# Discovery Functions If you are using the [discovery methods](https://carto.com/docs/carto-engine/data/overview/#discovery-methods) from the Data Observatory, use the following functions to retrieve [boundary](https://carto.com/docs/carto-engine/data/overview/#boundary-data) and [measures](https://carto.com/docs/carto-engine/data/overview/#measures-data) data. ## OBS_Search(search_term) Use arbitrary text to search all available measures #### Arguments Name | Description --- | --- search_term | a string to search for available measures boundary_id | a string identifier for a boundary geometry (optional) #### Returns A TABLE containing the following properties Key | Description --- | --- id | the unique id of the measure for use with the ```OBS_GetMeasure``` function name | the human readable name of the measure description | a brief description of the measure aggregate | **sum** are raw count values, **median** are statistical medians, **average** are statistical averages, **undefined** other (e.g. an index value) source | where the data came from (e.g. US Census Bureau) #### Example ```SQL SELECT * FROM OBS_Search('home value') ``` ## OBS_GetAvailableBoundaries(point_geometry) Returns available `boundary_id`s at a given point geometry. #### Arguments Name | Description --- | --- point_geometry | a WGS84 point geometry (e.g. the_geom) #### Returns A TABLE containing the following properties Key | Description --- | --- boundary_id | a boundary identifier from the [Boundary ID Glossary](https://carto.com/docs/carto-engine/data/glossary/#boundary-ids) description | a brief description of the boundary dataset time_span | the timespan attached the boundary. this does not mean that the boundary is invalid outside of the timespan, but is the explicit timespan published with the geometry. #### Example ```SQL SELECT * FROM OBS_GetAvailableBoundaries(CDB_LatLng(40.7, -73.9)) ``` ## OBS_GetAvailableNumerators(bounds, filter_tags, denom_id, geom_id, timespan) Return available numerators within a boundary and with the specified `filter_tags`. #### Arguments Name | Type | Description --- | --- | --- bounds | Geometry(Geometry, 4326) | a geometry which some of the numerator's data must intersect with filter_tags | Text[] | a list of filters. Only numerators for which all of these apply are returned `NULL` to ignore (optional) denom_id | Text | the ID of a denominator to check whether the numerator is valid against. Will not reduce length of returned table, but will change values for `valid_denom` (optional) geom_id | Text | the ID of a geometry to check whether the numerator is valid against. Will not reduce length of returned table, but will change values for `valid_geom` (optional) timespan | Text | the ID of a timespan to check whether the numerator is valid against. Will not reduce length of returned table, but will change values for `valid_timespan` (optional) #### Returns A TABLE containing the following properties Key | Type | Description --- | ---- | ----------- numer_id | Text | The ID of the numerator numer_name | Text | A human readable name for the numerator numer_description | Text | Description of the numerator. Is sometimes NULL numer_weight | Numeric | Numeric "weight" of the numerator. Ignored. numer_license | Text | ID of the license for the numerator numer_source | Text | ID of the source for the numerator numer_type | Text | Postgres type of the numerator numer_aggregate | Text | Aggregate type of the numerator. If `'SUM'`, this can be normalized by area numer_extra | JSONB | Extra information about the numerator column. Ignored. numer_tags | Text[] | Array of all tags applying to this numerator valid_denom | Boolean | True if the `denom_id` argument is a valid denominator for this numerator, False otherwise valid_geom | Boolean | True if the `geom_id` argument is a valid geometry for this numerator, False otherwise valid_timespan | Boolean | True if the `timespan` argument is a valid timespan for this numerator, False otherwise #### Examples Obtain all numerators that are available within a small rectangle. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326)) ``` Obtain all numerators that are available within a small rectangle and are for the United States only. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), '{section/tags.united_states}'); ``` Obtain all numerators that are available within a small rectangle and are employment related for the United States only. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), '{section/tags.united_states, subsection/tags.employment}'); ``` Obtain all numerators that are available within a small rectangle and are related to both employment and age & gender for the United States only. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), '{section/tags.united_states, subsection/tags.employment, subsection/tags.age_gender}'); ``` Obtain all numerators that work with US population (`us.census.acs.B01003001`) as a denominator. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, 'us.census.acs.B01003001') WHERE valid_denom IS True; ``` Obtain all numerators that work with US states (`us.census.tiger.state`) as a geometry. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, 'us.census.tiger.state') WHERE valid_geom IS True; ``` Obtain all numerators available in the timespan `2011 - 2015`. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableNumerators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, NULL, '2011 - 2015') WHERE valid_timespan IS True; ``` ## OBS_GetAvailableDenominators(bounds, filter_tags, numer_id, geom_id, timespan) Return available denominators within a boundary and with the specified `filter_tags`. #### Arguments Name | Type | Description --- | --- | --- bounds | Geometry(Geometry, 4326) | a geometry which some of the denominator's data must intersect with filter_tags | Text[] | a list of filters. Only denominators for which all of these apply are returned `NULL` to ignore (optional) numer_id | Text | the ID of a numerator to check whether the denominator is valid against. Will not reduce length of returned table, but will change values for `valid_numer` (optional) geom_id | Text | the ID of a geometry to check whether the denominator is valid against. Will not reduce length of returned table, but will change values for `valid_geom` (optional) timespan | Text | the ID of a timespan to check whether the denominator is valid against. Will not reduce length of returned table, but will change values for `valid_timespan` (optional) #### Returns A TABLE containing the following properties Key | Type | Description --- | ---- | ----------- denom_id | Text | The ID of the denominator denom_name | Text | A human readable name for the denominator denom_description | Text | Description of the denominator. Is sometimes NULL denom_weight | Numeric | Numeric "weight" of the denominator. Ignored. denom_license | Text | ID of the license for the denominator denom_source | Text | ID of the source for the denominator denom_type | Text | Postgres type of the denominator denom_aggregate | Text | Aggregate type of the denominator. If `'SUM'`, this can be normalized by area denom_extra | JSONB | Extra information about the denominator column. Ignored. denom_tags | Text[] | Array of all tags applying to this denominator valid_numer | Boolean | True if the `numer_id` argument is a valid numerator for this denominator, False otherwise valid_geom | Boolean | True if the `geom_id` argument is a valid geometry for this denominator, False otherwise valid_timespan | Boolean | True if the `timespan` argument is a valid timespan for this denominator, False otherwise #### Examples Obtain all denominators that are available within a small rectangle. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableDenominators( ST_MakeEnvelope(-74, 41, -73, 40, 4326)); ``` Obtain all denominators that are available within a small rectangle and are for the United States only. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableDenominators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), '{section/tags.united_states}'); ``` Obtain all denominators for male population (`us.census.acs.B01001002`). ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableDenominators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, 'us.census.acs.B01001002') WHERE valid_numer IS True; ``` Obtain all denominators that work with US states (`us.census.tiger.state`) as a geometry. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableDenominators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, 'us.census.tiger.state') WHERE valid_geom IS True; ``` Obtain all denominators available in the timespan `2011 - 2015`. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableDenominators( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, NULL, '2011 - 2015') WHERE valid_timespan IS True; ``` ## OBS_GetAvailableGeometries(bounds, filter_tags, numer_id, denom_id, timespan) Return available geometries within a boundary and with the specified `filter_tags`. #### Arguments Name | Type | Description --- | --- | --- bounds | Geometry(Geometry, 4326) | a geometry which must intersect the geometry filter_tags | Text[] | a list of filters. Only geometries for which all of these apply are returned `NULL` to ignore (optional) numer_id | Text | the ID of a numerator to check whether the geometry is valid against. Will not reduce length of returned table, but will change values for `valid_numer` (optional) denom_id | Text | the ID of a denominator to check whether the geometry is valid against. Will not reduce length of returned table, but will change values for `valid_denom` (optional) timespan | Text | the ID of a timespan to check whether the geometry is valid against. Will not reduce length of returned table, but will change values for `valid_timespan` (optional) #### Returns A TABLE containing the following properties Key | Type | Description --- | ---- | ----------- geom_id | Text | The ID of the geometry geom_name | Text | A human readable name for the geometry geom_description | Text | Description of the geometry. Is sometimes NULL geom_weight | Numeric | Numeric "weight" of the geometry. Ignored. geom_aggregate | Text | Aggregate type of the geometry. Ignored. geom_license | Text | ID of the license for the geometry geom_source | Text | ID of the source for the geometry geom_type | Text | Postgres type of the geometry geom_extra | JSONB | Extra information about the geometry column. Ignored. geom_tags | Text[] | Array of all tags applying to this geometry valid_numer | Boolean | True if the `numer_id` argument is a valid numerator for this geometry, False otherwise valid_denom | Boolean | True if the `geom_id` argument is a valid geometry for this geometry, False otherwise valid_timespan | Boolean | True if the `timespan` argument is a valid timespan for this geometry, False otherwise score | Numeric | Score between 0 and 100 for this geometry, higher numbers mean that this geometry is a better choice for the passed extent numtiles | Numeric | How many raster tiles were read for score, numgeoms, and percentfill estimates numgeoms | Numeric | About how many of these geometries fit inside the passed extent percentfill | Numeric | About what percentage of the passed extent is filled with these geometries estnumgeoms | Numeric | Ignored meanmediansize | Numeric | Ignored #### Examples Obtain all geometries that are available within a small rectangle. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableGeometries( ST_MakeEnvelope(-74, 41, -73, 40, 4326)); ``` Obtain all geometries that are available within a small rectangle and are for the United States only. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableGeometries( ST_MakeEnvelope(-74, 41, -73, 40, 4326), '{section/tags.united_states}'); ``` Obtain all geometries that work with total population (`us.census.acs.B01003001`). ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableGeometries( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, 'us.census.acs.B01003001') WHERE valid_numer IS True; ``` Obtain all geometries with timespan `2015`. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableGeometries( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, NULL, '2015') WHERE valid_timespan IS True; ``` ## OBS_GetAvailableTimespans(bounds, filter_tags, numer_id, denom_id, geom_id) Return available timespans within a boundary and with the specified `filter_tags`. #### Arguments Name | Type | Description --- | --- | --- bounds | Geometry(Geometry, 4326) | a geometry which some of the timespan's data must intersect with filter_tags | Text[] | a list of filters. Ignore numer_id | Text | the ID of a numerator to check whether the timespans is valid against. Will not reduce length of returned table, but will change values for `valid_numer` (optional) denom_id | Text | the ID of a denominator to check whether the timespans is valid against. Will not reduce length of returned table, but will change values for `valid_denom` (optional) geom_id | Text | the ID of a geometry to check whether the timespans is valid against. Will not reduce length of returned table, but will change values for `valid_geom` (optional) #### Returns A TABLE containing the following properties Key | Type | Description --- | ---- | ----------- timespan_id | Text | The ID of the timespan timespan_name | Text | A human readable name for the timespan timespan_description | Text | Ignored timespan_weight | Numeric | Ignored timespan_aggregate | Text | Ignored timespan_license | Text | Ignored timespan_source | Text | Ignored timespan_type | Text | Ignored timespan_extra | JSONB | Ignored timespan_tags | JSONB | Ignored valid_numer | Boolean | True if the `numer_id` argument is a valid numerator for this timespan, False otherwise valid_denom | Boolean | True if the `timespan` argument is a valid timespan for this timespan, False otherwise valid_geom | Boolean | True if the `geom_id` argument is a valid geometry for this timespan, False otherwise #### Examples Obtain all timespans that are available within a small rectangle. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableTimespans( ST_MakeEnvelope(-74, 41, -73, 40, 4326)); ``` Obtain all timespans for total population (`us.census.acs.B01003001`). ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableTimespans( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, 'us.census.acs.B01003001') WHERE valid_numer IS True; ``` Obtain all timespans that work with US states (`us.census.tiger.state`) as a geometry. ```SQL SELECT * FROM cdb_observatory.OBS_GetAvailableTimespans( ST_MakeEnvelope(-74, 41, -73, 40, 4326), NULL, NULL, NULL, 'us.census.tiger.state') WHERE valid_geom IS True; ```