use matrix calculation
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Zhengyu Peng
parent
246f7a22cd
commit
e812db544c
@ -1,5 +1,3 @@
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from collections import deque
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import math
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import numpy as np
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@ -60,8 +58,8 @@ def get_rotate_x_matrix(angle):
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angle = angle * np.pi / 180
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return np.matrix([
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[1, 0, 0, 0],
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[0, math.cos(angle), -math.sin(angle), 0],
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[0, math.sin(angle), math.cos(angle), 0],
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[0, np.cos(angle), -np.sin(angle), 0],
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[0, np.sin(angle), np.cos(angle), 0],
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[0, 0, 0, 1],
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])
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@ -69,9 +67,9 @@ def get_rotate_x_matrix(angle):
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def get_rotate_y_matrix(angle):
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angle = angle * np.pi / 180
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return np.matrix([
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[math.cos(angle), 0, math.sin(angle), 0],
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[np.cos(angle), 0, np.sin(angle), 0],
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[0, 1, 0, 0],
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[-math.sin(angle), 0, math.cos(angle), 0],
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[-np.sin(angle), 0, np.cos(angle), 0],
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[0, 0, 0, 1],
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])
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@ -79,8 +77,8 @@ def get_rotate_y_matrix(angle):
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def get_rotate_z_matrix(angle):
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angle = angle * np.pi / 180
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return np.matrix([
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[math.cos(angle), -math.sin(angle), 0, 0],
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[math.sin(angle), math.cos(angle), 0, 0],
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[np.cos(angle), -np.sin(angle), 0, 0],
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[np.sin(angle), np.cos(angle), 0, 0],
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[0, 0, 1, 0],
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[0, 0, 0, 1],
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])
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@ -91,31 +89,19 @@ def matrix_mul(m, pt):
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return list((m * np.matrix(ptx).T).T.flat)[:-1]
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def point_rotate_x(pt, angle):
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ptx = list(pt) + [1]
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return list((get_rotate_x_matrix(angle) * np.matrix(ptx).T).T.flat)[:-1]
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def point_rotate_y(pt, angle):
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ptx = list(pt) + [1]
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return list((get_rotate_y_matrix(angle) * np.matrix(ptx).T).T.flat)[:-1]
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def point_rotate_z(pt, angle):
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ptx = list(pt) + [1]
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return list((get_rotate_z_matrix(angle) * np.matrix(ptx).T).T.flat)[:-1]
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def path_rotate_x(path, angle):
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return [point_rotate_x(p, angle) for p in path]
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ptx = np.append(path, np.ones((np.shape(path)[0], 1)), axis=1)
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return ((get_rotate_x_matrix(angle) * np.matrix(ptx).T).T)[:, :-1]
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def path_rotate_y(path, angle):
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return [point_rotate_y(p, angle) for p in path]
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ptx = np.append(path, np.ones((np.shape(path)[0], 1)), axis=1)
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return ((get_rotate_y_matrix(angle) * np.matrix(ptx).T).T)[:, :-1]
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def path_rotate_z(path, angle):
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return [point_rotate_z(p, angle) for p in path]
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ptx = np.append(path, np.ones((np.shape(path)[0], 1)), axis=1)
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return ((get_rotate_z_matrix(angle) * np.matrix(ptx).T).T)[:, :-1]
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if __name__ == '__main__':
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@ -89,24 +89,25 @@ def gen_fastbackward_path(standby_coordinate,
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return path+np.tile(standby_coordinate, (g_steps, 1, 1))
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def gen_leftturn_path(standby_coordinate):
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g_steps = 20
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g_radius = 25
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def gen_leftturn_path(standby_coordinate,
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g_steps = 20,
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g_radius = 25):
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assert (g_steps % 4) == 0
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halfsteps = int(g_steps/2)
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path = semicircle_generator(g_radius, g_steps)
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mir_path = np.roll(path, halfsteps, axis=0)
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path = np.zeros((g_steps, 6, 3))
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leftturn = np.zeros((g_steps, 6, 3))
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leftturn[:, 0, :] = np.array(path_rotate_z(path, 45))
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leftturn[:, 1, :] = np.array(path_rotate_z(mir_path, 0))
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leftturn[:, 2, :] = np.array(path_rotate_z(path, 315))
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leftturn[:, 3, :] = np.array(path_rotate_z(mir_path, 225))
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leftturn[:, 4, :] = np.array(path_rotate_z(path, 180))
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leftturn[:, 5, :] = np.array(path_rotate_z(mir_path, 135))
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semi_circle = semicircle_generator(g_radius, g_steps)
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mir_path = np.roll(semi_circle, halfsteps, axis=0)
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return leftturn+np.tile(standby_coordinate, (g_steps, 1, 1))
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path[:, 0, :] = path_rotate_z(semi_circle, 45)
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path[:, 1, :] = path_rotate_z(mir_path, 0)
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path[:, 2, :] = path_rotate_z(semi_circle, 315)
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path[:, 3, :] = path_rotate_z(mir_path, 225)
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path[:, 4, :] = path_rotate_z(semi_circle, 180)
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path[:, 5, :] = path_rotate_z(mir_path, 135)
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return path+np.tile(standby_coordinate, (g_steps, 1, 1))
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def gen_rightturn_path(standby_coordinate):
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@ -119,12 +120,12 @@ def gen_rightturn_path(standby_coordinate):
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mir_path = np.roll(path, halfsteps, axis=0)
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rightturn = np.zeros((g_steps, 6, 3))
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rightturn[:, 0, :] = np.array(path_rotate_z(path, 45+180))
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rightturn[:, 1, :] = np.array(path_rotate_z(mir_path, 0+180))
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rightturn[:, 2, :] = np.array(path_rotate_z(path, 315+180))
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rightturn[:, 3, :] = np.array(path_rotate_z(mir_path, 225+180))
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rightturn[:, 4, :] = np.array(path_rotate_z(path, 180+180))
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rightturn[:, 5, :] = np.array(path_rotate_z(mir_path, 135+180))
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rightturn[:, 0, :] = path_rotate_z(path, 45+180)
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rightturn[:, 1, :] = path_rotate_z(mir_path, 0+180)
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rightturn[:, 2, :] = path_rotate_z(path, 315+180)
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rightturn[:, 3, :] = path_rotate_z(mir_path, 225+180)
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rightturn[:, 4, :] = path_rotate_z(path, 180+180)
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rightturn[:, 5, :] = path_rotate_z(mir_path, 135+180)
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return rightturn+np.tile(standby_coordinate, (g_steps, 1, 1))
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