kopia lustrzana https://github.com/OpenDroneMap/ODM
180 wiersze
7.3 KiB
Python
180 wiersze
7.3 KiB
Python
import os
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import json
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import numpy as np
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import math
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from repoze.lru import lru_cache
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from opendm import log
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from opendm.shots import get_origin
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def rounded_gsd(reconstruction_json, default_value=None, ndigits=0, ignore_gsd=False):
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"""
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:param reconstruction_json path to OpenSfM's reconstruction.json
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:return GSD value rounded. If GSD cannot be computed, or ignore_gsd is set, it returns a default value.
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"""
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if ignore_gsd:
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return default_value
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gsd = opensfm_reconstruction_average_gsd(reconstruction_json)
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if gsd is not None:
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return round(gsd, ndigits)
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else:
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return default_value
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def image_max_size(photos, target_resolution, reconstruction_json, gsd_error_estimate = 0.5, ignore_gsd=False, has_gcp=False):
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"""
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:param photos images database
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:param target_resolution resolution the user wants have in cm / pixel
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:param reconstruction_json path to OpenSfM's reconstruction.json
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:param gsd_error_estimate percentage of estimated error in the GSD calculation to set an upper bound on resolution.
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:param ignore_gsd if set to True, simply return the largest side of the largest image in the images database.
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:return A dimension in pixels calculated by taking the image_scale_factor and applying it to the size of the largest image.
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Returned value is never higher than the size of the largest side of the largest image.
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"""
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max_width = 0
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max_height = 0
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if ignore_gsd:
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isf = 1.0
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else:
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isf = image_scale_factor(target_resolution, reconstruction_json, gsd_error_estimate, has_gcp=has_gcp)
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for p in photos:
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max_width = max(p.width, max_width)
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max_height = max(p.height, max_height)
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return int(math.ceil(max(max_width, max_height) * isf))
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def image_scale_factor(target_resolution, reconstruction_json, gsd_error_estimate = 0.5, has_gcp=False):
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"""
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:param target_resolution resolution the user wants have in cm / pixel
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:param reconstruction_json path to OpenSfM's reconstruction.json
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:param gsd_error_estimate percentage of estimated error in the GSD calculation to set an upper bound on resolution.
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:return A down-scale (<= 1) value to apply to images to achieve the target resolution by comparing the current GSD of the reconstruction.
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If a GSD cannot be computed, it just returns 1. Returned scale values are never higher than 1 and are always obtained by dividing by 2 (e.g. 0.5, 0.25, etc.)
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"""
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gsd = opensfm_reconstruction_average_gsd(reconstruction_json, use_all_shots=has_gcp)
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if gsd is not None and target_resolution > 0:
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gsd = gsd * (1 + gsd_error_estimate)
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isf = min(1.0, abs(gsd) / target_resolution)
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ret = 0.5
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while ret >= isf:
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ret /= 2.0
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return ret * 2.0
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else:
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return 1.0
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def cap_resolution(resolution, reconstruction_json, gsd_error_estimate = 0.1, gsd_scaling = 1.0, ignore_gsd=False,
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ignore_resolution=False, has_gcp=False):
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"""
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:param resolution resolution in cm / pixel
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:param reconstruction_json path to OpenSfM's reconstruction.json
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:param gsd_error_estimate percentage of estimated error in the GSD calculation to set an upper bound on resolution.
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:param gsd_scaling scaling of estimated GSD.
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:param ignore_gsd when set to True, forces the function to just return resolution.
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:param ignore_resolution when set to True, forces the function to return a value based on GSD.
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:return The max value between resolution and the GSD computed from the reconstruction.
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If a GSD cannot be computed, or ignore_gsd is set to True, it just returns resolution. Units are in cm / pixel.
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"""
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if ignore_gsd:
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return resolution
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gsd = opensfm_reconstruction_average_gsd(reconstruction_json, use_all_shots=has_gcp or ignore_resolution)
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if gsd is not None:
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gsd = gsd * (1 - gsd_error_estimate) * gsd_scaling
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if gsd > resolution or ignore_resolution:
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log.ODM_WARNING('Maximum resolution set to {} * (GSD - {}%) '
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'({:.2f} cm / pixel, requested resolution was {:.2f} cm / pixel)'
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.format(gsd_scaling, gsd_error_estimate * 100, gsd, resolution))
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return gsd
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else:
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return resolution
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else:
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log.ODM_WARNING('Cannot calculate GSD, using requested resolution of {:.2f}'.format(resolution))
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return resolution
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@lru_cache(maxsize=None)
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def opensfm_reconstruction_average_gsd(reconstruction_json, use_all_shots=False):
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"""
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Computes the average Ground Sampling Distance of an OpenSfM reconstruction.
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:param reconstruction_json path to OpenSfM's reconstruction.json
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:return Ground Sampling Distance value (cm / pixel) or None if
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a GSD estimate cannot be compute
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"""
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if not os.path.isfile(reconstruction_json):
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raise IOError(reconstruction_json + " does not exist.")
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with open(reconstruction_json) as f:
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data = json.load(f)
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# Calculate median height from sparse reconstruction
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reconstruction = data[0]
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point_heights = []
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for pointId in reconstruction['points']:
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point = reconstruction['points'][pointId]
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point_heights.append(point['coordinates'][2])
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ground_height = np.median(point_heights)
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gsds = []
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for shotImage in reconstruction['shots']:
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shot = reconstruction['shots'][shotImage]
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if use_all_shots or shot.get('gps_dop', 999999) < 999999:
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camera = reconstruction['cameras'][shot['camera']]
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shot_origin = get_origin(shot)
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shot_height = shot_origin[2]
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focal_ratio = camera.get('focal', camera.get('focal_x'))
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if not focal_ratio:
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log.ODM_WARNING("Cannot parse focal values from %s. This is likely an unsupported camera model." % reconstruction_json)
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return None
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gsds.append(calculate_gsd_from_focal_ratio(focal_ratio,
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shot_height - ground_height,
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camera['width']))
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if len(gsds) > 0:
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mean = np.mean(gsds)
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if mean < 0:
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log.ODM_WARNING("Negative GSD estimated, this might indicate a flipped Z-axis.")
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return abs(mean)
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return None
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def calculate_gsd(sensor_width, flight_height, focal_length, image_width):
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"""
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:param sensor_width in millimeters
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:param flight_height in meters
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:param focal_length in millimeters
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:param image_width in pixels
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:return Ground Sampling Distance
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>>> round(calculate_gsd(13.2, 100, 8.8, 5472), 2)
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2.74
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>>> calculate_gsd(13.2, 100, 0, 2000)
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>>> calculate_gsd(13.2, 100, 8.8, 0)
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"""
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if sensor_width != 0:
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return calculate_gsd_from_focal_ratio(focal_length / sensor_width,
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flight_height,
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image_width)
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else:
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return None
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def calculate_gsd_from_focal_ratio(focal_ratio, flight_height, image_width):
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"""
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:param focal_ratio focal length (mm) / sensor_width (mm)
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:param flight_height in meters
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:param image_width in pixels
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:return Ground Sampling Distance
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"""
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if focal_ratio == 0 or image_width == 0:
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return None
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return ((flight_height * 100) / image_width) / focal_ratio |