ee.List.iterate
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Einen Algorithmus für eine Liste durchlaufen. Der Algorithmus soll zwei Objekte entgegennehmen: das aktuelle Listenelement und das Ergebnis der vorherigen Iteration oder den Wert von „first“ für die erste Iteration.
| Nutzung | Ausgabe |
|---|
List.iterate(function, first) | Objekt |
| Argument | Typ | Details |
|---|
So gehts: list | Liste | |
function | Algorithmus | |
first | Objekt | |
Beispiele
Code-Editor (JavaScript)
// This example uses the ee.List.iterate function to generate a series of
// sequentially halved values.
// Declare a list that will hold the series of sequentially halved values,
// initialize it with the starting quantity.
var quantityList = [1000];
// Define the number of iterations as a list sequence.
var nSteps = ee.List.sequence(1, 10);
// Declare a function that takes the current element of the iteration list and
// the returned result of the previous iteration as inputs. In this case, the
// the function is returning an accumulating list of quantities that are reduced
// by half at each iteration.
var halfOfPrevious = function(currentElement, previousResult) {
var previousQuantity = ee.Number(ee.List(previousResult).get(-1));
var currentQuantity = previousQuantity.divide(2);
return ee.List(previousResult).add(currentQuantity);
};
// Apply the function to the nSteps list, each element is an iteration.
quantityList = ee.List(nSteps.iterate(halfOfPrevious, quantityList));
// Display the results. Note that step 0 is included for the initial value.
print('Steps in the iteration of halved quantities', nSteps);
print('Series of sequentially halved quantities', quantityList);
print(ui.Chart.array.values({
array: quantityList,
axis: 0,
xLabels: ee.List([0]).cat(nSteps)
}));
Python einrichten
Informationen zur Python API und zur Verwendung von geemap für die interaktive Entwicklung finden Sie auf der Seite
Python-Umgebung.
import ee
import geemap.core as geemap
Colab (Python)
import matplotlib.pyplot as plt
# This example uses the ee.List.iterate function to generate a series of
# sequentially halved values.
# Declare a list that will hold the series of sequentially halved values,
# initialize it with the starting quantity.
quantity_list = [1000]
# Define the number of iterations as a list sequence.
n_steps = ee.List.sequence(1, 10)
# Declare a function that takes the current element of the iteration list and
# the returned result of the previous iteration as inputs. In this case, the
# the function is returning an accumulating list of quantities that are reduced
# by half at each iteration.
def half_of_previous(current_element, previous_result):
previous_quantity = ee.Number(ee.List(previous_result).get(-1))
current_quantity = previous_quantity.divide(2)
return ee.List(previous_result).add(current_quantity)
# Apply the function to the n_steps list, each element is an iteration.
quantity_list = ee.List(n_steps.iterate(half_of_previous, quantity_list))
# Display the results.
display('Steps in the iteration of halved quantities', n_steps)
display('Series of sequentially halved quantities', quantity_list)
quantity_list_client = quantity_list.getInfo()
plt.scatter(range(len(quantity_list_client)), quantity_list_client)
plt.show()
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Zuletzt aktualisiert: 2025-07-26 (UTC).
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