def get_color_palette(self): palette = VGroup( *(Square(fill_color=color, fill_opacity=1, side_length=1) for color in self.palette_colors)) palette.set_stroke(width=0) palette.arrange(RIGHT, buff=0.5) palette.set_width(FRAME_WIDTH - 0.5) palette.to_edge(DOWN, buff=SMALL_BUFF) palette.fix_in_frame() return palette
def get_secant_slope_group( self, x, graph, dx=None, dx_line_color=None, df_line_color=None, dx_label=None, df_label=None, include_secant_line=True, secant_line_color=None, secant_line_length=10, ): """ This method returns a VGroup of (two lines representing dx and df, the labels for dx and df, and the Secant to the Graph/curve at a particular x value. Parameters ---------- x (Union[float, int]) The x value at which the secant enters, and intersects the graph for the first time. graph (ParametricFunction) The curve/graph for which the secant must be found. dx (Union[float, int]) The change in x after which the secant exits. dx_line_color (str) The line color for the line that indicates the change in x. df_line_color (str) The line color for the line that indicates the change in y. dx_label (str) The label to be provided for the change in x. df_label (str) The label to be provided for the change in y. include_secant_line (bool=True) Whether or not to include the secant line in the graph, or just have the df and dx lines and labels. secant_line_color (str) The color of the secant line. secant_line_length (Union[float,int=10]) How long the secant line should be. Returns: -------- VGroup Resulting group is of the form VGroup( dx_line, df_line, dx_label, (if applicable) df_label, (if applicable) secant_line, (if applicable) ) with attributes of those names. """ kwargs = locals() kwargs.pop("self") group = VGroup() group.kwargs = kwargs dx = dx or float(self.x_max - self.x_min) / 10 dx_line_color = dx_line_color or self.default_input_color df_line_color = df_line_color or graph.get_color() p1 = self.input_to_graph_point(x, graph) p2 = self.input_to_graph_point(x + dx, graph) interim_point = p2[0] * RIGHT + p1[1] * UP group.dx_line = Line(p1, interim_point, color=dx_line_color) group.df_line = Line(interim_point, p2, color=df_line_color) group.add(group.dx_line, group.df_line) labels = VGroup() if dx_label is not None: group.dx_label = TexMobject(dx_label) labels.add(group.dx_label) group.add(group.dx_label) if df_label is not None: group.df_label = TexMobject(df_label) labels.add(group.df_label) group.add(group.df_label) if len(labels) > 0: max_width = 0.8 * group.dx_line.get_width() max_height = 0.8 * group.df_line.get_height() if labels.get_width() > max_width: labels.set_width(max_width) if labels.get_height() > max_height: labels.set_height(max_height) if dx_label is not None: group.dx_label.next_to(group.dx_line, np.sign(dx) * DOWN, buff=group.dx_label.get_height() / 2) group.dx_label.set_color(group.dx_line.get_color()) if df_label is not None: group.df_label.next_to(group.df_line, np.sign(dx) * RIGHT, buff=group.df_label.get_height() / 2) group.df_label.set_color(group.df_line.get_color()) if include_secant_line: secant_line_color = secant_line_color or self.default_derivative_color group.secant_line = Line(p1, p2, color=secant_line_color) group.secant_line.scale_in_place(secant_line_length / group.secant_line.get_length()) group.add(group.secant_line) return group
def get_secant_slope_group( self, x, graph, dx=None, dx_line_color=None, df_line_color=None, dx_label=None, df_label=None, include_secant_line=True, secant_line_color=None, secant_line_length=10, ): """ Resulting group is of the form VGroup( dx_line, df_line, dx_label, (if applicable) df_label, (if applicable) secant_line, (if applicable) ) with attributes of those names. """ kwargs = locals() kwargs.pop("self") group = VGroup() group.kwargs = kwargs dx = dx or float(self.x_max - self.x_min) / 10 dx_line_color = dx_line_color or self.default_input_color df_line_color = df_line_color or graph.get_color() p1 = self.input_to_graph_point(x, graph) p2 = self.input_to_graph_point(x + dx, graph) interim_point = p2[0] * RIGHT + p1[1] * UP group.dx_line = Line(p1, interim_point, color=dx_line_color) group.df_line = Line(interim_point, p2, color=df_line_color) group.add(group.dx_line, group.df_line) labels = VGroup() if dx_label is not None: group.dx_label = TexMobject(dx_label) labels.add(group.dx_label) group.add(group.dx_label) if df_label is not None: group.df_label = TexMobject(df_label) labels.add(group.df_label) group.add(group.df_label) if len(labels) > 0: max_width = 0.8 * group.dx_line.get_width() max_height = 0.8 * group.df_line.get_height() if labels.get_width() > max_width: labels.set_width(max_width) if labels.get_height() > max_height: labels.set_height(max_height) if dx_label is not None: group.dx_label.next_to(group.dx_line, np.sign(dx) * DOWN, buff=group.dx_label.get_height() / 2) group.dx_label.set_color(group.dx_line.get_color()) if df_label is not None: group.df_label.next_to(group.df_line, np.sign(dx) * RIGHT, buff=group.df_label.get_height() / 2) group.df_label.set_color(group.df_line.get_color()) if include_secant_line: secant_line_color = secant_line_color or self.default_derivative_color group.secant_line = Line(p1, p2, color=secant_line_color) group.secant_line.scale_in_place(secant_line_length / group.secant_line.get_length()) group.add(group.secant_line) return group
def scroll_through_patrons(self): logo_box = Square(side_length=2.5) logo_box.to_corner(DOWN + LEFT, buff=MED_LARGE_BUFF) total_width = FRAME_X_RADIUS - logo_box.get_right()[0] black_rect = Rectangle( fill_color=BLACK, fill_opacity=1, stroke_width=3, stroke_color=BLACK, width=FRAME_WIDTH, height=0.6 * FRAME_HEIGHT, ) black_rect.to_edge(UP, buff=0) line = DashedLine(FRAME_X_RADIUS * LEFT, FRAME_X_RADIUS * RIGHT) line.move_to(ORIGIN) thanks = TextMobject(self.thanks_words) thanks.scale(0.9) thanks.next_to(black_rect.get_bottom(), UP, SMALL_BUFF) thanks.set_color(YELLOW) underline = Line(LEFT, RIGHT) underline.match_width(thanks) underline.scale(1.1) underline.next_to(thanks, DOWN, SMALL_BUFF) thanks.add(underline) changed_patron_names = map( self.modify_patron_name, self.specific_patrons, ) patrons = VGroup(*map( TextMobject, changed_patron_names, )) patrons.scale(self.patron_scale_val) for patron in patrons: if patron.get_width() > self.max_patron_width: patron.set_width(self.max_patron_width) columns = VGroup(*[ VGroup(*patrons[i::self.n_patron_columns]) for i in range(self.n_patron_columns) ]) for column in columns: for n, name in enumerate(column): name.shift(n * self.name_y_spacing * DOWN) columns.arrange( RIGHT, buff=LARGE_BUFF, aligned_edge=UP, ) max_width = FRAME_WIDTH - 1 if columns.get_width() > max_width: columns.set_width(max_width) underline.match_width(columns) # thanks.to_edge(RIGHT, buff=MED_SMALL_BUFF) columns.next_to(underline, DOWN, buff=2) columns.generate_target() columns.target.to_edge(DOWN, buff=2) vect = columns.target.get_center() - columns.get_center() distance = get_norm(vect) wait_time = 20 always_shift( columns, direction=normalize(vect), rate=(distance / wait_time) ) self.add(columns, black_rect, line, thanks) self.wait(wait_time)
def construct(self): # Add title title = self.title = TextMobject("Clicky Stuffs") title.scale(1.5) title.to_edge(UP, buff=MED_SMALL_BUFF) pi_creatures = VGroup(Randolph(), Mortimer()) for pi, vect in zip(pi_creatures, [LEFT, RIGHT]): pi.set_height(title.get_height()) pi.change_mode("thinking") pi.look(DOWN) pi.next_to(title, vect, buff=MED_LARGE_BUFF) self.add(title, pi_creatures) # Set the top of the screen logo_box = Square(side_length=2.5) logo_box.to_corner(DOWN + LEFT, buff=MED_LARGE_BUFF) black_rect = Rectangle( fill_color=BLACK, fill_opacity=1, stroke_width=3, stroke_color=BLACK, width=FRAME_WIDTH, height=0.6 * FRAME_HEIGHT, ) black_rect.to_edge(UP, buff=0) line = DashedLine(FRAME_X_RADIUS * LEFT, FRAME_X_RADIUS * RIGHT) line.move_to(ORIGIN) # Add thanks thanks = TextMobject(self.thanks_words) thanks.scale(0.9) thanks.next_to(black_rect.get_bottom(), UP, SMALL_BUFF) thanks.set_color(YELLOW) underline = Line(LEFT, RIGHT) underline.match_width(thanks) underline.scale(1.1) underline.next_to(thanks, DOWN, SMALL_BUFF) thanks.add(underline) # Build name list file_name = os.path.join(get_directories()["data"], "patrons.txt") with open(file_name, "r") as fp: names = [ self.modify_patron_name(name.strip()) for name in fp.readlines() ] if self.randomize_order: random.shuffle(names) else: names.sort() name_labels = VGroup(*map(TextMobject, names)) name_labels.scale(self.patron_scale_val) for label in name_labels: if label.get_width() > self.max_patron_width: label.set_width(self.max_patron_width) columns = VGroup(*[ VGroup(*name_labels[i::self.n_patron_columns]) for i in range(self.n_patron_columns) ]) column_x_spacing = 0.5 + max([c.get_width() for c in columns]) for i, column in enumerate(columns): for n, name in enumerate(column): name.shift(n * self.name_y_spacing * DOWN) name.align_to(ORIGIN, LEFT) column.move_to(i * column_x_spacing * RIGHT, UL) columns.center() max_width = FRAME_WIDTH - 1 if columns.get_width() > max_width: columns.set_width(max_width) underline.match_width(columns) columns.next_to(underline, DOWN, buff=3) # Set movement columns.generate_target() distance = columns.get_height() + 2 wait_time = self.scroll_time frame = self.camera.frame frame_shift = ApplyMethod( frame.shift, distance * DOWN, run_time=wait_time, rate_func=linear, ) blink_anims = [] blank_mob = Mobject() for x in range(wait_time): if random.random() < 0.25: blink_anims.append(Blink(random.choice(pi_creatures))) else: blink_anims.append(Animation(blank_mob)) blinks = Succession(*blink_anims) static_group = VGroup(black_rect, line, thanks, pi_creatures, title) static_group.fix_in_frame() self.add(columns, static_group) self.play(frame_shift, blinks)
def organize_matrices(self, left, right, result): equals = Tex("=") everything = VGroup(left, right, equals, result) everything.arrange() everything.set_width(FRAME_WIDTH - 1) self.add(everything)
def get_secant_slope_group( self, x, graph, dx=None, dx_line_color=None, df_line_color=None, dx_label=None, df_label=None, include_secant_line=True, secant_line_color=None, secant_line_length=10, ): """ Resulting group is of the form VGroup( dx_line, df_line, dx_label, (if applicable) df_label, (if applicable) secant_line, (if applicable) ) with attributes of those names. """ kwargs = locals() kwargs.pop("self") group = VGroup() group.kwargs = kwargs dx = dx or float(self.x_max - self.x_min) / 10 dx_line_color = dx_line_color or self.default_input_color df_line_color = df_line_color or graph.get_color() p1 = self.input_to_graph_point(x, graph) p2 = self.input_to_graph_point(x + dx, graph) interim_point = p2[0] * RIGHT + p1[1] * UP group.dx_line = Line( p1, interim_point, color=dx_line_color ) group.df_line = Line( interim_point, p2, color=df_line_color ) group.add(group.dx_line, group.df_line) labels = VGroup() if dx_label is not None: group.dx_label = TexMobject(dx_label) labels.add(group.dx_label) group.add(group.dx_label) if df_label is not None: group.df_label = TexMobject(df_label) labels.add(group.df_label) group.add(group.df_label) if len(labels) > 0: max_width = 0.8 * group.dx_line.get_width() max_height = 0.8 * group.df_line.get_height() if labels.get_width() > max_width: labels.set_width(max_width) if labels.get_height() > max_height: labels.set_height(max_height) if dx_label is not None: group.dx_label.next_to( group.dx_line, np.sign(dx) * DOWN, buff=group.dx_label.get_height() / 2 ) group.dx_label.set_color(group.dx_line.get_color()) if df_label is not None: group.df_label.next_to( group.df_line, np.sign(dx) * RIGHT, buff=group.df_label.get_height() / 2 ) group.df_label.set_color(group.df_line.get_color()) if include_secant_line: secant_line_color = secant_line_color or self.default_derivative_color group.secant_line = Line(p1, p2, color=secant_line_color) group.secant_line.scale_in_place( secant_line_length / group.secant_line.get_length() ) group.add(group.secant_line) return group
def organize_matrices(self, left, right, result): equals = TexMobject("=") everything = VGroup(left, right, equals, result) everything.arrange() everything.set_width(FRAME_WIDTH - 1) self.add(everything)
def scroll_through_patrons(self): logo_box = Square(side_length=2.5) logo_box.to_corner(DOWN + LEFT, buff=MED_LARGE_BUFF) total_width = FRAME_X_RADIUS - logo_box.get_right()[0] black_rect = Rectangle( fill_color=BLACK, fill_opacity=1, stroke_width=3, stroke_color=BLACK, width=FRAME_WIDTH, height=0.6 * FRAME_HEIGHT, ) black_rect.to_edge(UP, buff=0) line = DashedLine(FRAME_X_RADIUS * LEFT, FRAME_X_RADIUS * RIGHT) line.move_to(ORIGIN) thanks = TextMobject(self.thanks_words) thanks.scale(0.9) thanks.next_to(black_rect.get_bottom(), UP, SMALL_BUFF) thanks.set_color(YELLOW) underline = Line(LEFT, RIGHT) underline.match_width(thanks) underline.scale(1.1) underline.next_to(thanks, DOWN, SMALL_BUFF) thanks.add(underline) changed_patron_names = map( self.modify_patron_name, self.specific_patrons, ) patrons = VGroup(*map( TextMobject, changed_patron_names, )) patrons.scale(self.patron_scale_val) for patron in patrons: if patron.get_width() > self.max_patron_width: patron.set_width(self.max_patron_width) columns = VGroup(*[ VGroup(*patrons[i::self.n_patron_columns]) for i in range(self.n_patron_columns) ]) for column in columns: for n, name in enumerate(column): name.shift(n * self.name_y_spacing * DOWN) columns.arrange( RIGHT, buff=LARGE_BUFF, aligned_edge=UP, ) if columns.get_width() > self.max_patron_width: columns.set_width(total_width - 1) thanks.to_edge(RIGHT, buff=MED_SMALL_BUFF) columns.next_to(underline, DOWN, buff=2) columns.generate_target() columns.target.to_edge(DOWN, buff=2) vect = columns.target.get_center() - columns.get_center() distance = get_norm(vect) wait_time = 20 always_shift( columns, direction=normalize(vect), rate=(distance / wait_time) ) self.add(columns, black_rect, line, thanks) self.wait(wait_time)