Python TexMobject.next_to Exemples

Exemple #1

    def get_vector_label(self,
                         vector,
                         label,
                         at_tip=False,
                         direction="left",
                         rotate=False,
                         color=None,
                         label_scale_factor=VECTOR_LABEL_SCALE_FACTOR):
        if not isinstance(label, TexMobject):
            if len(label) == 1:
                label = "\\vec{\\textbf{%s}}" % label
            label = TexMobject(label)
            if color is None:
                color = vector.get_color()
            label.set_color(color)
        label.scale(label_scale_factor)
        label.add_background_rectangle()

        if at_tip:
            vect = vector.get_vector()
            vect /= get_norm(vect)
            label.next_to(vector.get_end(), vect, buff=SMALL_BUFF)
        else:
            angle = vector.get_angle()
            if not rotate:
                label.rotate(-angle, about_point=ORIGIN)
            if direction is "left":
                label.shift(-label.get_bottom() + 0.1 * UP)
            else:
                label.shift(-label.get_top() + 0.1 * DOWN)
            label.rotate(angle, about_point=ORIGIN)
            label.shift((vector.get_end() - vector.get_start()) / 2)
        return label

Exemple #2

    def get_subdivision_braces_and_labels(self,
                                          parts,
                                          labels,
                                          direction,
                                          buff=SMALL_BUFF,
                                          min_num_quads=1):
        label_mobs = VGroup()
        braces = VGroup()
        for label, part in zip(labels, parts):
            brace = Brace(part,
                          direction,
                          min_num_quads=min_num_quads,
                          buff=buff)
            if isinstance(label, Mobject):
                label_mob = label
            else:
                label_mob = TexMobject(label)
                label_mob.scale(self.default_label_scale_val)
            label_mob.next_to(brace, direction, buff)

            braces.add(brace)
            label_mobs.add(label_mob)
        parts.braces = braces
        parts.labels = label_mobs
        parts.label_kwargs = {
            "labels": label_mobs.copy(),
            "direction": direction,
            "buff": buff,
        }
        return VGroup(parts.braces, parts.labels)

Exemple #3

    def add_axes(self):
        x_axis = Line(self.tick_width * LEFT / 2, self.width * RIGHT)
        y_axis = Line(MED_LARGE_BUFF * DOWN, self.height * UP)
        ticks = VGroup()
        heights = np.linspace(0, self.height, self.n_ticks + 1)
        values = np.linspace(0, self.max_value, self.n_ticks + 1)
        for y, value in zip(heights, values):
            tick = Line(LEFT, RIGHT)
            tick.set_width(self.tick_width)
            tick.move_to(y * UP)
            ticks.add(tick)
        y_axis.add(ticks)

        self.add(x_axis, y_axis)
        self.x_axis, self.y_axis = x_axis, y_axis

        if self.label_y_axis:
            labels = VGroup()
            for tick, value in zip(ticks, values):
                label = TexMobject(str(np.round(value, 2)))
                label.set_height(self.y_axis_label_height)
                label.next_to(tick, LEFT, SMALL_BUFF)
                labels.add(label)
            self.y_axis_labels = labels
            self.add(labels)

Exemple #4

    def add_T_label(self,
                    x_val,
                    side=RIGHT,
                    label=None,
                    color=WHITE,
                    animated=False,
                    **kwargs):
        triangle = RegularPolygon(n=3, start_angle=np.pi / 2)
        triangle.set_height(MED_SMALL_BUFF)
        triangle.move_to(self.coords_to_point(x_val, 0), UP)
        triangle.set_fill(color, 1)
        triangle.set_stroke(width=0)
        if label == None:
            T_label = TexMobject(self.variable_point_label, fill_color=color)
        else:
            T_label = TexMobject(label, fill_color=color)

        T_label.next_to(triangle, DOWN)
        v_line = self.get_vertical_line_to_graph(x_val,
                                                 self.v_graph,
                                                 color=YELLOW)

        if animated:
            self.play(DrawBorderThenFill(triangle), ShowCreation(v_line),
                      Write(T_label, run_time=1), **kwargs)

        if np.all(side == LEFT):
            self.left_T_label_group = VGroup(T_label, triangle)
            self.left_v_line = v_line
            self.add(self.left_T_label_group, self.left_v_line)
        elif np.all(side == RIGHT):
            self.right_T_label_group = VGroup(T_label, triangle)
            self.right_v_line = v_line
            self.add(self.right_T_label_group, self.right_v_line)

Exemple #5

    def get_coordinate_labels(self, *numbers):
        # TODO: Should merge this with the code from NumberPlane.get_coordinate_labels

        result = VGroup()
        if len(numbers) == 0:
            numbers = list(range(-int(self.x_radius), int(self.x_radius) + 1))
            numbers += [
                complex(0, y) for y in range(-int(self.y_radius),
                                             int(self.y_radius) + 1)
            ]
        for number in numbers:
            if number == complex(0, 0):
                continue
            point = self.number_to_point(number)
            num_str = str(number).replace("j", "i")
            if num_str.startswith("0"):
                num_str = "0"
            elif num_str in ["1i", "-1i"]:
                num_str = num_str.replace("1", "")
            num_mob = TexMobject(num_str)
            num_mob.add_background_rectangle()
            num_mob.set_height(self.written_coordinate_height)
            num_mob.next_to(point, DOWN + LEFT, SMALL_BUFF)
            result.add(num_mob)
        self.coordinate_labels = result
        return result

Exemple #6

 def get_number_mob(self, num):
     result = VGroup()
     place = 0
     max_place = self.max_place
     while place < max_place:
         digit = TexMobject(str(self.get_place_num(num, place)))
         if place >= len(self.digit_place_colors):
             self.digit_place_colors += self.digit_place_colors
         digit.set_color(self.digit_place_colors[place])
         digit.scale(self.num_scale_factor)
         digit.next_to(result, LEFT, buff=SMALL_BUFF, aligned_edge=DOWN)
         result.add(digit)
         place += 1
     return result

Exemple #7

 def get_axis_labels(self, x_label="x", y_label="y"):
     x_axis, y_axis = self.get_axes().split()
     quads = [
         (x_axis, x_label, UP, RIGHT),
         (y_axis, y_label, RIGHT, UP),
     ]
     labels = VGroup()
     for axis, tex, vect, edge in quads:
         label = TexMobject(tex)
         label.add_background_rectangle()
         label.next_to(axis, vect)
         label.to_edge(edge)
         labels.add(label)
     self.axis_labels = labels
     return labels

Exemple #8

 def get_coordinate_labels(self, x_vals=None, y_vals=None):
     coordinate_labels = VGroup()
     if x_vals is None:
         x_vals = list(range(-int(self.x_radius), int(self.x_radius) + 1))
     if y_vals is None:
         y_vals = list(range(-int(self.y_radius), int(self.y_radius) + 1))
     for index, vals in enumerate([x_vals, y_vals]):
         num_pair = [0, 0]
         for val in vals:
             if val == 0:
                 continue
             num_pair[index] = val
             point = self.coords_to_point(*num_pair)
             num = TexMobject(str(val))
             num.add_background_rectangle()
             num.set_height(self.written_coordinate_height)
             num.next_to(point, DOWN + LEFT, buff=SMALL_BUFF)
             coordinate_labels.add(num)
     self.coordinate_labels = coordinate_labels
     return coordinate_labels

Exemple #9

def get_det_text(matrix,
                 determinant=None,
                 background_rect=True,
                 initial_scale_factor=2):
    parens = TexMobject(["(", ")"])
    parens.scale(initial_scale_factor)
    parens.stretch_to_fit_height(matrix.get_height())
    l_paren, r_paren = parens.split()
    l_paren.next_to(matrix, LEFT, buff=0.1)
    r_paren.next_to(matrix, RIGHT, buff=0.1)
    det = TextMobject("det")
    det.scale(initial_scale_factor)
    det.next_to(l_paren, LEFT, buff=0.1)
    if background_rect:
        det.add_background_rectangle()
    det_text = VMobject(det, l_paren, r_paren)
    if determinant is not None:
        eq = TexMobject("=")
        eq.next_to(r_paren, RIGHT, buff=0.1)
        result = TexMobject(str(determinant))
        result.next_to(eq, RIGHT, buff=0.2)
        det_text.add(eq, result)
    return det_text

Exemple #10

    def add_bars(self, values):
        buff = float(self.width) / (2 * len(values) + 1)
        bars = VGroup()
        for i, value in enumerate(values):
            bar = Rectangle(
                height=(value / self.max_value) * self.height,
                width=buff,
                stroke_width=self.bar_stroke_width,
                fill_opacity=self.bar_fill_opacity,
            )
            bar.move_to((2 * i + 1) * buff * RIGHT, DOWN + LEFT)
            bars.add(bar)
        bars.set_color_by_gradient(*self.bar_colors)

        bar_labels = VGroup()
        for bar, name in zip(bars, self.bar_names):
            label = TexMobject(str(name))
            label.scale(self.bar_label_scale_val)
            label.next_to(bar, DOWN, SMALL_BUFF)
            bar_labels.add(label)

        self.add(bars, bar_labels)
        self.bars = bars
        self.bar_labels = bar_labels

Exemple #11

 def get_graph_label(
     self,
     graph,
     label="f(x)",
     x_val=None,
     direction=RIGHT,
     buff=MED_SMALL_BUFF,
     color=None,
 ):
     label = TexMobject(label)
     color = color or graph.get_color()
     label.set_color(color)
     if x_val is None:
         # Search from right to left
         for x in np.linspace(self.x_max, self.x_min, 100):
             point = self.input_to_graph_point(x, graph)
             if point[1] < FRAME_Y_RADIUS:
                 break
         x_val = x
     label.next_to(self.input_to_graph_point(x_val, graph),
                   direction,
                   buff=buff)
     label.shift_onto_screen()
     return label