File: GridInvDist.py

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# -*- coding: utf-8 -*-

"""
***************************************************************************
    GridInvDist.py
    ---------------------
    Date                 : October 2013
    Copyright            : (C) 2013 by Alexander Bruy
    Email                : alexander dot bruy at gmail dot com
***************************************************************************
*                                                                         *
*   This program is free software; you can redistribute it and/or modify  *
*   it under the terms of the GNU General Public License as published by  *
*   the Free Software Foundation; either version 2 of the License, or     *
*   (at your option) any later version.                                   *
*                                                                         *
***************************************************************************
"""

__author__ = 'Alexander Bruy'
__date__ = 'October 2013'
__copyright__ = '(C) 2013, Alexander Bruy'

# This will get replaced with a git SHA1 when you do a git archive

__revision__ = '$Format:%H$'


import os

from processing.algs.gdal.GdalAlgorithm import GdalAlgorithm
from processing.core.parameters import ParameterVector
from processing.core.parameters import ParameterTableField
from processing.core.parameters import ParameterNumber
from processing.core.parameters import ParameterSelection
from processing.core.outputs import OutputRaster
from processing.algs.gdal.GdalUtils import GdalUtils


class GridInvDist(GdalAlgorithm):

    INPUT = 'INPUT'
    Z_FIELD = 'Z_FIELD'
    POWER = 'POWER'
    SMOTHING = 'SMOTHING'
    RADIUS_1 = 'RADIUS_1'
    RADIUS_2 = 'RADIUS_2'
    MAX_POINTS = 'MAX_POINTS'
    MIN_POINTS = 'MIN_POINTS'
    ANGLE = 'ANGLE'
    NODATA = 'NODATA'
    OUTPUT = 'OUTPUT'
    RTYPE = 'RTYPE'

    TYPE = ['Byte', 'Int16', 'UInt16', 'UInt32', 'Int32', 'Float32', 'Float64']

    def commandLineName(self):
        return "gdalogr:gridinvdist"

    def defineCharacteristics(self):
        self.name, self.i18n_name = self.trAlgorithm('Grid (Inverse distance to a power)')
        self.group, self.i18n_group = self.trAlgorithm('[GDAL] Analysis')
        self.addParameter(ParameterVector(self.INPUT,
                                          self.tr('Input layer'), [ParameterVector.VECTOR_TYPE_POINT]))
        self.addParameter(ParameterTableField(self.Z_FIELD,
                                              self.tr('Z field'), self.INPUT,
                                              ParameterTableField.DATA_TYPE_NUMBER, True))
        self.addParameter(ParameterNumber(self.POWER,
                                          self.tr('Power'), 0, 100.0, 2.0))
        self.addParameter(ParameterNumber(self.SMOTHING,
                                          self.tr('Smoothing'), 0.0, 99999999.999999, 0.0))
        self.addParameter(ParameterNumber(self.RADIUS_1,
                                          self.tr('Radius 1'), 0.0, 99999999.999999, 0.0))
        self.addParameter(ParameterNumber(self.RADIUS_2,
                                          self.tr('Radius 2'), 0.0, 99999999.999999, 0.0))
        self.addParameter(ParameterNumber(self.MAX_POINTS,
                                          self.tr('Max points'), 0.0, 99999999.999999, 0.0))
        self.addParameter(ParameterNumber(self.MIN_POINTS,
                                          self.tr('Min points'), 0.0, 99999999.999999, 0.0))
        self.addParameter(ParameterNumber(self.ANGLE,
                                          self.tr('Angle'), 0.0, 359.0, 0.0))
        self.addParameter(ParameterNumber(self.NODATA,
                                          self.tr('Nodata'), -99999999.999999, 99999999.999999, 0.0))
        self.addParameter(ParameterSelection(self.RTYPE,
                                             self.tr('Output raster type'), self.TYPE, 5))

        self.addOutput(OutputRaster(self.OUTPUT, self.tr('Interpolated IDW')))

    def getConsoleCommands(self):
        arguments = ['-l']
        arguments.append(
            os.path.basename(os.path.splitext(
                unicode(self.getParameterValue(self.INPUT)))[0]))

        fieldName = self.getParameterValue(self.Z_FIELD)
        if fieldName is not None and fieldName != '':
            arguments.append('-zfield')
            arguments.append(fieldName)

        params = 'invdist'
        params += ':power=%s' % self.getParameterValue(self.POWER)
        params += ':smothing=%s' % self.getParameterValue(self.SMOTHING)
        params += ':radius1=%s' % self.getParameterValue(self.RADIUS_1)
        params += ':radius2=%s' % self.getParameterValue(self.RADIUS_2)
        params += ':angle=%s' % self.getParameterValue(self.ANGLE)
        params += ':max_points=%s' % self.getParameterValue(self.MAX_POINTS)
        params += ':min_points=%s' % self.getParameterValue(self.MIN_POINTS)
        params += ':nodata=%s' % self.getParameterValue(self.NODATA)

        arguments.append('-a')
        arguments.append(params)
        arguments.append('-ot')
        arguments.append(self.TYPE[self.getParameterValue(self.RTYPE)])
        arguments.append(unicode(self.getParameterValue(self.INPUT)))
        arguments.append(unicode(self.getOutputValue(self.OUTPUT)))

        return ['gdal_grid', GdalUtils.escapeAndJoin(arguments)]