Python Mortimer примеры использования

Пример #1

    def create_pi_creatures(self):
        self.teacher = Mortimer(color=self.teacher_color)
        self.teacher.to_corner(DOWN + RIGHT)
        self.teacher.look(DOWN + LEFT)
        self.students = VGroup(
            *[Randolph(color=c) for c in self.student_colors])
        self.students.arrange(RIGHT)
        self.students.scale(self.student_scale_factor)
        self.students.to_corner(DOWN + LEFT)
        self.teacher.look_at(self.students[-1].eyes)
        for student in self.students:
            student.look_at(self.teacher.eyes)

        return [self.teacher] + list(self.students)

Пример #2

 def get_pis(self):
     return VGroup(Randolph(color=BLUE_E, mode="pondering"),
                   Randolph(color=BLUE_D, mode="hooray"),
                   Randolph(color=BLUE_C, mode="sassy"),
                   Mortimer(color=GREY_BROWN, mode="thinking"))

Пример #3

class TeacherStudentsScene(PiCreatureScene):
    CONFIG = {
        "student_colors": [BLUE_D, BLUE_E, BLUE_C],
        "teacher_color": GREY_BROWN,
        "background_color": GREY_E,
        "student_scale_factor": 0.8,
        "seconds_to_blink": 2,
        "screen_height": 3,
    }

    def setup(self):
        self.background = FullScreenFadeRectangle(
            fill_color=self.background_color,
            fill_opacity=1,
        )
        self.add(self.background)
        PiCreatureScene.setup(self)
        self.screen = ScreenRectangle(height=self.screen_height)
        self.screen.to_corner(UP + LEFT)
        self.hold_up_spot = self.teacher.get_corner(UP +
                                                    LEFT) + MED_LARGE_BUFF * UP

    def create_pi_creatures(self):
        self.teacher = Mortimer(color=self.teacher_color)
        self.teacher.to_corner(DOWN + RIGHT)
        self.teacher.look(DOWN + LEFT)
        self.students = VGroup(
            *[Randolph(color=c) for c in self.student_colors])
        self.students.arrange(RIGHT)
        self.students.scale(self.student_scale_factor)
        self.students.to_corner(DOWN + LEFT)
        self.teacher.look_at(self.students[-1].eyes)
        for student in self.students:
            student.look_at(self.teacher.eyes)

        return [self.teacher] + list(self.students)

    def get_teacher(self):
        return self.teacher

    def get_students(self):
        return self.students

    def teacher_says(self, *content, **kwargs):
        return self.pi_creature_says(self.get_teacher(), *content, **kwargs)

    def student_says(self, *content, **kwargs):
        if "target_mode" not in kwargs:
            target_mode = random.choice([
                "raise_right_hand",
                "raise_left_hand",
            ])
            kwargs["target_mode"] = target_mode
        if "bubble_kwargs" not in kwargs:
            kwargs["bubble_kwargs"] = {"direction": LEFT}
        student = self.get_students()[kwargs.get("student_index", 2)]
        return self.pi_creature_says(student, *content, **kwargs)

    def teacher_thinks(self, *content, **kwargs):
        return self.pi_creature_thinks(self.get_teacher(), *content, **kwargs)

    def student_thinks(self, *content, **kwargs):
        student = self.get_students()[kwargs.get("student_index", 2)]
        return self.pi_creature_thinks(student, *content, **kwargs)

    def change_all_student_modes(self, mode, **kwargs):
        self.change_student_modes(*[mode] * len(self.students), **kwargs)

    def change_student_modes(self, *modes, **kwargs):
        added_anims = kwargs.pop("added_anims", [])
        self.play(self.get_student_changes(*modes, **kwargs), *added_anims)

    def get_student_changes(self, *modes, **kwargs):
        pairs = list(zip(self.get_students(), modes))
        pairs = [(s, m) for s, m in pairs if m is not None]
        start = VGroup(*[s for s, m in pairs])
        target = VGroup(*[s.copy().change_mode(m) for s, m in pairs])
        if "look_at_arg" in kwargs:
            for pi in target:
                pi.look_at(kwargs["look_at_arg"])
        anims = [Transform(s, t) for s, t in zip(start, target)]
        return LaggedStart(
            *anims,
            lag_ratio=kwargs.get("lag_ratio", 0.5),
            run_time=1,
        )
        # return Transform(
        #     start, target,
        #     lag_ratio=lag_ratio,
        #     run_time=2
        # )

    def zoom_in_on_thought_bubble(self,
                                  bubble=None,
                                  radius=FRAME_Y_RADIUS + FRAME_X_RADIUS):
        if bubble is None:
            for pi in self.get_pi_creatures():
                if hasattr(pi, "bubble") and isinstance(
                        pi.bubble, ThoughtBubble):
                    bubble = pi.bubble
                    break
            if bubble is None:
                raise Exception("No pi creatures have a thought bubble")
        vect = -bubble.get_bubble_center()

        def func(point):
            centered = point + vect
            return radius * centered / get_norm(centered)

        self.play(
            *
            [ApplyPointwiseFunction(func, mob) for mob in self.get_mobjects()])

    def teacher_holds_up(self,
                         mobject,
                         target_mode="raise_right_hand",
                         added_anims=None,
                         **kwargs):
        mobject.move_to(self.hold_up_spot, DOWN)
        mobject.shift_onto_screen()
        added_anims = added_anims or []
        self.play(FadeIn(mobject, shift=UP), self.teacher.change, target_mode,
                  *added_anims)

Пример #4

Файл: end_screen.py Проект: uedzen/videos

    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)