We have a **TCP/IP socket** software including a **Java client** and **C++ server**. The data across the socket contains numbers, **int, float**, and **char array**. The precision of these floats are **four digits** after the point. Recently, we started to use either **char array** to represent float in data structure/protocol or **int** to represent float (float to int by time 10000 and then divide 10000 on receiver side) because of the precision.

I was told it is difficulty to keep the precision if we use float inside the data structure/protocol directly. The sender is hard to put exactly float into the socket and the receiver is hard to receive/convert back to the exact float number.

I am not convinced. By reading the Wiki again. It seems the single-precision float can provide 6-9 precision:

This gives from 6 to 9 significant decimal digits precision (if a decimal string with at most 6 significant decimal is converted to IEEE 754 single precision and then converted back to the same number of significant decimal, then the final string should match the original; and if an IEEE 754 single precision is converted to a decimal string with at least 9 significant decimal and then converted back to single, then the final number must match the original [3]).

What's the good practice to transfer float across the internet if the required precision is 4 or 6? How about more than that? Double!?. How banks handle bigger floating point numbers?

sumof the number of digitsbefore(left of) andafter(right of) the decimal point, so if you actually need 4 digits after the decimal point, worst case you'll only be able to encode numbers up to 99.xxxx using single precision floats ... – fvu May 21 '13 at 16:20`float`

s on the wire. – John Dibling May 21 '13 at 16:29