Ejemplo n.º 1
0
 def __init__(self, places, width, height):
     self.width = width
     self.height = height
     reporting = Reporting()
     reporting.progress_start("Creating grid %ix%i" % (width, height),
                                                         len(places) * 2)
     left, right, top, bottom = 180, -180, -90, 90
     for p in places:
         reporting.progress()
         left = min(left, p.lon)
         right = max(right, p.lon)
         top = max(top, p.lat)
         bottom = min(bottom, p.lat)
     reporting.output_msg("info", "Bounding box: (%r,%r,%r,%r)" % (
                                         left, bottom, right, top))
     self.left = left
     self.right = right
     self.top = top
     self.bottom = bottom
     self.lon_ratio = (right - left) * 1.01 / width
     self.lat_ratio = (top - bottom) * 1.01 / height
     reporting.output_msg("info", "lon_ratio: %r, lat_ratio: %r" % (
                                         self.lon_ratio, self.lat_ratio))
     self.cells = {}
     for x in range(0, width):
         for y in range(0, height):
             self.cells[(x,y)] = Cell(x,y)
     for place in places:
         reporting.progress()
         cell = self.get_cell(place)
         cell.add_place(place)
     reporting.progress_stop()
Ejemplo n.º 2
0
def load_osm_boundary(filename):
    """Loads a boundary relation from an OSM file. The file must also
    contain all the nodes and way used by the boundary. Only the first boundary
    is read."""
    reporting = Reporting()
    elem_count = count_elements(filename, "node")
    elem_count += count_elements(filename, "way")
    elem_count += 1
    reporting.progress_start(u"Ładuję %s" % (filename,), elem_count)
    nodes = []
    ways = []
    relation = None
    for event, elem in ElementTree.iterparse(filename):
        if event != 'end':
            continue
        if elem.tag == 'node':
            nodes.append(elem)
        elif elem.tag == 'way':
            ways.append(elem)
        elif elem.tag == 'relation' and not relation:
            relation = elem
        else:
            continue
        reporting.progress()
    reporting.progress_stop()
    if not relation:
        reproting.output_msg("errors", u"Nie znaleziono relacji")
        raise ValueError, "Relation not found"
    reporting.output_msg("stats", u"Załadowano relację, %i dróg i %i węzłów." 
                    % (len(ways), len(nodes)))
    boundary = OSM_Boundary(relation, ways, nodes)
    return boundary
Ejemplo n.º 3
0
def load_terc():
    reporting = Reporting()
    row_count = count_elements("data/TERC.xml", "row")
    reporting.progress_start(u"Ładowanie data/TERC.xml", row_count)
    for event, elem in ElementTree.iterparse("data/TERC.xml"):
        if event == 'end' and elem.tag == 'row':
            load_terc_object(elem)
            reporting.progress()
    reporting.progress_stop()
    reporting.output_msg("stats", u"Załadowano %i województw, %i powiatów i %i gmin" % (
            Wojewodztwo.count(), Powiat.count(), Gmina.count()))
Ejemplo n.º 4
0
def load_simc():
    load_wmrodz()
    reporting = Reporting()
    row_count = count_elements("data/SIMC.xml", "row")
    reporting.progress_start(u"Ładowanie data/SIMC.xml", row_count)
    for event, elem in ElementTree.iterparse("data/SIMC.xml"):
        if event == 'end' and elem.tag == 'row':
            SIMC_Place.from_element(elem)
            reporting.progress()
    reporting.progress_stop()
    reporting.output_msg("stats", u"Załadowano %i miejscowości" % (SIMC_Place.count(),))
    SIMC_Place.link_parents()
Ejemplo n.º 5
0
def load_osm():
    reporting = Reporting()
    row_count = count_elements("data/data.osm", "node")
    reporting.progress_start(u"Ładuję data/data.osm", row_count)
    for event, elem in ElementTree.iterparse("data/data.osm"):
        if event == 'end' and elem.tag == 'node':
            osm_place = OSM_Place(elem)
            reporting.progress()
    reporting.progress_stop()
    reporting.output_msg("stats", u"Załadowano %i miejsc." 
                    u"Dopasowano %i województw, %i powiatów i %i gmin." % (
                    OSM_Place.count(), OSM_Place.woj_matched,
                                OSM_Place.pow_matched, OSM_Place.gmi_matched))
Ejemplo n.º 6
0
def write_changes(updated_places, created_by):
    for filename in glob.glob("output/*.osc") + glob.glob("output/*.comment"):
        os.unlink(filename)
    reporting = Reporting()
    reporting.progress_start(u"Preparing osmChange files", len(updated_places))
    woj_trees = {}
    for place in updated_places:
        woj_name = place.wojewodztwo.name
        if not woj_name in woj_trees:
            root = ElementTree.Element(u"osmChange", version = u"0.3", generator = created_by)
            tree = ElementTree.ElementTree(root)
            modify = ElementTree.Element(u"modify", version = u"0.3", generator = created_by)
            root.append(modify)
            woj_trees[woj_name] = tree
        else:
            root = woj_trees[woj_name].getroot()
            modify = root[0]
        node = ElementTree.Element(u"node", id = place.id, lon = str(place.lon), lat = str(place.lat),
                    version = place.version, changeset = place.changeset)
        modify.append(node)
        for k, v in place.tags.items():
            if k == 'teryt:updated_by':
                continue
            tag = ElementTree.Element(u"tag", k = k, v = v)
            node.append(tag)
        tag = ElementTree.Element(u"tag", k = u"teryt:updated_by", v = created_by)
        node.append(tag)
        reporting.progress()
    reporting.progress_stop()

    reporting = Reporting()
    reporting.progress_start(u"Writting osmChange files", len(woj_trees))
    for woj_name, tree in woj_trees.items():
        basename = os.path.join("output", woj_name.encode("utf-8"))
        tree.write(basename + ".osc", "utf-8")
        comment_file = codecs.open(basename + ".comment", "w", "utf-8")
        print >> comment_file, u"TERYT import, województwo %s, prepared by %s" % (
                                                    woj_name, created_by)
        comment_file.close()
        reporting.progress()
    reporting.progress_stop()
Ejemplo n.º 7
0
        else:
            self.wojewodztwo = None
        if pow_name:
            self.powiat = Location(pow_name)
        else:
            self.powiat = None
        if gmi_name:
            self.gmina = Location(gmi_name)
        else:
            self.gmina = None

setup_locale()
reporting = Reporting()
reporting.progress_start("progress", 10)
time.sleep(0.2)
reporting.progress()
time.sleep(0.2)
reporting.output_msg("debug", u"Cośtam cośtam")
time.sleep(0.2)
reporting2 = Reporting()
reporting.progress()
time.sleep(0.2)
reporting2.output_msg("debug", u"Cośtam cośtam")
time.sleep(0.2)
reporting2.output_msg("debug", u"Cośtam cośtam")
reporting.progress()
reporting.output_msg("debug", u"Cośtam cośtam")
reporting.output_msg("debug", u"Cośtam cośtam")
time.sleep(0.2)
reporting.progress_stop()
Ejemplo n.º 8
0
def match_names(pass_no, places_to_match, grid = None):
    reporting = Reporting()
    places_count = len(places_to_match)
    if grid:
        reporting.progress_start(
                u"Dopasowywanie nazw %i miejsc, przebieg %i, z siatką %s"
                        % (places_count, pass_no, grid), places_count)
    else:
        reporting.progress_start(
                u"Dopasowywanie nazw %i miejsc, przebieg %i"
                        % (places_count, pass_no), places_count)
    osm_matched = set()
    simc_matched = set()
    places = [ (str(p), p) for p in places_to_match ]
    for name, osm_place in places:
        reporting.progress()
        if osm_place.name is None:
            reporting.output_msg("errors", u"%r: brak nazwy" % (osm_place,), osm_place)
            continue

        # Find matching entry in SIMC
        try:
            matching_simc_places = SIMC_Place.by_name(osm_place.name)
        except KeyError:
            reporting.output_msg("not_found", u"%s: nie znaleziono w TERYT" 
                                                    % (osm_place,), osm_place)
            places_to_match.remove(osm_place)
            continue
        simc_places = [place for place in matching_simc_places 
                                if place.type == osm_place.normalized_type
                                    and place.osm_place is None]
        if not simc_places:
            types_found = [ place.type for place in matching_simc_places ]
            reporting.output_msg("bad_type", u"%s: nie znalezionow w TERYT"
                        u" obiektu właściwego typu (%r, znaleziono: %r)" % (
                            osm_place, osm_place.type, types_found), osm_place)
            continue

        cell = None
        if grid:
            try:
                cell = grid.get_cell(osm_place)
            except KeyError:
                pass
        if cell:
            simc_places = [ p for p in simc_places if p.powiat in cell.powiaty ]
            if len(simc_places) > 1:
                simc_places = [ p for p in simc_places if p.gmina in cell.gminy ]
            if not simc_places:
                reporting.output_msg("not_found",
                        u"%s: nie znaleziono w TERYT miejsca"
                        u" pasującego do komórki %s" % (osm_place, cell),
                        osm_place)
                continue

        if len(simc_places) > 1:
            if grid:
                reporting.output_msg("ambigous%i" % (pass_no,), 
                        u"%s z OSM pasuje do wielu obiektów"
                        u" SIMC w komórce %s: %s" % (osm_place, cell,
                            u", ".join([str(p) for p in simc_places])), 
                                                                osm_place)
            else:
                reporting.output_msg("ambigous%i" % (pass_no,), 
                        u"%s z OSM pasuje do wielu obiektów w SIMC: %s" % (osm_place,
                            u", ".join([str(p) for p in simc_places])), osm_place)
            continue
        simc_place = simc_places[0]

        # now check if reverse assignment is not ambigous
        matching_osm_places = OSM_Place.by_name(simc_place.name)
        confl_osm_places = []
        for place in matching_osm_places:
            if place is osm_place:
                continue
            if cell:
                try:
                    g_cell = grid.get_cell(place) 
                except KeyError:
                    g_cell = None
                if g_cell is not cell:
                    continue
            if place.gmina and place.gmina != simc_place.gmina:
                continue
            if place.powiat and place.powiat != simc_place.powiat:
                continue
            if place.wojewodztwo and place.wojewodztwo != simc_place.wojewodztwo:
                continue
            confl_osm_places.append(place)

        if confl_osm_places:
            reporting.output_msg("ambigous%i" % (pass_no,), 
                        u"%s z SIMC pasuje do wielu obiektów w OMS: %s" % (simc_place,
                            ", ".join([str(p) for p in confl_osm_places])), osm_place)
            continue
        
        if simc_place.osm_place:
            reporting.output_msg("ambigous%i" % (pass_no,), 
                    u"%s z SIMC ma już przypisany obiekt OSM: %s" % (
                        simc_place, simc_place.osm_place), osm_place)

        # good match
        osm_place.assign_simc(simc_place)
        simc_place.assign_osm(osm_place)

        reporting.output_msg("match", u"%s w OSM to %s w SIMC" % (osm_place, simc_place), osm_place) 
        osm_matched.add(osm_place)
        simc_matched.add(simc_place)
        places_to_match.remove(osm_place)

    reporting.progress_stop()
    reporting.output_msg("stats", 
            u"Przebieg %i: znaleziono w SIMC %i z %i miejscowości OSM" % (
                                    pass_no, len(osm_matched), places_count))
    return osm_matched, simc_matched