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ee.Number.expression
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Calcola un'espressione numerica.
| Utilizzo | Resi |
|---|
ee.Number.expression(expression, vars) | Numero |
| Argomento | Tipo | Dettagli |
|---|
expression | Stringa | Una stringa di espressione matematica da valutare. Oltre agli operatori aritmetici, booleani e relazionali standard, le espressioni supportano anche qualsiasi funzione in Number, l'operatore "." per estrarre gli elementi secondari dal dizionario "vars" e le costanti matematiche Math.PI e Math.E. |
vars | Dizionario, valore predefinito: null | Un dizionario di valori denominati che possono essere utilizzati nell'espressione. |
Esempi
Editor di codice (JavaScript)
// A dictionary of variables to use in expression.
var variables = {x: 5, y: 10};
// Arithmetic operators.
print('x + y',
ee.Number.expression('x + y', variables));
print('x - y',
ee.Number.expression('x - y', variables));
print('x * y',
ee.Number.expression('x * y', variables));
print('x / y',
ee.Number.expression('x / y', variables));
print('x ** y',
ee.Number.expression('x ** y', variables));
print('x % y',
ee.Number.expression('x % y', variables));
// Logical operators.
print('x || y',
ee.Number.expression('x || y', variables));
print('x && y',
ee.Number.expression('x && y', variables));
print('!(x)',
ee.Number.expression('!(x)', variables));
// Relational operators.
print('x > y',
ee.Number.expression('x > y', variables));
print('x >= y',
ee.Number.expression('x >= y', variables));
print('x < y',
ee.Number.expression('x < y', variables));
print('x <= y',
ee.Number.expression('x <= y', variables));
print('x == y',
ee.Number.expression('x == y', variables));
print('x != y',
ee.Number.expression('x != y', variables));
// Conditional (ternary) operator.
print('(x < y) ? 100 : 1000)',
ee.Number.expression('(x < y) ? 100 : 1000', variables));
// Constants in the expression.
print('100 * (x + y)',
ee.Number.expression('100 * (x + y)', variables));
// JavaScript Math constants.
print('Math.PI',
ee.Number.expression('Math.PI', null));
print('Math.E',
ee.Number.expression('Math.E', null));
// Dot notation to call on child elements.
print('Use dot notation to call on child elements',
ee.Number.expression('vals.x * vals.y', {vals: variables}));
// ee.Number functions.
print('Use ee.Number add: add(x, y)',
ee.Number.expression('add(x, y)', variables));
print('Use ee.Number add and subtract: subtract(add(x, y), 5)',
ee.Number.expression('subtract(add(x, y), 5)', variables));
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)
# A dictionary of variables to use in expression.
variables = {'x': 5, 'y': 10}
# Arithmetic operators.
print('x + y:',
ee.Number.expression('x + y', variables).getInfo())
print('x - y:',
ee.Number.expression('x - y', variables).getInfo())
print('x * y:',
ee.Number.expression('x * y', variables).getInfo())
print('x / y:',
ee.Number.expression('x / y', variables).getInfo())
print('x ** y:',
ee.Number.expression('x ** y', variables).getInfo())
print('x % y:',
ee.Number.expression('x % y', variables).getInfo())
# Logical operators.
print('x || y:',
ee.Number.expression('x || y', variables).getInfo())
print('x && y:',
ee.Number.expression('x && y', variables).getInfo())
print('!(x):',
ee.Number.expression('!(x)', variables).getInfo())
# Relational operators.
print('x > y:',
ee.Number.expression('x > y', variables).getInfo())
print('x >= y:',
ee.Number.expression('x >= y', variables).getInfo())
print('x < y:',
ee.Number.expression('x < y', variables).getInfo())
print('x <= y:',
ee.Number.expression('x <= y', variables).getInfo())
print('x == y:',
ee.Number.expression('x == y', variables).getInfo())
print('x != y:',
ee.Number.expression('x != y', variables).getInfo())
# Conditional JavaScript (ternary) operator.
print('(x < y) ? 100 : 1000):',
ee.Number.expression('(x < y) ? 100 : 1000', variables).getInfo())
# Constants in the expression.
print('100 * (x + y):',
ee.Number.expression('100 * (x + y)', variables).getInfo())
# JavaScript Math constants.
print('Math.PI:',
ee.Number.expression('Math.PI', None).getInfo())
print('Math.E:',
ee.Number.expression('Math.E', None).getInfo())
# Dot notation to call on child elements.
print('Use dot notation to call on child elements:',
ee.Number.expression('vals.x * vals.y', {'vals': variables}).getInfo())
# ee.Number functions.
print('Use ee.Number add. add(x, y):',
ee.Number.expression('add(x, y)', variables).getInfo())
print('Use ee.Number add and subtract. subtract(add(x, y), 5):',
ee.Number.expression('subtract(add(x, y), 5)', variables).getInfo())
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 2025-07-29 UTC.
[null,null,["Ultimo aggiornamento 2025-07-29 UTC."],[[["\u003cp\u003e\u003ccode\u003eee.Number.expression\u003c/code\u003e computes a numeric expression provided as a string.\u003c/p\u003e\n"],["\u003cp\u003eIt supports standard arithmetic, boolean, relational operators, as well as \u003ccode\u003eee.Number\u003c/code\u003e functions, and mathematical constants.\u003c/p\u003e\n"],["\u003cp\u003eA dictionary of variables can be passed to the function to be used within the expression.\u003c/p\u003e\n"],["\u003cp\u003eDot notation can be utilized within the expression to access child elements of variables provided in the dictionary.\u003c/p\u003e\n"]]],["`ee.Number.expression` evaluates a mathematical expression string. It accepts an `expression` string and an optional `vars` dictionary containing named values. The expression supports arithmetic, boolean, and relational operators, as well as functions found in `ee.Number` and constants like `Math.PI` and `Math.E`. Dot notation accesses nested dictionary elements. The function returns a numerical result, allowing complex computations. Examples include adding, subtracting, multiplying, applying logical operations, and conditional logic.\n"],null,["# ee.Number.expression\n\nComputes a numeric expression.\n\n\u003cbr /\u003e\n\n| Usage | Returns |\n|----------------------------------------------|---------|\n| `ee.Number.expression(expression, `*vars*`)` | Number |\n\n| Argument | Type | Details |\n|--------------|---------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `expression` | String | A mathematical expression string to be evaluated. In addition to the standard arithmetic, boolean and relational operators, expressions also support any function in Number, the '.' operator to extract child elements from the 'vars' dictionary, and mathematical constants Math.PI and Math.E. |\n| `vars` | Dictionary, default: null | A dictionary of named values that can be used in the expression. |\n\nExamples\n--------\n\n### Code Editor (JavaScript)\n\n```javascript\n// A dictionary of variables to use in expression.\nvar variables = {x: 5, y: 10};\n\n// Arithmetic operators.\nprint('x + y',\n ee.Number.expression('x + y', variables));\nprint('x - y',\n ee.Number.expression('x - y', variables));\nprint('x * y',\n ee.Number.expression('x * y', variables));\nprint('x / y',\n ee.Number.expression('x / y', variables));\nprint('x ** y',\n ee.Number.expression('x ** y', variables));\nprint('x % y',\n ee.Number.expression('x % y', variables));\n\n// Logical operators.\nprint('x || y',\n ee.Number.expression('x || y', variables));\nprint('x && y',\n ee.Number.expression('x && y', variables));\nprint('!(x)',\n ee.Number.expression('!(x)', variables));\n\n// Relational operators.\nprint('x \u003e y',\n ee.Number.expression('x \u003e y', variables));\nprint('x \u003e= y',\n ee.Number.expression('x \u003e= y', variables));\nprint('x \u003c y',\n ee.Number.expression('x \u003c y', variables));\nprint('x \u003c= y',\n ee.Number.expression('x \u003c= y', variables));\nprint('x == y',\n ee.Number.expression('x == y', variables));\nprint('x != y',\n ee.Number.expression('x != y', variables));\n\n// Conditional (ternary) operator.\nprint('(x \u003c y) ? 100 : 1000)',\n ee.Number.expression('(x \u003c y) ? 100 : 1000', variables));\n\n// Constants in the expression.\nprint('100 * (x + y)',\n ee.Number.expression('100 * (x + y)', variables));\n\n// JavaScript Math constants.\nprint('Math.PI',\n ee.Number.expression('Math.PI', null));\nprint('Math.E',\n ee.Number.expression('Math.E', null));\n\n// Dot notation to call on child elements.\nprint('Use dot notation to call on child elements',\n ee.Number.expression('vals.x * vals.y', {vals: variables}));\n\n// ee.Number functions.\nprint('Use ee.Number add: add(x, y)',\n ee.Number.expression('add(x, y)', variables));\nprint('Use ee.Number add and subtract: subtract(add(x, y), 5)',\n ee.Number.expression('subtract(add(x, y), 5)', variables));\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# A dictionary of variables to use in expression.\nvariables = {'x': 5, 'y': 10}\n\n# Arithmetic operators.\nprint('x + y:',\n ee.Number.expression('x + y', variables).getInfo())\nprint('x - y:',\n ee.Number.expression('x - y', variables).getInfo())\nprint('x * y:',\n ee.Number.expression('x * y', variables).getInfo())\nprint('x / y:',\n ee.Number.expression('x / y', variables).getInfo())\nprint('x ** y:',\n ee.Number.expression('x ** y', variables).getInfo())\nprint('x % y:',\n ee.Number.expression('x % y', variables).getInfo())\n\n# Logical operators.\nprint('x || y:',\n ee.Number.expression('x || y', variables).getInfo())\nprint('x && y:',\n ee.Number.expression('x && y', variables).getInfo())\nprint('!(x):',\n ee.Number.expression('!(x)', variables).getInfo())\n\n# Relational operators.\nprint('x \u003e y:',\n ee.Number.expression('x \u003e y', variables).getInfo())\nprint('x \u003e= y:',\n ee.Number.expression('x \u003e= y', variables).getInfo())\nprint('x \u003c y:',\n ee.Number.expression('x \u003c y', variables).getInfo())\nprint('x \u003c= y:',\n ee.Number.expression('x \u003c= y', variables).getInfo())\nprint('x == y:',\n ee.Number.expression('x == y', variables).getInfo())\nprint('x != y:',\n ee.Number.expression('x != y', variables).getInfo())\n\n# Conditional JavaScript (ternary) operator.\nprint('(x \u003c y) ? 100 : 1000):',\n ee.Number.expression('(x \u003c y) ? 100 : 1000', variables).getInfo())\n\n# Constants in the expression.\nprint('100 * (x + y):',\n ee.Number.expression('100 * (x + y)', variables).getInfo())\n\n# JavaScript Math constants.\nprint('Math.PI:',\n ee.Number.expression('Math.PI', None).getInfo())\nprint('Math.E:',\n ee.Number.expression('Math.E', None).getInfo())\n\n# Dot notation to call on child elements.\nprint('Use dot notation to call on child elements:',\n ee.Number.expression('vals.x * vals.y', {'vals': variables}).getInfo())\n\n# ee.Number functions.\nprint('Use ee.Number add. add(x, y):',\n ee.Number.expression('add(x, y)', variables).getInfo())\nprint('Use ee.Number add and subtract. subtract(add(x, y), 5):',\n ee.Number.expression('subtract(add(x, y), 5)', variables).getInfo())\n```"]]
