| Nutzung | Ausgabe |
|---|---|
Image.arrayAccum(axis, reducer) | Bild |
| Argument | Typ | Details |
|---|---|---|
So gehts: input | Bild | Eingabebild. |
axis | Ganzzahl | Achse, entlang der die kumulative Summe berechnet werden soll. |
reducer | Reducer, Standard: null | Reducer zum Akkumulieren von Werten. Der Standardwert ist SUM. Damit wird die kumulative Summe der einzelnen Vektoren entlang der angegebenen Achse berechnet. |
Beispiele
Code-Editor (JavaScript)
// A function to print the array for a selected pixel in the following examples. function sampArrImg(arrImg) { var point = ee.Geometry.Point([-121, 42]); return arrImg.sample(point, 500).first().get('array'); } // Create a 1D array image. var arrayImg1D = ee.Image([1, 2, 3]).toArray(); print('1D array image (pixel)', sampArrImg(arrayImg1D)); // [1, 2, 3] // Perform accumulation procedures along axes using ee.Reducer functions. // Here we calculate the cumulative sum along the 0-axis for a 1D array. var accumSum1DAx0 = arrayImg1D.arrayAccum(0, ee.Reducer.sum()); print('Cumulative sum along 0-axis', sampArrImg(accumSum1DAx0)); // [1, 3, 6] // Create a 2D 3x3 array image. var arrayImg2D = ee.Image([1, 2, 3, 4, 5, 6, 7, 8, 9]).toArray() .arrayReshape(ee.Image([3, 3]).toArray(), 2); print('2D 3x3 array image (pixel)', sampArrImg(arrayImg2D)); // [[1, 2, 3], // [4, 5, 6], // [7, 8, 9]] // Calculate the cumulative sum along the 0-axis for a 2D array. var accumSum2DAx0 = arrayImg2D.arrayAccum(0, ee.Reducer.sum()); print('Cumulative sum along 0-axis', sampArrImg(accumSum2DAx0)); // [[ 1, 2, 3], // [ 5, 7, 9], // [12, 15, 18]] // Calculate the cumulative sum along the 1-axis for a 2D array. var accumSum2DAx1 = arrayImg2D.arrayAccum(1, ee.Reducer.sum()); print('Cumulative sum along 1-axis', sampArrImg(accumSum2DAx1)); // [[1, 3, 6], // [4, 9, 15], // [7, 15, 24]]
import ee import geemap.core as geemap
Colab (Python)
# A function to print the array for a selected pixel in the following examples. def samp_arr_img(arr_img): point = ee.Geometry.Point([-121, 42]) return arr_img.sample(point, 500).first().get('array') # Create a 1D array image. array_img_1d = ee.Image([1, 2, 3]).toArray() print('1D array image (pixel):', samp_arr_img(array_img_1d).getInfo()) # [1, 2, 3] # Perform accumulation procedures along axes using ee.Reducer functions. # Here we calculate the cumulative sum along the 0-axis for a 1D array. accum_sum_1d_ax0 = array_img_1d.arrayAccum(0, ee.Reducer.sum()) print('Cumulative sum along 0-axis:', samp_arr_img(accum_sum_1d_ax0).getInfo()) # [1, 3, 6] # Create a 2D 3x3 array image. array_img_2d = ee.Image([1, 2, 3, 4, 5, 6, 7, 8, 9]).toArray().arrayReshape( ee.Image([3, 3]).toArray(), 2) print('2D 3x3 array image (pixel):', samp_arr_img(array_img_2d).getInfo()) # [[1, 2, 3], # [4, 5, 6], # [7, 8, 9]] # Calculate the cumulative sum along the 0-axis for a 2D array. accum_sum_2d_ax0 = array_img_2d.arrayAccum(0, ee.Reducer.sum()) print('Cumulative sum along 0-axis:', samp_arr_img(accum_sum_2d_ax0).getInfo()) # [[ 1, 2, 3], # [ 5, 7, 9], # [12, 15, 18]] # Calculate the cumulative sum along the 1-axis for a 2D array. accum_sum_2d_ax1 = array_img_2d.arrayAccum(1, ee.Reducer.sum()) print('Cumulative sum along 1-axis:', samp_arr_img(accum_sum_2d_ax1).getInfo()) # [[1, 3, 6], # [4, 9, 15], # [7, 15, 24]]