geode_functions.py

# Standard library imports
import os

# Third party imports
import opengeode_geosciences as og_gs
import opengeode as og
import werkzeug
import flask

# Local application imports
from .geode_objects import geode_objects_dict
from . import utils_functions


def geode_object_value(geode_object: str):
    return geode_objects_dict()[geode_object]


def geode_object_class(geode_object: str):
    return geode_object_value(geode_object)["class"]


def input_factory(geode_object: str):
    return geode_object_value(geode_object)["input_factory"]


def output_factory(geode_object: str):
    return geode_object_value(geode_object)["output_factory"]


def additional_files(geode_object: str, file_absolute_path: str):
    return geode_object_value(geode_object)["additional_files"](file_absolute_path)


def is_loadable(geode_object: str, file_absolute_path: str) -> float:
    percentage = geode_object_value(geode_object)["is_loadable"](file_absolute_path)
    return percentage.value()


def load(geode_object: str, file_absolute_path: str):
    return geode_object_value(geode_object)["load"](file_absolute_path)


def data_file_path(data_id: str, filename: str) -> str:
    data_folder_path = flask.current_app.config["DATA_FOLDER_PATH"]
    return os.path.join(
        data_folder_path,
        data_id,
        werkzeug.utils.secure_filename(filename),
    )


def load_data(geode_object: str, data_id: str, filename: str):
    file_absolute_path = data_file_path(data_id, filename)
    return load(geode_object, file_absolute_path)


def upload_file_path(filename):
    upload_folder = flask.current_app.config["UPLOAD_FOLDER"]
    secure_filename = werkzeug.utils.secure_filename(filename)
    return os.path.abspath(os.path.join(upload_folder, secure_filename))


def is_saveable(geode_object: str, data, filename: str):
    return geode_object_value(geode_object)["is_saveable"](data, filename)


def save(geode_object: str, data, folder_absolute_path: str, filename: str):
    return geode_object_value(geode_object)["save"](
        data, os.path.join(folder_absolute_path, filename)
    )


def create_builder(geode_object: str, data):
    return geode_object_value(geode_object)["builder"](data)


def assign_crs(geode_object: str, data, crs_name: str, info):
    builder = create_builder(geode_object, data)
    geode_object_value(geode_object)["crs"]["assign"](data, builder, crs_name, info)


def convert_crs(geode_object: str, data, crs_name: str, info):
    builder = create_builder(geode_object, data)
    geode_object_value(geode_object)["crs"]["convert"](data, builder, crs_name, info)


def create_crs(
    geode_object: str,
    data,
    name: str,
    input_coordiante_system,
    output_coordiante_system,
):
    builder = create_builder(geode_object, data)
    geode_object_value(geode_object)["crs"]["create"](
        data, builder, name, input_coordiante_system, output_coordiante_system
    )


def get_object_type(geode_object: str):
    return geode_object_value(geode_object)["object_type"]


def get_elements(geode_object: str):
    return geode_object_value(geode_object)["elements"]


def is_3D(geode_object: str):
    return geode_object_value(geode_object)["is_3D"]


def is_viewable(geode_object: str):
    return geode_object_value(geode_object)["is_viewable"]


def inspect(geode_object: str, data):
    return geode_object_value(geode_object)["inspector"](data)


def save_viewable(geode_object: str, data, folder_absolute_path: str, id: str):
    return geode_object_value(geode_object)["save_viewable"](
        data, os.path.join(folder_absolute_path, id)
    )


def save_light_viewable(geode_object: str, data, folder_absolute_path: str, id: str):
    return geode_object_value(geode_object)["save_light_viewable"](
        data, os.path.join(folder_absolute_path, id)
    )


def geode_object_input_extensions(geode_object: str):
    geode_object_input_list_creators = input_factory(geode_object).list_creators()
    geode_object_input_list_creators.sort()
    return geode_object_input_list_creators


def geode_object_output_extensions(geode_object: str):
    geode_object_output_list_creators = output_factory(geode_object).list_creators()
    geode_object_output_list_creators.sort()
    return geode_object_output_list_creators


def filter_geode_objects(key: str = None):
    geode_objects_filtered_list = []
    for geode_object, value in geode_objects_dict().items():
        if key != None and key != "":
            if key in value:
                if type(value[key]) == bool:
                    geode_objects_filtered_list.append(geode_object)
                else:
                    geode_objects_filtered_list.append(geode_object)
        else:
            geode_objects_filtered_list.append(geode_object)
    geode_objects_filtered_list.sort()
    return geode_objects_filtered_list


def list_input_extensions(key: str = None):
    extensions_list = []
    geode_objects_filtered_list = filter_geode_objects(key)
    for geode_object in geode_objects_filtered_list:
        extensions_list += geode_object_input_extensions(geode_object)

    extensions_list = list(set(extensions_list))
    extensions_list.sort()
    return extensions_list


def has_creator(geode_object: str, extension: str):
    return input_factory(geode_object).has_creator(extension)


def list_geode_objects(
    file_absolute_path: str,
    key: str = None,
):
    return_dict = {}
    file_extension = utils_functions.extension_from_filename(
        os.path.basename(file_absolute_path)
    )
    geode_objects_filtered_list = filter_geode_objects(key)

    for geode_object in geode_objects_filtered_list:
        if has_creator(geode_object, file_extension):
            loadability_score = is_loadable(geode_object, file_absolute_path)
            return_dict[geode_object] = {"is_loadable": loadability_score}
    return return_dict


def geode_objects_output_extensions(geode_object: str, data):
    geode_objects_output_extensions_dict = {}
    output_extensions = geode_object_output_extensions(geode_object)
    extensions_dict = {}
    for output_extension in output_extensions:
        bool_is_saveable = is_saveable(geode_object, data, f"test.{output_extension}")
        extensions_dict[output_extension] = {"is_saveable": bool_is_saveable}
    geode_objects_output_extensions_dict[geode_object] = extensions_dict

    if "parent" in geode_object_value(geode_object).keys():
        parent_geode_object = geode_object_value(geode_object)["parent"]
        geode_objects_output_extensions_dict.update(
            geode_objects_output_extensions(parent_geode_object, data)
        )
    return geode_objects_output_extensions_dict


def get_inspector_children(obj):
    new_object = {}

    if "inspection_type" in dir(obj):
        new_object["title"] = obj.inspection_type()
        new_object["nb_issues"] = 0
        new_object["children"] = []
        for child in dir(obj):
            if not child.startswith("__") and not child in [
                "inspection_type",
                "string",
            ]:
                child_instance = obj.__getattribute__(child)
                child_object = get_inspector_children(child_instance)
                new_object["children"].append(child_object)
                new_object["nb_issues"] += child_object["nb_issues"]
    else:
        new_object["title"] = obj.description()
        nb_issues = obj.nb_issues()
        new_object["nb_issues"] = nb_issues
        if nb_issues > 0:
            issues = obj.string().split("\n")
            new_object["issues"] = issues
    return new_object


def geographic_coordinate_systems(geode_object: str):
    if is_3D(geode_object):
        return og_gs.GeographicCoordinateSystem3D.geographic_coordinate_systems()
    else:
        return og_gs.GeographicCoordinateSystem2D.geographic_coordinate_systems()


def geographic_coordinate_systems_info(geode_object: str, crs):
    if is_3D(geode_object):
        return og_gs.GeographicCoordinateSystemInfo3D(
            crs["authority"], crs["code"], crs["name"]
        )
    else:
        return og_gs.GeographicCoordinateSystemInfo2D(
            crs["authority"], crs["code"], crs["name"]
        )


def coordinate_system(geode_object: str, coordinate_system):
    return og.CoordinateSystem2D(
        [
            og.Vector2D(
                og.Point2D(
                    [coordinate_system["origin_x"], coordinate_system["origin_y"]]
                ),
                og.Point2D(
                    [coordinate_system["point_1_x"], coordinate_system["point_1_y"]]
                ),
            ),
            og.Vector2D(
                og.Point2D(
                    [coordinate_system["origin_x"], coordinate_system["origin_y"]]
                ),
                og.Point2D(
                    [coordinate_system["point_2_x"], coordinate_system["point_2_y"]]
                ),
            ),
        ],
        og.Point2D([coordinate_system["origin_x"], coordinate_system["origin_y"]]),
    )


def assign_geographic_coordinate_system_info(geode_object: str, data, input_crs):
    info = geographic_coordinate_systems_info(geode_object, input_crs)
    assign_crs(geode_object, data, input_crs["name"], info)


def convert_geographic_coordinate_system_info(geode_object: str, data, output_crs):
    info = geographic_coordinate_systems_info(geode_object, output_crs)
    convert_crs(geode_object, data, output_crs["name"], info)


def create_coordinate_system(
    geode_object: str, data, name, input_coordinate_points, output_coordinate_points
):
    input_coordiante_system = coordinate_system(geode_object, input_coordinate_points)
    output_coordiante_system = coordinate_system(geode_object, output_coordinate_points)
    create_crs(
        geode_object, data, name, input_coordiante_system, output_coordiante_system
    )