import io import os import subprocess import pandas as pd def call_lastools(tool_name, input, output=None, args=None, verbose=True): """Send commands to the lastools library. Requires lastools in system path. Args: tool_name: name of lastools binary input: bytes from stdout, or path to main input data output: '-stdout' to pipe output, or path to main output data args: list of additional arguments, formatted for lastools verbose: show all warnings and messages from lastools (boolean) Returns: bytes of output las, if output='-stdout' None, if output='path/to/las/file' Examples: # Convert xyz file to las and pipe stdout to a python bytes object las_data = call_lastools('txt2las', input='points.xyz', output='-stdout', args=['-parse', 'sxyz']) # Clip las_data with a shapefile, and save to a new las file call_lastools('lasclip', input=las_data, output='points.las', args=['-poly', 'boundary.shp']) """ # Start building command string cmd = [tool_name] # Parse input if type(input) == bytes: # Pipe input las bytes to stdin cmd += ['-stdin'] stdin = input else: # Load las from file path cmd += ['-i', input] stdin = None # Parse output if output == '-stdout': # Pipe output las to stdout cmd += ['-stdout'] elif output: # Save output las to file cmd += ['-o', output] # Append additional lastools arguments, if provided if args: cmd += [str(a) for a in args] process = subprocess.Popen( cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE) stdout, stderr = process.communicate(input=stdin) # Handle errors, if detected if process.returncode != 0: print("Error: {} failed on {}".format(tool_name, os.path.basename(input))) print(stderr.decode()) elif verbose: # Print addional messages if verbose mode is being used print(stderr.decode()) # Output piped stdout if required if output == '-stdout': return stdout else: return None def extract_pts(las_in, cp_in, survey_date, beach, args=None, verbose=True): """Extract elevations from a las surface based on x and y coordinates. Requires lastools in system path. Args: las_in: bytes from stdout, or path to main input data cp_in: point coordinates with columns: id, x, y, z (csv) survey_date: survey date string, e.g. '19700101' beach: beach name args: list of additional arguments, formatted for lastools verbose: show all warnings and messages from lastools (boolean) Returns: Dataframe containing input coordinates with extracted elevations Examples: # Extract elevations from 'points.las', using control points from 'cp.csv' # Specify control point format as: id, x, y, z ('-parse', 'sxyz') # Only use points classified as 'ground' ('-keep_class', '2') extract_pts('points.las', 'cp.csv', survey_date='20001231', beach='manly', args=['-parse', 'sxyz', '-keep_class', '2']) """ # Assemble lastools arguments if args: args = ['-cp', cp_in] + args else: args = ['-cp', cp_in] las_data = call_lastools( 'lascontrol', input=las_in, output='-stdout', args=args, verbose=False) # Load result into pandas dataframe df = pd.read_csv(io.BytesIO(las_data)) # Tidy up dataframe df = df.drop(columns=['diff']) df['lidar_z'] = pd.to_numeric(df['lidar_z'], errors='coerce') df['Beach'] = beach df = df[[ 'Beach', 'ProfileNum', 'Easting', 'Northing', 'Chainage', 'lidar_z' ]] # Rename columns new_names = { 'ProfileNum': 'Profile', 'lidar_z': 'Elevation_{}'.format(survey_date), } df = df.rename(columns=new_names) return df def update_survey_output(df, output_dir): """Update survey profile output csv files with current survey. Args: df: dataframe containing current survey elevations output_dir: directory where csv files are saved Returns: True if current survey is latest, otherwise False """ # Merge current survey with existing data profiles = df['Profile'].unique() for profile in profiles: csv_name = os.path.join(output_dir, profile + '.csv') # Extract survey data for current profile current_profile = df[df['Profile'] == profile] try: # Load existing results master = pd.read_csv(csv_name) except FileNotFoundError: master = current_profile.copy() # Add (or update) current survey current_survey_col = current_profile.columns[-1] master[current_survey_col] = current_profile[current_survey_col].values # Prepare output directory try: os.makedirs(output_dir) except FileExistsError: pass # Ensure survey dates are in correct order elev_cols = sorted([col for col in master.columns if 'Elevation' in col]) other_cols = [col for col in master.columns if 'Elevation' not in col] master = master[other_cols + elev_cols] # Export updated results master.to_csv(csv_name, index=False, float_format='%0.3f')