ld2daps/raster_assistant.py

#!/usr/bin/python
# -*- coding: utf-8 -*-
# \file raster_assistant.py
# \brief TODO
# \author Florent Guiotte <florent.guiotte@gmail.com>
# \version 0.1
# \date 03 juil. 2018
#
# TODO details

import sys
from pathlib import Path
import numpy as np
import matplotlib.pyplot as plt
import laspy
sys.path.append('../triskele/python/')
import triskele
import rasterizer

def rasterize_cache(data, field, resolution=1., method='linear', reverse_alt=False, cache_dir='/tmp'):
    """Cache layer for rasterize"""
    
    cache_dir = Path(cache_dir)
    name = '{}_{}_{}_{}{}'.format(data.name, field, str(resolution).replace('.', '_'), method,
                                  '_reversed' if reverse_alt else '')
    png_file = cache_dir.joinpath(Path(name + '.png'))
    tif_file = cache_dir.joinpath(Path(name + '.tif'))
    
    if tif_file.exists() :
        print ('WARNING: Loading cached result {}'.format(tif_file))
        raster = triskele.read(tif_file)
    else:
        raster = rasterizer.rasterize(data.spatial, getattr(data, field), resolution, method, reverse_alt, np.float32)
        triskele.write(tif_file, raster)
        plt.imsave(png_file, raster)
        
    return raster

def find_las(path):
    path = Path(path)
    las = list()
    
    if path.is_dir():
        for child in path.iterdir():
            las.extend(find_las(child))
    
    if path.is_file() and path.suffix == '.las':
        las.append(path)
    
    return las

def extremum_filter(data, treshold=.5):
    tresholds = np.percentile(data, [treshold, 100 - treshold])
    return np.logical_or(data < tresholds[0], data > tresholds[1])

def auto_filter(data, treshold=.5):
    tresholds = np.percentile(data, [treshold, 100 - treshold])

    data[data < tresholds[0]] = tresholds[0]
    data[data > tresholds[1]] = tresholds[1]
    
def bulk_load(path, name=None, filter_treshold=.1, dtype=None):
    data = {'file': path, 'name': name}

    attributes = ['x', 'y', 'z', 'intensity', 'num_returns']#, 'scan_angle_rank', 'pt_src_id', 'gps_time']
    for a in attributes:
        data[a] = list()
        
    print('Load data...')
    for f in find_las(path):
        print('{}: '.format(f), end='')
        infile = laspy.file.File(f)
        for i, a in enumerate(attributes):
            print('\r {}: [{:3d}%]'.format(f, int(i/len(attributes) * 100)), end='')
            data[a].extend(getattr(infile, a))
        infile.close()
        print('\r {}: [Done]'.format(f))

    
    print('Create matrices...', end='')
    for i, a in enumerate(attributes):
        print('\rCreate matrices: [{:3d}%]'.format(int(i/len(attributes) * 100)), end='')
        data[a] = np.array(data[a], dtype=dtype)
    print('\rCreate matrices: [Done]')
        
    print('Filter data...', end='')
    Z = data['z'].copy()
    auto_filter(Z)
    data['spatial'] = np.array((data['x'], data['y'], Z)).T
    del Z
    
    t = .1
    efilter = np.logical_or(extremum_filter(data['intensity'], t), extremum_filter(data['z']))
    
    attributes.append('spatial')
    for i, a in enumerate(attributes):
        print('\rFilter data: [{:3d}%]'.format(int(i/len(attributes) * 100)), end='')
        data[a] = data[a][np.logical_not(efilter)]
    print('\rFilter data: [Done]')
    
    class TMPLAS(object):
        def __init__(self, d):
            self.__dict__.update(d)
            
    return TMPLAS(data)