Metadata-Version: 2.1
Name: TerminalOne
Version: 1.9.14
Summary: A package for interacting with MediaMath's TerminalOne API.
Home-page: http://www.mediamath.com
Author: MediaMath
Author-email: developers@mediamath.com
License: Apache 2.0
Description: # TerminalOne-Python
        
        [![image](https://travis-ci.org/MediaMath/t1-python.svg?branch=master)](https://travis-ci.org/MediaMath/t1-python)
        
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        Python library for MediaMath\'s APIs. This library consists of classes
        for working with T1 APIs and managing entities. It is written for Python
        2.7 and \>=3.3. Compatibility with Python 3 is made possible by bundling
        the module [six](https://pypi.python.org/pypi/six).
        
        API Documentation is available at [\<https://apidocs.mediamath.com/\>
        \<https://apidocs.mediamath.com/\>]{.title-ref}\_\_.
        
        <!-- TOC -->
        
        -   [TerminalOne-Python](#terminalone-python)
        -   [Installation](#installation)
        -   [Execution and Management API](#execution-and-management-api)
            -   [Service Object](#service-object)
            -   [Fetching Entities and
                Collections](#fetching-entities-and-collections)
            -   [Collections](#collections)
            -   [Searching for entities](#searching-for-entities)
            -   [Entities](#entities)
            -   [Child Entities](#child-entities)
            -   [Reports](#reports)
            -   [Appendix](#appendix)
        
        <!-- /TOC -->
        
        Installation
        ============
        
        Installation is simple with pip in a virtual environment:
        
        ``` {.bash}
        $ pip install TerminalOne
        ```
        
        Alternatively, download the latest tag of the repository as a tarball or
        zip file and run:
        
        ``` {.bash}
        $ python setup.py install
        ```
        
        Execution and Management API
        ============================
        
        Service Object
        --------------
        
        *class* `terminalone.T1`(*username*=`None`, *password*=`None`,
        *api\_key*=`None`, *client\_secret*=`None`, *auth\_method*=`None`,
        *session\_id*=`None`, *environment*=`"production"`, *api\_base*=`None`,
        *token*=`None`, *token\_updater*=`None`)
        
        The starting point for this package. Authentication and session, entity
        retrieval, creation, etc. are handled here. Parameters:
        
        -   *username*: Username of a valid T1 user (that is, valid at
            [\<https://t1.mediamath.com\>
            \<https://t1.mediamath.com\>]{.title-ref}\_\_).
        -   *password*: Password for corresponding T1 user
        -   *api\_key*: Approved API key generated at [MediaMath\'s Developer
            Portal](https://developer.mediamath.com).
        -   *client\_secret*: Client Secret for use with OAuth2 authentication
        -   *session\_id*: For applications receiving a session ID instead of
            user credentials, such as an app in T1\'s Apps tab. *api\_key*
            should still be provided.
        -   *auth\_method*: string enum corresponding to which method of
            authentication the session to use. Currently \"cookie\" and
            \"oauth2\" are supported. The auth method will usually be detected,
            so this can be ommitted. (Omission new in v1.2.0!)
        -   *token*: dict OAuth2 token as generated by the session. If you have
            a web app, you can store the token in the browser session, and then
            use that to generate a new T1 session. See the documentation for
            examples.
        -   *token\_updater*: function with one argument, token, to be used to
            update your token databse on automatic token refresh. If not
            provided, a TokenUpdated warning will be raised when a token has
            been refreshed. This warning will carry the token in its token
            argument.
        -   Either *environment* or *api\_base* can be provided to specify where
            the request goes.
        
        T1-Python includes support for resource-owner code grant. Include a
        client ID and secret alongside your credentials:
        
        ``` {.python}
        >>> t1 = T1(auth_method='oauth2-resourceowner', client_id="my_client_id", client_secret="my_secret", username="my@user", password="mypass")
        ```
        
        If you already have a valid access token (e.g. by following the authorization code flow - outside this library), you can also pass it in order to get authenticated:
        ``` {.python}
        >>> t1 = t1 = terminalone.T1(access_token=token, environment=environment, auth_method='oauth2-existingaccesstoken', json=True)
        ```
        
        If you have a specific API base (for instance, if you are testing
        against a sandbox deployment) (*Note*: sandbox environments are not yet
        useable), you can use the `api_base` keyword with the *domain*. For
        production endpoints, neither `environment` nor `api_base` should be
        provided:
        
        ``` {.python}
        >>> t1 = terminalone.T1("myusername", "mypassword", "my_api_key", api_base="myqaserver.domain.com", auth_method="cookie")
        ```
        
        If you are receiving a (cloned) session ID, for instance the norm for
        apps, you will not have user credentials to log in with. Instead,
        provide the session ID and API key:
        
        ``` {.python}
        >>> t1 = terminalone.T1(session_id="13ea5a26e77b64e7361c7ef84910c18a8d952cf0", api_key="my_api_key")
        ```
        
        Cookie Auth (username/password) exists, but it is not recommended for
        use.
        
        ``` {.python}
        >>> import terminalone
        >>> t1 = terminalone.T1("myusername", "mypassword")
        ```
        
        Fetching Entities and Collections
        ---------------------------------
        
        Entity and collection retrieval. Parameters:
        
        `T1.get`(*collection*, *entity*=`None`, *child*=`None`, *limit*=`None`,
        *include*=`None`, *full*=`None`, *page\_limit*=`100`,
        *page\_offset*=`0`, *sort\_by*=`"id"`, *get\_all*=`False`,
        *parent*`None`, *query*=`None`, *count*=`False`)
        
        -   *collection*: T1 collection, e.g. `"advertisers"`
        -   *entity*: Integer ID of entity being retrieved from T1
        -   *child*: Child object of a particular entity, e.g. `"dma"`, `"acl"`
        -   *limit*: dict to query for relation entity, e.g.
            `{"advertiser": 123456}`
        -   *include*: str/list of relations:
            -   string, e.g.
                -   `T1.get('advertiser', include='agency')`
            -   list of *lateral* (non-hierarchical) relations, e.g.
                -   `T1.get('advertiser', include=['agency', 'ad_server'])`
            -   list of list/strings of *hierarchical* relations, e.g.
                -   `T1.get('advertiser', include=[['agency', 'organization'],]`
                -   `T1.get('advertiser', include=[['agency', 'organization'], 'ad_server']`
        -   *full*: When retrieving multiple entities, specifies which types to
            return the full record for. e.g.
            -   `"campaign"` (full record for campaign entities returned)
            -   `True` (full record of all entities returned),
            -   `["campaign", "advertiser"]` (full record for campaigns and
                advertisers returned)
        -   *page\_limit* and *page\_offset* handle pagination. *page\_limit*
            specifies how many entities to return at a time, default and max of
            100. *page\_offset* specifies which entity to start at for that
                page.
        -   *sort\_by*: sort order. Default `"id"`. e.g. `"-id"`, `"name"`
        -   *get\_all*: Whether to retrieve all results for a query or just a
            single page. Mutually exclusive with *page\_limit*/*page\_offset*
        -   *parent*: Only return entities with this `parent_id`. Used for
            `audience_segments`.
        -   *query*: Search parameters. *Note*: it\'s much simpler to use `find`
            instead of `get`, allowing `find` to construct the query.
        -   *count*: bool return the number of entities as a second parameter
        -   *other\_params*: dict of additional, service-specific parameters to
            be passed.
        
        | Raises: `terminalone.errors.ClientError` if *page\_limit* \> 100,
          `terminalone.errors.APIError` on \>399 HTTP status code.
        | Returns: If single entity is specified, returns a single entity
          object. If multiple entities, generator yielding each entity.
        
        ### Collections
        
        ``` {.python}
        >>> advertisers = t1.get("advertisers")
        >>> for advertiser in advertisers:
        ...     print(advertiser)
        ...
        Advertiser(id=1, name="My Brand Advertiser", _type="advertiser")
        ```
        
        Returns generator over the first 100 advertisers (or fewer if the user
        only has access to fewer), ordered ascending by ID. Each entity is the
        limited object, containing just `id`, `name`, and `_type` (`_type` just
        signifies the type returned by the API, in this case, \"advertiser\").
        
        ``` {.python}
        >>> ag_advertisers = t1.get("advertisers",
        ...                         limit={"agency": 123456},
        ...                         include="agency",
        ...                         full="advertiser")
        >>> for advertiser in ag_advertisers:
        ...     print(advertiser)
        ...
        Advertiser(id=1, name="My Brand Advertiser", agency=Agency(id=123456, name="Operating Agency", _type="agency"), agency_id=123456, status=True, ...)
        ```
        
        
        Generator over up to 100 advertisers within agency ID 123456. Each
        advertiser includes its parent agency object as an attribute. The
        advertiser objects are the full entities, so all fields are returned.
        Agency objects are limited and have the same fields as advertisers in
        the previous example.
        
        ``` {.python}
        >>> campaigns, count = t1.get("campaigns",
        ...                           get_all=True,
        ...                           full=True,
        ...                           sort_by="-updated_on")
        >>> print(count)
        539
        >>> for campaign in campaigns:
        ...     print(campaign)
        Campaign(id=123, name="Summer Acquisition", updated_on=datetime.datetime(2015, 4, 4, 0, 15, 0, 0), ...)
        Campaign(id=456, name="Spring Acquisition", updated_on=datetime.datetime(2015, 4, 4, 0, 10, 0, 0), ...)
        ...
        ```
        
        Generator over every campaign accessible by the user, sorted in
        descending order of last update. Second argument is integer number of
        campaigns retrieved, as returned by the API. `get_all=True` removes the
        need to worry about pagination --- it is handled by the SDK internally.
        
        ``` {.python}
        >>> _, count = t1.get("advertisers",
        ...                   page_limit=1,
        ...                   count=True)
        >>> print(count)
        23
        ```
        
        Sole purpose is to get the count of advertisers accessible by the user.
        Use `page_limit=1` to minimize unnecessary resources, and assign to `_`
        to throw away the single entity retrieved.
        
        ### Searching for entities
        
        Limiting entities by relation ID is one way to limit entities, but we
        can also search with more intricate queries using `find`:
        
        `T1.find`(*collection*, *variable*, *operator*, *candidates*,
        \*\**kwargs*)
        
        -   *collection*: T1 collection, same use as with `get`
        -   *variable*: Field to query for, e.g. `name`
        -   *operator*: Arithmetic operator, e.g. `"<"`
        -   *candidates*: Query value, e.g. `"jonsmith*"`
        -   *kwargs*: Additional keyword arguments to pass onto `get`. All
            keyword arguments applicable for `get` are applicable here as well.
        
        *module* `terminalone.filters`
        
        -   `IN`
        -   `NULL`
        -   `NOT_NULL`
        -   `EQUALS`
        -   `NOT_EQUALS`
        -   `GREATER`
        -   `GREATER_OR_EQUAL`
        -   `LESS`
        -   `LESS_OR_EQUAL`
        -   `CASE_INS_STRING`
        
        ``` {.python}
        >>> greens = t1.find("atomic_creatives",
        ...                  "name",
        ...                  terminalone.filters.CASE_INS_STRING,
        ...                  "*Green*",
        ...                  include="concept",
        ...                  get_all=True)
        ```
        
        Generator over all creatives with \"Green\" in the name. Include
        concept.
        
        ``` {.python}
        >>> my_campaigns = t1.find("campaigns",
        ...                       "id",
        ...                       terminalone.filers.IN,
        ...                       [123, 234, 345],
        ...                       full=True)
        ```
        
        Generator over campaign IDs 123, 234, and 345. Note that when using
        `terminalone.filers.IN`, *variable* is automatically ID, so that
        argument is effectively ignored. Further, *candidates* must be a list of
        integer IDs.
        
        ``` {.python}
        >>> pixels = t1.find("pixel_bundles",
        ...                  "keywords",
        ...                  terminalone.filters.NOT_NULL,
        ...                  None)
        ```
        
        Generator over first 100 pixels with non-null keywords field.
        
        ``` {.python}
        >>> strats = t1.find("strategies",
        ...                  "status",
        ...                  terminalone.filters.EQUALS,
        ...                  True,
        ...                  limit={"campaign": 123456})
        ```
        
        Active strategies within campaign ID 123456.
        
        ### Entities
        
        A specific entity can be retrieved by using `get` with an entity ID as
        the second argument, or using the `entity` keyword. You can then access
        that entity\'s properties using instance attributes:
        
        ``` {.python}
        >>> my_advertiser = t1.get("advertisers", 111111)
        >>> my_advertiser.id
        111111
        ```
        
        *class* `terminalone.Entity`
        
        -   `set(properties)` Set all data in mapping object `properties` to the
            entity.
        -   `save(data=None)`
        
        : Save the entity. If `data` is provided, send that. Typically used with
        no arguments.
        
        (*Note: you will typically interact with subclasses, not \`\`Entity\`\`
        itself*)
        
        If for some reason you need to access the object like a dictionary (for
        instance, if you need to iterate over fields or dump to a CSV), the
        method `get_properties()` is available. However, you shouldn\'t modify
        `_properties` directly, as it will cause incorrect behaviour.
        
        Once you have your instance, you can modify its values, and then save it
        back. A return value of `None` indicates success. Otherwise, an error is
        raised.
        
        ``` {.python}
        >>> my_advertiser.name = "Updated name"
        >>> my_advertiser.save()
        >>>
        ```
        
        Create new entities by calling `T1.new` on your instance.
        
        `T1.new`(*collection*, *report=None*, *properties=None*)
        
        -   *collection*: T1 collection, same as above
        -   *report*: New report object; discussed in [Reports](#reports)
        -   *properties*: Properties to pass into new object.
        
        ``` {.python}
        >>> new_properties = {
        ...     "name": "Spring Green",
        ...     "status": True,
        ... }
        >>> new_concept = t1.new("concept", properties=new_properties)
        >>> new_concept.advertiser_id = 123456
        >>> new_concept.save()
        >>>
        ```
        
        `properties` is an optional mapping object with properties to get passed
        in. You can use a string representation of the object (such as
        `"concept"` above); or, you can use the object itself from
        `terminalone.models`:
        
        ``` {.python}
        >>> new_concept = t1.new(terminalone.models.Concept, properties=new_properties)
        >>> 
        ```
        
        ### Child Entities
        
        To retrieve child entities (for instance, `/users/:id/permissions`),
        include the `child` argument in a call to `T1.get`:
        
        ``` {.python}
        >>> permissions = t1.get("users", 1, child="permissions")
        ```
        
        Reports
        -------
        
        To use MediaMath\'s Reports API instantiate an instance with `T1.new`:
        
        ``` {.python}
        >>> rpts = t1.new("report")
        ```
        
        *class* `terminalone.Report`
        
        -   `metadata` Metadata of reports available or of individual report.
            Calculated on first call (API request made); cached for future
            calls.
        -   `parameters` Dictionary of request parameters
        -   `set(data)` Set request parameters with a mapping object `data`
        -   `report_uri(report)` Get URI stub for report
        -   `get(as_dict=False)` Get report data (requires calling `T1.new` with
            a report name). Returns headers and `csv.reader`. If `as_dict` is
            True, returns data as `csv.DictReader`
        
        This is a metadata object, and can be used to retrieve information about
        which reports are available.
        
        ``` {.python}
        >>> pprint.pprint(rpts.metadata)
        {'reports': {...
                     'geo': {'Description': 'Standard Geo Report',
                             'Name': 'Geo Report',
                             'URI_Data': 'https://api.mediamath.com/reporting/v1/std/geo',
                             'URI_Meta': 'https://api.mediamath.com/reporting/v1/std/geo/meta'},
        ...}
        >>> pprint.pprint(rpts.metadata, depth=2)
        {'reports': {'audience_index': {...},
                     'audience_index_pixel': {...},
                     'day_part': {...},
                     'device_technology': {...},
                     'geo': {...},
                     'performance': {...},
                     'pulse': {...},
                     'reach_frequency': {...},
                     'site_transparency': {...},
                     'technology': {...},
                     'video': {...},
                     'watermark': {...}}}
        ```
        
        You can retrieve the URI stub of any report by calling
        `Report.report_uri`:
        
        ``` {.python}
        >>> print(rpts.report_uri("geo"))
        'geo'
        ```
        
        Which is just a short-cut to getting the final part of the path of
        `Report.metadata[report]['URI_Data']`. Getting the URI from the
        specification is preferred to assuming that the name is the same as the
        stub. This is more directly applicable by instantiating the object for
        it:
        
        ``` {.python}
        >>> report = t1.new("report", rpts.report_uri("performance"))
        ```
        
        The Reporting Service has two version of the API: `/reporting/v1/std` and `reporting-beta/v1/std/`. To call the `beta` version of reporting API:
        
        
        ``` {.python}
        >>> rpts = t1.new("report", version="beta")
        ```
        
        ``` {.python}
        >>> report = t1.new("report", rpts.report_uri("performance"), version="beta")
        ```
        
        A short way to do it if the url is known:
        
        ``` {.python}
        >>> report = t1.new( "report", "deals?v1", version="beta" )
        
        ```
        
        
        You can access metadata about this report from the `Report.metadata`
        property as well. To get data, first set properties about the query with
        `Report.set`, and use the `Report.get` method, which returns a tuple
        `(headers, data)`.:
        
        ``` {.python}
        >>> report.set({
        ...     'dimensions': ['campaign_id', 'strategy_name'],
        ...     'filter': {'campaign_id': 126173},
        ...     'metrics': ['impressions', 'total_spend'],
        ...     'time_rollup': 'by_day',
        ...     'start_date': '2013-01-01',
        ...     'end_date': '2013-12-31',
        ...     'order': ['date'],
        ... })
        >>> headers, data = report.get()
        >>> print(headers)
        ['start_date', 'end_date', 'campaign_id', 'strategy_name', 'impressions']
        >>> for line in data:
        ...     # do work on line
        ...     print(line)
        ...
        ['2013-06-27', '2013-06-27', '126173', 'PS', '231']
        ...
        ```
        
        `headers` is a list of headers, while `data` is a `csv.reader` object.
        Type casting is not present in the current version, but is tentatively
        planned for a future date.
        
        More information about these parameters can be found
        [here](https://mm-reports.api-docs.io/v1/welcome/introduction).
        
        ### Appendix
        
        Why don\'t we import the object classes directly? For instance, why
        doesn\'t this work?
        
        ``` {.python}
        >>> from terminalone import Campaign
        ```
        
        The answer here is that we need to keep a common session so that we can
        share session information across requests. This allows you to work with
        many objects, only passing in authentication information once.
        
        ``` {.python}
        >>> t1 = T1("myusername", "mypassword", "my_api_key")
        >>> t1.authenticate("cookie")
        >>> c = t1.new("campaign")
        >>> c.session is t1.session
        True
        ```
        
        Contact
        =======
        
        For questions about either API workflow or this library, email
        [\<developers\@mediamath.com\>
        \<mailto:developers\@mediamath.com\>]{.title-ref}\_\_.
        
        Copyright
        =========
        
        Copyright MediaMath 2015-2017. All rights reserved.
        
Platform: any
Classifier: Development Status :: 5 - Production/Stable
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.3
Classifier: Programming Language :: Python :: 3.4
Classifier: Intended Audience :: Developers
Classifier: Natural Language :: English
Classifier: Operating System :: OS Independent
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