2021-03-23 21:01:48 +00:00
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import math
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2021-04-28 07:12:30 +00:00
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from mosfet import utils
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2021-03-23 21:01:48 +00:00
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class Vector3D:
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def __init__(self, vector):
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self.x = vector[0]
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self.y = vector[1]
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self.z = vector[2]
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@property
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def xz(self):
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return Vector3D((self.x, 0, self.z))
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def tuple(self):
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return (self.x, self.y, self.z)
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def __getitem__(self, key):
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return self.tuple()[key]
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def length(self):
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2021-04-28 07:12:30 +00:00
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return utils.hypot(self.x, self.y, self.z)
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2021-03-23 21:01:48 +00:00
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def normalized(self):
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x = self.x / self.length()
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y = self.y / self.length()
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z = self.z / self.length()
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return Vector3D((x, y, z))
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def dot(self, other):
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return self.x * other.x + self.y * other.y + self.z * other.z
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def cross(self, other):
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a1, a2, a3 = self.tuple()
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b1, b2, b3 = other.tuple()
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return Vector3D((a2*b3-a3*b2, a3*b1-a1*b3, a1*b2-a2*b1))
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def angleDeg(self, other):
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ratio = self.dot(other) / (self.length() * other.length())
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rads = math.acos(ratio)
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return math.degrees(rads)
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def signedAngleDeg(self, other, ref):
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angle1 = self.angleDeg(other)
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cross = self.cross(ref)
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angle2 = other.angleDeg(cross)
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if angle2 < 90:
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return -angle1
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else:
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return angle1
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def __repr__(self):
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return 'Vector3D(x={}, y={}, z={})'.format(self.x, self.y, self.z)
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def __str__(self):
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return '[{}, {}, {}]'.format(self.x, self.y, self.z)
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class Point3D:
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def __init__(self, point):
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self.x = point[0]
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self.y = point[1]
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self.z = point[2]
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def __sub__(self, other):
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#x = other.x - self.x
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#y = other.y - self.y
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#z = other.z - self.z
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x = self.x - other.x
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y = self.y - other.y
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z = self.z - other.z
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return Vector3D((x, y, z))
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def tuple(self):
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return (self.x, self.y, self.z)
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def __getitem__(self, key):
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return self.tuple()[key]
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def __repr__(self):
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return 'Point3D(x={}, y={}, z={})'.format(self.x, self.y, self.z)
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def __str__(self):
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return '({}, {}, {})'.format(self.x, self.y, self.z)
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if __name__ == '__main__':
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# test to make sure our Vector module is the same as Panda3D
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from panda3d.core import LPoint3f, LVector3f
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import random
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pPITCH_ANGLE_DIR = LVector3f(x=0, y=1, z=0)
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pYAW_ANGLE_DIR = LVector3f(x=0, y=0, z=-1)
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pYAW_ANGLE_REF = LVector3f(x=0, y=1, z=0)
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PITCH_ANGLE_DIR = Vector3D((0, 1, 0))
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YAW_ANGLE_DIR = Vector3D((0, 0, -1))
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YAW_ANGLE_REF = Vector3D((0, 1, 0))
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for _ in range(1000):
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r = lambda: random.uniform(-10, 10)
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a, b, c = r(), r(), r()
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plook_at_d = LVector3f(x=a, y=b, z=c)
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look_at_d = Vector3D((a, b, c))
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ptarget_pitch = plook_at_d.normalized().angleDeg(pPITCH_ANGLE_DIR)
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target_pitch = look_at_d.normalized().angleDeg(PITCH_ANGLE_DIR)
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if round(ptarget_pitch) != round(target_pitch):
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print('mismatch:', ptarget_pitch, target_pitch)
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break
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else: # for
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print('no mismatches')
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for _ in range(1000):
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r = lambda: random.uniform(-10, 10)
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a, b, c = r(), r(), r()
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plook_at_d = LVector3f(x=a, y=b, z=c)
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look_at_d = Vector3D((a, b, c))
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ptarget_yaw = plook_at_d.normalized().signedAngleDeg(other=pYAW_ANGLE_DIR, ref=pYAW_ANGLE_REF)
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target_yaw = look_at_d.normalized().signedAngleDeg(other=YAW_ANGLE_DIR, ref=YAW_ANGLE_REF)
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if round(ptarget_yaw) != round(target_yaw):
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print('mismatch:', ptarget_yaw, target_yaw)
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break
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else: # for
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print('no mismatches')
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