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Why is this true? Java appears to produce a result with a small discrepancy when multiplying two floats compared to C and even the Java Math.pow method.


float a = 0.88276923;

double b = a * a;   // b becomes 0.779281497001648  <---- what???
b = Math.pow(a,2);  // b becomes 0.7792815081874238


float a = 0.88276923;

double b = a * a;   // b becomes 0.7792815081874238
pow(a,2);           // b becomes 0.7792815081874238

Update: Per Ed S.'s comment, I have also found that the C behavior changes depending on the compiler. Using gcc it appears to match the Java behavior. Using visual studio (depending on your target platform) it can produce the results seen above or those seen in Java. Ugh.

share|improve this question
2 – Carl Norum Apr 17 '12 at 23:37
Ah, floating point arithmetic. A pure bastion of accuracy and reliability. – Perception Apr 17 '12 at 23:38
I'm aware that floats are not precise. I would expect, however, for their imprecision to be consistent. – mark Apr 17 '12 at 23:40
You're not compiling the C code with a C++ compiler and therefore using the float overloaded version of pow are you? float pow(float base, float exponent) – AusCBloke Apr 17 '12 at 23:47
I did my testing using VS2005 and the C results are the same (actually using the C89 compiler)... until I target x64, in which case the fld instruction is dropped in favor of movss and you get the java behavior. Oh the joys of programming. – Ed S. Apr 17 '12 at 23:55
up vote 16 down vote accepted

As pst and trutheality have already wisely noted, C is promoting the float to a double before the multiplication. Actually, they are promoted to an 80-bit extended precision value when they are pushed onto the stack. Here is the assembler output (VS2005 x86 C89)

    double b = a * a;
00411397  fld         dword ptr [a] 
0041139A  fmul        dword ptr [a] 
0041139D  fstp        qword ptr [b] 

The FLD Instruction

The FLD instruction loads a 32 bit, 64 bit, or 80 bit floating point value onto the stack. This instruction converts 32 and 64 bit operands to an 80 bit extended precision value before pushing the value onto the floating point stack.

Interestingly, if I build to target x64, the movss instruction is used and you get a value of 0.779281497001648 as the result, i.e., what you are seeing in your java example. Give it a try.

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+1. Now, where in the C standard (and don't forget to specify which draft!) is there a vauge statement that can be construed as implementation-defined behavior on two.... ;-) – user166390 Apr 17 '12 at 23:51
@pst: I wish I had the time to look, but.... it's date night :D – Ed S. Apr 17 '12 at 23:51
@pst: Tried it targeting x64 out of curiosity and you see the java behavior as the fld instruction is no longer used (in my setup at least). – Ed S. Apr 17 '12 at 23:54
I imagined something sneaky, but not this sneaky. I wish I could give a second vote up. – user166390 Apr 18 '12 at 0:59

What Java does for

double b = a * a;

is multiply a * a as a (32-bit) float first, and converts the result to a (64-bit) double when assigning to b.

b = Math.pow(a,2);

Converts a to a (64-bit) double first (since the parameters for Math.pow are double, double) and then squares it.

What is puzzling (to me) is why C seems to cast the a's to double first in

double b = a * a;

Is that in the standard?

Edit: I vaguely remember about C not requiring a particular implementation (in terms of how many bits are used) for numbers... is that what's going on here? Are your floats 64 bits? (In Java a float is always 32 bits and a double is always 64 bits).

Edit: Both Ed S.'s answer and mark's comment that different compilers give different results indicate that the C results are implementation- and architecture- specific.

share|improve this answer
I wonder if there is any compile-time evaluation (optimizing) occurring as well? – user166390 Apr 17 '12 at 23:47
(Although I'd doubt that sizeof(float) == sizeof(double) on a modern machine/compiler ;-) – user166390 Apr 17 '12 at 23:49
On my machine they are promoted when pushed onto the stack. See: The FLD Instruction – Ed S. Apr 17 '12 at 23:51

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