ccls/bitfield.h
2017-02-20 16:25:00 -08:00

185 lines
5.6 KiB
C++

//---------------------------------------------------------
// For conditions of distribution and use, see
// https://github.com/preshing/cpp11-on-multicore/blob/master/LICENSE
//---------------------------------------------------------
#ifndef __CPP11OM_BITFIELD_H__
#define __CPP11OM_BITFIELD_H__
#include <cassert>
//---------------------------------------------------------
// BitFieldMember<>: Used internally by ADD_BITFIELD_MEMBER macro.
// All members are public to simplify compliance with sections 9.0.7 and
// 9.5.1 of the C++11 standard, thereby avoiding undefined behavior.
//---------------------------------------------------------
template <typename T, int Offset, int Bits>
struct BitFieldMember
{
T value;
static_assert(Offset + Bits <= (int) sizeof(T) * 8, "Member exceeds bitfield boundaries");
static_assert(Bits < (int) sizeof(T) * 8, "Can't fill entire bitfield with one member");
static const T Maximum = (T(1) << Bits) - 1;
static const T Mask = Maximum << Offset;
T maximum() const { return Maximum; }
T one() const { return T(1) << Offset; }
operator T() const
{
return (value >> Offset) & Maximum;
}
BitFieldMember& operator=(T v)
{
assert(v <= Maximum); // v must fit inside the bitfield member
value = (value & ~Mask) | (v << Offset);
return *this;
}
BitFieldMember& operator+=(T v)
{
assert(T(*this) + v <= Maximum); // result must fit inside the bitfield member
value += v << Offset;
return *this;
}
BitFieldMember& operator-=(T v)
{
assert(T(*this) >= v); // result must not underflow
value -= v << Offset;
return *this;
}
BitFieldMember& operator++() { return *this += 1; }
BitFieldMember operator++(int) // postfix form
{
BitFieldMember tmp(*this);
operator++();
return tmp;
}
BitFieldMember& operator--() { return *this -= 1; }
BitFieldMember operator--(int) // postfix form
{
BitFieldMember tmp(*this);
operator--();
return tmp;
}
};
//---------------------------------------------------------
// BitFieldArray<>: Used internally by ADD_BITFIELD_ARRAY macro.
// All members are public to simplify compliance with sections 9.0.7 and
// 9.5.1 of the C++11 standard, thereby avoiding undefined behavior.
//---------------------------------------------------------
template <typename T, int BaseOffset, int BitsPerItem, int NumItems>
struct BitFieldArray
{
T value;
static_assert(BaseOffset + BitsPerItem * NumItems <= (int) sizeof(T) * 8, "Array exceeds bitfield boundaries");
static_assert(BitsPerItem < (int) sizeof(T) * 8, "Can't fill entire bitfield with one array element");
static const T Maximum = (T(1) << BitsPerItem) - 1;
T maximum() const { return Maximum; }
int numItems() const { return NumItems; }
class Element
{
private:
T& value;
int offset;
public:
Element(T& value, int offset) : value(value), offset(offset) {}
T mask() const { return Maximum << offset; }
operator T() const
{
return (value >> offset) & Maximum;
}
Element& operator=(T v)
{
assert(v <= Maximum); // v must fit inside the bitfield member
value = (value & ~mask()) | (v << offset);
return *this;
}
Element& operator+=(T v)
{
assert(T(*this) + v <= Maximum); // result must fit inside the bitfield member
value += v << offset;
return *this;
}
Element& operator-=(T v)
{
assert(T(*this) >= v); // result must not underflow
value -= v << offset;
return *this;
}
Element& operator++() { return *this += 1; }
Element operator++(int) // postfix form
{
Element tmp(*this);
operator++();
return tmp;
}
Element& operator--() { return *this -= 1; }
Element operator--(int) // postfix form
{
Element tmp(*this);
operator--();
return tmp;
}
};
Element operator[](int i)
{
assert(i >= 0 && i < NumItems); // array index must be in range
return Element(value, BaseOffset + BitsPerItem * i);
}
const Element operator[](int i) const
{
assert(i >= 0 && i < NumItems); // array index must be in range
return Element(value, BaseOffset + BitsPerItem * i);
}
};
//---------------------------------------------------------
// Bitfield definition macros.
// For usage examples, see RWLock and LockReducedDiningPhilosophers.
// All members are public to simplify compliance with sections 9.0.7 and
// 9.5.1 of the C++11 standard, thereby avoiding undefined behavior.
//---------------------------------------------------------
#define BEGIN_BITFIELD_TYPE(typeName, T) \
union typeName \
{ \
struct Wrapper { T value; }; \
Wrapper wrapper; \
typeName(T v = 0) { wrapper.value = v; } \
typeName& operator=(T v) { wrapper.value = v; return *this; } \
operator T&() { return wrapper.value; } \
operator T() const { return wrapper.value; } \
typedef T StorageType;
#define ADD_BITFIELD_MEMBER(memberName, offset, bits) \
BitFieldMember<StorageType, offset, bits> memberName;
#define ADD_BITFIELD_ARRAY(memberName, offset, bits, numItems) \
BitFieldArray<StorageType, offset, bits, numItems> memberName;
#define END_BITFIELD_TYPE() \
};
#endif // __CPP11OM_BITFIELD_H__