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RoadProjectDemo / Equirec2Perspec.py

cheng

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f558a24 about 1 year ago

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2.16 kB

	import os
	import sys
	import cv2
	import numpy as np


	def xyz2lonlat(xyz):
	atan2 = np.arctan2
	asin = np.arcsin

	norm = np.linalg.norm(xyz, axis=-1, keepdims=True)
	xyz_norm = xyz / norm
	x = xyz_norm[..., 0:1]
	y = xyz_norm[..., 1:2]
	z = xyz_norm[..., 2:]

	lon = atan2(x, z)
	lat = asin(y)
	lst = [lon, lat]

	out = np.concatenate(lst, axis=-1)
	return out


	def lonlat2XY(lonlat, shape):
	X = (lonlat[..., 0:1] / (2 * np.pi) + 0.5) * (shape[1] - 1)
	Y = (lonlat[..., 1:] / (np.pi) + 0.5) * (shape[0] - 1)
	lst = [X, Y]
	out = np.concatenate(lst, axis=-1)

	return out


	class Equirectangular:
	def __init__(self, img):
	# self._img = cv2.imread(img_name, cv2.IMREAD_COLOR)
	self._img = img
	[self._height, self._width, _] = self._img.shape
	# cp = self._img.copy()
	# w = self._width
	# self._img[:, :w/8, :] = cp[:, 7*w/8:, :]
	# self._img[:, w/8:, :] = cp[:, :7*w/8, :]

	def GetPerspective(self, FOV, THETA, PHI, height, width):
	#
	# THETA is left/right angle, PHI is up/down angle, both in degree
	#

	f = 0.5 * width * 1 / np.tan(0.5 * FOV / 180.0 * np.pi)
	cx = (width - 1) / 2.0
	cy = (height - 1) / 2.0
	K = np.array([
	[f, 0, cx],
	[0, f, cy],
	[0, 0, 1],
	], np.float32)
	K_inv = np.linalg.inv(K)

	x = np.arange(width)
	y = np.arange(height)
	x, y = np.meshgrid(x, y)
	z = np.ones_like(x)
	xyz = np.concatenate([x[..., None], y[..., None], z[..., None]], axis=-1)
	xyz = xyz @ K_inv.T

	y_axis = np.array([0.0, 1.0, 0.0], np.float32)
	x_axis = np.array([1.0, 0.0, 0.0], np.float32)
	R1, _ = cv2.Rodrigues(y_axis * np.radians(THETA))
	R2, _ = cv2.Rodrigues(np.dot(R1, x_axis) * np.radians(PHI))
	R = R2 @ R1
	xyz = xyz @ R.T
	lonlat = xyz2lonlat(xyz)
	XY = lonlat2XY(lonlat, shape=self._img.shape).astype(np.float32)
	persp = cv2.remap(self._img, XY[..., 0], XY[..., 1], cv2.INTER_CUBIC, borderMode=cv2.BORDER_WRAP)

	return persp