# How to byteswap a double?

I'm trying to write a byteswap routine for a C++ program running on Win XP. I'm compiling with Visual Studio 2008. This is what I've come up with:

``````int byteswap(int v) // This is good
{
return _byteswap_ulong(v);
}

double byteswap(double v) // This doesn't work for some values
{
union { // This trick is first used in Quake2 source I believe :D
__int64 i;
double  d;
} conv;
conv.d = v;
conv.i = _byteswap_uint64(conv.i);
return conv.d;
}
``````

And a function to test:

``````void testit() {
double  a, b, c;
CString str;

for (a = -100; a < 100; a += 0.01) {
b = byteswap(a);
c = byteswap(b);
if (a != c) {
str.Format("%15.15f %15.15f %15.15f", a, c, a - c);
}
}
}
``````

Getting these numbers not matching:

```-76.789999999988126 -76.790000000017230 0.000000000029104
-30.499999999987718 -30.499999999994994 0.000000000007276
41.790000000014508  41.790000000029060 -0.000000000014552
90.330000000023560  90.330000000052664 -0.000000000029104
```

This is after having read through:
How do I convert between big-endian and little-endian values in C++?
Little Endian - Big Endian Problem
You can't use << and >> on double, by the way (unless I'm mistaken?)

-
Could you clarify what exactly was invented in Quake 2? Surely not the idea of having a double and an int64 as fields of the same union? –  Pascal Cuoq Feb 9 '11 at 18:56
Sorry.. I learned C off of Quake2 so I like to pretend it's the greatest :D I see it (union) all over the place now. –  Darrell Feb 9 '11 at 23:25

Try 2

Okay, got it working! Hans Passant was right. They got me thinking with the "no longer a proper double" comment. So you can't byteswap a float into another float because then it might be in an improper format, so you have to byteswap to a char array and unswap back. This is the code I used:

``````int pack(int value, char *buf)
{
union temp {
int value;
char    c[4];
} in, out;
in.value = value;
out.c[0] = in.c[3];
out.c[1] = in.c[2];
out.c[2] = in.c[1];
out.c[3] = in.c[0];
memcpy(buf, out.c, 4);
return 4;
}

int pack(float value, char *buf)
{
union temp {
float   value;
char    c[4];
} in, out;
in.value = value;
out.c[0] = in.c[3];
out.c[1] = in.c[2];
out.c[2] = in.c[1];
out.c[3] = in.c[0];
memcpy(buf, out.c, 4);
return 4;
}

int pack(double value, char *buf)
{
union temp {
double  value;
char    c[8];
} in, out;
in.value = value;
out.c[0] = in.c[7];
out.c[1] = in.c[6];
out.c[2] = in.c[5];
out.c[3] = in.c[4];
out.c[4] = in.c[3];
out.c[5] = in.c[2];
out.c[6] = in.c[1];
out.c[7] = in.c[0];
memcpy(buf, out.c, 8);
return 8;
}

int unpack(char *buf, int *value)
{
union temp {
int value;
char    c[4];
} in, out;
memcpy(in.c, buf, 4);
out.c[0] = in.c[3];
out.c[1] = in.c[2];
out.c[2] = in.c[1];
out.c[3] = in.c[0];
memcpy(value, &out.value, 4);
return 4;
}

int unpack(char *buf, float *value)
{
union temp {
float   value;
char    c[4];
} in, out;
memcpy(in.c, buf, 4);
out.c[0] = in.c[3];
out.c[1] = in.c[2];
out.c[2] = in.c[1];
out.c[3] = in.c[0];
memcpy(value, &out.value, 4);
return 4;
}

int unpack(char *buf, double *value)
{
union temp {
double  value;
char    c[8];
} in, out;
memcpy(in.c, buf, 8);
out.c[0] = in.c[7];
out.c[1] = in.c[6];
out.c[2] = in.c[5];
out.c[3] = in.c[4];
out.c[4] = in.c[3];
out.c[5] = in.c[2];
out.c[6] = in.c[1];
out.c[7] = in.c[0];
memcpy(value, &out.value, 8);
return 8;
}
``````

And a simple test function:

``````typedef struct
{
int theint;
float   thefloat;
double  thedouble;
} mystruct;

void PackStruct()
{
char    buf[sizeof (mystruct)];
char    *p;
p = buf;

mystruct    foo, foo2;
foo.theint = 1;
foo.thefloat = 3.14f;
foo.thedouble = 400.5;

p += pack(foo.theint, p);
p += pack(foo.thefloat, p);
p += pack(foo.thedouble, p);

// Send or recv char array

p = buf;
p += unpack(p, &foo2.theint);
p += unpack(p, &foo2.thefloat);
p += unpack(p, &foo2.thedouble);
}
``````
-

Try 3

Okay, found out there's a better way. The other way you have to worry about the order you pack/unpack stuff. This way you don't:

``````// int and float
static void swap4(void *v)
{
char    in[4], out[4];
memcpy(in, v, 4);
out[0] = in[3];
out[1] = in[2];
out[2] = in[1];
out[3] = in[0];
memcpy(v, out, 4);
}

// double
static void swap8(void *v)
{
char    in[8], out[8];
memcpy(in, v, 8);
out[0] = in[7];
out[1] = in[6];
out[2] = in[5];
out[3] = in[4];
out[4] = in[3];
out[5] = in[2];
out[6] = in[1];
out[7] = in[0];
memcpy(v, out, 8);
}

typedef struct
{
int theint;
float   thefloat;
double  thedouble;
} mystruct;

static void swap_mystruct(void *buf)
{
mystruct    *ps = (mystruct *) buf;
swap4(&ps->theint);
swap4(&ps->thefloat);
swap8(&ps->thedouble);
}
``````

Send:

``````    char    buf[sizeof (mystruct)];
memcpy(buf, &s, sizeof (mystruct));
swap_mystruct(buf);
``````

Recv:

``````    mystruct    s;
swap_mystruct(buf);
memcpy(&s, buf, sizeof (mystruct));
``````
-
``````    b = byteswap(a);
``````

That's a problem. After swapping the bytes, the value is no longer a proper double. Storing it back to a double is going to cause subtle problems when the FPU normalizes the value. You have to store it back into an __int64 (long long). Modify the return type of the method.

-
That actually makes sense! Okay, will look into this and get back to you –  Darrell Feb 9 '11 at 23:24
Although a `double` in main memory is 64 bits, on x86 CPUs double-precision registers are 80 bits wide. So if one of your values is stored in a register throughout, but the other makes a round-trip through main memory and is truncated to 64 bits, this could explain the small differences you're seeing.