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ee.FeatureCollection.flatten
Organiza tus páginas con colecciones
Guarda y categoriza el contenido según tus preferencias.
Aplana colecciones de colecciones.
| Uso | Muestra |
|---|
FeatureCollection.flatten() | FeatureCollection |
| Argumento | Tipo | Detalles |
|---|
esta: collection | FeatureCollection | Es la colección de entrada de colecciones. |
Ejemplos
Editor de código (JavaScript)
// Counties in New Mexico, USA.
var counties = ee.FeatureCollection('TIGER/2018/Counties')
.filter('STATEFP == "35"');
// Monthly climate and climatic water balance surfaces for January 2020.
var climate = ee.ImageCollection('IDAHO_EPSCOR/TERRACLIMATE')
.filterDate('2020-01', '2020-02');
// Calculate mean climate variables for each county per climate surface
// time step. The result is a FeatureCollection of FeatureCollections.
var countiesClimate = climate.map(function(image) {
return image.reduceRegions({
collection: counties,
reducer: ee.Reducer.mean(),
scale: 5000,
crs: 'EPSG:4326'
});
});
// Note that a printed FeatureCollection of FeatureCollections is not
// recursively expanded, you cannot view metadata of the features within the
// nested collections until you isolate a single collection or flatten the
// collections.
print('FeatureCollection of FeatureCollections', countiesClimate);
print('Flattened FeatureCollection of FeatureCollections',
countiesClimate.flatten());
Configuración de Python
Consulta la página
Entorno de Python para obtener información sobre la API de Python y el uso de geemap para el desarrollo interactivo.
import ee
import geemap.core as geemap
Colab (Python)
# Counties in New Mexico, USA.
counties = ee.FeatureCollection('TIGER/2018/Counties').filter('STATEFP == "35"')
# Monthly climate and climatic water balance surfaces for January 2020.
climate = ee.ImageCollection('IDAHO_EPSCOR/TERRACLIMATE').filterDate(
'2020-01', '2020-02')
# Calculate mean climate variables for each county per climate surface
# time step. The result is a FeatureCollection of FeatureCollections.
def reduce_mean(image):
return image.reduceRegions(**{
'collection': counties,
'reducer': ee.Reducer.mean(),
'scale': 5000,
'crs': 'EPSG:4326'
})
counties_climate = climate.map(reduce_mean)
# Note that a printed FeatureCollection of FeatureCollections is not
# recursively expanded, you cannot view metadata of the features within the
# nested collections until you isolate a single collection or flatten the
# collections.
print('FeatureCollection of FeatureCollections:', counties_climate.getInfo())
print('Flattened FeatureCollection of FeatureCollections:',
counties_climate.flatten().getInfo())
Salvo que se indique lo contrario, el contenido de esta página está sujeto a la licencia Atribución 4.0 de Creative Commons, y los ejemplos de código están sujetos a la licencia Apache 2.0. Para obtener más información, consulta las políticas del sitio de Google Developers. Java es una marca registrada de Oracle o sus afiliados.
Última actualización: 2025-07-26 (UTC)
[null,null,["Última actualización: 2025-07-26 (UTC)"],[],["The `flatten()` method transforms a nested `FeatureCollection` of `FeatureCollections` into a single, flat `FeatureCollection`. It takes a `FeatureCollection` as input and returns a flattened `FeatureCollection`. This allows for the metadata of features within the nested collections to be viewed, which is not possible with unflattened collections. An example demonstrates calculating mean climate variables for counties per climate surface timestep and then flattening the resulting nested collection.\n"]]
