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import argparse | |
import cv2 | |
import numpy as np | |
import os | |
import math | |
import subprocess | |
from tqdm import tqdm | |
def compute_essential(matched_kp1, matched_kp2, K): | |
pts1 = cv2.undistortPoints( | |
matched_kp1, | |
cameraMatrix=K, | |
distCoeffs=(-0.117918271740560, 0.075246403574314, 0, 0), | |
) | |
pts2 = cv2.undistortPoints( | |
matched_kp2, | |
cameraMatrix=K, | |
distCoeffs=(-0.117918271740560, 0.075246403574314, 0, 0), | |
) | |
K_1 = np.eye(3) | |
# Estimate the homography between the matches using RANSAC | |
ransac_model, ransac_inliers = cv2.findEssentialMat( | |
pts1, pts2, K_1, method=cv2.RANSAC, prob=0.999, threshold=0.001, maxIters=10000 | |
) | |
if ransac_inliers is None or ransac_model.shape != (3, 3): | |
ransac_inliers = np.array([]) | |
ransac_model = None | |
return ransac_model, ransac_inliers, pts1, pts2 | |
def compute_error(R_GT, t_GT, E, pts1_norm, pts2_norm, inliers): | |
"""Compute the angular error between two rotation matrices and two translation vectors. | |
Keyword arguments: | |
R -- 2D numpy array containing an estimated rotation | |
gt_R -- 2D numpy array containing the corresponding ground truth rotation | |
t -- 2D numpy array containing an estimated translation as column | |
gt_t -- 2D numpy array containing the corresponding ground truth translation | |
""" | |
inliers = inliers.ravel() | |
R = np.eye(3) | |
t = np.zeros((3, 1)) | |
sst = True | |
try: | |
_, R, t, _ = cv2.recoverPose(E, pts1_norm, pts2_norm, np.eye(3), inliers) | |
except: | |
sst = False | |
# calculate angle between provided rotations | |
# | |
if sst: | |
dR = np.matmul(R, np.transpose(R_GT)) | |
dR = cv2.Rodrigues(dR)[0] | |
dR = np.linalg.norm(dR) * 180 / math.pi | |
# calculate angle between provided translations | |
dT = float(np.dot(t_GT.T, t)) | |
dT /= float(np.linalg.norm(t_GT)) | |
if dT > 1 or dT < -1: | |
print("Domain warning! dT:", dT) | |
dT = max(-1, min(1, dT)) | |
dT = math.acos(dT) * 180 / math.pi | |
dT = np.minimum(dT, 180 - dT) # ambiguity of E estimation | |
else: | |
dR, dT = 180.0, 180.0 | |
return dR, dT | |
def pose_evaluation(result_base_dir, dark_name1, dark_name2, enhancer, K, R_GT, t_GT): | |
try: | |
m_kp1 = np.load(result_base_dir + enhancer + "/DarkFeat/POINT_1/" + dark_name1) | |
m_kp2 = np.load(result_base_dir + enhancer + "/DarkFeat/POINT_2/" + dark_name2) | |
except: | |
return 180.0, 180.0 | |
try: | |
E, inliers, pts1, pts2 = compute_essential(m_kp1, m_kp2, K) | |
except: | |
E, inliers, pts1, pts2 = np.zeros((3, 3)), np.array([]), None, None | |
dR, dT = compute_error(R_GT, t_GT, E, pts1, pts2, inliers) | |
return dR, dT | |
if __name__ == "__main__": | |
parser = argparse.ArgumentParser() | |
parser.add_argument("--histeq", action="store_true") | |
parser.add_argument("--dataset_dir", type=str, default="/data/hyz/MID/") | |
opt = parser.parse_args() | |
sizer = (960, 640) | |
focallength_x = 4.504986436499113e03 / (6744 / sizer[0]) | |
focallength_y = 4.513311442889859e03 / (4502 / sizer[1]) | |
K = np.eye(3) | |
K[0, 0] = focallength_x | |
K[1, 1] = focallength_y | |
K[0, 2] = 3.363322177533149e03 / (6744 / sizer[0]) | |
K[1, 2] = 2.291824660547715e03 / (4502 / sizer[1]) | |
Kinv = np.linalg.inv(K) | |
Kinvt = np.transpose(Kinv) | |
PE_MT = np.zeros((6, 8)) | |
enhancer = "None" if not opt.histeq else "HistEQ" | |
for scene in ["Indoor", "Outdoor"]: | |
dir_base = opt.dataset_dir + "/" + scene + "/" | |
base_save = "result_errors/" + scene + "/" | |
pair_list = sorted(os.listdir(dir_base)) | |
os.makedirs(base_save, exist_ok=True) | |
for pair in tqdm(pair_list): | |
opention = 1 | |
if scene == "Outdoor": | |
pass | |
else: | |
if int(pair[4::]) <= 17: | |
opention = 0 | |
else: | |
pass | |
name = [] | |
files = sorted(os.listdir(dir_base + pair)) | |
for file_ in files: | |
if file_.endswith(".cr2"): | |
name.append(file_[0:9]) | |
ISO = [ | |
"00100", | |
"00200", | |
"00400", | |
"00800", | |
"01600", | |
"03200", | |
"06400", | |
"12800", | |
] | |
if opention == 1: | |
Shutter_speed = ["0.005", "0.01", "0.025", "0.05", "0.17", "0.5"] | |
else: | |
Shutter_speed = ["0.01", "0.02", "0.05", "0.1", "0.3", "1"] | |
E_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "E_estimated.npy") | |
F_GT = np.dot(np.dot(Kinvt, E_GT), Kinv) | |
R_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "R_GT.npy") | |
t_GT = np.load(dir_base + pair + "/GT_Correspondence/" + "T_GT.npy") | |
result_base_dir = "result/" + scene + "/" + pair + "/" | |
for iso in ISO: | |
for ex in Shutter_speed: | |
dark_name1 = name[0] + iso + "_" + ex + "_" + scene + ".npy" | |
dark_name2 = name[1] + iso + "_" + ex + "_" + scene + ".npy" | |
dr, dt = pose_evaluation( | |
result_base_dir, dark_name1, dark_name2, enhancer, K, R_GT, t_GT | |
) | |
PE_MT[Shutter_speed.index(ex), ISO.index(iso)] = max(dr, dt) | |
subprocess.check_output( | |
["mkdir", "-p", base_save + pair + f"/{enhancer}/"] | |
) | |
np.save( | |
base_save + pair + f"/{enhancer}/Pose_error_DarkFeat.npy", PE_MT | |
) | |