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I am seeing something odd with storing doubles in a dictionary, and am confused as to why.

Here's the code:

            Dictionary<string, double> a = new Dictionary<string, double>();
            a.Add("a", 1e-3);

            if (1.0 < a["a"] * 1e3)
                Console.WriteLine("Wrong");

            if (1.0 < 1e-3 * 1e3)
                Console.WriteLine("Wrong");

The second if statement works as expected; 1.0 is not less than 1.0. Now, the first if statement evaluates as true. The very odd thing is that when I hover over the if, the intellisense tells me false, yet the code happily moves to the Console.WriteLine.

This is for C# 3.5 in Visual Studio 2008.

Is this a floating point accuracy problem? Then why does the second if statement work? I feel I am missing something very fundamental here.

Any insight is appreciated.

Edit2 (Re-purposing question a little bit):

I can accept the math precision problem, but my question now is: why does the hover over evaluate properly? This is also true of the intermediate window. I paste the code from the first if statement into the intermediate window and it evaluates false.

Update

First of all, thanks very much for all the great answers.

I am also having problems recreating this in another project on the same machine. Looking at the project settings, I see no differences. Looking at the IL between the projects, I see no differences. Looking at the disassembly, I see no apparent differences (besides memory addresses). Yet when I debug the original project, I see: screenshot of problem

The immediate window tells me the if is false, yet the code falls into the conditional.

At any rate, the best answer, I think, is to prepare for floating point arithmetic in these situations. The reason I couldn't let this go has more to do with the debugger's calculations differing from the runtime. So thanks very much to Brian Gideon and stephentyrone for some very insightful comments.

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Is "1e3" a float constant or a double constant? –  John Saunders Sep 10 '09 at 14:42
    
If you can accept the math precision problem, why are you still asking? The problem is that 1e-3 can't be represented accurately, and thus 1e3*1e-3 isn't 1.0, it's something close, but not quite, which means it fails. –  Lasse V. Karlsen Sep 10 '09 at 14:45
    
"1e3" is getting compiled as a double because I see the ldc.r8 instruction in my IL output. –  Brian Gideon Sep 10 '09 at 14:51
    
@Lasse: I accept why this is going on during runtime; I am wondering why my debugger (the hover-over and intermediate window) are giving me different answers than the runtime. –  Richard Morgan Sep 10 '09 at 16:09
    
@John: When I hover over the 1e3, it says it's a double. –  Richard Morgan Sep 10 '09 at 16:11

4 Answers 4

up vote 13 down vote accepted

It is floating precision problem.

Second statement works because the compiler counts the expression 1e-3 * 1e3 before emitting the .exe.

Look it up in ILDasm/Reflector, it will emit something like

 if (1.0 < 1.0)
                Console.WriteLine("Wrong");
share|improve this answer
    
Strange. The second statement gets completely optimized out by the compiler for me. I am not convinced yet that this is a floating point precision issue anyway. See my answer. –  Brian Gideon Sep 10 '09 at 14:47
    
+1. Agreed I can't reproduce the problem no "Wrongs" are written to the console. –  AnthonyWJones Sep 10 '09 at 15:26
    
VS even indicates that the content of the second if is unreachable. –  AnthonyWJones Sep 10 '09 at 15:28

The problem here is quite subtle. The C# compiler doesn't (always) emit code that does the computation in double, even when that's the type that you've specified. In particular, it emits code that does the computation in "extended" precision using x87 instructions, without rounding intermediate results to double.

Depending on whether 1e-3 is evaluated as a double or long double, and whether the multiplication is computed in double or long double, it is possible to get any of the following three results:

  • (long double)1e-3 * 1e3 computed in long double is 1.0 - epsilon
  • (double)1e-3 * 1e3 computed in double is exactly 1.0
  • (double)1e-3 * 1e3 computed in long double is 1.0 + epsilon

Clearly, the first comparison, the one that is failing to meet your expectations is being evaluated in the manner described in the third scenario I listed. 1e-3 is being rounded to double either because you are storing it and loading it again, which forces the rounding, or because C# recognizes 1e-3 as a double-precision literal and treats it that way. The multiplication is being evaluated in long double because C# has a brain-dead numerics model that's the way the compiler is generating the code.

The multiplication in the second comparison is either being evaluated using one of the other two methods, (You can figure out which by trying "1 > 1e-3 * 1e3"), or the compiler is rounding the result of the multiplication before comparing it with 1.0 when it evaluates the expression at compile time.

It is likely possible for you to tell the compiler not to use extended precision without you telling it to via some build setting; enabling codegen to SSE2 may also work.

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+1 for a full explanation of the precision problem –  Richard Dunlap Sep 10 '09 at 16:51
    
Interesting perspective. I do not see any compilation parameters that pertain to this issue nor did I discover any that I could change that enabled me to reproduce the problem. If this really is the issue then it would seem to lie in the JIT compiler as that is what is emitting machine instructions. But, if that is the case then surely it is a bug. Afterall, having a program whose execution is nondeterministric by design is terribly disturbing. –  Brian Gideon Sep 10 '09 at 17:43
    
It's (sadly) one of the allowed evaluation modes for floating-point per the C99 standard. I don't know if the C# spec pins the semantics down more carefully, but I would be surprised. On a x86 machine that doesn't implement the SSE2 instructions, its the only performant way to do double-precision computations (the alternative is to store the results after every step of the computation, which absolutely destroys performance). I don't know if the OP has such a machine, or if C# supports such machines, but it's certainly one possibility –  Stephen Canon Sep 10 '09 at 18:15
    
Yup, it's allowed in C# as well; MS's reference says: "Floating-point operations may be performed with higher precision than the result type of the operation. For example, some hardware architectures support an "extended" or "long double" floating-point type with greater range and precision than the double type, and implicitly perform all floating-point operations using this higher precision type." –  Stephen Canon Sep 10 '09 at 18:24
    
Very interesting indeed! This is certainly a good lead. I have to admit, though, if this turns out to be the cause of the OP's sample executing differently on different CPU architectures then I am going to be shocked. But, I have seen stranger things so who knows! –  Brian Gideon Sep 10 '09 at 19:01

See the answers here

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Umm...strange. I am not able to reproduce your problem. I am using C# 3.5 and Visual Studio 2008 as well. I have typed in your example exactly as it was posted and I am not seeing either Console.WriteLine statement execute.

Also, the second if statement is getting optimized out by the compiler. When I examine both the debug and release builds in ILDASM/Reflector I see no evidence of it. That makes since because I get a compiler warning saying unreachable code was detected on it.

Finally, I do not see how this could be a floating point precision issue anyway. Why would the C# compiler statically evaluate two doubles differently than the CLR would at runtime? If that were really the case then one could make the argument that the C# compiler has a bug.

Edit: After giving this a little more thought I am even more convinced that this is not a floating point precision issue. You must have either stumbled across a bug in the compiler or the debugger or the code you posted is not exactly representative of your actual code that is running. I am highly skeptical of a bug in the compiler, but a bug in the debugger seems more likely. Try rebuilding the project and running it again. Maybe the debugging information compiled along with exe got out of sync or something.

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Thanks very much Brian for the input; my colleague down the hall sees the same thing on his machine. Windows XP on Dell Optplex 320, Pentium D 3.4 GHz. –  Richard Morgan Sep 10 '09 at 16:12
    
What version of VS do you have? The about dialog box says 9.0.30729.1 for me. I am also using .NET Framework 3.5 with SP 1. Also, double check that you are targeting framework 3.5 when building the application. It seems that something unusual is certainly happening. –  Brian Gideon Sep 10 '09 at 16:19

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