Les bandes de sortie correspondent exactement aux bandes d'entrée, sauf que les données non couvertes par la géométrie sont masquées. L'image de sortie conserve les métadonnées de l'image d'entrée.
Utilisez clipToCollection pour découper une image selon une FeatureCollection.
Renvoie l'image rognée.
| Utilisation | Renvoie |
|---|---|
Image.clip(geometry) | Image |
| Argument | Type | Détails |
|---|---|---|
ceci : image | Image | Instance Image. |
geometry | Feature|Geometry|Object | Géométrie ou entité à laquelle effectuer le clipping. |
Exemples
Éditeur de code (JavaScript)
// A digital elevation model. var dem = ee.Image('NASA/NASADEM_HGT/001'); var demVis = {bands: 'elevation', min: 0, max: 1500}; // Clip the DEM by a polygon geometry. var geomPoly = ee.Geometry.BBox(-121.55, 39.01, -120.57, 39.38); var demClip = dem.clip(geomPoly); print('Clipped image retains metadata and band names', demClip); Map.setCenter(-121.12, 38.13, 8); Map.addLayer(demClip, demVis, 'Polygon clip'); Map.addLayer(geomPoly, {color: 'green'}, 'Polygon geometry', false); // Clip the DEM by a line geometry. var geomLine = ee.Geometry.LinearRing( [[-121.19, 38.10], [-120.53, 38.54], [-120.22, 37.83], [-121.19, 38.10]]); Map.addLayer(dem.clip(geomLine), demVis, 'Line clip'); Map.addLayer(geomLine, {color: 'orange'}, 'Line geometry', false); // Images have geometry; clip the dem image by the geometry of an S2 image. var s2Img = ee.Image('COPERNICUS/S2_SR/20210109T185751_20210109T185931_T10SEG'); var geomS2Img = s2Img.geometry(); Map.addLayer(dem.clip(geomS2Img), demVis, 'Image geometry clip'); Map.addLayer(geomS2Img, {color: 'blue'}, 'Image geometry', false); // Don't use ee.Image.clip prior to ee.Image.regionReduction, the "geometry" // parameter handles it more efficiently. var zonalMax = dem.select('elevation').reduceRegion({ reducer: ee.Reducer.max(), geometry: geomPoly }); print('Max elevation (m)', zonalMax.get('elevation')); // Don't use ee.Image.clip to clip an image by a FeatureCollection, use // ee.Image.clipToCollection(collection). var watersheds = ee.FeatureCollection('USGS/WBD/2017/HUC10') .filterBounds(ee.Geometry.Point(-122.754, 38.606).buffer(2e4)); Map.addLayer(dem.clipToCollection(watersheds), demVis, 'Watersheds clip'); Map.addLayer(watersheds, {color: 'red'}, 'Watersheds', false);
import ee import geemap.core as geemap
Colab (Python)
# A digital elevation model. dem = ee.Image('NASA/NASADEM_HGT/001') dem_vis = {'bands': 'elevation', 'min': 0, 'max': 1500} # Clip the DEM by a polygon geometry. geom_poly = ee.Geometry.BBox(-121.55, 39.01, -120.57, 39.38) dem_clip = dem.clip(geom_poly) display('Clipped image retains metadata and band names', dem_clip) m = geemap.Map() m.set_center(-121.12, 38.13, 8) m.add_layer(dem_clip, dem_vis, 'Polygon clip') m.add_layer(geom_poly, {'color': 'green'}, 'Polygon geometry', False) # Clip the DEM by a line geometry. geom_line = ee.Geometry.LinearRing( [[-121.19, 38.10], [-120.53, 38.54], [-120.22, 37.83], [-121.19, 38.10]] ) m.add_layer(dem.clip(geom_line), dem_vis, 'Line clip') m.add_layer(geom_line, {'color': 'orange'}, 'Line geometry', False) # Images have geometry clip the dem image by the geometry of an S2 image. s_2_img = ee.Image('COPERNICUS/S2_SR/20210109T185751_20210109T185931_T10SEG') geom_s_2_img = s_2_img.geometry() m.add_layer(dem.clip(geom_s_2_img), dem_vis, 'Image geometry clip') m.add_layer(geom_s_2_img, {'color': 'blue'}, 'Image geometry', False) # Don't use ee.Image.clip prior to ee.Image.regionReduction, the "geometry" # parameter handles it more efficiently. zonal_max = dem.select('elevation').reduceRegion( reducer=ee.Reducer.max(), geometry=geom_poly ) display('Max elevation (m)', zonal_max.get('elevation')) # Don't use ee.Image.clip to clip an image by a FeatureCollection, use # ee.Image.clipToCollection(collection). watersheds = ee.FeatureCollection('USGS/WBD/2017/HUC10').filterBounds( ee.Geometry.Point(-122.754, 38.606).buffer(2e4) ) m.add_layer(dem.clipToCollection(watersheds), dem_vis, 'Watersheds clip') m.add_layer(watersheds, {'color': 'red'}, 'Watersheds', False) m