99 lines
3.1 KiB
Python
99 lines
3.1 KiB
Python
# trajectory.py
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import numpy as np
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def circle_trajectory(center=(80, 0), radius=40, num_points=60):
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""" 圆形轨迹 """
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angles = np.linspace(0, 2 * np.pi, num_points)
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x_list = center[0] + radius * np.cos(angles)
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y_list = center[1] + radius * np.sin(angles)
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return x_list, y_list
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def line_trajectory(start=(40, 0), end=(120, 0), num_points=20):
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""" 直线轨迹 """
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t = np.linspace(0, 1, num_points)
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x_list = start[0] + t * (end[0] - start[0])
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y_list = start[1] + t * (end[1] - start[1])
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return x_list, y_list
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def line_trajectory_fix(start=(40, 0), end=(120, 100), vx=0.1, vy=0.1, num_points=20):
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"""
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生成带速度分量的匀速斜线轨迹
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参数:
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start: 起始点 (x, y)
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end: 终点 (x, y) —— 仅用于估算运行时间(可选)
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vx: x方向速度(单位/秒)
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vy: y方向速度(单位/秒)
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num_points: 生成的轨迹点数
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返回:
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x_list, y_list: 轨迹坐标数组
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"""
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# 速度大小
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speed = np.sqrt(vx**2 + vy**2)
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if speed == 0:
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raise ValueError("速度不能为零")
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# 估算从 start 到 end 的距离(用于估算总时间)
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if end is not None:
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dx = end[0] - start[0]
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dy = end[1] - start[1]
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distance = np.sqrt(dx**2 + dy**2)
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total_time = distance / speed # 理论到达时间
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print(total_time)
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else:
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total_time = 10.0 # 默认运行10秒
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# 时间序列:从 0 到 total_time,均匀分布 num_points 个点
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t = np.linspace(0, total_time, num_points)
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# 位置 = 起点 + 速度 × 时间
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x_list = start[0] + vx * t
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y_list = start[1] + vy * t
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return x_list, y_list
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def ellipse_trajectory(center=(80, 0), rx=50, ry=25, num_points=60):
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""" 椭圆轨迹 """
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angles = np.linspace(0, 2 * np.pi, num_points)
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x_list = center[0] + rx * np.cos(angles)
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y_list = center[1] + ry * np.sin(angles)
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return x_list, y_list
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def square_trajectory(side=60, num_points=60):
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""" 正方形轨迹 """
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x_list, y_list = [], []
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for i in range(num_points):
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t = i / num_points
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if t < 0.25:
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x = 80 + 60 * t * 4
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y = 0
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elif t < 0.5:
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x = 140
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y = 0 + 60 * (t - 0.25) * 4
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elif t < 0.75:
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x = 140 - 60 * (t - 0.5) * 4
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y = 60
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else:
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x = 80
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y = 60 - 60 * (t - 0.75) * 4
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x_list.append(x)
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y_list.append(y)
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return x_list, y_list
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def triangle_trajectory(base_length=100, height=80, num_points=60):
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""" 三角形轨迹 """
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x_list, y_list = [], []
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points = [(80, 0), (130, 80), (30, 80), (80, 0)]
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for i in range(num_points):
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idx = int(i / num_points * 3)
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t = (i % (num_points // 3)) / (num_points // 3)
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x = points[idx][0] + t * (points[idx+1][0] - points[idx][0])
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y = points[idx][1] + t * (points[idx+1][1] - points[idx][1])
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x_list.append(x)
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y_list.append(y)
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return x_list, y_list
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def custom_trajectory(custom_x, custom_y):
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""" 自定义轨迹,输入两个列表即可 """
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return custom_x, custom_y |