*self.tick_size,
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self.epsilon
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)
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])
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return self
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def number_to_point(self, number):
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return interpolate(
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self.points[self.index_of_left],
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self.points[self.index_of_right],
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float(number-self.left_num)/(self.right_num - self.left_num)
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)
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def add_numbers(self, *numbers):
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if len(numbers) == 0:
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numbers = range(int(self.left_num), int(self.right_num+1))
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for number in numbers:
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mob = tex_mobject(str(number)).scale(0.5)
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mob.shift(self.number_to_point(number))
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mob.shift(DOWN*4*self.tick_size)
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self.add(mob)
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return self
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class UnitInterval(NumberLine):
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DEFAULT_CONFIG = {
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"radius" : SPACE_WIDTH-1,
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"unit_length_to_spacial_width" : 2*(SPACE_WIDTH-1),
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"tick_frequency" : 0.1,
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"number_at_center" : 0.5,
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"numbers_with_elongated_ticks" : [0, 1],
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}
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def __init__(self, **kwargs):
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digest_config(self, UnitInterval, kwargs)
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NumberLine.__init__(self, **kwargs)
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class Axes(CompoundMobject):
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def __init__(self, **kwargs):
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x_axis = NumberLine(**kwargs)
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y_axis = NumberLine(**kwargs).rotate(np.pi/2, OUT)
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CompoundMobject.__init__(self, x_axis, y_axis)
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