#include "libslic3r/libslic3r.h"
#include "DoubleSlider.hpp"
#include "libslic3r/GCode.hpp"
#include "GUI.hpp"
#include "GUI_App.hpp"
#include "Plater.hpp"
#include "I18N.hpp"
#include "ExtruderSequenceDialog.hpp"
#include "libslic3r/Print.hpp"
#include "libslic3r/AppConfig.hpp"
#include "GUI_Utils.hpp"
#include "MsgDialog.hpp"
#include "Tab.hpp"
#include "GUI_ObjectList.hpp"
#include <wx/button.h>
#include <wx/dialog.h>
#include <wx/sizer.h>
#include <wx/slider.h>
#include <wx/menu.h>
#include <wx/bmpcbox.h>
#include <wx/statline.h>
#include <wx/dcclient.h>
#include <wx/colordlg.h>
#include <cmath>
#include <boost/algorithm/string/replace.hpp>
#include <random>
#include "Field.hpp"
#include "format.hpp"
#include "NotificationManager.hpp"
namespace Slic3r {
using GUI::from_u8;
using GUI::into_u8;
using GUI::format_wxstr;
namespace DoubleSlider {
constexpr double min_delta_area = scale_(scale_(25)); // equal to 25 mm2
constexpr double miscalculation = scale_(scale_(1)); // equal to 1 mm2
bool equivalent_areas(const double& bottom_area, const double& top_area)
{
return fabs(bottom_area - top_area) <= miscalculation;
}
wxDEFINE_EVENT(wxCUSTOMEVT_TICKSCHANGED, wxEvent);
static std::string gcode(Type type)
{
const PrintConfig& config = GUI::wxGetApp().plater()->fff_print().config();
switch (type) {
case ColorChange: return config.color_change_gcode;
case PausePrint: return config.pause_print_gcode;
case Template: return config.template_custom_gcode;
default: return "";
}
}
Control::Control( wxWindow *parent,
wxWindowID id,
int lowerValue,
int higherValue,
int minValue,
int maxValue,
const wxPoint& pos,
const wxSize& size,
long style,
const wxValidator& val,
const wxString& name) :
wxControl(parent, id, pos, size, wxWANTS_CHARS | wxBORDER_NONE),
m_lower_value(lowerValue),
m_higher_value (higherValue),
m_min_value(minValue),
m_max_value(maxValue),
m_style(style == wxSL_HORIZONTAL || style == wxSL_VERTICAL ? style: wxSL_HORIZONTAL),
m_extra_style(style == wxSL_VERTICAL ? wxSL_AUTOTICKS | wxSL_VALUE_LABEL : 0)
{
#ifdef __WXOSX__
is_osx = true;
#endif //__WXOSX__
if (!is_osx)
SetDoubleBuffered(true);// SetDoubleBuffered exists on Win and Linux/GTK, but is missing on OSX
m_bmp_thumb_higher = (style == wxSL_HORIZONTAL ? ScalableBitmap(this, "thumb_right") : ScalableBitmap(this, "thumb_up"));
m_bmp_thumb_lower = (style == wxSL_HORIZONTAL ? ScalableBitmap(this, "thumb_left") : ScalableBitmap(this, "thumb_down"));
m_thumb_size = m_bmp_thumb_lower.GetBmpSize();
m_bmp_add_tick_on = ScalableBitmap(this, "colorchange_add");
m_bmp_add_tick_off = ScalableBitmap(this, "colorchange_add_f");
m_bmp_del_tick_on = ScalableBitmap(this, "colorchange_del");
m_bmp_del_tick_off = ScalableBitmap(this, "colorchange_del_f");
m_tick_icon_dim = m_bmp_add_tick_on.GetBmpWidth();
m_bmp_one_layer_lock_on = ScalableBitmap(this, "lock_closed");
m_bmp_one_layer_lock_off = ScalableBitmap(this, "lock_closed_f");
m_bmp_one_layer_unlock_on = ScalableBitmap(this, "lock_open");
m_bmp_one_layer_unlock_off = ScalableBitmap(this, "lock_open_f");
m_lock_icon_dim = m_bmp_one_layer_lock_on.GetBmpWidth();
m_bmp_revert = ScalableBitmap(this, "undo");
m_revert_icon_dim = m_bmp_revert.GetBmpWidth();
m_bmp_cog = ScalableBitmap(this, "cog");
m_cog_icon_dim = m_bmp_cog.GetBmpWidth();
m_selection = ssUndef;
m_ticks.set_pause_print_msg(_utf8(L("Place bearings in slots and resume printing")));
m_ticks.set_extruder_colors(&m_extruder_colors);
// slider events
this->Bind(wxEVT_PAINT, &Control::OnPaint, this);
this->Bind(wxEVT_CHAR, &Control::OnChar, this);
this->Bind(wxEVT_LEFT_DOWN, &Control::OnLeftDown, this);
this->Bind(wxEVT_MOTION, &Control::OnMotion, this);
this->Bind(wxEVT_LEFT_UP, &Control::OnLeftUp, this);
this->Bind(wxEVT_MOUSEWHEEL, &Control::OnWheel, this);
this->Bind(wxEVT_ENTER_WINDOW,&Control::OnEnterWin, this);
this->Bind(wxEVT_LEAVE_WINDOW,&Control::OnLeaveWin, this);
this->Bind(wxEVT_KEY_DOWN, &Control::OnKeyDown, this);
this->Bind(wxEVT_KEY_UP, &Control::OnKeyUp, this);
this->Bind(wxEVT_RIGHT_DOWN, &Control::OnRightDown,this);
this->Bind(wxEVT_RIGHT_UP, &Control::OnRightUp, this);
// control's view variables
SLIDER_MARGIN = 4 + GUI::wxGetApp().em_unit();
DARK_ORANGE_PEN = wxPen(wxColour(237, 107, 33));
ORANGE_PEN = wxPen(wxColour(253, 126, 66));
LIGHT_ORANGE_PEN = wxPen(wxColour(254, 177, 139));
DARK_GREY_PEN = wxPen(wxColour(128, 128, 128));
GREY_PEN = wxPen(wxColour(164, 164, 164));
LIGHT_GREY_PEN = wxPen(wxColour(204, 204, 204));
m_line_pens = { &DARK_GREY_PEN, &GREY_PEN, &LIGHT_GREY_PEN };
m_segm_pens = { &DARK_ORANGE_PEN, &ORANGE_PEN, &LIGHT_ORANGE_PEN };
m_font = GetFont();
this->SetMinSize(get_min_size());
}
void Control::msw_rescale()
{
m_font = GUI::wxGetApp().normal_font();
m_bmp_thumb_higher.msw_rescale();
m_bmp_thumb_lower .msw_rescale();
m_thumb_size = m_bmp_thumb_lower.bmp().GetSize();
m_bmp_add_tick_on .msw_rescale();
m_bmp_add_tick_off.msw_rescale();
m_bmp_del_tick_on .msw_rescale();
m_bmp_del_tick_off.msw_rescale();
m_tick_icon_dim = m_bmp_add_tick_on.bmp().GetSize().x;
m_bmp_one_layer_lock_on .msw_rescale();
m_bmp_one_layer_lock_off .msw_rescale();
m_bmp_one_layer_unlock_on .msw_rescale();
m_bmp_one_layer_unlock_off.msw_rescale();
m_lock_icon_dim = m_bmp_one_layer_lock_on.bmp().GetSize().x;
m_bmp_revert.msw_rescale();
m_revert_icon_dim = m_bmp_revert.bmp().GetSize().x;
m_bmp_cog.msw_rescale();
m_cog_icon_dim = m_bmp_cog.bmp().GetSize().x;
SLIDER_MARGIN = 4 + GUI::wxGetApp().em_unit();
SetMinSize(get_min_size());
GetParent()->Layout();
}
void Control::sys_color_changed()
{
GUI::wxGetApp().UpdateDarkUI(GetParent());
m_bmp_add_tick_on .msw_rescale();
m_bmp_add_tick_off.msw_rescale();
m_bmp_del_tick_on .msw_rescale();
m_bmp_del_tick_off.msw_rescale();
m_tick_icon_dim = m_bmp_add_tick_on.GetBmpWidth();
m_bmp_one_layer_lock_on .msw_rescale();
m_bmp_one_layer_lock_off .msw_rescale();
m_bmp_one_layer_unlock_on .msw_rescale();
m_bmp_one_layer_unlock_off.msw_rescale();
m_lock_icon_dim = m_bmp_one_layer_lock_on.GetBmpWidth();
m_bmp_revert.msw_rescale();
m_revert_icon_dim = m_bmp_revert.GetBmpWidth();
m_bmp_cog.msw_rescale();
m_cog_icon_dim = m_bmp_cog.GetBmpWidth();
}
int Control::GetActiveValue() const
{
return m_selection == ssLower ?
m_lower_value : m_selection == ssHigher ?
m_higher_value : -1;
}
wxSize Control::get_min_size() const
{
const int min_side = GUI::wxGetApp().em_unit() * ( is_horizontal() ? 5 : 11 );
return wxSize(min_side, min_side);
}
wxSize Control::DoGetBestSize() const
{
const wxSize size = wxControl::DoGetBestSize();
if (size.x > 1 && size.y > 1)
return size;
return get_min_size();
}
void Control::SetLowerValue(const int lower_val)
{
m_selection = ssLower;
m_lower_value = lower_val;
correct_lower_value();
Refresh();
Update();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::SetHigherValue(const int higher_val)
{
m_selection = ssHigher;
m_higher_value = higher_val;
correct_higher_value();
Refresh();
Update();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::SetSelectionSpan(const int lower_val, const int higher_val)
{
m_lower_value = std::max(lower_val, m_min_value);
m_higher_value = std::max(std::min(higher_val, m_max_value), m_lower_value);
if (m_lower_value < m_higher_value)
m_is_one_layer = false;
Refresh();
Update();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::SetMaxValue(const int max_value)
{
m_max_value = max_value;
Refresh();
Update();
}
void Control::SetSliderValues(const std::vector<double>& values)
{
m_values = values;
m_ruler.init(m_values);
}
void Control::draw_scroll_line(wxDC& dc, const int lower_pos, const int higher_pos)
{
int width;
int height;
get_size(&width, &height);
wxCoord line_beg_x = is_horizontal() ? SLIDER_MARGIN : width*0.5 - 1;
wxCoord line_beg_y = is_horizontal() ? height*0.5 - 1 : SLIDER_MARGIN;
wxCoord line_end_x = is_horizontal() ? width - SLIDER_MARGIN + 1 : width*0.5 - 1;
wxCoord line_end_y = is_horizontal() ? height*0.5 - 1 : height - SLIDER_MARGIN + 1;
wxCoord segm_beg_x = is_horizontal() ? lower_pos : width*0.5 - 1;
wxCoord segm_beg_y = is_horizontal() ? height*0.5 - 1 : lower_pos/*-1*/;
wxCoord segm_end_x = is_horizontal() ? higher_pos : width*0.5 - 1;
wxCoord segm_end_y = is_horizontal() ? height*0.5 - 1 : higher_pos-1;
for (size_t id = 0; id < m_line_pens.size(); id++) {
dc.SetPen(*m_line_pens[id]);
dc.DrawLine(line_beg_x, line_beg_y, line_end_x, line_end_y);
dc.SetPen(*m_segm_pens[id]);
dc.DrawLine(segm_beg_x, segm_beg_y, segm_end_x, segm_end_y);
if (is_horizontal())
line_beg_y = line_end_y = segm_beg_y = segm_end_y += 1;
else
line_beg_x = line_end_x = segm_beg_x = segm_end_x += 1;
}
}
double Control::get_scroll_step()
{
const wxSize sz = get_size();
const int& slider_len = m_style == wxSL_HORIZONTAL ? sz.x : sz.y;
return double(slider_len - SLIDER_MARGIN * 2) / (m_max_value - m_min_value);
}
// get position on the slider line from entered value
wxCoord Control::get_position_from_value(const int value)
{
const double step = get_scroll_step();
const int val = is_horizontal() ? value : m_max_value - value;
return wxCoord(SLIDER_MARGIN + int(val*step + 0.5));
}
wxSize Control::get_size() const
{
int w, h;
get_size(&w, &h);
return wxSize(w, h);
}
void Control::get_size(int* w, int* h) const
{
GetSize(w, h);
if (m_draw_mode == dmSequentialGCodeView)
return; // we have no more icons for drawing
is_horizontal() ? *w -= m_lock_icon_dim : *h -= m_lock_icon_dim;
}
double Control::get_double_value(const SelectedSlider& selection)
{
if (m_values.empty() || m_lower_value<0)
return 0.0;
if (m_values.size() <= size_t(m_higher_value)) {
correct_higher_value();
return m_values.back();
}
return m_values[selection == ssLower ? m_lower_value : m_higher_value];
}
int Control::get_tick_from_value(double value, bool force_lower_bound/* = false*/)
{
std::vector<double>::iterator it;
if (m_is_wipe_tower && !force_lower_bound)
it = std::find_if(m_values.begin(), m_values.end(),
[value](const double & val) { return fabs(value - val) <= epsilon(); });
else
it = std::lower_bound(m_values.begin(), m_values.end(), value - epsilon());
if (it == m_values.end())
return -1;
return int(it - m_values.begin());
}
Info Control::GetTicksValues() const
{
Info custom_gcode_per_print_z;
std::vector<CustomGCode::Item>& values = custom_gcode_per_print_z.gcodes;
const int val_size = m_values.size();
if (!m_values.empty())
for (const TickCode& tick : m_ticks.ticks) {
if (tick.tick > val_size)
break;
values.emplace_back(CustomGCode::Item{ m_values[tick.tick], tick.type, tick.extruder, tick.color, tick.extra });
}
if (m_force_mode_apply)
custom_gcode_per_print_z.mode = m_mode;
return custom_gcode_per_print_z;
}
void Control::SetTicksValues(const Info& custom_gcode_per_print_z)
{
if (m_values.empty()) {
m_ticks.mode = m_mode;
return;
}
const bool was_empty = m_ticks.empty();
m_ticks.ticks.clear();
const std::vector<CustomGCode::Item>& heights = custom_gcode_per_print_z.gcodes;
for (auto h : heights) {
int tick = get_tick_from_value(h.print_z);
if (tick >=0)
m_ticks.ticks.emplace(TickCode{ tick, h.type, h.extruder, h.color, h.extra });
}
if (!was_empty && m_ticks.empty())
// Switch to the "Feature type"/"Tool" from the very beginning of a new object slicing after deleting of the old one
post_ticks_changed_event();
// init extruder sequence in respect to the extruders count
if (m_ticks.empty())
m_extruders_sequence.init(m_extruder_colors.size());
if (custom_gcode_per_print_z.mode && !custom_gcode_per_print_z.gcodes.empty())
m_ticks.mode = custom_gcode_per_print_z.mode;
Refresh();
Update();
}
void Control::SetLayersTimes(const std::vector<float>& layers_times, float total_time)
{
m_layers_times.clear();
if (layers_times.empty())
return;
m_layers_times.resize(layers_times.size(), 0.0);
m_layers_times[0] = layers_times[0];
for (size_t i = 1; i < layers_times.size(); i++)
m_layers_times[i] = m_layers_times[i - 1] + layers_times[i];
// Erase duplicates values from m_values and save it to the m_layers_values
// They will be used for show the correct estimated time for MM print, when "No sparce layer" is enabled
// See https://github.com/prusa3d/PrusaSlicer/issues/6232
if (m_is_wipe_tower && m_values.size() != m_layers_times.size()) {
m_layers_values = m_values;
sort(m_layers_values.begin(), m_layers_values.end());
m_layers_values.erase(unique(m_layers_values.begin(), m_layers_values.end()), m_layers_values.end());
// When whipe tower is used to the end of print, there is one layer which is not marked in layers_times
// So, add this value from the total print time value
if (m_layers_values.size() != m_layers_times.size())
for (size_t i = m_layers_times.size(); i < m_layers_values.size(); i++)
m_layers_times.push_back(total_time);
Refresh();
Update();
}
}
void Control::SetLayersTimes(const std::vector<double>& layers_times)
{
m_is_wipe_tower = false;
m_layers_times = layers_times;
for (size_t i = 1; i < m_layers_times.size(); i++)
m_layers_times[i] += m_layers_times[i - 1];
}
void Control::SetDrawMode(bool is_sla_print, bool is_sequential_print)
{
m_draw_mode = is_sla_print ? dmSlaPrint :
is_sequential_print ? dmSequentialFffPrint :
dmRegular;
}
void Control::SetModeAndOnlyExtruder(const bool is_one_extruder_printed_model, const int only_extruder)
{
m_mode = !is_one_extruder_printed_model ? MultiExtruder :
only_extruder < 0 ? SingleExtruder :
MultiAsSingle;
if (!m_ticks.mode || (m_ticks.empty() && m_ticks.mode != m_mode))
m_ticks.mode = m_mode;
m_only_extruder = only_extruder;
UseDefaultColors(m_mode == SingleExtruder);
m_is_wipe_tower = m_mode != SingleExtruder;
}
void Control::SetExtruderColors( const std::vector<std::string>& extruder_colors)
{
m_extruder_colors = extruder_colors;
}
bool Control::IsNewPrint()
{
if (GUI::wxGetApp().plater()->printer_technology() == ptSLA)
return false;
const Print& print = GUI::wxGetApp().plater()->fff_print();
std::string idxs;
for (auto object : print.objects())
idxs += std::to_string(object->id().id) + "_";
if (idxs == m_print_obj_idxs)
return false;
m_print_obj_idxs = idxs;
return true;
}
void Control::get_lower_and_higher_position(int& lower_pos, int& higher_pos)
{
const double step = get_scroll_step();
if (is_horizontal()) {
lower_pos = SLIDER_MARGIN + int(m_lower_value*step + 0.5);
higher_pos = SLIDER_MARGIN + int(m_higher_value*step + 0.5);
}
else {
lower_pos = SLIDER_MARGIN + int((m_max_value - m_lower_value)*step + 0.5);
higher_pos = SLIDER_MARGIN + int((m_max_value - m_higher_value)*step + 0.5);
}
}
void Control::draw_focus_rect()
{
if (!m_is_focused)
return;
const wxSize sz = GetSize();
wxPaintDC dc(this);
const wxPen pen = wxPen(wxColour(128, 128, 10), 1, wxPENSTYLE_DOT);
dc.SetPen(pen);
dc.SetBrush(wxBrush(wxColour(0, 0, 0), wxBRUSHSTYLE_TRANSPARENT));
dc.DrawRectangle(1, 1, sz.x - 2, sz.y - 2);
}
void Control::render()
{
#ifdef _WIN32
GUI::wxGetApp().UpdateDarkUI(this);
#else
SetBackgroundColour(GetParent()->GetBackgroundColour());
#endif // _WIN32
draw_focus_rect();
wxPaintDC dc(this);
dc.SetFont(m_font);
const wxCoord lower_pos = get_position_from_value(m_lower_value);
const wxCoord higher_pos = get_position_from_value(m_higher_value);
// draw colored band on the background of a scroll line
// and only in a case of no-empty m_values
draw_colored_band(dc);
if (m_extra_style & wxSL_AUTOTICKS)
draw_ruler(dc);
if (!m_render_as_disabled) {
// draw line
draw_scroll_line(dc, lower_pos, higher_pos);
// draw color print ticks
draw_ticks(dc);
// draw both sliders
draw_thumbs(dc, lower_pos, higher_pos);
// draw lock/unlock
draw_one_layer_icon(dc);
// draw revert bitmap (if it's shown)
draw_revert_icon(dc);
// draw cog bitmap (if it's shown)
draw_cog_icon(dc);
// draw mouse position
draw_tick_on_mouse_position(dc);
}
}
bool Control::is_wipe_tower_layer(int tick) const
{
if (!m_is_wipe_tower || tick >= (int)m_values.size())
return false;
if (tick == 0 || (tick == (int)m_values.size() - 1 && m_values[tick] > m_values[tick - 1]))
return false;
if ((m_values[tick - 1] == m_values[tick + 1] && m_values[tick] < m_values[tick + 1]) ||
(tick > 0 && m_values[tick] < m_values[tick - 1]) ) // if there is just one wiping on the layer
return true;
return false;
}
void Control::draw_action_icon(wxDC& dc, const wxPoint pt_beg, const wxPoint pt_end)
{
const int tick = m_selection == ssLower ? m_lower_value : m_higher_value;
if (!m_enable_action_icon)
return;
// suppress add tick on first layer
if (tick == 0)
return;
if (is_wipe_tower_layer(tick)) {
m_rect_tick_action = wxRect();
return;
}
wxBitmap* icon = m_focus == fiActionIcon ? &m_bmp_add_tick_off.bmp() : &m_bmp_add_tick_on.bmp();
if (m_ticks.ticks.find(TickCode{tick}) != m_ticks.ticks.end())
icon = m_focus == fiActionIcon ? &m_bmp_del_tick_off.bmp() : &m_bmp_del_tick_on.bmp();
wxCoord x_draw, y_draw;
is_horizontal() ? x_draw = pt_beg.x - 0.5*m_tick_icon_dim : y_draw = pt_beg.y - 0.5*m_tick_icon_dim;
if (m_selection == ssLower)
is_horizontal() ? y_draw = pt_end.y + 3 : x_draw = pt_beg.x - m_tick_icon_dim-2;
else
is_horizontal() ? y_draw = pt_beg.y - m_tick_icon_dim-2 : x_draw = pt_end.x + 3;
if (m_draw_mode == dmSequentialFffPrint)
dc.DrawBitmap(create_scaled_bitmap("colorchange_add", nullptr, 16, true), x_draw, y_draw);
else
dc.DrawBitmap(*icon, x_draw, y_draw);
//update rect of the tick action icon
m_rect_tick_action = wxRect(x_draw, y_draw, m_tick_icon_dim, m_tick_icon_dim);
}
void Control::draw_info_line_with_icon(wxDC& dc, const wxPoint& pos, const SelectedSlider selection)
{
if (m_selection == selection) {
//draw info line
dc.SetPen(DARK_ORANGE_PEN);
const wxPoint pt_beg = is_horizontal() ? wxPoint(pos.x, pos.y - m_thumb_size.y) : wxPoint(pos.x - m_thumb_size.x, pos.y/* - 1*/);
const wxPoint pt_end = is_horizontal() ? wxPoint(pos.x, pos.y + m_thumb_size.y) : wxPoint(pos.x + m_thumb_size.x, pos.y/* - 1*/);
dc.DrawLine(pt_beg, pt_end);
//draw action icon
if (m_draw_mode == dmRegular || m_draw_mode == dmSequentialFffPrint)
draw_action_icon(dc, pt_beg, pt_end);
}
}
void Control::draw_tick_on_mouse_position(wxDC& dc)
{
if (!m_is_focused || m_moving_pos == wxDefaultPosition)
return;
//calculate thumb position on slider line
int width, height;
get_size(&width, &height);
int tick = get_tick_near_point(m_moving_pos);
if (tick == m_higher_value || tick == m_lower_value)
return ;
auto draw_ticks = [this](wxDC& dc, wxPoint pos, int margin=0 )
{
wxPoint pt_beg = is_horizontal() ? wxPoint(pos.x+margin, pos.y - m_thumb_size.y) : wxPoint(pos.x - m_thumb_size.x , pos.y+margin);
wxPoint pt_end = is_horizontal() ? wxPoint(pos.x+margin, pos.y + m_thumb_size.y) : wxPoint(pos.x - 0.5 * m_thumb_size.x + 1, pos.y+margin);
dc.DrawLine(pt_beg, pt_end);
pt_beg = is_horizontal() ? wxPoint(pos.x + margin, pos.y - m_thumb_size.y) : wxPoint(pos.x + 0.5 * m_thumb_size.x, pos.y+margin);
pt_end = is_horizontal() ? wxPoint(pos.x + margin, pos.y + m_thumb_size.y) : wxPoint(pos.x + m_thumb_size.x + 1, pos.y+margin);
dc.DrawLine(pt_beg, pt_end);
};
auto draw_touch = [this](wxDC& dc, wxPoint pos, int margin, bool right_side )
{
int mult = right_side ? 1 : -1;
wxPoint pt_beg = is_horizontal() ? wxPoint(pos.x - margin, pos.y + mult * m_thumb_size.y) : wxPoint(pos.x + mult * m_thumb_size.x, pos.y - margin);
wxPoint pt_end = is_horizontal() ? wxPoint(pos.x + margin, pos.y + mult * m_thumb_size.y) : wxPoint(pos.x + mult * m_thumb_size.x, pos.y + margin);
dc.DrawLine(pt_beg, pt_end);
};
if (tick > 0) // this tick exists and should be marked as a focused
{
wxCoord new_pos = get_position_from_value(tick);
const wxPoint pos = is_horizontal() ? wxPoint(new_pos, height * 0.5) : wxPoint(0.5 * width, new_pos);
dc.SetPen(DARK_ORANGE_PEN);
draw_ticks(dc, pos, -2);
draw_ticks(dc, pos, 2 );
draw_touch(dc, pos, 2, true);
draw_touch(dc, pos, 2, false);
return;
}
tick = get_value_from_position(m_moving_pos);
if (tick > m_max_value || tick < m_min_value || tick == m_higher_value || tick == m_lower_value)
return;
wxCoord new_pos = get_position_from_value(tick);
const wxPoint pos = is_horizontal() ? wxPoint(new_pos, height * 0.5) : wxPoint(0.5 * width, new_pos);
//draw info line
dc.SetPen(LIGHT_GREY_PEN);
draw_ticks(dc, pos);
if (m_extra_style & wxSL_VALUE_LABEL) {
wxColour old_clr = dc.GetTextForeground();
dc.SetTextForeground(GREY_PEN.GetColour());
draw_tick_text(dc, pos, tick, ltEstimatedTime, false);
dc.SetTextForeground(old_clr);
}
}
static wxString short_and_splitted_time(const std::string& time)
{
// Parse the dhms time format.
int days = 0;
int hours = 0;
int minutes = 0;
int seconds = 0;
if (time.find('d') != std::string::npos)
::sscanf(time.c_str(), "%dd %dh %dm %ds", &days, &hours, &minutes, &seconds);
else if (time.find('h') != std::string::npos)
::sscanf(time.c_str(), "%dh %dm %ds", &hours, &minutes, &seconds);
else if (time.find('m') != std::string::npos)
::sscanf(time.c_str(), "%dm %ds", &minutes, &seconds);
else if (time.find('s') != std::string::npos)
::sscanf(time.c_str(), "%ds", &seconds);
// Format the dhm time.
char buffer[64];
if (days > 0)
::sprintf(buffer, "%dd%dh\n%dm", days, hours, minutes);
else if (hours > 0) {
if (hours < 10 && minutes < 10 && seconds < 10)
::sprintf(buffer, "%dh%dm%ds", hours, minutes, seconds);
else if (hours > 10 && minutes > 10 && seconds > 10)
::sprintf(buffer, "%dh\n%dm\n%ds", hours, minutes, seconds);
else if ((minutes < 10 && seconds > 10) || (minutes > 10 && seconds < 10))
::sprintf(buffer, "%dh\n%dm%ds", hours, minutes, seconds);
else
::sprintf(buffer, "%dh%dm\n%ds", hours, minutes, seconds);
}
else if (minutes > 0) {
if (minutes > 10 && seconds > 10)
::sprintf(buffer, "%dm\n%ds", minutes, seconds);
else
::sprintf(buffer, "%dm%ds", minutes, seconds);
}
else
::sprintf(buffer, "%ds", seconds);
return wxString::FromUTF8(buffer);
}
wxString Control::get_label(int tick, LabelType label_type/* = ltHeightWithLayer*/) const
{
const size_t value = tick;
if (m_label_koef == 1.0 && m_values.empty())
return wxString::Format("%lu", static_cast<unsigned long>(value));
if (value >= m_values.size())
return "ErrVal";
// When "Print Settings -> Multiple Extruders -> No sparse layer" is enabled, then "Smart" Wipe Tower is used for wiping.
// As a result, each layer with tool changes is splited for min 3 parts: first tool, wiping, second tool ...
// So, vertical slider have to respect to this case.
// see https://github.com/prusa3d/PrusaSlicer/issues/6232.
// m_values contains data for all layer's parts,
// but m_layers_values contains just unique Z values.
// Use this function for correct conversion slider position to number of printed layer
auto get_layer_number = [this](int value, LabelType label_type) {
if (label_type == ltEstimatedTime && m_layers_times.empty())
return size_t(-1);
double layer_print_z = m_values[is_wipe_tower_layer(value) ? std::max<int>(value - 1, 0) : value];
auto it = std::lower_bound(m_layers_values.begin(), m_layers_values.end(), layer_print_z - epsilon());
if (it == m_layers_values.end()) {
it = std::lower_bound(m_values.begin(), m_values.end(), layer_print_z - epsilon());
if (it == m_values.end())
return size_t(-1);
return size_t(value);
}
return size_t(it - m_layers_values.begin());
};
if (m_draw_mode == dmSequentialGCodeView)
return wxString::Format("%lu", static_cast<unsigned long>(m_alternate_values[value]));
else {
if (label_type == ltEstimatedTime) {
if (m_is_wipe_tower) {
size_t layer_number = get_layer_number(value, label_type);
return (layer_number == size_t(-1) || layer_number == m_layers_times.size()) ? "" : short_and_splitted_time(get_time_dhms(m_layers_times[layer_number]));
}
return value < m_layers_times.size() ? short_and_splitted_time(get_time_dhms(m_layers_times[value])) : "";
}
wxString str = m_values.empty() ?
wxString::Format("%.*f", 2, m_label_koef * value) :
wxString::Format("%.*f", 2, m_values[value]);
if (label_type == ltHeight)
return str;
if (label_type == ltHeightWithLayer) {
size_t layer_number = m_is_wipe_tower ? get_layer_number(value, label_type) + 1 : (m_values.empty() ? value : value + 1);
return format_wxstr("%1%\n(%2%)", str, layer_number);
}
}
return wxEmptyString;
}
void Control::draw_tick_text(wxDC& dc, const wxPoint& pos, int tick, LabelType label_type/* = ltHeight*/, bool right_side/*=true*/) const
{
wxCoord text_width, text_height;
const wxString label = get_label(tick, label_type);
dc.GetMultiLineTextExtent(label, &text_width, &text_height);
wxPoint text_pos;
if (right_side) {
if (is_horizontal()) {
int width;
int height;
get_size(&width, &height);
int x_right = pos.x + 1 + text_width;
int xx = (x_right < width) ? pos.x + 1 : pos.x - text_width - 1;
text_pos = wxPoint(xx, pos.y + m_thumb_size.x / 2 + 1);
}
else
text_pos = wxPoint(pos.x + m_thumb_size.x + 1, pos.y - 0.5 * text_height - 1);
}
else {
if (is_horizontal()) {
int x = pos.x - text_width - 1;
int xx = (x > 0) ? x : pos.x + 1;
text_pos = wxPoint(xx, pos.y - m_thumb_size.x / 2 - text_height - 1);
}
else
text_pos = wxPoint(std::max(2, pos.x - text_width - 1 - m_thumb_size.x), pos.y - 0.5 * text_height + 1);
}
wxColour old_clr = dc.GetTextForeground();
const wxPen& pen = is_wipe_tower_layer(tick) && (tick == m_lower_value || tick == m_higher_value) ? DARK_ORANGE_PEN : wxPen(old_clr);
dc.SetPen(pen);
dc.SetTextForeground(pen.GetColour());
if (label_type == ltEstimatedTime)
dc.DrawLabel(label, wxRect(text_pos, wxSize(text_width, text_height)), wxALIGN_RIGHT);
else
dc.DrawText(label, text_pos);
dc.SetTextForeground(old_clr);
}
void Control::draw_thumb_text(wxDC& dc, const wxPoint& pos, const SelectedSlider& selection) const
{
draw_tick_text(dc, pos, selection == ssLower ? m_lower_value : m_higher_value, ltHeightWithLayer, selection == ssLower);
}
void Control::draw_thumb_item(wxDC& dc, const wxPoint& pos, const SelectedSlider& selection)
{
wxCoord x_draw = pos.x - int(0.5 * m_thumb_size.x);
wxCoord y_draw = pos.y - int(0.5 * m_thumb_size.y);
dc.DrawBitmap(selection == ssLower ? m_bmp_thumb_lower.bmp() : m_bmp_thumb_higher.bmp(), x_draw, y_draw);
// Update thumb rect
update_thumb_rect(x_draw, y_draw, selection);
}
void Control::draw_thumb(wxDC& dc, const wxCoord& pos_coord, const SelectedSlider& selection)
{
//calculate thumb position on slider line
int width, height;
get_size(&width, &height);
const wxPoint pos = is_horizontal() ? wxPoint(pos_coord, height*0.5) : wxPoint(0.5*width, pos_coord);
// Draw thumb
draw_thumb_item(dc, pos, selection);
// Draw info_line
draw_info_line_with_icon(dc, pos, selection);
// Draw thumb text
draw_thumb_text(dc, pos, selection);
}
void Control::draw_thumbs(wxDC& dc, const wxCoord& lower_pos, const wxCoord& higher_pos)
{
//calculate thumb position on slider line
int width, height;
get_size(&width, &height);
const wxPoint pos_l = is_horizontal() ? wxPoint(lower_pos, height*0.5) : wxPoint(0.5*width, lower_pos);
const wxPoint pos_h = is_horizontal() ? wxPoint(higher_pos, height*0.5) : wxPoint(0.5*width, higher_pos);
// Draw lower thumb
draw_thumb_item(dc, pos_l, ssLower);
// Draw lower info_line
draw_info_line_with_icon(dc, pos_l, ssLower);
// Draw higher thumb
draw_thumb_item(dc, pos_h, ssHigher);
// Draw higher info_line
draw_info_line_with_icon(dc, pos_h, ssHigher);
// Draw higher thumb text
draw_thumb_text(dc, pos_h, ssHigher);
// Draw lower thumb text
draw_thumb_text(dc, pos_l, ssLower);
}
void Control::draw_ticks_pair(wxDC& dc, wxCoord pos, wxCoord mid, int tick_len)
{
int mid_space = 9;
is_horizontal() ? dc.DrawLine(pos, mid - (mid_space + tick_len), pos, mid - mid_space) :
dc.DrawLine(mid - (mid_space + tick_len), pos, mid - mid_space, pos);
is_horizontal() ? dc.DrawLine(pos, mid + (mid_space + tick_len), pos, mid + mid_space) :
dc.DrawLine(mid + (mid_space + tick_len), pos, mid + mid_space, pos);
}
void Control::draw_ticks(wxDC& dc)
{
if (m_draw_mode == dmSlaPrint)
return;
dc.SetPen(m_draw_mode == dmRegular ? DARK_GREY_PEN : LIGHT_GREY_PEN );
int height, width;
get_size(&width, &height);
const wxCoord mid = is_horizontal() ? 0.5*height : 0.5*width;
for (const TickCode& tick : m_ticks.ticks) {
if (size_t(tick.tick) >= m_values.size()) {
// The case when OnPaint is called before m_ticks.ticks data are updated (specific for the vase mode)
break;
}
const wxCoord pos = get_position_from_value(tick.tick);
draw_ticks_pair(dc, pos, mid, 7);
// if current tick if focused, we should to use a specific "focused" icon
bool focused_tick = m_moving_pos != wxDefaultPosition && tick.tick == get_tick_near_point(m_moving_pos);
// get icon name if it is
std::string icon_name;
// if we have non-regular draw mode, all ticks should be marked with error icon
if (m_draw_mode != dmRegular)
icon_name = focused_tick ? "error_tick_f" : "error_tick";
else if (tick.type == ColorChange || tick.type == ToolChange) {
if (m_ticks.is_conflict_tick(tick, m_mode, m_only_extruder, m_values[tick.tick]))
icon_name = focused_tick ? "error_tick_f" : "error_tick";
}
else if (tick.type == PausePrint)
icon_name = focused_tick ? "pause_print_f" : "pause_print";
else
icon_name = focused_tick ? "edit_gcode_f" : "edit_gcode";
// Draw icon for "Pause print", "Custom Gcode" or conflict tick
if (!icon_name.empty()) {
wxBitmap icon = create_scaled_bitmap(icon_name);
wxCoord x_draw, y_draw;
is_horizontal() ? x_draw = pos - 0.5 * m_tick_icon_dim : y_draw = pos - 0.5 * m_tick_icon_dim;
is_horizontal() ? y_draw = mid + 22 : x_draw = mid + m_thumb_size.x + 3;
dc.DrawBitmap(icon, x_draw, y_draw);
}
}
}
std::string Control::get_color_for_tool_change_tick(std::set<TickCode>::const_iterator it) const
{
const int current_extruder = it->extruder == 0 ? std::max<int>(m_only_extruder, 1) : it->extruder;
auto it_n = it;
while (it_n != m_ticks.ticks.begin()) {
--it_n;
if (it_n->type == ColorChange && it_n->extruder == current_extruder)
return it_n->color;
}
return m_extruder_colors[current_extruder-1]; // return a color for a specific extruder from the colors list
}
std::string Control::get_color_for_color_change_tick(std::set<TickCode>::const_iterator it) const
{
const int def_extruder = std::max<int>(1, m_only_extruder);
auto it_n = it;
bool is_tool_change = false;
while (it_n != m_ticks.ticks.begin()) {
--it_n;
if (it_n->type == ToolChange) {
is_tool_change = true;
if (it_n->extruder == it->extruder)
return it->color;
break;
}
if (it_n->type == ColorChange && it_n->extruder == it->extruder)
return it->color;
}
if (!is_tool_change && it->extruder == def_extruder)
return it->color;
return "";
}
wxRect Control::get_colored_band_rect()
{
int height, width;
get_size(&width, &height);
const wxCoord mid = is_horizontal() ? 0.5 * height : 0.5 * width;
return is_horizontal() ?
wxRect(SLIDER_MARGIN, lround(mid - 0.375 * m_thumb_size.y),
width - 2 * SLIDER_MARGIN + 1, lround(0.75 * m_thumb_size.y)) :
wxRect(lround(mid - 0.375 * m_thumb_size.x), SLIDER_MARGIN,
lround(0.75 * m_thumb_size.x), height - 2 * SLIDER_MARGIN + 1);
}
void Control::draw_colored_band(wxDC& dc)
{
if (m_draw_mode != dmRegular)
return;
auto draw_band = [](wxDC& dc, const wxColour& clr, const wxRect& band_rc)
{
dc.SetPen(clr);
dc.SetBrush(clr);
dc.DrawRectangle(band_rc);
};
wxRect main_band = get_colored_band_rect();
// don't color a band for MultiExtruder mode
if (m_ticks.empty() || m_mode == MultiExtruder) {
draw_band(dc, GetParent()->GetBackgroundColour(), main_band);
return;
}
const int default_color_idx = m_mode==MultiAsSingle ? std::max<int>(m_only_extruder - 1, 0) : 0;
draw_band(dc, wxColour(m_extruder_colors[default_color_idx]), main_band);
std::set<TickCode>::const_iterator tick_it = m_ticks.ticks.begin();
while (tick_it != m_ticks.ticks.end())
{
if ( (m_mode == SingleExtruder && tick_it->type == ColorChange ) ||
(m_mode == MultiAsSingle && (tick_it->type == ToolChange || tick_it->type == ColorChange)) )
{
const wxCoord pos = get_position_from_value(tick_it->tick);
is_horizontal() ? main_band.SetLeft(SLIDER_MARGIN + pos) :
main_band.SetBottom(pos - 1);
const std::string clr_str = m_mode == SingleExtruder ? tick_it->color :
tick_it->type == ToolChange ?
get_color_for_tool_change_tick(tick_it) :
get_color_for_color_change_tick(tick_it);
if (!clr_str.empty())
draw_band(dc, wxColour(clr_str), main_band);
}
++tick_it;
}
}
void Control::Ruler::init(const std::vector<double>& values)
{
max_values.clear();
max_values.reserve(std::count(values.begin(), values.end(), values.front()));
auto it = std::find(values.begin() + 1, values.end(), values.front());
while (it != values.end()) {
max_values.push_back(*(it - 1));
it = std::find(it + 1, values.end(), values.front());
}
max_values.push_back(*(it - 1));
}
void Control::Ruler::update(wxWindow* win, const std::vector<double>& values, double scroll_step)
{
if (values.empty())
return;
int DPI = GUI::get_dpi_for_window(win);
int pixels_per_sm = lround((double)(DPI) * 5.0/25.4);
if (lround(scroll_step) > pixels_per_sm) {
long_step = -1.0;
return;
}
int pow = -2;
int step = 0;
auto end_it = std::find(values.begin() + 1, values.end(), values.front());
while (pow < 3) {
for (int istep : {1, 2, 5}) {
double val = (double)istep * std::pow(10,pow);
auto val_it = std::lower_bound(values.begin(), end_it, val - epsilon());
if (val_it == values.end())
break;
int tick = val_it - values.begin();
// find next tick with istep
val *= 2;
val_it = std::lower_bound(values.begin(), end_it, val - epsilon());
// count of short ticks between ticks
int short_ticks_cnt = val_it == values.end() ? tick : val_it - values.begin() - tick;
if (lround(short_ticks_cnt * scroll_step) > pixels_per_sm) {
step = istep;
// there couldn't be more then 10 short ticks between ticks
short_step = 0.1 * short_ticks_cnt;
break;
}
}
if (step > 0)
break;
pow++;
}
long_step = step == 0 ? -1.0 : (double)step* std::pow(10, pow);
}
void Control::draw_ruler(wxDC& dc)
{
if (m_values.empty())
return;
// When "No sparce layer" is enabled, use m_layers_values for ruler update.
// Because of m_values has duplicate values in this case.
m_ruler.update(this->GetParent(), m_layers_values.empty() ? m_values : m_layers_values, get_scroll_step());
int height, width;
get_size(&width, &height);
const wxCoord mid = is_horizontal() ? 0.5 * height : 0.5 * width;
dc.SetPen(GREY_PEN);
wxColour old_clr = dc.GetTextForeground();
dc.SetTextForeground(GREY_PEN.GetColour());
if (m_ruler.long_step < 0)
for (size_t tick = 1; tick < m_values.size(); tick++) {
wxCoord pos = get_position_from_value(tick);
draw_ticks_pair(dc, pos, mid, 5);
draw_tick_text(dc, wxPoint(mid, pos), tick);
}
else {
auto draw_short_ticks = [this, mid](wxDC& dc, double& current_tick, int max_tick) {
while (current_tick < max_tick) {
wxCoord pos = get_position_from_value(lround(current_tick));
draw_ticks_pair(dc, pos, mid, 2);
current_tick += m_ruler.short_step;
if (current_tick > m_max_value)
break;
}
};
double short_tick = std::nan("");
int tick = 0;
double value = 0.0;
size_t sequence = 0;
int prev_y_pos = -1;
wxCoord label_height = dc.GetMultiLineTextExtent("0").y - 2;
int values_size = (int)m_values.size();
while (tick <= m_max_value) {
value += m_ruler.long_step;
if (value > m_ruler.max_values[sequence] && sequence < m_ruler.count()) {
value = m_ruler.long_step;
for (; tick < values_size; tick++)
if (m_values[tick] < value)
break;
// short ticks from the last tick to the end of current sequence
assert(! std::isnan(short_tick));
draw_short_ticks(dc, short_tick, tick);
sequence++;
}
short_tick = tick;
for (; tick < values_size; tick++) {
if (m_values[tick] == value)
break;
if (m_values[tick] > value) {
if (tick > 0)
tick--;
break;
}
}
if (tick > m_max_value)
break;
wxCoord pos = get_position_from_value(tick);
draw_ticks_pair(dc, pos, mid, 5);
if (prev_y_pos < 0 || prev_y_pos - pos >= label_height) {
draw_tick_text(dc, wxPoint(mid, pos), tick);
prev_y_pos = pos;
}
draw_short_ticks(dc, short_tick, tick);
if (value == m_ruler.max_values[sequence] && sequence < m_ruler.count()) {
value = 0.0;
sequence++;
tick++;
}
}
// short ticks from the last tick to the end
draw_short_ticks(dc, short_tick, m_max_value);
}
dc.SetTextForeground(old_clr);
}
void Control::draw_one_layer_icon(wxDC& dc)
{
if (m_draw_mode == dmSequentialGCodeView)
return;
const wxBitmap& icon = m_is_one_layer ?
m_focus == fiOneLayerIcon ? m_bmp_one_layer_lock_off.bmp() : m_bmp_one_layer_lock_on.bmp() :
m_focus == fiOneLayerIcon ? m_bmp_one_layer_unlock_off.bmp() : m_bmp_one_layer_unlock_on.bmp();
int width, height;
get_size(&width, &height);
wxCoord x_draw, y_draw;
is_horizontal() ? x_draw = width-2 : x_draw = 0.5*width - 0.5*m_lock_icon_dim;
is_horizontal() ? y_draw = 0.5*height - 0.5*m_lock_icon_dim : y_draw = height-2;
dc.DrawBitmap(icon, x_draw, y_draw);
//update rect of the lock/unlock icon
m_rect_one_layer_icon = wxRect(x_draw, y_draw, m_lock_icon_dim, m_lock_icon_dim);
}
void Control::draw_revert_icon(wxDC& dc)
{
if (m_ticks.empty() || m_draw_mode != dmRegular)
return;
int width, height;
get_size(&width, &height);
wxCoord x_draw, y_draw;
is_horizontal() ? x_draw = width-2 : x_draw = 0.25*SLIDER_MARGIN;
is_horizontal() ? y_draw = 0.25*SLIDER_MARGIN: y_draw = height-2;
dc.DrawBitmap(m_bmp_revert.bmp(), x_draw, y_draw);
//update rect of the lock/unlock icon
m_rect_revert_icon = wxRect(x_draw, y_draw, m_revert_icon_dim, m_revert_icon_dim);
}
void Control::draw_cog_icon(wxDC& dc)
{
if (m_draw_mode == dmSequentialGCodeView)
return;
int width, height;
get_size(&width, &height);
wxCoord x_draw, y_draw;
if (m_draw_mode == dmSequentialGCodeView) {
is_horizontal() ? x_draw = width - 2 : x_draw = 0.5 * width - 0.5 * m_cog_icon_dim;
is_horizontal() ? y_draw = 0.5 * height - 0.5 * m_cog_icon_dim : y_draw = height - 2;
}
else {
is_horizontal() ? x_draw = width - 2 : x_draw = width - m_cog_icon_dim - 2;
is_horizontal() ? y_draw = height - m_cog_icon_dim - 2 : y_draw = height - 2;
}
dc.DrawBitmap(m_bmp_cog.bmp(), x_draw, y_draw);
//update rect of the lock/unlock icon
m_rect_cog_icon = wxRect(x_draw, y_draw, m_cog_icon_dim, m_cog_icon_dim);
}
void Control::update_thumb_rect(const wxCoord begin_x, const wxCoord begin_y, const SelectedSlider& selection)
{
const wxRect rect = is_horizontal() ?
wxRect(begin_x + (selection == ssHigher ? m_thumb_size.x / 2 : 0), begin_y, m_thumb_size.x / 2, m_thumb_size.y) :
wxRect(begin_x, begin_y + (selection == ssLower ? m_thumb_size.y / 2 : 0), m_thumb_size.x, m_thumb_size.y / 2);
if (selection == ssLower)
m_rect_lower_thumb = rect;
else
m_rect_higher_thumb = rect;
}
int Control::get_value_from_position(const wxCoord x, const wxCoord y)
{
const int height = get_size().y;
const double step = get_scroll_step();
if (is_horizontal())
return int(double(x - SLIDER_MARGIN) / step + 0.5);
return int(m_min_value + double(height - SLIDER_MARGIN - y) / step + 0.5);
}
bool Control::is_lower_thumb_editable()
{
if (m_draw_mode == dmSequentialGCodeView)
return Slic3r::GUI::get_app_config()->get("seq_top_layer_only") == "0";
return true;
}
bool Control::detect_selected_slider(const wxPoint& pt)
{
if (is_point_in_rect(pt, m_rect_lower_thumb))
m_selection = is_lower_thumb_editable() ? ssLower : ssUndef;
else if(is_point_in_rect(pt, m_rect_higher_thumb))
m_selection = ssHigher;
else
return false; // pt doesn't referenced to any thumb
return true;
}
bool Control::is_point_in_rect(const wxPoint& pt, const wxRect& rect)
{
return rect.GetLeft() <= pt.x && pt.x <= rect.GetRight() &&
rect.GetTop() <= pt.y && pt.y <= rect.GetBottom();
}
int Control::get_tick_near_point(const wxPoint& pt)
{
for (auto tick : m_ticks.ticks) {
const wxCoord pos = get_position_from_value(tick.tick);
if (is_horizontal()) {
if (pos - 4 <= pt.x && pt.x <= pos + 4)
return tick.tick;
}
else {
if (pos - 4 <= pt.y && pt.y <= pos + 4)
return tick.tick;
}
}
return -1;
}
void Control::ChangeOneLayerLock()
{
m_is_one_layer = !m_is_one_layer;
m_selection == ssLower ? correct_lower_value() : correct_higher_value();
if (!m_selection) m_selection = ssHigher;
Refresh();
Update();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::OnLeftDown(wxMouseEvent& event)
{
if (HasCapture())
return;
this->CaptureMouse();
m_is_left_down = true;
m_mouse = maNone;
wxPoint pos = event.GetLogicalPosition(wxClientDC(this));
if (is_point_in_rect(pos, m_rect_one_layer_icon))
m_mouse = maOneLayerIconClick;
else if (is_point_in_rect(pos, m_rect_cog_icon))
m_mouse = maCogIconClick;
else if (m_draw_mode == dmRegular) {
if (is_point_in_rect(pos, m_rect_tick_action)) {
auto it = m_ticks.ticks.find(TickCode{ m_selection == ssLower ? m_lower_value : m_higher_value });
m_mouse = it == m_ticks.ticks.end() ? maAddTick : maDeleteTick;
}
else if (is_point_in_rect(pos, m_rect_revert_icon))
m_mouse = maRevertIconClick;
}
if (m_mouse == maNone)
detect_selected_slider(pos);
event.Skip();
}
void Control::correct_lower_value()
{
if (m_lower_value < m_min_value)
m_lower_value = m_min_value;
else if (m_lower_value > m_max_value)
m_lower_value = m_max_value;
if ((m_lower_value >= m_higher_value && m_lower_value <= m_max_value) || m_is_one_layer)
m_higher_value = m_lower_value;
}
void Control::correct_higher_value()
{
if (m_higher_value > m_max_value)
m_higher_value = m_max_value;
else if (m_higher_value < m_min_value)
m_higher_value = m_min_value;
if ((m_higher_value <= m_lower_value && m_higher_value >= m_min_value) || m_is_one_layer)
m_lower_value = m_higher_value;
}
wxString Control::get_tooltip(int tick/*=-1*/)
{
if (m_focus == fiNone)
return "";
if (m_focus == fiOneLayerIcon)
return _L("One layer mode");
if (m_focus == fiRevertIcon)
return _L("Discard all custom changes");
if (m_focus == fiCogIcon)
{
if (m_draw_mode == dmSequentialGCodeView)
return _L("Jump to move") + " (Shift + G)";
else
return m_mode == MultiAsSingle ?
GUI::from_u8((boost::format(_u8L("Jump to height %s\n"
"Set ruler mode\n"
"or Set extruder sequence for the entire print")) % "(Shift + G)").str()) :
GUI::from_u8((boost::format(_u8L("Jump to height %s\n"
"or Set ruler mode")) % "(Shift + G)").str());
}
if (m_focus == fiColorBand)
return m_mode != SingleExtruder ? "" :
_L("Edit current color - Right click the colored slider segment");
if (m_focus == fiSmartWipeTower)
return _L("This is wipe tower layer");
if (m_draw_mode == dmSlaPrint)
return ""; // no drawn ticks and no tooltips for them in SlaPrinting mode
wxString tooltip;
const auto tick_code_it = m_ticks.ticks.find(TickCode{tick});
if (tick_code_it == m_ticks.ticks.end() && m_focus == fiActionIcon) // tick doesn't exist
{
if (m_draw_mode == dmSequentialFffPrint)
return _L("The sequential print is on.\n"
"It's impossible to apply any custom G-code for objects printing sequentually.\n");
// Show mode as a first string of tooltop
tooltip = " " + _L("Print mode") + ": ";
tooltip += (m_mode == SingleExtruder ? SingleExtruderMode :
m_mode == MultiAsSingle ? MultiAsSingleMode :
MultiExtruderMode );
tooltip += "\n\n";
/* Note: just on OSX!!!
* Right click event causes a little scrolling.
* So, as a workaround we use Ctrl+LeftMouseClick instead of RightMouseClick
* Show this information in tooltip
* */
// Show list of actions with new tick
tooltip += ( m_mode == MultiAsSingle ?
_L("Add extruder change - Left click") :
m_mode == SingleExtruder ?
_L("Add color change - Left click for predefined color or "
"Shift + Left click for custom color selection") :
_L("Add color change - Left click") ) + " " +
_L("or press \"+\" key") + "\n" + (
is_osx ?
_L("Add another code - Ctrl + Left click") :
_L("Add another code - Right click") );
}
if (tick_code_it != m_ticks.ticks.end()) // tick exists
{
if (m_draw_mode == dmSequentialFffPrint)
return _L("The sequential print is on.\n"
"It's impossible to apply any custom G-code for objects printing sequentually.\n"
"This code won't be processed during G-code generation.");
// Show custom Gcode as a first string of tooltop
std::string space = " ";
tooltip = space;
auto format_gcode = [space](std::string gcode) {
boost::replace_all(gcode, "\n", "\n" + space);
return gcode;
};
tooltip +=
tick_code_it->type == ColorChange ?
(m_mode == SingleExtruder ?
format_wxstr(_L("Color change (\"%1%\")"), gcode(ColorChange)) :
format_wxstr(_L("Color change (\"%1%\") for Extruder %2%"), gcode(ColorChange), tick_code_it->extruder)) :
tick_code_it->type == PausePrint ?
format_wxstr(_L("Pause print (\"%1%\")"), gcode(PausePrint)) :
tick_code_it->type == Template ?
format_wxstr(_L("Custom template (\"%1%\")"), gcode(Template)) :
tick_code_it->type == ToolChange ?
format_wxstr(_L("Extruder (tool) is changed to Extruder \"%1%\""), tick_code_it->extruder) :
from_u8(format_gcode(tick_code_it->extra));// tick_code_it->type == Custom
// If tick is marked as a conflict (exclamation icon),
// we should to explain why
ConflictType conflict = m_ticks.is_conflict_tick(*tick_code_it, m_mode, m_only_extruder, m_values[tick]);
if (conflict != ctNone)
tooltip += "\n\n" + _L("Note") + "! ";
if (conflict == ctModeConflict)
tooltip += _L("G-code associated to this tick mark is in a conflict with print mode.\n"
"Editing it will cause changes of Slider data.");
else if (conflict == ctMeaninglessColorChange)
tooltip += _L("There is a color change for extruder that won't be used till the end of print job.\n"
"This code won't be processed during G-code generation.");
else if (conflict == ctMeaninglessToolChange)
tooltip += _L("There is an extruder change set to the same extruder.\n"
"This code won't be processed during G-code generation.");
else if (conflict == ctRedundant)
tooltip += _L("There is a color change for extruder that has not been used before.\n"
"Check your settings to avoid redundant color changes.");
// Show list of actions with existing tick
if (m_focus == fiActionIcon)
tooltip += "\n\n" + _L("Delete tick mark - Left click or press \"-\" key") + "\n" + (
is_osx ?
_L("Edit tick mark - Ctrl + Left click") :
_L("Edit tick mark - Right click") );
}
return tooltip;
}
int Control::get_edited_tick_for_position(const wxPoint pos, Type type /*= ColorChange*/)
{
if (m_ticks.empty())
return -1;
int tick = get_value_from_position(pos);
auto it = std::lower_bound(m_ticks.ticks.begin(), m_ticks.ticks.end(), TickCode{ tick });
while (it != m_ticks.ticks.begin()) {
--it;
if (it->type == type)
return it->tick;
}
return -1;
}
void Control::OnMotion(wxMouseEvent& event)
{
bool action = false;
const wxPoint pos = event.GetLogicalPosition(wxClientDC(this));
int tick = -1;
if (!m_is_left_down && !m_is_right_down) {
if (is_point_in_rect(pos, m_rect_one_layer_icon))
m_focus = fiOneLayerIcon;
else if (is_point_in_rect(pos, m_rect_tick_action)) {
m_focus = fiActionIcon;
tick = m_selection == ssLower ? m_lower_value : m_higher_value;
}
else if (!m_ticks.empty() && is_point_in_rect(pos, m_rect_revert_icon))
m_focus = fiRevertIcon;
else if (is_point_in_rect(pos, m_rect_cog_icon))
m_focus = fiCogIcon;
else if (m_mode == SingleExtruder && is_point_in_rect(pos, get_colored_band_rect()) &&
get_edited_tick_for_position(pos) >= 0 )
m_focus = fiColorBand;
else if (is_point_in_rect(pos, m_rect_lower_thumb))
m_focus = fiLowerThumb;
else if (is_point_in_rect(pos, m_rect_higher_thumb))
m_focus = fiHigherThumb;
else {
tick = get_tick_near_point(pos);
if (tick < 0 && m_is_wipe_tower) {
tick = get_value_from_position(pos);
m_focus = tick > 0 && is_wipe_tower_layer(tick) && (tick == m_lower_value || tick == m_higher_value) ?
fiSmartWipeTower : fiTick;
}
else
m_focus = fiTick;
}
m_moving_pos = pos;
}
else if (m_is_left_down || m_is_right_down) {
if (m_selection == ssLower) {
int current_value = m_lower_value;
m_lower_value = get_value_from_position(pos.x, pos.y);
correct_lower_value();
action = (current_value != m_lower_value);
}
else if (m_selection == ssHigher) {
int current_value = m_higher_value;
m_higher_value = get_value_from_position(pos.x, pos.y);
correct_higher_value();
action = (current_value != m_higher_value);
}
m_moving_pos = wxDefaultPosition;
}
Refresh();
Update();
event.Skip();
// Set tooltips with information for each icon
if (GUI::wxGetApp().is_editor())
this->SetToolTip(get_tooltip(tick));
if (action) {
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
e.SetString("moving");
ProcessWindowEvent(e);
}
}
void Control::append_change_extruder_menu_item(wxMenu* menu, bool switch_current_code/* = false*/)
{
const int extruders_cnt = GUI::wxGetApp().extruders_edited_cnt();
if (extruders_cnt > 1) {
std::array<int, 2> active_extruders = get_active_extruders_for_tick(m_selection == ssLower ? m_lower_value : m_higher_value);
std::vector<wxBitmap*> icons = get_extruder_color_icons(true);
wxMenu* change_extruder_menu = new wxMenu();
for (int i = 1; i <= extruders_cnt; i++) {
const bool is_active_extruder = i == active_extruders[0] || i == active_extruders[1];
const wxString item_name = wxString::Format(_L("Extruder %d"), i) +
(is_active_extruder ? " (" + _L("active") + ")" : "");
if (m_mode == MultiAsSingle)
append_menu_item(change_extruder_menu, wxID_ANY, item_name, "",
[this, i](wxCommandEvent&) { add_code_as_tick(ToolChange, i); }, *icons[i-1], menu,
[is_active_extruder]() { return !is_active_extruder; }, GUI::wxGetApp().plater());
}
const wxString change_extruder_menu_name = m_mode == MultiAsSingle ?
(switch_current_code ? _L("Switch code to Change extruder") : _L("Change extruder") ) :
_L("Change extruder (N/A)");
append_submenu(menu, change_extruder_menu, wxID_ANY, change_extruder_menu_name, _L("Use another extruder"),
active_extruders[1] > 0 ? "edit_uni" : "change_extruder",
[this]() {return m_mode == MultiAsSingle && !GUI::wxGetApp().obj_list()->has_paint_on_segmentation(); }, GUI::wxGetApp().plater());
}
}
void Control::append_add_color_change_menu_item(wxMenu* menu, bool switch_current_code/* = false*/)
{
const int extruders_cnt = GUI::wxGetApp().extruders_edited_cnt();
if (extruders_cnt > 1) {
int tick = m_selection == ssLower ? m_lower_value : m_higher_value;
std::set<int> used_extruders_for_tick = m_ticks.get_used_extruders_for_tick(tick, m_only_extruder, m_values[tick]);
wxMenu* add_color_change_menu = new wxMenu();
for (int i = 1; i <= extruders_cnt; i++) {
const bool is_used_extruder = used_extruders_for_tick.empty() ? true : // #ys_FIXME till used_extruders_for_tick doesn't filled correct for mmMultiExtruder
used_extruders_for_tick.find(i) != used_extruders_for_tick.end();
const wxString item_name = wxString::Format(_L("Extruder %d"), i) +
(is_used_extruder ? " (" + _L("used") + ")" : "");
append_menu_item(add_color_change_menu, wxID_ANY, item_name, "",
[this, i](wxCommandEvent&) { add_code_as_tick(ColorChange, i); }, "", menu,
[]() { return true; }, GUI::wxGetApp().plater());
}
const wxString menu_name = switch_current_code ?
format_wxstr(_L("Switch code to Color change (%1%) for:"), gcode(ColorChange)) :
format_wxstr(_L("Add color change (%1%) for:"), gcode(ColorChange));
wxMenuItem* add_color_change_menu_item = menu->AppendSubMenu(add_color_change_menu, menu_name, "");
add_color_change_menu_item->SetBitmap(create_menu_bitmap("colorchange_add_m"));
}
}
void Control::OnLeftUp(wxMouseEvent& event)
{
if (!HasCapture())
return;
this->ReleaseMouse();
m_is_left_down = false;
switch (m_mouse) {
case maNone :
move_current_thumb_to_pos(event.GetLogicalPosition(wxClientDC(this)));
break;
case maDeleteTick :
delete_current_tick();
break;
case maAddTick :
add_current_tick();
break;
case maCogIconClick :
show_cog_icon_context_menu();
break;
case maOneLayerIconClick:
switch_one_layer_mode();
break;
case maRevertIconClick:
discard_all_thicks();
break;
default :
break;
}
Refresh();
Update();
event.Skip();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::enter_window(wxMouseEvent& event, const bool enter)
{
m_is_focused = enter;
Refresh();
Update();
event.Skip();
}
// "condition" have to be true for:
// - value increase (if wxSL_VERTICAL)
// - value decrease (if wxSL_HORIZONTAL)
void Control::move_current_thumb(const bool condition)
{
// m_is_one_layer = wxGetKeyState(WXK_CONTROL);
int delta = condition ? -1 : 1;
if (is_horizontal())
delta *= -1;
// accelerators
int accelerator = 0;
if (wxGetKeyState(WXK_SHIFT))
accelerator += 5;
if (wxGetKeyState(WXK_CONTROL))
accelerator += 5;
if (accelerator > 0)
delta *= accelerator;
if (m_selection == ssUndef)
m_selection = ssHigher;
if (m_selection == ssLower) {
m_lower_value -= delta;
correct_lower_value();
}
else if (m_selection == ssHigher) {
m_higher_value -= delta;
correct_higher_value();
}
Refresh();
Update();
wxCommandEvent e(wxEVT_SCROLL_CHANGED);
e.SetEventObject(this);
ProcessWindowEvent(e);
}
void Control::OnWheel(wxMouseEvent& event)
{
// Set nearest to the mouse thumb as a selected, if there is not selected thumb
if (m_selection == ssUndef) {
const wxPoint& pt = event.GetLogicalPosition(wxClientDC(this));
if (is_horizontal())
m_selection = abs(pt.x - m_rect_lower_thumb.GetRight()) <=
abs(pt.x - m_rect_higher_thumb.GetLeft()) ?
ssLower : ssHigher;
else
m_selection = abs(pt.y - m_rect_lower_thumb.GetTop()) <=
abs(pt.y - m_rect_higher_thumb.GetBottom()) ?
ssLower : ssHigher;
}
if (m_selection == ssLower && !is_lower_thumb_editable())
m_selection = ssUndef;
move_current_thumb((m_draw_mode == dmSequentialGCodeView) ? event.GetWheelRotation() < 0 : event.GetWheelRotation() > 0);
}
void Control::OnKeyDown(wxKeyEvent &event)
{
const int key = event.GetKeyCode();
if (m_draw_mode != dmSequentialGCodeView && key == WXK_NUMPAD_ADD) {
// OnChar() is called immediately after OnKeyDown(), which can cause call of add_tick() twice.
// To avoid this case we should suppress second add_tick() call.
m_ticks.suppress_plus(true);
add_current_tick(true);
}
else if (m_draw_mode != dmSequentialGCodeView && (key == WXK_NUMPAD_SUBTRACT || key == WXK_DELETE || key == WXK_BACK)) {
// OnChar() is called immediately after OnKeyDown(), which can cause call of delete_tick() twice.
// To avoid this case we should suppress second delete_tick() call.
m_ticks.suppress_minus(true);
delete_current_tick();
}
else if (m_draw_mode != dmSequentialGCodeView && event.GetKeyCode() == WXK_SHIFT)
UseDefaultColors(false);
else if (is_horizontal()) {
if (m_is_focused) {
if (key == WXK_LEFT || key == WXK_RIGHT)
move_current_thumb(key == WXK_LEFT);
else if (key == WXK_UP || key == WXK_DOWN) {
if (key == WXK_DOWN)
m_selection = ssHigher;
else if (key == WXK_UP && is_lower_thumb_editable())
m_selection = ssLower;
Refresh();
}
}
else {
if (key == WXK_LEFT || key == WXK_RIGHT)
move_current_thumb(key == WXK_LEFT);
}
}
else {
if (m_is_focused) {
if (key == WXK_LEFT || key == WXK_RIGHT) {
if (key == WXK_LEFT)
m_selection = ssHigher;
else if (key == WXK_RIGHT && is_lower_thumb_editable())
m_selection = ssLower;
Refresh();
}
else if (key == WXK_UP || key == WXK_DOWN)
move_current_thumb(key == WXK_UP);
}
else {
if (key == WXK_UP || key == WXK_DOWN)
move_current_thumb(key == WXK_UP);
}
}
event.Skip(); // !Needed to have EVT_CHAR generated as well
}
void Control::OnKeyUp(wxKeyEvent &event)
{
if (event.GetKeyCode() == WXK_CONTROL)
m_is_one_layer = false;
else if (event.GetKeyCode() == WXK_SHIFT)
UseDefaultColors(true);
Refresh();
Update();
event.Skip();
}
void Control::OnChar(wxKeyEvent& event)
{
const int key = event.GetKeyCode();
if (m_draw_mode != dmSequentialGCodeView) {
if (key == '+' && !m_ticks.suppressed_plus()) {
add_current_tick(true);
m_ticks.suppress_plus(false);
}
else if (key == '-' && !m_ticks.suppressed_minus()) {
delete_current_tick();
m_ticks.suppress_minus(false);
}
}
if (key == 'G')
jump_to_value();
}
void Control::OnRightDown(wxMouseEvent& event)
{
if (HasCapture() || m_is_left_down)
return;
this->CaptureMouse();
const wxPoint pos = event.GetLogicalPosition(wxClientDC(this));
m_mouse = maNone;
if (m_draw_mode == dmRegular) {
if (is_point_in_rect(pos, m_rect_tick_action)) {
const int tick = m_selection == ssLower ? m_lower_value : m_higher_value;
m_mouse = m_ticks.ticks.find(TickCode{ tick }) == m_ticks.ticks.end() ?
maAddMenu : maEditMenu;
}
else if (m_mode == SingleExtruder && !detect_selected_slider(pos) && is_point_in_rect(pos, get_colored_band_rect()))
m_mouse = maForceColorEdit;
else if (m_mode == MultiAsSingle && is_point_in_rect(pos, m_rect_cog_icon))
m_mouse = maCogIconMenu;
}
if (m_mouse != maNone || !detect_selected_slider(pos))
return;
if (m_selection == ssLower)
m_higher_value = m_lower_value;
else
m_lower_value = m_higher_value;
// set slider to "one layer" mode
m_is_right_down = m_is_one_layer = true;
Refresh();
Update();
event.Skip();
}
// Get active extruders for tick.
// Means one current extruder for not existing tick OR
// 2 extruders - for existing tick (extruder before ToolChange and extruder of current existing tick)
// Use those values to disable selection of active extruders
std::array<int, 2> Control::get_active_extruders_for_tick(int tick) const
{
int default_initial_extruder = m_mode == MultiAsSingle ? std::max<int>(1, m_only_extruder) : 1;
std::array<int, 2> extruders = { default_initial_extruder, -1 };
if (m_ticks.empty())
return extruders;
auto it = m_ticks.ticks.lower_bound(TickCode{tick});
if (it != m_ticks.ticks.end() && it->tick == tick) // current tick exists
extruders[1] = it->extruder;
while (it != m_ticks.ticks.begin()) {
--it;
if(it->type == ToolChange) {
extruders[0] = it->extruder;
break;
}
}
return extruders;
}
// Get used extruders for tick.
// Means all extruders(tools) which will be used during printing from current tick to the end
std::set<int> TickCodeInfo::get_used_extruders_for_tick(int tick, int only_extruder, double print_z, Mode force_mode/* = Undef*/) const
{
Mode e_mode = !force_mode ? mode : force_mode;
if (e_mode == MultiExtruder) {
// #ys_FIXME: get tool ordering from _correct_ place
const ToolOrdering& tool_ordering = GUI::wxGetApp().plater()->fff_print().get_tool_ordering();
if (tool_ordering.empty())
return {};
std::set<int> used_extruders;
auto it_layer_tools = std::lower_bound(tool_ordering.begin(), tool_ordering.end(), LayerTools(print_z));
for (; it_layer_tools != tool_ordering.end(); ++it_layer_tools) {
const std::vector<unsigned>& extruders = it_layer_tools->extruders;
for (const auto& extruder : extruders)
used_extruders.emplace(extruder+1);
}
return used_extruders;
}
const int default_initial_extruder = e_mode == MultiAsSingle ? std::max(only_extruder, 1) : 1;
if (ticks.empty() || e_mode == SingleExtruder)
return {default_initial_extruder};
std::set<int> used_extruders;
auto it_start = ticks.lower_bound(TickCode{tick});
auto it = it_start;
if (it == ticks.begin() && it->type == ToolChange &&
tick != it->tick ) // In case of switch of ToolChange to ColorChange, when tick exists,
// we shouldn't change color for extruder, which will be deleted
{
used_extruders.emplace(it->extruder);
if (tick < it->tick)
used_extruders.emplace(default_initial_extruder);
}
while (it != ticks.begin()) {
--it;
if (it->type == ToolChange && tick != it->tick) {
used_extruders.emplace(it->extruder);
break;
}
}
if (it == ticks.begin() && used_extruders.empty())
used_extruders.emplace(default_initial_extruder);
for (it = it_start; it != ticks.end(); ++it)
if (it->type == ToolChange && tick != it->tick)
used_extruders.emplace(it->extruder);
return used_extruders;
}
void Control::show_add_context_menu()
{
wxMenu menu;
if (m_mode == SingleExtruder) {
append_menu_item(&menu, wxID_ANY, _L("Add color change") + " (" + gcode(ColorChange) + ")", "",
[this](wxCommandEvent&) { add_code_as_tick(ColorChange); }, "colorchange_add_m", &menu);
UseDefaultColors(false);
}
else {
append_change_extruder_menu_item(&menu);
append_add_color_change_menu_item(&menu);
}
if (!gcode(PausePrint).empty())
append_menu_item(&menu, wxID_ANY, _L("Add pause print") + " (" + gcode(PausePrint) + ")", "",
[this](wxCommandEvent&) { add_code_as_tick(PausePrint); }, "pause_print", &menu);
if (!gcode(Template).empty())
append_menu_item(&menu, wxID_ANY, _L("Add custom template") + " (" + gcode(Template) + ")", "",
[this](wxCommandEvent&) { add_code_as_tick(Template); }, "edit_gcode", &menu);
append_menu_item(&menu, wxID_ANY, _L("Add custom G-code"), "",
[this](wxCommandEvent&) { add_code_as_tick(Custom); }, "edit_gcode", &menu);
GUI::wxGetApp().plater()->PopupMenu(&menu);
}
void Control::show_edit_context_menu()
{
wxMenu menu;
std::set<TickCode>::iterator it = m_ticks.ticks.find(TickCode{ m_selection == ssLower ? m_lower_value : m_higher_value });
if (it->type == ToolChange) {
if (m_mode == MultiAsSingle)
append_change_extruder_menu_item(&menu);
append_add_color_change_menu_item(&menu, true);
}
else
append_menu_item(&menu, wxID_ANY, it->type == ColorChange ? _L("Edit color") :
it->type == PausePrint ? _L("Edit pause print message") :
_L("Edit custom G-code"), "",
[this](wxCommandEvent&) { edit_tick(); }, "edit_uni", &menu);
if (it->type == ColorChange && m_mode == MultiAsSingle)
append_change_extruder_menu_item(&menu, true);
append_menu_item(&menu, wxID_ANY, it->type == ColorChange ? _L("Delete color change") :
it->type == ToolChange ? _L("Delete tool change") :
it->type == PausePrint ? _L("Delete pause print") :
_L("Delete custom G-code"), "",
[this](wxCommandEvent&) { delete_current_tick();}, "colorchange_del_f", &menu);
GUI::wxGetApp().plater()->PopupMenu(&menu);
}
void Control::show_cog_icon_context_menu()
{
wxMenu menu;
append_menu_item(&menu, wxID_ANY, _L("Jump to height") + " (Shift+G)", "",
[this](wxCommandEvent&) { jump_to_value(); }, "", & menu);
wxMenu* ruler_mode_menu = new wxMenu();
if (ruler_mode_menu) {
append_menu_check_item(ruler_mode_menu, wxID_ANY, _L("None"), _L("Hide ruler"),
[this](wxCommandEvent&) { if (m_extra_style != 0) m_extra_style = 0; }, ruler_mode_menu,
[]() { return true; }, [this]() { return m_extra_style == 0; }, GUI::wxGetApp().plater());
append_menu_check_item(ruler_mode_menu, wxID_ANY, _L("Show object height"), _L("Show object height on the ruler"),
[this](wxCommandEvent&) { m_extra_style & wxSL_AUTOTICKS ? m_extra_style ^= wxSL_AUTOTICKS : m_extra_style |= wxSL_AUTOTICKS; }, ruler_mode_menu,
[]() { return true; }, [this]() { return m_extra_style & wxSL_AUTOTICKS; }, GUI::wxGetApp().plater());
append_menu_check_item(ruler_mode_menu, wxID_ANY, _L("Show estimated print time"), _L("Show estimated print time on the ruler"),
[this](wxCommandEvent&) { m_extra_style & wxSL_VALUE_LABEL ? m_extra_style ^= wxSL_VALUE_LABEL : m_extra_style |= wxSL_VALUE_LABEL; }, ruler_mode_menu,
[]() { return true; }, [this]() { return m_extra_style & wxSL_VALUE_LABEL; }, GUI::wxGetApp().plater());
append_submenu(&menu, ruler_mode_menu, wxID_ANY, _L("Ruler mode"), _L("Set ruler mode"), "",
[]() { return true; }, this);
}
if (m_mode == MultiAsSingle && m_draw_mode == dmRegular)
append_menu_item(&menu, wxID_ANY, _L("Set extruder sequence for the entire print"), "",
[this](wxCommandEvent&) { edit_extruder_sequence(); }, "", &menu);
if (GUI::wxGetApp().is_editor() && m_mode != MultiExtruder && m_draw_mode == dmRegular)
append_menu_item(&menu, wxID_ANY, _L("Set auto color changes"), "",
[this](wxCommandEvent&) { auto_color_change(); }, "", &menu);
GUI::wxGetApp().plater()->PopupMenu(&menu);
}
bool check_color_change(PrintObject* object, size_t frst_layer_id, size_t layers_cnt, bool check_overhangs, std::function<bool(Layer*)> break_condition)
{
double prev_area = area(object->get_layer(frst_layer_id)->lslices);
bool detected = false;
for (size_t i = frst_layer_id+1; i < layers_cnt; i++) {
Layer* layer = object->get_layer(i);
double cur_area = area(layer->lslices);
// check for overhangs
if (check_overhangs && cur_area > prev_area && !equivalent_areas(prev_area, cur_area))
break;
// Check percent of the area decrease.
// This value have to be more than min_delta_area and more then 10%
if ((prev_area - cur_area > min_delta_area) && (cur_area / prev_area < 0.9)) {
detected = true;
if (break_condition(layer))
break;
}
prev_area = cur_area;
}
return detected;
}
void Control::auto_color_change()
{
if (!m_ticks.empty()) {
wxString msg_text = _L("This action will cause deletion of all ticks on vertical slider.") + "\n\n" +
_L("This action is not revertible.\nDo you want to proceed?");
GUI::WarningDialog dialog(m_parent, msg_text, _L("Warning"), wxYES | wxNO);
if (dialog.ShowModal() == wxID_NO)
return;
m_ticks.ticks.clear();
}
int extruders_cnt = GUI::wxGetApp().extruders_edited_cnt();
// int extruder = 2;
const Print& print = GUI::wxGetApp().plater()->fff_print();
for (auto object : print.objects()) {
if (object->layer_count() == 0)
continue;
check_color_change(object, 1, object->layers().size(), false, [this, extruders_cnt](Layer* layer)
{
int tick = get_tick_from_value(layer->print_z);
if (tick >= 0 && !m_ticks.has_tick(tick)) {
if (m_mode == SingleExtruder) {
m_ticks.set_default_colors(true);
m_ticks.add_tick(tick, ColorChange, 1, layer->print_z);
}
else {
int extruder = 2;
if (!m_ticks.empty()) {
auto it = m_ticks.ticks.end();
it--;
extruder = it->extruder + 1;
if (extruder > extruders_cnt)
extruder = 1;
}
m_ticks.add_tick(tick, ToolChange, extruder, layer->print_z);
}
}
// allow max 3 auto color changes
return m_ticks.ticks.size() > 2;
});
}
if (m_ticks.empty())
GUI::wxGetApp().plater()->get_notification_manager()->push_notification(GUI::NotificationType::EmptyAutoColorChange);
post_ticks_changed_event();
}
void Control::OnRightUp(wxMouseEvent& event)
{
if (!HasCapture() || m_is_left_down)
return;
this->ReleaseMouse();
m_is_right_down = m_is_one_layer = false;
if (m_mouse == maForceColorEdit) {
wxPoint pos = event.GetLogicalPosition(wxClientDC(this));
int edited_tick = get_edited_tick_for_position(pos);
if (edited_tick >= 0)
edit_tick(edited_tick);
}
else if (m_mouse == maAddMenu)
show_add_context_menu();
else if (m_mouse == maEditMenu)
show_edit_context_menu();
else if (m_mouse == maCogIconMenu)
show_cog_icon_context_menu();
Refresh();
Update();
event.Skip();
}
static std::string get_new_color(const std::string& color)
{
wxColour clr(color);
if (!clr.IsOk())
clr = wxColour(0, 0, 0); // Don't set alfa to transparence
auto data = new wxColourData();
data->SetChooseFull(1);
data->SetColour(clr);
wxColourDialog dialog(nullptr, data);
dialog.CenterOnParent();
if (dialog.ShowModal() == wxID_OK)
return dialog.GetColourData().GetColour().GetAsString(wxC2S_HTML_SYNTAX).ToStdString();
return "";
}
/* To avoid get an empty string from wxTextEntryDialog
* Let disable OK button, if TextCtrl is empty
* OR input value is our of range (min..max), when min a nd max are positive
* */
static void upgrade_text_entry_dialog(wxTextEntryDialog* dlg, double min = -1.0, double max = -1.0)
{
GUI::wxGetApp().UpdateDlgDarkUI(dlg);
// detect TextCtrl and OK button
wxTextCtrl* textctrl {nullptr};
wxWindowList& dlg_items = dlg->GetChildren();
for (auto item : dlg_items) {
textctrl = dynamic_cast<wxTextCtrl*>(item);
if (textctrl)
break;
}
if (!textctrl)
return;
textctrl->SetInsertionPointEnd();
wxButton* btn_OK = static_cast<wxButton*>(dlg->FindWindowById(wxID_OK));
btn_OK->Bind(wxEVT_UPDATE_UI, [textctrl, min, max](wxUpdateUIEvent& evt)
{
bool disable = textctrl->IsEmpty();
if (!disable && min >= 0.0 && max >= 0.0) {
double value = -1.0;
if (!textctrl->GetValue().ToDouble(&value)) // input value couldn't be converted to double
disable = true;
else
disable = value < min - epsilon() || value > max + epsilon(); // is input value is out of valid range ?
}
evt.Enable(!disable);
}, btn_OK->GetId());
}
static std::string get_custom_code(const std::string& code_in, double height)
{
wxString msg_text = _L("Enter custom G-code used on current layer") + ":";
wxString msg_header = format_wxstr(_L("Custom G-code on current layer (%1% mm)."), height);
// get custom gcode
wxTextEntryDialog dlg(nullptr, msg_text, msg_header, code_in,
wxTextEntryDialogStyle | wxTE_MULTILINE);
upgrade_text_entry_dialog(&dlg);
bool valid = true;
std::string value;
do {
if (dlg.ShowModal() != wxID_OK)
return "";
value = into_u8(dlg.GetValue());
valid = GUI::Tab::validate_custom_gcode("Custom G-code", value);
} while (!valid);
return value;
}
static std::string get_pause_print_msg(const std::string& msg_in, double height)
{
wxString msg_text = _L("Enter short message shown on Printer display when a print is paused") + ":";
wxString msg_header = format_wxstr(_L("Message for pause print on current layer (%1% mm)."), height);
// get custom gcode
wxTextEntryDialog dlg(nullptr, msg_text, msg_header, from_u8(msg_in),
wxTextEntryDialogStyle);
upgrade_text_entry_dialog(&dlg);
if (dlg.ShowModal() != wxID_OK || dlg.GetValue().IsEmpty())
return "";
return into_u8(dlg.GetValue());
}
static double get_value_to_jump(double active_value, double min_z, double max_z, DrawMode mode)
{
wxString msg_text = (mode == dmSequentialGCodeView) ? _L("Enter the move you want to jump to") + ":" : _L("Enter the height you want to jump to") + ":";
wxString msg_header = (mode == dmSequentialGCodeView) ? _L("Jump to move") : _L("Jump to height");
wxString msg_in = GUI::double_to_string(active_value);
// get custom gcode
wxTextEntryDialog dlg(nullptr, msg_text, msg_header, msg_in, wxTextEntryDialogStyle);
upgrade_text_entry_dialog(&dlg, min_z, max_z);
if (dlg.ShowModal() != wxID_OK || dlg.GetValue().IsEmpty())
return -1.0;
double value = -1.0;
return dlg.GetValue().ToDouble(&value) ? value : -1.0;
}
void Control::add_code_as_tick(Type type, int selected_extruder/* = -1*/)
{
if (m_selection == ssUndef)
return;
const int tick = m_selection == ssLower ? m_lower_value : m_higher_value;
if ( !check_ticks_changed_event(type) )
return;
if (type == ColorChange && gcode(ColorChange).empty())
GUI::wxGetApp().plater()->get_notification_manager()->push_notification(GUI::NotificationType::EmptyColorChangeCode);
const int extruder = selected_extruder > 0 ? selected_extruder : std::max<int>(1, m_only_extruder);
const auto it = m_ticks.ticks.find(TickCode{ tick });
if ( it == m_ticks.ticks.end() ) {
// try to add tick
if (!m_ticks.add_tick(tick, type, extruder, m_values[tick]))
return;
}
else if (type == ToolChange || type == ColorChange) {
// try to switch tick code to ToolChange or ColorChange accordingly
if (!m_ticks.switch_code_for_tick(it, type, extruder))
return;
}
else
return;
post_ticks_changed_event(type);
}
void Control::add_current_tick(bool call_from_keyboard /*= false*/)
{
if (m_selection == ssUndef)
return;
const int tick = m_selection == ssLower ? m_lower_value : m_higher_value;
auto it = m_ticks.ticks.find(TickCode{ tick });
if (it != m_ticks.ticks.end() || // this tick is already exist
!check_ticks_changed_event(m_mode == MultiAsSingle ? ToolChange : ColorChange))
return;
if (m_mode == SingleExtruder)
add_code_as_tick(ColorChange);
else
{
wxMenu menu;
if (m_mode == MultiAsSingle)
append_change_extruder_menu_item(&menu);
else
append_add_color_change_menu_item(&menu);
wxPoint pos = wxDefaultPosition;
/* Menu position will be calculated from mouse click position, but...
* if function is called from keyboard (pressing "+"), we should to calculate it
* */
if (call_from_keyboard) {
int width, height;
get_size(&width, &height);
const wxCoord coord = 0.75 * (is_horizontal() ? height : width);
this->GetPosition(&width, &height);
pos = is_horizontal() ?
wxPoint(get_position_from_value(tick), height + coord) :
wxPoint(width + coord, get_position_from_value(tick));
}
GUI::wxGetApp().plater()->PopupMenu(&menu, pos);
}
}
void Control::delete_current_tick()
{
if (m_selection == ssUndef)
return;
auto it = m_ticks.ticks.find(TickCode{ m_selection == ssLower ? m_lower_value : m_higher_value });
if (it == m_ticks.ticks.end() ||
!check_ticks_changed_event(it->type))
return;
Type type = it->type;
m_ticks.ticks.erase(it);
post_ticks_changed_event(type);
}
void Control::edit_tick(int tick/* = -1*/)
{
if (tick < 0)
tick = m_selection == ssLower ? m_lower_value : m_higher_value;
const std::set<TickCode>::iterator it = m_ticks.ticks.find(TickCode{ tick });
if (it == m_ticks.ticks.end() ||
!check_ticks_changed_event(it->type))
return;
Type type = it->type;
if (m_ticks.edit_tick(it, m_values[it->tick]))
post_ticks_changed_event(type);
}
// switch on/off one layer mode
void Control::switch_one_layer_mode()
{
m_is_one_layer = !m_is_one_layer;
if (!m_is_one_layer) {
SetLowerValue(m_min_value);
SetHigherValue(m_max_value);
}
m_selection == ssLower ? correct_lower_value() : correct_higher_value();
if (m_selection == ssUndef) m_selection = ssHigher;
}
// discard all custom changes on DoubleSlider
void Control::discard_all_thicks()
{
SetLowerValue(m_min_value);
SetHigherValue(m_max_value);
m_selection == ssLower ? correct_lower_value() : correct_higher_value();
if (m_selection == ssUndef) m_selection = ssHigher;
m_ticks.ticks.clear();
post_ticks_changed_event();
}
// Set current thumb position to the nearest tick (if it is)
// OR to a value corresponding to the mouse click (pos)
void Control::move_current_thumb_to_pos(wxPoint pos)
{
const int tick_val = get_tick_near_point(pos);
const int mouse_val = tick_val >= 0 && m_draw_mode == dmRegular ? tick_val :
get_value_from_position(pos);
if (mouse_val >= 0) {
if (m_selection == ssLower) {
SetLowerValue(mouse_val);
correct_lower_value();
}
else { // even m_selection is ssUndef, upper thumb should be selected
SetHigherValue(mouse_val);
correct_higher_value();
}
}
}
void Control::edit_extruder_sequence()
{
if (!check_ticks_changed_event(ToolChange))
return;
GUI::ExtruderSequenceDialog dlg(m_extruders_sequence);
if (dlg.ShowModal() != wxID_OK)
return;
m_extruders_sequence = dlg.GetValue();
m_ticks.erase_all_ticks_with_code(ToolChange);
const int extr_cnt = m_extruders_sequence.extruders.size();
if (extr_cnt == 1)
return;
int tick = 0;
double value = 0.0;
int extruder = -1;
std::random_device rd; //Will be used to obtain a seed for the random number engine
std::mt19937 gen(rd()); //Standard mersenne_twister_engine seeded with rd()
std::uniform_int_distribution<> distrib(0, extr_cnt-1);
while (tick <= m_max_value)
{
bool color_repetition = false;
if (m_extruders_sequence.random_sequence) {
int rand_extr = distrib(gen);
if (m_extruders_sequence.color_repetition)
color_repetition = rand_extr == extruder;
else
while (rand_extr == extruder)
rand_extr = distrib(gen);
extruder = rand_extr;
}
else {
extruder++;
if (extruder == extr_cnt)
extruder = 0;
}
const int cur_extruder = m_extruders_sequence.extruders[extruder];
bool meaningless_tick = tick == 0.0 && cur_extruder == extruder;
if (!meaningless_tick && !color_repetition)
m_ticks.ticks.emplace(TickCode{tick, ToolChange,cur_extruder + 1, m_extruder_colors[cur_extruder]});
if (m_extruders_sequence.is_mm_intervals) {
value += m_extruders_sequence.interval_by_mm;
tick = get_tick_from_value(value, true);
if (tick < 0)
break;
}
else
tick += m_extruders_sequence.interval_by_layers;
}
post_ticks_changed_event(ToolChange);
}
void Control::jump_to_value()
{
double value = get_value_to_jump(m_values[m_selection == ssLower ? m_lower_value : m_higher_value],
m_values[m_min_value], m_values[m_max_value], m_draw_mode);
if (value < 0.0)
return;
int tick_value = get_tick_from_value(value);
if (m_selection == ssLower)
SetLowerValue(tick_value);
else
SetHigherValue(tick_value);
}
void Control::post_ticks_changed_event(Type type /*= Custom*/)
{
// m_force_mode_apply = type != ToolChange; // It looks like this condition is no needed now. Leave it for the testing
wxPostEvent(this->GetParent(), wxCommandEvent(wxCUSTOMEVT_TICKSCHANGED));
}
bool Control::check_ticks_changed_event(Type type)
{
if ( m_ticks.mode == m_mode ||
(type != ColorChange && type != ToolChange) ||
(m_ticks.mode == SingleExtruder && m_mode == MultiAsSingle) || // All ColorChanges will be applied for 1st extruder
(m_ticks.mode == MultiExtruder && m_mode == MultiAsSingle) ) // Just mark ColorChanges for all unused extruders
return true;
if ((m_ticks.mode == SingleExtruder && m_mode == MultiExtruder ) ||
(m_ticks.mode == MultiExtruder && m_mode == SingleExtruder) )
{
if (!m_ticks.has_tick_with_code(ColorChange))
return true;
wxString message = (m_ticks.mode == SingleExtruder ?
_L("The last color change data was saved for a single extruder printing.") :
_L("The last color change data was saved for a multi extruder printing.")
) + "\n" +
_L("Your current changes will delete all saved color changes.") + "\n\n\t" +
_L("Are you sure you want to continue?");
//wxMessageDialog msg(this, message, _L("Notice"), wxYES_NO);
GUI::MessageDialog msg(this, message, _L("Notice"), wxYES_NO);
if (msg.ShowModal() == wxID_YES) {
m_ticks.erase_all_ticks_with_code(ColorChange);
post_ticks_changed_event(ColorChange);
}
return false;
}
// m_ticks_mode == MultiAsSingle
if( m_ticks.has_tick_with_code(ToolChange) ) {
wxString message = m_mode == SingleExtruder ? (
_L("The last color change data was saved for a multi extruder printing.") + "\n\n" +
_L("Select YES if you want to delete all saved tool changes, \n"
"NO if you want all tool changes switch to color changes, \n"
"or CANCEL to leave it unchanged.") + "\n\n\t" +
_L("Do you want to delete all saved tool changes?")
): ( // MultiExtruder
_L("The last color change data was saved for a multi extruder printing with tool changes for whole print.") + "\n\n" +
_L("Your current changes will delete all saved extruder (tool) changes.") + "\n\n\t" +
_L("Are you sure you want to continue?") ) ;
//wxMessageDialog msg(this, message, _L("Notice"), wxYES_NO | (m_mode == SingleExtruder ? wxCANCEL : 0));
GUI::MessageDialog msg(this, message, _L("Notice"), wxYES_NO | (m_mode == SingleExtruder ? wxCANCEL : 0));
const int answer = msg.ShowModal();
if (answer == wxID_YES) {
m_ticks.erase_all_ticks_with_code(ToolChange);
post_ticks_changed_event(ToolChange);
}
else if (m_mode == SingleExtruder && answer == wxID_NO) {
m_ticks.switch_code(ToolChange, ColorChange);
post_ticks_changed_event(ColorChange);
}
return false;
}
return true;
}
std::string TickCodeInfo::get_color_for_tick(TickCode tick, Type type, const int extruder)
{
if (mode == SingleExtruder && type == ColorChange && m_use_default_colors) {
const std::vector<std::string>& colors = ColorPrintColors::get();
if (ticks.empty())
return colors[0];
m_default_color_idx++;
return colors[m_default_color_idx % colors.size()];
}
std::string color = (*m_colors)[extruder - 1];
if (type == ColorChange) {
if (!ticks.empty()) {
auto before_tick_it = std::lower_bound(ticks.begin(), ticks.end(), tick );
while (before_tick_it != ticks.begin()) {
--before_tick_it;
if (before_tick_it->type == ColorChange && before_tick_it->extruder == extruder) {
color = before_tick_it->color;
break;
}
}
}
color = get_new_color(color);
}
return color;
}
bool TickCodeInfo::add_tick(const int tick, Type type, const int extruder, double print_z)
{
std::string color;
std::string extra;
if (type == Custom) // custom Gcode
{
extra = get_custom_code(custom_gcode, print_z);
if (extra.empty())
return false;
custom_gcode = extra;
}
else if (type == PausePrint) {
extra = get_pause_print_msg(pause_print_msg, print_z);
if (extra.empty())
return false;
pause_print_msg = extra;
}
else {
color = get_color_for_tick(TickCode{ tick }, type, extruder);
if (color.empty())
return false;
}
if (mode == SingleExtruder)
m_use_default_colors = true;
ticks.emplace(TickCode{ tick, type, extruder, color, extra });
return true;
}
bool TickCodeInfo::edit_tick(std::set<TickCode>::iterator it, double print_z)
{
std::string edited_value;
if (it->type == ColorChange)
edited_value = get_new_color(it->color);
else if (it->type == PausePrint)
edited_value = get_pause_print_msg(it->extra, print_z);
else
edited_value = get_custom_code(it->type == Template ? gcode(Template) : it->extra, print_z);
if (edited_value.empty())
return false;
TickCode changed_tick = *it;
if (it->type == ColorChange) {
if (it->color == edited_value)
return false;
changed_tick.color = edited_value;
}
else if (it->type == Template) {
if (gcode(Template) == edited_value)
return false;
changed_tick.extra = edited_value;
changed_tick.type = Custom;
}
else if (it->type == Custom || it->type == PausePrint) {
if (it->extra == edited_value)
return false;
changed_tick.extra = edited_value;
}
ticks.erase(it);
ticks.emplace(changed_tick);
return true;
}
void TickCodeInfo::switch_code(Type type_from, Type type_to)
{
for (auto it{ ticks.begin() }, end{ ticks.end() }; it != end; )
if (it->type == type_from) {
TickCode tick = *it;
tick.type = type_to;
tick.extruder = 1;
ticks.erase(it);
it = ticks.emplace(tick).first;
}
else
++it;
}
bool TickCodeInfo::switch_code_for_tick(std::set<TickCode>::iterator it, Type type_to, const int extruder)
{
const std::string color = get_color_for_tick(*it, type_to, extruder);
if (color.empty())
return false;
TickCode changed_tick = *it;
changed_tick.type = type_to;
changed_tick.extruder = extruder;
changed_tick.color = color;
ticks.erase(it);
ticks.emplace(changed_tick);
return true;
}
void TickCodeInfo::erase_all_ticks_with_code(Type type)
{
for (auto it{ ticks.begin() }, end{ ticks.end() }; it != end; ) {
if (it->type == type)
it = ticks.erase(it);
else
++it;
}
}
bool TickCodeInfo::has_tick_with_code(Type type)
{
for (const TickCode& tick : ticks)
if (tick.type == type)
return true;
return false;
}
bool TickCodeInfo::has_tick(int tick)
{
return ticks.find(TickCode{ tick }) != ticks.end();
}
ConflictType TickCodeInfo::is_conflict_tick(const TickCode& tick, Mode out_mode, int only_extruder, double print_z)
{
if ((tick.type == ColorChange && (
(mode == SingleExtruder && out_mode == MultiExtruder ) ||
(mode == MultiExtruder && out_mode == SingleExtruder) )) ||
(tick.type == ToolChange &&
(mode == MultiAsSingle && out_mode != MultiAsSingle)) )
return ctModeConflict;
// check ColorChange tick
if (tick.type == ColorChange) {
// We should mark a tick as a "MeaninglessColorChange",
// if it has a ColorChange for unused extruder from current print to end of the print
std::set<int> used_extruders_for_tick = get_used_extruders_for_tick(tick.tick, only_extruder, print_z, out_mode);
if (used_extruders_for_tick.find(tick.extruder) == used_extruders_for_tick.end())
return ctMeaninglessColorChange;
// We should mark a tick as a "Redundant",
// if it has a ColorChange for extruder that has not been used before
if (mode == MultiAsSingle && tick.extruder != std::max<int>(only_extruder, 1) )
{
auto it = ticks.lower_bound( tick );
if (it == ticks.begin() && it->type == ToolChange && tick.extruder == it->extruder)
return ctNone;
while (it != ticks.begin()) {
--it;
if (it->type == ToolChange && tick.extruder == it->extruder)
return ctNone;
}
return ctRedundant;
}
}
// check ToolChange tick
if (mode == MultiAsSingle && tick.type == ToolChange) {
// We should mark a tick as a "MeaninglessToolChange",
// if it has a ToolChange to the same extruder
auto it = ticks.find(tick);
if (it == ticks.begin())
return tick.extruder == std::max<int>(only_extruder, 1) ? ctMeaninglessToolChange : ctNone;
while (it != ticks.begin()) {
--it;
if (it->type == ToolChange)
return tick.extruder == it->extruder ? ctMeaninglessToolChange : ctNone;
}
}
return ctNone;
}
} // DoubleSlider
} // Slic3r