| #!/bin/bash |
| echo "" |
| echo "Executing colmap_matcher.sh ..." |
|
|
| sequence_path="$1" |
| exp_folder="$2" |
| exp_id="$3" |
| settings_yaml="$4" |
| calibration_yaml="$5" |
| rgb_csv="$6" |
| matcher_type="$7" |
| use_gpu="$8" |
| camera_name="$9" |
|
|
| exp_folder_colmap="${exp_folder}/colmap_${exp_id}" |
| rgb_dir=$(awk -F, 'NR==2 { split($2,a,"/"); print a[1]; exit }' "$rgb_csv") |
| rgb_path="${sequence_path}/${rgb_dir}" |
|
|
| |
| read -r calibration_model more_ <<< $(python3 Baselines/colmap/get_calibration.py "$calibration_yaml" "$camera_name") |
|
|
| |
| colmap_image_list="${exp_folder_colmap}/colmap_image_list.txt" |
| python3 Baselines/colmap/create_colmap_image_list.py "$rgb_csv" "$colmap_image_list" "$camera_name" |
|
|
| |
| database="${exp_folder_colmap}/colmap_database.db" |
| rm -rf ${database} |
| colmap database_creator --database_path ${database} |
|
|
| |
| echo " colmap feature_extractor ..." |
|
|
| if [ "${calibration_model}" == "unknown" ] |
| then |
| echo " camera model : $calibration_model" |
| colmap feature_extractor \ |
| --database_path ${database} \ |
| --image_path ${rgb_path} \ |
| --image_list_path ${colmap_image_list} \ |
| --ImageReader.camera_model SIMPLE_PINHOLE \ |
| --ImageReader.single_camera 1 \ |
| --ImageReader.single_camera_per_folder 1 \ |
| --FeatureExtraction.use_gpu ${use_gpu} |
| fi |
|
|
| if [ "${calibration_model}" == "pinhole" ] |
| then |
| read -r calibration_model fx fy cx cy <<< $(python3 Baselines/colmap/get_calibration.py "$calibration_yaml" "$camera_name") |
| echo " camera model : $calibration_model" |
| echo " fx: $fx , fy: $fy , cx: $cx , cy: $cy" |
| colmap feature_extractor \ |
| --database_path ${database} \ |
| --image_path ${rgb_path} \ |
| --image_list_path ${colmap_image_list} \ |
| --ImageReader.camera_model PINHOLE \ |
| --ImageReader.single_camera 1 \ |
| --ImageReader.single_camera_per_folder 1 \ |
| --FeatureExtraction.use_gpu ${use_gpu} \ |
| --ImageReader.camera_params "${fx},${fy},${cx},${cy}" |
| fi |
|
|
| if [ "${calibration_model}" == "radtan4" ] |
| then |
| read -r calibration_model fx fy cx cy k1 k2 p1 p2 <<< $(python3 Baselines/colmap/get_calibration.py "$calibration_yaml" "$camera_name") |
| echo " camera model : $calibration_model" |
| echo " fx: $fx , fy: $fy , cx: $cx , cy: $cy" |
| echo " k1: $k1 , k2: $k2 , p1: $p1 , p2: $p2" |
| colmap feature_extractor \ |
| --database_path ${database} \ |
| --image_path ${rgb_path} \ |
| --image_list_path ${colmap_image_list} \ |
| --ImageReader.camera_model "OPENCV" \ |
| --ImageReader.single_camera 1 \ |
| --ImageReader.single_camera_per_folder 1 \ |
| --FeatureExtraction.use_gpu ${use_gpu} \ |
| --ImageReader.camera_params "${fx},${fy},${cx},${cy},${k1},${k2},${p1},${p2}" |
| fi |
|
|
| if [ "${calibration_model}" == "radtan5" ] |
| then |
| read -r calibration_model fx fy cx cy k1 k2 p1 p2 k3 <<< $(python3 Baselines/colmap/get_calibration.py "$calibration_yaml" "$camera_name") |
| echo " camera model : $calibration_model" |
| echo " fx: $fx , fy: $fy , cx: $cx , cy: $cy" |
| echo " k1: $k1 , k2: $k2 , p1: $p1 , p2: $p2, k3: $k3" |
| colmap feature_extractor \ |
| --database_path ${database} \ |
| --image_path ${rgb_path} \ |
| --image_list_path ${colmap_image_list} \ |
| --ImageReader.camera_model "FULL_OPENCV" \ |
| --ImageReader.single_camera 1 \ |
| --ImageReader.single_camera_per_folder 1 \ |
| --FeatureExtraction.use_gpu ${use_gpu} \ |
| --ImageReader.camera_params "${fx},${fy},${cx},${cy},${k1},${k2},${p1},${p2},${k3},0,0,0" |
| fi |
|
|
| if [ "${calibration_model}" == "equid4" ] |
| then |
| read -r calibration_model fx fy cx cy k1 k2 k3 k4 <<< $(python3 Baselines/colmap/get_calibration.py "$calibration_yaml" "$camera_name") |
| echo " camera model : $calibration_model" |
| echo " fx: $fx , fy: $fy , cx: $cx , cy: $cy" |
| echo " k1: $k1 , k2: $k2 , k3: $k3 , k4: $k4" |
| colmap feature_extractor \ |
| --database_path ${database} \ |
| --image_path ${rgb_path} \ |
| --image_list_path ${colmap_image_list} \ |
| --ImageReader.camera_model "OPENCV_FISHEYE"\ |
| --ImageReader.single_camera 1 \ |
| --ImageReader.single_camera_per_folder 1 \ |
| --FeatureExtraction.use_gpu ${use_gpu} \ |
| --ImageReader.camera_params "${fx},${fy},${cx},${cy},${k1},${k2},${k3},${k4}" |
| fi |
|
|
| |
| if [ "${matcher_type}" == "exhaustive" ] |
| then |
| echo " colmap exhaustive_matcher ..." |
| colmap exhaustive_matcher \ |
| --database_path ${database} \ |
| --FeatureMatching.use_gpu ${use_gpu} |
| fi |
|
|
| |
| if [ "${matcher_type}" == "sequential" ] |
| then |
| num_rgb=$(( $(wc -l < "$rgb_csv") - 1 )) |
|
|
| |
| vocabulary_tree="Baselines/colmap/vocab_tree_flickr100K_words32K.bin" |
| if [ "$num_rgb" -gt 1000 ]; then |
| vocabulary_tree="Baselines/colmap/vocab_tree_flickr100K_words256K.bin" |
| fi |
| if [ "$num_rgb" -gt 10000 ]; then |
| vocabulary_tree="Baselines/colmap/vocab_tree_flickr100K_words1M.bin" |
| fi |
|
|
| echo " colmap sequential_matcher ..." |
| echo " Vocabulary Tree: $vocabulary_tree" |
| colmap sequential_matcher \ |
| --database_path "${database}" \ |
| --SequentialMatching.loop_detection 1 \ |
| --SequentialMatching.vocab_tree_path ${vocabulary_tree} \ |
| --FeatureMatching.use_gpu "${use_gpu}" |
| fi |
|
|
| |
| if [ "${matcher_type}" == "custom" ] |
| then |
| colmap exhaustive_matcher \ |
| --database_path ${database} \ |
| --FeatureMatching.use_gpu ${use_gpu} |
| |
| pixi run -e lightglue python3 Baselines/colmap/feature_matcher.py --database ${database} --rgb_path ${rgb_path} --rgb_csv ${rgb_csv} |
| fi |
|
|
|
|
