I realize a decimal number can only be so precise stored as a float in a binary system but what I don't understand is what is happening at the 7 decimal place in my output of 10/7.
In my first output test I noticed that the 5 (7th place) at the end of the float v the 4 (7th place) followed by a 2 in the double. I would think the 7th place in the float would be a 4 since the 8th place in the double is a 2.
Float 1.4285715 Double 1.4285714285714286
I then ran the next output test using the float format to 17 places. The 8th place in each is different - the float is a 6 which is why the 7th place is rounded to 5 I assume.
Float 1.428571462631225600 Double 1.428571428571428600
In the third output test I tried a direct cast with the string format to see what would happen. I got the same results as the second test.
If I have a simplistic question to a complex floating point storage method - I do apologize.
float f = 10/7f; double d = 10/7d; System.out.format ("Float %1s\nDouble %2s\n", f,d); /* * Float 1.4285715 Double 1.4285714285714286 */ System.out.format ("Float %1$.17f\nDouble %2$.17f\n", f,d); /* * Float 1.428571462631225600 Double 1.428571428571428600 */ System.out.format ("Float %1s\nDouble %2s\n", (double)f,d); /* * Float 1.4285714626312256 Double 1.4285714285714286 */