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ee.Projection
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Restituisce una proiezione con il sistema di coordinate di base e la trasformazione specificati tra le coordinate proiettate e la base. Se non viene specificata alcuna trasformazione, viene utilizzata la trasformazione identità.
| Utilizzo | Resi |
|---|
ee.Projection(crs, transform, transformWkt) | Projection |
| Argomento | Tipo | Dettagli |
|---|
crs | Oggetto | Il sistema di riferimento delle coordinate di base di questa proiezione, indicato come codice di autorità noto (ad es. "EPSG:4326") o una stringa WKT. |
transform | Elenco, valore predefinito: null | La trasformazione tra le coordinate proiettate e il sistema di coordinate di base, specificata come matrice di trasformazione affine 2x3 in ordine di riga: [xScale, xShearing, xTranslation, yShearing, yScale, yTranslation]. Non è possibile specificare sia questa proprietà che "transformWkt". |
transformWkt | Stringa, valore predefinito: null | La trasformazione tra le coordinate proiettate e il sistema di coordinate di base, specificata come stringa WKT. Non è possibile specificare sia questa proprietà che "transform". |
Esempi
Editor di codice (JavaScript)
// Construct projections.
// Printing the projection will show the EPSG code if it is a direct match.
//
// e.g. You will see this for the string 'EPSG:3857'
// type: Projection
// crs: EPSG:3857
// transform: [1,0,0,0,1,0]
print(ee.Projection('EPSG:3857')); // https://epsg.io/3857
print(ee.Projection('EPSG:4326')); // https://epsg.io/4326
// WKT projection description for https://epsg.io/27572
var proj = ee.Projection(
'PROJCS["NTF (Paris) / Lambert zone II", ' +
' GEOGCS["NTF (Paris)", ' +
' DATUM["Nouvelle Triangulation Francaise (Paris)", ' +
' SPHEROID["Clarke 1880 (IGN)", 6378249.2, 293.4660212936269,'+
' AUTHORITY["EPSG","7011"]], ' +
' AUTHORITY["EPSG","6807"]], ' +
' PRIMEM["Paris", 2.5969213, AUTHORITY["EPSG","8903"]], ' +
' UNIT["grade", 0.015707963267948967], ' +
' AXIS["Geodetic longitude", EAST], ' +
' AXIS["Geodetic latitude", NORTH], ' +
' AUTHORITY["EPSG","4807"]], ' +
' PROJECTION["Lambert_Conformal_Conic_1SP", AUTHORITY["EPSG","9801"]], ' +
' PARAMETER["central_meridian", 0.0], ' +
' PARAMETER["latitude_of_origin", 52.0], ' +
' PARAMETER["scale_factor", 0.99987742], ' +
' PARAMETER["false_easting", 600000.0], ' +
' PARAMETER["false_northing", 2200000.0], ' +
' UNIT["m", 1.0], ' +
' AXIS["Easting", EAST], ' +
' AXIS["Northing", NORTH], ' +
' AUTHORITY["EPSG","27572"]]');
print(proj); // crs: EPSG:27572
Configurazione di Python
Consulta la pagina
Ambiente Python per informazioni sull'API Python e sull'utilizzo di
geemap per lo sviluppo interattivo.
import ee
import geemap.core as geemap
Colab (Python)
# Construct projections.
# Printing the projection will show the EPSG code if it is a direct match.
#
# e.g. You will see this for the string 'EPSG:3857'
# type: Projection
# crs: EPSG:3857
# transform: [1,0,0,0,1,0]
print(ee.Projection('EPSG:3857').getInfo()) # https://epsg.io/3857
print(ee.Projection('EPSG:4326').getInfo()) # https://epsg.io/4326
# WKT projection description for https://epsg.io/27572
proj = ee.Projection(
'PROJCS["NTF (Paris) / Lambert zone II", ' +
' GEOGCS["NTF (Paris)", ' +
' DATUM["Nouvelle Triangulation Francaise (Paris)", ' +
' SPHEROID["Clarke 1880 (IGN)", 6378249.2, 293.4660212936269,'+
' AUTHORITY["EPSG","7011"]], ' +
' AUTHORITY["EPSG","6807"]], ' +
' PRIMEM["Paris", 2.5969213, AUTHORITY["EPSG","8903"]], ' +
' UNIT["grade", 0.015707963267948967], ' +
' AXIS["Geodetic longitude", EAST], ' +
' AXIS["Geodetic latitude", NORTH], ' +
' AUTHORITY["EPSG","4807"]], ' +
' PROJECTION["Lambert_Conformal_Conic_1SP", AUTHORITY["EPSG","9801"]], ' +
' PARAMETER["central_meridian", 0.0], ' +
' PARAMETER["latitude_of_origin", 52.0], ' +
' PARAMETER["scale_factor", 0.99987742], ' +
' PARAMETER["false_easting", 600000.0], ' +
' PARAMETER["false_northing", 2200000.0], ' +
' UNIT["m", 1.0], ' +
' AXIS["Easting", EAST], ' +
' AXIS["Northing", NORTH], ' +
' AUTHORITY["EPSG","27572"]]')
print(proj.getInfo()) # crs: EPSG:27572
Salvo quando diversamente specificato, i contenuti di questa pagina sono concessi in base alla licenza Creative Commons Attribution 4.0, mentre gli esempi di codice sono concessi in base alla licenza Apache 2.0. Per ulteriori dettagli, consulta le norme del sito di Google Developers. Java è un marchio registrato di Oracle e/o delle sue consociate.
Ultimo aggiornamento 2025-07-26 UTC.
[null,null,["Ultimo aggiornamento 2025-07-26 UTC."],[[["\u003cp\u003e\u003ccode\u003eee.Projection\u003c/code\u003e returns a Projection object with a defined base coordinate system and an optional transform.\u003c/p\u003e\n"],["\u003cp\u003eThe base coordinate system (\u003ccode\u003ecrs\u003c/code\u003e) can be specified using an authority code (e.g., 'EPSG:4326') or a WKT string.\u003c/p\u003e\n"],["\u003cp\u003eThe transform between projected and base coordinates can be defined by a 2x3 affine transform matrix (\u003ccode\u003etransform\u003c/code\u003e) or a WKT string (\u003ccode\u003etransformWkt\u003c/code\u003e).\u003c/p\u003e\n"],["\u003cp\u003eIf no transform is provided, the identity transform is used, implying a direct mapping between projected and base coordinates.\u003c/p\u003e\n"]]],[],null,["# ee.Projection\n\nReturns a Projection with the given base coordinate system and the given transform between projected coordinates and the base. If no transform is specified, the identity transform is assumed.\n\n\u003cbr /\u003e\n\n| Usage | Returns |\n|--------------------------------------------------------|------------|\n| `ee.Projection(crs, `*transform* `, `*transformWkt*`)` | Projection |\n\n| Argument | Type | Details |\n|----------------|-----------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `crs` | Object | The base coordinate reference system of this Projection, given as a well-known authority code (e.g., 'EPSG:4326') or a WKT string. |\n| `transform` | List, default: null | The transform between projected coordinates and the base coordinate system, specified as a 2x3 affine transform matrix in row-major order: \\[xScale, xShearing, xTranslation, yShearing, yScale, yTranslation\\]. May not specify both this and 'transformWkt'. |\n| `transformWkt` | String, default: null | The transform between projected coordinates and the base coordinate system, specified as a WKT string. May not specify both this and 'transform'. |\n\nExamples\n--------\n\n### Code Editor (JavaScript)\n\n```javascript\n// Construct projections.\n// Printing the projection will show the EPSG code if it is a direct match.\n//\n// e.g. You will see this for the string 'EPSG:3857'\n// type: Projection\n// crs: EPSG:3857\n// transform: [1,0,0,0,1,0]\n\nprint(ee.Projection('EPSG:3857')); // https://epsg.io/3857\nprint(ee.Projection('EPSG:4326')); // https://epsg.io/4326\n\n// WKT projection description for https://epsg.io/27572\nvar proj = ee.Projection(\n 'PROJCS[\"NTF (Paris) / Lambert zone II\", ' +\n ' GEOGCS[\"NTF (Paris)\", ' +\n ' DATUM[\"Nouvelle Triangulation Francaise (Paris)\", ' +\n ' SPHEROID[\"Clarke 1880 (IGN)\", 6378249.2, 293.4660212936269,'+\n ' AUTHORITY[\"EPSG\",\"7011\"]], ' +\n ' AUTHORITY[\"EPSG\",\"6807\"]], ' +\n ' PRIMEM[\"Paris\", 2.5969213, AUTHORITY[\"EPSG\",\"8903\"]], ' +\n ' UNIT[\"grade\", 0.015707963267948967], ' +\n ' AXIS[\"Geodetic longitude\", EAST], ' +\n ' AXIS[\"Geodetic latitude\", NORTH], ' +\n ' AUTHORITY[\"EPSG\",\"4807\"]], ' +\n ' PROJECTION[\"Lambert_Conformal_Conic_1SP\", AUTHORITY[\"EPSG\",\"9801\"]], ' +\n ' PARAMETER[\"central_meridian\", 0.0], ' +\n ' PARAMETER[\"latitude_of_origin\", 52.0], ' +\n ' PARAMETER[\"scale_factor\", 0.99987742], ' +\n ' PARAMETER[\"false_easting\", 600000.0], ' +\n ' PARAMETER[\"false_northing\", 2200000.0], ' +\n ' UNIT[\"m\", 1.0], ' +\n ' AXIS[\"Easting\", EAST], ' +\n ' AXIS[\"Northing\", NORTH], ' +\n ' AUTHORITY[\"EPSG\",\"27572\"]]');\nprint(proj); // crs: EPSG:27572\n```\nPython setup\n\nSee the [Python Environment](/earth-engine/guides/python_install) page for information on the Python API and using\n`geemap` for interactive development. \n\n```python\nimport ee\nimport geemap.core as geemap\n```\n\n### Colab (Python)\n\n```python\n# Construct projections.\n# Printing the projection will show the EPSG code if it is a direct match.\n#\n# e.g. You will see this for the string 'EPSG:3857'\n# type: Projection\n# crs: EPSG:3857\n# transform: [1,0,0,0,1,0]\n\nprint(ee.Projection('EPSG:3857').getInfo()) # https://epsg.io/3857\nprint(ee.Projection('EPSG:4326').getInfo()) # https://epsg.io/4326\n\n# WKT projection description for https://epsg.io/27572\nproj = ee.Projection(\n 'PROJCS[\"NTF (Paris) / Lambert zone II\", ' +\n ' GEOGCS[\"NTF (Paris)\", ' +\n ' DATUM[\"Nouvelle Triangulation Francaise (Paris)\", ' +\n ' SPHEROID[\"Clarke 1880 (IGN)\", 6378249.2, 293.4660212936269,'+\n ' AUTHORITY[\"EPSG\",\"7011\"]], ' +\n ' AUTHORITY[\"EPSG\",\"6807\"]], ' +\n ' PRIMEM[\"Paris\", 2.5969213, AUTHORITY[\"EPSG\",\"8903\"]], ' +\n ' UNIT[\"grade\", 0.015707963267948967], ' +\n ' AXIS[\"Geodetic longitude\", EAST], ' +\n ' AXIS[\"Geodetic latitude\", NORTH], ' +\n ' AUTHORITY[\"EPSG\",\"4807\"]], ' +\n ' PROJECTION[\"Lambert_Conformal_Conic_1SP\", AUTHORITY[\"EPSG\",\"9801\"]], ' +\n ' PARAMETER[\"central_meridian\", 0.0], ' +\n ' PARAMETER[\"latitude_of_origin\", 52.0], ' +\n ' PARAMETER[\"scale_factor\", 0.99987742], ' +\n ' PARAMETER[\"false_easting\", 600000.0], ' +\n ' PARAMETER[\"false_northing\", 2200000.0], ' +\n ' UNIT[\"m\", 1.0], ' +\n ' AXIS[\"Easting\", EAST], ' +\n ' AXIS[\"Northing\", NORTH], ' +\n ' AUTHORITY[\"EPSG\",\"27572\"]]')\nprint(proj.getInfo()) # crs: EPSG:27572\n```"]]
