now.clock = clock();
now.object_count = view->Doc().ObjectCount();
now.view_bounds = view->GetBounds();
- // object_count delta clock delta x deltax y deltay w deltaw h deltah
- printf("%d\t%d\t%lu\t%lu\t%e\t%e\t%e\t%e\t%e\t%e\t%e\t%e\n",
- now.object_count, now.object_count - m_perf_last.object_count,
- (uint64_t)now.clock, (uint64_t)(now.clock - m_perf_last.clock),
- Double(now.view_bounds.x), Double(now.view_bounds.x - m_perf_last.view_bounds.x),
- Double(now.view_bounds.y), Double(now.view_bounds.y - m_perf_last.view_bounds.y),
- Double(now.view_bounds.w), Double(now.view_bounds.w - m_perf_last.view_bounds.w),
- Double(now.view_bounds.h), Double(now.view_bounds.h - m_perf_last.view_bounds.h));
+
+ // object_count clock delta_clock x Log10(x) y Log10(y) w Log10(w) Size(w)
+ #ifdef QUADTREE_DISABLED
+ printf("%d\t%llu\t%llu\t%s\t%f\t%s\t%f\t%s\t%f\t%u\n",
+ now.object_count, (uint64_t)now.clock,
+ (uint64_t)(now.clock - m_perf_last.clock),
+ Str(now.view_bounds.x).c_str(), Log10(Abs(now.view_bounds.x)),
+ Str(now.view_bounds.y).c_str(), Log10(Abs(now.view_bounds.y)),
+ Str(now.view_bounds.w).c_str(), Log10(now.view_bounds.w),
+ Size(now.view_bounds.w));
+ #endif
m_perf_last = now;
}