Welcome to the Harris Geospatial product documentation center. Here you will find reference guides, help documents, and product libraries.

Harris Geospatial / Docs Center / Using IDL / Conditionally Altering Array Elements


Conditionally Altering Array Elements

Conditionally Altering Array Elements

The WHERE function can be used to select array elements that meet certain conditions. For example, the statement:

data[WHERE(data LT 0, /NULL)] = -1

sets all negative elements of data to -1 without changing the positive elements. The result of the function, WHERE(data LT 0), is a vector composed of the subscripts of the negative elements of data. Using this vector as a subscript changes only the negative elements.

Tip: The NULL keyword forces the WHERE function to return !NULL if there are no matches. Since the use of !NULL as a subscript is quietly ignored, this allows the above line of code to execute successfully regardless of whether there are any values that meet the condition. For example, any values that are less than zero will be set to -1. If there are no values less than zero, then the data values will remain unchanged and execution continues.

Similarly, the WHERE function can be used to select elements of an array using expressions similar to A[WHERE(A GT 0)], which results in a vector composed only of the elements of A that are greater than 0.

The following statements create and display a 5x5 identity matrix, which consists of ones along a diagonal, and zeros everywhere else:

A = FLTARR(5, 5)
A[INDGEN(5) * 6] = 1

The following statement sets elements of A with values of zero or less to -1:

A[WHERE(A LE 0, /NULL)] = -1

In this example, assume that the vector data contains data elements and that a data drop-out is denoted by a negative value. In addition, assume that there are never two or more adjacent drop-outs. The following statements replace all drop-outs with the average of the two adjacent good points:

; Subscript vector of drop-outs.
bad = WHERE(data LT 0, /NULL)
; Replace drop-outs with average of previous and next point.
if (bad NE !NULL) data[bad] = (data[bad - 1] + data[bad + 1]) / 2

In this example, the following actions are performed:

  • We use the LT (less than) operator to create an array, with the same dimensions as data, that contains a 1 for every element of data that is less than zero and a zero for every element of data that is zero or greater. We use this “drop-out array” as a parameter for the WHERE function, which generates a vector that contains the one-dimensional subscripts of the elements of the drop-out array that are nonzero. The resulting vector, stored in the variable bad, contains the subscripts of the elements of data that are less than zero.
  • The expression data[bad - 1] is a vector that contains the subscripts of the points immediately preceding the drop-outs; while similarly, the expression
    data[bad + 1] is a vector containing the subscripts of the points immediately after the drop-outs.
  • The average of these two vectors is stored in data[bad], the points that originally contained drop-outs.
  • The NULL keyword guarantees that !NULL is returned if there are no matches, and we check for this value before attempting to compute the average.

© 2017 Exelis Visual Information Solutions, Inc. |  Legal
My Account    |    Buy    |    Contact Us