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I'm translating some C# code to C++, which contains uses of Math.Log(1 + x), where x can be a very small value close to zero. I came across the recommendation (in C++) to use std::log1p for when dealing with log(1 + x), where x is close to zero, i.e. to avoid loss of precision.

Is the C#/.NET Math.Log method implemented in a way that similarly avoids loss of precision? I could not find a similar Math.Log1p() function referenced to in the .NET API reference.

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    try it yourself? – Steve Apr 24 '18 at 21:16
  • Does MSDN have anything to say on the matter? – Ňɏssa Pøngjǣrdenlarp Apr 24 '18 at 21:18
  • @Plutonix - I tried a search for log1p but couldn't find anything. Nothing similar appears in the sidebar on the Math.Log entry: msdn.microsoft.com/en-us/library/system.math.log(v=vs.110).aspx – decvalts Apr 24 '18 at 21:18
  • @Steve I don't have a way of testing C#/.NET code right now, I'm on a linux machine writing C++ (yes I guess I could install Mono etc.) – decvalts Apr 24 '18 at 21:19
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    Looks to me like the loss of precision is not inside the function, but when preparing the input parameter. – Ben Voigt Apr 24 '18 at 21:23
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No, Math.Log() use the C library function log() to get its job done. log1p() is in fact included in the CRT library that the CLR uses but it is not exposed through the framework. You can fix that with a pinvoke declaration:

using System;
using System.Runtime.InteropServices;

public static class Math {
    public static double Log1p(double arg) {
        if (arg < -1.0) throw new ArgumentException();
        return log1p(arg);
    }

    [DllImport("msvcr120_clr0400.dll", CallingConvention = CallingConvention.Cdecl)]
    private static extern double log1p(double arg);
}

If you need to target a .NET version less than 4.0 then consider to change the DllImport declaration to use "ucrtbase.dll".

Notable perhaps is that I could not get consistent perf on this code. Targeting x64 on both C# and C on my poky laptop I got ~140 nanoseconds per call. But saw a big difference when targeting x86, 225 vs 40. Big difference, I don't have a good explanation for that.

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Looking into the reference implementation, Log() just calls an extern function Log() that I assume is just the logarithm function of the instruction set.

The popular library Accord.Math indeed has a log1p function which is pretty simple and can be implemented through following one-liner:

static double log1p(double x)
    => Math.Abs(x) > 1e-4 ? Math.Log(1.0 + x) : (-0.5 * x + 1.0) * x;
  • I'm not aware of any CPU which has a LOG instruction. – MSalters Apr 25 '18 at 8:43
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double VerySmall = .0000000000000002;
double TooSmall = .0000000000000001;
Console.WriteLine("{0} {1} {2}", Math.Log(1 + VerySmall), Math.Log(1 + TooSmall), log1p(TooSmall));

static double log1p(double x)
      => Math.Abs(x) > 1e-4 ? Math.Log(1.0 + x) : (-0.5 * x + 1.0) * x;

In .NET framework 4.6.1 running on Windows, the output of this code is:

2.22044604925031E-16 0 1E-16

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