isle/LEGO1/omni/include/mxbitset.h

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#ifndef MXBITSET_H
#define MXBITSET_H
#pragma warning(disable : 4237)
#include "mxtypes.h"
#include <assert.h>
#include <limits.h> // CHAR_BIT
template <size_t N>
class MxBitset {
public:
MxBitset() { Tidy(); }
// SIZE 0x08
class Reference {
friend class MxBitset<N>;
public:
Reference& Flip()
{
m_bitset->Flip(m_offset);
return (*this);
}
bool operator~() const { return (!m_bitset->Test(m_offset)); }
operator bool() const { return (m_bitset->Test(m_offset)); }
private:
Reference(MxBitset<N>& p_bitset, size_t p_offset) : m_bitset(&p_bitset), m_offset(p_offset) {}
MxBitset<N>* m_bitset; // 0x00
size_t m_offset; // 0x04
};
Reference operator[](size_t p_bit) { return (Reference(*this, p_bit)); }
MxBitset<N>& Flip(size_t p_bit)
{
if (N <= p_bit) {
Xran();
}
m_blocks[p_bit / e_bitsPerBlock] ^= 1 << p_bit % e_bitsPerBlock;
return (*this);
}
size_t Count()
{
// debug only, intentionally unimplemented
return 0;
}
bool Test(MxU32 p_bit)
{
if (p_bit >= N) {
Xran();
}
return (m_blocks[p_bit / e_bitsPerBlock] & (1 << p_bit % e_bitsPerBlock)) != 0;
}
MxU32 Size() const { return N; }
private:
void Tidy(MxU32 p_value = 0)
{
for (MxS32 i = e_blocksRequired; i >= 0; --i) {
m_blocks[i] = p_value;
}
// No need to trim if all bits were zeroed out
if (p_value != 0) {
Trim();
}
}
// Apply bit mask to most significant block
void Trim()
{
if (N % e_bitsPerBlock != 0) {
m_blocks[e_blocksRequired] &= ((1 << (N % e_bitsPerBlock)) - 1);
}
}
void Xran() { assert("invalid MxBitset<N> position" == NULL); }
// Not a real enum. This is how STL BITSET defines these constants.
enum {
e_bitsPerBlock = CHAR_BIT * sizeof(MxU32),
e_blocksRequired = N == 0 ? 0 : (N - 1) / e_bitsPerBlock
};
MxU32 m_blocks[e_blocksRequired + 1]; // 0x00
};
// TEMPLATE: BETA10 0x10146600
// MxBitset<2>::MxBitset<2>
// TEMPLATE: BETA10 0x101464e0
// MxBitset<22>::MxBitset<22>
// TEMPLATE: BETA10 0x10146510
// MxBitset<22>::Tidy
// TEMPLATE: BETA10 0x10146570
// MxBitset<22>::Trim
// TEMPLATE: BETA10 0x10146630
// MxBitset<2>::Tidy
// TEMPLATE: BETA10 0x10146690
// MxBitset<2>::Trim
// TEMPLATE: BETA10 0x10146880
// MxBitset<22>::Size
// TEMPLATE: BETA10 0x101469d0
// MxBitset<2>::Size
// TEMPLATE: BETA10 0x101587a0
// MxBitset<22>::Reference::Flip
// TEMPLATE: BETA10 0x101587d0
// MxBitset<22>::Reference::operator int
// TEMPLATE: BETA10 0x10158800
// MxBitset<22>::operator[]
// TEMPLATE: BETA10 0x10158830
// MxBitset<22>::Reference::Reference
// TEMPLATE: BETA10 0x10158860
// MxBitset<22>::Flip
// STUB: BETA10 0x101588b0
// MxBitset<22>::Count
// TEMPLATE: BETA10 0x10158930
// MxBitset<22>::Test
// TEMPLATE: BETA10 0x10158990
// MxBitset<22>::Xran
// TEMPLATE: BETA10 0x10158b70
// MxBitset<2>::Reference::Flip
// TEMPLATE: BETA10 0x10158ba0
// MxBitset<2>::Reference::operator int
// TEMPLATE: BETA10 0x10158bd0
// MxBitset<2>::operator[]
// TEMPLATE: BETA10 0x10158c00
// MxBitset<2>::Reference::Reference
// TEMPLATE: BETA10 0x10158c30
// MxBitset<2>::Flip
// STUB: BETA10 0x10158c80
// MxBitset<2>::Count
// TEMPLATE: BETA10 0x10158d00
// MxBitset<2>::Test
// TEMPLATE: BETA10 0x10158d60
// MxBitset<2>::Xran
#endif // MXBITSET_H