block_shift
block_size = 1 << block_shift,
return m_blocks[i >> block_shift][i & block_mask];
return m_blocks[i >> block_shift][i & block_mask];
return m_blocks[i >> block_shift][i & block_mask];
return m_blocks[i >> block_shift][i & block_mask];
return m_blocks[i >> block_shift][i & block_mask];
unsigned nb = (size + block_mask) >> block_shift;
unsigned nb = m_size >> block_shift;
T* pv = m_coord_blocks[idx >> block_shift] + ((idx & block_mask) << 1);
unsigned block = idx >> block_shift;
m_cmd_blocks[idx >> block_shift][idx & block_mask] = (int8u)cmd;
unsigned b1 = v1 >> block_shift;
unsigned b2 = v2 >> block_shift;
return m_coord_blocks[idx >> block_shift][(idx & block_mask) << 1];
return m_coord_blocks[idx >> block_shift][((idx & block_mask) << 1) + 1];
unsigned nb = idx >> block_shift;
return m_cmd_blocks[idx >> block_shift][idx & block_mask];
unsigned nb = m_total_vertices >> block_shift;
block_size = 1 << block_shift,
block_shift = HOST_ENDIAN_TO_BFS_INT32(blockShift);
uint32 block_shift;
uint32 BlockShift() const { return BFS_ENDIAN_TO_HOST_INT32(block_shift); }
uint8 block_shift;
uint8 BlockShift() const { return block_shift; }
uint32 block_shift;
uint32 BlockShift() const { return B_LENDIAN_TO_HOST_INT32(block_shift) + 10; }
|| (1UL << superBlock.block_shift) != superBlock.block_size
fSuperBlock.block_shift = get_shift(BlockSize());
uint32 BlockShift() const { return fSuperBlock.block_shift; }
off_t ToOffset(block_run run) const { return ToBlock(run) << fSuperBlock.block_shift; }
uint32 block_shift;
Print(" block_shift = %" B_PRIu32 "\n", superBlock->block_shift);
uint32 block_shift;