# Is it dangerous converting from float to BigDecimal then back?

I'm in the process of making a program that generates test vectors to be used in a VHDL testbench. The testbench essentially tests a piece of hardware that acts as a single precision floating point adder, so the vectors are gonna conform to the IEEE 754 standard.

Anyway, my current plan for generation is to convert float values to `BigDecimal`, do the necessary arithmatic, then convert back to float. Is this dangerous? Will precision be lost resulting in a potentially inaccurate result in the test vector? I want to convert to `BigDecimal`, so I can avoid rounding issues.

So would this truncate the result?

``````BigDecimal repA = new BigDecimal(Float.toString(A));
BigDecimal repB = new BigDecimal(Float.toString(B));
float result = repResult.floatValue();
``````

Where A and B are some float.

• You'll definitely loose some precision since a float cannot represent all possible fractional numbers. – anubhava Mar 31 '12 at 18:07
• Is there a way that I could accomplish this by not loosing any precision? – Franklin Mar 31 '12 at 18:10
• How accurate do you think you need it to be? – Dave Newton Mar 31 '12 at 18:11
• I guess that's pretty relative. I'd like 100% accuracy if possible. – Franklin Mar 31 '12 at 18:16
• What you're asking for is impossible — some floating-point additions will inherently run into "rounding issues" (e.g, adding a very small number to a much larger one); part of testing the correctness of an adder will be to ensure that it rounds in a compliant fashion. – duskwuff -inactive- Mar 31 '12 at 18:27

• Would I want do the calculation, then check if the fractional part of `BigDecimal` after the calculation fits within 23 bits? If it doesn't, truncate it and convert? – Franklin Apr 5 '12 at 12:47