QGIS/python/plugins/processing/algs/qgis/DensifyGeometries.py

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

"""
***************************************************************************
    DensifyGeometries.py
    ---------------------
    Date                 : October 2012
    Copyright            : (C) 2012 by Victor Olaya
    Email                : volayaf 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__ = 'Victor Olaya'
__date__ = 'October 2012'
__copyright__ = '(C) 2012, Victor Olaya'

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

__revision__ = '$Format:%H$'

from qgis.core import QGis, QgsFeature, QgsGeometry, QgsPoint

from processing.core.GeoAlgorithm import GeoAlgorithm
from processing.core.parameters import ParameterVector
from processing.core.parameters import ParameterNumber
from processing.core.outputs import OutputVector
from processing.tools import dataobjects, vector


class DensifyGeometries(GeoAlgorithm):

    INPUT = 'INPUT'
    VERTICES = 'VERTICES'
    OUTPUT = 'OUTPUT'

    def defineCharacteristics(self):
        self.name = 'Densify geometries'
        self.group = 'Vector geometry tools'

        self.addParameter(ParameterVector(self.INPUT,
            self.tr('Input layer'),
            [ParameterVector.VECTOR_TYPE_POLYGON, ParameterVector.VECTOR_TYPE_LINE]))
        self.addParameter(ParameterNumber(self.VERTICES,
            self.tr('Vertices to add'), 1, 10000000, 1))

        self.addOutput(OutputVector(self.OUTPUT,
            self.tr('Densified layer')))

    def processAlgorithm(self, progress):
        layer = dataobjects.getObjectFromUri(
            self.getParameterValue(self.INPUT))
        vertices = self.getParameterValue(self.VERTICES)

        isPolygon = layer.geometryType() == QGis.Polygon

        writer = self.getOutputFromName(
            self.OUTPUT).getVectorWriter(layer.pendingFields().toList(),
                                         layer.wkbType(), layer.crs())

        features = vector.features(layer)
        total = 100.0 / float(len(features))
        current = 0
        for f in features:
            featGeometry = QgsGeometry(f.geometry())
            attrs = f.attributes()
            newGeometry = self.densifyGeometry(featGeometry, int(vertices),
                    isPolygon)
            feature = QgsFeature()
            feature.setGeometry(newGeometry)
            feature.setAttributes(attrs)
            writer.addFeature(feature)
            current += 1
            progress.setPercentage(int(current * total))

        del writer

    def densifyGeometry(self, geometry, pointsNumber, isPolygon):
        output = []
        if isPolygon:
            if geometry.isMultipart():
                polygons = geometry.asMultiPolygon()
                for poly in polygons:
                    p = []
                    for ring in poly:
                        p.append(self.densify(ring, pointsNumber))
                    output.append(p)
                return QgsGeometry.fromMultiPolygon(output)
            else:
                rings = geometry.asPolygon()
                for ring in rings:
                    output.append(self.densify(ring, pointsNumber))
                return QgsGeometry.fromPolygon(output)
        else:
            if geometry.isMultipart():
                lines = geometry.asMultiPolyline()
                for points in lines:
                    output.append(self.densify(points, pointsNumber))
                return QgsGeometry.fromMultiPolyline(output)
            else:
                points = geometry.asPolyline()
                output = self.densify(points, pointsNumber)
                return QgsGeometry.fromPolyline(output)

    def densify(self, polyline, pointsNumber):
        output = []
        if pointsNumber != 1:
            multiplier = 1.0 / float(pointsNumber + 1)
        else:
            multiplier = 1
        for i in xrange(len(polyline) - 1):
            p1 = polyline[i]
            p2 = polyline[i + 1]
            output.append(p1)
            for j in xrange(pointsNumber):
                delta = multiplier * (j + 1)
                x = p1.x() + delta * (p2.x() - p1.x())
                y = p1.y() + delta * (p2.y() - p1.y())
                output.append(QgsPoint(x, y))
                if j + 1 == pointsNumber:
                    break
        output.append(polyline[len(polyline) - 1])
        return output