ishtar_common/management/commands/migrate_to_geo_v4.py


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#!/usr/bin/env python
# -*- coding: utf-8 -*-

import csv
import datetime
import os
import sys

from django.conf import settings
from django.contrib.contenttypes.models import ContentType
from django.core.management.base import BaseCommand

from ishtar_common.utils import ugettext_lazy as _

from ishtar_common import models_common, models
from archaeological_operations.models import Operation


log_path = os.sep.join([settings.ROOT_PATH, "logs"])
if not os.path.exists(log_path):
    os.mkdir(log_path, mode=0o770)


def migrate(quiet=False, log=True):
    changed = []
    # create towns
    q = models_common.Town.objects.exclude(
        center__isnull=True, limit__isnull=True
    ).exclude(main_geodata__isnull=False)
    nb = q.count()
    town_content_type = ContentType.objects.get(app_label="ishtar_common", model="town")
    data_type, __ = models_common.GeoDataType.objects.get_or_create(
        txt_idx="town-limit", defaults={"label": "Limites commune"}
    )
    provider, __ = models_common.GeoProviderType.objects.get_or_create(
        txt_idx="france-ign", defaults={"label": "IGN"}
    )
    for idx, town in enumerate(q.all()):
        if not quiet:
            sys.stdout.write(f"\r[{percent(idx, nb)}] Migrate towns {idx + 1}/{nb}")
            sys.stdout.flush()
        attrs = {
            "name": town._generate_cached_label(),
            "source_content_type": town_content_type,
            "source_id": town.pk,
            "data_type": data_type,
            "provider": provider,
        }
        if town.limit:
            attrs["multi_polygon"] = town.limit
        else:
            attrs["point_2d"] = town.center
        data, created = models_common.GeoVectorData.objects.get_or_create(**attrs)
        if created:
            changed.append(["geovectordata", data.name, data.pk, "Création commune"])
        town.main_geodata = data
        town.save()

    # manage operation vector sources
    operation_content_type = ContentType.objects.get(
        app_label="archaeological_operations", model="operation"
    )
    q = Operation.objects.exclude(main_geodata__isnull=False)
    nb = q.count()
    for idx, operation in enumerate(q.all()):
        if operation.multi_polygon_source == "T":
            operation._no_move = True
            operation.skip_history_when_saving = True
            operation.save()  # auto managed
        elif operation.multi_polygon_source == "P":
            # TODO

            """
            q = operation.towns.filter(limit__isnull=False)
            nb = q.count
            if not nb:
                break
            elif nb == 1:
                town = q.all()[0]
                geo = models_common.GeoVectorData.objects.get(
                    source_content_type=town_content_type,
                    source_id=town.pk
                )
            else:

                attrs = {
                    "name": name,
                    "source_content_type": town_content_type,
                    "source_id": town.pk,
                    "data_type": data_type,
                    "provider": provider,
                    "multi_polygon": poly,
                }
                geo, created = models_common.GeoVectorData.objects.get_or_create(
                    **attrs)

            operation.main_geodata = geo
            operation.skip_history_when_saving = True
            operation._no_move = True
            operation.save()
            """


    if log and changed:
        filename = f"geo_migration-created-{get_time().replace(':', '')}.txt"
        path = os.sep.join([log_path, filename])
        with open(path, "w+") as fle:
            writer = csv.writer(fle)
            writer.writerow(["model", "name", "id", "context"])
            for change in changed:
                writer.writerow(change)
        if not quiet:
            sys.stdout.write(f"log: {path} written.")
    if not quiet:
        sys.stdout.write("\n")


def percent(current, total):
    return f"{(current + 1) / total * 100:.1f}".rjust(4, "0") + "%"


def get_time():
    return datetime.datetime.now().isoformat().split(".")[0]


class Command(BaseCommand):
    help = "Migrate to new geo data management"

    def add_arguments(self, parser):
        parser.add_argument(
            "--quiet", dest="quiet", action="store_true", help="Quiet output"
        )
        parser.add_argument(
            "--log", dest="log", action="store_false", help="Log into a file"
        )

    def handle(self, *args, **options):
        log = options["log"]
        quiet = options["quiet"]
        if not quiet:
            sys.stdout.write(f"[{get_time()}] Processing migration\n")
        errors = migrate(quiet=quiet, log=log)
        if not errors:
            if not quiet:
                sys.stdout.write(f"[{get_time()}] Migration finished\n")
            sys.exit()
        if not quiet:
            sys.stdout.write("\n".join(errors))
        sys.exit(1)