# What's the most performant way to divide two integral values and obtain a floating point quotient in .NET?

Consider the following signature in C#:

``````double Divide(int numerator, int denominator);
``````

Is there a performance difference between the following implementations?

``````return (double)numerator / denominator;

return numerator / (double)denominator;

return (double)numerator / (double)denominator;
``````

I'm assuming that both of the above return the same answer.

Have I missed any other equivalent solution?

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Have you tried comparing the IL (for example, with Reflector)?

``````static double A(int numerator, int denominator)
{ return (double)numerator / denominator; }

static double B(int numerator, int denominator)
{ return numerator / (double)denominator; }

static double C(int numerator, int denominator)
{ return (double)numerator / (double)denominator; }
``````

All three become (give or take the name):

``````.method private hidebysig static float64 A(int32 numerator, int32 denominator) cil managed
{
.maxstack 8
L_0000: ldarg.0 // pushes numerator onto the stack
L_0001: conv.r8 // converts the value at the top of the stack to double
L_0002: ldarg.1 // pushes denominator onto the stack
L_0003: conv.r8 // converts the value at the top of the stack to double
L_0004: div     // pops two values, divides, and pushes the result
L_0005: ret     // pops the value from the top of the stack as the return value
}
``````

So no: there is exactly zero difference.

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Even if you use VB.NET, both numerator and denominator are converted to doubles before doing the actual division, so your examples are the same.

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