DoubleSlider's ruler is implemented in respect to the use with sequential printing of objects
This commit is contained in:
YuSanka
Oleksandra Yushchenko
parent
6e748f2e4a
commit
cb844a4034
@ -243,6 +243,12 @@ void Control::SetMaxValue(const int max_value)
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Update();
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}
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void Control::SetSliderValues(const std::vector<double>& values)
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{
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m_values = values;
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m_ruler.count = std::count(m_values.begin(), m_values.end(), m_values.front());
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}
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void Control::draw_scroll_line(wxDC& dc, const int lower_pos, const int higher_pos)
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{
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int width;
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@ -732,6 +738,15 @@ void Control::draw_thumbs(wxDC& dc, const wxCoord& lower_pos, const wxCoord& hig
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draw_thumb_text(dc, pos_l, ssLower);
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}
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void Control::draw_ticks_pair(wxDC& dc, wxCoord pos, wxCoord mid, int tick_len)
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{
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int mid_space = 9;
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is_horizontal() ? dc.DrawLine(pos, mid - (mid_space + tick_len), pos, mid - mid_space) :
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dc.DrawLine(mid - (mid_space + tick_len), pos, mid - mid_space, pos);
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is_horizontal() ? dc.DrawLine(pos, mid + (mid_space + tick_len), pos, mid + mid_space) :
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dc.DrawLine(mid + (mid_space + tick_len), pos, mid + mid_space, pos);
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};
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void Control::draw_ticks(wxDC& dc)
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{
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if (m_draw_mode == dmSlaPrint)
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@ -743,11 +758,7 @@ void Control::draw_ticks(wxDC& dc)
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const wxCoord mid = is_horizontal() ? 0.5*height : 0.5*width;
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for (auto tick : m_ticks.ticks) {
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const wxCoord pos = get_position_from_value(tick.tick);
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is_horizontal() ? dc.DrawLine(pos, mid-14, pos, mid-9) :
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dc.DrawLine(mid - 14, pos/* - 1*/, mid - 9, pos/* - 1*/);
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is_horizontal() ? dc.DrawLine(pos, mid+14, pos, mid+9) :
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dc.DrawLine(mid + 14, pos/* - 1*/, mid + 9, pos/* - 1*/);
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draw_ticks_pair(dc, pos, mid, 7);
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// if current tick if focused, we should to use a specific "focused" icon
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bool focused_tick = m_moving_pos != wxDefaultPosition && tick.tick == get_tick_near_point(m_moving_pos);
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@ -883,38 +894,35 @@ void Control::draw_colored_band(wxDC& dc)
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}
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}
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void Control::draw_ruler(wxDC& dc)
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void Control::Ruler::update(wxWindow* win, const std::vector<double>& values, double scroll_step)
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{
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int height, width;
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get_size(&width, &height);
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const wxCoord mid = is_horizontal() ? 0.5 * height : 0.5 * width;
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int DPI = GUI::get_dpi_for_window(this->GetParent());
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int DPI = GUI::get_dpi_for_window(win);
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int pixels_per_sm = lround((double)(DPI) * 5.0/25.4);
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int pow = -1;
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int pow = -2;
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int step = 0;
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double ruler_short_step;
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auto end_it = count == 1 ? values.end() : values.begin() + lround(values.size() / count);
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while (pow < 3) {
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int tick = 0;
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for (int istep : {1, 2, 5}) {
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double val = (double)istep * std::pow(10,pow);
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auto val_it = std::lower_bound(m_values.begin(), m_values.end(), val - epsilon());
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auto val_it = std::lower_bound(values.begin(), end_it, val - epsilon());
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if (val_it == m_values.end())
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if (val_it == values.end())
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break;
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int tick = val_it - m_values.begin();
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int tick = val_it - values.begin();
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if (lround(tick * get_scroll_step()) > pixels_per_sm) {
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if (lround(tick * scroll_step) > pixels_per_sm) {
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step = istep;
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// find next tick with istep
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val *= 2;
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val_it = std::lower_bound(m_values.begin(), m_values.end(), val - epsilon());
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val_it = std::lower_bound(values.begin(), end_it, val - epsilon());
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// count of short ticks between ticks
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int short_ticks_cnt = val_it == m_values.end() ? tick : val_it - m_values.begin() - tick;
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int short_ticks_cnt = val_it == values.end() ? tick : val_it - values.begin() - tick;
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// there couldn't be more then 10 short ticks between thicks
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ruler_short_step = 0.1 * short_ticks_cnt;
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short_step = 0.1 * short_ticks_cnt;
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break;
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}
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}
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@ -923,24 +931,26 @@ void Control::draw_ruler(wxDC& dc)
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pow++;
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}
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if (step == 0)
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return;
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long_step = step == 0 ? -1.0 : (double)step* std::pow(10, pow);
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}
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auto draw_ticks = [this, mid](wxDC& dc, wxCoord pos, int tick_len)
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{
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int mid_space = 9;
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is_horizontal() ? dc.DrawLine(pos, mid - (mid_space + tick_len), pos, mid - mid_space) :
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dc.DrawLine(mid - (mid_space + tick_len), pos, mid - mid_space, pos);
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is_horizontal() ? dc.DrawLine(pos, mid + (mid_space + tick_len), pos, mid + mid_space) :
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dc.DrawLine(mid + (mid_space + tick_len), pos, mid + mid_space, pos);
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};
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void Control::draw_ruler(wxDC& dc)
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{
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m_ruler.update(this->GetParent(), m_values, get_scroll_step());
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if (!m_ruler.is_ok())
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return;
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auto draw_short_ticks = [this, draw_ticks, ruler_short_step](wxDC& dc, double& current_tick, int max_tick)
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{
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int height, width;
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get_size(&width, &height);
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const wxCoord mid = is_horizontal() ? 0.5 * height : 0.5 * width;
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auto draw_short_ticks = [this, mid](wxDC& dc, double& current_tick, int max_tick) {
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while (current_tick < max_tick) {
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wxCoord pos = get_position_from_value(lround(current_tick));
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draw_ticks(dc, pos, 2);
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current_tick += ruler_short_step;
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draw_ticks_pair(dc, pos, mid, 2);
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current_tick += m_ruler.short_step;
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if (current_tick > m_max_value)
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break;
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}
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};
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@ -951,23 +961,44 @@ void Control::draw_ruler(wxDC& dc)
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double short_tick;
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int tick = 0;
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double value = 0.0;
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int sequence = 0;
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double interval = (double)step * std::pow(10, pow);
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while (tick <= m_max_value)
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{
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value += interval;
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while (tick <= m_max_value) {
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value += m_ruler.long_step;
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if (value > m_values.back() && sequence < m_ruler.count) {
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value = m_ruler.long_step;
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for (tick; tick < m_values.size(); tick++)
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if (m_values[tick] < value)
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break;
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// short ticks from the last tick to the end of current sequence
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draw_short_ticks(dc, short_tick, tick);
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sequence++;
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}
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short_tick = tick;
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auto val_it = std::lower_bound(m_values.begin(), m_values.end(), value - epsilon());
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if (val_it == m_values.end())
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for (tick; tick < m_values.size(); tick++) {
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if (m_values[tick] == value)
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break;
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if (m_values[tick] > value) {
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if (tick > 0)
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tick--;
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break;
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}
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}
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if (tick > m_max_value)
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break;
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tick = val_it - m_values.begin();
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wxCoord pos = get_position_from_value(tick);
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draw_ticks(dc, pos, 5);
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draw_ticks_pair(dc, pos, mid, 5);
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draw_tick_text(dc, wxPoint(mid, pos), tick);
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draw_tick_text(dc, wxPoint(mid/* + 2*/, pos), tick);
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draw_short_ticks(dc, short_tick, tick);
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if (value == m_values.back() && sequence < m_ruler.count) {
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value = 0.0;
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sequence++;
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tick++;
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}
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}
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// short ticks from the last tick to the end
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draw_short_ticks(dc, short_tick, m_max_value);
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@ -219,7 +219,7 @@ public:
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void SetMaxValue(const int max_value);
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void SetKoefForLabels(const double koef) { m_label_koef = koef; }
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void SetSliderValues(const std::vector<double>& values) { m_values = values; }
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void SetSliderValues(const std::vector<double>& values);
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void ChangeOneLayerLock();
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Info GetTicksValues() const;
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@ -288,6 +288,7 @@ protected:
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void draw_scroll_line(wxDC& dc, const int lower_pos, const int higher_pos);
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void draw_thumb(wxDC& dc, const wxCoord& pos_coord, const SelectedSlider& selection);
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void draw_thumbs(wxDC& dc, const wxCoord& lower_pos, const wxCoord& higher_pos);
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void draw_ticks_pair(wxDC& dc, wxCoord pos, wxCoord mid, int tick_len);
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void draw_ticks(wxDC& dc);
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void draw_colored_band(wxDC& dc);
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void draw_ruler(wxDC& dc);
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@ -416,6 +417,15 @@ private:
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std::vector<wxPen*> m_line_pens;
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std::vector<wxPen*> m_segm_pens;
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struct Ruler {
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double long_step;
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double short_step;
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int count { 1 }; // > 1 for sequential print
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void update(wxWindow* win, const std::vector<double>& values, double scroll_step);
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bool is_ok() { return long_step > 0 && short_step > 0; }
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} m_ruler;
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};
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} // DoubleSlider;
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