11. 鼠标选取操作-选取红色小球
作者:互联网
import numpy as np
from mayavi import mlab
'''场景初始化'''
figure = mlab.gcf()
# 所有物体建立完再绘制,提升速度
figure.scene.disable_render = True
# 用mlab.points3d建立红色和白色小球的集合
x1, y1, z1 = np.random.random((3, 10))
red_glyphs = mlab.points3d(x1, y1, z1, color=(1, 0, 0),
resolution=10)
x2, y2, z2 = np.random.random((3, 10))
white_glyphs = mlab.points3d(x2, y2, z2, color=(0.9, 0.9, 0.9),
resolution=10)
# 所有物体建立完再绘制
figure.scene.disable_render = False
# 绘制选取框,并放在第一个小球上
outline = mlab.outline(line_width=3)
outline.outline_mode = 'cornered'
outline.bounds = (x1[0] - 0.1, x1[0] + 0.1,
y1[0] - 0.1, y1[0] + 0.1,
z1[0] - 0.1, z1[0] + 0.1)
'''处理选取事件'''
# 获取构成一个红色小球的顶点列表
glyph_points = red_glyphs.glyph.glyph_source.glyph_source.output.points.to_array()
# 当选取事件发生时调用此函数
def picker_callback(picker):
if picker.actor in red_glyphs.actor.actors:
# 计算哪个小球被选取
point_id = int(picker.point_id / glyph_points.shape[0]) # int向下取整
if point_id != -1: # 如果没有小球被选取,则point_id = -1
# 找到与此红色小球相关的坐标
x, y, z = x1[point_id], y1[point_id], z1[point_id]
# 将外框移到小球上
outline.bounds = (x - 0.1, x + 0.1,
y - 0.1, y + 0.1,
z - 0.1, z + 0.1)
'''建立响应机制'''
picker = figure.on_mouse_pick(picker_callback)
# 设置tolerance参数,提高选取精度
picker.tolerance = 0.01
mlab.title('Click on red balls')
mlab.show()
标签:11,picker,鼠标,mlab,point,0.1,小球,选取,id 来源: https://blog.csdn.net/Exupery_/article/details/77096429