```
BOOL utils::GetLogicDrivesByFreeSpace(LPTSTR pDrives)
{
TCHAR szBuff[257];
TCHAR chMaxDrive;
DWORD dwLogicalDrives;
ULARGE_INTEGER freeBytesAvaliable, maxFreeBytesAvaliable;
ULARGE_INTEGER totalNumberOfBytes;
std::map< ULARGE_INTEGER, TCHAR > driveMap;
maxFreeBytesAvaliable.QuadPart = 0;
dwLogicalDrives = GetLogicalDrives();
for (int nDrive = 0; nDrive < 32; ++nDrive) {
if (dwLogicalDrives && (1 << nDrive)) {
_stprintf(szBuff, TEXT("%c:\\"), TEXT('A') + nDrive);
//如果是硬盘分区
if (GetDriveType(szBuff) == DRIVE_FIXED) {
GetDiskFreeSpaceEx(szBuff,
&freeBytesAvaliable, &totalNumberOfBytes, NULL);
driveMap.insert( std::pair< ULARGE_INTEGER, TCHAR >(freeBytesAvaliable.QuadPart, TEXT('A') + nDrive));
}
}
}
std::sort( driveMap.begin(), driveMap.end(), [](std::pair< ULARGE_INTEGER, TCHAR > n1, std::pair< ULARGE_INTEGER, TCHAR > n2) -> bool { return (n1.first.QuadPart < n2.first.QuadPart); } );
int i = 0;
for (std::map< ULARGE_INTEGER, TCHAR >::const_iterator iter = driveMap.begin(); iter != driveMap.end(); ++iter, ++i) {
pDrives[i] = iter->second;
}
return true;
}
```

This lambda expression `[](std::pair< ULARGE_INTEGER, TCHAR > n1, std::pair< ULARGE_INTEGER, TCHAR > n2) -> bool { return (n1.first.QuadPart < n2.first.QuadPart); }`

could not compile, Why???

thanks.

**===JUST AS A NOTE===**

Create a class:

```
struct CompareLargeInteger {
bool operator()(ULARGE_INTEGER n1, ULARGE_INTEGER n2) {
return (n1.QuadPart > n2.QuadPart);
}
};
```

Then declare the driveMap as

```
std::map< ULARGE_INTEGER, TCHAR, CompareLargeInteger > driveMap;
```

Then everything is OK.

Give a insight into the MS's STL

```
template<class _RanIt,
class _Diff> inline
void _Sort(_RanIt _First, _RanIt _Last, _Diff _Ideal)
{ // order [_First, _Last), using operator<
_Diff _Count;
for (; _ISORT_MAX < (_Count = _Last - _First) && 0 < _Ideal; )
{ // divide and conquer by quicksort
_STD pair<_RanIt, _RanIt> _Mid =
_Unguarded_partition(_First, _Last);
_Ideal /= 2, _Ideal += _Ideal / 2; // allow 1.5 log2(N) divisions
if (_Mid.first - _First < _Last - _Mid.second)
{ // loop on second half
_Sort(_First, _Mid.first, _Ideal);
_First = _Mid.second;
}
else
{ // loop on first half
_Sort(_Mid.second, _Last, _Ideal);
_Last = _Mid.first;
}
}
if (_ISORT_MAX < _Count)
{ // heap sort if too many divisions
_STD make_heap(_First, _Last);
_STD sort_heap(_First, _Last);
}
else if (1 < _Count)
_Insertion_sort(_First, _Last); // small
}
```

`__Count = __Last - __First`

, the minus operator is only supported by random access opeartor.