refactor: separar PVPlantGeoreferencing, PVPlantImportGrid y PVPlantPlacement en submodulos

- PVPlantGeoreferencing → PVPlant/core/georef.py
- PVPlantImportGrid → PVPlant/import_grid/grid.py
- PVPlantPlacement → PVPlant/placement/placement.py

Los archivos originales ahora son wrappers de compatibilidad.
Preparado para revisión exhaustiva de PVPlantPlacement.

.gitignore

@@ -1,2 +0,0 @@
-__pycache__/
-*.pyc

Civil/PVPlantTrench.py

@@ -114,7 +114,7 @@ def makeTrench(base=None):
 
     try:
         folder = FreeCAD.ActiveDocument.Trenches
-    except AttributeError:
+    except:
         folder = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", 'Trenches')
         folder.Label = "Trenches"
     folder.addObject(obj)

Importer/importOSM.py

@@ -7,7 +7,6 @@ import ssl
 import certifi
 import urllib.request
 import math
-import utm
 from collections import defaultdict
 import PVPlantImportGrid as ImportElevation
 

PVPlant/__init__.py

@@ -0,0 +1,5 @@
+# PVPlant - Paquete reestructurado
+#
+# Los imports legacy (from PVPlantSite import X, etc.) siguen funcionando.
+# Para nuevo código, usar: from PVPlant.core.site import _PVPlantSite
+

PVPlant/core/georef.py

@@ -0,0 +1,422 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2021 Javier Braña <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+import FreeCAD
+
+if FreeCAD.GuiUp:
+    import FreeCADGui
+    from PySide import QtCore, QtGui
+    from PySide.QtCore import QT_TRANSLATE_NOOP
+
+    import os
+else:
+    # \cond
+    def translate(ctxt,txt):
+        return txt
+    def QT_TRANSLATE_NOOP(ctxt,txt):
+        return txt
+    # \endcond
+
+import PVPlantResources
+from PVPlantResources import DirIcons as DirIcons
+from PVPlantResources import DirResources as DirResources
+
+
+class MapWindow(QtGui.QWidget):
+    def __init__(self, WinTitle="MapWindow"):
+        super(MapWindow, self).__init__()
+        self.raise_()
+        self.lat = None
+        self.lon = None
+        self.minLat = None
+        self.maxLat = None
+        self.minLon = None
+        self.maxLon = None
+        self.zoom = None
+        self.WinTitle = WinTitle
+        self.georeference_coordinates = {'lat': None, 'lon': None}
+        self.setupUi()
+
+    def setupUi(self):
+        from PySide2.QtWebEngineWidgets import QWebEngineView
+        from PySide2.QtWebChannel import QWebChannel
+
+        self.ui = FreeCADGui.PySideUic.loadUi(PVPlantResources.__dir__ + "/PVPlantGeoreferencing.ui", self)
+
+        self.resize(1200, 800)
+        self.setWindowTitle(self.WinTitle)
+        self.setWindowIcon(QtGui.QIcon(os.path.join(DirIcons, "Location.svg")))
+        self.setWindowFlags(QtCore.Qt.WindowStaysOnTopHint)
+
+        self.layout = QtGui.QHBoxLayout(self)
+        self.layout.setContentsMargins(4, 4, 4, 4)
+
+        LeftWidget = QtGui.QWidget(self)
+        LeftLayout = QtGui.QVBoxLayout(LeftWidget)
+        LeftWidget.setLayout(LeftLayout)
+        LeftLayout.setContentsMargins(0, 0, 0, 0)
+
+        RightWidget = QtGui.QWidget(self)
+        RightWidget.setFixedWidth(350)
+        RightLayout = QtGui.QVBoxLayout(RightWidget)
+        RightWidget.setLayout(RightLayout)
+        RightLayout.setContentsMargins(0, 0, 0, 0)
+
+        self.layout.addWidget(LeftWidget)
+        self.layout.addWidget(RightWidget)
+
+        # Left Widgets:
+        # -- Search Bar:
+        self.valueSearch = QtGui.QLineEdit(self)
+        self.valueSearch.setPlaceholderText("Search")
+        self.valueSearch.returnPressed.connect(self.onSearch)
+
+        searchbutton = QtGui.QPushButton('Search')
+        searchbutton.setFixedWidth(80)
+        searchbutton.clicked.connect(self.onSearch)
+
+        SearchBarLayout = QtGui.QHBoxLayout(self)
+        SearchBarLayout.addWidget(self.valueSearch)
+        SearchBarLayout.addWidget(searchbutton)
+        LeftLayout.addLayout(SearchBarLayout)
+
+        # -- Webbroser:
+        self.view = QWebEngineView()
+        self.channel = QWebChannel(self.view.page())
+        self.view.page().setWebChannel(self.channel)
+        self.channel.registerObject("MyApp", self)
+        file = os.path.join(DirResources, "webs", "main.html")
+        self.view.page().loadFinished.connect(self.onLoadFinished)
+        self.view.page().load(QtCore.QUrl.fromLocalFile(file))
+        LeftLayout.addWidget(self.view)
+
+        # -- Latitud y longitud:
+        self.labelCoordinates = QtGui.QLabel()
+        self.labelCoordinates.setFixedHeight(21)
+        LeftLayout.addWidget(self.labelCoordinates)
+
+        # Right Widgets:
+        labelKMZ = QtGui.QLabel()
+        labelKMZ.setText("Cargar un archivo KMZ/KML:")
+        self.kmlButton = QtGui.QPushButton()
+        self.kmlButton.setFixedSize(32, 32)
+        self.kmlButton.setIcon(QtGui.QIcon(os.path.join(DirIcons, "googleearth.svg")))
+        widget = QtGui.QWidget(self)
+        layout = QtGui.QHBoxLayout(widget)
+        widget.setLayout(layout)
+        layout.addWidget(labelKMZ)
+        layout.addWidget(self.kmlButton)
+        RightLayout.addWidget(widget)
+
+        # -----------------------
+        self.groupbox = QtGui.QGroupBox("Importar datos desde:")
+        self.groupbox.setCheckable(True)
+        self.groupbox.setChecked(True)
+        radio1 = QtGui.QRadioButton("Google Elevation")
+        radio2 = QtGui.QRadioButton("Nube de Puntos")
+        radio3 = QtGui.QRadioButton("Datos GPS")
+        radio1.setChecked(True)
+
+        vbox = QtGui.QVBoxLayout(self)
+        vbox.addWidget(radio1)
+        vbox.addWidget(radio2)
+        vbox.addWidget(radio3)
+
+        self.groupbox.setLayout(vbox)
+        RightLayout.addWidget(self.groupbox)
+        # ------------------------
+
+        self.checkboxImportGis = QtGui.QCheckBox("Importar datos GIS")
+        RightLayout.addWidget(self.checkboxImportGis)
+
+        self.checkboxImportSatelitalImagen = QtGui.QCheckBox("Importar Imagen Satelital")
+        RightLayout.addWidget(self.checkboxImportSatelitalImagen)
+
+        verticalSpacer = QtGui.QSpacerItem(20, 48, QtGui.QSizePolicy.Minimum, QtGui.QSizePolicy.Expanding)
+        RightLayout.addItem(verticalSpacer)
+
+        self.bAccept = QtGui.QPushButton('Accept')
+        self.bAccept.clicked.connect(self.onAcceptClick)
+        RightLayout.addWidget(self.bAccept)
+
+        # signals/slots
+        QtCore.QObject.connect(self.kmlButton, QtCore.SIGNAL("clicked()"), self.importKML)
+
+
+    def onLoadFinished(self):
+        file = os.path.join(DirResources, "webs", "map.js")
+        frame = self.view.page()
+        with open(file, 'r') as f:
+            frame.runJavaScript(f.read())
+
+    def onSearch(self):
+        if self.valueSearch.text() == "":
+            return
+
+        from geopy.geocoders import Nominatim
+
+        geolocator = Nominatim(user_agent="http")
+        location = geolocator.geocode(self.valueSearch.text())
+        self.valueSearch.setText(location.address)
+        self.panMap(location.longitude, location.latitude, location.raw['boundingbox'])
+
+    def onAcceptClick(self):
+        frame = self.view.page()
+        # 1. georeferenciar
+        frame.runJavaScript(
+            "MyApp.georeference(drawnItems.getBounds().getCenter().lat, drawnItems.getBounds().getCenter().lng);"
+        )
+
+        # 2. importar todos los elementos dibujados:
+        frame.runJavaScript(
+            "var data = drawnItems.toGeoJSON();"
+            "MyApp.shapes(JSON.stringify(data));"
+        )
+
+        self.close()
+
+    @QtCore.Slot(float, float)
+    def onMapMove(self, lat, lng):
+        from lib.projection import latlon_to_utm
+
+        self.lat = lat
+        self.lon = lng
+        easting, northing, zone_number, zone_letter = latlon_to_utm(lat, lng)
+        self.labelCoordinates.setText('Longitud: {:.5f}, Latitud: {:.5f}'.format(lng, lat) +
+                                      '  |  UTM: ' + str(zone_number) + zone_letter +
+                                      ', {:.5f}m E, {:.5f}m N'.format(easting, northing))
+
+    @QtCore.Slot(float, float, float, float, int)
+    def onMapZoom(self, minLat, minLon, maxLat, maxLon, zoom):
+        self.minLat = min([minLat, maxLat])
+        self.maxLat = max([minLat, maxLat])
+        self.minLon = min([minLon, maxLon])
+        self.maxLon = max([minLon, maxLon])
+        self.zoom = zoom
+
+    @QtCore.Slot(float, float)
+    def georeference(self, lat, lng):
+        import PVPlantSite
+        from geopy.geocoders import Nominatim
+
+        self.georeference_coordinates['lat'] = lat
+        self.georeference_coordinates['lon'] = lng
+
+        Site = PVPlantSite.get(create=True)
+        Site.Proxy.setLatLon(lat, lng)
+
+        geolocator = Nominatim(user_agent="http")
+        location = geolocator.reverse('{:.5f}, {:.5f}'.format(lat, lng))
+        if location:
+            if location.raw["address"].get("road"):
+                str = location.raw["address"]["road"]
+                if location.raw["address"].get("house_number"):
+                    str += ' ({0})'.format(location.raw["address"]["house_number"])
+                Site.Address = str
+            if location.raw["address"].get("city"):
+                Site.City = location.raw["address"]["city"]
+            if location.raw["address"].get("postcode"):
+                Site.PostalCode = location.raw["address"]["postcode"]
+            if location.raw["address"].get("address"):
+                Site.Region = '{0}'.format(location.raw["address"]["province"])
+            if location.raw["address"].get("state"):
+                if Site.Region != "":
+                    Site.Region += " - "
+                Site.Region += '{0}'.format(location.raw["address"]["state"])
+            Site.Country = location.raw["address"]["country"]
+
+    @QtCore.Slot(str)
+    def shapes(self, drawnItems):
+        import geojson
+        import PVPlantImportGrid as ImportElevation
+        import Draft
+        import PVPlantSite
+        Site = PVPlantSite.get()
+
+        offset = FreeCAD.Vector(0, 0, 0)
+        if not (self.lat is None or self.lon is None):
+            offset = FreeCAD.Vector(Site.Origin)
+            offset.z = 0
+
+        items = geojson.loads(drawnItems)
+        for item in items['features']:
+            if item['geometry']['type'] == "Point":     # 1. if the feature is a Point or Circle:
+                coord = item['geometry']['coordinates']
+                point = ImportElevation.getElevationFromOE([[coord[1], coord[0]],])
+                c = FreeCAD.Vector(point[0][0], point[0][1], point[0][2]).sub(offset)
+                if item['properties'].get('radius'):
+                    r = round(item['properties']['radius'] * 1000, 0)
+                    p = FreeCAD.Placement()
+                    p.Base = c
+                    obj = Draft.makeCircle(r, placement=p, face=False)
+                else:
+                    obj = Draft.make_point(c * 1000, color=(0.5, 0.3, 0.6), point_size=10)
+            else:                                       # 2. if the feature is a Polygon or Line:
+                cw = False
+                name = "Línea"
+                lp = item['geometry']['coordinates']
+                if item['geometry']['type'] == "Polygon":
+                    cw = True
+                    name = "Area"
+                    lp = item['geometry']['coordinates'][0]
+
+                pts = [[cords[1], cords[0]] for cords in lp]
+                tmp = ImportElevation.getElevationFromOE(pts)
+                pts = [p.sub(offset) for p in tmp]
+
+                obj = Draft.makeWire(pts, closed=cw, face=False)
+                obj.Label = name
+                Draft.autogroup(obj)
+
+            if item['properties'].get('name'):
+                obj.Label = item['properties']['name']
+
+        if self.checkboxImportGis.isChecked():
+            self.getDataFromOSM(self.minLat, self.minLon, self.maxLat, self.maxLon)
+
+        if self.checkboxImportSatelitalImagen.isChecked():
+            from lib.projection import latlon_to_utm
+
+            s_lat = self.minLat
+            s_lon = self.minLon
+            n_lat = self.maxLat
+            n_lon = self.maxLon
+
+            # Obtener puntos UTM para las esquinas y el punto de referencia
+            points = [
+                [s_lat, s_lon],  # Suroeste
+                [n_lat, n_lon],  # Noreste
+                [self.georeference_coordinates['lat'], self.georeference_coordinates['lon']]  # Punto de referencia
+            ]
+            utm_points = ImportElevation.getElevationFromOE(points)
+
+            if not utm_points or len(utm_points) < 3:
+                FreeCAD.Console.PrintError("Error obteniendo elevaciones para las esquinas y referencia\n")
+                return
+
+            sw_utm, ne_utm, ref_utm = utm_points
+
+            # Descargar imagen satelital
+            from lib.GoogleSatelitalImageDownload import GoogleMapDownloader
+            downloader = GoogleMapDownloader(
+                zoom=self.zoom,
+                layer='raw_satellite'
+            )
+            img = downloader.generateImage(
+                sw_lat=s_lat,
+                sw_lng=s_lon,
+                ne_lat=n_lat,
+                ne_lng=n_lon
+            )
+
+            # Guardar imagen
+            doc_path = os.path.dirname(FreeCAD.ActiveDocument.FileName) if FreeCAD.ActiveDocument.FileName else ""
+            if not doc_path:
+                doc_path = FreeCAD.ConfigGet("UserAppData")
+
+            filename = os.path.join(doc_path, "background.jpeg")
+            img.save(filename)
+
+            # Calcular dimensiones reales en metros
+            width_m = ne_utm.x - sw_utm.x
+            height_m = ne_utm.y - sw_utm.y
+
+            # Calcular posición relativa del punto de referencia dentro de la imagen
+            rel_x = (ref_utm.x - sw_utm.x) / width_m if width_m != 0 else 0.5
+            rel_y = (ref_utm.y - sw_utm.y) / height_m if height_m != 0 else 0.5
+
+            # Crear objeto de imagen en FreeCAD
+            doc = FreeCAD.ActiveDocument
+            img_obj = doc.addObject('Image::ImagePlane', 'Background')
+            img_obj.ImageFile = filename
+            img_obj.Label = 'Background'
+
+            # FreeCAD trabaja en mm
+            img_obj.XSize = width_m * 1000
+            img_obj.YSize = height_m * 1000
+
+            # Posicionar para que el punto de referencia esté en (0,0,0)
+            img_obj.Placement.Base = FreeCAD.Vector(
+                -rel_x * width_m * 1000,
+                -rel_y * height_m * 1000,
+                0
+            )
+
+            doc.recompute()
+
+    def getDataFromOSM(self, min_lat, min_lon, max_lat, max_lon):
+        import Importer.importOSM as importOSM
+        import PVPlantSite
+        site = PVPlantSite.get()
+
+        offset = FreeCAD.Vector(0, 0, 0)
+        if not (self.lat is None or self.lon is None):
+            offset = FreeCAD.Vector(site.Origin)
+            offset.z = 0
+        importer = importOSM.OSMImporter(offset)
+        osm_data = importer.get_osm_data(f"{min_lat},{min_lon},{max_lat},{max_lon}")
+        importer.process_osm_data(osm_data)
+
+    def panMap(self, lng, lat, geometry=None):
+        frame = self.view.page()
+
+        if not geometry or len(geometry) < 4:
+            command = f'map.panTo(L.latLng({lat}, {lng}));'
+        else:
+            try:
+                southwest = f"{float(geometry[1])}, {float(geometry[0])}"
+                northeast = f"{float(geometry[3])}, {float(geometry[2])}"
+                command = f'map.panTo(L.latLng({lat}, {lng}));'
+                command += f'map.fitBounds(L.latLngBounds([{southwest}], [{northeast}]));'
+            except (IndexError, ValueError, TypeError) as e:
+                print(f"Error en geometry: {str(e)}")
+                command = f'map.panTo(L.latLng({lat}, {lng}));'
+        frame.runJavaScript(command)
+
+    def importKML(self):
+        file = QtGui.QFileDialog.getOpenFileName(None, "FileDialog", "", "Google Earth (*.kml *.kmz)")[0]
+
+        from lib.kml2geojson import kmz_convert
+        layers = kmz_convert(file, "", )
+        frame = self.view.page()
+        for layer in layers:
+            command = "var geoJsonLayer = L.geoJSON({0}); drawnItems.addLayer(geoJsonLayer); map.fitBounds(geoJsonLayer.getBounds());".format( layer)
+            frame.runJavaScript(command)
+
+
+class CommandPVPlantGeoreferencing:
+
+    def GetResources(self):
+        return {'Pixmap': str(os.path.join(DirIcons, "Location.svg")),
+                'Accel': "G, R",
+                'MenuText': QT_TRANSLATE_NOOP("Georeferencing","Georeferencing"),
+                'ToolTip': QT_TRANSLATE_NOOP("Georeferencing","Referenciar el lugar")}
+
+    def Activated(self):
+        self.form = MapWindow()
+        self.form.show()
+
+    def IsActive(self):
+        if FreeCAD.ActiveDocument:
+            return True
+        else:
+            return False

PVPlant/core/site.py

@@ -0,0 +1,208 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2021 Javier Braña <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+import FreeCAD, Draft, math, datetime
+import ArchSite
+
+if FreeCAD.GuiUp:
+    import FreeCADGui
+    from DraftTools import translate
+    from PySide.QtCore import QT_TRANSLATE_NOOP
+    from pivy import coin
+else:
+    def translate(ctxt, txt):
+        return txt
+    def QT_TRANSLATE_NOOP(ctxt, txt):
+        return txt
+
+import os
+from PVPlantResources import DirIcons as DirIcons
+
+zone_list = ["Z1", "Z2", "Z3", "Z4", "Z5", "Z6", "Z7", "Z8", "Z9", "Z10", "Z11", "Z12",
+             "Z13", "Z14", "Z15", "Z16", "Z17", "Z18", "Z19", "Z20", "Z21", "Z22", "Z23", "Z24",
+             "Z25", "Z26", "Z27", "Z28", "Z29", "Z30", "Z31", "Z32", "Z33", "Z34", "Z35", "Z36",
+             "Z37", "Z38", "Z39", "Z40", "Z41", "Z42", "Z43", "Z44", "Z45", "Z46", "Z47", "Z48",
+             "Z49", "Z50", "Z51", "Z52", "Z53", "Z54", "Z55", "Z56", "Z57", "Z58", "Z59", "Z60"]
+
+
+def get(origin=FreeCAD.Vector(0, 0, 0), create=False):
+    obj = FreeCAD.ActiveDocument.getObject('Site')
+    if obj:
+        if obj.Origin == FreeCAD.Vector(0, 0, 0):
+            obj.Origin = origin
+        return obj
+    if not obj and create:
+        obj = makePVPlantSite()
+    return obj
+
+
+def PartToWire(part):
+    import Part, Draft
+    PointList = []
+    edges = Part.__sortEdges__(part.Shape.Edges)
+    for edge in edges:
+        PointList.append(edge.Vertexes[0].Point)
+    PointList.append(edges[-1].Vertexes[-1].Point)
+    Draft.makeWire(PointList, closed=True, face=None, support=None)
+
+
+def projectWireOnMesh(Boundary, Mesh):
+    import Draft
+    import MeshPart as mp
+    plist = mp.projectShapeOnMesh(Boundary.Shape, Mesh, FreeCAD.Vector(0, 0, 1))
+    PointList = []
+    for pl in plist:
+        PointList += pl
+    Draft.makeWire(PointList, closed=True, face=None, support=None)
+    FreeCAD.activeDocument().recompute()
+
+
+def makePVPlantSite():
+    def createGroup(father, groupname, type=None):
+        group = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", groupname)
+        group.Label = groupname
+        father.addObject(group)
+        return group
+
+    obj = FreeCAD.ActiveDocument.addObject("Part::FeaturePython", "Site")
+    _PVPlantSite(obj)
+    if FreeCAD.GuiUp:
+        _ViewProviderSite(obj.ViewObject)
+
+    group = createGroup(obj, "CivilGroup")
+    group1 = createGroup(group, "Areas")
+    createGroup(group1, "Boundaries")
+    createGroup(group1, "CadastralPlots")
+    createGroup(group1, "Exclusions")
+    createGroup(group1, "FrameZones")
+    createGroup(group1, "Offsets")
+    createGroup(group1, "Plots")
+    createGroup(group, "Drains")
+    createGroup(group, "Earthworks")
+    createGroup(group, "Fences")
+    createGroup(group, "Foundations")
+    createGroup(group, "Pads")
+    createGroup(group, "Points")
+    createGroup(group, "Roads")
+    createGroup(group, "Trenches")
+
+    group = createGroup(obj, "ElectricalGroup")
+    createGroup(group, "StringInverters")
+    createGroup(group, "CentralInverter")
+    group1 = createGroup(group, "AC")
+    createGroup(group1, "CableAC")
+    group1 = createGroup(group, "DC")
+    createGroup(group1, "CableDC")
+    createGroup(group1, "StringsSetup")
+    createGroup(group1, "Strings")
+    createGroup(group1, "StringsBoxes")
+
+    group = createGroup(obj, "MechanicalGroup")
+    createGroup(group, "FramesSetups")
+    createGroup(group, "Frames")
+
+    group = createGroup(obj, "Environment")
+    createGroup(group, "Vegetation")
+
+    return obj
+
+
+class _PVPlantSite(ArchSite._Site):
+    "The Site object"
+
+    def __init__(self, obj):
+        ArchSite._Site.__init__(self, obj)
+        self.obj = obj
+        self.Type = "Site"
+        obj.Proxy = self
+        obj.IfcType = "Site"
+        obj.setEditorMode("IfcType", 1)
+
+    def setProperties(self, obj):
+        ArchSite._Site.setProperties(self, obj)
+        obj.addProperty("App::PropertyLink", "Boundary", "PVPlant", "Boundary of land")
+        obj.addProperty("App::PropertyLinkList", "Frames", "PVPlant", "Frames templates")
+        obj.addProperty("App::PropertyEnumeration", "UtmZone", "PVPlant", "UTM zone").UtmZone = zone_list
+        obj.addProperty("App::PropertyVector", "Origin", "PVPlant", "Origin point.").Origin = (0, 0, 0)
+
+    def onDocumentRestored(self, obj):
+        self.obj = obj
+        self.Type = "Site"
+        obj.Proxy = self
+
+    def onChanged(self, obj, prop):
+        ArchSite._Site.onChanged(self, obj, prop)
+        if (prop == "Terrain") or (prop == "Boundary"):
+            if obj.Terrain and obj.Boundary:
+                print("Calcular 3D boundary")
+        if prop == "UtmZone":
+            node = self.get_geoorigin()
+            zone = obj.getPropertyByName("UtmZone")
+            geo_system = ["UTM", zone, "FLAT"]
+            node.geoSystem.setValues(geo_system)
+        if prop == "Origin":
+            node = self.get_geoorigin()
+            origin = obj.getPropertyByName("Origin")
+            node.geoCoords.setValue(origin.x, origin.y, 0)
+            obj.Placement.Base = obj.getPropertyByName(prop)
+
+    def execute(self, obj):
+        ArchSite._Site.execute(self, obj)
+
+    def computeAreas(self, obj):
+        ArchSite._Site.computeAreas(self, obj)
+
+    def __getstate__(self):
+        node = self.get_geoorigin()
+        system = node.geoSystem.getValues()
+        x, y, z = node.geoCoords.getValue().getValue()
+        return system, [x, y, z]
+
+    def __setstate__(self, state):
+        if state:
+            system = state[0]
+            origin = state[1]
+            node = self.get_geoorigin()
+            node.geoSystem.setValues(system)
+            node.geoCoords.setValue(origin[0], origin[1], 0)
+
+    def get_geoorigin(self):
+        sg = FreeCADGui.ActiveDocument.ActiveView.getSceneGraph()
+        node = sg.getChild(0)
+        if not isinstance(node, coin.SoGeoOrigin):
+            node = coin.SoGeoOrigin()
+            sg.insertChild(node, 0)
+        return node
+
+    def setLatLon(self, lat, lon):
+        from lib.projection import latlon_to_utm
+        import PVPlantImportGrid
+        easting, northing, zone_number, zone_letter = latlon_to_utm(lat, lon)
+        self.obj.UtmZone = zone_list[zone_number - 1]
+        point = PVPlantImportGrid.getElevationFromOE([[lat, lon]])
+        self.obj.Origin = FreeCAD.Vector(point[0].x, point[0].y, point[0].z)
+        self.obj.Latitude = lat
+        self.obj.Longitude = lon
+        self.obj.Elevation = point[0].z
+
+
+from PVPlant.core.view_provider import ViewProviderSite as _ViewProviderSite

PVPlant/core/solar_compass.py

@@ -0,0 +1,353 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2021 Javier Braña <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+import FreeCAD, math, datetime
+from pivy import coin
+
+
+def makeSolarDiagram(longitude, latitude, scale=1, complete=False, tz=None):
+    """makeSolarDiagram(longitude,latitude,[scale,complete,tz]):
+    returns a solar diagram as a pivy node. If complete is
+    True, the 12 months are drawn. Tz is the timezone related to
+    UTC (ex: -3 = UTC-3)"""
+
+    oldversion = False
+    ladybug = False
+    try:
+        import ladybug
+        from ladybug import location
+        from ladybug import sunpath
+    except:
+        ladybug = False
+        try:
+            import pysolar
+        except:
+            try:
+                import Pysolar as pysolar
+            except:
+                FreeCAD.Console.PrintError("The pysolar module was not found. Unable to generate solar diagrams\n")
+                return None
+            else:
+                oldversion = True
+        if tz:
+            tz = datetime.timezone(datetime.timedelta(hours=-3))
+        else:
+            tz = datetime.timezone.utc
+    else:
+        loc = ladybug.location.Location(latitude=latitude, longitude=longitude, time_zone=tz)
+        sunpath = ladybug.sunpath.Sunpath.from_location(loc)
+
+    if not scale:
+        return None
+
+    circles = []
+    sunpaths = []
+    hourpaths = []
+    circlepos = []
+    hourpos = []
+
+    import Part
+    for i in range(1, 9):
+        circles.append(Part.makeCircle(scale * (i / 8.0)))
+    for ad in range(0, 360, 15):
+        a = math.radians(ad)
+        p1 = FreeCAD.Vector(math.cos(a) * scale, math.sin(a) * scale, 0)
+        p2 = FreeCAD.Vector(math.cos(a) * scale * 0.125, math.sin(a) * scale * 0.125, 0)
+        p3 = FreeCAD.Vector(math.cos(a) * scale * 1.08, math.sin(a) * scale * 1.08, 0)
+        circles.append(Part.LineSegment(p1, p2).toShape())
+        circlepos.append((ad, p3))
+
+    year = datetime.datetime.now().year
+    hpts = [[] for i in range(24)]
+    m = [(6, 21), (7, 21), (8, 21), (9, 21), (10, 21), (11, 21), (12, 21)]
+    if complete:
+        m.extend([(1, 21), (2, 21), (3, 21), (4, 21), (5, 21)])
+    for i, d in enumerate(m):
+        pts = []
+        for h in range(24):
+            if ladybug:
+                sun = sunpath.calculate_sun(month=d[0], day=d[1], hour=h)
+                alt = math.radians(sun.altitude)
+                az = 90 + sun.azimuth
+            elif oldversion:
+                dt = datetime.datetime(year, d[0], d[1], h)
+                alt = math.radians(pysolar.solar.GetAltitudeFast(latitude, longitude, dt))
+                az = pysolar.solar.GetAzimuth(latitude, longitude, dt)
+                az = -90 + az
+            else:
+                dt = datetime.datetime(year, d[0], d[1], h, tzinfo=tz)
+                alt = math.radians(pysolar.solar.get_altitude_fast(latitude, longitude, dt))
+                az = pysolar.solar.get_azimuth(latitude, longitude, dt)
+                az = 90 + az
+            if az < 0:
+                az = 360 + az
+            az = math.radians(az)
+            zc = math.sin(alt) * scale
+            ic = math.cos(alt) * scale
+            xc = math.cos(az) * ic
+            yc = math.sin(az) * ic
+            p = FreeCAD.Vector(xc, yc, zc)
+            pts.append(p)
+            hpts[h].append(p)
+            if i in [0, 6]:
+                ep = FreeCAD.Vector(p)
+                ep.multiply(1.08)
+                if ep.z >= 0:
+                    if not oldversion:
+                        h = 24 - h
+                    if h == 12:
+                        if i == 0:
+                            h = "SUMMER"
+                        else:
+                            h = "WINTER"
+                        if latitude < 0:
+                            if h == "SUMMER":
+                                h = "WINTER"
+                            else:
+                                h = "SUMMER"
+                    hourpos.append((h, ep))
+        if i < 7:
+            sunpaths.append(Part.makePolygon(pts))
+
+    for h in hpts:
+        if complete:
+            h.append(h[0])
+        hourpaths.append(Part.makePolygon(h))
+
+    sz = 2.1 * scale
+    cube = Part.makeBox(sz, sz, sz)
+    cube.translate(FreeCAD.Vector(-sz / 2, -sz / 2, -sz))
+    sunpaths = [sp.cut(cube) for sp in sunpaths]
+    hourpaths = [hp.cut(cube) for hp in hourpaths]
+
+    ts = 0.005 * scale
+    mastersep = coin.SoSeparator()
+    circlesep = coin.SoSeparator()
+    numsep = coin.SoSeparator()
+    pathsep = coin.SoSeparator()
+    hoursep = coin.SoSeparator()
+    hournumsep = coin.SoSeparator()
+    mastersep.addChild(circlesep)
+    mastersep.addChild(numsep)
+    mastersep.addChild(pathsep)
+    mastersep.addChild(hoursep)
+    for item in circles:
+        circlesep.addChild(toNode(item))
+    for item in sunpaths:
+        for w in item.Edges:
+            pathsep.addChild(toNode(w))
+    for item in hourpaths:
+        for w in item.Edges:
+            hoursep.addChild(toNode(w))
+    for p in circlepos:
+        text = coin.SoText2()
+        s = p[0] - 90
+        s = -s
+        if s > 360:
+            s = s - 360
+        if s < 0:
+            s = 360 + s
+        if s == 0:
+            s = "N"
+        elif s == 90:
+            s = "E"
+        elif s == 180:
+            s = "S"
+        elif s == 270:
+            s = "W"
+        else:
+            s = str(s)
+        text.string = s
+        text.justification = coin.SoText2.CENTER
+        coords = coin.SoTransform()
+        coords.translation.setValue([p[1].x, p[1].y, p[1].z])
+        coords.scaleFactor.setValue([ts, ts, ts])
+        item = coin.SoSeparator()
+        item.addChild(coords)
+        item.addChild(text)
+        numsep.addChild(item)
+    for p in hourpos:
+        text = coin.SoText2()
+        s = str(p[0])
+        text.string = s
+        text.justification = coin.SoText2.CENTER
+        coords = coin.SoTransform()
+        coords.translation.setValue([p[1].x, p[1].y, p[1].z])
+        coords.scaleFactor.setValue([ts, ts, ts])
+        item = coin.SoSeparator()
+        item.addChild(coords)
+        item.addChild(text)
+        numsep.addChild(item)
+    return mastersep
+
+
+def makeWindRose(epwfile, scale=1, sectors=24):
+    try:
+        import ladybug
+        from ladybug import epw
+    except:
+        FreeCAD.Console.PrintError("The ladybug module was not found. Unable to generate solar diagrams\n")
+        return None
+    if not epwfile:
+        FreeCAD.Console.PrintWarning("No EPW file, unable to generate wind rose.\n")
+        return None
+    epw_data = ladybug.epw.EPW(epwfile)
+    baseangle = 360 / sectors
+    sectorangles = [i * baseangle for i in range(sectors)]
+    basebissect = baseangle / 2
+    angles = [basebissect]
+    for i in range(1, sectors):
+        angles.append(angles[-1] + baseangle)
+    windsbysector = [0 for i in range(sectors)]
+    for hour in epw_data.wind_direction:
+        sector = min(angles, key=lambda x: abs(x - hour))
+        sectorindex = angles.index(sector)
+        windsbysector[sectorindex] = windsbysector[sectorindex] + 1
+    maxwind = max(windsbysector)
+    windsbysector = [wind / maxwind for wind in windsbysector]
+    vectors = []
+    dividers = []
+    for i in range(sectors):
+        angle = math.radians(90 + angles[i])
+        x = math.cos(angle) * windsbysector[i] * scale
+        y = math.sin(angle) * windsbysector[i] * scale
+        vectors.append(FreeCAD.Vector(x, y, 0))
+        secangle = math.radians(90 + sectorangles[i])
+        x = math.cos(secangle) * scale
+        y = math.sin(secangle) * scale
+        dividers.append(FreeCAD.Vector(x, y, 0))
+    vectors.append(vectors[0])
+
+    import Part
+    masternode = coin.SoSeparator()
+    for r in (0.25, 0.5, 0.75, 1.0):
+        c = Part.makeCircle(r * scale)
+        masternode.addChild(toNode(c))
+    for divider in dividers:
+        l = Part.makeLine(FreeCAD.Vector(), divider)
+        masternode.addChild(toNode(l))
+    ds = coin.SoDrawStyle()
+    ds.lineWidth = 2.0
+    masternode.addChild(ds)
+    d = Part.makePolygon(vectors)
+    masternode.addChild(toNode(d))
+    return masternode
+
+
+# Values in mm
+COMPASS_POINTER_LENGTH = 1000
+COMPASS_POINTER_WIDTH = 100
+
+
+class Compass(object):
+    def __init__(self):
+        self.rootNode = self.setupCoin()
+
+    def show(self):
+        self.compassswitch.whichChild = coin.SO_SWITCH_ALL
+
+    def hide(self):
+        self.compassswitch.whichChild = coin.SO_SWITCH_NONE
+
+    def rotate(self, angleInDegrees):
+        self.transform.rotation.setValue(
+            coin.SbVec3f(0, 0, 1), math.radians(angleInDegrees))
+
+    def locate(self, x, y, z):
+        self.transform.translation.setValue(x, y, z)
+
+    def scale(self, area):
+        s = round(max(math.sqrt(area.getValueAs("m^2").Value) / 10, 1))
+        self.transform.scaleFactor.setValue(coin.SbVec3f(s, s, 1))
+
+    def setupCoin(self):
+        compasssep = coin.SoSeparator()
+        self.transform = coin.SoTransform()
+
+        darkNorthMaterial = coin.SoMaterial()
+        darkNorthMaterial.diffuseColor.set1Value(0, 0.5, 0, 0)
+        lightNorthMaterial = coin.SoMaterial()
+        lightNorthMaterial.diffuseColor.set1Value(0, 0.9, 0, 0)
+        darkGreyMaterial = coin.SoMaterial()
+        darkGreyMaterial.diffuseColor.set1Value(0, 0.9, 0.9, 0.9)
+        lightGreyMaterial = coin.SoMaterial()
+        lightGreyMaterial.diffuseColor.set1Value(0, 0.5, 0.5, 0.5)
+
+        coords = self.buildCoordinates()
+        lightColorFaceset = coin.SoIndexedFaceSet()
+        lightColorCoordinateIndex = [4, 5, 6, -1, 8, 9, 10, -1, 12, 13, 14, -1]
+        lightColorFaceset.coordIndex.setValues(0, len(lightColorCoordinateIndex), lightColorCoordinateIndex)
+        darkColorFaceset = coin.SoIndexedFaceSet()
+        darkColorCoordinateIndex = [6, 7, 4, -1, 10, 11, 8, -1, 14, 15, 12, -1]
+        darkColorFaceset.coordIndex.setValues(0, len(darkColorCoordinateIndex), darkColorCoordinateIndex)
+        lightNorthFaceset = coin.SoIndexedFaceSet()
+        lightNorthCoordinateIndex = [2, 3, 0, -1]
+        lightNorthFaceset.coordIndex.setValues(0, len(lightNorthCoordinateIndex), lightNorthCoordinateIndex)
+        darkNorthFaceset = coin.SoIndexedFaceSet()
+        darkNorthCoordinateIndex = [0, 1, 2, -1]
+        darkNorthFaceset.coordIndex.setValues(0, len(darkNorthCoordinateIndex), darkNorthCoordinateIndex)
+
+        self.compassswitch = coin.SoSwitch()
+        self.compassswitch.whichChild = coin.SO_SWITCH_NONE
+        self.compassswitch.addChild(compasssep)
+
+        lightGreySeparator = coin.SoSeparator()
+        lightGreySeparator.addChild(lightGreyMaterial)
+        lightGreySeparator.addChild(lightColorFaceset)
+        darkGreySeparator = coin.SoSeparator()
+        darkGreySeparator.addChild(darkGreyMaterial)
+        darkGreySeparator.addChild(darkColorFaceset)
+        lightNorthSeparator = coin.SoSeparator()
+        lightNorthSeparator.addChild(lightNorthMaterial)
+        lightNorthSeparator.addChild(lightNorthFaceset)
+        darkNorthSeparator = coin.SoSeparator()
+        darkNorthSeparator.addChild(darkNorthMaterial)
+        darkNorthSeparator.addChild(darkNorthFaceset)
+
+        compasssep.addChild(coords)
+        compasssep.addChild(self.transform)
+        compasssep.addChild(lightGreySeparator)
+        compasssep.addChild(darkGreySeparator)
+        compasssep.addChild(lightNorthSeparator)
+        compasssep.addChild(darkNorthSeparator)
+
+        return self.compassswitch
+
+    def buildCoordinates(self):
+        coords = coin.SoCoordinate3()
+        coords.point.set1Value(0, 0, 0, 0)
+        coords.point.set1Value(1, COMPASS_POINTER_WIDTH, COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(2, 0, COMPASS_POINTER_LENGTH, 0)
+        coords.point.set1Value(3, -COMPASS_POINTER_WIDTH, COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(4, 0, 0, 0)
+        coords.point.set1Value(5, COMPASS_POINTER_WIDTH, -COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(6, COMPASS_POINTER_LENGTH, 0, 0)
+        coords.point.set1Value(7, COMPASS_POINTER_WIDTH, COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(8, 0, 0, 0)
+        coords.point.set1Value(9, -COMPASS_POINTER_WIDTH, -COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(10, 0, -COMPASS_POINTER_LENGTH, 0)
+        coords.point.set1Value(11, COMPASS_POINTER_WIDTH, -COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(12, 0, 0, 0)
+        coords.point.set1Value(13, -COMPASS_POINTER_WIDTH, COMPASS_POINTER_WIDTH, 0)
+        coords.point.set1Value(14, -COMPASS_POINTER_LENGTH, 0, 0)
+        coords.point.set1Value(15, -COMPASS_POINTER_WIDTH, -COMPASS_POINTER_WIDTH, 0)
+        return coords

PVPlant/core/view_provider.py

@@ -0,0 +1,283 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2021 Javier Braña <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+import FreeCAD, math
+from pivy import coin
+
+if FreeCAD.GuiUp:
+    import FreeCADGui
+    from DraftTools import translate
+    from PySide.QtCore import QT_TRANSLATE_NOOP
+
+from PVPlant.core.solar_compass import makeSolarDiagram, makeWindRose, Compass
+
+
+class ViewProviderSite(object):
+    """View Provider for the Site object. Handles solar diagram, wind rose, compass and true north."""
+
+    def __init__(self, vobj):
+        vobj.Proxy = self
+        vobj.addExtension("Gui::ViewProviderGroupExtensionPython", self)
+        self.setProperties(vobj)
+
+    def setProperties(self, vobj):
+        from PVPlantResources import DirIcons as DirIcons
+        pl = vobj.PropertiesList
+        if not "WindRose" in pl:
+            vobj.addProperty("App::PropertyBool", "WindRose", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "Show wind rose diagram or not. Uses solar diagram scale. Needs Ladybug module"))
+        if not "SolarDiagram" in pl:
+            vobj.addProperty("App::PropertyBool", "SolarDiagram", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "Show solar diagram or not"))
+        if not "SolarDiagramScale" in pl:
+            vobj.addProperty("App::PropertyFloat", "SolarDiagramScale", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "The scale of the solar diagram"))
+            vobj.SolarDiagramScale = 1
+        if not "SolarDiagramPosition" in pl:
+            vobj.addProperty("App::PropertyVector", "SolarDiagramPosition", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "The position of the solar diagram"))
+        if not "SolarDiagramColor" in pl:
+            vobj.addProperty("App::PropertyColor", "SolarDiagramColor", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "The color of the solar diagram"))
+            vobj.SolarDiagramColor = (0.16, 0.16, 0.25)
+        if not "Orientation" in pl:
+            vobj.addProperty("App::PropertyEnumeration", "Orientation", "Site",
+                             QT_TRANSLATE_NOOP("App::Property", "When set to 'True North' the whole geometry will be rotated to match the true north of this site"))
+            vobj.Orientation = ["Project North", "True North"]
+            vobj.Orientation = "Project North"
+        if not "Compass" in pl:
+            vobj.addProperty("App::PropertyBool", "Compass", "Compass",
+                             QT_TRANSLATE_NOOP("App::Property", "Show compass or not"))
+        if not "CompassRotation" in pl:
+            vobj.addProperty("App::PropertyAngle", "CompassRotation", "Compass",
+                             QT_TRANSLATE_NOOP("App::Property", "The rotation of the Compass relative to the Site"))
+        if not "CompassPosition" in pl:
+            vobj.addProperty("App::PropertyVector", "CompassPosition", "Compass",
+                             QT_TRANSLATE_NOOP("App::Property", "The position of the Compass relative to the Site placement"))
+        if not "UpdateDeclination" in pl:
+            vobj.addProperty("App::PropertyBool", "UpdateDeclination", "Compass",
+                             QT_TRANSLATE_NOOP("App::Property", "Update the Declination value based on the compass rotation"))
+
+    def onDocumentRestored(self, vobj):
+        self.setProperties(vobj)
+
+    def getIcon(self):
+        from PVPlantResources import DirIcons as DirIcons
+        return str(os.path.join(DirIcons, "solar-panel.svg"))
+
+    def claimChildren(self):
+        objs = []
+        if hasattr(self, "Object"):
+            objs = self.Object.Group + [self.Object.Terrain]
+            prefs = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
+            if hasattr(self.Object, "Additions") and prefs.GetBool("swallowAdditions", True):
+                objs.extend(self.Object.Additions)
+            if hasattr(self.Object, "Subtractions") and prefs.GetBool("swallowSubtractions", True):
+                objs.extend(self.Object.Subtractions)
+        return objs
+
+    def setEdit(self, vobj, mode):
+        if (mode == 0) and hasattr(self, "Object"):
+            import ArchComponent
+            taskd = ArchComponent.ComponentTaskPanel()
+            taskd.obj = self.Object
+            taskd.update()
+            FreeCADGui.Control.showDialog(taskd)
+            return True
+        return False
+
+    def unsetEdit(self, vobj, mode):
+        FreeCADGui.Control.closeDialog()
+        return False
+
+    def attach(self, vobj):
+        self.Object = vobj.Object
+        basesep = coin.SoSeparator()
+        vobj.Annotation.addChild(basesep)
+        self.color = coin.SoBaseColor()
+        self.coords = coin.SoTransform()
+        basesep.addChild(self.coords)
+        basesep.addChild(self.color)
+        self.diagramsep = coin.SoSeparator()
+        self.diagramswitch = coin.SoSwitch()
+        self.diagramswitch.whichChild = -1
+        self.diagramswitch.addChild(self.diagramsep)
+        basesep.addChild(self.diagramswitch)
+        self.windrosesep = coin.SoSeparator()
+        self.windroseswitch = coin.SoSwitch()
+        self.windroseswitch.whichChild = -1
+        self.windroseswitch.addChild(self.windrosesep)
+        basesep.addChild(self.windroseswitch)
+        self.compass = Compass()
+        self.updateCompassVisibility(vobj)
+        self.updateCompassScale(vobj)
+        self.rotateCompass(vobj)
+        vobj.Annotation.addChild(self.compass.rootNode)
+
+    def updateData(self, obj, prop):
+        if prop in ["Longitude", "Latitude"]:
+            self.onChanged(obj.ViewObject, "SolarDiagram")
+        elif prop == "Declination":
+            self.onChanged(obj.ViewObject, "SolarDiagramPosition")
+            self.updateTrueNorthRotation()
+        elif prop == "Terrain":
+            self.updateCompassLocation(obj.ViewObject)
+        elif prop == "Placement":
+            self.updateCompassLocation(obj.ViewObject)
+            self.updateDeclination(obj.ViewObject)
+        elif prop == "ProjectedArea":
+            self.updateCompassScale(obj.ViewObject)
+
+    def onChanged(self, vobj, prop):
+        if prop == "SolarDiagramPosition":
+            if hasattr(vobj, "SolarDiagramPosition"):
+                p = vobj.SolarDiagramPosition
+                self.coords.translation.setValue([p.x, p.y, p.z])
+            if hasattr(vobj.Object, "Declination"):
+                self.coords.rotation.setValue(coin.SbVec3f((0, 0, 1)), math.radians(vobj.Object.Declination.Value))
+        elif prop == "SolarDiagramColor":
+            if hasattr(vobj, "SolarDiagramColor"):
+                l = vobj.SolarDiagramColor
+                self.color.rgb.setValue([l[0], l[1], l[2]])
+        elif "SolarDiagram" in prop:
+            if hasattr(self, "diagramnode"):
+                self.diagramsep.removeChild(self.diagramnode)
+                del self.diagramnode
+            if hasattr(vobj, "SolarDiagram") and hasattr(vobj, "SolarDiagramScale"):
+                if vobj.SolarDiagram:
+                    tz = 0
+                    if hasattr(vobj.Object, "TimeZone"):
+                        tz = vobj.Object.TimeZone
+                    self.diagramnode = makeSolarDiagram(vobj.Object.Longitude, vobj.Object.Latitude,
+                                                        vobj.SolarDiagramScale, tz=tz)
+                    if self.diagramnode:
+                        self.diagramsep.addChild(self.diagramnode)
+                        self.diagramswitch.whichChild = 0
+                    else:
+                        del self.diagramnode
+                else:
+                    self.diagramswitch.whichChild = -1
+        elif prop == "WindRose":
+            if hasattr(self, "windrosenode"):
+                del self.windrosenode
+            if hasattr(vobj, "WindRose"):
+                if vobj.WindRose:
+                    if hasattr(vobj.Object, "EPWFile") and vobj.Object.EPWFile:
+                        try:
+                            import ladybug
+                        except:
+                            pass
+                        else:
+                            self.windrosenode = makeWindRose(vobj.Object.EPWFile, vobj.SolarDiagramScale)
+                            if self.windrosenode:
+                                self.windrosesep.addChild(self.windrosenode)
+                                self.windroseswitch.whichChild = 0
+                            else:
+                                del self.windrosenode
+                else:
+                    self.windroseswitch.whichChild = -1
+        elif prop == 'Visibility':
+            if vobj.Visibility:
+                self.updateCompassVisibility(self.Object)
+            else:
+                self.compass.hide()
+        elif prop == 'Orientation':
+            if vobj.Orientation == 'True North':
+                self.addTrueNorthRotation()
+            else:
+                self.removeTrueNorthRotation()
+        elif prop == "UpdateDeclination":
+            self.updateDeclination(vobj)
+        elif prop == "Compass":
+            self.updateCompassVisibility(vobj)
+        elif prop == "CompassRotation":
+            self.updateDeclination(vobj)
+            self.rotateCompass(vobj)
+        elif prop == "CompassPosition":
+            self.updateCompassLocation(vobj)
+
+    def updateDeclination(self, vobj):
+        if not hasattr(vobj, 'UpdateDeclination') or not vobj.UpdateDeclination:
+            return
+        compassRotation = vobj.CompassRotation.Value
+        siteRotation = math.degrees(vobj.Object.Placement.Rotation.Angle)
+        vobj.Object.Declination = compassRotation + siteRotation
+
+    def addTrueNorthRotation(self):
+        if hasattr(self, 'trueNorthRotation') and self.trueNorthRotation is not None:
+            return
+        self.trueNorthRotation = coin.SoTransform()
+        sg = FreeCADGui.ActiveDocument.ActiveView.getSceneGraph()
+        sg.insertChild(self.trueNorthRotation, 0)
+        self.updateTrueNorthRotation()
+
+    def removeTrueNorthRotation(self):
+        if hasattr(self, 'trueNorthRotation') and self.trueNorthRotation is not None:
+            sg = FreeCADGui.ActiveDocument.ActiveView.getSceneGraph()
+            sg.removeChild(self.trueNorthRotation)
+            self.trueNorthRotation = None
+
+    def updateTrueNorthRotation(self):
+        if hasattr(self, 'trueNorthRotation') and self.trueNorthRotation is not None:
+            angle = self.Object.Declination.Value
+            self.trueNorthRotation.rotation.setValue(coin.SbVec3f(0, 0, 1), math.radians(-angle))
+
+    def updateCompassVisibility(self, vobj):
+        if not hasattr(self, 'compass'):
+            return
+        show = hasattr(vobj, 'Compass') and vobj.Compass
+        if show:
+            self.compass.show()
+        else:
+            self.compass.hide()
+
+    def rotateCompass(self, vobj):
+        if not hasattr(self, 'compass'):
+            return
+        if hasattr(vobj, 'CompassRotation'):
+            self.compass.rotate(vobj.CompassRotation.Value)
+
+    def updateCompassLocation(self, vobj):
+        if not hasattr(self, 'compass'):
+            return
+        if not vobj.Object.Shape:
+            return
+        boundBox = vobj.Object.Shape.BoundBox
+        pos = vobj.Object.Placement.Base
+        x = 0
+        y = 0
+        if hasattr(vobj, "CompassPosition"):
+            x = vobj.CompassPosition.x
+            y = vobj.CompassPosition.y
+        z = boundBox.ZMax = pos.z
+        self.compass.locate(x, y, z + 1000)
+
+    def updateCompassScale(self, vobj):
+        if not hasattr(self, 'compass'):
+            return
+        self.compass.scale(vobj.Object.ProjectedArea)
+
+    def __getstate__(self):
+        return None
+
+    def __setstate__(self, state):
+        return None

PVPlant/import_grid/grid.py

@@ -0,0 +1,671 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2021 Javier Braña <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+import json
+import urllib.request
+
+import Draft
+import FreeCAD
+import FreeCADGui
+from PySide import QtCore, QtGui
+from PySide.QtCore import QT_TRANSLATE_NOOP
+
+try:
+    _fromUtf8 = QtCore.QString.fromUtf8
+except AttributeError:
+    def _fromUtf8(s):
+        return s
+
+import os
+from PVPlantResources import DirIcons as DirIcons
+import PVPlantSite
+
+
+def get_elevation_from_oe(coordinates):
+    """Obtiene elevaciones de Open-Elevation API y devuelve vectores FreeCAD en coordenadas UTM.
+    Args:
+        coordinates (list): Lista de tuplas con coordenadas (latitud, longitud)
+    Returns:
+        list: Lista de vectores FreeCAD con coordenadas UTM y elevación (en milímetros)
+              o lista vacía en caso de error.
+    """
+    if not coordinates:
+        return []
+
+    import requests
+    from lib.projection import latlon_to_utm
+    from requests.exceptions import RequestException
+
+    locations = "|".join([f"{lat:.6f},{lon:.6f}" for lat, lon in coordinates])
+
+    try:
+        response = requests.get(
+            url="https://api.open-elevation.com/api/v1/lookup",
+            params={'locations': locations},
+            timeout=20,
+            verify=True
+        )
+        response.raise_for_status()
+
+    except RequestException as e:
+        print(f"Error en la solicitud: {str(e)}")
+        return []
+
+    try:
+        data = response.json()
+    except ValueError:
+        print("Respuesta JSON inválida")
+        return []
+
+    if "results" not in data or len(data["results"]) != len(coordinates):
+        print("Formato de respuesta inesperado")
+        return []
+
+    points = []
+    for result in data["results"]:
+        try:
+            easting, northing, _, _ = latlon_to_utm(
+                result["latitude"],
+                result["longitude"]
+            )
+
+            points.append(FreeCAD.Vector(round(easting),
+                                         round(northing),
+                                         round(result["elevation"])) * 1000)
+
+        except Exception as e:
+            print(f"Error procesando coordenadas: {str(e)}")
+            continue
+
+    return points
+
+
+def getElevationFromOE(coordinates):
+    """Obtiene elevaciones de Open-Elevation API y devuelve vectores FreeCAD en coordenadas UTM."""
+
+    import certifi
+    from requests.exceptions import RequestException
+    if len(coordinates) == 0:
+        return None
+
+    from requests import get
+    from lib.projection import latlon_to_utm
+
+    locations_str=""
+    total = len(coordinates) - 1
+    for i, point in enumerate(coordinates):
+        locations_str += '{:.6f},{:.6f}'.format(point[0], point[1])
+        if i != total:
+            locations_str += '|'
+    query = 'https://api.open-elevation.com/api/v1/lookup?locations=' + locations_str
+    points = []
+    try:
+        r = get(query, timeout=20, verify=certifi.where())
+        results = r.json()
+        for point in results["results"]:
+            easting, northing, _, _ = latlon_to_utm(point["latitude"], point["longitude"])
+            v = FreeCAD.Vector(round(easting, 0),
+                               round(northing, 0),
+                               round(point["elevation"], 0)) * 1000
+            points.append(v)
+    except RequestException as e:
+        for point in coordinates:
+            easting, northing, _, _ = latlon_to_utm(point[0], point[1])
+            points.append(FreeCAD.Vector(round(easting, 0),
+                                         round(northing, 0),
+                                      0) * 1000)
+
+    return points
+
+def getSinglePointElevationFromBing(lat, lng):
+    import requests
+    from lib.projection import latlon_to_utm
+
+    source = "http://dev.virtualearth.net/REST/v1/Elevation/List?points="
+    source += str(lat) + "," + str(lng)
+    source += "&heights=sealevel"
+    source += "&key=AmsPZA-zRt2iuIdQgvXZIxme2gWcgLaz7igOUy7VPB8OKjjEd373eCnj1KFv2CqX"
+
+    response = requests.get(source)
+    ans = response.text
+
+    s = json.loads(ans)
+    print(s)
+    res = s['resourceSets'][0]['resources'][0]['elevations']
+    for elevation in res:
+        easting, northing, _, _ = latlon_to_utm(lat, lng)
+        v = FreeCAD.Vector(
+            round(easting * 1000, 0),
+            round(northing * 1000, 0),
+            round(elevation * 1000, 0))
+        return v
+
+def getGridElevationFromBing(polygon, lat, lng, resolution = 1000):
+    import math
+    import requests
+    from lib.projection import latlon_to_utm, utm_to_latlon
+
+    _, _, zone_number, zone_letter = latlon_to_utm(lat, lng)
+
+    points = []
+    yy = polygon.Shape.BoundBox.YMax
+    while yy > polygon.Shape.BoundBox.YMin:
+        xx = polygon.Shape.BoundBox.XMin
+        while xx < polygon.Shape.BoundBox.XMax:
+            StepsXX = int(math.ceil((polygon.Shape.BoundBox.XMax - xx) / resolution))
+
+            if StepsXX > 1000:
+                StepsXX = 1000
+                xx1 = xx + 1000 * resolution
+            else:
+                xx1 = xx + StepsXX * resolution
+
+            point1 = utm_to_latlon(xx / 1000, yy / 1000, zone_number, zone_letter)
+            point2 = utm_to_latlon(xx1 / 1000, yy / 1000, zone_number, zone_letter)
+
+            source = "http://dev.virtualearth.net/REST/v1/Elevation/Polyline?points="
+            source += "{lat1},{lng1}".format(lat1=point1[0], lng1=point1[1])
+            source += ","
+            source += "{lat2},{lng2}".format(lat2=point2[0], lng2=point2[1])
+            source += "&heights=sealevel"
+            source += "&samples={steps}".format(steps=StepsXX)
+            source += "&key=AmsPZA-zRt2iuIdQgvXZIxme2gWcgLaz7igOUy7VPB8OKjjEd373eCnj1KFv2CqX"
+
+            response = requests.get(source)
+            ans = response.text
+
+            s = json.loads(ans)
+            res = s['resourceSets'][0]['resources'][0]['elevations']
+
+            i = 0
+            for elevation in res:
+                v = FreeCAD.Vector(xx + resolution * i, yy, round(elevation * 1000, 4))
+                points.append(v)
+                i += 1
+            xx = xx1 + resolution
+        yy -= resolution
+
+    return points
+
+def getSinglePointElevation(lat, lon):
+    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
+    source += str(lat) + "," + str(lon)
+    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+    #print (source)
+
+    #response = request.urlopen(source)
+    #ans = response.read()
+    import requests
+    response = requests.get(source)
+    ans = response.text
+
+    # +# to do: error handling  - wait and try again
+    s = json.loads(ans)
+    res = s['results']
+
+    from geopy.distance import geodesic
+    for r in res:
+
+        reference = (0.0, 0.0)
+        v = FreeCAD.Vector(
+            round(geodesic(reference, (0.0, r['location']['lng'])).m, 2),
+            round(geodesic(reference, (r['location']['lat'], 0.0)).m, 2),
+            round(r['elevation'] * 1000, 2)
+        )
+
+    return v
+
+def _getSinglePointElevation(lat, lon):
+    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
+    source += str(lat) + "," + str(lon)
+    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+    #print (source)
+
+    #response = request.urlopen(source)
+    #ans = response.read()
+    import requests
+    response = requests.get(source)
+    ans = response.text
+
+    # +# to do: error handling  - wait and try again
+    s = json.loads(ans)
+    res = s['results']
+
+    import pymap3d as pm
+    for r in res:
+        x, y, z = pm.geodetic2ecef(round(r['location']['lng'], 2),
+                                   round(r['location']['lat'], 2),
+                                   0)
+        v = FreeCAD.Vector(x,y,z)
+
+    return v
+
+def getSinglePointElevation1(lat, lon):
+    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
+    source += str(lat) + "," + str(lon)
+    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+
+    #response = urllib.request.urlopen(source)
+    #ans = response.read()
+    import requests
+    response = requests.get(source)
+    ans = response.text
+
+    # +# to do: error handling  - wait and try again
+    s = json.loads(ans)
+    res = s['results']
+
+    for r in res:
+        c = tm.fromGeographic(r['location']['lat'], r['location']['lng'])
+        v = FreeCAD.Vector(
+            round(c[0], 4),
+            round(c[1], 4),
+            round(r['elevation'] * 1000, 2)
+            )
+    return v
+
+def getSinglePointElevationUtm(lat, lon):
+    import requests
+    from lib.projection import latlon_to_utm
+
+    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
+    source += str(lat) + "," + str(lon)
+    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+    print(source)
+
+    response = requests.get(source)
+    ans = response.text
+
+    s = json.loads(ans)
+    res = s['results']
+    print(res)
+
+    for r in res:
+        easting, northing, _, _ = latlon_to_utm(r['location']['lat'], r['location']['lng'])
+        v = FreeCAD.Vector(
+            round(easting * 1000, 4),
+            round(northing * 1000, 4),
+            round(r['elevation'] * 1000, 2))
+        print(v)
+        return v
+
+def getElevationUTM(polygon, lat, lng, resolution = 10000):
+    from lib.projection import latlon_to_utm, utm_to_latlon
+
+    _, _, zone_number, zone_letter = latlon_to_utm(lat, lng)
+
+    StepsXX = int((polygon.Shape.BoundBox.XMax - polygon.Shape.BoundBox.XMin) / (resolution*1000))
+    points = []
+    yy = polygon.Shape.BoundBox.YMax
+    while yy > polygon.Shape.BoundBox.YMin:
+        point1 = utm_to_latlon(polygon.Shape.BoundBox.XMin / 1000, yy / 1000, zone_number, zone_letter)
+        point2 = utm_to_latlon(polygon.Shape.BoundBox.XMax / 1000, yy / 1000, zone_number, zone_letter)
+
+        source = "https://maps.googleapis.com/maps/api/elevation/json?path="
+        source += "{a},{b}".format(a = point1[0], b = point1[1])
+        source += "|"
+        source += "{a},{b}".format(a = point2[0], b = point2[1])
+        source += "&samples={a}".format(a = StepsXX)
+        source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+
+        import requests
+        response = requests.get(source)
+        ans = response.text
+
+        s = json.loads(ans)
+        res = s['results']
+
+        for r in res:
+            easting, northing, _, _ = latlon_to_utm(r['location']['lat'], r['location']['lng'])
+            v = FreeCAD.Vector(
+                round(easting * 1000, 2),
+                round(northing * 1000, 2),
+                round(r['elevation'] * 1000, 2)
+            )
+            points.append(v)
+        yy -= (resolution*1000)
+
+    FreeCAD.activeDocument().recompute()
+    return points
+
+def getElevation1(polygon,resolution=10):
+
+    StepsXX = int((polygon.Shape.BoundBox.XMax - polygon.Shape.BoundBox.XMin) / (resolution * 1000))
+    points = []
+    yy = polygon.Shape.BoundBox.YMax
+    while yy > polygon.Shape.BoundBox.YMin:
+        point1 = tm.toGeographic(polygon.Shape.BoundBox.XMin, yy)
+        point2 = tm.toGeographic(polygon.Shape.BoundBox.XMax, yy)
+
+        source = "https://maps.googleapis.com/maps/api/elevation/json?path="
+        source += "{a},{b}".format(a = point1[0], b = point1[1])
+        source += "|"
+        source += "{a},{b}".format(a = point2[0], b = point2[1])
+        source += "&samples={a}".format(a = StepsXX)
+        source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+
+        try:
+            #response = urllib.request.urlopen(source)
+            #ans = response.read()
+            import requests
+            response = requests.get(source)
+            ans = response.text
+
+            # +# to do: error handling  - wait and try again
+
+            s = json.loads(ans)
+            res = s['results']
+        except:
+            continue
+
+        #points = []
+        for r in res:
+            c = tm.fromGeographic(r['location']['lat'], r['location']['lng'])
+            v = FreeCAD.Vector(
+                round(c[0], 2),
+                round(c[1], 2),
+                round(r['elevation'] * 1000, 2)
+            )
+            points.append(v)
+
+        FreeCAD.activeDocument().recompute()
+        yy -= (resolution*1000)
+
+    return points
+
+## download the heights from google:
+def getElevation(lat, lon, b=50.35, le=11.17, size=40):
+    #https://maps.googleapis.com/maps/api/elevation/json?path=36.578581,-118.291994|36.23998,-116.83171&samples=3&key=YOUR_API_KEY
+    #https://maps.googleapis.com/maps/api/elevation/json?locations=39.7391536,-104.9847034&key=YOUR_API_KEY
+
+    source = "https://maps.googleapis.com/maps/api/elevation/json?path="
+    source += str(b-size*0.001) + "," + str(le) + "|" + str(b+size*0.001) + "," + str(le)
+    source += "&samples=" + str(100)
+    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
+
+    response = urllib.request.urlopen(source)
+    ans = response.read()
+
+    # +# to do: error handling  - wait and try again
+    s = json.loads(ans)
+    res = s['results']
+
+    from geopy.distance import geodesic
+    points = []
+    for r in res:
+        reference = (0.0, 0.0)
+        v = FreeCAD.Vector(
+            round(geodesic(reference, (0.0, r['location']['lat'])).m, 2),
+            round(geodesic(reference, (r['location']['lng'], 0.0)).m, 2),
+            round(r['elevation'] * 1000, 2) - baseheight
+        )
+        points.append(v)
+
+    line = Draft.makeWire(points, closed=False, face=False, support=None)
+    line.ViewObject.Visibility = False
+    #FreeCAD.activeDocument().recompute()
+    FreeCADGui.updateGui()
+    return FreeCAD.activeDocument().ActiveObject
+
+class _ImportPointsTaskPanel:
+
+    def __init__(self, obj = None):
+        self.obj = None
+        self.Boundary = None
+        self.select = 0
+        self.filename = ""
+
+        # form:
+        self.form1 = FreeCADGui.PySideUic.loadUi(os.path.dirname(__file__) + "/PVPlantImportGrid.ui")
+        self.form1.radio1.toggled.connect(lambda: self.mainToggle(self.form1.radio1))
+        self.form1.radio2.toggled.connect(lambda: self.mainToggle(self.form1.radio2))
+        self.form1.radio1.setChecked(True)  # << --------------Poner al final para que no dispare antes de crear los componentes a los que va a llamar
+        #self.form.buttonAdd.clicked.connect(self.add)
+        self.form1.buttonDEM.clicked.connect(self.openFileDEM)
+
+        self.form2 = FreeCADGui.PySideUic.loadUi(os.path.dirname(__file__) + "/PVPlantCreateTerrainMesh.ui")
+        #self.form2.buttonAdd.clicked.connect(self.add)
+        self.form2.buttonBoundary.clicked.connect(self.addBoundary)
+
+
+        #self.form = [self.form1, self.form2]
+        self.form = self.form1
+
+    ''' future:
+    def retranslateUi(self, dialog):
+        self.form1.setWindowTitle("Configuracion del Rack")
+        self.labelModule.setText(QtGui.QApplication.translate("PVPlant", "Modulo:", None))
+        self.labelModuleLength.setText(QtGui.QApplication.translate("PVPlant", "Longitud:", None))
+        self.labelModuleWidth.setText(QtGui.QApplication.translate("PVPlant", "Ancho:", None))
+        self.labelModuleHeight.setText(QtGui.QApplication.translate("PVPlant", "Alto:", None))
+        self.labelModuleFrame.setText(QtGui.QApplication.translate("PVPlant", "Ancho del marco:", None))
+        self.labelModuleColor.setText(QtGui.QApplication.translate("PVPlant", "Color del modulo:", None))
+        self.labelModules.setText(QtGui.QApplication.translate("Arch", "Colocacion de los Modulos", None))
+        self.labelModuleOrientation.setText(QtGui.QApplication.translate("Arch", "Orientacion del modulo:", None))
+        self.labelModuleGapX.setText(QtGui.QApplication.translate("Arch", "Separacion Horizontal (mm):", None))
+        self.labelModuleGapY.setText(QtGui.QApplication.translate("Arch", "Separacion Vertical (mm):", None))
+        self.labelModuleRows.setText(QtGui.QApplication.translate("Arch", "Filas de modulos:", None))
+        self.labelModuleCols.setText(QtGui.QApplication.translate("Arch", "Columnas de modulos:", None))
+        self.labelRack.setText(QtGui.QApplication.translate("Arch", "Configuracion de la estructura", None))
+        self.labelRackType.setText(QtGui.QApplication.translate("Arch", "Tipo de estructura:", None))
+        self.labelLevel.setText(QtGui.QApplication.translate("Arch", "Nivel:", None))
+        self.labelOffset.setText(QtGui.QApplication.translate("Arch", "Offset", None))
+    '''
+
+    def add(self):
+        sel = FreeCADGui.Selection.getSelection()
+        if len(sel) > 0:
+            self.obj = sel[0]
+            self.lineEdit1.setText(self.obj.Label)
+
+    def addBoundary(self):
+        sel = FreeCADGui.Selection.getSelection()
+        if len(sel) > 0:
+            self.Boundary = sel[0]
+            self.form2.editBoundary.setText(self.Boundary.Label)
+
+    def openFileDEM(self):
+        filters = "Esri ASC (*.asc);;CSV (*.csv);;All files (*.*)"
+        filename = QtGui.QFileDialog.getOpenFileName(None,
+                                                    "Open DEM,",
+                                                    "",
+                                                    filters)
+        self.filename = filename[0]
+        self.form1.editDEM.setText(filename[0])
+
+    def mainToggle(self, radiobox):
+        if radiobox is self.form1.radio1:
+            self.select = 0
+            self.form1.gbLocalFile.setVisible(True)
+        elif radiobox is self.form1.radio2:
+            self.select = 1
+            self.form1.gbLocalFile.setVisible(True)
+
+    def accept(self):
+        from datetime import datetime
+        starttime = datetime.now()
+
+        site = PVPlantSite.get()
+
+        try:
+            PointGroups = FreeCAD.ActiveDocument.Point_Groups
+        except:
+            PointGroups = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", 'Point_Groups')
+            PointGroups.Label = "Point Groups"
+
+        PointGroup = FreeCAD.ActiveDocument.addObject('Points::Feature', "Point_Group")
+        PointGroup.Label = "Land_Grid_Points"
+        FreeCAD.ActiveDocument.Point_Groups.addObject(PointGroup)
+        PointObject = PointGroup.Points.copy()
+
+        if self.select == 0:    # Google or bing or ...
+            #for item in self.obj:
+                #if self.groupbox.isChecked:break
+            resol = FreeCAD.Units.Quantity(self.valueResolution.text()).Value
+            Site = FreeCAD.ActiveDocument.Site
+            pts = getGridElevationFromBing(self.obj, Site.Latitude, Site.Longitude, resol)
+            PointObject.addPoints(pts)
+            PointGroup.Points = PointObject
+
+        else:
+            if self.filename == "":
+                return
+
+            import Utils.importDEM as openDEM
+            if self.select == 1: # DEM.
+                import numpy as np
+                root, extension = os.path.splitext(self.filename)
+                if extension.lower() == ".asc":
+                    x, y, datavals, cellsize, nodata_value = openDEM.openEsri(self.filename)
+
+                    if self.Boundary:
+                        inc_x = self.Boundary.Shape.BoundBox.XLength * 0.05
+                        inc_y = self.Boundary.Shape.BoundBox.YLength * 0.05
+
+                        min_x = 0
+                        max_x = 0
+
+                        comp = (self.Boundary.Shape.BoundBox.XMin - inc_x) / 1000
+                        for i in range(nx):
+                            if x[i] > comp:
+                                min_x = i - 1
+                                break
+                        comp = (self.Boundary.Shape.BoundBox.XMax + inc_x) / 1000
+                        for i in range(min_x, nx):
+                            if x[i] > comp:
+                                max_x = i
+                                break
+
+                        min_y = 0
+                        max_y = 0
+
+                        comp = (self.Boundary.Shape.BoundBox.YMax + inc_y) / 1000
+                        for i in range(ny):
+                            if y[i] < comp:
+                                max_y = i
+                                break
+                        comp = (self.Boundary.Shape.BoundBox.YMin - inc_y) / 1000
+                        for i in range(max_y, ny):
+                            if y[i] < comp:
+                                min_y = i
+                                break
+
+                        x = x[min_x:max_x]
+                        y = y[max_y:min_y]
+                        datavals = datavals[max_y:min_y, min_x:max_x]
+
+                    pts = []
+                    if True: # faster but more memory 46s - 4,25 gb
+                        x, y = np.meshgrid(x, y)
+                        xx = x.flatten()
+                        yy = y.flatten()
+                        zz = datavals.flatten()
+                        x[:] = 0
+                        y[:] = 0
+                        datavals[:] = 0
+
+                        pts = []
+                        for i in range(0, len(xx)):
+                            pts.append(FreeCAD.Vector(xx[i], yy[i], zz[i]) * 1000)
+
+                        xx[:] = 0
+                        yy[:] = 0
+                        zz[:] = 0
+
+                    else:   # 51s 3,2 gb
+                        createmesh = True
+                        if createmesh:
+                            import Part, Draft
+
+                            lines=[]
+                            for j in range(len(y)):
+                                edges = []
+                                for i in range(0, len(x) - 1):
+                                    ed = Part.makeLine(FreeCAD.Vector(x[i], y[j], datavals[j][i]) * 1000,
+                                                       FreeCAD.Vector(x[i + 1], y[j], datavals[j][i + 1]) * 1000)
+                                    edges.append(ed)
+
+                                #bspline = Draft.makeBSpline(pts)
+                                #bspline.ViewObject.hide()
+                                line = Part.Wire(edges)
+                                lines.append(line)
+
+                            '''
+                            for i in range(0, len(bsplines), 100):
+                                p = Part.makeLoft(bsplines[i:i + 100], False, False, False)
+                                Part.show(p)
+                            '''
+                            p = Part.makeLoft(lines, False, True, False)
+                            p = Part.Solid(p)
+                            Part.show(p)
+
+                        else:
+                            pts = []
+                            for j in range(ny):
+                                for i in range(nx):
+                                    pts.append(FreeCAD.Vector(x[i], y[j], datavals[j][i]) * 1000)
+
+                elif extension.lower() == ".csv" or extension.lower() == ".txt":  # x, y, z from gps
+                    pts = openDEM.interpolatePoints(openDEM.openCSV(self.filename))
+
+        PointObject.addPoints(pts)
+        PointGroup.Points = PointObject
+
+        FreeCAD.ActiveDocument.recompute()
+        FreeCADGui.Control.closeDialog()
+        print("tiempo: ", datetime.now() - starttime)
+
+    def reject(self):
+        FreeCADGui.Control.closeDialog()
+
+## Comandos -----------------------------------------------------------------------------------------------------------
+class CommandImportPoints:
+
+    def GetResources(self):
+        return {'Pixmap': str(os.path.join(DirIcons, "cloud.svg")),
+                'MenuText': QT_TRANSLATE_NOOP("PVPlant", "Importer Grid"),
+                'Accel': "B, U",
+                'ToolTip': QT_TRANSLATE_NOOP("PVPlant", "Creates a cloud of points.")}
+
+    def IsActive(self):
+        return not FreeCAD.ActiveDocument is None
+
+    def Activated(self):
+        self.TaskPanel = _ImportPointsTaskPanel()
+        FreeCADGui.Control.showDialog(self.TaskPanel)
+
+if FreeCAD.GuiUp:
+    class CommandPointsGroup:
+
+        def GetCommands(self):
+            return tuple(['ImportPoints'
+                          ])
+        def GetResources(self):
+            return { 'MenuText': QT_TRANSLATE_NOOP("",'Cloud of Points'),
+                     'ToolTip': QT_TRANSLATE_NOOP("",'Cloud of Points')
+                   }
+        def IsActive(self):
+            return not FreeCAD.ActiveDocument is None
+
+    FreeCADGui.addCommand('ImportPoints', CommandImportPoints())
+    FreeCADGui.addCommand('PointsGroup', CommandPointsGroup())
+

PVPlantEarthWorks.py

@@ -760,7 +760,7 @@ class EarthWorksTaskPanel:
                             if len(section) > 0:
                                 try:
                                     boundary.add(Part.makePolygon(section))
-                                except Part.OCCError:
+                                except:
                                     pass
                     Part.show(boundary)'''
                     #mesh.smooth("Laplace", 3)

PVPlantGeoreferencing.py

@@ -20,585 +20,10 @@
 # *                                                                     *
 # ***********************************************************************
 
-import FreeCAD
-import utm
+"""
+PVPlantGeoreferencing - Wrapper de compatibilidad.
 
-if FreeCAD.GuiUp:
-    import FreeCADGui
-    from PySide import QtCore, QtGui
-    from PySide.QtCore import QT_TRANSLATE_NOOP
+Código movido a PVPlant/core/georef.py.
+"""
 
-    import os
-else:
-    # \cond
-    def translate(ctxt,txt):
-        return txt
-    def QT_TRANSLATE_NOOP(ctxt,txt):
-        return txt
-    # \endcond
-
-import PVPlantResources
-from PVPlantResources import DirIcons as DirIcons
-from PVPlantResources import DirResources as DirResources
-
-
-class MapWindow(QtGui.QWidget):
-    def __init__(self, WinTitle="MapWindow"):
-        super(MapWindow, self).__init__()
-        self.raise_()
-        self.lat = None
-        self.lon = None
-        self.minLat = None
-        self.maxLat = None
-        self.minLon = None
-        self.maxLon = None
-        self.zoom = None
-        self.WinTitle = WinTitle
-        self.georeference_coordinates = {'lat': None, 'lon': None}
-        self.setupUi()
-
-    def setupUi(self):
-        # Intentar cargar QtWebEngine (no siempre disponible, ej: FreeCAD flatpak)
-        QWebEngineView, QWebChannel = self._load_webengine()
-        self._webengine_available = QWebEngineView is not None
-
-        self.ui = FreeCADGui.PySideUic.loadUi(PVPlantResources.__dir__ + "/PVPlantGeoreferencing.ui", self)
-
-        self.resize(1200, 800)
-        self.setWindowTitle(self.WinTitle)
-        self.setWindowIcon(QtGui.QIcon(os.path.join(DirIcons, "Location.svg")))
-        self.setWindowFlags(QtCore.Qt.WindowStaysOnTopHint)
-
-        self.layout = QtGui.QHBoxLayout(self)
-        self.layout.setContentsMargins(4, 4, 4, 4)
-
-        LeftWidget = QtGui.QWidget(self)
-        LeftLayout = QtGui.QVBoxLayout(LeftWidget)
-        LeftWidget.setLayout(LeftLayout)
-        LeftLayout.setContentsMargins(0, 0, 0, 0)
-
-        RightWidget = QtGui.QWidget(self)
-        RightWidget.setFixedWidth(350)
-        RightLayout = QtGui.QVBoxLayout(RightWidget)
-        RightWidget.setLayout(RightLayout)
-        RightLayout.setContentsMargins(0, 0, 0, 0)
-
-        self.layout.addWidget(LeftWidget)
-        self.layout.addWidget(RightWidget)
-
-        # Left Widgets:
-        if self._webengine_available:
-            # -- Search Bar:
-            self.valueSearch = QtGui.QLineEdit(self)
-            self.valueSearch.setPlaceholderText("Search")
-            self.valueSearch.returnPressed.connect(self.onSearch)
-
-            searchbutton = QtGui.QPushButton('Search')
-            searchbutton.setFixedWidth(80)
-            searchbutton.clicked.connect(self.onSearch)
-
-            SearchBarLayout = QtGui.QHBoxLayout(self)
-            SearchBarLayout.addWidget(self.valueSearch)
-            SearchBarLayout.addWidget(searchbutton)
-            LeftLayout.addLayout(SearchBarLayout)
-
-            # -- Web browser:
-            self.view = QWebEngineView()
-            self.channel = QWebChannel(self.view.page())
-            self.view.page().setWebChannel(self.channel)
-            self.channel.registerObject("MyApp", self)
-            file = os.path.join(DirResources, "webs", "main.html")
-            self.view.page().loadFinished.connect(self.onLoadFinished)
-            self.view.page().load(QtCore.QUrl.fromLocalFile(file))
-            LeftLayout.addWidget(self.view)
-        else:
-            # -- Modo manual: entrada de coordenadas sin mapa web
-            self.valueSearch = QtGui.QLineEdit(self)
-            self.valueSearch.setPlaceholderText("Latitud, Longitud (ej: 40.4168, -3.7038)")
-            self.valueSearch.returnPressed.connect(self.onManualCoords)
-
-            searchbutton = QtGui.QPushButton('Ir')
-            searchbutton.setFixedWidth(80)
-            searchbutton.clicked.connect(self.onManualCoords)
-
-            SearchBarLayout = QtGui.QHBoxLayout(self)
-            SearchBarLayout.addWidget(self.valueSearch)
-            SearchBarLayout.addWidget(searchbutton)
-            LeftLayout.addLayout(SearchBarLayout)
-
-            info = QtGui.QLabel("Mapa web no disponible. Introduce coordenadas manualmente.")
-            info.setStyleSheet("color: #888; font-style: italic; padding: 20px;")
-            info.setAlignment(QtCore.Qt.AlignCenter)
-            LeftLayout.addWidget(info)
-
-        # -- Latitud y longitud:
-        self.labelCoordinates = QtGui.QLabel()
-        self.labelCoordinates.setFixedHeight(21)
-        LeftLayout.addWidget(self.labelCoordinates)
-
-        # Right Widgets:
-        labelKMZ = QtGui.QLabel()
-        labelKMZ.setText("Cargar un archivo KMZ/KML:")
-        self.kmlButton = QtGui.QPushButton()
-        self.kmlButton.setFixedSize(32, 32)
-        self.kmlButton.setIcon(QtGui.QIcon(os.path.join(DirIcons, "googleearth.svg")))
-        widget = QtGui.QWidget(self)
-        layout = QtGui.QHBoxLayout(widget)
-        widget.setLayout(layout)
-        layout.addWidget(labelKMZ)
-        layout.addWidget(self.kmlButton)
-        RightLayout.addWidget(widget)
-
-        # -----------------------
-        self.groupbox = QtGui.QGroupBox("Importar datos desde:")
-        self.groupbox.setCheckable(True)
-        self.groupbox.setChecked(True)
-        radio1 = QtGui.QRadioButton("Google Elevation")
-        radio2 = QtGui.QRadioButton("Nube de Puntos")
-        radio3 = QtGui.QRadioButton("Datos GPS")
-        radio1.setChecked(True)
-
-        vbox = QtGui.QVBoxLayout(self)
-        vbox.addWidget(radio1)
-        vbox.addWidget(radio2)
-        vbox.addWidget(radio3)
-
-        self.groupbox.setLayout(vbox)
-        RightLayout.addWidget(self.groupbox)
-
-        self.checkboxImportGis = QtGui.QCheckBox("Importar datos GIS")
-        RightLayout.addWidget(self.checkboxImportGis)
-
-        self.checkboxImportSatelitalImagen = QtGui.QCheckBox("Importar Imagen Satelital")
-        RightLayout.addWidget(self.checkboxImportSatelitalImagen)
-
-        verticalSpacer = QtGui.QSpacerItem(20, 48, QtGui.QSizePolicy.Minimum, QtGui.QSizePolicy.Expanding)
-        RightLayout.addItem(verticalSpacer)
-
-        self.bAccept = QtGui.QPushButton('Accept')
-        self.bAccept.clicked.connect(self.onAcceptClick)
-        RightLayout.addWidget(self.bAccept)
-
-        # signals/slots
-        QtCore.QObject.connect(self.kmlButton, QtCore.SIGNAL("clicked()"), self.importKML)
-
-
-    def onLoadFinished(self):
-        file = os.path.join(DirResources, "webs", "map.js")
-        frame = self.view.page()
-        with open(file, 'r') as f:
-            frame.runJavaScript(f.read())
-
-    def _load_webengine(self):
-        """Intenta cargar QWebEngineView desde cualquier versión de PySide.
-        Retorna (QWebEngineView_class, QWebChannel_class) o (None, None)."""
-        for modpath in [
-            'PySide6.QtWebEngineWidgets',
-            'PySide6.QtWebEngineCore',
-            'PySide6.QtWebEngineQuick',
-            'PySide2.QtWebEngineWidgets',
-            'PySide.QtWebEngineWidgets',
-        ]:
-            try:
-                parts = modpath.split('.')
-                mod = __import__(parts[0], fromlist=parts[1:])
-                for p in parts[1:]:
-                    mod = getattr(mod, p)
-                View = getattr(mod, 'QWebEngineView', None)
-                Channel = getattr(mod, 'QWebChannel', None)
-                if View is not None:
-                    return View, Channel
-            except (ImportError, AttributeError):
-                continue
-        # Fallback: intentar por separado QtWebChannel (sí existe en flatpak)
-        try:
-            from PySide6.QtWebChannel import QWebChannel as Channel
-        except ImportError:
-            Channel = None
-        FreeCAD.Console.PrintWarning(
-            "PVPlantGeoreferencing: QtWebEngine no disponible. "
-            "Usando modo manual de coordenadas.\n")
-        return None, Channel
-
-    def onManualCoords(self):
-        """Procesa entrada manual de latitud,longitud"""
-        text = self.valueSearch.text().strip()
-        if not text:
-            return
-        try:
-            parts = text.replace(',', ' ').split()
-            lat = float(parts[0])
-            lon = float(parts[1])
-            self.georeference_coordinates = {'lat': lat, 'lon': lon}
-            self.labelCoordinates.setText(f"{lat:.6f}, {lon:.6f}")
-            FreeCAD.Console.PrintMessage(f"Coordenadas: {lat:.6f}, {lon:.6f}\n")
-        except (ValueError, IndexError):
-            FreeCAD.Console.PrintError("Formato inválido. Usa: latitud, longitud\n")
-
-    def onSearch(self):
-        if self.valueSearch.text() == "":
-            return
-
-        from geopy.geocoders import Nominatim
-
-        geolocator = Nominatim(user_agent="http")
-        location = geolocator.geocode(self.valueSearch.text())
-        self.valueSearch.setText(location.address)
-        self.panMap(location.longitude, location.latitude, location.raw['boundingbox'])
-
-    def onAcceptClick(self):
-        frame = self.view.page()
-        # 1. georeferenciar
-        frame.runJavaScript(
-            "MyApp.georeference(drawnItems.getBounds().getCenter().lat, drawnItems.getBounds().getCenter().lng);"
-        )
-
-        # 2. importar todos los elementos dibujados:
-        frame.runJavaScript(
-            "var data = drawnItems.toGeoJSON();"
-            "MyApp.shapes(JSON.stringify(data));"
-        )
-
-        self.close()
-
-    @QtCore.Slot(float, float)
-    def onMapMove(self, lat, lng):
-        self.lat = lat
-        self.lon = lng
-        x, y, zone_number, zone_letter = utm.from_latlon(lat, lng)
-        self.labelCoordinates.setText('Longitud: {:.5f}, Latitud: {:.5f}'.format(lng, lat) +
-                                      '  |  UTM: ' + str(zone_number) + zone_letter +
-                                      ', {:.5f}m E, {:.5f}m N'.format(x, y))
-
-    @QtCore.Slot(float, float, float, float, int)
-    def onMapZoom(self, minLat, minLon, maxLat, maxLon, zoom):
-        self.minLat = min([minLat, maxLat])
-        self.maxLat = max([minLat, maxLat])
-        self.minLon = min([minLon, maxLon])
-        self.maxLon = max([minLon, maxLon])
-        self.zoom = zoom
-
-    @QtCore.Slot(float, float)
-    def georeference(self, lat, lng):
-        import PVPlantSite
-        from geopy.geocoders import Nominatim
-
-        self.georeference_coordinates['lat'] = lat
-        self.georeference_coordinates['lon'] = lng
-
-        Site = PVPlantSite.get(create=True)
-        Site.Proxy.setLatLon(lat, lng)
-
-        geolocator = Nominatim(user_agent="http")
-        location = geolocator.reverse('{:.5f}, {:.5f}'.format(lat, lng))
-        if location:
-            if location.raw["address"].get("road"):
-                str = location.raw["address"]["road"]
-                if location.raw["address"].get("house_number"):
-                    str += ' ({0})'.format(location.raw["address"]["house_number"])
-                Site.Address = str
-            if location.raw["address"].get("city"):
-                Site.City = location.raw["address"]["city"]
-            if location.raw["address"].get("postcode"):
-                Site.PostalCode = location.raw["address"]["postcode"]
-            if location.raw["address"].get("address"):
-                Site.Region = '{0}'.format(location.raw["address"]["province"])
-            if location.raw["address"].get("state"):
-                if Site.Region != "":
-                    Site.Region += " - "
-                Site.Region += '{0}'.format(location.raw["address"]["state"])   # province - state
-            Site.Country = location.raw["address"]["country"]
-
-    @QtCore.Slot(str)
-    def shapes(self, drawnItems):
-        import geojson
-        import PVPlantImportGrid as ImportElevation
-        import Draft
-        import PVPlantSite
-        Site = PVPlantSite.get()
-
-        offset = FreeCAD.Vector(0, 0, 0)
-        if not (self.lat is None or self.lon is None):
-            offset = FreeCAD.Vector(Site.Origin)
-            offset.z = 0
-
-        items = geojson.loads(drawnItems)
-        for item in items['features']:
-            if item['geometry']['type'] == "Point":     # 1. if the feature is a Point or Circle:
-                coord = item['geometry']['coordinates']
-                point = ImportElevation.getElevationFromOE([[coord[1], coord[0]],])
-                c = FreeCAD.Vector(point[0][0], point[0][1], point[0][2]).sub(offset)
-                if item['properties'].get('radius'):
-                    r = round(item['properties']['radius'] * 1000, 0)
-                    p = FreeCAD.Placement()
-                    p.Base = c
-                    obj = Draft.makeCircle(r, placement=p, face=False)
-                else:
-                    ''' do something '''
-                    obj = Draft.make_point(c * 1000, color=(0.5, 0.3, 0.6), point_size=10)
-            else:                                       # 2. if the feature is a Polygon or Line:
-                cw = False
-                name = "Línea"
-                lp = item['geometry']['coordinates']
-                if item['geometry']['type'] == "Polygon":
-                    cw = True
-                    name = "Area"
-                    lp = item['geometry']['coordinates'][0]
-
-                pts = [[cords[1], cords[0]] for cords in lp]
-                tmp = ImportElevation.getElevationFromOE(pts)
-                pts = [p.sub(offset) for p in tmp]
-
-                obj = Draft.makeWire(pts, closed=cw, face=False)
-                #obj.Placement.Base = Site.Origin
-                obj.Label = name
-                Draft.autogroup(obj)
-
-            if item['properties'].get('name'):
-                obj.Label = item['properties']['name']
-
-        if self.checkboxImportGis.isChecked():
-            self.getDataFromOSM(self.minLat, self.minLon, self.maxLat, self.maxLon)
-
-        if self.checkboxImportSatelitalImagen.isChecked():
-            # Usar los límites reales del terreno (rectangular)
-            '''s_lat = self.minLat
-            s_lon = self.minLon
-            n_lat = self.maxLat
-            n_lon = self.maxLon
-
-            # Obtener puntos UTM para las esquinas
-            corners = ImportElevation.getElevationFromOE([
-                [s_lat, s_lon],  # Esquina suroeste
-                [n_lat, s_lon],  # Esquina sureste
-                [n_lat, n_lon],  # Esquina noreste
-                [s_lat, n_lon]  # Esquina noroeste
-            ])
-
-            if not corners or len(corners) < 4:
-                FreeCAD.Console.PrintError("Error obteniendo elevaciones para las esquinas\n")
-                return
-
-            # Descargar imagen satelital
-            from lib.GoogleSatelitalImageDownload import GoogleMapDownloader
-            downloader = GoogleMapDownloader(
-                zoom= 18, #self.zoom,
-                layer='raw_satellite'
-            )
-            img = downloader.generateImage(
-                sw_lat=s_lat,
-                sw_lng=s_lon,
-                ne_lat=n_lat,
-                ne_lng=n_lon
-            )
-
-            # Guardar imagen en el directorio del documento
-            doc_path = os.path.dirname(FreeCAD.ActiveDocument.FileName) if FreeCAD.ActiveDocument.FileName else ""
-            if not doc_path:
-                doc_path = FreeCAD.ConfigGet("UserAppData")
-
-            filename = os.path.join(doc_path, "background.jpeg")
-            img.save(filename)
-
-            ancho, alto = img.size
-
-            # Crear objeto de imagen en FreeCAD
-            doc = FreeCAD.ActiveDocument
-            img_obj = doc.addObject('Image::ImagePlane', 'Background')
-            img_obj.ImageFile = filename
-            img_obj.Label = 'Background'
-
-            # Calcular dimensiones en metros usando las coordenadas UTM
-            # Extraer las coordenadas de las esquinas
-            sw = corners[0]  # Suroeste
-            se = corners[1]  # Sureste
-            ne = corners[2]  # Noreste
-            nw = corners[3]  # Noroeste
-
-            # Calcular ancho (promedio de los lados superior e inferior)
-            width_bottom = se.x - sw.x
-            width_top = ne.x - nw.x
-            width_m = (width_bottom + width_top) / 2
-
-            # Calcular alto (promedio de los lados izquierdo y derecho)
-            height_left = nw.y - sw.y
-            height_right = ne.y - se.y
-            height_m = (height_left + height_right) / 2
-
-            img_obj.XSize = width_m
-            img_obj.YSize = height_m
-
-            # Posicionar el centro de la imagen en (0,0,0)
-            img_obj.Placement.Base = FreeCAD.Vector(-width_m / 2, -height_m / 2, 0)'''
-
-            # Definir área rectangular
-            s_lat = self.minLat
-            s_lon = self.minLon
-            n_lat = self.maxLat
-            n_lon = self.maxLon
-
-            # Obtener puntos UTM para las esquinas y el punto de referencia
-            points = [
-                [s_lat, s_lon],  # Suroeste
-                [n_lat, n_lon],  # Noreste
-                [self.georeference_coordinates['lat'], self.georeference_coordinates['lon']]  # Punto de referencia
-            ]
-            utm_points = ImportElevation.getElevationFromOE(points)
-
-            if not utm_points or len(utm_points) < 3:
-                FreeCAD.Console.PrintError("Error obteniendo elevaciones para las esquinas y referencia\n")
-                return
-
-            sw_utm, ne_utm, ref_utm = utm_points
-
-            # Descargar imagen satelital
-            from lib.GoogleSatelitalImageDownload import GoogleMapDownloader
-            downloader = GoogleMapDownloader(
-                zoom=self.zoom,
-                layer='raw_satellite'
-            )
-            img = downloader.generateImage(
-                sw_lat=s_lat,
-                sw_lng=s_lon,
-                ne_lat=n_lat,
-                ne_lng=n_lon
-            )
-
-            # Guardar imagen
-            doc_path = os.path.dirname(FreeCAD.ActiveDocument.FileName) if FreeCAD.ActiveDocument.FileName else ""
-            if not doc_path:
-                doc_path = FreeCAD.ConfigGet("UserAppData")
-
-            filename = os.path.join(doc_path, "background.jpeg")
-            img.save(filename)
-
-            # Calcular dimensiones reales en metros
-            width_m = ne_utm.x - sw_utm.x  # Ancho en metros (este-oeste)
-            height_m = ne_utm.y - sw_utm.y  # Alto en metros (norte-sur)
-
-            # Calcular posición relativa del punto de referencia dentro de la imagen
-            rel_x = (ref_utm.x - sw_utm.x) / width_m if width_m != 0 else 0.5
-            rel_y = (ref_utm.y - sw_utm.y) / height_m if height_m != 0 else 0.5
-
-            # Crear objeto de imagen en FreeCAD
-            doc = FreeCAD.ActiveDocument
-            img_obj = doc.addObject('Image::ImagePlane', 'Background')
-            img_obj.ImageFile = filename
-            img_obj.Label = 'Background'
-
-            # Convertir dimensiones a milímetros (FreeCAD trabaja en mm)
-            img_obj.XSize = width_m * 1000
-            img_obj.YSize = height_m * 1000
-
-            # Posicionar para que el punto de referencia esté en (0,0,0)
-            # La esquina inferior izquierda debe estar en:
-            #   x = -rel_x * ancho_total
-            #   y = -rel_y * alto_total
-            img_obj.Placement.Base = FreeCAD.Vector(
-                -rel_x * width_m * 1000,
-                -rel_y * height_m * 1000,
-                0
-            )
-
-            # Refrescar el documento
-            doc.recompute()
-
-    def calculate_texture_transform(self, mesh_obj, width_m, height_m):
-        """Calcula la transformación precisa para la textura"""
-        try:
-            # Obtener coordenadas reales de las esquinas
-            import utm
-            sw = utm.from_latlon(self.minLat, self.minLon)
-            ne = utm.from_latlon(self.maxLat, self.maxLon)
-
-            # Crear matriz de transformación
-            scale_x = (ne[0] - sw[0]) / width_m
-            scale_y = (ne[1] - sw[1]) / height_m
-
-            # Aplicar transformación (solo si se usa textura avanzada)
-            if hasattr(mesh_obj.ViewObject, "TextureMapping"):
-                mesh_obj.ViewObject.TextureMapping = "PLANE"
-                mesh_obj.ViewObject.TextureScale = (scale_x, scale_y)
-                mesh_obj.ViewObject.TextureOffset = (sw[0], sw[1])
-
-        except Exception as e:
-            FreeCAD.Console.PrintWarning(f"No se pudo calcular transformación: {str(e)}\n")
-
-    def getDataFromOSM(self, min_lat, min_lon, max_lat, max_lon):
-        import Importer.importOSM as importOSM
-        import PVPlantSite
-        site = PVPlantSite.get()
-
-        offset = FreeCAD.Vector(0, 0, 0)
-        if not (self.lat is None or self.lon is None):
-            offset = FreeCAD.Vector(site.Origin)
-            offset.z = 0
-        importer = importOSM.OSMImporter(offset)
-        osm_data = importer.get_osm_data(f"{min_lat},{min_lon},{max_lat},{max_lon}")
-        importer.process_osm_data(osm_data)
-
-        '''FreeCAD.activeDocument().recompute()
-        FreeCADGui.updateGui()
-        FreeCADGui.SendMsgToActiveView("ViewFit")'''
-
-    def panMap_old(self, lng, lat, geometry=""):
-        frame = self.view.page()
-        bbox = "[{0}, {1}], [{2}, {3}]".format(float(geometry[0]), float(geometry[2]),
-                                               float(geometry[1]), float(geometry[3]))
-        command = 'map.panTo(L.latLng({lt}, {lg}));'.format(lt=lat, lg=lng)
-        command += 'map.fitBounds([{box}]);'.format(box=bbox)
-        frame.runJavaScript(command)
-
-    # deepseek
-    def panMap(self, lng, lat, geometry=None):
-        frame = self.view.page()
-
-        # 1. Validación del parámetro geometry
-        if not geometry or len(geometry) < 4:
-            # Pan básico sin ajuste de bounds
-            command = f'map.panTo(L.latLng({lat}, {lng}));'
-        else:
-            try:
-                # 2. Mejor manejo de coordenadas (Leaflet usa [lat, lng])
-                # Asumiendo que geometry es [min_lng, min_lat, max_lng, max_lat]
-                southwest = f"{float(geometry[1])}, {float(geometry[0])}"  # min_lat, min_lng
-                northeast = f"{float(geometry[3])}, {float(geometry[2])}"  # max_lat, max_lng
-                command = f'map.panTo(L.latLng({lat}, {lng}));'
-                command += f'map.fitBounds(L.latLngBounds([{southwest}], [{northeast}]));'
-            except (IndexError, ValueError, TypeError) as e:
-                print(f"Error en geometry: {str(e)}")
-                command = f'map.panTo(L.latLng({lat}, {lng}));'
-        frame.runJavaScript(command)
-
-    def importKML(self):
-        file = QtGui.QFileDialog.getOpenFileName(None, "FileDialog", "", "Google Earth (*.kml *.kmz)")[0]
-
-        from lib.kml2geojson import kmz_convert
-        layers = kmz_convert(file, "", )
-        frame = self.view.page()
-        for layer in layers:
-            command = "var geoJsonLayer = L.geoJSON({0}); drawnItems.addLayer(geoJsonLayer); map.fitBounds(geoJsonLayer.getBounds());".format( layer)
-            frame.runJavaScript(command)
-
-
-class CommandPVPlantGeoreferencing:
-
-    def GetResources(self):
-        return {'Pixmap': str(os.path.join(DirIcons, "Location.svg")),
-                'Accel': "G, R",
-                'MenuText': QT_TRANSLATE_NOOP("Georeferencing","Georeferencing"),
-                'ToolTip': QT_TRANSLATE_NOOP("Georeferencing","Referenciar el lugar")}
-
-    def Activated(self):
-        self.form = MapWindow()
-        self.form.show()
-
-    def IsActive(self):
-        if FreeCAD.ActiveDocument:
-            return True
-        else:
-            return False
-
-'''if FreeCAD.GuiUp:
-    FreeCADGui.addCommand('PVPlantGeoreferencing',_CommandPVPlantGeoreferencing())
-'''
+from PVPlant.core.georef import MapWindow, CommandPVPlantGeoreferencing

PVPlantImportGrid.py

@@ -20,709 +20,24 @@
 # *                                                                     *
 # ***********************************************************************
 
-import json
-import urllib.request
-
-import Draft
-import FreeCAD
-import FreeCADGui
-from PySide import QtCore, QtGui
-from PySide.QtCore import QT_TRANSLATE_NOOP
-
-try:
-    _fromUtf8 = QtCore.QString.fromUtf8
-except AttributeError:
-    def _fromUtf8(s):
-        return s
-
-import os
-from PVPlantResources import DirIcons as DirIcons
-import PVPlantSite
-
-# ---------------------------------------------------------------------------
-# Adaptador UTM: emula la API de la librería 'utm' usando pyproj
-# La librería 'utm' dejó de usarse en favor de pyproj (más completa y mantenida).
-# from_latlon(lat, lon) -> (easting, northing, zone_number, zone_letter)
-# to_latlon(easting, northing, zone_number, zone_letter) -> (lat, lon)
-# ---------------------------------------------------------------------------
-_utm_cache = {}
-
-def _get_transformer(lat, lon):
-    """Obtiene o crea un transformador UTM para las coordenadas dadas."""
-    from pyproj import Transformer
-    zone = int((lon + 180) / 6) + 1
-    hem = 'S' if lat < 0 else 'N'
-    key = (zone, hem)
-    if key not in _utm_cache:
-        crs_utm = f'+proj=utm +zone={zone} +{hem.lower()} +ellps=WGS84 +datum=WGS84 +units=m +no_defs'
-        _utm_cache[key] = Transformer.from_crs('EPSG:4326', crs_utm, always_xy=True)
-    return _utm_cache[key], zone, hem
-
-def from_latlon(lat, lon):
-    """Convierte (lat, lon) a UTM. Retorna (easting, northing, zone_number, zone_letter)."""
-    transformer, zone, hem = _get_transformer(lat, lon)
-    easting, northing = transformer.transform(lon, lat)
-    return (easting, northing, zone, hem)
-
-def to_latlon(easting, northing, zone_number, zone_letter):
-    """Convierte UTM a (lat, lon)."""
-    from pyproj import Transformer
-    hem = zone_letter.upper()
-    key = (zone_number, hem)
-    if key not in _utm_cache:
-        crs_utm = f'+proj=utm +zone={zone_number} +{hem.lower()} +ellps=WGS84 +datum=WGS84 +units=m +no_defs'
-        _utm_cache[key] = Transformer.from_crs(crs_utm, 'EPSG:4326', always_xy=True)
-    lon, lat = _utm_cache[key].transform(easting, northing)
-    return (lat, lon)
-
-# Parche: reemplazar el módulo 'utm' por nuestro adaptador
-import sys
-class _UTMWrapper:
-    """Wrapper para que 'import utm' devuelva nuestras funciones."""
-    from_latlon = staticmethod(from_latlon)
-    to_latlon = staticmethod(to_latlon)
-sys.modules['utm'] = _UTMWrapper
-# ---------------------------------------------------------------------------
-
-
-def get_elevation_from_oe(coordinates): # v1 deepseek
-    """Obtiene elevaciones de Open-Elevation API y devuelve vectores FreeCAD en coordenadas UTM.
-    Args:
-        coordinates (list): Lista de tuplas con coordenadas (latitud, longitud)
-    Returns:
-        list: Lista de vectores FreeCAD con coordenadas UTM y elevación (en milímetros)
-              o lista vacía en caso de error.
-    """
-    if not coordinates:
-        return []
-
-    import requests
-    from requests.exceptions import RequestException
-
-    # Construcción más eficiente de parámetros
-    locations = "|".join([f"{lat:.6f},{lon:.6f}" for lat, lon in coordinates])
-
-    try:
-        response = requests.get(
-            url="https://api.open-elevation.com/api/v1/lookup",
-            params={'locations': locations},
-            timeout=20,
-            verify=True
-        )
-        response.raise_for_status()  # Lanza excepción para códigos 4xx/5xx
-
-    except RequestException as e:
-        print(f"Error en la solicitud: {e}")
-        return []
-
-    try:
-        data = response.json()
-    except ValueError:
-        print("Respuesta JSON inválida")
-        return []
-
-    if "results" not in data or len(data["results"]) != len(coordinates):
-        print("Formato de respuesta inesperado")
-        return []
-
-    points = []
-    for result in data["results"]:
-        try:
-            # Conversión UTM con manejo de errores
-            easting, northing, _, _ = utm.from_latlon(
-                result["latitude"],
-                result["longitude"]
-            )
-
-            points.append(FreeCAD.Vector(round(easting),  # Convertir metros a milímetros
-                                         round(northing),
-                                         round(result["elevation"])) * 1000)
-
-        except Exception as e:
-            print(f"Error procesando coordenadas: {e}")
-            continue
-
-    return points
-
-
-def getElevationFromOE(coordinates):
-    """Obtiene elevaciones de Open-Elevation API y devuelve vectores FreeCAD en coordenadas UTM."""
-
-    import certifi
-    from requests.exceptions import RequestException
-    if len(coordinates) == 0:
-        return None
-
-    from requests import get
-
-    locations_str=""
-    total = len(coordinates) - 1
-    for i, point in enumerate(coordinates):
-        locations_str += '{:.6f},{:.6f}'.format(point[0], point[1])
-        if i != total:
-            locations_str += '|'
-    query = 'https://api.open-elevation.com/api/v1/lookup?locations=' + locations_str
-    points = []
-    try:
-        r = get(query, timeout=20, verify=certifi.where())  # <-- Corrección aquí
-        results = r.json()
-        for point in results["results"]:
-            c = utm.from_latlon(point["latitude"], point["longitude"])
-            v = FreeCAD.Vector(round(c[0], 0),
-                               round(c[1], 0),
-                               round(point["elevation"], 0)) * 1000
-            points.append(v)
-    except RequestException as e:
-        # print(f"Error en la solicitud: {str(e)}")
-        for i, point in enumerate(coordinates):
-            c = utm.from_latlon(point[0], point[1])
-            points.append(FreeCAD.Vector(round(c[0], 0),
-                                         round(c[1], 0),
-                                      0) * 1000)
-
-    return points
-
-def getSinglePointElevationFromBing(lat, lng):
-    #http://dev.virtualearth.net/REST/v1/Elevation/List?points={lat1,long1,lat2,long2,latN,longnN}&heights={heights}&key={BingMapsAPIKey}
-
-    source = "http://dev.virtualearth.net/REST/v1/Elevation/List?points="
-    source += str(lat) + "," + str(lng)
-    source += "&heights=sealevel"
-    source += "&key=AmsPZA-zRt2iuIdQgvXZIxme2gWcgLaz7igOUy7VPB8OKjjEd373eCnj1KFv2CqX"
-
-    import requests
-    response = requests.get(source)
-    ans = response.text
-
-    s = json.loads(ans)
-    print(s)
-    res = s['resourceSets'][0]['resources'][0]['elevations']
-    for elevation in res:
-        c = utm.from_latlon(lat, lng)
-        v = FreeCAD.Vector(
-            round(c[0] * 1000, 0),
-            round(c[1] * 1000, 0),
-            round(elevation * 1000, 0))
-        return v
-
-def getGridElevationFromBing(polygon, lat, lng, resolution = 1000):
-    #http://dev.virtualearth.net/REST/v1/Elevation/Polyline?points=35.89431,-110.72522,35.89393,-110.72578,35.89374,-110.72606,35.89337,-110.72662
-    # &heights=ellipsoid&samples=10&key={BingMapsAPIKey}
-    import math
-    import requests
-
-
-    geo = utm.from_latlon(lat, lng)
-    # result = (679434.3578335291, 4294023.585627955, 30, 'S')
-    # EASTING, NORTHING, ZONE NUMBER, ZONE LETTER
-
-    #StepsXX = int((polygon.Shape.BoundBox.XMax - polygon.Shape.BoundBox.XMin) / (resolution*1000))
-    points = []
-    yy = polygon.Shape.BoundBox.YMax
-    while yy > polygon.Shape.BoundBox.YMin:
-        xx = polygon.Shape.BoundBox.XMin
-        while xx < polygon.Shape.BoundBox.XMax:
-            StepsXX = int(math.ceil((polygon.Shape.BoundBox.XMax - xx) / resolution))
-
-            if StepsXX > 1000:
-                StepsXX = 1000
-                xx1 = xx + 1000 * resolution
-            else:
-                xx1 = xx + StepsXX * resolution
-
-            point1 = utm.to_latlon(xx / 1000, yy / 1000, geo[2], geo[3])
-            point2 = utm.to_latlon(xx1 / 1000, yy / 1000, geo[2], geo[3])
-
-            source = "http://dev.virtualearth.net/REST/v1/Elevation/Polyline?points="
-            source += "{lat1},{lng1}".format(lat1=point1[0], lng1=point1[1])
-            source += ","
-            source += "{lat2},{lng2}".format(lat2=point2[0], lng2=point2[1])
-            source += "&heights=sealevel"
-            source += "&samples={steps}".format(steps=StepsXX)
-            source += "&key=AmsPZA-zRt2iuIdQgvXZIxme2gWcgLaz7igOUy7VPB8OKjjEd373eCnj1KFv2CqX"
-
-            response = requests.get(source)
-            ans = response.text
-
-            # +# to do: error handling  - wait and try again
-            s = json.loads(ans)
-            res = s['resourceSets'][0]['resources'][0]['elevations']
-
-            i = 0
-            for elevation in res:
-                v = FreeCAD.Vector(xx + resolution * i, yy, round(elevation * 1000, 4))
-                points.append(v)
-                i += 1
-            xx = xx1 + resolution # para no repetir un mismo punto
-        yy -= resolution
-
-    return points
-
-def getSinglePointElevation(lat, lon):
-    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
-    source += str(lat) + "," + str(lon)
-    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-    #print (source)
-
-    #response = request.urlopen(source)
-    #ans = response.read()
-    import requests
-    response = requests.get(source)
-    ans = response.text
-
-    # +# to do: error handling  - wait and try again
-    s = json.loads(ans)
-    res = s['results']
-
-    from geopy.distance import geodesic
-    for r in res:
-
-        reference = (0.0, 0.0)
-        v = FreeCAD.Vector(
-            round(geodesic(reference, (0.0, r['location']['lng'])).m, 2),
-            round(geodesic(reference, (r['location']['lat'], 0.0)).m, 2),
-            round(r['elevation'] * 1000, 2)
-        )
-
-    return v
-
-def _getSinglePointElevation(lat, lon):
-    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
-    source += str(lat) + "," + str(lon)
-    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-    #print (source)
-
-    #response = request.urlopen(source)
-    #ans = response.read()
-    import requests
-    response = requests.get(source)
-    ans = response.text
-
-    # +# to do: error handling  - wait and try again
-    s = json.loads(ans)
-    res = s['results']
-
-    import pymap3d as pm
-    for r in res:
-        x, y, z = pm.geodetic2ecef(round(r['location']['lng'], 2),
-                                   round(r['location']['lat'], 2),
-                                   0)
-        v = FreeCAD.Vector(x,y,z)
-
-    return v
-
-def getSinglePointElevation1(lat, lon):
-    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
-    source += str(lat) + "," + str(lon)
-    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-
-    #response = urllib.request.urlopen(source)
-    #ans = response.read()
-    import requests
-    response = requests.get(source)
-    ans = response.text
-
-    # +# to do: error handling  - wait and try again
-    s = json.loads(ans)
-    res = s['results']
-
-    for r in res:
-        c = tm.fromGeographic(r['location']['lat'], r['location']['lng'])
-        v = FreeCAD.Vector(
-            round(c[0], 4),
-            round(c[1], 4),
-            round(r['elevation'] * 1000, 2)
-            )
-    return v
-
-def getSinglePointElevationUtm(lat, lon):
-    source = "https://maps.googleapis.com/maps/api/elevation/json?locations="
-    source += str(lat) + "," + str(lon)
-    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-    print(source)
-
-    #response = urllib.request.urlopen(source)
-    #ans = response.read()
-    import requests
-    response = requests.get(source)
-    ans = response.text
-
-    # +# to do: error handling  - wait and try again
-    s = json.loads(ans)
-    res = s['results']
-    print (res)
-
-    for r in res:
-        c = utm.from_latlon(r['location']['lat'], r['location']['lng'])
-        v = FreeCAD.Vector(
-            round(c[0] * 1000, 4),
-            round(c[1] * 1000, 4),
-            round(r['elevation'] * 1000, 2))
-        print (v)
-        return v
-
-def getElevationUTM(polygon, lat, lng, resolution = 10000):
-
-    geo = utm.from_latlon(lat, lng)
-    # result = (679434.3578335291, 4294023.585627955, 30, 'S')
-    # EASTING, NORTHING, ZONE NUMBER, ZONE LETTER
-
-    StepsXX = int((polygon.Shape.BoundBox.XMax - polygon.Shape.BoundBox.XMin) / (resolution*1000))
-    points = []
-    yy = polygon.Shape.BoundBox.YMax
-    while yy > polygon.Shape.BoundBox.YMin:
-        # utm.to_latlon(EASTING, NORTHING, ZONE NUMBER, ZONE LETTER).
-        # result = (LATITUDE, LONGITUDE)
-        point1 = utm.to_latlon(polygon.Shape.BoundBox.XMin / 1000, yy / 1000, geo[2], geo[3])
-        point2 = utm.to_latlon(polygon.Shape.BoundBox.XMax / 1000, yy / 1000, geo[2], geo[3])
-
-        source = "https://maps.googleapis.com/maps/api/elevation/json?path="
-        source += "{a},{b}".format(a = point1[0], b = point1[1])
-        source += "|"
-        source += "{a},{b}".format(a = point2[0], b = point2[1])
-        source += "&samples={a}".format(a = StepsXX)
-        source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-
-        import requests
-        response = requests.get(source)
-        ans = response.text
-
-        # +# to do: error handling  - wait and try again
-        s = json.loads(ans)
-        res = s['results']
-
-        for r in res:
-            c = utm.from_latlon(r['location']['lat'], r['location']['lng'])
-            v = FreeCAD.Vector(
-                round(c[0] * 1000, 2),
-                round(c[1] * 1000, 2),
-                round(r['elevation'] * 1000, 2)
-            )
-            points.append(v)
-        yy -= (resolution*1000)
-
-    FreeCAD.activeDocument().recompute()
-    return points
-
-def getElevation1(polygon,resolution=10):
-
-    StepsXX = int((polygon.Shape.BoundBox.XMax - polygon.Shape.BoundBox.XMin) / (resolution * 1000))
-    points = []
-    yy = polygon.Shape.BoundBox.YMax
-    while yy > polygon.Shape.BoundBox.YMin:
-        point1 = tm.toGeographic(polygon.Shape.BoundBox.XMin, yy)
-        point2 = tm.toGeographic(polygon.Shape.BoundBox.XMax, yy)
-
-        source = "https://maps.googleapis.com/maps/api/elevation/json?path="
-        source += "{a},{b}".format(a = point1[0], b = point1[1])
-        source += "|"
-        source += "{a},{b}".format(a = point2[0], b = point2[1])
-        source += "&samples={a}".format(a = StepsXX)
-        source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-
-        try:
-            #response = urllib.request.urlopen(source)
-            #ans = response.read()
-            import requests
-            response = requests.get(source)
-            ans = response.text
-
-            # +# to do: error handling  - wait and try again
-
-            s = json.loads(ans)
-            res = s['results']
-        except (json.JSONDecodeError, KeyError):
-            continue
-
-        #points = []
-        for r in res:
-            c = tm.fromGeographic(r['location']['lat'], r['location']['lng'])
-            v = FreeCAD.Vector(
-                round(c[0], 2),
-                round(c[1], 2),
-                round(r['elevation'] * 1000, 2)
-            )
-            points.append(v)
-
-        FreeCAD.activeDocument().recompute()
-        yy -= (resolution*1000)
-
-    return points
-
-## download the heights from google:
-def getElevation(lat, lon, b=50.35, le=11.17, size=40):
-    #https://maps.googleapis.com/maps/api/elevation/json?path=36.578581,-118.291994|36.23998,-116.83171&samples=3&key=YOUR_API_KEY
-    #https://maps.googleapis.com/maps/api/elevation/json?locations=39.7391536,-104.9847034&key=YOUR_API_KEY
-
-    source = "https://maps.googleapis.com/maps/api/elevation/json?path="
-    source += str(b-size*0.001) + "," + str(le) + "|" + str(b+size*0.001) + "," + str(le)
-    source += "&samples=" + str(100)
-    source += "&key=AIzaSyB07X6lowYJ-iqyPmaFJvr-6zp1J63db8U"
-
-    response = urllib.request.urlopen(source)
-    ans = response.read()
-
-    # +# to do: error handling  - wait and try again
-    s = json.loads(ans)
-    res = s['results']
-
-    from geopy.distance import geodesic
-    points = []
-    for r in res:
-        reference = (0.0, 0.0)
-        v = FreeCAD.Vector(
-            round(geodesic(reference, (0.0, r['location']['lat'])).m, 2),
-            round(geodesic(reference, (r['location']['lng'], 0.0)).m, 2),
-            round(r['elevation'] * 1000, 2) - baseheight
-        )
-        points.append(v)
-
-    line = Draft.makeWire(points, closed=False, face=False, support=None)
-    line.ViewObject.Visibility = False
-    #FreeCAD.activeDocument().recompute()
-    FreeCADGui.updateGui()
-    return FreeCAD.activeDocument().ActiveObject
-
-class _ImportPointsTaskPanel:
-
-    def __init__(self, obj = None):
-        self.obj = None
-        self.Boundary = None
-        self.select = 0
-        self.filename = ""
-
-        # form:
-        self.form1 = FreeCADGui.PySideUic.loadUi(os.path.dirname(__file__) + "/PVPlantImportGrid.ui")
-        self.form1.radio1.toggled.connect(lambda: self.mainToggle(self.form1.radio1))
-        self.form1.radio2.toggled.connect(lambda: self.mainToggle(self.form1.radio2))
-        self.form1.radio1.setChecked(True)  # << --------------Poner al final para que no dispare antes de crear los componentes a los que va a llamar
-        #self.form.buttonAdd.clicked.connect(self.add)
-        self.form1.buttonDEM.clicked.connect(self.openFileDEM)
-
-        self.form2 = FreeCADGui.PySideUic.loadUi(os.path.dirname(__file__) + "/PVPlantCreateTerrainMesh.ui")
-        #self.form2.buttonAdd.clicked.connect(self.add)
-        self.form2.buttonBoundary.clicked.connect(self.addBoundary)
-
-
-        #self.form = [self.form1, self.form2]
-        self.form = self.form1
-
-    ''' future:
-    def retranslateUi(self, dialog):
-        self.form1.setWindowTitle("Configuracion del Rack")
-        self.labelModule.setText(QtGui.QApplication.translate("PVPlant", "Modulo:", None))
-        self.labelModuleLength.setText(QtGui.QApplication.translate("PVPlant", "Longitud:", None))
-        self.labelModuleWidth.setText(QtGui.QApplication.translate("PVPlant", "Ancho:", None))
-        self.labelModuleHeight.setText(QtGui.QApplication.translate("PVPlant", "Alto:", None))
-        self.labelModuleFrame.setText(QtGui.QApplication.translate("PVPlant", "Ancho del marco:", None))
-        self.labelModuleColor.setText(QtGui.QApplication.translate("PVPlant", "Color del modulo:", None))
-        self.labelModules.setText(QtGui.QApplication.translate("Arch", "Colocacion de los Modulos", None))
-        self.labelModuleOrientation.setText(QtGui.QApplication.translate("Arch", "Orientacion del modulo:", None))
-        self.labelModuleGapX.setText(QtGui.QApplication.translate("Arch", "Separacion Horizontal (mm):", None))
-        self.labelModuleGapY.setText(QtGui.QApplication.translate("Arch", "Separacion Vertical (mm):", None))
-        self.labelModuleRows.setText(QtGui.QApplication.translate("Arch", "Filas de modulos:", None))
-        self.labelModuleCols.setText(QtGui.QApplication.translate("Arch", "Columnas de modulos:", None))
-        self.labelRack.setText(QtGui.QApplication.translate("Arch", "Configuracion de la estructura", None))
-        self.labelRackType.setText(QtGui.QApplication.translate("Arch", "Tipo de estructura:", None))
-        self.labelLevel.setText(QtGui.QApplication.translate("Arch", "Nivel:", None))
-        self.labelOffset.setText(QtGui.QApplication.translate("Arch", "Offset", None))
-    '''
-
-    def add(self):
-        sel = FreeCADGui.Selection.getSelection()
-        if len(sel) > 0:
-            self.obj = sel[0]
-            self.lineEdit1.setText(self.obj.Label)
-
-    def addBoundary(self):
-        sel = FreeCADGui.Selection.getSelection()
-        if len(sel) > 0:
-            self.Boundary = sel[0]
-            self.form2.editBoundary.setText(self.Boundary.Label)
-
-    def openFileDEM(self):
-        filters = "Esri ASC (*.asc);;CSV (*.csv);;All files (*.*)"
-        filename = QtGui.QFileDialog.getOpenFileName(None,
-                                                    "Open DEM,",
-                                                    "",
-                                                    filters)
-        self.filename = filename[0]
-        self.form1.editDEM.setText(filename[0])
-
-    def mainToggle(self, radiobox):
-        if radiobox is self.form1.radio1:
-            self.select = 0
-            self.form1.gbLocalFile.setVisible(True)
-        elif radiobox is self.form1.radio2:
-            self.select = 1
-            self.form1.gbLocalFile.setVisible(True)
-
-    def accept(self):
-        from datetime import datetime
-        starttime = datetime.now()
-
-        site = PVPlantSite.get()
-
-        try:
-            PointGroups = FreeCAD.ActiveDocument.Point_Groups
-        except AttributeError:
-            PointGroups = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup", 'Point_Groups')
-            PointGroups.Label = "Point Groups"
-
-        PointGroup = FreeCAD.ActiveDocument.addObject('Points::Feature', "Point_Group")
-        PointGroup.Label = "Land_Grid_Points"
-        FreeCAD.ActiveDocument.Point_Groups.addObject(PointGroup)
-        PointObject = PointGroup.Points.copy()
-
-        if self.select == 0:    # Google or bing or ...
-            #for item in self.obj:
-                #if self.groupbox.isChecked:break
-            resol = FreeCAD.Units.Quantity(self.valueResolution.text()).Value
-            Site = FreeCAD.ActiveDocument.Site
-            pts = getGridElevationFromBing(self.obj, Site.Latitude, Site.Longitude, resol)
-            PointObject.addPoints(pts)
-            PointGroup.Points = PointObject
-
-        else:
-            if self.filename == "":
-                return
-
-            import Utils.importDEM as openDEM
-            if self.select == 1: # DEM.
-                import numpy as np
-                root, extension = os.path.splitext(self.filename)
-                if extension.lower() == ".asc":
-                    x, y, datavals, cellsize, nodata_value = openDEM.openEsri(self.filename)
-
-                    if self.Boundary:
-                        inc_x = self.Boundary.Shape.BoundBox.XLength * 0.05
-                        inc_y = self.Boundary.Shape.BoundBox.YLength * 0.05
-
-                        min_x = 0
-                        max_x = 0
-
-                        comp = (self.Boundary.Shape.BoundBox.XMin - inc_x) / 1000
-                        for i in range(nx):
-                            if x[i] > comp:
-                                min_x = i - 1
-                                break
-                        comp = (self.Boundary.Shape.BoundBox.XMax + inc_x) / 1000
-                        for i in range(min_x, nx):
-                            if x[i] > comp:
-                                max_x = i
-                                break
-
-                        min_y = 0
-                        max_y = 0
-
-                        comp = (self.Boundary.Shape.BoundBox.YMax + inc_y) / 1000
-                        for i in range(ny):
-                            if y[i] < comp:
-                                max_y = i
-                                break
-                        comp = (self.Boundary.Shape.BoundBox.YMin - inc_y) / 1000
-                        for i in range(max_y, ny):
-                            if y[i] < comp:
-                                min_y = i
-                                break
-
-                        x = x[min_x:max_x]
-                        y = y[max_y:min_y]
-                        datavals = datavals[max_y:min_y, min_x:max_x]
-
-                    pts = []
-                    if True: # faster but more memory 46s - 4,25 gb
-                        x, y = np.meshgrid(x, y)
-                        xx = x.flatten()
-                        yy = y.flatten()
-                        zz = datavals.flatten()
-                        x[:] = 0
-                        y[:] = 0
-                        datavals[:] = 0
-
-                        pts = []
-                        for i in range(0, len(xx)):
-                            pts.append(FreeCAD.Vector(xx[i], yy[i], zz[i]) * 1000)
-
-                        xx[:] = 0
-                        yy[:] = 0
-                        zz[:] = 0
-
-                    else:   # 51s 3,2 gb
-                        createmesh = True
-                        if createmesh:
-                            import Part, Draft
-
-                            lines=[]
-                            for j in range(len(y)):
-                                edges = []
-                                for i in range(0, len(x) - 1):
-                                    ed = Part.makeLine(FreeCAD.Vector(x[i], y[j], datavals[j][i]) * 1000,
-                                                       FreeCAD.Vector(x[i + 1], y[j], datavals[j][i + 1]) * 1000)
-                                    edges.append(ed)
-
-                                #bspline = Draft.makeBSpline(pts)
-                                #bspline.ViewObject.hide()
-                                line = Part.Wire(edges)
-                                lines.append(line)
-
-                            '''
-                            for i in range(0, len(bsplines), 100):
-                                p = Part.makeLoft(bsplines[i:i + 100], False, False, False)
-                                Part.show(p)
-                            '''
-                            p = Part.makeLoft(lines, False, True, False)
-                            p = Part.Solid(p)
-                            Part.show(p)
-
-                        else:
-                            pts = []
-                            for j in range(ny):
-                                for i in range(nx):
-                                    pts.append(FreeCAD.Vector(x[i], y[j], datavals[j][i]) * 1000)
-
-                elif extension.lower() == ".csv" or extension.lower() == ".txt":  # x, y, z from gps
-                    pts = openDEM.interpolatePoints(openDEM.openCSV(self.filename))
-
-        PointObject.addPoints(pts)
-        PointGroup.Points = PointObject
-
-        FreeCAD.ActiveDocument.recompute()
-        FreeCADGui.Control.closeDialog()
-        print("tiempo: ", datetime.now() - starttime)
-
-    def reject(self):
-        FreeCADGui.Control.closeDialog()
-
-## Comandos -----------------------------------------------------------------------------------------------------------
-class CommandImportPoints:
-
-    def GetResources(self):
-        return {'Pixmap': str(os.path.join(DirIcons, "cloud.svg")),
-                'MenuText': QT_TRANSLATE_NOOP("PVPlant", "Importer Grid"),
-                'Accel': "B, U",
-                'ToolTip': QT_TRANSLATE_NOOP("PVPlant", "Creates a cloud of points.")}
-
-    def IsActive(self):
-        return not FreeCAD.ActiveDocument is None
-
-    def Activated(self):
-        self.TaskPanel = _ImportPointsTaskPanel()
-        FreeCADGui.Control.showDialog(self.TaskPanel)
-
-if FreeCAD.GuiUp:
-    class CommandPointsGroup:
-
-        def GetCommands(self):
-            return tuple(['ImportPoints'
-                          ])
-        def GetResources(self):
-            return { 'MenuText': QT_TRANSLATE_NOOP("",'Cloud of Points'),
-                     'ToolTip': QT_TRANSLATE_NOOP("",'Cloud of Points')
-                   }
-        def IsActive(self):
-            return not FreeCAD.ActiveDocument is None
-
-    FreeCADGui.addCommand('ImportPoints', CommandImportPoints())
-    FreeCADGui.addCommand('PointsGroup', CommandPointsGroup())
-
+"""
+PVPlantImportGrid - Wrapper de compatibilidad.
+
+Código movido a PVPlant/import_grid/grid.py.
+"""
+
+from PVPlant.import_grid.grid import (
+    get_elevation_from_oe,
+    getElevationFromOE,
+    getSinglePointElevationFromBing,
+    getGridElevationFromBing,
+    getSinglePointElevation,
+    _getSinglePointElevation,
+    getSinglePointElevation1,
+    getSinglePointElevationUtm,
+    getElevationUTM,
+    getElevation1,
+    getElevation,
+    _ImportPointsTaskPanel,
+    CommandImportPoints,
+)

PVPlantTerrain.py

@@ -129,14 +129,8 @@ class Terrain(ArchComponent.Component):
         # obj.IfcType = "Fence"
         # obj.MoveWithHost = False
 
-        try:
-            self.site = PVPlantSite.get()
-        except Exception:
-            self.site = None
-        if self.site:
-            self.site.Terrain = obj
-        else:
-            FreeCAD.Console.PrintWarning('Terrain: No se encontró Site, algunas funciones DEM requerirán Site.\n')
+        self.site = PVPlantSite.get()
+        self.site.Terrain = obj
         obj.ViewObject.ShapeColor = (0.0000, 0.6667, 0.4980)
         obj.ViewObject.LineColor = (0.0000, 0.6000, 0.4392)
 
@@ -198,12 +192,6 @@ class Terrain(ArchComponent.Component):
 
         if prop == "InitialMesh":
             obj.mesh = obj.InitialMesh.copy()
-            # Forzar actualización visual
-            obj.publishProperty("Mesh")
-
-        if prop == "mesh":
-            # La propiedad mesh cambió → forzar recompute para que updateData se dispare
-            pass
 
         if prop == "DEM" or prop == "CuttingBoundary":
             from datetime import datetime
@@ -249,7 +237,7 @@ class Terrain(ArchComponent.Component):
                     del templist
 
                     # create xy coordinates
-                    offset = self.site.Origin if self.site else FreeCAD.Vector(0, 0, 0)
+                    offset = self.site.Origin
                     x = (cellsize * np.arange(nx)[0::coarse_factor] + xllvalue) * 1000 - offset.x
                     y = (cellsize * np.arange(ny)[-1::-1][0::coarse_factor] + yllvalue) * 1000 - offset.y
                     datavals = datavals * 1000  # Ajuste de altura
@@ -281,95 +269,35 @@ class Terrain(ArchComponent.Component):
                     stepx = math.ceil(nx / stepsize)
                     stepy = math.ceil(ny / stepsize)
 
-                    # Malla completa primero como numpy y filtramos todo de una
-                    from datetime import datetime
-                    t_start = datetime.now()
-
-                    # Crear grid completo de coordenadas
-                    XX, YY = np.meshgrid(x, y)
-                    ZZ = datavals.copy()
-
-                    # Enmascarar nodata
-                    mask_valida = ZZ != nodata_value
-
-                    # Enmascarar cutting boundary si existe
-                    if obj.CuttingBoundary:
-                        from FreeCAD import Base
-                        shape = obj.CuttingBoundary.Shape
-                        mask_boundary = np.zeros_like(ZZ, dtype=bool)
-                        # Sampling: revisar solo puntos estratégicos para boundary grande
-                        stride = max(1, min(nx, ny) // 200)
-                        for i in range(0, ny, stride):
-                            for j in range(0, nx, stride):
-                                if mask_valida[i, j]:
-                                    if shape.isInside(FreeCAD.Vector(x[j], y[i], 0), 0, True):
-                                        mask_boundary[i, j] = True
-                        mask_valida = mask_valida & mask_boundary
-
-                    # Extraer puntos válidos como lista plana
-                    pts_validos = np.column_stack([
-                        XX[mask_valida].ravel(),
-                        YY[mask_valida].ravel(),
-                        ZZ[mask_valida].ravel()
-                    ])
-
-                    del XX, YY, ZZ, mask_valida
-
-                    # Triangulación completa de una vez (no por parches)
                     mesh = Mesh.Mesh()
-                    if len(pts_validos) > 3:
-                        # Si hay muchos puntos, triangulamos por parches para evitar OOM
-                        patch_size = 50000
-                        n_patches = max(1, math.ceil(len(pts_validos) / patch_size))
-                        for p in range(n_patches):
-                            patch = pts_validos[p * patch_size:(p + 1) * patch_size].tolist()
-                            if len(patch) > 3:
+                    for indx in range(stepx):
+                        inix = indx * stepsize - 1
+                        finx = min([stepsize * (indx + 1), len(x)-1])
+                        for indy in range(stepy):
+                            iniy = indy * stepsize - 1
+                            finy = min([stepsize * (indy + 1), len(y) - 1])
+                            pts = []
+                            for i in range(inix, finx):
+                                for j in range(iniy, finy):
+                                    if datavals[j][i] != nodata_value:
+                                        if obj.CuttingBoundary:
+                                            if obj.CuttingBoundary.Shape.isInside(FreeCAD.Vector(x[i], y[j], 0), 0, True):
+                                                pts.append([x[i], y[j], datavals[j][i]])
+                                        else:
+                                            pts.append([x[i], y[j], datavals[j][i]])
+                            if len(pts) > 3:
                                 try:
-                                    triangulated = Triangulation.Triangulate(patch)
+                                    triangulated = Triangulation.Triangulate(pts)
                                     mesh.addMesh(triangulated)
-                                except TypeError as e:
-                                    print(f"Patch {p}: error al procesar {len(patch)} puntos: {str(e)}")
-                                except Exception as e:
-                                    print(f"Patch {p}: error inesperado: {str(e)}")
-
-                    print(f'Terraín DEM: {len(pts_validos)} pts válidos, {n_patches} parches, {datetime.now()-t_start}')
-                    del pts_validos
+                                except TypeError:
+                                    print(f"Error al procesar {len(pts)} puntos: {str(e)}")
 
                     mesh.removeDuplicatedPoints()
                     mesh.removeFoldsOnSurface()
                     obj.InitialMesh = mesh.copy()
-                    # Limpiar objetos mesh huérfanos previos si existen
-                    for o in FreeCAD.ActiveDocument.Objects:
-                        if o.TypeId == 'Mesh::Feature' and o.Label.startswith('Terrain_mesh_'):
-                            FreeCAD.ActiveDocument.removeObject(o.Name)
-                    mesh_obj = Mesh.show(mesh)
-                    mesh_obj.Label = 'Terrain_mesh_' + obj.Label
+                    Mesh.show(mesh)
                 elif suffix in ['.xyz']:
-                    pts_array = open_xyz_mmap(obj.DEM)
-                    if pts_array is not None and len(pts_array) > 3:
-                        import MeshTools.Triangulation as Triangulation
-                        import Mesh
-                        if obj.CuttingBoundary:
-                            mask = []
-                            for pt in pts_array:
-                                mask.append(obj.CuttingBoundary.Shape.isInside(
-                                    FreeCAD.Vector(pt[0], pt[1], 0), 0, True))
-                            pts_array = pts_array[mask]
-                        if len(pts_array) > 3:
-                            from datetime import datetime
-                            t0 = datetime.now()
-                            pts_list = pts_array.tolist()
-                            mesh = Triangulation.Triangulate(pts_list)
-                            mesh.removeDuplicatedPoints()
-                            mesh.removeFoldsOnSurface()
-                            obj.InitialMesh = mesh.copy()
-                            # Limpiar objetos mesh huérfanos previos
-                            for o in FreeCAD.ActiveDocument.Objects:
-                                if o.TypeId == 'Mesh::Feature' and o.Label.startswith('Terrain_mesh_'):
-                                    FreeCAD.ActiveDocument.removeObject(o.Name)
-                            mesh_obj = Mesh.show(mesh)
-                            mesh_obj.Label = 'Terrain_mesh_' + obj.Label
-                            print(f'XYZ import: {len(pts_array)} puntos en {datetime.now()-t0}')
+                    data = open_xyz_mmap(obj.DEM)
 
 
 
@@ -401,11 +329,6 @@ class Terrain(ArchComponent.Component):
                 if obj.DEM:
                     obj.DEM = None
                 obj.mesh = mesh
-                # Forzar actualización visual llamando a publishProperty
-                try:
-                    obj.publishProperty("Mesh")
-                except:
-                    pass
 
     def execute(self, obj):
         ''''''
@@ -624,47 +547,47 @@ class ViewProviderTerrain:
         offset.factor = -2.0
 
         # Boundary features.
-        self.boundary_color = coin.SoBaseColor()
+        '''self.boundary_color = coin.SoBaseColor()
         self.boundary_coords = coin.SoGeoCoordinate()
         self.boundary_lines = coin.SoLineSet()
         self.boundary_style = coin.SoDrawStyle()
-        self.boundary_style.style = coin.SoDrawStyle.LINES
+        self.boundary_style.style = coin.SoDrawStyle.LINES'''
 
         # Boundary root.
-        boundaries = coin.SoType.fromName('SoFCSelection').createInstance()
+        '''boundaries = coin.SoType.fromName('SoFCSelection').createInstance()
         boundaries.style = 'EMISSIVE_DIFFUSE'
         boundaries.addChild(self.boundary_color)
         boundaries.addChild(self.boundary_style)
         boundaries.addChild(self.boundary_coords)
-        boundaries.addChild(self.boundary_lines)
+        boundaries.addChild(self.boundary_lines)'''
 
         # Major Contour features.
-        self.major_color = coin.SoBaseColor()
+        '''self.major_color = coin.SoBaseColor()
         self.major_coords = coin.SoGeoCoordinate()
         self.major_lines = coin.SoLineSet()
         self.major_style = coin.SoDrawStyle()
-        self.major_style.style = coin.SoDrawStyle.LINES
+        self.major_style.style = coin.SoDrawStyle.LINES'''
 
         # Major Contour root.
-        major_contours = coin.SoSeparator()
+        '''major_contours = coin.SoSeparator()
         major_contours.addChild(self.major_color)
         major_contours.addChild(self.major_style)
         major_contours.addChild(self.major_coords)
-        major_contours.addChild(self.major_lines)
+        major_contours.addChild(self.major_lines)'''
 
         # Minor Contour features.
-        self.minor_color = coin.SoBaseColor()
+        '''self.minor_color = coin.SoBaseColor()
         self.minor_coords = coin.SoGeoCoordinate()
         self.minor_lines = coin.SoLineSet()
         self.minor_style = coin.SoDrawStyle()
-        self.minor_style.style = coin.SoDrawStyle.LINES
+        self.minor_style.style = coin.SoDrawStyle.LINES'''
 
         # Minor Contour root.
-        minor_contours = coin.SoSeparator()
+        '''minor_contours = coin.SoSeparator()
         minor_contours.addChild(self.minor_color)
         minor_contours.addChild(self.minor_style)
         minor_contours.addChild(self.minor_coords)
-        minor_contours.addChild(self.minor_lines)
+        minor_contours.addChild(self.minor_lines)'''
 
         # Highlight for selection.
         highlight = coin.SoType.fromName('SoFCSelection').createInstance()
@@ -673,7 +596,7 @@ class ViewProviderTerrain:
         highlight.addChild(mat_binding)
         highlight.addChild(self.geo_coords)
         highlight.addChild(self.triangles)
-        highlight.addChild(boundaries)
+        #highlight.addChild(boundaries)
 
         # Face root.
         face = coin.SoSeparator()
@@ -686,19 +609,19 @@ class ViewProviderTerrain:
         edge.addChild(self.edge_style)
         edge.addChild(highlight)
 
-        # Surface root - con contour lines visibles.
+        # Surface root.
         surface_root = coin.SoSeparator()
         surface_root.addChild(face)
         surface_root.addChild(offset)
         surface_root.addChild(edge)
-        surface_root.addChild(major_contours)
-        surface_root.addChild(minor_contours)
+        #surface_root.addChild(major_contours)
+        #surface_root.addChild(minor_contours)
         vobj.addDisplayMode(surface_root, "Surface")
 
         # Boundary root.
-        boundary_root = coin.SoSeparator()
-        boundary_root.addChild(boundaries)
-        vobj.addDisplayMode(boundary_root, "Boundary")
+        #boundary_root = coin.SoSeparator()
+        #boundary_root.addChild(boundaries)
+        #vobj.addDisplayMode(boundary_root, "Boundary")
 
         # Elevation/Shaded root.
         '''shaded_root = coin.SoSeparator()
@@ -725,50 +648,52 @@ class ViewProviderTerrain:
         self.onChanged(vobj, "ShapeColor")
         self.onChanged(vobj, "LineColor")
         self.onChanged(vobj, "LineWidth")
-        self.onChanged(vobj, "BoundaryColor")
-        self.onChanged(vobj, "BoundaryWidth")
-        self.onChanged(vobj, "BoundaryPattern")
-        self.onChanged(vobj, "PatternScale")
-        self.onChanged(vobj, "MajorColor")
-        self.onChanged(vobj, "MajorWidth")
-        self.onChanged(vobj, "MinorColor")
-        self.onChanged(vobj, "MinorWidth")
+        #self.onChanged(vobj, "BoundaryColor")
+        #self.onChanged(vobj, "BoundaryWidth")
+        #self.onChanged(vobj, "BoundaryPattern")
+        #self.onChanged(vobj, "PatternScale")
+        #self.onChanged(vobj, "MajorColor")
+        #self.onChanged(vobj, "MajorWidth")
+        #self.onChanged(vobj, "MinorColor")
+        #self.onChanged(vobj, "MinorWidth")
         
     def updateData(self, obj, prop):
         ''' Update Object visuals when a data property changed. '''
 
         # Set geosystem.
-        try:
-            utm_zone = FreeCAD.ActiveDocument.Site.UtmZone
-        except:
-            utm_zone = "30"
-        geo_system = ["UTM", utm_zone, "FLAT"]
+        geo_system = ["UTM", FreeCAD.ActiveDocument.Site.UtmZone, "FLAT"]
         self.geo_coords.geoSystem.setValues(geo_system)
+        '''
         self.boundary_coords.geoSystem.setValues(geo_system)
         self.major_coords.geoSystem.setValues(geo_system)
         self.minor_coords.geoSystem.setValues(geo_system)
+        '''
 
-        if prop == "mesh" or prop == "Mesh":
+        if prop == "Mesh":
             if obj.mesh:
-                mesh = obj.mesh
-                try:
-                    vertices = [tuple(v) for v in mesh.Topology[0]]
-                    faces = []
-                    for face in mesh.Topology[1]:
-                        faces.extend(face)
-                        faces.append(-1)
+                print("Mostrar mesh")
 
-                    # Asignar a los nodos de visualización
-                    self.geo_coords.point.values = vertices
-                    self.triangles.coordIndex.values = faces
-                except Exception as e:
-                    FreeCAD.Console.PrintError(f"Error actualizando mesh visual: {e}\n")
+                mesh = obj.mesh
+                vertices = [tuple(v) for v in mesh.Topology[0]]
+                faces = []
+                for face in mesh.Topology[1]:
+                    faces.extend(face)
+                    faces.append(-1)
+
+                # Asignar a los nodos de visualización
+                self.geo_coords.point.values = vertices  # <-- ¡Clave!
+                self.triangles.coordIndex.values = faces  # <-- ¡Clave!
 
     def getDisplayModes(self, vobj):
         ''' Return a list of display modes. '''
-        return ["Surface", "Boundary", "Flat Lines", "Wireframe"]
+        modes = ["Surface", "Boundary"]
+
+        return modes
 
     def getDefaultDisplayMode(self):
+        '''
+        Return the name of the default display mode.
+        '''
         return "Surface"
 
     def claimChildren(self):
@@ -811,4 +736,3 @@ class ViewProviderTerrain:
 
 if FreeCAD.GuiUp:
     FreeCADGui.addCommand('Terrain', _CommandTerrain())'''
-

PVPlantTerrainAnalisys.py

@@ -450,18 +450,35 @@ class ContourTaskPanel():
         starttime = datetime.now()
 
         if self.land is None:
-            FreeCAD.Console.PrintWarning("No hay objetos para procesar\n")
+            print("No hay objetos para procesar")
             return False
         else:
             minor = FreeCAD.Units.Quantity(self.inputMinorContourMargin.currentText()).Value
             mayor = FreeCAD.Units.Quantity(self.inputMayorContourMargin.currentText()).Value
 
-            makeContours(
-                self.land, minor, mayor,
-                self.MinorColor, self.MayorColor,
-                self.inputMinorContourThickness.value(),
-                self.inputMayorContourThickness.value()
-            )
+            i = 2
+            if i == 0:
+                makeContours(self.land, minor, mayor, self.MinorColor, self.MayorColor,
+                          self.inputMinorContourThickness.value(), self.inputMayorContourThickness.value())
+            elif i == 1:
+                import multiprocessing
+                p = multiprocessing.Process(target=makeContours,
+                                            args=(self.land, minor, mayor,
+                                                  self.MinorColor, self.MayorColor,
+                                                  self.inputMinorContourThickness.value(),
+                                                  self.inputMayorContourThickness.value(), ))
+                p.start()
+                p.join()
+
+            else:
+                import threading
+                hilo = threading.Thread(target = makeContours,
+                                        args = (self.land, minor, mayor,
+                                                self.MinorColor, self.MayorColor,
+                                                self.inputMinorContourThickness.value(),
+                                                self.inputMayorContourThickness.value()))
+                hilo.daemon = True
+                hilo.start()
 
         total_time = datetime.now() - starttime
         print(" -- Tiempo tardado:", total_time)
@@ -552,7 +569,7 @@ class SlopeTaskPanel(_generalTaskPanel):
             land.ViewObject.DiffuseColor = colorlist
 
         # TODO: check this code:
-        elif hasattr(land, 'Mesh') and land.isDerivedFrom("Mesh::Feature"):
+        elif obj.isDerivedFrom("Mesh::Feature"):
             fMesh = Mest2FemMesh(land)
             import math
             setColors = []
@@ -585,7 +602,10 @@ class SlopeTaskPanel(_generalTaskPanel):
         print("Everything OK (", datetime.now() - starttime, ")")
 
     def accept(self):
-        self.getPointSlope(self.ranges)
+        # self.getPointSlope()
+        import threading
+        hilo = threading.Thread(target=self.getPointSlope(self.ranges))
+        hilo.start()
         return True
 
 # Orientation Analisys: ---------------------------------------------------------------------------------
@@ -789,4 +809,4 @@ if FreeCAD.GuiUp:
     FreeCADGui.addCommand('SlopeAnalisys', _CommandSlopeAnalisys())
     FreeCADGui.addCommand('HeightAnalisys', _CommandHeightAnalisys())
     FreeCADGui.addCommand('OrientationAnalisys', _CommandOrientationAnalisys())
-    FreeCADGui.addCommand('TerrainAnalisys', CommandTerrainAnalisysGroup())'''
+    FreeCADGui.addCommand('TerrainAnalisys', CommandTerrainAnalisysGroup())'''

docgenerator.py

@@ -1,8 +1,8 @@
 # Script para FreeCAD - Procesador de Documentos Word con Carátula
 import os
 import glob
-from PySide import QtWidgets, QtCore
-from PySide.QtWidgets import (QFileDialog, QMessageBox, QProgressDialog,
+from PySide2 import QtWidgets, QtCore
+from PySide2.QtWidgets import (QFileDialog, QMessageBox, QProgressDialog,
                                QApplication, QVBoxLayout, QWidget, QPushButton,
                                QLabel, QTextEdit)
 import FreeCAD

hydro/hydrological.py

@@ -159,7 +159,7 @@ def calculate_incenter(facet):
     """Calcula el incentro usando la función nativa de FreeCAD"""
     try:
         return facet.InCircle[0]  # (x, y, z)
-    except (IndexError, AttributeError):
+    except:
         return None
 
 

lib/projection.py

@@ -0,0 +1,139 @@
+# /**********************************************************************
+# *                                                                     *
+# * Copyright (c) 2026 Javier Brana <javier.branagutierrez@gmail.com>  *
+# *                                                                     *
+# * This program is free software; you can redistribute it and/or modify*
+# * it under the terms of the GNU Lesser General Public License (LGPL)  *
+# * as published by the Free Software Foundation; either version 2 of   *
+# * the License, or (at your option) any later version.                 *
+# * for detail see the LICENCE text file.                               *
+# *                                                                     *
+# * This program is distributed in the hope that it will be useful,     *
+# * but WITHOUT ANY WARRANTY; without even the implied warranty of      *
+# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
+# * GNU Library General Public License for more details.                *
+# *                                                                     *
+# * You should have received a copy of the GNU Library General Public   *
+# * License along with this program; if not, write to the Free Software *
+# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307*
+# * USA                                                                 *
+# *                                                                     *
+# ***********************************************************************
+
+"""
+Proyecciones y transformaciones geodésicas unificadas para PVPlant.
+
+Reemplaza el uso disperso de la librería 'utm' con pyproj (PROJ),
+soporte multi-zona UTM y transformaciones entre datums.
+
+Uso básico:
+    from lib.projection import latlon_to_utm, utm_to_latlon, get_utm_zone
+"""
+
+import FreeCAD
+from pyproj import CRS, Transformer
+from pyproj.aoi import AreaOfInterest
+from pyproj.database import query_utm_crs_info
+
+# WGS84 – sistema de coordenadas geográfico de referencia
+_WGS84 = CRS.from_epsg(4326)
+
+# Cache de transformadores UTM por zona (lazy)
+_utm_transformers = {}
+
+
+def _get_utm_transformer(lat, lon):
+    """Obtiene (o crea en caché) un transformador UTM para la zona de las coordenadas dadas.
+    Returns:
+        tuple: (transformer, zone_number, zone_letter)
+    """
+    # Determinar la zona UTM a partir de lat/lon
+    zone_number = int((lon + 180) / 6) + 1
+
+    if lat >= 0:
+        zone_letter = 'N'
+        epsg = 32600 + zone_number
+    else:
+        zone_letter = 'S'
+        epsg = 32700 + zone_number
+
+    cache_key = (zone_number, zone_letter)
+    if cache_key not in _utm_transformers:
+        utm_crs = CRS.from_epsg(epsg)
+        _utm_transformers[cache_key] = Transformer.from_crs(
+            _WGS84, utm_crs, always_xy=True
+        )
+
+    return _utm_transformers[cache_key], zone_number, zone_letter
+
+
+def latlon_to_utm(lat, lon):
+    """Convierte coordenadas geográficas (WGS84) a UTM (este, norte, zona, letra).
+
+    Args:
+        lat (float): Latitud en grados.
+        lon (float): Longitud en grados.
+
+    Returns:
+        tuple: (easting, northing, zone_number, zone_letter)
+               easting/northing en metros.
+    """
+    transformer, zone_number, zone_letter = _get_utm_transformer(lat, lon)
+    easting, northing = transformer.transform(lon, lat)
+    return easting, northing, zone_number, zone_letter
+
+
+def utm_to_latlon(easting, northing, zone_number, zone_letter='N'):
+    """Convierte coordenadas UTM a geográficas (WGS84).
+
+    Args:
+        easting (float): Coordenada E en metros.
+        northing (float): Coordenada N en metros.
+        zone_number (int): Número de zona UTM (1-60).
+        zone_letter (str): Letra de zona ('N' o 'S').
+
+    Returns:
+        tuple: (latitude, longitude) en grados.
+    """
+    if zone_letter.upper() not in ('N', 'S'):
+        zone_letter = 'N'
+
+    epsg = 32600 + zone_number if zone_letter.upper() == 'N' else 32700 + zone_number
+    utm_crs = CRS.from_epsg(epsg)
+    transformer = Transformer.from_crs(utm_crs, _WGS84, always_xy=True)
+    lon, lat = transformer.transform(easting, northing)
+    return lat, lon
+
+
+def get_utm_zone(lat, lon):
+    """Obtiene la zona UTM para unas coordenadas dadas.
+
+    Args:
+        lat (float): Latitud en grados.
+        lon (float): Longitud en grados.
+
+    Returns:
+        tuple: (zone_number, zone_letter)
+    """
+    _, _, zone_number, zone_letter = latlon_to_utm(lat, lon)
+    return zone_number, zone_letter
+
+
+def latlon_to_utm_vector(lat, lon, elevation=0.0):
+    """Convierte lat/lon/elevación a un FreeCAD.Vector en UTM (mm).
+
+    Args:
+        lat (float): Latitud en grados.
+        lon (float): Longitud en grados.
+        elevation (float): Elevación en metros (default 0).
+
+    Returns:
+        FreeCAD.Vector: Coordenadas UTM en milímetros.
+    """
+    transformer, _, _ = _get_utm_transformer(lat, lon)
+    easting, northing = transformer.transform(lon, lat)
+    return FreeCAD.Vector(
+        round(easting, 0),
+        round(northing, 0),
+        round(elevation, 0)
+    ) * 1000

requirements.txt

@@ -2,6 +2,7 @@ numpy~=1.26.2
 opencv-python~=4.8.1
 matplotlib~=3.8.2
 openpyxl~=3.1.2
+PySide2~=5.15.8
 requests~=2.31.0
 setuptools~=68.2.2
 laspy~=2.5.3
@@ -16,4 +17,3 @@ SciPy~=1.11.4
 pycollada~=0.7.2
 shapely
 rtree
-pandas