Go language provides inbuilt support for basic constants and mathematical functions to perform operations on the numbers with the help of the math package. This package provides Float32bits() function which returns the IEEE 754 binary representation of a with the sign bit of a and the result in the same bit position. So, you need to add a math package in your program with the help of the import keyword to access Float32bits() function
Syntax:
func Float32bits(a float32) uint32
Example 1:
// Golang program to illustrate how to // find IEEE 754 binary representation package main import ( "fmt"
"math"
) // Main function func main() { // Finding IEEE 754 binary
// representation of the
// given numbers
// Using Float32bits() function
res_1 := math.Float32bits(-2)
res_2 := math.Float32bits(1)
res_3 := math.Float32bits(0)
res_4 := math.Float32bits(2.3)
// Displaying the result
fmt.Println( "Result 1: " , res_1)
fmt.Println( "Result 2: " , res_2)
fmt.Println( "Result 3: " , res_3)
fmt.Println( "Result 4: " , res_4)
} |
Output:
Result 1: 3221225472 Result 2: 1065353216 Result 3: 0 Result 4: 1075000115
Example 2:
// Golang program to illustrate how to // find IEEE 754 binary representation package main import ( "fmt"
"math"
) // Main function func main() { // Finding IEEE 754 binary
// representation of the
// given numbers
// Using Float32bits() function
nvalue_1 := math.Float32bits(3)
nvalue_2 := math.Float32bits(5)
// Sum of the given values
res := nvalue_1 + nvalue_2
fmt.Printf( "%d + %d = %d" ,
nvalue_1, nvalue_2, res)
} |
Output:
1077936128 + 1084227584 = 2162163712
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