Ich möchte einige eigenständige Skripte schreiben, die die Verarbeitungs-Toolbox von Qgis verwenden.
Ich habe einige Themen gelesen ( hier und hier , z. B.), konnte aber noch keine funktionierende Lösung finden.
Verwenden von Qgis 2.16.1 unter Ubuntu Xenial 16.04 LTS
Der Importabschnitt meines Skripts sieht folgendermaßen aus:
# Python modules
import sys
import time
import os
# Qgis modules
from qgis.core import *
import qgis.utils
from PyQt4.QtCore import QFileInfo, QSettings
Weiß jemand, was mir fehlt, um das Verarbeitungsmodul importieren zu können?
Mit einer einfachen Importverarbeitung erhalte ich Folgendes:
Original exception was:
Traceback (most recent call last):
File "/home/steph/Documents/Projets/20141227-CIM_Bishkek/Scripts/python/00-projets/20160811-AnalysesUAVs/20160811-UAVAnalyse.py", line 36, in <module>
import processing
File "/usr/lib/python2.7/dist-packages/qgis/utils.py", line 607, in _import
mod = _builtin_import(name, globals, locals, fromlist, level)
ImportError: No module named processing
EDIT (nach Josephs Kommentar)
Ich habe es so versucht:
# Python modules
import sys
import time
import os
# Qgis modules
from qgis.core import *
import qgis.utils
from PyQt4.QtGui import *
app = QApplication([])
QgsApplication.setPrefixPath("/usr", True)
QgsApplication.initQgis()
from PyQt4.QtCore import QFileInfo, QSettings
#from PyQt4.QtGui import *
# Prepare processing framework
sys.path.append('/home/steph/.qgis2/python/plugins')
from processing.core.Processing import Processing
Processing.initialize()
from processing.tools import *
aber das Verhalten ist seltsam: Mein Skript läuft bis zum Ende ohne Fehler, scheint aber über die Aufgaben zu "springen", die es ausführen soll :-) Mit anderen Worten, es läuft bis zum Ende, aber ohne etwas zu tun.
Ich gebe zu, dass meine Erklärung nicht sehr klar ist ... Ich werde weiter nachforschen, aber wenn jemand eine magische Lösung (keine Problemumgehung) hat, um dieses Modul zu importieren, dann bitte!
EDIT 2: mein gesamtes Skript hinzufügen. Entschuldigung, wenn es etwas lang ist ....
# -*- coding: cp1252 -*-
########################################################
## Name: Performs various analyses on UAV imagery using Qgis
## Source Name: UAVanalyse.py
## Version: Python 2.7
## Author: Stephane Henriod
## Usage: Performs a set of analyses on UAV imagery
## Date 11.08.2016
## Modified:
########################################################
# Import required modules
# Python modules
import sys
import time
import os
# Qgis modules
from qgis.core import *
import qgis.utils
from PyQt4.QtCore import QFileInfo, QSettings
# Custom modules
from config_work import *
import display_msg as disp
import clean_time as cl
def make_raster_layer(raster, log_file):
"""Creates a raster layer from the path to a raster, if the path exists and if the raster is valid
Param_in:
raster (string) -- The path to the raster to be transformed into a layer
log_file (string) -- The path to the log file to write in
Param_out:
list:
[0] = full path to the raster
[1] = raster layer
"""
if os.path.exists(raster):
fileName = raster
fileInfo = QFileInfo(fileName)
baseName = fileInfo.baseName()
rlayer = QgsRasterLayer(fileName, baseName)
if rlayer.isValid():
return [raster, rlayer]
else:
return False
def study_raster(rlayer, log_file):
"""Returns properties of a raster, if this one exists and is valid
Param_in:
rlayer (bin) -- A raster layer
log_file (string) -- The path to the log file to write in
"""
infos = {}
if rlayer:
infos['a - Width'] = rlayer.width()
infos['b - Height'] = rlayer.height()
infos['c - Extent'] = rlayer.extent().toString()
infos['d - # bands'] = rlayer.bandCount()
infos['e - X resolution'] = rlayer.rasterUnitsPerPixelX()
infos['f - Y resolution'] = rlayer.rasterUnitsPerPixelY()
return infos
else:
return False
def project_raster(raster, to_crs, log_file):
"""Projects a raster into another crs
Param_in:
raster (string) -- The path to the raster to be transformed into a layer
to_crs (string) -- The coordinate reference system to which the layer must be projected
log_file (string) -- The path to the log file to write in
"""
img_out_name = os.path.splitext(os.path.basename(raster))[0] + '_proj' + os.path.splitext(os.path.basename(raster))[1]
img_out = os.path.join(output_folder, img_out_name)
#processing.runalg("gdalwarp -overwrite -s_srs EPSG:32642 -t_srs " + to_crs + " " + rlayer[0] + " " + img_out)
msg = img_out
disp.display_msg(log_file, msg, 'a')
return img_out_name
if __name__ == "__main__":
t_start_script = time.localtime()
t_start_script_clean = time.strftime("%Y%m%d-%H%M", t_start_script)
# Checking the folders
if not os.path.exists(input_folder_path):
os.makedirs(input_folder_path)
if not os.path.exists(temp_folder_path):
os.makedirs(temp_folder_path)
if not os.path.exists(output_folder_path):
os.makedirs(output_folder_path)
# Creating the output and temp folders
output_folder = os.path.join(output_folder_path, t_start_script_clean + '-UAVanalyse')
temp_folder = os.path.join(temp_folder_path, t_start_script_clean + '-UAVanalyse')
if not os.path.exists(output_folder):
os.makedirs(output_folder)
if not os.path.exists(temp_folder):
os.makedirs(temp_folder)
# Creating the log file
log_file_name = t_start_script_clean + '-UAVanalyse.log'
log_file = os.path.join(output_folder, log_file_name)
# Heading of the log file
msg = "Performs a set of analyses on UAV imagery" + os.linesep
msg += "Input folder: " + input_folder_path
msg += "\n RGB image: " + img_rgb_name
msg += "\n NIR image: " + img_nir_name
msg += "\n RGBIR image: " + img_rgbir_name
msg += "\n DSM file: " + img_dsm_name
disp.display_msg(log_file, msg, 'w')
#msg = "Script started on " + cl.clean_time(t_start_script)
#disp.display_msg(log_file, msg, 'a')
# Initialize Qgis (source: http://docs.qgis.org/testing/en/docs/pyqgis_developer_cookbook/intro.html)
msg = 'Initialize Qgis'
disp.display_msg(log_file, msg, 'a')
# supply path to qgis install location
QgsApplication.setPrefixPath("/usr", True)
# create a reference to the QgsApplication, setting the
# second argument to False disables the GUI
qgs = QgsApplication([], False)
# load providers
qgs.initQgis()
# Write your code here to load some layers, use processing algorithms, etc.
# Make raster layers
rlayer_rgb = make_raster_layer(img_rgb, log_file)
rlayer_nir = make_raster_layer(img_nir, log_file)
rlayer_rgbir = make_raster_layer(img_rgbir, log_file)
rlayer_dsm = make_raster_layer(img_dsm, log_file)
all_valid_layers = []
if rlayer_rgb: all_valid_layers.append(rlayer_rgb)
if rlayer_nir: all_valid_layers.append(rlayer_nir)
if rlayer_rgbir: all_valid_layers.append(rlayer_rgbir)
if rlayer_dsm: all_valid_layers.append(rlayer_dsm)
# (I) Infos about the layers
msg = os.linesep + frm_separator + os.linesep + '(I) Infos about the layers' + os.linesep + frm_separator + os.linesep
disp.display_msg(log_file, msg, 'a')
i = 1
for layer in all_valid_layers:
infos = study_raster(layer[1], log_file)
msg = '\n (' + str(i) + ') ' + layer[0] + os.linesep
for item in sorted(infos):
msg += '\n ' + str(item) + ': ' + str(infos[item]) + os.linesep
i+=1
disp.display_msg(log_file, msg, 'a')
msg = 'List of valid layers:' + os.linesep
for layer in all_valid_layers:
msg += layer[0]+ os.linesep
disp.display_msg(log_file, msg, 'a')
# (II) Projects the layers into the national coordinate system or any desired system
msg = os.linesep + frm_separator + os.linesep + '(II) Projecting of the layers' + os.linesep + frm_separator + os.linesep
disp.display_msg(log_file, msg, 'a')
i = 1
for layer in all_valid_layers:
project_raster(layer[0], to_crs, log_file)
# When script is complete, call exitQgis() to remove the provider and
# layer registries from memory
qgs.exitQgis()
msg = 'Qgis has been closed'
disp.display_msg(log_file, msg, 'a')
#raw_input("Press Enter to continue...")