void
PanZoomTracker::
handle_motion(const fastuidraw::vec2 &pos, const fastuidraw::vec2 &delta)
{
if(!m_button_down)
{
return;
}
if(m_zoom_time.elapsed() > m_zoom_gesture_begin_time)
{
m_is_zooming = true;
}
float zdivide(m_scale_zooming * m_zoom_divider);
if(!m_is_zooming)
{
float zdx(pos.x() - m_zoom_pivot.x());
float zdy(pos.y() - m_zoom_pivot.y());
m_transformation.translation( m_transformation.translation() + delta);
if(fastuidraw::t_abs(zdx) > zdivide or fastuidraw::t_abs(zdy) > zdivide)
{
m_zoom_time.restart();
m_zoom_pivot = pos;
m_start_gesture = m_transformation;
}
}
else
{
float zoom_factor(pos.y() - m_zoom_pivot.y());
ScaleTranslate<float> R;
zoom_factor /= zdivide;
if(zoom_factor < 0.0f)
{
zoom_factor = -1.0f/fastuidraw::t_min(-1.0f, zoom_factor);
}
else
{
zoom_factor = fastuidraw::t_max(1.0f, zoom_factor);
}
R.scale(zoom_factor);
R.translation( (1.0f - zoom_factor) * m_zoom_pivot);
m_transformation = R * m_start_gesture;
}
}
enum Splitter::split_type_t
Splitter::
split(const std::vector<unsigned int> &input,
const fastuidraw::vec2 &mid,
const GlyphSequencePrivate *added_glyphs_src,
fastuidraw::vecN<std::vector<unsigned int>, 3> &out_values)
{
using namespace fastuidraw;
vecN<Splitter, 2> splitV;
vecN<unsigned int, 2> in_pre_counts(0u, 0u);
vecN<unsigned int, 2> in_post_counts(0u, 0u);
vecN<unsigned int, 2> in_both_counts(0u, 0u);
FASTUIDRAWassert(!splits());
FASTUIDRAWassert(std::is_sorted(input.begin(), input.end()));
splitV[0].m_splitting_coordinate = split_in_x_coordinate;
splitV[0].m_splitting_value = mid.x();
splitV[1].m_splitting_coordinate = split_in_y_coordinate;
splitV[1].m_splitting_value = mid.y();
for (unsigned int I : input)
{
const PerAddedGlyph &G(added_glyphs_src->added_glyph(I));
for (int c = 0; c < 2; ++c)
{
enum place_element_t P;
bool in_child0, in_child1;
P = splitV[c].place_element(G);
in_child0 = (P == place_in_child0) || (P == place_in_parent);
in_child1 = (P == place_in_child1) || (P == place_in_parent);
if (in_child0)
{
++in_pre_counts[c];
}
if (in_child1)
{
++in_post_counts[c];
}
if (in_child0 && in_child1)
{
++in_both_counts[c];
}
}
}
enum split_type_t choice;
choice = (in_both_counts[0] < in_both_counts[1]) ?
split_in_x_coordinate : split_in_y_coordinate;
if (in_both_counts[choice] == input.size())
{
return does_not_split;
}
m_splitting_coordinate = choice;
m_splitting_value = mid[choice];
for (unsigned int I : input)
{
const PerAddedGlyph &G(added_glyphs_src->added_glyph(I));
enum place_element_t P;
P = place_element(G);
out_values[P].push_back(I);
}
FASTUIDRAWassert(std::is_sorted(out_values[0].begin(), out_values[0].end()));
FASTUIDRAWassert(std::is_sorted(out_values[1].begin(), out_values[1].end()));
FASTUIDRAWassert(std::is_sorted(out_values[2].begin(), out_values[2].end()));
return m_splitting_coordinate;
}
