Metadata-Version: 2.1
Name: hdx-python-api
Version: 4.3.7
Summary: HDX Python Library
Home-page: https://github.com/OCHA-DAP/hdx-python-api
Author: Michael Rans
Author-email: rans@email.com
License: MIT
Description: [![Build Status](https://travis-ci.org/OCHA-DAP/hdx-python-api.svg?branch=master&ts=1)](https://travis-ci.org/OCHA-DAP/hdx-python-api) [![Coverage Status](https://coveralls.io/repos/github/OCHA-DAP/hdx-python-api/badge.svg?branch=master&ts=1)](https://coveralls.io/github/OCHA-DAP/hdx-python-api?branch=master)
        
        The HDX Python Library is designed to enable you to easily develop code that interacts with the [Humanitarian Data
        Exchange](https://data.humdata.org/) (HDX) platform. The major goal of the library is to make pushing and pulling data 
        from HDX as simple as possible for the end user. If you have humanitarian-related data, please upload your datasets to 
        HDX.
        
        For more about the purpose and design philosophy, please visit 
        [HDX Python Library](https://humanitarian.atlassian.net/wiki/display/HDX/HDX+Python+Library).
        
        -   [Usage](#usage)
        -   [Breaking Changes](#breaking-changes)
        -   [Getting Started](#getting-started)
            -   [Obtaining your API Key](#obtaining-your-api-key)
            -   [Installing the Library](#installing-the-library)
            -   [Docker](#docker)
            -   [A Quick Example](#a-quick-example)
        -   [Building a Project](#building-a-project)
            -   [Default Configuration for Facades](#default-configuration-for-facades)
            -   [Facades](#facades)
            -   [Customising the Configuration](#customising-the-configuration)
            -   [Configuring Logging](#configuring-logging)
            -   [Operations on HDX Objects](#operations-on-hdx-objects)
            -   [Dataset Specific Operations](#dataset-specific-operations)
                -   [Dataset Date](#dataset-date)
                -   [Expected Update Frequency](#expected-update-frequency)
                -   [Location](#location)
                -   [Tags](#tags)
                -   [Maintainer](#maintainer)
                -   [Organization](#organization)
            -   [Resource Specific Operations](#resource-specific-operations)
            -   [User Management](#user-management)
            -   [Organization Management](#organization-management)
            -   [Vocabulary Management](#vocabulary-management)
        -   [Working Example](#working-example)
        -   [ACLED Example](#acled-example)
        
        ## Usage
        
        The library has detailed API documentation which can be found
        here: <http://ocha-dap.github.io/hdx-python-api/>. The code for the
        library is here: <https://github.com/ocha-dap/hdx-python-api>.
        
        ## Breaking Changes
        
        From 3.9.2, the default sort order for returned results from search and getting all datasets has changed.
        
        From 3.7.3, the return type for add_tag, add_tags and clean_tags is now Tuple[List[str], List[str]] 
        (Tuple containing list of added tags and list of deleted tags and tags not added).
        
        From 3.7.1, the list of tags must be from [this approved list](https://docs.google.com/spreadsheets/d/e/2PACX-1vRjeajloIuQl8mfTSHU71ZgbHSgYYUgHrLqyjHSuQJ-zMqS3SVM9hJqMs72L-84LQ/pub?gid=1739051517&single=true&output=csv).
        
        ## Getting Started
        
        ### Obtaining your API Key
        
        If you just want to read data from HDX, then an API key is not necessary and you can ignore the 6 steps below. However, 
        if you want to write data to HDX, then you need to register on the website to obtain an API key. You can supply this 
        key as an argument or create an API key file. If you create an API key file, by default this is assumed to be called
        **.hdxkey** and is located in the current user's home directory **\~**. Assuming you are using a desktop browser, the 
        API key is obtained by:
        
        1.  Browse to the [HDX website](https://data.humdata.org/)
        1.  Left click on LOG IN in the top right of the web page if not logged in and log in
        1.  Left click on your username in the top right of the web page and select PROFILE from the drop down menu
        1.  Scroll down to the bottom of the profile page
        1.  Copy the API key which will be of the form: xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
        1.  You can either:
        
            a.  Pass this key as a parameter or within a dictionary
            
            b.  Create a JSON or YAML file. The default path is
                    **.hdx\_configuration.yml** in the current user's home
                    directory. Then put in the YAML file:
        
                    hdx_key: "HDX API KEY"
        
        ### Installing the Library
        
        To include the HDX Python library in your project, you must **pip install** or add to your **requirements.txt** file 
        the following line:
        
            hdx-python-api==VERSION
        
        Replace **VERSION** with the latest tag available from <https://github.com/OCHA-DAP/hdx-python-api/tags>.
        
        If you get dependency errors, it is probably the dependencies of the cryptography package that are missing eg. for 
        Ubuntu: python-dev, libffi-dev and libssl-dev. See 
        [cryptography dependencies](https://cryptography.io/en/latest/installation/#building-cryptography-on-linux).
        
        If you get import or other errors, then please either recreate your virtualenv if you are using one or uninstall 
        hdx-python-api, hdx-python-country and hdx-python-utilities using **pip uninstall**, then install hdx-python-api (which 
        will pull in the other dependencies).
        
        ### Docker
        
        The library is also available set up and ready to go in a Docker image:
        
            docker pull mcarans/hdx-python-api
            docker run -i -t mcarans/hdx-python-api:latest python3
        
        ### A Quick Example
        
        ![A Quick Example](https://humanitarian.atlassian.net/wiki/download/attachments/6356996/HDXPythonLibrary.gif?version=1&modificationDate=1469520811486&api=v2)
        
        Let's start with a simple example that also ensures that the library is working properly. In this tutorial, we use 
        virtualenv, a sandbox, so that your Python install is not modified.
        
        1.  If you just want to read data from HDX, then an API key is not necessary. However, if you want to write data to HDX,
        then you need to register on the website to obtain an API key. Please see above about where to find it on the website. 
        Once you have it, then put it into a file in your home directory:
        
                cd ~
                echo "hdx_key: \"xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx\"" > .hdx_configuration.yml
        
        1.  If you are using the Docker image, you can jump to step 6, otherwise install virtualenv if not installed:
        
                pip install virtualenv
        
            On some Linux distributions, you can do the following instead to install from the distribution's official 
            repository:
        
                sudo apt-get install virtualenv
        
        1.  Create a Python 3 virtualenv and activate it:
        
            On Windows (assuming the Python 3 executable is in your path):
            
                virtualenv test
                test\Scripts\activate
        
            On other OSs:
            
                virtualenv -p python3 test
                source test/bin/activate
        
        1.  Install the HDX Python library:
        
                pip install hdx-python-api
        
        1.  If you get errors, it is probably the [dependencies of the cryptography package](#installing-the-library)
        1.  Launch python:
        
                python
        
        1.  Import required classes:
        
                from hdx.utilities.easy_logging import setup_logging
                from hdx.hdx_configuration import Configuration
                from hdx.data.dataset import Dataset
        
        1.  Setup logging
        
                setup_logging()
        
        1.  Use configuration defaults.
        
            If you only want to read data, then connect to the production HDX
            server:
        
                Configuration.create(hdx_site='prod', user_agent='A_Quick_Example', hdx_read_only=True)
        
            If you want to write data, then for experimentation, do not use the
            production HDX server. Instead you can use one of the test servers.
            Assuming you have an API key stored in a file **.hdxkey** in the
            current user's home directory:
        
                Configuration.create(hdx_site='test', user_agent='A_Quick_Example')
        
        1.  Read this dataset 
        [ACLED Conflict Data for Africa 1997-2016](https://data.humdata.org/dataset/acled-conflict-data-for-africa-1997-lastyear)
            from HDX and view the date of the dataset:
        
                dataset = Dataset.read_from_hdx('acled-conflict-data-for-africa-1997-lastyear')
                print(dataset.get_dataset_date())
        
        1.  If you have an API key, as a test, change the dataset date:
        
                dataset.set_dataset_date('2015-07-26', date_format='%Y-%m-%d')
                print(dataset.get_dataset_date())
                dataset.update_in_hdx()
        
        1.  You can view it on HDX before changing it back (if you have an API key):
        
                dataset.set_dataset_date('2016-06-25', date_format='%Y-%m-%d')
                dataset.update_in_hdx()
        
        1. You can search for datasets on HDX and get their resources:
        
                datasets = Dataset.search_in_hdx('ACLED', rows=10)
                print(datasets)
                resources = Dataset.get_all_resources(datasets)
                print(resources)
        
        1. You can download a resource in the dataset:
        
                url, path = resources[0].download()
                print('Resource URL %s downloaded to %s' % (url, path))
        
        1. Exit and remove virtualenv:
        
                exit()
                deactivate
        
            On Windows:
        
                rd /s /q test
        
            On other OSs:
        
                rm -rf test
        
        ## Building a Project
        
        ### Default Configuration for Facades
        
        The easiest way to get started is to use the facades and configuration defaults. The facades set up both logging and 
        HDX configuration.
        
        The default configuration loads an internal HDX configuration located within the library, and assumes that there is an 
        API key file called **.hdxkey** in the current user's home directory **\~** and a YAML project configuration located 
        relative to your working directory at **config/project\_configuration.yml** which you must create. The project 
        configuration is used for any configuration specific to your project.
        
        The default logging configuration reads a configuration file internal to the library that sets up an coloured console 
        handler outputting at DEBUG level and a file handler writing to errors.log at ERROR level.
        
        ### Facades
        
        The simple facade makes it easier to get up and running:
        
            from hdx.facades.simple import facade
        
            def main():
                ***YOUR CODE HERE***
        
            if __name__ == '__main__':
                facade(main, CONFIGURATION_KWARGS)
        
        The keyword arguments facade is similar but passes through keyword arguments:
        
            from hdx.facades.keyword_arguments import facade
        
            def main(kwparam1, kwparam2, ...,**ignore):
                ***YOUR CODE HERE***
        
            if __name__ == '__main__':
                facade(main, CONFIGURATION_AND_OTHER_KWARGS)
        
        ### Customising the Configuration
        
        It is necessary to pass configuration parameters in the facade call eg.
        
            facade(main, user_agent=USER_AGENT, hdx_site = HDX_SITE_TO_USE, hdx_read_only = ONLY_READ_NOT_WRITE, hdx_key_file = LOCATION_OF_HDX_KEY_FILE, hdx_config_yaml=PATH_TO_HDX_YAML_CONFIGURATION, project_config_dict = {'MY_PARAMETER', 'MY_VALUE'})
        
        If you do not use the facade, you can use the **create** method of the **Configuration** class directly, passing in 
        appropriate keyword arguments ie.
        
            from hdx.hdx_configuration import Configuration
            ...
            Configuration.create([configuration], [user_agent], [user_agent_config_yaml], [remoteckan], KEYWORD ARGUMENTS)
        
        You must supply a user agent using one of the following approaches:
        
        1.  Populate parameter **user\_agent** (which can simply be the name of your project)
        2.  Supply **user\_agent\_config\_yaml** which should point to a YAML file which contains a parameter **user\_agent**
        3.  Supply **user\_agent\_config\_yaml** which should point to a YAML file and populate **user\_agent\_lookup** which is
            a key to look up in the YAML file which should be of form:
        
                myproject:
                    user_agent: test
                myproject2:
                    user_agent: test2
        
        4.  Include **user\_agent** in one of the configuration dictionaries or files outlined in the table below eg. 
            **hdx\_config\_json** or **project\_config\_dict**.
        
        **KEYWORD ARGUMENTS** can be:
        
        |Choose|Argument|Type|Value|Default|
        |---|---|---|---|---|
        | |hdx\_site|Optional\[str\]|HDX site to use eg. prod, feature|test|
        | |hdx\_read\_only|bool|Read only or read/write access to HDX|False|
        | |hdx\_key|Optional\[str\]|HDX key (not needed for read only)||
        |Above or one of:|hdx\_config\_dict|dict|Dictionary with hdx\_site, hdx\_read\_only, hdx\_key||
        |or|hdx\_config\_json|str|Path to JSON configuration with values as above||
        |or|hdx\_config\_yaml|str|Path to YAML configuration with values as above||
        |Zero or one of:|project\_config\_dict|dict|Project specific configuration dictionary||
        |or|project\_config\_json|str|Path to JSON Project||
        
        To access the configuration, you use the **read** method of the **Configuration** class as follows:
        
            Configuration.read()
        
        For more advanced users, there are methods to allow you to pass in your own configuration object, remote CKAN object 
        and list of valid locations. See the API documentation for more information.
        
        This global configuration is used by default by the library but can be replaced by Configuration instances passed to 
        the constructors of HDX objects like Dataset eg.
        
            configuration = Configuration(KEYWORD ARGUMENTS)
            configuration.setup_remoteckan(REMOTE CKAN OBJECT)
            configuration.setup_validlocations(LIST OF VALID LOCATIONS)
            dataset = Dataset(configuration=configuration)
        
        ### Configuring Logging
        
        If you wish to change the logging configuration from the defaults, you will need to call **setup\_logging** with 
        arguments unless you have used the simple or ScraperWiki facades, in which case you must update the **hdx.facades** 
        module variable **logging\_kwargs** before importing the facade.
        
        If not using facade:
        
            from hdx.utilities.easy_logging import setup_logging
            ...
            logger = logging.getLogger(__name__)
            setup_logging(KEYWORD ARGUMENTS)
        
        If using facade:
        
            from hdx.facades import logging_kwargs
        
            logging_kwargs.update(DICTIONARY OF KEYWORD ARGUMENTS)
            from hdx.facades.simple import facade
        
        **KEYWORD ARGUMENTS** can be:
        
        |Choose|Argument|Type|Value|Default|
        |---|---|---|---|---|
        |One of:|logging\_config\_dict|dict|Logging configuration<br>dictionary|
        |or|logging\_config\_json|str|Path to JSON<br>Logging configuration|
        |or| logging\_config\_yaml|str|Path to YAML<br>Logging configuration|Library's internal<br>logging\_configuration.yml|
        |One of:|smtp\_config\_dict|dict|Email Logging<br>configuration dictionary|
        |or|smtp\_config\_json|str|Path to JSON Email<br>Logging configuration|
        |or|smtp\_config\_yaml|str|Path to YAML Email<br>Logging configuration|
        
        Do not supply **smtp\_config\_dict**, **smtp\_config\_json** or **smtp\_config\_yaml** unless you are using the default 
        logging configuration!
        
        If you are using the default logging configuration, you have the option to have a default SMTP handler that sends an 
        email in the event of a CRITICAL error by supplying either **smtp\_config\_dict**, **smtp\_config\_json** or 
        **smtp\_config\_yaml**. Here is a template of a YAML file that can be passed as the **smtp\_config\_yaml** parameter:
        
            handlers:
                error_mail_handler:
                    toaddrs: EMAIL_ADDRESSES
                    subject: "RUN FAILED: MY_PROJECT_NAME"
        
        Unless you override it, the mail server **mailhost** for the default SMTP handler is **localhost** and the from address 
        **fromaddr** is <**noreply@localhost**>.
        
        To use logging in your files, simply add the line below to the top of each Python file:
        
            logger = logging.getLogger(__name__)
        
        Then use the logger like this:
        
            logger.debug('DEBUG message')
            logger.info('INFORMATION message')
            logger.warning('WARNING message')
            logger.error('ERROR message')
            logger.critical('CRITICAL error message')
        
        ### Operations on HDX Objects
        
        You can read an existing HDX object with the static **read\_from\_hdx** method which takes an identifier parameter and 
        returns the an object of the appropriate HDX object type eg. **Dataset** or **None** depending upon whether the object 
        was read eg.
        
            dataset = Dataset.read_from_hdx('DATASET_ID_OR_NAME')
        
        You can search for datasets and resources in HDX using the **search\_in\_hdx** method which takes a query parameter and 
        returns the a list of objects of the appropriate HDX object type eg. **list[Dataset]**. Here is an example:
        
            datasets = Dataset.search_in_hdx('QUERY', **kwargs)
        
        The query parameter takes a different format depending upon whether it is for a
        [dataset](https://docs.ckan.org/en/latest/api/index.html#ckan.logic.action.get.package_search)
        or a
        [resource](https://docs.ckan.org/en/latest/api/index.html#ckan.logic.action.get.resource_search).
        The resource level search is limited to fields in the resource, so in most cases, it is preferable to search for 
        datasets and then get their resources.
        
        Various additional arguments (`**kwargs`) can be supplied. These are detailed in the API documentation. The rows 
        parameter for datasets (limit for resources) is the maximum number of matches returned and is by default everything.
        
        You can create an HDX Object, such as a dataset, resource, showcase, organization or user by calling the constructor 
        with an optional dictionary containing metadata. For example:
        
            from hdx.data.dataset import Dataset
        
            dataset = Dataset({
                'name': slugified_name,
                'title': title
            })
        
        The dataset name should not contain special characters and hence if there is any chance of that, then it needs to be 
        slugified. Slugifying is way of making a string valid within a URL (eg. **ae** replaces **ä**). There are various 
        packages that can do this eg. [python-slugify](https://pypi.python.org/pypi/python-slugify).
        
        You can add metadata using the standard Python dictionary square brackets eg.
        
            dataset['name'] = 'My Dataset'
        
        You can also do so by the standard dictionary **update** method, which takes a dictionary eg.
        
            dataset.update({'name': 'My Dataset'})
        
        Larger amounts of static metadata are best added from files. YAML is very human readable and recommended, while JSON is 
        also accepted eg.
        
            dataset.update_from_yaml([path])
        
            dataset.update_from_json([path])
        
        The default path if unspecified is **config/hdx\_TYPE\_static.yml** for YAML and **config/hdx\_TYPE\_static.json** for 
        JSON where TYPE is an HDX object's type like dataset or resource eg. **config/hdx\_showcase\_static.json**. The YAML 
        file takes the following form:
        
            owner_org: "acled"
            maintainer: "acled"
            ...
            tags:
                - name: "violence and conflict"
            resources:
                -
                  description: "Resource1"
                  url: "http://resource1.xlsx"
                  format: "xlsx"
            ...
        
        Notice how you can define resources (each resource starts with a dash '-') within the file as shown above.
        
        You can check if all the fields required by HDX are populated by calling **check\_required\_fields**. This will throw 
        an exception if any fields are missing. Before the library posts data to HDX, it will call this method automatically. 
        You can provide a list of fields to ignore in the check. An example usage:
        
            resource.check_required_fields([ignore_fields])
        
        Once the HDX object is ready ie. it has all the required metadata, you simply call **create\_in\_hdx** eg.
        
            dataset.create_in_hdx(allow_no_resources, update_resources,
                                  update_resources_by_name,
                                  remove_additional_resources)
        
        Existing HDX objects can be updated by calling **update\_in\_hdx** eg.
        
            dataset.update_in_hdx(update_resources, update_resources_by_name,
                                  remove_additional_resources)
        
        You can delete HDX objects using **delete\_from\_hdx** and update an object that already exists in HDX with the method 
        **update\_in\_hdx**. These take various boolean parameters that all have defaults and are documented in the API docs. 
        They do not return anything and they throw exceptions for failures like the object to update not existing.
        
        ### Dataset Specific Operations
        
        A dataset can have resources and can be in a showcase.
        
        If you wish to add resources, you can supply a list and call the **add\_update\_resources** function, for example:
        
            resources = [{
                'name': xlsx_resourcename,
                'format': 'xlsx',
                'url': xlsx_url
             }, {
                'name': csv_resourcename,
                'format': 'zipped csv',
                'url': csv_url
             }]
             for resource in resources:
                 resource['description'] = resource['url'].rsplit('/', 1)[-1]
             dataset.add_update_resources(resources)
        
        Calling **add\_update\_resources** creates a list of HDX Resource objects in dataset and operations can be performed on 
        those objects.
        
        To see the list of resources, you use the **get\_resources** function eg.
        
            resources = dataset.get_resources()
        
        If you wish to add one resource, you can supply an id string, dictionary or Resource object and call the 
        **add\_update\_resource**\* function, for example:
        
            dataset.add_update_resource(resource)
        
        You can delete a Resource object from the dataset using the **delete\_resource** function, for example:
        
            dataset.delete_resource(resource)
        
        You can get all the resources from a list of datasets as follows:
        
            resources = Dataset.get_all_resources(datasets)
        
        To see the list of showcases a dataset is in, you use the **get\_showcases** function eg.
        
            showcases = dataset.get_showcases()
        
        If you wish to add the dataset to a showcase, you must first create the showcase in HDX if it does not already exist:
        
            showcase = Showcase({'name': 'new-showcase-1',
                                 'title': 'MyShowcase1',
                                 'notes': 'My Showcase',
                                 'package_id': '6f36a41c-f126-4b18-aaaf-6c2ddfbc5d4d',
                                 'image_display_url': 'http://myvisual/visual.png',
                                 'url': 'http://visualisation/url/'})
            showcase.create_in_hdx()
        
        Then you can supply an id, dictionary or Showcase object and call the **add\_showcase** function, for example:
        
            dataset.add_showcase(showcase)
        
        You can remove the dataset from a showcase using the **remove\_showcase** function, for example:
        
            dataset.remove_showcase(showcase)
        
        #### Dataset Date
        
        Dataset date is a mandatory field in HDX. This date is the date of the data in the dataset, not to be confused with 
        when data was last added/changed in the dataset. It can be a single date or a range.
        
        To determine if a dataset date is a single date or range you can call:
        
            dataset.get_dataset_date_type()
        
        It returns 'date' for a single date or 'range' for a date range.
        
        To get the dataset start date of a range or single date as a string, you can do as shown below. You can supply a 
        [date format](https://docs.python.org/3/library/datetime.html#strftime-strptime-behavior). If you don't, the output 
        format will be an [ISO 8601 date](https://en.wikipedia.org/wiki/ISO_8601) eg. 2007-01-25.
        
            dataset_date = dataset.get_dataset_date('FORMAT')
        
        To get the dataset end date of a range, you call:
        
            dataset_date = dataset.get_dataset_end_date('FORMAT')
        
        To set the dataset date, you pass a start date and end date for a range or just a start date for a single date. 
        If the start date has no day or month, then by default if no end date is supplied, the start date will be converted
        into a range provided allow_range is True otherwise an exception is raised. If allow_range is True, dataset_end_date 
        is supplied and both dataset_date and dataset_end_date lack days and/or months, then a date range will be used from 
        the start date of dataset_date range and the end date of the dataset_end_date range. If you do not supply any date 
        format, the method will try to guess, which for unambiguous formats should be fine. 
        
            dataset.set_dataset_date('START DATE', 'END DATE', 'FORMAT', True)
        
        To retrieve the dataset date or range as a **datetime.datetime** object, you can do:
        
            dataset_date = dataset.get_dataset_date_as_datetime()
            dataset_date = dataset.get_dataset_end_date_as_datetime()
        
        The method below allows you to set the dataset's date using a **datetime.datetime** object:
        
            dataset.set_dataset_date_from_datetime(START DATETIME.DATETIME OBJECT, END DATETIME.DATETIME OBJECT)
        
        #### Expected Update Frequency
        
        HDX datasets have a mandatory field, the expected update frequency. This is your best guess of how often the dataset 
        will be updated.
        
        The HDX web interface uses set frequencies:
        
            Every day
            Every week
            Every two weeks
            Every month
            Every three months
            Every six months
            Every year
            Never
        
        Although the API allows much greater granularity (a number of days), you are encouraged to use the options above 
        (avoiding using **Never** if possible). To assist with this, you can use methods that allow this.
        
        The following method will return a textual expected update frequency corresponding to what would be shown in the HDX 
        web interface.
        
            update_frequency = dataset.get_expected_update_frequency()
        
        The method below allows you to set the dataset's expected update frequency using one of the set frequencies above. (It 
        also allows you to pass a number of days as a string or integer, but this is discouraged.)
        
            dataset.set_expected_update_frequency('UPDATE_FREQUENCY')
        
        A list of valid update frequencies can be found using:
        
            Dataset.list_valid_update_frequencies()
        
        Transforming backwards and forwards between representations can be achieved with this function:
        
            update_frequency = Dataset.transform_update_frequency('UPDATE_FREQUENCY')
        
        #### Location
        
        Each HDX dataset must have at least one location associated with it.
        
        If you wish to get the current location (ISO 3 country codes), you can call the method below:
        
            locations = dataset.get_location()
        
        If you want to add a country, you do as shown below. If you don't provide an ISO 3 country code, the text you give will 
        be parsed and converted to an ISO 3 code if it is a valid country name.
        
            dataset.add_country_location('ISO 3 COUNTRY CODE')
        
        If you want to add a list of countries, the following method enables you to do it. If you don't provide ISO 3 country 
        codes, conversion will take place where valid country names are found.
        
            dataset.add_country_locations(['ISO 3','ISO 3','ISO 3'...])
        
        If you want to add a region, you do it as follows. If you don't provide a three digit 
        [UNStats M49](https://unstats.un.org/unsd/methodology/m49/overview/) region code, then parsing and conversion will 
        occur if a valid region name is supplied.
        
            dataset.add_region_location('M49 REGION CODE')
        
        **add\_region\_location** accepts regions, intermediate regions or subregions as specified on the 
        [UNStats M49](https://unstats.un.org/unsd/methodology/m49/overview/) website.
        
        If you want to add any other kind of location (which must be in this
        [list of valid locations](https://data.humdata.org/api/action/group_list?all_fields=true)), you do as shown below.
        
            dataset.add_other_location('LOCATION')
        
        #### Tags
        
        HDX datasets can have tags which help people to find them eg. "common operational dataset - cod", "refugees".
        These tags come from a predefined set of approved tags. There is a link to a list of approved tags in the Breaking
        Changes section earlier. If you add tags that are not in the approved list, the library attempts to map them to
        approved tags based on a spreadsheet of tag mappings.
        
        
        If you wish to get the current tags, you can use this method:
        
            tags = dataset.get_tags()
        
        If you want to add a tag, you do it like this:
        
            dataset.add_tag('TAG')
        
        If you want to add a list of tags, you do it as follows:
        
            dataset.add_tags(['TAG','TAG','TAG'...])
            
        To obtain the predefined set of approved tags:
        
            approved_tags = Vocabulary.approved_tags()
        
        
        #### Maintainer
        
        HDX datasets must have a maintainer.
        
        If you wish to get the current maintainer, you can do this:
        
            maintainer = dataset.get_maintainer()
        
        If you want to set the maintainer, you do it like this:
        
            dataset.set_maintainer(USER)
        
        USER is either a string id, dictionary or a User object.
        
        #### Organization
        
        HDX datasets must be part of an organization.
        
        If you wish to get the current organization, you can do this:
        
            organization = dataset.get_organization()
        
        If you want to set the organization, you do it like this:
        
            dataset.set_organization(ORGANIZATION)
        
        ORGANIZATION is either a string id, dictionary or an Organization
        object.
        
        ### Resource Specific Operations
        
        You can download a resource using the **download** function eg.
        
            url, path = resource.download('FOLDER_TO_DOWNLOAD_TO')
        
        If you do not supply **FOLDER\_TO\_DOWNLOAD\_TO**, then a temporary folder is used.
        
        Before creating or updating a resource, it is possible to specify the path to a local file to upload to the HDX 
        filestore if that is preferred over hosting the file externally to HDX. Rather than the url of the resource pointing to 
        your server or api, in this case the url will point to a location in the HDX filestore containing a copy of your file.
        
            resource.set_file_to_upload(file_to_upload='PATH_TO_FILE')
        
        There is a getter to read the value back:
        
            file_to_upload = resource.get_file_to_upload()
        
        If you wish to set up the data preview feature in HDX and your file (HDX or externally hosted) is a csv, then you can 
        call the **create\_datastore** or **update\_datastore** methods. If you do not pass any parameters, all fields in the 
        csv will be assumed to be text.
        
            resource.create_datastore()
            resource.update_datastore()
        
        More fine grained control is possible by passing certain parameters and using other related methods eg.
        
            resource.create_datastore(schema={'id': 'FIELD', 'type': 'TYPE'}, primary_key='PRIMARY_KEY_OF_SCHEMA', delete_first=0 (No) / 1 (Yes) / 2 (If no primary key), path='LOCAL_PATH_OF_UPLOADED_FILE') -> None:
            resource.create_datastore_from_yaml_schema(yaml_path='PATH_TO_YAML_SCHEMA', delete_first=0 (No) / 1 (Yes) / 2 (If no primary key), path='LOCAL_PATH_OF_UPLOADED_FILE')
            resource.update_datastore(schema={'id': 'FIELD', 'type': 'TYPE'}, primary_key='PRIMARY_KEY_OF_SCHEMA', path='LOCAL_PATH_OF_UPLOADED_FILE') -> None:
            resource.update_datastore_from_json_schema(json_path='PATH_TO_JSON_SCHEMA', path='LOCAL_PATH_OF_UPLOADED_FILE')
        
        ### Showcase Management
        The **Showcase** class enables you to manage showcases, creating, deleting and updating (as for other HDX objects) 
        according to  your permissions.
        
        To see the list of datasets a showcase is in, you use the **get\_datasets** function eg.
        
            datasets = showcase.get_datasets()
        
        If you wish to add a dataset to a showcase, you call the **add\_dataset** function, for example:
        
            showcase.add_dataset(dataset)
        
        You can remove the dataset from a showcase using the **remove\dataset** function, for example:
        
            showcase.remove_dataset(dataset)
        
        If you wish to get the current tags, you can use this method:
        
            tags = showcase.get_tags()
        
        If you want to add a tag, you do it like this:
        
            showcase.add_tag('TAG')
        
        If you want to add a list of tags, you do it as follows:
        
            showcase.add_tags(['TAG','TAG','TAG'...])
            
        ### User Management
        
        The **User** class enables you to manage users, creating, deleting and updating (as for other HDX objects) according to 
        your permissions.
        
        You can email a user. First you need to set up an email server using a dictionary or file:
        
            email_config_dict = {'connection_type': 'TYPE', 'host': 'HOST',
                                 'port': PORT, 'username': USERNAME,
                                 'password': PASSWORD}
            Configuration.read().setup_emailer(email_config_dict=email_config_dict)
        
        Then you can email a user like this:
        
            user.email('SUBJECT', 'BODY', sender='SENDER EMAIL')
        
        You can email multiple users like this:
        
            User.email_users(LIST_OF_USERS, 'SUBJECT', 'BODY', sender='SENDER EMAIL')
        
        ### Organization Management
        
        The **Organization** class enables you to manage organizations, creating, deleting and updating (as for other HDX 
        objects) according to your permissions.
        
        You can get the datasets in an organization as follows:
        
            datasets = organization.get_datasets(**kwargs)
        
        Various additional arguments (`**kwargs`) can be supplied. These are detailed in the API documentation.
        
        You can get the users in an organization like this:
        
            users = organization.get_users('OPTIONAL FILTER')
        
        OPTIONAL FILTER can be member, editor, admin.
        
        You can add or update a user in an organization as shown below:
        
            organization.add_update_user(USER)
        
        You need to include a capacity field in the USER where capacity is member, editor, admin.
        
        You can add or update multiple users in an organization as follows:
        
            organization.add_update_users([LIST OF USERS])
        
        You can delete a user from an organization:
        
            organization.delete_user('USER ID')
        
        ### Vocabulary Management
        
        The **Vocabulary** class enables you to manage CKAN vocabularies, creating, deleting and updating (as for other HDX 
        objects) according to your permissions.
        
        You can optionally initialise a Vocabulary with dictionary, name and tags:
        
            vocabulary = Vocabulary(name='myvocab', tags=['TAG','TAG','TAG'...])
            vocabulary = Vocabulary({'name': 'myvocab', tags=[{'name': TAG'}, {'name': TAG'}...])
        
        If you wish to get the current tags, you can use this method:
        
            tags = vocabulary.get_tags()
        
        If you want to add a tag, you do it like this:
        
            vocabulary.add_tag('TAG')
        
        If you want to add a list of tags, you do it as follows:
        
            vocabulary.add_tags(['TAG','TAG','TAG'...])
        
        
        ## Working Example
        
        Here we will create a working example from scratch.
        
        First, pip install the library or alternatively add it to a requirements.txt file if you are comfortable with doing so 
        as described above.
        
        Next create a file called **run.py** and copy into it the code below.
        
            #!/usr/bin/python
            # -*- coding: utf-8 -*-
            '''
            Calls a function that generates a dataset and creates it in HDX.
        
            '''
            import logging
            from hdx.facades.simple import facade
            from .my_code import generate_dataset
        
            logger = logging.getLogger(__name__)
        
        
            def main():
                '''Generate dataset and create it in HDX'''
        
                dataset = generate_dataset()
                dataset.create_in_hdx()
        
            if __name__ == '__main__':
                facade(main, hdx_site='test')
        
        The above file will create in HDX a dataset generated by a function called **generate\_dataset** that can be found in 
        the file **my\_code.py** which we will now write.
        
        Create a file **my\_code.py** and copy into it the code below:
        
            #!/usr/bin/python
            # -*- coding: utf-8 -*-
            '''
            Generate a dataset
        
            '''
            import logging
            from hdx.data.dataset import Dataset
        
            logger = logging.getLogger(__name__)
        
        
            def generate_dataset():
                '''Create a dataset
                '''
                logger.debug('Generating dataset!')
        
        You can then fill out the function **generate\_dataset** as required.
        
        ## ACLED Example
        
        A complete example can be found here: <https://github.com/OCHA-DAP/hdxscraper-acled>
        
        In particular, take a look at the files **run.py**, **acled.py** and the **config** folder. If you run it unchanged, it 
        will overwrite the existing datasets in the ACLED organisation! Therefore, you should run it against a test server. If
        you use it as a basis for your code, you will need to modify the dataset **name**  in **acled.py** and change the 
        organisation information to your organisation. Also update metadata in **config/hdx\_dataset\_static.yml** 
        appropriately.
        
        The ACLED scraper creates a dataset per country in HDX, populating all the required metadata. It then creates resources 
        that point to ACLED API via the HXL proxy which adds HXL hashtags on the fly.
        
        The first iteration of the ACLED scraper was written without the HDX Python library and it became clear looking at this 
        and previous work by others that there are operations that are frequently required and which add unnecessary complexity 
        to the task of coding against HDX. Simplifying the interface to HDX drove the development of the Python library and the 
        second iteration of the scraper was built using it. ACLED went from producing files to creating an API, so a third 
        iteration was developed. 
        
        With the  interface using HDX terminology and mapping directly on to datasets, resources and showcases, the ACLED 
        scraper was faster to develop and is much easier to understand for someone inexperienced in how it works and what it is 
        doing. The extensive logging and transparent communication of errors is invaluable and enables action to be taken to 
        resolve issues as quickly as possible. The static metadata for ACLED is held in human readable files so if it needs to 
        be modified, it is straightforward. This is another feature of the HDX Python library that makes putting data 
        programmatically into HDX a breeze.
        
Keywords: HDX,API,library
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Developers
Classifier: Natural Language :: English
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Description-Content-Type: text/markdown
