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<h1><a href="partners_v2.html">Google Partners API</a> . <a href="partners_v2.analytics.html">analytics</a></h1>
<h2>Instance Methods</h2>
<p class="toc_element">
  <code><a href="#list">list(pageSize=None, requestMetadata_userOverrides_ipAddress=None, requestMetadata_trafficSource_trafficSubId=None, requestMetadata_userOverrides_userId=None, x__xgafv=None, requestMetadata_locale=None, pageToken=None, requestMetadata_experimentIds=None, requestMetadata_trafficSource_trafficSourceId=None, requestMetadata_partnersSessionId=None)</a></code></p>
<p class="firstline">Lists analytics data for a user's associated company.</p>
<p class="toc_element">
  <code><a href="#list_next">list_next(previous_request, previous_response)</a></code></p>
<p class="firstline">Retrieves the next page of results.</p>
<h3>Method Details</h3>
<div class="method">
    <code class="details" id="list">list(pageSize=None, requestMetadata_userOverrides_ipAddress=None, requestMetadata_trafficSource_trafficSubId=None, requestMetadata_userOverrides_userId=None, x__xgafv=None, requestMetadata_locale=None, pageToken=None, requestMetadata_experimentIds=None, requestMetadata_trafficSource_trafficSourceId=None, requestMetadata_partnersSessionId=None)</code>
  <pre>Lists analytics data for a user's associated company.
Should only be called within the context of an authorized logged in user.

Args:
  pageSize: integer, Requested page size. Server may return fewer analytics than requested.
If unspecified or set to 0, default value is 30.
Specifies the number of days in the date range when querying analytics.
The `page_token` represents the end date of the date range
and the start date is calculated using the `page_size` as the number
of days BEFORE the end date.
Must be a non-negative integer.
  requestMetadata_userOverrides_ipAddress: string, IP address to use instead of the user's geo-located IP address.
  requestMetadata_trafficSource_trafficSubId: string, Second level identifier to indicate where the traffic comes from.
An identifier has multiple letters created by a team which redirected the
traffic to us.
  requestMetadata_userOverrides_userId: string, Logged-in user ID to impersonate instead of the user's ID.
  x__xgafv: string, V1 error format.
    Allowed values
      1 - v1 error format
      2 - v2 error format
  requestMetadata_locale: string, Locale to use for the current request.
  pageToken: string, A token identifying a page of results that the server returns.
Typically, this is the value of `ListAnalyticsResponse.next_page_token`
returned from the previous call to
ListAnalytics.
Will be a date string in `YYYY-MM-DD` format representing the end date
of the date range of results to return.
If unspecified or set to "", default value is the current date.
  requestMetadata_experimentIds: string, Experiment IDs the current request belongs to. (repeated)
  requestMetadata_trafficSource_trafficSourceId: string, Identifier to indicate where the traffic comes from.
An identifier has multiple letters created by a team which redirected the
traffic to us.
  requestMetadata_partnersSessionId: string, Google Partners session ID.

Returns:
  An object of the form:

    { # Response message for
      # ListAnalytics.
    "nextPageToken": "A String", # A token to retrieve next page of results.
        # Pass this value in the `ListAnalyticsRequest.page_token` field in the
        # subsequent call to
        # ListAnalytics to retrieve the
        # next page of results.
    "analytics": [ # The list of analytics.
        # Sorted in ascending order of
        # Analytics.event_date.
      { # Analytics data for a `Company` within a single day.
        "searchViews": { # Details of the analytics events for a `Company` within a single day. # Instances of users seeing the `Company` in Google Partners Search results
            # on the specified date.
          "eventLocations": [ # Location information of where these events occurred.
            { # An object representing a latitude/longitude pair. This is expressed as a pair
                # of doubles representing degrees latitude and degrees longitude. Unless
                # specified otherwise, this must conform to the
                # <a href="http://www.unoosa.org/pdf/icg/2012/template/WGS_84.pdf">WGS84
                # standard</a>. Values must be within normalized ranges.
                #
                # Example of normalization code in Python:
                #
                #     def NormalizeLongitude(longitude):
                #       """Wraps decimal degrees longitude to [-180.0, 180.0]."""
                #       q, r = divmod(longitude, 360.0)
                #       if r > 180.0 or (r == 180.0 and q <= -1.0):
                #         return r - 360.0
                #       return r
                #
                #     def NormalizeLatLng(latitude, longitude):
                #       """Wraps decimal degrees latitude and longitude to
                #       [-90.0, 90.0] and [-180.0, 180.0], respectively."""
                #       r = latitude % 360.0
                #       if r <= 90.0:
                #         return r, NormalizeLongitude(longitude)
                #       elif r >= 270.0:
                #         return r - 360, NormalizeLongitude(longitude)
                #       else:
                #         return 180 - r, NormalizeLongitude(longitude + 180.0)
                #
                #     assert 180.0 == NormalizeLongitude(180.0)
                #     assert -180.0 == NormalizeLongitude(-180.0)
                #     assert -179.0 == NormalizeLongitude(181.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(360.0, 0.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(-360.0, 0.0)
                #     assert (85.0, 180.0) == NormalizeLatLng(95.0, 0.0)
                #     assert (-85.0, -170.0) == NormalizeLatLng(-95.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(90.0, 10.0)
                #     assert (-90.0, -10.0) == NormalizeLatLng(-90.0, -10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(-180.0, 10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(180.0, 10.0)
                #     assert (-90.0, 10.0) == NormalizeLatLng(270.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(-270.0, 10.0)
              "latitude": 3.14, # The latitude in degrees. It must be in the range [-90.0, +90.0].
              "longitude": 3.14, # The longitude in degrees. It must be in the range [-180.0, +180.0].
            },
          ],
          "eventCount": 42, # Number of times the type of event occurred.
              # Meaning depends on context (e.g. profile views, contacts, etc.).
        },
        "contacts": { # Details of the analytics events for a `Company` within a single day. # Instances of users contacting the `Company`
            # on the specified date.
          "eventLocations": [ # Location information of where these events occurred.
            { # An object representing a latitude/longitude pair. This is expressed as a pair
                # of doubles representing degrees latitude and degrees longitude. Unless
                # specified otherwise, this must conform to the
                # <a href="http://www.unoosa.org/pdf/icg/2012/template/WGS_84.pdf">WGS84
                # standard</a>. Values must be within normalized ranges.
                #
                # Example of normalization code in Python:
                #
                #     def NormalizeLongitude(longitude):
                #       """Wraps decimal degrees longitude to [-180.0, 180.0]."""
                #       q, r = divmod(longitude, 360.0)
                #       if r > 180.0 or (r == 180.0 and q <= -1.0):
                #         return r - 360.0
                #       return r
                #
                #     def NormalizeLatLng(latitude, longitude):
                #       """Wraps decimal degrees latitude and longitude to
                #       [-90.0, 90.0] and [-180.0, 180.0], respectively."""
                #       r = latitude % 360.0
                #       if r <= 90.0:
                #         return r, NormalizeLongitude(longitude)
                #       elif r >= 270.0:
                #         return r - 360, NormalizeLongitude(longitude)
                #       else:
                #         return 180 - r, NormalizeLongitude(longitude + 180.0)
                #
                #     assert 180.0 == NormalizeLongitude(180.0)
                #     assert -180.0 == NormalizeLongitude(-180.0)
                #     assert -179.0 == NormalizeLongitude(181.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(360.0, 0.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(-360.0, 0.0)
                #     assert (85.0, 180.0) == NormalizeLatLng(95.0, 0.0)
                #     assert (-85.0, -170.0) == NormalizeLatLng(-95.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(90.0, 10.0)
                #     assert (-90.0, -10.0) == NormalizeLatLng(-90.0, -10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(-180.0, 10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(180.0, 10.0)
                #     assert (-90.0, 10.0) == NormalizeLatLng(270.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(-270.0, 10.0)
              "latitude": 3.14, # The latitude in degrees. It must be in the range [-90.0, +90.0].
              "longitude": 3.14, # The longitude in degrees. It must be in the range [-180.0, +180.0].
            },
          ],
          "eventCount": 42, # Number of times the type of event occurred.
              # Meaning depends on context (e.g. profile views, contacts, etc.).
        },
        "eventDate": { # Represents a whole calendar date, e.g. date of birth. The time of day and # Date on which these events occurred.
            # time zone are either specified elsewhere or are not significant. The date
            # is relative to the Proleptic Gregorian Calendar. The day may be 0 to
            # represent a year and month where the day is not significant, e.g. credit card
            # expiration date. The year may be 0 to represent a month and day independent
            # of year, e.g. anniversary date. Related types are google.type.TimeOfDay
            # and `google.protobuf.Timestamp`.
          "month": 42, # Month of year. Must be from 1 to 12.
          "day": 42, # Day of month. Must be from 1 to 31 and valid for the year and month, or 0
              # if specifying a year/month where the day is not significant.
          "year": 42, # Year of date. Must be from 1 to 9999, or 0 if specifying a date without
              # a year.
        },
        "profileViews": { # Details of the analytics events for a `Company` within a single day. # Instances of users viewing the `Company` profile
            # on the specified date.
          "eventLocations": [ # Location information of where these events occurred.
            { # An object representing a latitude/longitude pair. This is expressed as a pair
                # of doubles representing degrees latitude and degrees longitude. Unless
                # specified otherwise, this must conform to the
                # <a href="http://www.unoosa.org/pdf/icg/2012/template/WGS_84.pdf">WGS84
                # standard</a>. Values must be within normalized ranges.
                #
                # Example of normalization code in Python:
                #
                #     def NormalizeLongitude(longitude):
                #       """Wraps decimal degrees longitude to [-180.0, 180.0]."""
                #       q, r = divmod(longitude, 360.0)
                #       if r > 180.0 or (r == 180.0 and q <= -1.0):
                #         return r - 360.0
                #       return r
                #
                #     def NormalizeLatLng(latitude, longitude):
                #       """Wraps decimal degrees latitude and longitude to
                #       [-90.0, 90.0] and [-180.0, 180.0], respectively."""
                #       r = latitude % 360.0
                #       if r <= 90.0:
                #         return r, NormalizeLongitude(longitude)
                #       elif r >= 270.0:
                #         return r - 360, NormalizeLongitude(longitude)
                #       else:
                #         return 180 - r, NormalizeLongitude(longitude + 180.0)
                #
                #     assert 180.0 == NormalizeLongitude(180.0)
                #     assert -180.0 == NormalizeLongitude(-180.0)
                #     assert -179.0 == NormalizeLongitude(181.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(360.0, 0.0)
                #     assert (0.0, 0.0) == NormalizeLatLng(-360.0, 0.0)
                #     assert (85.0, 180.0) == NormalizeLatLng(95.0, 0.0)
                #     assert (-85.0, -170.0) == NormalizeLatLng(-95.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(90.0, 10.0)
                #     assert (-90.0, -10.0) == NormalizeLatLng(-90.0, -10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(-180.0, 10.0)
                #     assert (0.0, -170.0) == NormalizeLatLng(180.0, 10.0)
                #     assert (-90.0, 10.0) == NormalizeLatLng(270.0, 10.0)
                #     assert (90.0, 10.0) == NormalizeLatLng(-270.0, 10.0)
              "latitude": 3.14, # The latitude in degrees. It must be in the range [-90.0, +90.0].
              "longitude": 3.14, # The longitude in degrees. It must be in the range [-180.0, +180.0].
            },
          ],
          "eventCount": 42, # Number of times the type of event occurred.
              # Meaning depends on context (e.g. profile views, contacts, etc.).
        },
      },
    ],
    "responseMetadata": { # Common data that is in each API response. # Current response metadata.
      "debugInfo": { # Debug information about this request. # Debug information about this request.
        "serverTraceInfo": "A String", # Server-side debug stack trace.
        "serviceUrl": "A String", # URL of the service that handled this request.
        "serverInfo": "A String", # Info about the server that serviced this request.
      },
    },
    "analyticsSummary": { # Analytics aggregated data for a `Company` for a given date range. # Aggregated information across the response's
        # analytics.
      "contactsCount": 42, # Aggregated number of times users contacted the `Company`
          # for given date range.
      "searchViewsCount": 42, # Aggregated number of times users saw the `Company`
          # in Google Partners Search results for given date range.
      "profileViewsCount": 42, # Aggregated number of profile views for the `Company` for given date range.
    },
  }</pre>
</div>

<div class="method">
    <code class="details" id="list_next">list_next(previous_request, previous_response)</code>
  <pre>Retrieves the next page of results.

Args:
  previous_request: The request for the previous page. (required)
  previous_response: The response from the request for the previous page. (required)

Returns:
  A request object that you can call 'execute()' on to request the next
  page. Returns None if there are no more items in the collection.
    </pre>
</div>

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