Would I ever get an incorrect result if I promote 2 floats to double and do a 64bit comparison rather than a 32bit comparison?
Yes, if the difference between them is beyond the precision of the float type.
For example, say you have the two double values:
and that the precision of a float was only four decimal digits. That would mean that the two
The double values are not equal however.
However, if you're talking about floats being cast to doubles, then identical floats should give you identical doubles.
As long as you are not mixing promoted floats and natively calculated doubles in your comparison you should be ok, but take care:
Comparing floats (or doubles) for equality is difficult - see this lengthy but excellent discussion.
Here are some highlights:
The article concludes:
So, to answer your question:
A couple of practical considerations (since this sounds like it's for an assignment):
I don't understand why you're doing this at all. The
I'm perhaps not answering the OP's question but rather responding to some more or less fuzzy advice which require clarifications.
Comparing two floating point values for equality is absolutely possible and can be done. If the type is single or double precision is often of less importance.
Having said that the steps leading up to the comparison itself require great care and a thorough understanding of floating-point dos and don'ts, whys and why nots.
Consider the following C statements:
In most naive floating-point programming they are seen as "equivalent" i e producing the "same" result. In the real world of floating-point they may be. Or actually, the first two are equivalent (as the second follows C evaluation rules, i e operators of same priority left to right). The third may or may not be equivalent to the first twp.
Why is this?
"a * b / c" or "b / c * a" may cause the "inexact" exception i e an intermediate or the final result (or both) is (are) not exact(ly representable in floating point format). If this is the case the results will be more or less subtly different. This may or may not lead to the end results being amenable to an equality comparison. Being aware of this and single-stepping through operations one at a time - noting intermediate results - will allow the patient programmer to "beat the system" i e construct a quality floating-point comparison for practically any situation.
For everyone else, passing over the equality comparison for floating-poiny numbers is good, solid advice.
It's really a bit ironic because most programmers know that integer math results in predictable truncations in various situations. When it comes to floating-point almost everyone is more or less thunderstruck that results are not exact. Go figure.
You should be okay to make that cast as long as the equality test involves a delta.
Edit in response to the question change
No you would not. The above still stands.
For the comparison between float f and double d, you can calculate the difference of f and d. If abs(f-d) is less than some threshold, you can think of the equality holds. These threshold could be either absolute or relative as your application requirement. There are some good solutions Here. And I hope it helpful.