Ejemplos de Vertex.tree_num en Python

Lenguaje de programación: Python

Namespace/Package Name: classes

Clase / Tipo: Vertex

Método / Función: tree_num

Ejemplos en hotexamples.com: 2

Python Vertex.tree_num - 2 ejemplos encontrados. Estos son los ejemplos en Python del mundo real mejor valorados de classes.Vertex.tree_num extraídos de proyectos de código abierto. Puedes valorar ejemplos para ayudarnos a mejorar la calidad de los ejemplos.

Métodos usados con frecuencia

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Vertex(21)

tree_num(2)

at_goal_set(1)

print_out(1)

Ejemplo n.º 1

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def steer4(vertex_nearest, vertex_rand, goal_set, tree_num):    # steer nearest vertex towards random Vertex, within radius
    if norm(vertex_nearest, vertex_rand) < Dimensions.tree_radius:  # if already within radius
        vertex_new = vertex_rand                                    # then no calculation needed
    else:
        ratio1 = (vertex_rand.x - vertex_nearest.x) / (vertex_rand.y - vertex_nearest.y)          # calculate 4-Dimensional "slopes"
        ratio2 = (vertex_rand.x - vertex_nearest.x) / (vertex_rand.x_vel - vertex_nearest.x_vel)
        ratio3 = (vertex_rand.x - vertex_nearest.x) / (vertex_rand.y_vel - vertex_nearest.y_vel)
        new_delta_x = sqrt((Dimensions.tree_radius ** 2) / (1 + (1 / (ratio1 ** 2)) + (1 / (ratio2 ** 2)) + (1 / (ratio3 ** 2))))   # use Euclidean norm to solve
        if vertex_rand.x < vertex_nearest.x:
            new_delta_x = -new_delta_x
        y_new = vertex_nearest.y + (new_delta_x / ratio1)
        x_v_new = vertex_nearest.x_vel + (new_delta_x / ratio2)
        y_v_new = vertex_nearest.y_vel + (new_delta_x / ratio3)
        vertex_new = Vertex(vertex_nearest.x + new_delta_x, y_new, x_v_new, y_v_new)   # initialize vertex
    if tree_num == 1:
        vertex_new_ = trace_inclusivity(vertex_nearest, vertex_new, goal_set)          # if hits goal, adjust vertex to intersection pt
    vertex_new.tree_num = tree_num
    return vertex_new

Ejemplo n.º 2

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Archivo: iNash_Trajectory6.py Proyecto: yinhaolin-bot/Robotics

def main():
    pywindow, obstacles, axis, buttons = init_pywindow(
        'i-Nash Trajectory')  # set up pygame window, dimensions and obstacles
    start, goal_set, num_robots, robo_colors, sign, goal = user_prompt(
        pywindow)  # prompt for num bots, start, end positions
    num_tests = input('how many tests to run? ')
    success_total = 0
    while success_total < num_tests:
        print 'running test number:', success_total + 1
        for i in range(len(start)):
            print 'start:', start[i].x, start[i].y, 'goal', goal[i].x, goal[
                i].y
        nash_success = run_test(pywindow, obstacles, axis, buttons, start,
                                goal_set, num_robots, robo_colors, sign, goal,
                                success_total)
        if nash_success:
            success_total = success_total + 1
        for i in range(len(goal)):
            goal[i] = Vertex(goal[i].x, goal[i].y, 0, 0)
            goal[i].tree_num = 2
            start[i] = Vertex(start[i].x, goal[i].y, 0, 0)
    print 'Done the whole thing, wow, excellent, nice! Super cool!'
    return