OpenDroneMap-ODM/opendm/location.py

157 wiersze
5.2 KiB
Python

import math
from opendm import log
from pyproj import Proj, Transformer, CRS
from osgeo import osr
def extract_utm_coords(photos, images_path, output_coords_file):
"""
Create a coordinate file containing the GPS positions of all cameras
to be used later in the ODM toolchain for automatic georeferecing
:param photos ([ODM_Photo]) list of photos
:param images_path (str) path to dataset images
:param output_coords_file (str) path to output coordinates file
:return None
"""
if len(photos) == 0:
raise Exception("No input images, cannot create coordinates file of GPS positions")
utm_zone = None
hemisphere = None
coords = []
reference_photo = None
for photo in photos:
if photo.latitude is None or photo.longitude is None:
log.ODM_WARNING("GPS position not available for %s" % photo.filename)
continue
if utm_zone is None:
utm_zone, hemisphere = get_utm_zone_and_hemisphere_from(photo.longitude, photo.latitude)
try:
alt = photo.altitude if photo.altitude is not None else 0
coord = convert_to_utm(photo.longitude, photo.latitude, alt, utm_zone, hemisphere)
except:
raise Exception("Failed to convert GPS position to UTM for %s" % photo.filename)
coords.append(coord)
if utm_zone is None:
raise Exception("No images seem to have GPS information")
# Calculate average
dx = 0.0
dy = 0.0
num = float(len(coords))
for coord in coords:
dx += coord[0] / num
dy += coord[1] / num
dx = int(math.floor(dx))
dy = int(math.floor(dy))
# Open output file
with open(output_coords_file, "w") as f:
f.write("WGS84 UTM %s%s\n" % (utm_zone, hemisphere))
f.write("%s %s\n" % (dx, dy))
for coord in coords:
f.write("%s %s %s\n" % (coord[0] - dx, coord[1] - dy, coord[2]))
def transform2(from_srs, to_srs, x, y):
return transformer(from_srs, to_srs).TransformPoint(x, y, 0)[:2]
def transform3(from_srs, to_srs, x, y, z):
return transformer(from_srs, to_srs).TransformPoint(x, y, z)
def proj_srs_convert(srs):
"""
Convert a Proj SRS object to osr SRS object
"""
res = osr.SpatialReference()
epsg = srs.to_epsg()
if epsg:
res.ImportFromEPSG(epsg)
else:
proj4 = srs.to_proj4()
res.ImportFromProj4(proj4)
res.SetAxisMappingStrategy(osr.OAMS_TRADITIONAL_GIS_ORDER)
return res
def transformer(from_srs, to_srs):
src = proj_srs_convert(from_srs)
tgt = proj_srs_convert(to_srs)
return osr.CoordinateTransformation(src, tgt)
def get_utm_zone_and_hemisphere_from(lon, lat):
"""
Calculate the UTM zone and hemisphere that a longitude/latitude pair falls on
:param lon longitude
:param lat latitude
:return [utm_zone, hemisphere]
"""
utm_zone = (int(math.floor((lon + 180.0)/6.0)) % 60) + 1
hemisphere = 'S' if lat < 0 else 'N'
return [utm_zone, hemisphere]
def convert_to_utm(lon, lat, alt, utm_zone, hemisphere):
"""
Convert longitude, latitude and elevation values to UTM
:param lon longitude
:param lat latitude
:param alt altitude
:param utm_zone UTM zone number
:param hemisphere one of 'N' or 'S'
:return [x,y,z] UTM coordinates
"""
if hemisphere == 'N':
p = Proj(proj='utm',zone=utm_zone,ellps='WGS84', preserve_units=True)
else:
p = Proj(proj='utm',zone=utm_zone,ellps='WGS84', preserve_units=True, south=True)
x,y = p(lon, lat)
return [x, y, alt]
def parse_srs_header(header):
"""
Parse a header coming from GCP or coordinate file
:param header (str) line
:return Proj object
"""
log.ODM_INFO('Parsing SRS header: %s' % header)
header = header.strip()
ref = header.split(' ')
try:
if ref[0] == 'WGS84' and ref[1] == 'UTM':
datum = ref[0]
utm_pole = (ref[2][len(ref[2]) - 1]).upper()
utm_zone = int(ref[2][:len(ref[2]) - 1])
proj_args = {
'zone': utm_zone,
'datum': datum
}
proj4 = '+proj=utm +zone={zone} +datum={datum} +units=m +no_defs=True'
if utm_pole == 'S':
proj4 += ' +south=True'
srs = CRS.from_proj4(proj4.format(**proj_args))
elif '+proj' in header:
srs = CRS.from_proj4(header.strip('\''))
elif header.lower().startswith("epsg:"):
srs = CRS.from_epsg(header.lower()[5:])
else:
raise RuntimeError('Could not parse coordinates. Bad SRS supplied: %s' % header)
except RuntimeError as e:
log.ODM_ERROR('Uh oh! There seems to be a problem with your coordinates/GCP file.\n\n'
'The line: %s\n\n'
'Is not valid. Projections that are valid include:\n'
' - EPSG:*****\n'
' - WGS84 UTM **(N|S)\n'
' - Any valid proj4 string (for example, +proj=utm +zone=32 +north +ellps=WGS84 +datum=WGS84 +units=m +no_defs)\n\n'
'Modify your input and try again.' % header)
raise RuntimeError(e)
return srs