database_tools.py 75.7 KB
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import collections
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import glob
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import itertools
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import os
import re
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import shutil
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import sqlite3
import sys
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import traceback
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import warnings
from datetime import datetime
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from typing import Union  # noqa F401  # flake8 issue
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import numpy as np
import pandas as pd
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from pandas.io.sql import pandasSQL_builder, SQLTable
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import psycopg2
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from shapely.wkb import loads as wkb_loads
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from geoalchemy2.types import Geometry as GEOMETRY
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from geopandas import GeoDataFrame, GeoSeries
from shapely.geometry import Polygon, box, MultiPolygon
from sqlalchemy import create_engine
from sqlalchemy.types import to_instance, TypeEngine
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from ..options.config import GMS_config as CFG
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from . import path_generator as PG
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from .definition_dicts import proc_chain
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# + misc.helper_functions.cornerLonLat_to_postgreSQL_poly: (left out here in order to avoid circular dependencies)
# + misc.path_generator.get_path_metaCSV: (left out here in order to avoid circular dependencies)

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__author__ = 'Daniel Scheffler'

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def execute_pgSQL_query(cursor, query_command):
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    """Executes a postgreSQL query catches the full error message if there is one.
    """
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    try:
        cursor.execute(query_command)
    except psycopg2.ProgrammingError as e:
        raise psycopg2.ProgrammingError(e.pgerror + 'Query failed. Command was:\n%s' % query_command)


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def get_scene_and_dataset_infos_from_postgreSQLdb(sceneid):
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    # type: (int) -> collections.OrderedDict
    """Creates an OrderedDict containing further information about a given scene ID by querying the pgSQL database.
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    :param sceneid:   <int> the GMS scene ID to get information for
    """
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    def query(tablename, vals2return, cond_dict, records2fetch=0):
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        return get_info_from_postgreSQLdb(CFG.conn_database, tablename, vals2return, cond_dict, records2fetch)
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    resultset = query('scenes', ['datasetid', 'satelliteid', 'sensorid', 'subsystemid', 'acquisitiondate', 'entityid',
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                                 'filename'], {'id': sceneid})
    if len(resultset) == 0:
        sys.stderr.write("Scene with id %s not found. Skipping.." % sceneid)
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    scenedata = resultset[0]
    ds = collections.OrderedDict()
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    proc_level_tmp = query('scenes_proc', 'proc_level', {'sceneid': sceneid})
    ds.update({'proc_level': 'L0A' if proc_level_tmp == [] else proc_level_tmp[0][0]})
    ds.update({'scene_ID': sceneid})
    ds.update({'datasetid': scenedata[0]})
    ds.update({'image_type': query('datasets', 'image_type', {'id': scenedata[0]})[0][0]})
    ds.update({'satellite': query('satellites', 'name', {'id': scenedata[1]})[0][0]})
    ds.update({'sensor': query('sensors', 'name', {'id': scenedata[2]})[0][0]})
    ds.update({'subsystem': query('subsystems', 'name', {'id': scenedata[3]})[0][0] if scenedata[3] else None})
    ds.update({'acq_datetime': scenedata[4]})
    ds.update({'entity_ID': scenedata[5]})
    ds.update({'filename': scenedata[6]})
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    return ds


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def get_postgreSQL_value(value):
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    # type: (any) -> str
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    """Converts Python variable to a postgreSQL value respecting postgreSQL type casts.
    The resulting value can be directly inserted into a postgreSQL query."""

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    assert type(value) in [int, float, bool, str, Polygon, datetime, list, tuple] or value is None, \
        "Unsupported value type within postgreSQL matching expression. Got %s." % type(value)
    if isinstance(value, int):
        pgV = value
    elif isinstance(value, float):
        pgV = value
    elif isinstance(value, bool):
        pgV = value
    elif value is None:
        pgV = 'NULL'
    elif isinstance(value, str):
        pgV = "'%s'" % value.replace("'", "")
    elif isinstance(value, Polygon):
        pgV = "'%s'" % value.wkb_hex
    elif isinstance(value, datetime):
        pgV = "TIMESTAMP '%s'" % str(value)
    else:  # list or tuple in value
        if not value:  # empty list/tuple
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            pgV = 'NULL'
        else:
            dTypes_in_value = list(set([type(i) for i in value]))
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            assert len(dTypes_in_value) == 1, \
                'Mixed data types in postgreSQL matching expressions are not supported. Got %s.' % dTypes_in_value
            assert dTypes_in_value[0] in [int, str, float, np.int64]
            pgList = ",".join(["'%s'" % i if isinstance(value[0], str) else "%s" % i for i in value])
            pgV = "'{%s}'" % pgList
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    return pgV


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def get_postgreSQL_matchingExp(key, value):
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    # type: (str,any) -> str
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    """Converts a key/value pair to a postgreSQL matching expression in the form "column=value" respecting postgreSQL
    type casts. The resulting string can be directly inserted into a postgreSQL query.
    """
    pgVal = get_postgreSQL_value(value)
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    if isinstance(pgVal, str) and pgVal.startswith("'{") and pgVal.endswith("}'"):
        return '%s in %s' % (key, pgVal.replace("'{", '(').replace("}'", ')'))  # '{1,2,3}' => (1,2,3)
    elif pgVal == 'NULL':
        return '%s is NULL' % key
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    else:
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        return '%s=%s' % (key, pgVal)
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def get_info_from_postgreSQLdb(conn_params, tablename, vals2return, cond_dict=None, records2fetch=0, timeout=15000):
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    # type: (str, str, Union[list, str], dict, int, int) -> Union[list, str]
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    """Queries a postgreSQL database for the given parameters.
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    :param conn_params:     <str> connection parameters as provided by CFG.conn_params
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    :param tablename:       <str> name of the table within the database to be queried
    :param vals2return:     <list or str> a list of strings containing the column titles of the values to be returned
    :param cond_dict:       <dict> a dictionary containing the query conditions in the form {'column_name':<value>}
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                            HINT: <value> can also be a list or a tuple of elements to match, BUT note that the order
                                  of the list items is NOT respected!
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    :param records2fetch:   <int> number of records to be fetched (default=0: fetch unlimited records)
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    :param timeout:         <int> allows to set a custom statement timeout (milliseconds)
    """
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    if not isinstance(vals2return, list):
        vals2return = [vals2return]
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    assert isinstance(records2fetch, int), "get_info_from_postgreSQLdb: Expected an integer for the argument " \
                                           "'records2return'. Got %s" % type(records2fetch)
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    cond_dict = cond_dict if cond_dict else {}
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
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    cursor = connection.cursor()
    condition = "WHERE " + " AND ".join([get_postgreSQL_matchingExp(k, v) for k, v in cond_dict.items()]) \
        if cond_dict else ""
    cmd = "SELECT " + ','.join(vals2return) + " FROM " + tablename + " " + condition
    execute_pgSQL_query(cursor, cmd)
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    records2return = cursor.fetchall() if records2fetch == 0 else [cursor.fetchone()] if records2fetch == 1 else \
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        cursor.fetchmany(size=records2fetch)  # e.g. [('LE71950282003121EDC00',), ('LE71950282003105ASN00',)]
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    cursor.close()
    connection.close()
    return records2return

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def update_records_in_postgreSQLdb(conn_params, tablename, vals2update_dict, cond_dict=None, timeout=15000):
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    # type: (str, str, dict, dict, int) -> Union[None, str]
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    """Queries a postgreSQL database for the given parameters and updates the given columns of the query result.
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    :param conn_params:       <str> connection parameters as provided by CFG.conn_params
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    :param tablename:         <str> name of the table within the database to be updated
    :param vals2update_dict:  <dict> a dictionary containing keys and values to be set in the form {'col_name':<value>}
    :param cond_dict:         <dict> a dictionary containing the query conditions in the form {'column_name':<value>}
                              HINT: <value> can also be a list or a tuple of elements to match
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    :param timeout:           <int> allows to set a custom statement timeout (milliseconds)
    """
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    cond_dict = cond_dict if cond_dict else {}
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
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    cursor = connection.cursor()
    condition = "WHERE " + " AND ".join([get_postgreSQL_matchingExp(k, v) for k, v in cond_dict.items()]) \
        if cond_dict else ""
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    update_cond = "SET " + ', '.join(['%s=%s' % (k, get_postgreSQL_value(vals2update_dict[k]))
                                      for k in vals2update_dict.keys()])
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    execute_pgSQL_query(cursor, "SELECT EXISTS(SELECT 1 FROM scenes %s);" % condition)
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    if cursor.fetchone()[0] == 0:
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        warnings.warn("No record found fulfilling this condition: \n'%s'." % condition)
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    else:
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        execute_pgSQL_query(cursor, "UPDATE " + tablename + " " + update_cond + " " + condition)
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    if 'connection' in locals():
        connection.commit()
        connection.close()
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def append_item_to_arrayCol_in_postgreSQLdb(conn_params, tablename, vals2append_dict, cond_dict=None, timeout=15000):
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    # type: (str, str, dict, dict, int) -> Union[None, str]
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    """Queries a postgreSQL database for the given parameters
    and appends the given value to the specified column of the query result.

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    :param conn_params:       <str> connection parameters as provided by CFG.conn_params
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    :param tablename:         <str> name of the table within the database to be updated
    :param vals2append_dict:  <dict> a dictionary containing keys and value(s) to be set in the form
                              {'col_name':[<value>,<value>]}
    :param cond_dict:         <dict> a dictionary containing the query conditions in the form {'column_name':<value>}
                              HINT: <value> can also be a list or a tuple of elements to match
    :param timeout:           <int> allows to set a custom statement timeout (milliseconds)
    """
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    assert len(vals2append_dict) == 1, 'Values can be appended to only one column at once.'
    if type(list(vals2append_dict.values())[0]) in [list, tuple]:
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        raise NotImplementedError('Appending multiple values to one column at once is not yet supported.')
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    cond_dict = cond_dict if cond_dict else {}
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
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    cursor = connection.cursor()
    condition = "WHERE " + " AND ".join([get_postgreSQL_matchingExp(k, v) for k, v in cond_dict.items()]) \
        if cond_dict else ""
    col2update = list(vals2append_dict.keys())[0]
    pgSQL_val = get_postgreSQL_value(vals2append_dict[col2update])
    pgSQL_val = pgSQL_val if type(vals2append_dict[col2update]) in [list, tuple] else '{%s}' % pgSQL_val
    append_cond = "SET %s = array_cat(%s, '%s')" % (col2update, col2update, pgSQL_val)
    execute_pgSQL_query(cursor, "SELECT EXISTS(SELECT 1 FROM scenes %s);" % condition)
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    if cursor.fetchone()[0] == 0:
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        warnings.warn("No record found fulfilling this condition: \n'%s'." % condition)
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    else:
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        execute_pgSQL_query(cursor, "UPDATE " + tablename + " " + append_cond + " " + condition + ';')
    if 'connection' in locals():
        connection.commit()
        connection.close()
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def remove_item_from_arrayCol_in_postgreSQLdb(conn_params, tablename, vals2remove_dict, cond_dict=None, timeout=15000):
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    # type: (str, str, dict, dict, int) -> Union[None, str]
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    """Queries a postgreSQL database for the given parameters
    and removes the given value from the specified column of the query result.

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    :param conn_params:       <str> connection parameters as provided by CFG.conn_params
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    :param tablename:         <str> name of the table within the database to be updated
    :param vals2remove_dict:  <dict> a dictionary containing keys and value(s) to be set in the form
                              {'col_name':[<value>,<value>]}
    :param cond_dict:         <dict> a dictionary containing the query conditions in the form {'column_name':<value>}
                              HINT: <value> can also be a list or a tuple of elements to match
    :param timeout:           <int> allows to set a custom statement timeout (milliseconds)
    """
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    assert len(vals2remove_dict) == 1, 'Values can be removed from only one column at once.'
    if type(list(vals2remove_dict.values())[0]) in [list, tuple]:
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        raise NotImplementedError('Removing multiple values from one column at once is not yet supported.')
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    cond_dict = cond_dict if cond_dict else {}
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
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    cursor = connection.cursor()
    condition = "WHERE " + " AND ".join([get_postgreSQL_matchingExp(k, v) for k, v in cond_dict.items()]) \
        if cond_dict else ""
    col2update = list(vals2remove_dict.keys())[0]
    pgSQL_val = get_postgreSQL_value(vals2remove_dict[col2update])
    pgSQL_val = pgSQL_val if type(vals2remove_dict[col2update]) in [list, tuple] else '{%s}' % pgSQL_val
    remove_cond = "SET %s = array_remove(%s, '%s')" % (col2update, col2update, pgSQL_val)
    execute_pgSQL_query(cursor, "SELECT EXISTS(SELECT 1 FROM scenes %s);" % condition)
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    if cursor.fetchone()[0] == 0:
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        warnings.warn("No record found fulfilling this condition: \n'%s'." % condition)
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    else:
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        execute_pgSQL_query(cursor, "UPDATE " + tablename + " " + remove_cond + " " + condition + ';')
    if 'connection' in locals():
        connection.commit()
        connection.close()
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def increment_decrement_arrayCol_in_postgreSQLdb(conn_params, tablename, col2update, idx_val2decrement=None,
                                                 idx_val2increment=None, cond_dict=None, timeout=15000):
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    # type: (str, str, str, int, int, dict, int) -> Union[None, str]
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    """Updates an array column of a specific postgreSQL table in the form that it increments or decrements the elements
    at a given position. HINT: The column must have values like that: [0,1,0,3,1,0]

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    :param conn_params:         <str> connection parameters as provided by CFG.conn_params
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    :param tablename:           <str> name of the table within the database to be update
    :param col2update:          <str> column name of the column to be updated
    :param idx_val2decrement:   <int> the index of the array element to be decremented (starts with 1)
    :param idx_val2increment:   <int> the index of the array element to be incremented (starts with 1)
    :param cond_dict:           <dict> a dictionary containing the query conditions in the form {'column_name':<value>}
                                HINT: <value> can also be a list or a tuple of elements to match
    :param timeout:             <int> allows to set a custom statement timeout (milliseconds)
    :return:
    """

    cond_dict = cond_dict if cond_dict else {}
    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
    connection = psycopg2.connect(conn_params)
    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
    cursor = connection.cursor()
    condition = "WHERE " + " AND ".join([get_postgreSQL_matchingExp(k, v) for k, v in cond_dict.items()]) \
        if cond_dict else ""

    dec_str = '' if idx_val2decrement is None else \
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        "%s[%s] = %s[%s]-1" % (col2update, idx_val2decrement, col2update, idx_val2decrement)
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    inc_str = '' if idx_val2increment is None else \
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        "%s[%s] = %s[%s]+1" % (col2update, idx_val2increment, col2update, idx_val2increment)
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    if dec_str or inc_str:
        dec_inc_str = ','.join([dec_str, inc_str])
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        execute_pgSQL_query(cursor, "UPDATE %s SET %s %s" % (tablename, dec_inc_str, condition))
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    if 'connection' in locals():
        connection.commit()
        connection.close()
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def create_record_in_postgreSQLdb(conn_params, tablename, vals2write_dict, timeout=15000):
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    # type: (str, str, dict, dict, int) -> Union[int, str]
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    """Creates a single new record in a postgreSQL database and pupulates its columns with the given values.

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    :param conn_params:       <str> connection parameters as provided by CFG.conn_params
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    :param tablename:         <str> name of the table within the database to be updated
    :param vals2write_dict:   <dict> a dictionary containing keys and values to be set in the form {'col_name':<value>}
    :param timeout:           <int> allows to set a custom statement timeout (milliseconds)
    """
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        warnings.warn('database connection fault')
        return 'database connection fault'
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    cursor = connection.cursor()
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    keys, vals = zip(*[(k, str(get_postgreSQL_value(v))) for k, v in vals2write_dict.items()])

    execute_pgSQL_query(cursor, "INSERT INTO %s (%s) VALUES (%s);" % (tablename, ','.join(keys), ','.join(vals)))
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    execute_pgSQL_query(cursor, "SELECT id FROM %s ORDER BY id DESC LIMIT 1" % tablename)
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    newID = cursor.fetchone()[0]

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    if 'connection' in locals():
        connection.commit()
        connection.close()
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    return newID


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def get_pgSQL_geospatial_query_cond(conn_params, table2query, geomCol2use='bounds', tgt_corners_lonlat=None,
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                                    scene_ID=None, queryfunc='ST_Intersects', crossing_dateline_check=True):
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    assert tgt_corners_lonlat if scene_ID is None else scene_ID, "Provide eihter scene_ID or tgt_corners_lonlat!"
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    if tgt_corners_lonlat:
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        # handle coordinates crossing the 180 degress meridian (dateline)
        # FIXME in that case the polygone has to be split at the dateline. otherwise pgSQL may yield wrong results
        if crossing_dateline_check:
            xvals = [x for x, y in tgt_corners_lonlat]
            if max(xvals) - min(xvals) > 180:
                tgt_corners_lonlat = [(x, y) if x > 0 else (x + 360, y) for x, y in tgt_corners_lonlat]

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        from .helper_functions import cornerLonLat_to_postgreSQL_poly
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        pGSQL_poly = cornerLonLat_to_postgreSQL_poly(tgt_corners_lonlat)
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        src_geom = "'SRID=4326;%s'::geometry" % pGSQL_poly  # source geometry is given
        # FIXME scenes tabelle hat "geography" geoinfos -> eigener Index wird bei "geometry" nicht genutzt:
        tgt_geom = "%s.%s::geometry" % (table2query, geomCol2use)
        geocond = "%s(%s, %s)" % (queryfunc, src_geom, tgt_geom)
    else:  # scene_ID is not None:
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        connection = psycopg2.connect(conn_params)
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        if connection is None:
            return 'database connection fault'
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        cursor = connection.cursor()
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        cmd = "SELECT ST_AsText(bounds) FROM scenes WHERE scenes.id = %s" % scene_ID
        execute_pgSQL_query(cursor, cmd)
        res = cursor.fetchone()
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        cursor.close()
        connection.close()
        if len(res):
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            src_geom = "'SRID=4326;%s'::geometry" % res
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        else:
            print('The scene with the ID %s does not exist in the scenes table.')
            return []
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        geocond = "%s(%s, %s.%s::geometry)" % (queryfunc, src_geom, table2query, geomCol2use)
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    return geocond


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def get_overlapping_scenes_from_postgreSQLdb(conn_params, table='scenes_proc', scene_ID=None,
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                                             tgt_corners_lonlat=None, conditions=None, add_cmds='', timeout=15000):
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    # type: (str, str, int, list, Union[list, str], str, int) -> Union[list, str]
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    """Queries the postgreSQL database in order to find those scenes of a specified reference satellite (Landsat-8 or
    Sentinel-2) that have an overlap to the given corner coordinates AND that fulfill the given conditions.
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    :param conn_params:             <str> connection parameters as provided by CFG.conn_params
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    :param table:                   <str> name of the table within the database to be updated
    :param scene_ID:                <int> a sceneID to get the target geographical extent from
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                                        (needed if tgt_corners_lonlat is not provided)
    :param tgt_corners_lonlat:      <list> a list of coordinates defining the target geographical extent
                                           (needed if scene_ID is not provided)
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    :param conditions:              <list> a list of additional query conditions
    :param add_cmds:                <str> additional pgSQL commands to be added to the pgSQL query
    :param timeout:                 <int> allows to set a custom statement timeout (milliseconds)
    """
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    conditions = [] if conditions is None else conditions if isinstance(conditions, list) else [conditions]
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
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    connection = psycopg2.connect(conn_params)
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    if connection is None:
        return 'database connection fault'
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    datasetids = [int(d.split('=')[1].strip()) for d in conditions if d.startswith('datasetid')]
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    datasetid = datasetids[0] if datasetids else 104  # Landsat-8
    # FIXME: use Landsat-8 instead of Sentinel-2 as long as S2 L1A_P is not working:
    datasetid = 104 if datasetid == 249 else datasetid

    if table != 'scenes_proc':
        assert datasetid, "filtdsId is needed if table is not 'scenes_proc'"
    if scene_ID is None:
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        assert tgt_corners_lonlat, "Provide either scene_ID or tgt_corners_lonlat!"
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    if tgt_corners_lonlat is None:
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        assert scene_ID, "Provide either scene_ID or tgt_corners_lonlat!"
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    val2get = "scenes.id" if table == 'scenes' else "%s.sceneid" % table
    # refcond  = ['scenes_proc.georef = True'] if not datasetids else ['scenes.datasetid = %s' %datasetid]
    refcond = ['scenes.datasetid = %s' % datasetid]

    geocond = [get_pgSQL_geospatial_query_cond(conn_params, table, tgt_corners_lonlat=tgt_corners_lonlat,
                                               scene_ID=scene_ID, queryfunc='ST_Intersects',
                                               crossing_dateline_check=True)]

    join = "INNER JOIN scenes ON (%s.sceneid = scenes.id) " % table if table != 'scenes' and datasetids else ''
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    conditions = [c for c in conditions if not c.startswith('datasetid')]
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    where = "WHERE %s" % " AND ".join(geocond + refcond + conditions)
    usedtbls = "scenes" if table == 'scenes' else "%s, scenes" % table if 'scenes.' in where and join == '' else table
    query = "SELECT %s FROM %s %s%s %s" % (val2get, usedtbls, join, where, add_cmds)
    cursor = connection.cursor()
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    execute_pgSQL_query(cursor, query)
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    records2return = cursor.fetchall()
    cursor.close()
    connection.close()
    return records2return

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def get_overlapping_MGRS_tiles(conn_params, scene_ID=None, tgt_corners_lonlat=None, timeout=15000):
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    """In contrast to pgSQL 'Overlapping' here means that both geometries share some spatial area.
    So it combines ST_Overlaps and ST_Contains."""
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    assert tgt_corners_lonlat if scene_ID is None else scene_ID, "Provide eihter scene_ID or tgt_corners_lonlat!"
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
    connection = psycopg2.connect(conn_params)
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    if connection is None:
        return 'database connection fault'
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    vals2get = ['grid100k', 'grid1mil', 'geom']
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    # FIXME this is covered by ST_Intersects:
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    # geocond1 = get_pgSQL_geospatial_query_cond(conn_params, 'mgrs_tiles', geomCol2use='geom', queryfunc='ST_Overlaps',
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    #                                            tgt_corners_lonlat=tgt_corners_lonlat, scene_ID=scene_ID)
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    # geocond2 = get_pgSQL_geospatial_query_cond(conn_params, 'mgrs_tiles', geomCol2use='geom', queryfunc='ST_Contains',
    #                                            tgt_corners_lonlat=tgt_corners_lonlat, scene_ID=scene_ID)
    # geocond3 = get_pgSQL_geospatial_query_cond(conn_params, 'mgrs_tiles', geomCol2use='geom', queryfunc='ST_Within',
    #                                            tgt_corners_lonlat=tgt_corners_lonlat, scene_ID=scene_ID)
    geocond = get_pgSQL_geospatial_query_cond(conn_params, 'mgrs_tiles', geomCol2use='geom', queryfunc='ST_Intersects',
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                                              tgt_corners_lonlat=tgt_corners_lonlat, scene_ID=scene_ID,
                                              crossing_dateline_check=True)
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    # query = "SELECT %s FROM %s WHERE %s OR %s OR %s"
    #     % (', '.join(vals2get), 'mgrs_tiles', geocond1, geocond2, geocond3)
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    query = "SELECT %s FROM %s WHERE %s" % (', '.join(vals2get), 'mgrs_tiles', geocond)
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    cursor = connection.cursor()
    execute_pgSQL_query(cursor, query)
    records = cursor.fetchall()
    cursor.close()
    connection.close()

    GDF = GeoDataFrame(records, columns=['grid100k', 'grid1mil', 'wkb_hex'])

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    GDF['shapelyPoly_LonLat'] = list(GDF['wkb_hex'].map(lambda wkb_hex: wkb_loads(wkb_hex, hex=True)))
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    GDF['granuleid'] = GDF['grid1mil'].str.cat(GDF['grid100k'])
    return GDF[['granuleid', 'shapelyPoly_LonLat']]
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def get_overlapping_MGRS_tiles2(conn_params, scene_ID=None, tgt_corners_lonlat=None, timeout=15000):
    assert tgt_corners_lonlat if scene_ID is None else scene_ID, "Provide eihter scene_ID or tgt_corners_lonlat!"
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    conn_params = "%s options = '-c statement_timeout=%s'" % (conn_params, timeout)
    connection = psycopg2.connect(conn_params)
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    if connection is None:
        return 'database connection fault'
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    vals2get = ['granuleid', 'footprint_wgs84']
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    geocond = get_pgSQL_geospatial_query_cond(conn_params, 'footprints_sentinel2_granules',
                                              geomCol2use='footprint_wgs84',
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                                              tgt_corners_lonlat=tgt_corners_lonlat, scene_ID=scene_ID)
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    query = "SELECT %s FROM %s WHERE %s" % (', '.join(vals2get), 'footprints_sentinel2_granules', geocond)

    cursor = connection.cursor()
    execute_pgSQL_query(cursor, query)
    records = cursor.fetchall()
    cursor.close()
    connection.close()

    GDF = GeoDataFrame(records, columns=['granuleid', 'wkb_hex'])

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    GDF['shapelyPoly_LonLat'] = list(GDF['wkb_hex'].map(lambda wkb_hex: wkb_loads(wkb_hex, hex=True)))
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    return GDF[['granuleid', 'shapelyPoly_LonLat']]


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def get_dict_satellite_name_id(conn_params):
    # type: (str) -> dict
    """Returns a dictionary with satellite names as keys and satellite IDs as values as read from pgSQL database.
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    :param conn_params:     <str> pgSQL database connection parameters
    """
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    res = get_info_from_postgreSQLdb(conn_params, 'satellites', ['name', 'id'])
    assert len(res) > 0, 'Error getting satellite names from postgreSQL database.'
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    arr = np.array(res)
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    return dict(zip(list(arr[:, 0]), list(arr[:, 1])))
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def get_dict_sensor_name_id(conn_params):
    # type: (str) -> dict
    """Returns a dictionary with sensor names as keys and sensor IDs as values as read from pgSQL database.
    :param conn_params:     <str> pgSQL database connection parameters """
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    res = get_info_from_postgreSQLdb(conn_params, 'sensors', ['name', 'id'])
    assert len(res) > 0, 'Error getting sensor names from postgreSQL database.'
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    arr = np.array(res)
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    return dict(zip(list(arr[:, 0]), list(arr[:, 1])))
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def get_entityIDs_from_filename(conn_DB, filename):
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    # type: (str, str) -> list
    """Returns entityID(s) for the given filename. In case of Sentinel-2 there can be more multiple entity IDs if
    multiple granules are saved in one .zip file.
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    :param conn_DB:     <str> pgSQL database connection parameters
    :param filename:    <str> the filename to get the corresponding entity ID(s) for
    """
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    if filename[:2] in ['LE', 'LC', 'LO'] and filename.endswith('.tar.gz'):  # Landsat
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        entityIDs = [filename.split('.tar.gz')[0]]
    else:
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        print('Querying database in order to get entityIDs for %s...' % filename)
        res = get_info_from_postgreSQLdb(conn_DB, 'scenes', ['entityid'], {'filename': filename}, timeout=40000)
        entityIDs = [subres[0] for subres in res] if len(res) > 0 else []
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    return entityIDs


def get_filename_by_entityID(conn_DB, entityid, satellite):
    # type: (str,str,str) -> str
    """Returns the filename for the given entity ID.
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    :param conn_DB:     <str> pgSQL database connection parameters
    :param entityid:    <str> entity ID
    :param satellite:   <str> satellite name to which the entity ID is belonging
    """
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    if re.search('Landsat', satellite, re.I):
        filename = '%s.tar.gz' % entityid
    elif re.search('Sentinel-2', satellite, re.I):
        filename = get_info_from_postgreSQLdb(conn_DB, 'scenes', ['filename'],
                                              {'entityid': entityid}, records2fetch=1)[0][0]
    else:
        raise NotImplementedError
    return filename


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def get_notDownloadedsceneIDs(conn_DB, entityIDs, satellite, sensor, src_folder):
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    # type: (str,list,str,str,str) -> np.ndarray
    """Takes a list of entity IDs and extracts those records that have the corresponding archive file in the given
    source folder and that have the processing level 'METADATA' in the pgSQL database. Based on this subset a numpy
    array containing the corresponding scene IDs and the target filenames for the fileserver is returned.
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    :param conn_DB:     <str> pgSQL database connection parameters
    :param entityIDs:   <list> a list of entity IDs
    :param satellite:   <str> the name of the satellite to restrict the query on
    :param sensor:      <str> the name of the sensor to restrict the query on
    :param src_folder:  <str> the source directory where archive files are saved
    """
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    columns = ['id', 'entityid', 'satelliteid', 'sensorid', 'filename', 'proc_level']
    result = get_info_from_postgreSQLdb(conn_DB, 'scenes', columns, {'entityid': entityIDs})
    df = pd.DataFrame(result, columns=columns)
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    satNameID_dic = get_dict_satellite_name_id(conn_DB)
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    satID = satNameID_dic[satellite]
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    target_folder = os.path.join(CFG.path_archive, satellite, sensor)
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    def get_fName(entityid): return get_filename_by_entityID(conn_DB, entityid, satellite)

    def tgt_exists(fileName): return os.path.exists(os.path.join(target_folder, fileName))

    def src_exists(entityid):
        return os.path.exists(os.path.join(src_folder, get_filename_by_entityID(conn_DB, entityid, satellite)))
    df['tgt_fileName'] = list(df['entityid'].map(get_fName))
    df['tgtFile_exists'] = list(df['tgt_fileName'].map(tgt_exists))
    df['srcFile_exists'] = list(df['entityid'].map(src_exists))
    tgt_satID = (df.satelliteid == float(satID))
    # isDL = (df.proc_level == 'DOWNLOADED')
    isMET = (df.proc_level == 'METADATA')
    # tgtE = (df.tgtFile_exists == True)
    srcE = df.srcFile_exists  # (df.srcFile_exists == True)
    # sceneIDs_notDL_tgtE = df[tgt_satID & (isDL == 0) & tgtE]  # maybe needed later
    # sceneIDs_DL_tgtNE = df[tgt_satID & isDL & (tgtE == 0)]  # maybe needed later
    # sceneIDs_DL_tgtE = df[tgt_satID & isDL & tgtE]  # maybe needed later
    sceneIDs_isMET_srcE = df[tgt_satID & isMET & srcE]
    return sceneIDs_isMET_srcE[['id', 'tgt_fileName']].values
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class GMS_JOB(object):
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    """gms_preprocessing job manager"""
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    def __init__(self, conn_db):
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        # type: (str) -> None
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        """
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        :param conn_db: <str> the database connection parameters as given by CFG.conn_params
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        """
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        # privates
        self._virtualsensorid = None
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        # defaults
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        self.conn = conn_db
        self.dataframe = GeoDataFrame()
        self.scene_counts = {}  # set by self.create()
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        self.exists_in_db = False
        self.id = None  #: int
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        self.creationtime = datetime.now()  # default, needed to create new job
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        self.finishtime = None
        self.sceneids = []
        self.timerange_start = datetime.min
        self.timerange_end = datetime.max
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        self.bounds = box(-180, -90, 180, 90)  # default, needed to create new job
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        self.distribution_index = None
        self.progress = None
        self.feedback = None
        self.failed_sceneids = []
        self.ref_job_id = None
        self.datacube_mgrs_tiles_proc = []
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        self.non_ref_datasetids = []
        self.max_cloudcover = None
        self.season_code = None  # type: int
        self.path_analysis_script = ''  # TODO
        self.job_mode = 'processing_only'  # FIXME download/processing/...
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        self.jobs_table_columns = ['id', 'creationtime', 'finishtime', 'sceneids', 'timerange_start',
                                   'timerange_end', 'bounds', 'distribution_index', 'progress', 'feedback',
                                   'failed_sceneids', 'datasetid_spatial_ref',
                                   'virtualsensorid', 'ref_job_id', 'datacube_mgrs_tiles_proc', 'comment',
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                                   'non_ref_datasetids', 'max_cloudcover', 'season_code', 'status',
                                   'path_analysis_script', 'analysis_parameter', 'statistics', 'job_mode']
        self.datasetid_spatial_ref = 249  # this is overwritten if existing job is read from DB but needed to create new
        self.datasetname_spatial_ref = 'SENTINEL-2A'  # same here
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        self.status = None
        self.statistics = []
        self.comment = None
        self.epsg = None  # set by self._set_target_sensor_specs()
        self.ground_spatial_sampling = None  # set by self._set_target_sensor_specs()
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        self.analysis_parameter = None
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    def __repr__(self):
        return 'GMS job:\n\n' + GeoSeries(self.db_entry).to_string()

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    @property
    def virtualsensorid(self):
        return self._virtualsensorid

    @virtualsensorid.setter
    def virtualsensorid(self, value):
        """Set virtual sensor ID but continue if no data value is received
        NOTE:  set by self._set_target_sensor_specs() and self.from_ID()"""
        if value != -1:  # no data value
            self._virtualsensorid = value

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    def _set_target_sensor_specs(self, virtual_sensor_id, datasetid_spatial_ref):
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        self.virtualsensorid = virtual_sensor_id
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        if not isinstance(datasetid_spatial_ref, int):
            raise ValueError(datasetid_spatial_ref)

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        res = get_info_from_postgreSQLdb(self.conn, 'virtual_sensors', ['spatial_resolution',
                                                                        "projection_epsg"], {'id': virtual_sensor_id})
        assert res, \
            "'virtual_sensor_id'=%s does not exist in the table 'virtual_sensors' of the database." % virtual_sensor_id
        target_gsd = res[0][0]
        self.ground_spatial_sampling = [target_gsd, target_gsd] if type(target_gsd) in [int, float] else target_gsd
        self.epsg = int(res[0][1])

        self.datasetid_spatial_ref = datasetid_spatial_ref
        res = get_info_from_postgreSQLdb(self.conn, 'datasets', ['name'], {'id': datasetid_spatial_ref})
        assert res, \
            "'datasetid_spatial_ref'=%s does not exist in the table 'datasets' of the database." % datasetid_spatial_ref
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        self.datasetname_spatial_ref = res

    @property
    def db_entry(self):
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        """Returns an OrderedDict containing keys and values of the database entry.
        """
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        db_entry = collections.OrderedDict()
        for i in self.jobs_table_columns:
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            val = getattr(self, i)

            if i == 'virtualsensorid' and val is None:
                val = -1  # nodata value

            db_entry[i] = val

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        return db_entry

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    def from_dictlist(self, dictlist_data2process, virtual_sensor_id, datasetid_spatial_ref=249, comment=None):
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        # type: (list, int, int, str) -> GMS_JOB
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        """
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        :param dictlist_data2process:  <list> a list of dictionaries containing the keys "satellite", "sensor" and
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                                        "filenames",
                                        e.g. [{'satellite:'Landsat-8,'sensor':'OLI_TIRS','filenames':file.tar.gz},{...}]
        :param virtual_sensor_id :     <int> a valid ID from the 'virtual_sensors' table of the postgreSQL database
        :param datasetid_spatial_ref:  <int> a valid dataset ID of the dataset to be chosen as spatial reference
                                        (from the 'datasets' table of the postgreSQL database)
                                        (default:249 - Sentinel-2A), 104=Landsat-8
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        :param comment:                <str> a comment describing the job (e.g. 'Beta job')
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        """
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        self._set_target_sensor_specs(virtual_sensor_id, datasetid_spatial_ref)
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        self.comment = comment
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        dictlist_data2process = dictlist_data2process if dictlist_data2process else []

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        for idx, datadict in enumerate(dictlist_data2process):
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            assert isinstance(datadict, dict), "Expected only dictionaries within 'dictlist_data2process'. " \
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                                               "Got %s in there." % type(datadict)
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            assert False not in [i in datadict for i in ['satellite', 'sensor', 'filenames']]
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            assert type(datadict['filenames']) in [list, str]
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            if isinstance(datadict['filenames'], str):
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                if datadict['filenames'].endswith('.csv'):
                    assert os.path.exists(datadict['filenames'])
                else:
                    datadict['filenames'] = [datadict['filenames']]

        # find all duplicates in input datadicts and build common geodataframe
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        all_gdfs = []
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        for datadict in dictlist_data2process:
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            assert isinstance(datadict, dict)
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            if isinstance(datadict['filenames'], str) and datadict['filenames'].endswith('.csv'):
                datadict['filenames'] = None  # TODO implement csv reader here
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                raise NotImplementedError
            else:
                temp_gdf = GeoDataFrame(datadict, columns=['satellite', 'sensor', 'filenames'])
                if re.search('Landsat-7', datadict['satellite'], re.I) and re.search('ETM+', datadict['sensor'], re.I):
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                    from .helper_functions import Landsat_entityID_decrypter as LED
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                    def get_L7_sensor(fN): return LED(fN.split('.tar.gz')[0]).sensorIncSLC
                    temp_gdf['sensor'] = list(temp_gdf['filenames'].map(get_L7_sensor))
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                all_gdfs.append(temp_gdf)

        gdf = GeoDataFrame(pd.concat(all_gdfs)).drop_duplicates()
        gdf.columns = ['satellite', 'sensor', 'filename']

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        # run self.from_dictlist
        sceneInfoGDF = self._get_validated_sceneInfoGDFs(gdf)

        # populate attributes
        self._populate_jobAttrs_from_sceneInfoGDF(sceneInfoGDF)

        return self

    def from_sceneIDlist(self, list_sceneIDs, virtual_sensor_id, datasetid_spatial_ref=249, comment=None):
        # type: (list, int, int, str) -> object
        """
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        Create a GMS_JOB instance based on the given list of scene IDs.
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        :param list_sceneIDs:          <list> of scene IDs, e.g. [26781907, 26781917, 26542650, 26542451, 26541679]
        :param virtual_sensor_id :     <int> a valid ID from the 'virtual_sensors' table of the postgreSQL database
        :param datasetid_spatial_ref:  <int> a valid dataset ID of the dataset to be chosen as spatial reference
                                        (from the 'datasets' table of the postgreSQL database)
                                        (default:249 - Sentinel-2A), 104=Landsat-8
        :param comment:                <str> a comment describing the job (e.g. 'Beta job')
        """

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        self._set_target_sensor_specs(virtual_sensor_id, datasetid_spatial_ref)
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        self.comment = comment

        list_sceneIDs = list(list_sceneIDs)

        # query 'satellite', 'sensor', 'filename' from database and summarize in GeoDataFrame
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        with psycopg2.connect(self.conn) as conn:
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            with conn.cursor() as cursor:
                execute_pgSQL_query(cursor,
                                    """SELECT scenes.id, satellites.name, sensors.name, scenes.filename FROM scenes
                                    LEFT JOIN satellites on scenes.satelliteid=satellites.id
                                    LEFT JOIN sensors on scenes.sensorid=sensors.id
                                    WHERE scenes.id in (%s)""" % ','.join([str(i) for i in list_sceneIDs]))
                gdf = GeoDataFrame(cursor.fetchall(), columns=['sceneid', 'satellite', 'sensor', 'filename'])

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        # FIXME overwriting 'ETM+_SLC_OFF' with 'ETM+' causes _get_validated_sceneInfoGDFs() to fail because the
        # FIXME sensorid for ETM+_SLC_OFF cannot be retrieved
        # gdf['sensor'] = gdf['sensor'].apply(lambda senN: senN if senN != 'ETM+_SLC_OFF' else 'ETM+')
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        gdf = gdf.drop_duplicates()

        if gdf.empty:
            raise ValueError('None of the given scene IDs could be found in the GeoMultiSens database. '
                             'Job creation failed.')
        else:
            missing_IDs = [i for i in list_sceneIDs if i not in gdf['sceneid'].values]
            if missing_IDs:
                warnings.warn('The following scene IDs could not been found in the GeoMultiSens database: \n%s'
                              % '\n'.join([str(i) for i in missing_IDs]))

            # run self.from_dictlist
            sceneInfoGDF = self._get_validated_sceneInfoGDFs(gdf)

            # populate attributes
            self._populate_jobAttrs_from_sceneInfoGDF(sceneInfoGDF)

        return self

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    def from_entityIDlist(self, list_entityids, virtual_sensor_id, datasetid_spatial_ref=249, comment=None):
        """Create a GMS_JOB instance based on the given list of entity IDs.

        :param list_entityids:
        :param virtual_sensor_id:
        :param datasetid_spatial_ref:
        :param comment:
        :return:
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        """
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        res_sceneIDs = get_info_from_postgreSQLdb(self.conn, 'scenes', ['id', ], {'entityid': list_entityids})
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        if not res_sceneIDs:
            raise ValueError('No matching database entries found for the given entity IDs.')

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        list_sceneIDs = np.array(res_sceneIDs)[:, 0].tolist()
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        count_no_match = len(list_entityids) - len(list_sceneIDs)

        if count_no_match:
            warnings.warn('%s datasets could not be found the database. They cannot be processed.')

        return self.from_sceneIDlist(list_sceneIDs, virtual_sensor_id,
                                     datasetid_spatial_ref=datasetid_spatial_ref, comment=comment)

    def from_filenames(self, list_filenames, virtual_sensor_id, datasetid_spatial_ref=249, comment=None):
        """Create a GMS_JOB instance based on the given list of provider archive filenames.

        :param list_filenames:
        :param virtual_sensor_id:
        :param datasetid_spatial_ref:
        :param comment:
        :return:
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        """

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        res_sceneIDs = get_info_from_postgreSQLdb(self.conn, 'scenes', ['id', ], {'filename': list_filenames})
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        if not res_sceneIDs:
            raise ValueError('No matching database entries found for the given filenames.')

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        list_sceneIDs = np.array(res_sceneIDs)[:, 0].tolist()
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        count_no_match = len(list_filenames) - len(list_sceneIDs)

        if count_no_match:
            warnings.warn('%s datasets could not be found the database. They cannot be processed.')

        return self.from_sceneIDlist(list_sceneIDs, virtual_sensor_id,
                                     datasetid_spatial_ref=datasetid_spatial_ref, comment=comment)
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    def _get_validated_sceneInfoGDFs(self, GDF_SatSenFname):
        # type: (GeoDataFrame) -> GeoDataFrame
        """

        :param GDF_SatSenFname:
        :return:
        """

        gdf = GDF_SatSenFname

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        # loop through all satellite-sensor combinations and get scene information from database
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        all_gdf_recs, all_gdf_miss = [], []
        all_satellites, all_sensors = zip(
            *[i.split('__') for i in (np.unique(gdf['satellite'] + '__' + gdf['sensor']))])
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        for satellite, sensor in zip(all_satellites, all_sensors):
            cur_gdf = gdf.loc[(gdf['satellite'] == satellite) & (gdf['sensor'] == sensor)]
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            filenames = list(cur_gdf['filename'])

            satID_res = get_info_from_postgreSQLdb(self.conn, 'satellites', ['id'], {'name': satellite})
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            senID_res = get_info_from_postgreSQLdb(self.conn, 'sensors', ['id'], {'name': sensor})
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            assert len(satID_res), "No satellite named '%s' found in database." % satellite
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            assert len(senID_res), "No sensor named '%s' found in database." % sensor
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            # append sceneid and wkb_hex bounds
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            if 'sceneid' in gdf.columns:
                sceneIDs = list(cur_gdf['sceneid'])
                conddict = dict(id=sceneIDs, satelliteid=satID_res[0][0], sensorid=senID_res[0][0])
            else:
                conddict = dict(filename=filenames, satelliteid=satID_res[0][0], sensorid=senID_res[0][0])

            records = get_info_from_postgreSQLdb(
                self.conn, 'scenes', ['filename', 'id', 'acquisitiondate', 'bounds'], conddict)
            records = GeoDataFrame(records, columns=['filename', 'sceneid', 'acquisitiondate', 'geom'])
            if 'sceneid' in gdf.columns:
                del records['sceneid']

            cur_gdf = cur_gdf.merge(records, on='filename', how="outer", copy=False)
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            # separate records with valid matches in database from invalid matches (filename not found in database)
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            gdf_recs = cur_gdf[
                cur_gdf.sceneid.notnull()].copy()  # creates a copy (needed to be able to apply maps later)
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            gdf_miss = cur_gdf[cur_gdf.sceneid.isnull()]  # creates a view

            # convert scene ids from floats to integers
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            gdf_recs['sceneid'] = list(gdf_recs.sceneid.map(lambda sceneid: int(sceneid)))
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            # wkb_hex bounds to shapely polygons
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            gdf_recs['polygons'] = list(gdf_recs.geom.map(lambda wkb_hex: wkb_loads(wkb_hex, hex=True)))
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            all_gdf_recs.append(gdf_recs)
            all_gdf_miss.append(gdf_miss)

        # merge all dataframes of all satellite-sensor combinations
        gdf_recs_compl = GeoDataFrame(pd.concat(all_gdf_recs))
        gdf_miss_compl = GeoDataFrame(pd.concat(all_gdf_miss))

        # populate attributes
        if not gdf_miss_compl.empty:
            warnings.warn('The following scene filenames could not been found in the GeoMultiSens database: \n%s'
                          % '\n'.join(list(gdf_miss_compl['filename'])))

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        return gdf_recs_compl

    def _populate_jobAttrs_from_sceneInfoGDF(self, sceneInfoGDF):
        # type: (GeoDataFrame) -> None
        """

        :param sceneInfoGDF:
        :return:
        """

        if not sceneInfoGDF.empty:
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            self.dataframe = sceneInfoGDF
            self.sceneids = list(self.dataframe['sceneid'])
            self.statistics = [len(self.sceneids)] + [0] * 8
            self.bounds = box(*MultiPolygon(list(self.dataframe['polygons'])).bounds)
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            self.timerange_start = self.dataframe.acquisitiondate.min().to_pydatetime()
            self.timerange_end = self.dataframe.acquisitiondate.max().to_pydatetime()
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    def from_job_ID(self, job_ID):
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        # type: (int) -> GMS_JOB
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        """
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        Create a GMS_JOB instance by querying the database for a specific job ID.
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        :param job_ID:  <int> a valid id from the database table 'jobs'
        """
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        res = get_info_from_postgreSQLdb(self.conn, 'jobs', self.jobs_table_columns, {'id': job_ID})
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        if not res:
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            raise ValueError("No job with ID %s found in 'jobs' table of the database." % job_ID)
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        self.exists_in_db = True
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        [setattr(self, attrName, res[0][i]) for i, attrName in enumerate(self.jobs_table_columns)]
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        self.bounds = wkb_loads(self.bounds, hex=True)
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        # fill self.dataframe
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        records = get_info_from_postgreSQLdb(self.conn, 'scenes', ['satelliteid', 'sensorid', 'filename',
                                                                   'id', 'acquisitiondate', 'bounds'],
                                             {'id': self.sceneids})
        gdf = GeoDataFrame(records,
                           columns=['satelliteid', 'sensorid', 'filename', 'sceneid', 'acquisitiondate', 'geom'])
        all_satIDs = gdf.satelliteid.unique().tolist()
        all_senIDs = gdf.sensorid.unique().tolist()
        satName_res = get_info_from_postgreSQLdb(self.conn, 'satellites', ['name'], {'id': all_satIDs})
        senName_res = get_info_from_postgreSQLdb(self.conn, 'sensors', ['name'], {'id': all_senIDs})
        all_satNames = [i[0] for i in satName_res]
        all_senNames = [i[0] for i in senName_res]
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        id_satName_dict = dict(zip(all_satIDs, all_satNames))
        id_senName_dict = dict(zip(all_senIDs, all_senNames))
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        gdf.insert(0, 'satellite', list(gdf.satelliteid.map(lambda satID: id_satName_dict[satID])))
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        gdf.insert(1, 'sensor', list(gdf.sensorid.map(lambda senID: id_senName_dict[senID])))
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        gdf['polygons'] = list(gdf.geom.map(lambda wkb_hex: wkb_loads(wkb_hex, hex=True)))
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        self.dataframe = gdf[['satellite', 'sensor', 'filename', 'sceneid', 'acquisitiondate', 'geom', 'polygons']]
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        return self

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    def reset_job_progress(self):
        """Resets everthing in the database entry that has been written during the last run of the job..
        """
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        self.finishtime = None
        self.failed_sceneids = []
        self.progress = None
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        self.status = 'pending'