kopia lustrzana https://github.com/OpenDroneMap/ODM
294 wiersze
11 KiB
Python
294 wiersze
11 KiB
Python
import os, sys, shutil, tempfile, math, json
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from opendm import system
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from opendm import log
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from opendm import context
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from opendm.system import run
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from opendm import entwine
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from opendm import io
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from opendm.concurrency import parallel_map
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from opendm.utils import double_quote
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from opendm.boundary import as_polygon, as_geojson
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from opendm.dem.pdal import run_pipeline
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def ply_info(input_ply):
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if not os.path.exists(input_ply):
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raise IOError("%s does not exist" % input_ply)
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# Read PLY header, check if point cloud has normals
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has_normals = False
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has_views = False
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vertex_count = 0
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with open(input_ply, 'r', errors='ignore') as f:
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line = f.readline().strip().lower()
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i = 0
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while line != "end_header":
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line = f.readline().strip().lower()
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props = line.split(" ")
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if len(props) == 3:
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if props[0] == "property" and props[2] in ["nx", "normalx", "normal_x"]:
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has_normals = True
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if props[0] == "property" and props[2] in ["views"]:
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has_views = True
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elif props[0] == "element" and props[1] == "vertex":
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vertex_count = int(props[2])
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i += 1
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if i > 100:
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raise IOError("Cannot find end_header field. Invalid PLY?")
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return {
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'has_normals': has_normals,
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'vertex_count': vertex_count,
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'has_views': has_views,
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'header_lines': i + 1
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}
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def split(input_point_cloud, outdir, filename_template, capacity, dims=None):
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log.ODM_INFO("Splitting point cloud filtering in chunks of {} vertices".format(capacity))
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if not os.path.exists(input_point_cloud):
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log.ODM_ERROR("{} does not exist, cannot split point cloud. The program will now exit.".format(input_point_cloud))
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sys.exit(1)
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if not os.path.exists(outdir):
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system.mkdir_p(outdir)
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if len(os.listdir(outdir)) != 0:
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log.ODM_ERROR("%s already contains some files. The program will now exit.".format(outdir))
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sys.exit(1)
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cmd = 'pdal split -i "%s" -o "%s" --capacity %s ' % (input_point_cloud, os.path.join(outdir, filename_template), capacity)
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if filename_template.endswith(".ply"):
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cmd += ("--writers.ply.sized_types=false "
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"--writers.ply.storage_mode=\"little endian\" ")
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if dims is not None:
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cmd += '--writers.ply.dims="%s"' % dims
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system.run(cmd)
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return [os.path.join(outdir, f) for f in os.listdir(outdir)]
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def filter(input_point_cloud, output_point_cloud, standard_deviation=2.5, meank=16, sample_radius=0, boundary=None, verbose=False, max_concurrency=1):
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"""
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Filters a point cloud
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"""
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if not os.path.exists(input_point_cloud):
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log.ODM_ERROR("{} does not exist. The program will now exit.".format(input_point_cloud))
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sys.exit(1)
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args = [
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'--input "%s"' % input_point_cloud,
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'--output "%s"' % output_point_cloud,
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'--concurrency %s' % max_concurrency,
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'--verbose' if verbose else '',
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]
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if sample_radius > 0:
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log.ODM_INFO("Sampling points around a %sm radius" % sample_radius)
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args.append('--radius %s' % sample_radius)
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if standard_deviation > 0 and meank > 0:
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log.ODM_INFO("Filtering {} (statistical, meanK {}, standard deviation {})".format(input_point_cloud, meank, standard_deviation))
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args.append('--meank %s' % meank)
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args.append('--std %s' % standard_deviation)
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if boundary is not None:
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log.ODM_INFO("Boundary {}".format(boundary))
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fd, boundary_json_file = tempfile.mkstemp(suffix='.boundary.json')
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os.close(fd)
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with open(boundary_json_file, 'w') as f:
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f.write(as_geojson(boundary))
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args.append('--boundary "%s"' % boundary_json_file)
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system.run('"%s" %s' % (context.fpcfilter_path, " ".join(args)))
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if not os.path.exists(output_point_cloud):
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log.ODM_WARNING("{} not found, filtering has failed.".format(output_point_cloud))
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def export_info_json(pointcloud_path, info_file_path):
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system.run('pdal info --dimensions "X,Y,Z" "{0}" > "{1}"'.format(pointcloud_path, info_file_path))
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def export_summary_json(pointcloud_path, summary_file_path):
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system.run('pdal info --summary "{0}" > "{1}"'.format(pointcloud_path, summary_file_path))
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def get_extent(input_point_cloud):
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fd, json_file = tempfile.mkstemp(suffix='.json')
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os.close(fd)
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# Get point cloud extent
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fallback = False
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# We know PLY files do not have --summary support
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if input_point_cloud.lower().endswith(".ply"):
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fallback = True
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run('pdal info "{0}" > "{1}"'.format(input_point_cloud, json_file))
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try:
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if not fallback:
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run('pdal info --summary "{0}" > "{1}"'.format(input_point_cloud, json_file))
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except:
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fallback = True
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run('pdal info "{0}" > "{1}"'.format(input_point_cloud, json_file))
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bounds = {}
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with open(json_file, 'r') as f:
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result = json.loads(f.read())
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if not fallback:
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summary = result.get('summary')
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if summary is None: raise Exception("Cannot compute summary for %s (summary key missing)" % input_point_cloud)
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bounds = summary.get('bounds')
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else:
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stats = result.get('stats')
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if stats is None: raise Exception("Cannot compute bounds for %s (stats key missing)" % input_point_cloud)
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bbox = stats.get('bbox')
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if bbox is None: raise Exception("Cannot compute bounds for %s (bbox key missing)" % input_point_cloud)
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native = bbox.get('native')
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if native is None: raise Exception("Cannot compute bounds for %s (native key missing)" % input_point_cloud)
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bounds = native.get('bbox')
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if bounds is None: raise Exception("Cannot compute bounds for %s (bounds key missing)" % input_point_cloud)
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if bounds.get('maxx', None) is None or \
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bounds.get('minx', None) is None or \
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bounds.get('maxy', None) is None or \
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bounds.get('miny', None) is None or \
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bounds.get('maxz', None) is None or \
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bounds.get('minz', None) is None:
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raise Exception("Cannot compute bounds for %s (invalid keys) %s" % (input_point_cloud, str(bounds)))
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os.remove(json_file)
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return bounds
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def merge(input_point_cloud_files, output_file, rerun=False):
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num_files = len(input_point_cloud_files)
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if num_files == 0:
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log.ODM_WARNING("No input point cloud files to process")
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return
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if io.file_exists(output_file):
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log.ODM_WARNING("Removing previous point cloud: %s" % output_file)
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os.remove(output_file)
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kwargs = {
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'all_inputs': " ".join(map(double_quote, input_point_cloud_files)),
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'output': output_file
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}
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system.run('lasmerge -i {all_inputs} -o "{output}"'.format(**kwargs))
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def fast_merge_ply(input_point_cloud_files, output_file):
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# Assumes that all input files share the same header/content format
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# As the merge is a naive byte stream copy
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num_files = len(input_point_cloud_files)
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if num_files == 0:
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log.ODM_WARNING("No input point cloud files to process")
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return
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if io.file_exists(output_file):
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log.ODM_WARNING("Removing previous point cloud: %s" % output_file)
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os.remove(output_file)
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vertex_count = sum([ply_info(pcf)['vertex_count'] for pcf in input_point_cloud_files])
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master_file = input_point_cloud_files[0]
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with open(output_file, "wb") as out:
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with open(master_file, "r", errors="ignore") as fhead:
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# Copy header
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line = fhead.readline()
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out.write(line.encode('utf8'))
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i = 0
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while line.strip().lower() != "end_header":
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line = fhead.readline()
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# Intercept element vertex field
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if line.lower().startswith("element vertex "):
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out.write(("element vertex %s\n" % vertex_count).encode('utf8'))
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else:
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out.write(line.encode('utf8'))
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i += 1
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if i > 100:
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raise IOError("Cannot find end_header field. Invalid PLY?")
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for ipc in input_point_cloud_files:
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i = 0
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with open(ipc, "rb") as fin:
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# Skip header
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line = fin.readline()
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while line.strip().lower() != b"end_header":
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line = fin.readline()
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i += 1
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if i > 100:
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raise IOError("Cannot find end_header field. Invalid PLY?")
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# Write fields
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out.write(fin.read())
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return output_file
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def merge_ply(input_point_cloud_files, output_file, dims=None):
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num_files = len(input_point_cloud_files)
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if num_files == 0:
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log.ODM_WARNING("No input point cloud files to process")
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return
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cmd = [
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'pdal',
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'merge',
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'--writers.ply.sized_types=false',
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'--writers.ply.storage_mode="little endian"',
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('--writers.ply.dims="%s"' % dims) if dims is not None else '',
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' '.join(map(double_quote, input_point_cloud_files + [output_file])),
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]
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system.run(' '.join(cmd))
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def post_point_cloud_steps(args, tree, rerun=False):
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# XYZ point cloud output
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if args.pc_csv:
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log.ODM_INFO("Creating CSV file (XYZ format)")
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if not io.file_exists(tree.odm_georeferencing_xyz_file) or rerun:
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system.run("pdal translate -i \"{}\" "
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"-o \"{}\" "
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"--writers.text.format=csv "
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"--writers.text.order=\"X,Y,Z\" "
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"--writers.text.keep_unspecified=false ".format(
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tree.odm_georeferencing_model_laz,
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tree.odm_georeferencing_xyz_file))
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else:
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log.ODM_WARNING("Found existing CSV file %s" % tree.odm_georeferencing_xyz_file)
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# LAS point cloud output
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if args.pc_las:
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log.ODM_INFO("Creating LAS file")
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if not io.file_exists(tree.odm_georeferencing_model_las) or rerun:
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system.run("pdal translate -i \"{}\" "
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"-o \"{}\" ".format(
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tree.odm_georeferencing_model_laz,
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tree.odm_georeferencing_model_las))
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else:
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log.ODM_WARNING("Found existing LAS file %s" % tree.odm_georeferencing_xyz_file)
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# EPT point cloud output
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if args.pc_ept:
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log.ODM_INFO("Creating Entwine Point Tile output")
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entwine.build([tree.odm_georeferencing_model_laz], tree.entwine_pointcloud, max_concurrency=args.max_concurrency, rerun=rerun)
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# COPC point clouds
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if args.pc_copc:
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log.ODM_INFO("Creating Cloud Optimized Point Cloud (COPC)")
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copc_output = io.related_file_path(tree.odm_georeferencing_model_laz, postfix=".copc")
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entwine.build_copc([tree.odm_georeferencing_model_laz], copc_output) |