}
// Compute higher level mipmaps
- for(int level = 1; level < ScaleStepCount; level++)
+ for(unsigned int level = 1; level < ScaleStepCount; level++)
{
MipMapLevel &m = _mip_map[level];
const MipMapLevel &ml = _mip_map[level-1];
void LogicDataSnapshot::get_subsampled_edges(
std::vector<EdgePair> &edges,
- int64_t start, int64_t end,
+ uint64_t start, uint64_t end,
float min_length, int sig_index)
{
- int64_t index = start;
- int level;
+ uint64_t index = start;
+ unsigned int level;
bool last_sample;
bool fast_forward;
assert(sig_index >= 0);
assert(sig_index < SR_MAX_NUM_PROBES);
- const int64_t block_length = (int64_t)max(min_length, 1.0f);
- const int min_level = max((int)floorf(logf(min_length) /
+ const uint64_t block_length = (uint64_t)max(min_length, 1.0f);
+ const unsigned int min_level = max((int)floorf(logf(min_length) /
LogMipMapScaleFactor) - 1, 0);
const uint64_t sig_mask = 1ULL << sig_index;
_unit_size * offset);
}
-int64_t LogicDataSnapshot::pow2_ceil(int64_t x, unsigned int power)
+uint64_t LogicDataSnapshot::pow2_ceil(uint64_t x, unsigned int power)
{
- const int64_t p = 1 << power;
- return ((x < 0) ? x : (x + p - 1)) / p * p;
+ const uint64_t p = 1 << power;
+ return (x + p - 1) / p * p;
}
} // namespace pv
projects / pulseview.git / blobdiff