- Java.util Package Classes
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- Java.util Package Extras
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- Java.util - Discussion
Java Arrays binarySearch() Method
Description
The Java Arrays binarySearch(float[] a, float key) method searches the specified array of floats for the specified value using the binary search algorithm.The array must be sorted before making this call. If it is not sorted, the results are undefined.
Declaration
Following is the declaration for java.util.Arrays.binarySearch(float[] a, float key) method
public static int binarySearch(float[] a, float key)
Parameters
a − This is the array to be searched.
key − This is the value to be searched for.
Return Value
This method returns index of the search key, if it is contained in the array, else it returns (-(insertion point) - 1). The insertion point is the point at which the key would be inserted into the array: the index of the first element greater than the key, or a.length if all elements in the array are less than the specified key.
Exception
NA
Java Arrays binarySearch(float[] a, int fromIndex, int toIndex, float key) Method
Description
The Java Arrays binarySearch(float[] a, int fromIndex, int toIndex, float key) method searches a range of the specified array of floats for the specified value using the binary search algorithm. The range must be sorted before making this call.If it is not sorted, the results are undefined.
Declaration
Following is the declaration for java.util.Arrays.binarySearch(float[] a, int fromIndex, int toIndex, float key) method
public static int binarySearch(float[] a, int fromIndex, int toIndex, float key)
Parameters
a − This is the array to be searched.
fromIndex − This is the index of the first element (inclusive) to be searched.
toIndex − This is the index of the last element (exclusive) to be searched.
key − This is the value to be searched for.
Return Value
This method returns index of the search key, if it is contained in the array, else it returns (-(insertion point) - 1). The insertion point is the point at which the key would be inserted into the array; the index of the first element in the range greater than the key, or toIndex if all elements in the range are less than the specified key.
Exception
IllegalArgumentException − if fromIndex > toIndex
ArrayIndexOutOfBoundsException − if fromIndex < 0 or toIndex > a.length
Performing Binary Search on float Array Example
The following example shows the usage of Java Arrays binarySearch(float[], key) method. First, we've created an array of floats, sorted and printed them. Then binary search is performed on a value and result is printed.
package com.tutorialspoint;
import java.util.Arrays;
public class ArrayDemo {
public static void main(String[] args) {
// initializing unsorted float array
float floatArr[] = {10.0f, 20.0f, 15.0f, 22.0f ,35.0f};
// sorting array
Arrays.sort(floatArr);
// let us print all the elements available in list
System.out.println("The sorted float array is:");
for (float number : floatArr) {
System.out.println("Number = " + number);
}
// entering the value to be searched
float searchVal = 35.0f;
int retVal = Arrays.binarySearch(floatArr,searchVal);
System.out.println("The index of element 35.0 is : " + retVal);
}
}
Output
Let us compile and run the above program, this will produce the following result −
The sorted float array is: Number = 10.0 Number = 15.0 Number = 20.0 Number = 22.0 Number = 35.0 The index of element 35.0 is : 4
Performing Binary Search on float Sub Array Example
The following example shows the usage of Java Arrays binarySearch(float[], fromIndex, toIndex, key) method. First, we've created an array of floats, sorted and printed them. Then binary search is performed on a value on sub array and result is printed.
package com.tutorialspoint;
import java.util.Arrays;
public class ArrayDemo {
public static void main(String[] args) {
// initializing unsorted float array
float floatArr[] = {10.0f, 20.0f, 15.0f, 22.0f ,35.0f};
// sorting array
Arrays.sort(floatArr);
// let us print all the elements available in list
System.out.println("The sorted float array is:");
for (float number : floatArr) {
System.out.println("Number = " + number);
}
// entering the value to be searched
float searchVal = 35.0f;
// entering the range of index
int retVal = Arrays.binarySearch(floatArr,2,5,searchVal);
System.out.println("The index of element 35.0 is : " + retVal);
}
}
Output
Let us compile and run the above program, this will produce the following result −
The sorted float array is: Number = 10.0 Number = 15.0 Number = 20.0 Number = 22.0 Number = 35.0 The index of element 35.0 is : 4
Performing Binary Search on float Array for a Non-Existent Value Example
The following example shows the usage of Java Arrays binarySearch(float[], key) method. First, we've created an array of floats, sorted and printed them. Then binary search is performed on a value which is not present in the array and result is printed .
package com.tutorialspoint;
import java.util.Arrays;
public class ArrayDemo {
public static void main(String[] args) {
// initializing unsorted float array
float floatArr[] = {10.0f, 20.0f, 15.0f, 22.0f ,35.0f};
// sorting array
Arrays.sort(floatArr);
// let us print all the elements available in list
System.out.println("The sorted float array is:");
for (float number : floatArr) {
System.out.println("Number = " + number);
}
// entering the value to be searched
float searchVal = 38.0f;
int retVal = Arrays.binarySearch(floatArr,searchVal);
System.out.println("The index of element 38.0 is : " + retVal);
}
}
Output
Let us compile and run the above program, this will produce the following result −
The sorted float array is: Number = 10.0 Number = 15.0 Number = 20.0 Number = 22.0 Number = 35.0 The index of element 38.0 is : -6