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Consider the following C# code:

double result1 = 1.0 + 1.1 + 1.2;
double result2 = 1.2 + 1.0 + 1.1;

if (result1 == result2)
{
    ...
}

result1 should always equal result2 right? The thing is, it doesn't. result1 is 3.3 and result2 is 3.3000000000000003. The only difference is the order of the constants.

I know that doubles are implemented in such a way that rounding issues can occur. I'm aware that I can use decimals instead if I need absolute precision. Or that I can use Math.Round() in my if statement. I'm just a nerd who wants to understand what the C# compiler is doing. Can anyone tell me?

Edit:

Thanks to everyone who's so far suggested reading up on floating point arithmetic and/or talked about the inherent inaccuracy of how the CPU handles doubles. But I feel the main thrust of my question is still unanswered. Which is my fault for not phrasing it correctly. Let me put it like this:

Breaking down the above code, I would expect the following operations to be happening:

double r1 = 1.1 + 1.2;
double r2 = 1.0 + r1
double r3 = 1.0 + 1.1
double r4 = 1.2 + r3

Let's assume that each of the above additions had a rounding error (numbered e1..e4). So r1 contains rounding error e1, r2 includes rounding errors e1 + e2, r3 contains e3 and r4 contains e3 + e4.

Now, I don't know how exactly how the rounding errors happen but I would have expected e1+e2 to equal e3+e4. Clearly it doesn't, but that seems somehow wrong to me. Another thing is that when I run the above code, I don't get any rounding errors. That's what makes me think it's the C# compiler that's doing something weird rather than the CPU.

I know I'm asking a lot and maybe the best answer anyone can give is to go and do a PHD in CPU design, but I just thought I'd ask.

Edit 2

Looking at the IL from my original code sample, things are a bit clearerit's clear that it's the compiler not the CPU that's doing this:

.method private hidebysig static void Main(string[] args) cil managed
{
.entrypoint
    .maxstack 2
1
    .locals init (
        [0] float64 result1,
        [1] float64 result2,
    [2] bool CS$0$0000)
    L_0000: nop 
    L_0001: ldc.r8 3.3
    L_000a: stloc.0 
    L_000b: ldc.r8 3.3000000000000003
    L_0014: stloc.1 
    L_0015: ldloc.0 
L_0016: ldloc.1 
L_0017: ceq 
L_0019: stloc.2 
L_001a: ldloca.s CS$0$0000
L_001c: call instance string [mscorlib]System.Boolean::ToString()
L_0021: call void [mscorlib]System.Console::WriteLine(string)
L_0026: nop 
L_0027: ret 
}

The compiler is adding things up the numbers for me!
show/hide this revision's text 2 Clarification

Edit:

Thanks to everyone who's so far suggested reading up on floating point arithmetic and/or talked about the inherent inaccuracy of how the CPU handles doubles. But I feel the main thrust of my question is still unanswered. Which is my fault for not phrasing it correctly. Let me put it like this:

Breaking down the above code, I would expect the following operations to be happening:

double r1 = 1.1 + 1.2;double r2 = 1.0 + r1double r3 = 1.0 + 1.1double r4 = 1.2 + r3
Let's assume that each of the above additions had a rounding error (numbered e1..e4). So r1 contains rounding error e1, r2 includes rounding errors e1 + e2, r3 contains e3 and r4 contains e3 + e4.
Now, I don't know how exactly how the rounding errors happen but I would have expected e1+e2 to equal e3+e4. Clearly it doesn't, but that seems somehow wrong to me. Another thing is that when I run the above code, I don't get any rounding errors. That's what makes me think it's the C# compiler that's doing something weird rather than the CPU.
I know I'm asking a lot and maybe the best answer anyone can give is to go and do a PHD in CPU design, but I just thought I'd ask.
Edit 2
Looking at the IL from my original code sample, things are a bit clearer:
.method private hidebysig static void Main(string[] args) cil managed.maxstack 2.locals init (    [0] float64 result1,    [1] float64 result2,    [2] bool CS$0$0000)L_0000: nop L_0001: ldc.r8 3.3L_000a: stloc.0 L_000b: ldc.r8 3.3000000000000003L_0014: stloc.1 L_0015: ldloc.0 L_0016: ldloc.1 L_0017: ceq L_0019: stloc.2 L_001a: ldloca.s CS$0$0000L_001c: call instance string [mscorlib]System.Boolean::ToString()L_0021: call void [mscorlib]System.Console::WriteLine(string)L_0026: nop L_0027: ret
The compiler is adding things up for me!
show/hide this revision's text 1

Why does the order affect the rounding when adding multiple doubles in C#

Consider the following C# code:

double result1 = 1.0 + 1.1 + 1.2;
double result2 = 1.2 + 1.0 + 1.1;

if (result1 == result2)
{
    ...
}

result1 should always equal result2 right? The thing is, it doesn't. result1 is 3.3 and result2 is 3.3000000000000003. The only difference is the order of the constants.

I know that doubles are implemented in such a way that rounding issues can occur. I'm aware that I can use decimals instead if I need absolute precision. Or that I can use Math.Round() in my if statement. I'm just a nerd who wants to understand what the C# compiler is doing. Can anyone tell me?