[Maps] update docs for index pattern -> data view rename (#117400) (#117574)

* [Maps] update docs for index pattern -> data view rename

* Update docs/maps/reverse-geocoding-tutorial.asciidoc

Co-authored-by: gchaps <33642766+gchaps@users.noreply.github.com>

Co-authored-by: gchaps <33642766+gchaps@users.noreply.github.com>
Co-authored-by: Kibana Machine <42973632+kibanamachine@users.noreply.github.com>

Co-authored-by: Nathan Reese <reese.nathan@gmail.com>
Co-authored-by: gchaps <33642766+gchaps@users.noreply.github.com>

docs/maps/asset-tracking-tutorial.asciidoc

@@ -156,16 +156,16 @@ image::maps/images/asset-tracking-tutorial/logstash_output.png[]
 . Leave the terminal window open and Logstash running throughout this tutorial.
 
 [float]
-==== Step 3: Create a {kib} index pattern for the tri_met_tracks {es} index
+==== Step 3: Create a data view for the tri_met_tracks {es} index
 
-. In Kibana, open the main menu, and click *Stack Management > Index Patterns*.
-. Click *Create index pattern*.
-. Give the index pattern a name: *tri_met_tracks**.
+. In {kib}, open the main menu, and click *Stack Management > Data Views*.
+. Click *Create data view*.
+. Give the data view a name: *tri_met_tracks**.
 . Click *Next step*.
 . Set the *Time field* to *time*.
-. Click *Create index pattern*.
+. Click *Create data view*.
 
-{kib} shows the fields in your index pattern.
+{kib} shows the fields in your data view.
 
 [role="screenshot"]
 image::maps/images/asset-tracking-tutorial/index_pattern.png[]
@@ -174,7 +174,7 @@ image::maps/images/asset-tracking-tutorial/index_pattern.png[]
 ==== Step 4: Explore the Portland bus data
 
 . Open the main menu, and click *Discover*.
-. Set the index pattern to *tri_met_tracks**.
+. Set the data view to *tri_met_tracks**.
 . Open the <<set-time-filter, time filter>>, and set the time range to the last 15 minutes.
 . Expand a document and explore some of the fields that you will use later in this tutorial: `bearing`, `in_congestion`, `location`, and `vehicle_id`.
 
@@ -202,7 +202,7 @@ Add a layer to show the bus routes for the last 15 minutes.
 
 . Click *Add layer*.
 . Click *Tracks*.
-. Select the *tri_met_tracks** index pattern.
+. Select the *tri_met_tracks** data view.
 . Define the tracks:
 .. Set *Entity* to *vehicle_id*.
 .. Set *Sort* to *time*.
@@ -225,7 +225,7 @@ image::maps/images/asset-tracking-tutorial/tracks_layer.png[]
 Add a layer that uses attributes in the data to set the style and orientation of the buses. You’ll see the direction buses are headed and what traffic is like.
 
 . Click *Add layer*, and then select *Top Hits per entity*.
-. Select the *tri_met_tracks** index pattern.
+. Select the *tri_met_tracks** data view.
 . To display the most recent location per bus:
 .. Set *Entity* to *vehicle_id*.
 .. Set *Documents per entity* to 1.

docs/maps/geojson-upload.asciidoc

@@ -30,11 +30,11 @@ a preview of the data on the map.
 . Use the default *Index type* of {ref}/geo-point.html[geo_point] for point data,
 or override it and select {ref}/geo-shape.html[geo_shape].
 All other shapes will default to a type of `geo_shape`.
-. Leave the default *Index name* and *Index pattern* names (the name of the uploaded
+. Leave the default *Index name* and *Data view* names (the name of the uploaded
 file minus its extension). You might need to change the index name if it is invalid.
 . Click *Import file*.
 +
-Upon completing the indexing process and creating the associated index pattern,
+Upon completing the indexing process and creating the associated data view,
 the Elasticsearch responses are shown on the *Layer add panel* and the indexed data
 appears on the map. The geospatial data on the map
 should be identical to the locally-previewed data, but now it's indexed data from Elasticsearch.

docs/maps/indexing-geojson-data-tutorial.asciidoc

@@ -58,8 +58,8 @@ auto-populate *Index type* with either {ref}/geo-point.html[geo_point] or
 . Click *Import file*.
 +
 You'll see activity as the GeoJSON Upload utility creates a new index
-and index pattern for the data set. When the process is complete, you should
-receive messages that the creation of the new index and index pattern
+and data view for the data set. When the process is complete, you should
+receive messages that the creation of the new index and data view
 were successful.
 
 . Click *Add layer*.

docs/maps/maps-aggregations.asciidoc

@@ -62,7 +62,7 @@ To enable a grid aggregation layer:
 To enable a blended layer that dynamically shows clusters or documents:
 
 . Click *Add layer*, then select the *Documents* layer.
-. Configure *Index pattern* and the *Geospatial field*.
+. Configure *Data view* and the *Geospatial field*.
 . In *Scaling*, select *Show clusters when results exceed 10000*.
 
 
@@ -77,7 +77,7 @@ then accumulates the most relevant documents based on sort order for each entry
 To enable top hits:
 
 . Click *Add layer*, then select the *Top hits per entity* layer.
-. Configure *Index pattern* and *Geospatial field*.
+. Configure *Data view* and *Geospatial field*.
 . Set *Entity* to the field that identifies entities in your documents.
 This field will be used in the terms aggregation to group your documents into entity buckets.
 . Set *Documents per entity* to configure the maximum number of documents accumulated per entity.

docs/maps/maps-getting-started.asciidoc

@@ -49,7 +49,7 @@ and lighter shades will symbolize countries with less traffic.
 . From the **Layer** dropdown menu, select **World Countries**.
 
 . In **Statistics source**, set:
-** **Index pattern** to **kibana_sample_data_logs**
+** **Data view** to **kibana_sample_data_logs**
 ** **Join field** to **geo.dest**
 
 . Click **Add layer**.
@@ -95,7 +95,7 @@ The layer is only visible when users zoom in.
 
 . Click **Add layer**, and then click **Documents**.
 
-. Set **Index pattern** to **kibana_sample_data_logs**.
+. Set **Data view** to **kibana_sample_data_logs**.
 
 . Set **Scaling** to *Limits results to 10000.*
 
@@ -129,7 +129,7 @@ more total bytes transferred, and smaller circles will symbolize
 grids with less bytes transferred.
 
 . Click **Add layer**, and select **Clusters and grids**.
-. Set **Index pattern** to **kibana_sample_data_logs**.
+. Set **Data view** to **kibana_sample_data_logs**.
 . Click **Add layer**.
 . In **Layer settings**, set:
 ** **Name** to `Total Requests and Bytes`

docs/maps/reverse-geocoding-tutorial.asciidoc

@@ -141,7 +141,7 @@ PUT kibana_sample_data_logs/_settings
 ----------------------------------
 
 . Open the main menu, and click *Discover*.
-. Set the index pattern to *kibana_sample_data_logs*.
+. Set the data view to *kibana_sample_data_logs*.
 . Open the <<set-time-filter, time filter>>, and set the time range to the last 30 days.
 . Scan through the list of *Available fields* until you find the `csa.GEOID` field. You can also search for the field by name.
 . Click image:images/reverse-geocoding-tutorial/add-icon.png[Add icon] to toggle the field into the document table.
@@ -162,10 +162,10 @@ Now that our web traffic contains CSA region identifiers, you'll visualize CSA r
 . Click *Choropleth*.
 . For *Boundaries source*: 
 .. Select *Points, lines, and polygons from Elasticsearch*.
-.. Set *Index pattern* to *csa*.
+.. Set *Data view* to *csa*.
 .. Set *Join field* to *GEOID*.
 . For *Statistics source*:
-.. Set *Index pattern* to *kibana_sample_data_logs*.
+.. Set *Data view* to *kibana_sample_data_logs*.
 .. Set *Join field* to *csa.GEOID.keyword*.
 . Click *Add layer*.
 . Scroll to *Layer Style* and Set *Label* to *Fixed*.

docs/maps/trouble-shooting.asciidoc

@@ -21,18 +21,18 @@ image::maps/images/inspector.png[]
 === Solutions to common problems
 
 [float]
-==== Index not listed when adding layer
+==== Data view not listed when adding layer
 
 * Verify your geospatial data is correctly mapped as {ref}/geo-point.html[geo_point] or {ref}/geo-shape.html[geo_shape].
-  ** Run `GET myIndexPatternTitle/_field_caps?fields=myGeoFieldName` in <<console-kibana, Console>>, replacing `myIndexPatternTitle` and `myGeoFieldName` with your index pattern title and geospatial field name.
+  ** Run `GET myIndexName/_field_caps?fields=myGeoFieldName` in <<console-kibana, Console>>, replacing `myIndexName` and `myGeoFieldName` with your index and geospatial field name.
   ** Ensure response specifies `type` as `geo_point` or `geo_shape`.
-* Verify your geospatial data is correctly mapped in your <<managing-fields,index pattern>>.
-  ** Open your index pattern in <<management, Stack Management>>.
+* Verify your geospatial data is correctly mapped in your <<managing-fields, data view>>.
+  ** Open your data view in <<management, Stack Management>>.
   ** Ensure your geospatial field type is `geo_point` or `geo_shape`.
   ** Ensure your geospatial field is searchable and aggregatable.
   ** If your geospatial field type does not match your Elasticsearch mapping, click the *Refresh* button to refresh the field list from Elasticsearch.
-* Index patterns with thousands of fields can exceed the default maximum payload size.
-Increase <<settings, `server.maxPayload`>> for large index patterns.
+* Data views with thousands of fields can exceed the default maximum payload size.
+Increase <<settings, `server.maxPayload`>> for large data views.
 
 [float]
 ==== Features are not displayed

docs/maps/vector-tooltips.asciidoc

@@ -18,7 +18,7 @@ image::maps/images/multifeature_tooltip.png[]
 ==== Format tooltips
 
 You can format the attributes in a tooltip by adding <<managing-fields, field formatters>> to your
-index pattern. You can use field formatters to round numbers, provide units,
+data view. You can use field formatters to round numbers, provide units,
 and even display images in your tooltip.
 
 [float]