#include "AMSItem.hpp" #include "Label.hpp" #include "../BitmapCache.hpp" #include "../I18N.hpp" #include "../GUI_App.hpp" #include #include #include #include "CalibUtils.hpp" namespace Slic3r { namespace GUI { static const wxColour AMS_TRAY_DEFAULT_COL = wxColour(255, 255, 255); wxDEFINE_EVENT(EVT_AMS_EXTRUSION_CALI, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_LOAD, SimpleEvent); wxDEFINE_EVENT(EVT_AMS_UNLOAD, SimpleEvent); wxDEFINE_EVENT(EVT_AMS_SETTINGS, SimpleEvent); wxDEFINE_EVENT(EVT_AMS_FILAMENT_BACKUP, SimpleEvent); wxDEFINE_EVENT(EVT_AMS_REFRESH_RFID, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_ON_SELECTED, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_ON_FILAMENT_EDIT, wxCommandEvent); wxDEFINE_EVENT(EVT_VAMS_ON_FILAMENT_EDIT, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_CLIBRATION_AGAIN, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_CLIBRATION_CANCEL, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_GUIDE_WIKI, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_RETRY, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_SHOW_HUMIDITY_TIPS, wxCommandEvent); wxDEFINE_EVENT(EVT_AMS_UNSELETED_VAMS, wxCommandEvent); wxDEFINE_EVENT(EVT_CLEAR_SPEED_CONTROL, wxCommandEvent); #define AMS_CANS_SIZE wxSize(FromDIP(284), -1) //#define AMS_CANS_WINDOW_SIZE wxSize(FromDIP(264), 144) //#define AMS_SINGLE_CAN_SIZE wxSize(FromDIP(78), 144) #define AMS_CANS_WINDOW_SIZE wxSize(FromDIP(264), 174) #define AMS_SINGLE_CAN_SIZE wxSize(FromDIP(78), 174) bool AMSinfo::parse_ams_info(MachineObject *obj, Ams *ams, bool remain_flag, bool humidity_flag) { if (!ams) return false; this->ams_id = ams->id; if (ams->type == 1 || ams->type == 3){ this->ams_humidity = ams->humidity; } else{ this->ams_humidity = -1; } this->ams_type = AMSModel(ams->type); /*if (humidity_flag) { this->ams_humidity = ams->humidity; } else { this->ams_humidity = -1; }*/ nozzle_id = ams->nozzle; cans.clear(); for (int i = 0; i < 4; i++) { auto it = ams->trayList.find(std::to_string(i)); Caninfo info; // tray is exists if (it != ams->trayList.end() && it->second->is_exists) { if (it->second->is_tray_info_ready()) { info.can_id = it->second->id; info.ctype = it->second->ctype; info.material_name = it->second->get_display_filament_type(); if (!it->second->color.empty()) { info.material_colour = AmsTray::decode_color(it->second->color); } else { // set to white by default info.material_colour = AMS_TRAY_DEFAULT_COL; } for (std::string cols:it->second->cols) { info.material_cols.push_back(AmsTray::decode_color(cols)); } if (MachineObject::is_bbl_filament(it->second->tag_uid)) { info.material_state = AMSCanType::AMS_CAN_TYPE_BRAND; } else { info.material_state = AMSCanType::AMS_CAN_TYPE_THIRDBRAND; } if (!MachineObject::is_bbl_filament(it->second->tag_uid) || !remain_flag) { info.material_remain = 100; } else { info.material_remain = it->second->remain < 0 ? 0 : it->second->remain; info.material_remain = it->second->remain > 100 ? 100 : info.material_remain; } } else { info.can_id = it->second->id; info.material_name = ""; info.ctype = 0; info.material_colour = AMS_TRAY_DEFAULT_COL; info.material_state = AMSCanType::AMS_CAN_TYPE_THIRDBRAND; wxColour(255, 255, 255); } if (it->second->is_tray_info_ready() && obj->cali_version >= 0) { CalibUtils::get_pa_k_n_value_by_cali_idx(obj, it->second->cali_idx, info.k, info.n); } else { info.k = it->second->k; info.n = it->second->n; } } else { info.can_id = i; info.material_state = AMSCanType::AMS_CAN_TYPE_EMPTY; } cans.push_back(info); } return true; } void AMSinfo::ReadExtInfo(AmsTray tray) { this->ams_id = tray.id; Caninfo can; can.can_id = std::to_string(0); can.material_name = tray.filament_setting_id; this->cans.push_back(can); if (tray.id == std::to_string(VIRTUAL_TRAY_MAIN_ID)) { this->nozzle_id = 0; } else { this->nozzle_id = 1; } this->cans[0].material_state = AMSCanType::AMS_CAN_TYPE_VIRTUAL; this->cans[0].material_colour = tray.decode_color(tray.color); this->cans[0].material_remain = tray.remain; this->cans[0].material_name = tray.type; } /************************************************* Description:AMSExtText **************************************************/ AMSExtText::AMSExtText(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, AMS_REFRESH_SIZE); SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); Bind(wxEVT_PAINT, &AMSExtText::paintEvent, this); SetSize(AMS_REFRESH_SIZE); SetMinSize(AMS_REFRESH_SIZE); } AMSExtText::~AMSExtText() {} void AMSExtText::msw_rescale() { Refresh(); } void AMSExtText::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSExtText::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSExtText::doRender(wxDC& dc) { auto size = GetSize(); dc.SetPen(wxPen(AMS_CONTROL_GRAY800, 2, wxSOLID)); auto tsize = dc.GetMultiLineTextExtent(_L("Ext")); dc.SetFont(Label::Body_13); dc.SetTextForeground(AMS_CONTROL_GRAY800); wxPoint pot(FromDIP((size.x - tsize.x) / 2), FromDIP((size.y - tsize.y) / 2)); dc.DrawText(_L("Ext"), pot); } /************************************************* Description:AMSrefresh **************************************************/ AMSrefresh::AMSrefresh() { SetFont(Label::Body_10);} AMSrefresh::AMSrefresh(wxWindow *parent, wxString number, Caninfo info, const wxPoint &pos, const wxSize &size) : AMSrefresh() { m_info = info; m_can_id = number.ToStdString(); create(parent, wxID_ANY, pos, size); } AMSrefresh::AMSrefresh(wxWindow *parent, int number, Caninfo info, const wxPoint &pos, const wxSize &size) : AMSrefresh() { m_info = info; m_can_id = wxString::Format("%d", number).ToStdString(); create(parent, wxID_ANY, pos, size); } AMSrefresh::~AMSrefresh() { if (m_playing_timer) { m_playing_timer->Stop(); delete m_playing_timer; m_playing_timer = nullptr; } } void AMSrefresh::create(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { wxWindow::Create(parent, id, pos, size, wxBORDER_NONE); SetBackgroundColour(wxColour(240, 240, 240)); Bind(wxEVT_TIMER, &AMSrefresh::on_timer, this); Bind(wxEVT_PAINT, &AMSrefresh::paintEvent, this); Bind(wxEVT_ENTER_WINDOW, &AMSrefresh::OnEnterWindow, this); Bind(wxEVT_LEAVE_WINDOW, &AMSrefresh::OnLeaveWindow, this); Bind(wxEVT_LEFT_DOWN, &AMSrefresh::OnClick, this); m_bitmap_normal = ScalableBitmap(this, "ams_refresh_normal", 25); m_bitmap_selected = ScalableBitmap(this, "ams_refresh_selected", 25); m_bitmap_ams_rfid_0 = ScalableBitmap(this, "ams_rfid_0", 25); m_bitmap_ams_rfid_1 = ScalableBitmap(this, "ams_rfid_1", 25); m_bitmap_ams_rfid_2 = ScalableBitmap(this, "ams_rfid_2", 25); m_bitmap_ams_rfid_3 = ScalableBitmap(this, "ams_rfid_3", 25); m_bitmap_ams_rfid_4 = ScalableBitmap(this, "ams_rfid_4", 25); m_bitmap_ams_rfid_5 = ScalableBitmap(this, "ams_rfid_5", 25); m_bitmap_ams_rfid_6 = ScalableBitmap(this, "ams_rfid_6", 25); m_bitmap_ams_rfid_7 = ScalableBitmap(this, "ams_rfid_7", 25); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_0); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_1); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_2); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_3); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_4); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_5); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_6); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_7); m_playing_timer = new wxTimer(); m_playing_timer->SetOwner(this); wxPostEvent(this, wxTimerEvent()); SetSize(AMS_REFRESH_SIZE); SetMinSize(AMS_REFRESH_SIZE); SetMaxSize(AMS_REFRESH_SIZE); } void AMSrefresh::on_timer(wxTimerEvent &event) { //if (m_rotation_angle >= m_rfid_bitmap_list.size()) { // m_rotation_angle = 0; //} else { // m_rotation_angle++; //} Refresh(); } void AMSrefresh::PlayLoading() { if (m_play_loading | m_disable_mode) return; m_play_loading = true; //m_rotation_angle = 0; m_playing_timer->Start(AMS_REFRESH_PLAY_LOADING_TIMER); Refresh(); } void AMSrefresh::StopLoading() { if (!m_play_loading | m_disable_mode) return; m_playing_timer->Stop(); m_play_loading = false; Refresh(); } void AMSrefresh::OnEnterWindow(wxMouseEvent &evt) { m_selected = true; Refresh(); } void AMSrefresh::OnLeaveWindow(wxMouseEvent &evt) { m_selected = false; Refresh(); } void AMSrefresh::OnClick(wxMouseEvent &evt) { post_event(wxCommandEvent(EVT_AMS_REFRESH_RFID)); } void AMSrefresh::post_event(wxCommandEvent &&event) { if (m_disable_mode) return; event.SetString(m_info.can_id); event.SetEventObject(m_parent); wxPostEvent(m_parent, event); event.Skip(); } void AMSrefresh::paintEvent(wxPaintEvent &evt) { wxSize size = GetSize(); wxPaintDC dc(this); auto colour = StateColor::darkModeColorFor(AMS_CONTROL_GRAY700); if (!wxWindow::IsEnabled()) { colour = AMS_CONTROL_GRAY500; } auto pot = wxPoint((size.x - m_bitmap_selected.GetBmpSize().x) / 2, (size.y - m_bitmap_selected.GetBmpSize().y) / 2); if (!m_disable_mode) { if (!m_play_loading) { dc.DrawBitmap(m_selected ? m_bitmap_selected.bmp() : m_bitmap_normal.bmp(), pot); } else { /* m_bitmap_rotation = ScalableBitmap(this, "ams_refresh_normal", 30); auto image = m_bitmap_rotation.bmp().ConvertToImage(); wxPoint offset; auto loading_img = image.Rotate(m_rotation_angle, wxPoint(image.GetWidth() / 2, image.GetHeight() / 2), true, &offset); ScalableBitmap loading_bitmap; loading_bitmap.bmp() = wxBitmap(loading_img); dc.DrawBitmap(loading_bitmap.bmp(), offset.x , offset.y);*/ m_rotation_angle++; if (m_rotation_angle >= m_rfid_bitmap_list.size()) { m_rotation_angle = 0; } if (m_rfid_bitmap_list.size() <= 0)return; dc.DrawBitmap(m_rfid_bitmap_list[m_rotation_angle].bmp(), pot); } } dc.SetPen(wxPen(colour)); dc.SetBrush(wxBrush(colour)); dc.SetFont(Label::Body_11); //dc.SetTextForeground(colour); auto tsize = dc.GetTextExtent(m_refresh_id); pot = wxPoint((size.x - tsize.x) / 2, (size.y - tsize.y) / 2); dc.DrawText(m_refresh_id, pot); } void AMSrefresh::Update(std::string ams_id, Caninfo info) { m_ams_id = ams_id; m_info = info; if (!m_ams_id.empty() && !m_can_id.empty()) { auto aid = atoi(m_ams_id.c_str()); auto tid = atoi(m_can_id.c_str()); auto tray_id = aid * 4 + tid; m_refresh_id = wxGetApp().transition_tridid(tray_id); } StopLoading(); } void AMSrefresh::msw_rescale() { m_bitmap_normal = ScalableBitmap(this, "ams_refresh_normal", 25); m_bitmap_selected = ScalableBitmap(this, "ams_refresh_selected", 25); m_bitmap_ams_rfid_0 = ScalableBitmap(this, "ams_rfid_0", 25); m_bitmap_ams_rfid_1 = ScalableBitmap(this, "ams_rfid_1", 25); m_bitmap_ams_rfid_2 = ScalableBitmap(this, "ams_rfid_2", 25); m_bitmap_ams_rfid_3 = ScalableBitmap(this, "ams_rfid_3", 25); m_bitmap_ams_rfid_4 = ScalableBitmap(this, "ams_rfid_4", 25); m_bitmap_ams_rfid_5 = ScalableBitmap(this, "ams_rfid_5", 25); m_bitmap_ams_rfid_6 = ScalableBitmap(this, "ams_rfid_6", 25); m_bitmap_ams_rfid_7 = ScalableBitmap(this, "ams_rfid_7", 25); m_rfid_bitmap_list.clear(); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_0); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_1); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_2); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_3); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_4); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_5); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_6); m_rfid_bitmap_list.push_back(m_bitmap_ams_rfid_7); } void AMSrefresh::DoSetSize(int x, int y, int width, int height, int sizeFlags) { wxWindow::DoSetSize(x, y, width, height, sizeFlags); } /************************************************* Description:AMSextruder **************************************************/ void AMSextruderImage::OnAmsLoading(bool load, wxColour col) { m_ams_loading = load; m_colour = col; Refresh(); } void AMSextruderImage::TurnOff() { m_colour = AMS_EXTRUDER_DEF_COLOUR; Refresh(); } void AMSextruderImage::msw_rescale() { //m_ams_extruder.SetSize(AMS_EXTRUDER_BITMAP_SIZE); //auto image = m_ams_extruder.ConvertToImage(); m_ams_extruder = ScalableBitmap(this, m_file_name, 13); Refresh(); } void AMSextruderImage::paintEvent(wxPaintEvent &evt) { wxPaintDC dc(this); render(dc); } void AMSextruderImage::render(wxDC &dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({0, 0}, size, &dc, {0, 0}); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSextruderImage::doRender(wxDC &dc) { auto size = GetSize(); //dc.DrawRectangle(0, FromDIP(5), size.x, size.y - FromDIP(5) - FromDIP(2)); if (m_show_state){ if (m_ams_loading) { dc.SetPen(*wxTRANSPARENT_PEN); dc.SetBrush(m_colour); dc.DrawRectangle(FromDIP(3), FromDIP(10), FromDIP(size.x - 6), FromDIP(size.y - 20)); } dc.DrawBitmap(m_ams_extruder.bmp(), wxPoint((size.x - m_ams_extruder.GetBmpSize().x) / 2, (size.y - m_ams_extruder.GetBmpSize().y) / 2)); } } AMSextruderImage::AMSextruderImage(wxWindow *parent, wxWindowID id, string file_name, const wxPoint &pos, const wxSize &size) { wxWindow::Create(parent, id, pos, AMS_EXTRUDER_BITMAP_SIZE); SetBackgroundColour(*wxWHITE); m_ams_extruder = ScalableBitmap(this, file_name,36); m_file_name = file_name; SetSize(AMS_EXTRUDER_BITMAP_SIZE); SetMinSize(AMS_EXTRUDER_BITMAP_SIZE); SetMaxSize(AMS_EXTRUDER_BITMAP_SIZE); Bind(wxEVT_PAINT, &AMSextruderImage::paintEvent, this); } AMSextruderImage::~AMSextruderImage() {} /************************************************* Description:AMSExtImage upon ext lib **************************************************/ AMSExtImage::AMSExtImage(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, AMS_HUMIDITY_SIZE); SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); m_ams_ext = ScalableBitmap(this, "ams_ext_image", 25); /*SetSize(wxSize(FromDIP(78), FromDIP(50))); SetMinSize(wxSize(FromDIP(78), FromDIP(50))); SetMaxSize(wxSize(FromDIP(78), FromDIP(50)));*/ Bind(wxEVT_PAINT, &AMSExtImage::paintEvent, this); } AMSExtImage::~AMSExtImage() {} void AMSExtImage::msw_rescale() { //m_ams_extruder.SetSize(AMS_EXTRUDER_BITMAP_SIZE); //auto image = m_ams_extruder.ConvertToImage(); m_ams_ext = ScalableBitmap(this, "ams_ext_image", 25); Refresh(); } void AMSExtImage::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSExtImage::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSExtImage::doRender(wxDC& dc) { auto size = GetSize(); dc.SetPen(*wxTRANSPARENT_PEN); //dc.DrawRectangle(0, FromDIP(5), size.x, size.y - FromDIP(5) - FromDIP(2)); dc.DrawBitmap(m_ams_ext.bmp(), wxPoint(FromDIP((size.x - m_ams_ext.GetBmpSize().x) / 2), FromDIP(0))); } //Ams Extruder AMSextruder::AMSextruder(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { create(parent, id, pos, size); } AMSextruder::~AMSextruder() {} void AMSextruder::TurnOn(wxColour col) { //m_left_extruder->TurnOn(col); } void AMSextruder::TurnOff() { m_left_extruder->TurnOff(); } void AMSextruder::create(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { //wxWindow::Create(parent, id, pos, AMS_EXTRUDER_SIZE, wxBORDER_NONE); wxWindow::Create(parent, id, pos, wxSize(FromDIP(29), FromDIP(37)), wxBORDER_NONE); //SetBackgroundColour(AMS_CONTROL_WHITE_COLOUR); SetBackgroundColour(*wxWHITE); wxBoxSizer *m_sizer_body = new wxBoxSizer(wxVERTICAL); m_bitmap_sizer = new wxBoxSizer(wxHORIZONTAL); m_left_extruder = new AMSextruderImage(this, wxID_ANY, "left_nozzle"); m_left_extruder->update(true); m_right_extruder = new AMSextruderImage(this, wxID_ANY, "right_nozzle"); m_bitmap_sizer->Add(m_left_extruder, 0, wxLEFT, 0); m_bitmap_sizer->Add(m_right_extruder, 0, wxLEFT, 2); SetSizer(m_bitmap_sizer); Bind(wxEVT_PAINT, &AMSextruder::paintEvent, this); Layout(); } void AMSextruder::OnVamsLoading(bool load, wxColour col) { m_vams_loading = load; if (load)m_current_colur = col; Refresh(); } void AMSextruder::OnAmsLoading(bool load, int nozzle_id, wxColour col /*= AMS_CONTROL_GRAY500*/) { m_ams_loading = load; if (m_nozzle_num == 1){ m_left_extruder->OnAmsLoading(load, col); if (load) m_current_colur_deputy = col; } else if (m_nozzle_num > 1){ if (nozzle_id == 0) { m_right_extruder->OnAmsLoading(load, col); if (load) m_current_colur = col; } else { m_left_extruder->OnAmsLoading(load, col); if (load) m_current_colur_deputy = col; } } Refresh(); } void AMSextruder::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSextruder::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); //doRender(dc2); } m_left_extruder->update(true); if (m_nozzle_num >= 2) { m_right_extruder->update(true); } else { m_right_extruder->update(false); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSextruder::doRender(wxDC& dc) { //m_current_colur = wxSize size = GetSize(); /*dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH));*/ /*if (!m_none_ams_mode) { dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); }*/ /*if (m_has_vams) { dc.DrawRoundedRectangle(-size.x / 2, size.y * 0.1, size.x, size.y, 4); if (m_vams_loading) { if (m_current_colur.Alpha() == 0) { dc.SetPen(wxPen(*wxWHITE, 6, wxSOLID)); } else { dc.SetPen(wxPen(m_current_colur, 6, wxSOLID)); } dc.DrawRoundedRectangle(-size.x / 2, size.y * 0.1, size.x, size.y, 4); if ((m_current_colur == *wxWHITE || m_current_colur.Alpha() == 0) && !wxGetApp().dark_mode()) { dc.SetPen(wxPen(AMS_CONTROL_DEF_BLOCK_BK_COLOUR, 1, wxSOLID)); dc.DrawRoundedRectangle(-size.x / 2 - FromDIP(3), size.y * 0.1 + FromDIP(3), size.x, size.y, 3); dc.DrawRoundedRectangle(-size.x / 2 + FromDIP(3), size.y * 0.1 - FromDIP(3), size.x, size.y, 5); } } if (m_ams_loading && !m_none_ams_mode) { if (m_current_colur.Alpha() == 0) {dc.SetPen(wxPen(*wxWHITE, 6, wxSOLID));} else {dc.SetPen(wxPen(m_current_colur, 6, wxSOLID));} dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); if ((m_current_colur == *wxWHITE || m_current_colur.Alpha() == 0) && !wxGetApp().dark_mode()) { dc.SetPen(wxPen(AMS_CONTROL_DEF_BLOCK_BK_COLOUR, 1, wxSOLID)); dc.DrawLine(size.x / 2 - FromDIP(4), -1, size.x / 2 - FromDIP(3), size.y * 0.6 - 1); dc.DrawLine(size.x / 2 + FromDIP(3), -1, size.x / 2 + FromDIP(3), size.y * 0.6 - 1); } } } else { if (m_ams_loading) { if (m_current_colur.Alpha() == 0) { dc.SetPen(wxPen(*wxWHITE, 6, wxSOLID)); } else { dc.SetPen(wxPen(m_current_colur, 6, wxSOLID)); } dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); if ((m_current_colur == *wxWHITE || m_current_colur.Alpha() == 0) && !wxGetApp().dark_mode()) { dc.SetPen(wxPen(AMS_CONTROL_DEF_BLOCK_BK_COLOUR, 1, wxSOLID)); dc.DrawLine(size.x / 2 - FromDIP(4), -1, size.x / 2 - FromDIP(3), size.y * 0.6 - 1); dc.DrawLine(size.x / 2 + FromDIP(3), -1, size.x / 2 + FromDIP(3), size.y * 0.6 - 1); } } }*/ } void AMSextruder::msw_rescale() { //m_amsSextruder->msw_rescale(); m_left_extruder->msw_rescale(); m_right_extruder->msw_rescale(); Layout(); Update(); Refresh(); } /************************************************* Description:AMSVirtualRoad **************************************************/ AMSVirtualRoad::AMSVirtualRoad(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { create(parent, id, pos, size); } AMSVirtualRoad::~AMSVirtualRoad() {} void AMSVirtualRoad::OnVamsLoading(bool load, wxColour col) { /*m_vams_loading = load; if (load)m_current_color = col; Refresh();*/ } void AMSVirtualRoad::create(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, wxDefaultSize, wxBORDER_NONE); SetBackgroundColour(AMS_CONTROL_WHITE_COLOUR); Layout(); Bind(wxEVT_PAINT, &AMSVirtualRoad::paintEvent, this); } void AMSVirtualRoad::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSVirtualRoad::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSVirtualRoad::doRender(wxDC& dc) { if (!m_has_vams) return; wxSize size = GetSize(); if (m_vams_loading) { if (m_current_color.Alpha() == 0) { dc.SetPen(wxPen(*wxWHITE, 6, wxSOLID)); } else { dc.SetPen(wxPen(m_current_color, 6, wxSOLID)); } } else { dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); } dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); dc.DrawRoundedRectangle(size.x / 2, -size.y / 1.1 + FromDIP(1), size.x, size.y, 4); if ((m_current_color == *wxWHITE || m_current_color.Alpha() == 0) && !wxGetApp().dark_mode()) { dc.SetPen(wxPen(AMS_CONTROL_DEF_BLOCK_BK_COLOUR, 1, wxSOLID)); dc.DrawRoundedRectangle(size.x / 2 - FromDIP(3), -size.y / 1.1 + FromDIP(4), size.x, size.y, 5); dc.DrawRoundedRectangle(size.x / 2 + FromDIP(3), -size.y / 1.1 - FromDIP(2), size.x, size.y, 3); } } void AMSVirtualRoad::msw_rescale() { Layout(); Update(); Refresh(); } /************************************************* Description:AMSLib **************************************************/ AMSLib::AMSLib(wxWindow *parent, std::string ams_idx, Caninfo info) { m_border_color = (wxColour(130, 130, 128)); m_road_def_color = AMS_CONTROL_GRAY500; wxWindow::SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); create(parent); Bind(wxEVT_PAINT, &AMSLib::paintEvent, this); Bind(wxEVT_ENTER_WINDOW, &AMSLib::on_enter_window, this); Bind(wxEVT_LEAVE_WINDOW, &AMSLib::on_leave_window, this); Bind(wxEVT_LEFT_DOWN, &AMSLib::on_left_down, this); Update(info, ams_idx, false); } AMSLib::~AMSLib() { } void AMSLib::create(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { wxWindow::Create(parent, id, pos, size); SetSize(AMS_CAN_LIB_SIZE); SetMinSize(AMS_CAN_LIB_SIZE); SetMaxSize(AMS_CAN_LIB_SIZE); auto m_sizer_body = new wxBoxSizer(wxVERTICAL); wxBoxSizer *m_sizer_edit = new wxBoxSizer(wxHORIZONTAL); m_bitmap_editable = ScalableBitmap(this, "ams_editable", 14); m_bitmap_editable_light = ScalableBitmap(this, "ams_editable_light", 14); m_bitmap_readonly = ScalableBitmap(this, "ams_readonly", 14); m_bitmap_readonly_light = ScalableBitmap(this, "ams_readonly_light", 14); m_bitmap_transparent = ScalableBitmap(this, "transparent_ams_lib", 68); m_bitmap_transparent_def = ScalableBitmap(this, "transparent_ams_lib", 68); m_bitmap_extra_tray_left = ScalableBitmap(this, "extra_ams_tray_left", 80); m_bitmap_extra_tray_right = ScalableBitmap(this, "extra_ams_tray_right", 80); m_bitmap_extra_tray_left_hover = ScalableBitmap(this, "extra_ams_tray_left_hover", 80); m_bitmap_extra_tray_right_hover = ScalableBitmap(this, "extra_ams_tray_right_hover", 80); m_bitmap_extra_tray_left_selected = ScalableBitmap(this, "extra_ams_tray_left_selected", 80); m_bitmap_extra_tray_right_selected = ScalableBitmap(this, "extra_ams_tray_right_selected", 80); m_sizer_body->Add(0, 0, 1, wxEXPAND, 0); m_sizer_body->Add(m_sizer_edit, 0, wxALIGN_CENTER, 0); m_sizer_body->Add(0, 0, 0, wxBOTTOM, GetSize().y * 0.12); SetSizer(m_sizer_body); Layout(); } void AMSLib::on_enter_window(wxMouseEvent &evt) { m_hover = true; Refresh(); } void AMSLib::on_leave_window(wxMouseEvent &evt) { m_hover = false; Refresh(); } void AMSLib::on_left_down(wxMouseEvent &evt) { if (m_info.material_state != AMSCanType::AMS_CAN_TYPE_EMPTY && m_info.material_state != AMSCanType::AMS_CAN_TYPE_NONE) { auto size = GetSize(); auto pos = evt.GetPosition(); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) { auto left = FromDIP(10); auto right = size.x - FromDIP(10); auto top = 0; auto bottom = 0; if (m_ams_model == AMSModel::GENERIC_AMS) { top = (size.y - FromDIP(15) - m_bitmap_editable_light.GetBmpSize().y); bottom = size.y - FromDIP(15); } else if (m_ams_model == AMSModel::EXTRA_AMS) { top = (size.y - FromDIP(20) - m_bitmap_editable_light.GetBmpSize().y); bottom = size.y - FromDIP(20); } if (pos.x >= left && pos.x <= right && pos.y >= top && top <= bottom) { if (m_selected) { if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) { post_event(wxCommandEvent(EVT_VAMS_ON_FILAMENT_EDIT)); } else { post_event(wxCommandEvent(EVT_AMS_ON_FILAMENT_EDIT)); } } else { BOOST_LOG_TRIVIAL(trace) << "current amslib is not selected"; } } } } } void AMSLib::paintEvent(wxPaintEvent &evt) { wxPaintDC dc(this); render(dc); } void AMSLib::render(wxDC &dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({0, 0}, size, &dc, {0, 0}); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif // text /*if (m_ams_model == AMSModel::GENERIC_AMS) { render_generic_text(dc); } else if (m_ams_model == AMSModel::EXTRA_AMS) { render_extra_text(dc); }*/ render_generic_text(dc); } void AMSLib::render_extra_text(wxDC& dc) { auto tmp_lib_colour = m_info.material_colour; change_the_opacity(tmp_lib_colour); auto temp_text_colour = AMS_CONTROL_GRAY800; if (tmp_lib_colour.GetLuminance() < 0.6) { temp_text_colour = AMS_CONTROL_WHITE_COLOUR; } else { temp_text_colour = AMS_CONTROL_GRAY800; } if (m_info.material_remain < 50) { temp_text_colour = AMS_CONTROL_GRAY800; } if (tmp_lib_colour.Alpha() == 0) { temp_text_colour = AMS_CONTROL_GRAY800; } dc.SetFont(::Label::Body_13); dc.SetTextForeground(temp_text_colour); auto libsize = GetSize(); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) { if (m_info.material_name.empty()) { auto tsize = dc.GetMultiLineTextExtent("?"); auto pot = wxPoint(0, 0); pot = wxPoint((libsize.x - tsize.x) / 2 + FromDIP(2), (libsize.y - tsize.y) / 2 - FromDIP(5)); dc.DrawText(L("?"), pot); } else { auto tsize = dc.GetMultiLineTextExtent(m_info.material_name); std::vector split_char_arr = { " ", "-" }; bool has_split = false; std::string has_split_char = " "; for (std::string split_char : split_char_arr) { if (m_info.material_name.find(split_char) != std::string::npos) { has_split = true; has_split_char = split_char; } } if (has_split) { dc.SetFont(::Label::Body_10); auto line_top = m_info.material_name.substr(0, m_info.material_name.find(has_split_char)); auto line_bottom = m_info.material_name.substr(m_info.material_name.find(has_split_char)); auto line_top_tsize = dc.GetMultiLineTextExtent(line_top); auto line_bottom_tsize = dc.GetMultiLineTextExtent(line_bottom); auto pot_top = wxPoint((libsize.x - line_top_tsize.x) / 2 + FromDIP(3), (libsize.y - line_top_tsize.y) / 2 - line_top_tsize.y); dc.DrawText(line_top, pot_top); auto pot_bottom = wxPoint((libsize.x - line_bottom_tsize.x) / 2 + FromDIP(3), (libsize.y - line_bottom_tsize.y) / 2); dc.DrawText(line_bottom, pot_bottom); } else { dc.SetFont(::Label::Body_10); auto pot = wxPoint(0, 0); if (m_obj ) { pot = wxPoint((libsize.x - tsize.x) / 2 + FromDIP(6), (libsize.y - tsize.y) / 2 - FromDIP(5)); } dc.DrawText(m_info.material_name, pot); } } } if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_EMPTY) { auto tsize = dc.GetMultiLineTextExtent(_L("/")); auto pot = wxPoint((libsize.x - tsize.x) / 2 + FromDIP(2), (libsize.y - tsize.y) / 2 + FromDIP(3)); dc.DrawText(_L("/"), pot); } } void AMSLib::render_generic_text(wxDC &dc) { bool show_k_value = true; if (m_obj && (m_obj->cali_version >= 0) && (abs(m_info.k - 0) < 1e-3)) { show_k_value = false; } auto tmp_lib_colour = m_info.material_colour; change_the_opacity(tmp_lib_colour); auto temp_text_colour = AMS_CONTROL_GRAY800; if (tmp_lib_colour.GetLuminance() < 0.6) { temp_text_colour = AMS_CONTROL_WHITE_COLOUR; } else { temp_text_colour = AMS_CONTROL_GRAY800; } if (m_info.material_remain < 50) { temp_text_colour = AMS_CONTROL_GRAY800; } if (tmp_lib_colour.Alpha() == 0) { temp_text_colour = AMS_CONTROL_GRAY800; } dc.SetFont(::Label::Body_13); dc.SetTextForeground(temp_text_colour); auto alpha = m_info.material_colour.Alpha(); if (alpha != 0 && alpha != 255 && alpha != 254) { dc.SetTextForeground(*wxBLACK); } auto libsize = GetSize(); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) { if (m_info.material_name.empty() /*&& m_info.material_state != AMSCanType::AMS_CAN_TYPE_VIRTUAL*/) { auto tsize = dc.GetMultiLineTextExtent("?"); auto pot = wxPoint(0, 0); if (m_obj && show_k_value) { pot = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 - FromDIP(9)); } else { pot = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 + FromDIP(3)); } dc.DrawText(L("?"), pot); } else { auto tsize = dc.GetMultiLineTextExtent(m_info.material_name); std::vector split_char_arr = { " ", "-" }; bool has_split = false; std::string has_split_char = " "; for (std::string split_char : split_char_arr) { if (m_info.material_name.find(split_char) != std::string::npos) { has_split = true; has_split_char = split_char; } } if (has_split) { dc.SetFont(::Label::Body_12); auto line_top = m_info.material_name.substr(0, m_info.material_name.find(has_split_char)); auto line_bottom = m_info.material_name.substr(m_info.material_name.find(has_split_char)); auto line_top_tsize = dc.GetMultiLineTextExtent(line_top); auto line_bottom_tsize = dc.GetMultiLineTextExtent(line_bottom); if (!m_show_kn) { auto pot_top = wxPoint((libsize.x - line_top_tsize.x) / 2, (libsize.y - line_top_tsize.y) / 2 - line_top_tsize.y + FromDIP(6)); dc.DrawText(line_top, pot_top); auto pot_bottom = wxPoint((libsize.x - line_bottom_tsize.x) / 2, (libsize.y - line_bottom_tsize.y) / 2 + FromDIP(4)); dc.DrawText(line_bottom, pot_bottom); } else { auto pot_top = wxPoint((libsize.x - line_top_tsize.x) / 2, (libsize.y - line_top_tsize.y) / 2 - line_top_tsize.y - FromDIP(6)); dc.DrawText(line_top, pot_top); auto pot_bottom = wxPoint((libsize.x - line_bottom_tsize.x) / 2, (libsize.y - line_bottom_tsize.y) / 2 - FromDIP(8)); dc.DrawText(line_bottom, pot_bottom); } } else { auto pot = wxPoint(0, 0); if (m_obj && show_k_value) { pot = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 - FromDIP(9)); } else { pot = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 + FromDIP(3)); } dc.DrawText(m_info.material_name, pot); } } //draw k&n if (m_obj && show_k_value) { if (m_show_kn) { wxString str_k = wxString::Format("K %1.3f", m_info.k); wxString str_n = wxString::Format("N %1.3f", m_info.n); dc.SetFont(::Label::Body_11); auto tsize = dc.GetMultiLineTextExtent(str_k); auto pot_k = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 - FromDIP(9) + tsize.y); dc.DrawText(str_k, pot_k); } } } if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_EMPTY) { auto tsize = dc.GetMultiLineTextExtent(_L("Empty")); auto pot = wxPoint((libsize.x - tsize.x) / 2, (libsize.y - tsize.y) / 2 + FromDIP(3)); dc.DrawText(_L("Empty"), pot); } } void AMSLib::doRender(wxDC &dc) { /*if (m_ams_model == AMSModel::GENERIC_AMS) { render_generic_lib(dc); } else if (m_ams_model == AMSModel::EXTRA_AMS) { render_extra_lib(dc); }*/ render_generic_lib(dc); } void AMSLib::render_extra_lib(wxDC& dc) { wxSize size = GetSize(); ScalableBitmap tray_bitmap = m_can_index <= 1 ? m_bitmap_extra_tray_left : m_bitmap_extra_tray_right; ScalableBitmap tray_bitmap_hover = m_can_index <= 1 ? m_bitmap_extra_tray_left_hover : m_bitmap_extra_tray_right_hover; ScalableBitmap tray_bitmap_selected = m_can_index <= 1 ? m_bitmap_extra_tray_left_selected : m_bitmap_extra_tray_right_selected; auto tmp_lib_colour = m_info.material_colour; change_the_opacity(tmp_lib_colour); auto temp_bitmap_third = m_bitmap_editable_light; auto temp_bitmap_brand = m_bitmap_readonly_light; //draw road dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_pass_road) { dc.SetPen(wxPen(m_info.material_colour, 6, wxSOLID)); } if (m_can_index == 0 || m_can_index == 3) { dc.DrawLine(size.x / 2, size.y / 2, size.x / 2, size.y); } else { dc.DrawLine(size.x / 2, size.y / 2, size.x / 2, 0); } //draw def background dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(AMS_CONTROL_DEF_LIB_BK_COLOUR)); dc.DrawRoundedRectangle(FromDIP(10), FromDIP(10), size.x - FromDIP(20), size.y - FromDIP(20), 0); if (tmp_lib_colour.GetLuminance() < 0.6) { temp_bitmap_third = m_bitmap_editable_light; temp_bitmap_brand = m_bitmap_readonly_light; } else { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } if (m_info.material_remain < 50) { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } if (tmp_lib_colour.Alpha() == 0) { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); if (m_info.material_cols.size() > 1) { int left = FromDIP(10); int gwidth = std::round(size.x / (m_info.material_cols.size() - 1)); //gradient if (m_info.ctype == 0) { for (int i = 0; i < m_info.material_cols.size() - 1; i++) { auto rect = wxRect(left, FromDIP(10), size.x - FromDIP(20), size.y - FromDIP(20)); dc.GradientFillLinear(rect, m_info.material_cols[i], m_info.material_cols[i + 1], wxEAST); left += gwidth; } } else { int cols_size = m_info.material_cols.size(); for (int i = 0; i < cols_size; i++) { dc.SetBrush(wxBrush(m_info.material_cols[i])); float x = FromDIP(10) + ((float)size.x - FromDIP(20)) * i / cols_size; dc.DrawRoundedRectangle(x, FromDIP(10), ((float)size.x - FromDIP(20)) / cols_size, size.y - FromDIP(20), 0); } dc.SetBrush(wxBrush(tmp_lib_colour)); } } else { dc.SetBrush(wxBrush(tmp_lib_colour)); dc.DrawRoundedRectangle(FromDIP(10), FromDIP(10), size.x - FromDIP(20), size.y - FromDIP(20), 0); } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); if (!m_disable_mode) { // edit icon if (m_info.material_state != AMSCanType::AMS_CAN_TYPE_EMPTY && m_info.material_state != AMSCanType::AMS_CAN_TYPE_NONE) { if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) dc.DrawBitmap(temp_bitmap_third.bmp(), (size.x - temp_bitmap_third.GetBmpSize().x) / 2 + FromDIP(2), (size.y - FromDIP(18) - temp_bitmap_third.GetBmpSize().y)); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND) dc.DrawBitmap(temp_bitmap_brand.bmp(), (size.x - temp_bitmap_brand.GetBmpSize().x) / 2 + FromDIP(2), (size.y - FromDIP(18) - temp_bitmap_brand.GetBmpSize().y)); } } // selected & hover if (m_selected) { dc.DrawBitmap(tray_bitmap_selected.bmp(), (size.x - tray_bitmap_selected.GetBmpSize().x) / 2, (size.y - tray_bitmap_selected.GetBmpSize().y) / 2); } else if (!m_selected && m_hover) { dc.DrawBitmap(tray_bitmap_hover.bmp(), (size.x - tray_bitmap_hover.GetBmpSize().x) / 2, (size.y - tray_bitmap_hover.GetBmpSize().y) / 2); } else { dc.DrawBitmap(tray_bitmap.bmp(), (size.x - tray_bitmap.GetBmpSize().x) / 2, (size.y - tray_bitmap.GetBmpSize().y) / 2); } } void AMSLib::render_generic_lib(wxDC &dc) { wxSize size = GetSize(); auto tmp_lib_colour = m_info.material_colour; change_the_opacity(tmp_lib_colour); auto temp_bitmap_third = m_bitmap_editable_light; auto temp_bitmap_brand = m_bitmap_readonly_light; //draw def background dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(AMS_CONTROL_DEF_LIB_BK_COLOUR)); //dc.DrawRoundedRectangle(FromDIP(4), FromDIP(4), size.x - FromDIP(8), size.y - FromDIP(8), m_radius); //dc.DrawRoundedRectangle(FromDIP(4), FromDIP(4), size.x - FromDIP(8), size.y - FromDIP(m_radius - 2), m_radius); dc.DrawRoundedRectangle(FromDIP(2), FromDIP(2), FromDIP(size.x - 4), FromDIP(size.y - 3), m_radius); if (tmp_lib_colour.GetLuminance() < 0.6) { temp_bitmap_third = m_bitmap_editable_light; temp_bitmap_brand = m_bitmap_readonly_light; } else { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } if (m_info.material_remain < 50) { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } if (tmp_lib_colour.Alpha() == 0) { temp_bitmap_third = m_bitmap_editable; temp_bitmap_brand = m_bitmap_readonly; } // selected if (m_selected) { dc.SetPen(wxPen(AMS_CONTROL_BRAND_COLOUR, 3, wxSOLID)); //dc.SetPen(wxPen(tmp_lib_colour, 2, wxSOLID)); if (tmp_lib_colour.Alpha() == 0) { dc.SetPen(wxPen(wxColour(tmp_lib_colour.Red(), tmp_lib_colour.Green(), tmp_lib_colour.Blue(), 128), 3, wxSOLID)); } dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_radius == 0) { dc.DrawRectangle(0, 0, size.x, size.y); } else { dc.DrawRoundedRectangle(0, 0, size.x, size.y, m_radius); } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); } if (!m_selected && m_hover) { dc.SetPen(wxPen(AMS_CONTROL_BRAND_COLOUR, 2, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_radius == 0) { dc.DrawRectangle(0, 0, size.x, size.y); } else { dc.DrawRoundedRectangle(0, 0, size.x, size.y, m_radius); } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); } else { dc.SetPen(wxPen(tmp_lib_colour, 1, wxSOLID)); dc.SetBrush(wxBrush(tmp_lib_colour)); } //draw remain auto alpha = m_info.material_colour.Alpha(); int height = size.y; int curr_height = height * float(m_info.material_remain * 1.0 / 100.0); dc.SetFont(::Label::Body_13); int top = height - curr_height; if (m_ams_model == NO_AMS){ dc.SetPen(wxPen(wxTRANSPARENT)); dc.SetBrush(wxBrush(m_info.material_colour)); dc.DrawRectangle(FromDIP(2), FromDIP(2), FromDIP(size.x - 4), FromDIP(size.y - 2)); if (!m_disable_mode) { // edit icon if (m_info.material_state != AMSCanType::AMS_CAN_TYPE_EMPTY && m_info.material_state != AMSCanType::AMS_CAN_TYPE_NONE) { if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) dc.DrawBitmap(temp_bitmap_third.bmp(), (size.x - temp_bitmap_third.GetBmpSize().x) / 2, (size.y - FromDIP(10) - temp_bitmap_third.GetBmpSize().y)); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND) dc.DrawBitmap(temp_bitmap_brand.bmp(), (size.x - temp_bitmap_brand.GetBmpSize().x) / 2, (size.y - FromDIP(10) - temp_bitmap_brand.GetBmpSize().y)); } } } if (curr_height >= FromDIP(6)) { //transparent if (alpha == 0) { dc.DrawBitmap(m_bitmap_transparent_def.bmp(), FromDIP(4), FromDIP(4)); } else if (alpha != 255 && alpha != 254) { if (transparent_changed) { std::string rgb = (tmp_lib_colour.GetAsString(wxC2S_HTML_SYNTAX)).ToStdString(); if (rgb.size() == 9) { //delete alpha value rgb = rgb.substr(0, rgb.size() - 2); } float alpha_f = 0.7 * tmp_lib_colour.Alpha() / 255.0; std::vector replace; replace.push_back(rgb); std::string fill_replace = "fill-opacity=\"" + std::to_string(alpha_f); replace.push_back(fill_replace); m_bitmap_transparent = ScalableBitmap(this, "transparent_ams_lib", 68, false, false, true, replace); transparent_changed = false; } dc.DrawBitmap(m_bitmap_transparent.bmp(), FromDIP(4), FromDIP(4)); } //gradient if (m_info.material_cols.size() > 1) { int left = 2; float total_width = size.x - 4; int gwidth = std::round(total_width / (m_info.material_cols.size() - 1)); //gradient if (m_info.ctype == 0) { for (int i = 0; i < m_info.material_cols.size() - 1; i++) { if ((left + gwidth) > (size.x)) { gwidth = (size.x) - left; } auto rect = wxRect(left, height - curr_height, gwidth, curr_height); dc.GradientFillLinear(rect, m_info.material_cols[i], m_info.material_cols[i + 1], wxEAST); left += gwidth; } } else { //multicolour gwidth = std::round(total_width / m_info.material_cols.size()); for (int i = 0; i < m_info.material_cols.size(); i++) { dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(m_info.material_cols[i])); if (i == 0 || i == m_info.material_cols.size() - 1) { #ifdef __APPLE__ dc.DrawRoundedRectangle(left + gwidth * i, height - curr_height, gwidth, curr_height, m_radius); #else dc.DrawRoundedRectangle(left + gwidth * i, height - curr_height, gwidth, curr_height, m_radius - 1); #endif //add rectangle int dr_gwidth = std::round(gwidth * 0.6); if (i == 0) { dc.DrawRectangle(left + gwidth - dr_gwidth, height - curr_height, dr_gwidth, curr_height); } else { dc.DrawRectangle(left + gwidth*i, height - curr_height, dr_gwidth, curr_height); } } else { dc.DrawRectangle(left + gwidth * i, height - curr_height, gwidth, curr_height); } } //reset pen and brush if (m_selected || m_hover) { dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); } else { dc.SetPen(wxPen(tmp_lib_colour, 1, wxSOLID)); dc.SetBrush(wxBrush(tmp_lib_colour)); } } } else { auto brush = dc.GetBrush(); if (alpha != 0 && alpha != 255 && alpha != 254) dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); #ifdef __APPLE__ dc.DrawRoundedRectangle(FromDIP(4), FromDIP(4) + top, size.x - FromDIP(8), curr_height, m_radius); #else dc.DrawRoundedRectangle(FromDIP(2), top, FromDIP(size.x - 4), curr_height, m_radius - 1); #endif dc.SetBrush(brush); } } if (top > 2) { if (curr_height >= FromDIP(6)) { dc.DrawRectangle(FromDIP(2), top, FromDIP(size.x - 4), FromDIP(2)); if (alpha != 255 && alpha != 254) { dc.SetPen(wxPen(*wxWHITE)); dc.SetBrush(wxBrush(*wxWHITE)); #ifdef __APPLE__ dc.DrawRoundedRectangle(FromDIP(2), FromDIP(1) , size.x - FromDIP(4), top, m_radius); #else dc.DrawRoundedRectangle(FromDIP(2), FromDIP(1) , FromDIP(size.x - 4), top, m_radius - 1); #endif } if (tmp_lib_colour.Red() > 238 && tmp_lib_colour.Green() > 238 && tmp_lib_colour.Blue() > 238) { dc.SetPen(wxPen(wxColour(130, 129, 128), 1, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); dc.DrawLine(FromDIP(2), top, FromDIP(size.x - 4), top); } } else { dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (tmp_lib_colour.Red() > 238 && tmp_lib_colour.Green() > 238 && tmp_lib_colour.Blue() > 238) { dc.SetPen(wxPen(wxColour(130, 129, 128), 2, wxSOLID)); } else { dc.SetPen(wxPen(tmp_lib_colour, 2, wxSOLID)); } #ifdef __APPLE__ dc.DrawLine(FromDIP(5), FromDIP(4) + height - FromDIP(2), size.x - FromDIP(5), FromDIP(4) + height - FromDIP(2)); dc.DrawLine(FromDIP(6), FromDIP(4) + height - FromDIP(1), size.x - FromDIP(6), FromDIP(4) + height - FromDIP(1)); #else dc.DrawLine(FromDIP(2), FromDIP(0 + height), FromDIP(size.x - 4), FromDIP(height)); dc.DrawLine(FromDIP(2), height, FromDIP(size.x - 4), height); #endif } } //border dc.SetPen(wxPen(wxColour(130, 130, 128), 1, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); #ifdef __APPLE__ //dc.DrawRoundedRectangle(FromDIP(4), FromDIP(4), size.x - FromDIP(7), size.y - FromDIP(7), m_radius); dc.DrawRoundedRectangle(FromDIP(4), FromDIP(4), size.x - FromDIP(7), size.y - FromDIP(m_radius - 1), m_radius); #else //dc.DrawRoundedRectangle(FromDIP(3), FromDIP(3), size.x - FromDIP(6), size.y - FromDIP(6), m_radius); dc.DrawRoundedRectangle(FromDIP(1), FromDIP(1), FromDIP(size.x - 2), FromDIP(size.y - 1), m_radius); #endif if (m_selected) { dc.SetPen(wxPen(AMS_CONTROL_BRAND_COLOUR, 3, wxSOLID)); //dc.SetPen(wxPen(tmp_lib_colour, 3, wxSOLID)); if (tmp_lib_colour.Alpha() == 0) { dc.SetPen(wxPen(wxColour(tmp_lib_colour.Red(), tmp_lib_colour.Green(), tmp_lib_colour.Blue(), 128), 3, wxSOLID)); } dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_radius == 0) { dc.DrawRectangle(0, 0, size.x, size.y); } else { dc.DrawRoundedRectangle(0, 0, size.x, size.y, m_radius); } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); } if (!m_selected && m_hover) { dc.SetPen(wxPen(AMS_CONTROL_BRAND_COLOUR, 3, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_radius == 0) { dc.DrawRectangle(0, 0, size.x, size.y); } else { dc.DrawRoundedRectangle(0, 0, size.x, size.y, m_radius); } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(tmp_lib_colour)); } if (!m_disable_mode) { // edit icon if (m_info.material_state != AMSCanType::AMS_CAN_TYPE_EMPTY && m_info.material_state != AMSCanType::AMS_CAN_TYPE_NONE) { if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_THIRDBRAND || m_info.material_state == AMSCanType::AMS_CAN_TYPE_VIRTUAL) dc.DrawBitmap(temp_bitmap_third.bmp(), (size.x - temp_bitmap_third.GetBmpSize().x) / 2, (size.y - FromDIP(10) - temp_bitmap_third.GetBmpSize().y)); if (m_info.material_state == AMSCanType::AMS_CAN_TYPE_BRAND) dc.DrawBitmap(temp_bitmap_brand.bmp(), (size.x - temp_bitmap_brand.GetBmpSize().x) / 2, (size.y - FromDIP(10) - temp_bitmap_brand.GetBmpSize().y)); } } } void AMSLib::on_pass_road(bool pass) { if (m_pass_road != pass) { m_pass_road = pass; Refresh(); } } void AMSLib::Update(Caninfo info, std::string ams_idx, bool refresh) { DeviceManager* dev = Slic3r::GUI::wxGetApp().getDeviceManager(); if (!dev) return; if (dev->get_selected_machine() && dev->get_selected_machine() != m_obj) { m_obj = dev->get_selected_machine(); } if (info.material_colour.Alpha() != 0 && info.material_colour.Alpha() != 255 && info.material_colour.Alpha() != 254 && m_info.material_colour != info.material_colour) { transparent_changed = true; } m_info = info; m_ams_id = ams_idx; Layout(); if (refresh) Refresh(); } wxColour AMSLib::GetLibColour() { return m_info.material_colour; } void AMSLib::OnSelected() { if (!wxWindow::IsEnabled()) return; if (m_unable_selected) return; post_event(wxCommandEvent(EVT_AMS_ON_SELECTED)); m_selected = true; Refresh(); } void AMSLib::post_event(wxCommandEvent &&event) { //int tray_id = atoi(m_ams_id.c_str()) * 4 + atoi(m_info.can_id.c_str()); //event.SetString(m_info.can_id); event.SetString(m_slot_id); event.SetInt(std::stoi(m_ams_id)); event.SetEventObject(m_parent); wxPostEvent(m_parent, event); event.Skip(); } void AMSLib::UnSelected() { m_selected = false; Refresh(); } bool AMSLib::Enable(bool enable) { return wxWindow::Enable(enable); } void AMSLib::msw_rescale() { //m_bitmap_transparent.msw_rescale(); m_bitmap_transparent_def.msw_rescale(); } /************************************************* Description:AMSRoad **************************************************/ AMSRoad::AMSRoad() : m_road_def_color(AMS_CONTROL_GRAY500), m_road_color(AMS_CONTROL_GRAY500) {} AMSRoad::AMSRoad(wxWindow *parent, wxWindowID id, Caninfo info, int canindex, int maxcan, const wxPoint &pos, const wxSize &size) : AMSRoad() { m_info = info; m_canindex = canindex; // road type auto mode = AMSRoadMode::AMS_ROAD_MODE_END; if (m_canindex == 0 && maxcan == 1) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_NONE; } else if (m_canindex == 0 && maxcan > 1) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_END; } else if (m_canindex < (maxcan - 1)) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_LEFT_RIGHT; } else if (m_canindex == (maxcan - 1)) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_LEFT; } else if (m_canindex == -1 && maxcan == -1) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_VIRTUAL_TRAY; } else { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_NONE_ANY_ROAD; } for (int i = 1; i <= 5; i++) { ams_humidity_img.push_back(ScalableBitmap(this, "hum_level" + std::to_string(i) + "_light", 32)); } for (int i = 1; i <= 5; i++) { ams_humidity_img.push_back(ScalableBitmap(this, "hum_level" + std::to_string(i) + "_dark", 32)); } if (m_rode_mode != AMSRoadMode::AMS_ROAD_MODE_VIRTUAL_TRAY) { create(parent, id, pos, size); } else { wxSize virtual_size(size.x - 1, size.y + 2); create(parent, id, pos, virtual_size); } Bind(wxEVT_PAINT, &AMSRoad::paintEvent, this); wxWindow::SetBackgroundColour(AMS_CONTROL_DEF_BLOCK_BK_COLOUR); Bind(wxEVT_LEFT_UP, [this](wxMouseEvent& e) { if (m_canindex == 3 && m_show_humidity) { auto mouse_pos = ClientToScreen(e.GetPosition()); auto rect = ClientToScreen(wxPoint(0, 0)); if (mouse_pos.x > rect.x + GetSize().x - FromDIP(40) && mouse_pos.y > rect.y + GetSize().y - FromDIP(40)) { wxCommandEvent show_event(EVT_AMS_SHOW_HUMIDITY_TIPS); wxPostEvent(GetParent()->GetParent(), show_event); #ifdef __WXMSW__ wxCommandEvent close_event(EVT_CLEAR_SPEED_CONTROL); wxPostEvent(GetParent()->GetParent(), close_event); #endif // __WXMSW__ } } }); } void AMSRoad::create(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { wxWindow::Create(parent, id, pos, size); } void AMSRoad::Update(AMSinfo amsinfo, Caninfo info, int canindex, int maxcan) { m_amsinfo = amsinfo; m_info = info; m_canindex = canindex; if (m_canindex == 0 && maxcan == 1) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_END_ONLY; } else if (m_canindex == 0 && maxcan > 1) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_END; } else if (m_canindex < (maxcan - 1)) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_LEFT_RIGHT; } else if (m_canindex == (maxcan - 1)) { m_rode_mode = AMSRoadMode::AMS_ROAD_MODE_LEFT; } m_pass_rode_mode.push_back(AMSPassRoadMode::AMS_ROAD_MODE_NONE); Refresh(); } void AMSRoad::OnVamsLoading(bool load, wxColour col /*= AMS_CONTROL_GRAY500*/) { /*m_vams_loading = load; if(load)m_road_color = col; Refresh();*/ } void AMSRoad::SetPassRoadColour(wxColour col) { m_road_color = col; } void AMSRoad::SetMode(AMSRoadMode mode) { m_rode_mode = mode; Refresh(); } void AMSRoad::paintEvent(wxPaintEvent &evt) { wxPaintDC dc(this); render(dc); } void AMSRoad::render(wxDC &dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({0, 0}, size, &dc, {0, 0}); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSRoad::doRender(wxDC &dc) { wxSize size = GetSize(); dc.SetPen(wxPen(m_road_def_color, 2, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); // left mode if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_LEFT) { dc.DrawRoundedRectangle(-10, -10, size.x / 2 + 10, size.y * 0.6 + 10, 4); } // left right mode if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_LEFT_RIGHT) { dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); dc.DrawLine(0, size.y * 0.6 - 1, size.x, size.y * 0.6 - 1); } // end mode if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END) { dc.SetBrush(wxBrush(m_road_def_color)); dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); dc.DrawLine(size.x / 2, size.y * 0.6, size.x / 2, size.y); dc.DrawLine(size.x / 2, size.y * 0.6 - 1, size.x, size.y * 0.6 - 1); } // end mode only if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END_ONLY) { dc.SetBrush(wxBrush(m_road_def_color)); dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); dc.DrawLine(size.x / 2, size.y * 0.6, size.x / 2, size.y); } // end none if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_NONE) { dc.SetBrush(wxBrush(m_road_def_color)); dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); dc.DrawLine(size.x / 2, size.y * 0.6, size.x / 2, size.y); // dc.DrawLine(size.x / 2, size.y * 0.6 - 1, size.x, size.y * 0.6 - 1); } //virtual road if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_VIRTUAL_TRAY) { dc.SetBrush(wxBrush(m_road_def_color)); dc.DrawLine(size.x / 2, -1, size.x / 2, size.y - 1); } // mode none // if (m_pass_rode_mode.size() == 1 && m_pass_rode_mode[0] == AMSPassRoadMode::AMS_ROAD_MODE_NONE) return; if (m_road_color.Alpha() == 0) {dc.SetPen(wxPen(*wxWHITE, m_passroad_width, wxSOLID));} else {dc.SetPen(wxPen(m_road_color, m_passroad_width, wxSOLID));} dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); // left pass mode for (auto pass_mode : m_pass_rode_mode) { switch (pass_mode) { case AMSPassRoadMode::AMS_ROAD_MODE_LEFT: dc.DrawRoundedRectangle(-10, -10, size.x / 2 + 10, size.y * 0.6 + 10, 4); break; case AMSPassRoadMode::AMS_ROAD_MODE_LEFT_RIGHT: dc.DrawLine(0, size.y * 0.6 - 1, size.x, size.y * 0.6 - 1); break; case AMSPassRoadMode::AMS_ROAD_MODE_END_TOP: dc.DrawLine(size.x / 2, -1, size.x / 2, size.y * 0.6 - 1); break; case AMSPassRoadMode::AMS_ROAD_MODE_END_BOTTOM: dc.DrawLine(size.x / 2, size.y * 0.6, size.x / 2, size.y); break; case AMSPassRoadMode::AMS_ROAD_MODE_END_RIGHT: dc.DrawLine(size.x / 2, size.y * 0.6 - 1, size.x, size.y * 0.6 - 1); break; default: break; } } if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_VIRTUAL_TRAY && m_vams_loading) { dc.DrawLine(size.x / 2, -1, size.x / 2, size.y - 1); } // end mode if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END || m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END_ONLY) { dc.SetPen(wxPen(m_road_def_color, 2, wxSOLID)); dc.SetBrush(wxBrush(m_road_def_color)); dc.DrawRoundedRectangle(size.x * 0.37 / 2, size.y * 0.6 - size.y / 6, size.x * 0.63, size.y / 3, m_radius); } if (m_canindex == 3) { if (m_amsinfo.ams_humidity >= 1 && m_amsinfo.ams_humidity <= 5) {m_show_humidity = true;} else {m_show_humidity = false;} if (m_amsinfo.ams_humidity >= 1 && m_amsinfo.ams_humidity <= 5) { int hum_index = m_amsinfo.ams_humidity - 1; if (wxGetApp().dark_mode()) { hum_index += 5; } if (hum_index >= 0) { dc.DrawBitmap(ams_humidity_img[hum_index].bmp(), wxPoint(size.x - FromDIP(33), size.y - FromDIP(33))); } } else { //to do ... } } } void AMSRoad::UpdatePassRoad(int tag_index, AMSPassRoadType type, AMSPassRoadSTEP step) {} void AMSRoad::OnPassRoad(std::vector prord_list) { // AMS_ROAD_MODE_NONE, AMS_ROAD_MODE_LEFT, AMS_ROAD_MODE_LEFT_RIGHT, AMS_ROAD_MODE_END_TOP, AMS_ROAD_MODE_END_BOTTOM, AMS_ROAD_MODE_END_RIGHT, // AMS_ROAD_MODE_LEFT, AMS_ROAD_MODE_LEFT_RIGHT, AMS_ROAD_MODE_END, m_pass_rode_mode.clear(); auto left_types = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE, AMSPassRoadMode::AMS_ROAD_MODE_LEFT}; auto left_right_types = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE, AMSPassRoadMode::AMS_ROAD_MODE_LEFT, AMSPassRoadMode::AMS_ROAD_MODE_LEFT_RIGHT}; auto end_types = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE, AMSPassRoadMode::AMS_ROAD_MODE_END_TOP, AMSPassRoadMode::AMS_ROAD_MODE_END_BOTTOM, AMSPassRoadMode::AMS_ROAD_MODE_END_RIGHT}; // left if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_LEFT) { for (auto i = 0; i < prord_list.size(); i++) { std::vector::iterator iter = std::find(left_types.begin(), left_types.end(), prord_list[i]); if (iter != left_types.end()) m_pass_rode_mode.push_back(prord_list[i]); if (prord_list[i] == AMSPassRoadMode::AMS_ROAD_MODE_NONE) { m_pass_rode_mode = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE}; break; } } } // left right if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_LEFT_RIGHT) { for (auto i = 0; i < prord_list.size(); i++) { std::vector::iterator iter = std::find(left_right_types.begin(), left_right_types.end(), prord_list[i]); if (iter != left_right_types.end()) m_pass_rode_mode.push_back(prord_list[i]); if (prord_list[i] == AMSPassRoadMode::AMS_ROAD_MODE_NONE) { m_pass_rode_mode = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE}; break; } } } // left end if (m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END || m_rode_mode == AMSRoadMode::AMS_ROAD_MODE_END_ONLY) { for (auto i = 0; i < prord_list.size(); i++) { std::vector::iterator iter = std::find(end_types.begin(), end_types.end(), prord_list[i]); if (iter != end_types.end()) m_pass_rode_mode.push_back(prord_list[i]); if (prord_list[i] == AMSPassRoadMode::AMS_ROAD_MODE_NONE) { m_pass_rode_mode = std::vector{AMSPassRoadMode::AMS_ROAD_MODE_NONE}; break; } } } } /* /************************************************* Description:AMSRoadUpPart **************************************************/ AMSRoadUpPart::AMSRoadUpPart() : m_road_def_color(AMS_CONTROL_GRAY500), m_road_color(AMS_CONTROL_GRAY500) {} AMSRoadUpPart::AMSRoadUpPart(wxWindow* parent, wxWindowID id, AMSinfo info, AMSModel model, const wxPoint& pos, const wxSize& size) : AMSRoadUpPart() { m_amsinfo = info; // road type auto mode = AMSRoadMode::AMS_ROAD_MODE_END; m_ams_model = model; if (m_ams_model == AMSModel::GENERIC_AMS) { create(parent, id, pos, wxSize(FromDIP(264), FromDIP(34))); } else { create(parent, id, pos, wxSize(FromDIP(78), FromDIP(34))); } /*create(parent, id, pos, size); this->SetMinSize(AMS_SINGLE_CAN_SIZE); this->SetSize(AMS_SINGLE_CAN_SIZE);*/ Bind(wxEVT_PAINT, &AMSRoadUpPart::paintEvent, this); wxWindow::SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); } void AMSRoadUpPart::create(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, size); SetSize(size); SetMinSize(size); SetMaxSize(size); SetBackgroundColour(AMS_CONTROL_WHITE_COLOUR); Layout(); Fit(); Refresh(); } void AMSRoadUpPart::Update(AMSinfo amsinfo, Caninfo info) { m_amsinfo = amsinfo; m_info = info; Refresh(); } void AMSRoadUpPart::OnVamsLoading(bool load, wxColour col /*= AMS_CONTROL_GRAY500*/) { /*m_vams_loading = load; if(load)m_road_color = col; Refresh();*/ } void AMSRoadUpPart::SetPassRoadColour(wxColour col) { m_road_color = col; } void AMSRoadUpPart::SetMode(AMSRoadShowMode mode) { m_road_mode = mode; Refresh(); } void AMSRoadUpPart::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSRoadUpPart::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSRoadUpPart::doRender(wxDC& dc) { wxSize size = GetSize(); //dc.SetPen(wxPen(m_road_def_color, 2, wxSOLID)); dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); if (m_ams_model == SINGLE_AMS || m_ams_model == NO_AMS){ dc.DrawLine(FromDIP(size.x / 2), FromDIP(0), FromDIP(size.x / 2), FromDIP(size.y)); if (m_load_step == AMSPassRoadSTEP::AMS_ROAD_STEP_2 || m_load_step == AMSPassRoadSTEP::AMS_ROAD_STEP_3){ dc.SetPen(wxPen(m_amsinfo.cans[m_load_slot_index].material_colour, 4, wxSOLID)); dc.DrawLine(FromDIP(size.x / 2), FromDIP(0), FromDIP(size.x / 2), FromDIP(size.y)); } } else{ int x_start = 38; int x = x_start; int width = 64; for (int i = 0; i < 4; i++) { dc.DrawLine(FromDIP(x), FromDIP(0), FromDIP(x), FromDIP(21)); x += width; } x -= width; dc.DrawLine(FromDIP(x_start), FromDIP(21), FromDIP(x), FromDIP(21)); dc.DrawLine(FromDIP(size.x / 2), FromDIP(21), FromDIP(size.x / 2), FromDIP(size.y)); dc.SetPen(wxPen(m_amsinfo.cans[m_load_slot_index].material_colour, 4, wxSOLID)); auto temp = m_amsinfo; if (m_load_step != AMSPassRoadSTEP::AMS_ROAD_STEP_NONE){ if (m_amsinfo.cans.size() <= m_load_slot_index || m_load_slot_index < 0){ BOOST_LOG_TRIVIAL(trace) << "up road render error"; return; } x = x_start + m_load_slot_index * 64; dc.DrawLine(FromDIP(x), FromDIP(0), FromDIP(x), FromDIP(21)); if (x < size.x / 2){ dc.DrawLine(FromDIP(x), FromDIP(21), FromDIP(size.x / 2), FromDIP(21)); } else { dc.DrawLine(FromDIP(size.x / 2), FromDIP(21), FromDIP(x), FromDIP(21)); } if(m_load_step == AMSPassRoadSTEP::AMS_ROAD_STEP_2 || m_load_step == AMSPassRoadSTEP::AMS_ROAD_STEP_3){ dc.DrawLine(FromDIP(size.x / 2), FromDIP(21), FromDIP(size.x / 2), FromDIP(size.y)); } } dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(wxColour(194, 194, 194))); dc.DrawRectangle(FromDIP(size.x / 2 - 14), FromDIP(16), FromDIP(28), FromDIP(10)); } // left mode } void AMSRoadUpPart::UpdatePassRoad(std::string ams_index, std::string slot_index, AMSPassRoadType type, AMSPassRoadSTEP step) { m_load_ams_index = atoi(ams_index.c_str()); m_load_slot_index = atoi(slot_index.c_str()); m_load_step = step; } void AMSRoadUpPart::OnPassRoad(std::vector prord_list) { // AMS_ROAD_MODE_NONE, AMS_ROAD_MODE_LEFT, AMS_ROAD_MODE_LEFT_RIGHT, AMS_ROAD_MODE_END_TOP, AMS_ROAD_MODE_END_BOTTOM, AMS_ROAD_MODE_END_RIGHT, // AMS_ROAD_MODE_LEFT, AMS_ROAD_MODE_LEFT_RIGHT, AMS_ROAD_MODE_END, //wait fill } /************************************************* Description:AMSRoadDownPart **************************************************/ AMSRoadDownPart::AMSRoadDownPart() : m_road_def_color(AMS_CONTROL_GRAY500), m_road_color(AMS_CONTROL_GRAY500) {} AMSRoadDownPart::AMSRoadDownPart(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) : AMSRoadDownPart() { /*m_info = info; m_canindex = canindex;*/ // road type m_left_rode_mode = AMSRoadShowMode::AMS_ROAD_MODE_FOUR; m_right_rode_mode = AMSRoadShowMode::AMS_ROAD_MODE_FOUR; m_selected = false; m_single_nozzle_no_ams = false; m_left_road_length = -1; m_right_road_length = -1; create(parent, id, pos, size); this->SetMinSize(AMS_DOWN_ROAD_SIZE); this->SetSize(AMS_DOWN_ROAD_SIZE); Bind(wxEVT_PAINT, &AMSRoadDownPart::paintEvent, this); wxWindow::SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); } void AMSRoadDownPart::create(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, size); } //void AMSRoadDownPart::Update(int nozzle_num, AMSRoadShowMode left_mode, AMSRoadShowMode right_mode, int left_len, int right_len) //{ // this->m_nozzle_num = nozzle_num; // this->m_left_rode_mode = left_mode; // this->m_right_rode_mode = right_mode; // // m_left_road_length = left_len; // m_right_road_length = right_len; // m_selected = false; // // Refresh(); //} void AMSRoadDownPart::UpdateLeft(int nozzle_num, AMSRoadShowMode mode) { this->m_left_rode_mode = mode; m_nozzle_num = nozzle_num; if (m_left_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE && m_left_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE) { m_single_nozzle_no_ams = true; } Refresh(); } void AMSRoadDownPart::UpdateRight(int nozzle_num, AMSRoadShowMode mode) { this->m_right_rode_mode = mode; m_nozzle_num = nozzle_num; if (m_left_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE && m_left_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE) { m_single_nozzle_no_ams = true; } Refresh(); } void AMSRoadDownPart::OnVamsLoading(bool load, wxColour col /*= AMS_CONTROL_GRAY500*/) { /*m_vams_loading = load; if(load)m_road_color = col; Refresh();*/ } void AMSRoadDownPart::SetPassRoadColour(wxColour col) { m_road_color = col; } //void AMSRoadDownPart::SetMode(AMSRoadDownPartMode mode) { // //} void AMSRoadDownPart::SetShowMode(AMSRoadShowMode left_mode, AMSRoadShowMode right_mode) { m_left_rode_mode = left_mode; m_right_rode_mode = right_mode; } void AMSRoadDownPart::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSRoadDownPart::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSRoadDownPart::doRender(wxDC& dc) { wxSize size = GetSize(); wxPoint left_nozzle_pos = wxPoint(FromDIP(size.x / 2 - 7), FromDIP(258)); wxPoint right_nozzle_pos = wxPoint(FromDIP(size.x / 2 + 7), FromDIP(258)); if (m_road_color.Alpha() == 0) { dc.SetPen(wxPen(*wxWHITE, m_passroad_width, wxSOLID)); } else { dc.SetPen(wxPen(m_road_color, m_passroad_width, wxSOLID)); } dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); if (m_left_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE || m_right_rode_mode == AMSRoadShowMode::AMS_ROAD_MODE_NONE) { dc.DrawLine(FromDIP(left_nozzle_pos.x - 56), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x - 56), FromDIP(0), FromDIP(left_nozzle_pos.x - 56), FromDIP(size.y / 2)); } else{ switch (m_left_rode_mode) { case AMSRoadShowMode::AMS_ROAD_MODE_FOUR: dc.DrawLine(FromDIP(left_nozzle_pos.x - 135), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x - 135), 0, FromDIP(left_nozzle_pos.x - 135), FromDIP(size.y / 2)); break; case AMSRoadShowMode::AMS_ROAD_MODE_DOUBLE: dc.DrawLine(left_nozzle_pos.x - 233, FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x - 115), 0, FromDIP(left_nozzle_pos.x - 115), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x - 223), 0, FromDIP(left_nozzle_pos.x - 223), FromDIP(size.y / 2)); break; case AMSRoadShowMode::AMS_ROAD_MODE_SINGLE: dc.DrawLine(FromDIP(left_nozzle_pos.x - 198), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x - 198), 0, FromDIP(left_nozzle_pos.x - 198), FromDIP(size.y / 2)); break; default: break; } switch (m_right_rode_mode) { case AMSRoadShowMode::AMS_ROAD_MODE_FOUR: dc.DrawLine(right_nozzle_pos.x, FromDIP(size.y / 2), FromDIP(right_nozzle_pos.x + 135), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(right_nozzle_pos.x + 135), 0, FromDIP(right_nozzle_pos.x + 135), FromDIP(size.y / 2)); break; case AMSRoadShowMode::AMS_ROAD_MODE_DOUBLE: dc.DrawLine(right_nozzle_pos.x, FromDIP(size.y / 2), FromDIP(right_nozzle_pos.x + 223), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(right_nozzle_pos.x + 115), 0, FromDIP(right_nozzle_pos.x + 115), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(right_nozzle_pos.x + 223), 0, FromDIP(right_nozzle_pos.x + 223), FromDIP(size.y / 2)); break; case AMSRoadShowMode::AMS_ROAD_MODE_SINGLE: dc.DrawLine(right_nozzle_pos.x, FromDIP(size.y / 2), FromDIP(right_nozzle_pos.x + 72), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(right_nozzle_pos.x + 72), 0, FromDIP(right_nozzle_pos.x + 72), FromDIP(size.y / 2)); break; default: break; } } if (m_nozzle_num == 2){ dc.DrawLine(FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y)); dc.DrawLine(FromDIP(right_nozzle_pos.x), FromDIP(size.y / 2), FromDIP(right_nozzle_pos.x), FromDIP(size.y)); } else{ if (m_right_rode_mode != AMSRoadShowMode::AMS_ROAD_MODE_NONE){ dc.DrawLine(FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2), FromDIP(right_nozzle_pos.x), FromDIP(size.y / 2)); } dc.DrawLine(FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y)); } /*if (m_nozzle_mode == AMSRoadDownPartMode::AMS_ROAD_MODE_SINGLE) { dc.DrawLine(left_nozzle_pos.x, left_nozzle_pos.y, FromDIP(left_nozzle_pos.x + 30), left_nozzle_pos.y); }*/ //dc.SetBrush(wxBrush(*wxBLUE)); if (m_pass_road_left_step == AMSPassRoadSTEP::AMS_ROAD_STEP_2 || m_pass_road_left_step == AMSPassRoadSTEP::AMS_ROAD_STEP_3){ dc.SetPen(wxPen(m_amsinfo.cans[m_canindex].material_colour, 4, wxSOLID)); if (m_left_road_length > 0){ dc.DrawLine((FromDIP(left_nozzle_pos.x - m_left_road_length)), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(left_nozzle_pos.x), FromDIP(size.y / 2), FromDIP(left_nozzle_pos.x), FromDIP(size.y)); dc.DrawLine(FromDIP(left_nozzle_pos.x - m_left_road_length), FromDIP(0), FromDIP(left_nozzle_pos.x - m_left_road_length), FromDIP(size.y / 2)); } } if (m_pass_road_right_step == AMSPassRoadSTEP::AMS_ROAD_STEP_2 || m_pass_road_right_step == AMSPassRoadSTEP::AMS_ROAD_STEP_3) { dc.SetPen(wxPen(m_amsinfo.cans[m_canindex].material_colour, 4, wxSOLID)); if (m_right_road_length > 0) { int x = left_nozzle_pos.x; int len = m_right_road_length; if (m_nozzle_num == 2){ x = right_nozzle_pos.x; len = len - 14; } dc.DrawLine((FromDIP(x)), FromDIP(size.y / 2), FromDIP(x + len), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(x + len), FromDIP(0), FromDIP(left_nozzle_pos.x + len), FromDIP(size.y / 2)); dc.DrawLine(FromDIP(x), FromDIP(size.y / 2), FromDIP(x), FromDIP(size.y)); } } } void AMSRoadDownPart::UpdatePassRoad(string can_id, bool left, int len, AMSinfo info, AMSPassRoadSTEP step) { if (m_nozzle_num >= 2){ if (left) { m_left_road_length = len; m_pass_road_left_step = step; } else { m_right_road_length = len; m_pass_road_right_step = step; } } else{ if (left) { m_left_road_length = len; m_right_road_length = -1; m_pass_road_left_step = step; } else { m_right_road_length = len; m_left_road_length = -1; m_pass_road_right_step = step; } } m_canindex = atoi(can_id.c_str()); if (m_canindex == -1){ return; } m_amsinfo = info; } /************************************************* Description:AMSPreview **************************************************/ AMSPreview::AMSPreview() {} AMSPreview::AMSPreview(wxWindow* parent, wxWindowID id, AMSinfo amsinfo, AMSModel itemType, const wxPoint& pos, const wxSize& size) : AMSPreview() { if (itemType == AMSModel::GENERIC_AMS || itemType == AMSModel::EXTRA_AMS || itemType == AMSModel::N3F_AMS) { create(parent, id, pos, AMS_ITEM_FOUR_SIZE); } else { create(parent, id, pos, AMS_ITEM_SINGLE_SIZE); } m_amsinfo = amsinfo; m_ams_item_type = itemType; //create(parent, id, pos, AMS_PREVIEW_SIZE); Bind(wxEVT_PAINT, &AMSPreview::paintEvent, this); Bind(wxEVT_ENTER_WINDOW, &AMSPreview::OnEnterWindow, this); Bind(wxEVT_LEAVE_WINDOW, &AMSPreview::OnLeaveWindow, this); } void AMSPreview::Open() { m_open = true; Show(); } void AMSPreview::Close() { m_open = false; Hide(); } void AMSPreview::Update(AMSinfo amsinfo) { m_amsinfo = amsinfo; } void AMSPreview::create(wxWindow *parent, wxWindowID id, const wxPoint &pos, const wxSize &size) { m_ts_bitmap_cube = new ScalableBitmap(this, "ts_bitmap_cube", 14); m_four_slot_bitmap = new ScalableBitmap(this, "four_slot_ams_item", FromDIP(26)); m_single_slot_bitmap = new ScalableBitmap(this, "single_slot_ams_item", FromDIP(26)); m_ext_bitmap = new ScalableBitmap(this, "ext_ams_item", FromDIP(24)); wxWindow::Create(parent, id, pos, size); SetMinSize(size); SetMaxSize(size); SetBackgroundColour(AMS_CONTROL_DEF_BLOCK_BK_COLOUR); Refresh(); } void AMSPreview::OnEnterWindow(wxMouseEvent &evt) { // m_hover = true; // Refresh(); } void AMSPreview::OnLeaveWindow(wxMouseEvent &evt) { // m_hover = false; // Refresh(); } void AMSPreview::OnSelected() { if (!wxWindow::IsEnabled()) { return; } m_selected = true; Refresh(); } void AMSPreview::UnSelected() { m_selected = false; Refresh(); } bool AMSPreview::Enable(bool enable) { return wxWindow::Enable(enable); } void AMSPreview::paintEvent(wxPaintEvent &evt) { wxPaintDC dc(this); render(dc); } void AMSPreview::render(wxDC &dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({0, 0}, size, &dc, {0, 0}); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSPreview::doRender(wxDC &dc) { wxSize size = GetSize(); dc.SetPen(wxPen(StateColor::darkModeColorFor(m_background_colour))); dc.SetBrush(wxBrush(StateColor::darkModeColorFor(m_background_colour))); dc.DrawRoundedRectangle(0, 0, size.x, size.y, 3); auto left = m_padding; auto color = *wxWHITE; //four slot if (m_ams_item_type != AMSModel::NO_AMS && m_ams_item_type != AMSModel::SINGLE_AMS){ for (std::vector::iterator iter = m_amsinfo.cans.begin(); iter != m_amsinfo.cans.end(); iter++) { dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); if (wxWindow::IsEnabled()) { wxColour color = iter->material_colour; change_the_opacity(color); dc.SetBrush(wxBrush(color)); } else { dc.SetBrush(AMS_CONTROL_DISABLE_COLOUR); } if (iter->material_cols.size() > 1) { int fleft = left; float total_width = AMS_ITEM_CUBE_SIZE.x; int gwidth = std::round(total_width / (iter->material_cols.size() - 1)); if (iter->ctype == 0) { for (int i = 0; i < iter->material_cols.size() - 1; i++) { if ((fleft + gwidth) > (AMS_ITEM_CUBE_SIZE.x)) { gwidth = (fleft + AMS_ITEM_CUBE_SIZE.x) - fleft; } auto rect = wxRect(fleft, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, gwidth, AMS_ITEM_CUBE_SIZE.y); dc.GradientFillLinear(rect, iter->material_cols[i], iter->material_cols[i + 1], wxEAST); fleft += gwidth; } } else { int cols_size = iter->material_cols.size(); for (int i = 0; i < cols_size; i++) { dc.SetBrush(wxBrush(iter->material_cols[i])); float x = left + total_width * i / cols_size; dc.DrawRectangle(x, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, total_width / cols_size, AMS_ITEM_CUBE_SIZE.y); } } } else { if (iter->material_colour.Alpha() == 0) { dc.DrawBitmap(m_ts_bitmap_cube->bmp(), left, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2); } else { wxRect rect(left, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, AMS_ITEM_CUBE_SIZE.x, AMS_ITEM_CUBE_SIZE.y); if (iter->material_state == AMSCanType::AMS_CAN_TYPE_EMPTY) { dc.SetPen(wxPen(wxColor(0, 0, 0))); dc.DrawRoundedRectangle(rect, 3); dc.DrawLine(rect.GetRight() - 1, rect.GetTop() + 1, rect.GetLeft() + 1, rect.GetBottom() - 1); } else { dc.DrawRoundedRectangle(rect, 2); } } } left += m_space; } auto pot = wxPoint((size.x - m_four_slot_bitmap->GetBmpSize().x) / 2, (size.y - m_four_slot_bitmap->GetBmpSize().y) / 2); dc.DrawBitmap(m_four_slot_bitmap->bmp(), pot); } //single slot else { auto iter = m_amsinfo.cans[0]; if (iter.material_cols.size() > 1) { int fleft = (size.x - AMS_ITEM_CUBE_SIZE.x) / 2; float total_width = AMS_ITEM_CUBE_SIZE.x; int gwidth = std::round(total_width / (iter.material_cols.size())); if (iter.ctype == 0) { for (int i = 0; i < iter.material_cols.size() - 1; i++) { if ((fleft + gwidth) > (AMS_ITEM_CUBE_SIZE.x)) { gwidth = (fleft + AMS_ITEM_CUBE_SIZE.x) - fleft; } auto rect = wxRect(fleft, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, gwidth, AMS_ITEM_CUBE_SIZE.y); dc.GradientFillLinear(rect, iter.material_cols[i], iter.material_cols[i + 1], wxEAST); fleft += gwidth; } } else { int cols_size = iter.material_cols.size(); for (int i = 0; i < cols_size; i++) { dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(iter.material_cols[i])); float x = (size.x - AMS_ITEM_CUBE_SIZE.x) / 2 + total_width * i / cols_size; dc.DrawRectangle(x, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, total_width / cols_size, AMS_ITEM_CUBE_SIZE.y); } } } else { dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); if (iter.material_cols.size() > 0) { color = iter.material_cols[0]; dc.SetBrush(color); } auto rect = wxRect((size.x - AMS_ITEM_CUBE_SIZE.x) / 2, (size.y - AMS_ITEM_CUBE_SIZE.y) / 2, AMS_ITEM_CUBE_SIZE.x, AMS_ITEM_CUBE_SIZE.y); dc.DrawRoundedRectangle(rect, 0); } if (m_ams_item_type == AMSModel::SINGLE_AMS) { auto pot = wxPoint((size.x - m_single_slot_bitmap->GetBmpSize().x) / 2, (size.y - m_single_slot_bitmap->GetBmpSize().y) / 2); dc.DrawBitmap(m_single_slot_bitmap->bmp(), pot); } else { auto pot = wxPoint((size.x - m_ext_bitmap->GetBmpSize().x) / 2, (size.y - m_ext_bitmap->GetBmpSize().y) / 2); dc.DrawBitmap(m_ext_bitmap->bmp(), pot); if ((color == *wxWHITE || color.Alpha() == 0) && iter.material_cols.size() <= 1) { dc.SetPen(wxPen(AMS_CONTROL_GRAY500)); auto rect = wxRect(FromDIP((size.x - 6) / 2 - 1), FromDIP((size.y - 12) / 2 - 1), AMS_ITEM_CUBE_SIZE.x - FromDIP(1), AMS_ITEM_CUBE_SIZE.y - FromDIP(1)); dc.DrawRoundedRectangle(rect, 3); } auto tsize = dc.GetMultiLineTextExtent(_L("Ext")); dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetFont(Label::Body_8); dc.SetTextForeground(AMS_CONTROL_BLACK_COLOUR); pot = wxPoint((size.x - tsize.x) / 2 + FromDIP(3), (size.y + 12) / 2 - FromDIP(1)); dc.DrawText(_L("Ext"), pot); } } auto border_colour = AMS_CONTROL_BRAND_COLOUR; if (!wxWindow::IsEnabled()) { border_colour = AMS_CONTROL_DISABLE_COLOUR; } if (m_hover) { dc.SetPen(wxPen(border_colour, 2)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); dc.DrawRoundedRectangle(1, 1, size.x - 1, size.y - 1, 3); } if (m_selected) { dc.SetPen(wxPen(border_colour, 2)); dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); dc.DrawRoundedRectangle(1, 1, size.x-1, size.y-1, 3); } } void AMSPreview::DoSetSize(int x, int y, int width, int height, int sizeFlags /*= wxSIZE_AUTO*/) { wxWindow::DoSetSize(x, y, width, height, sizeFlags); } /************************************************* Description:AMSHumidity **************************************************/ AMSHumidity::AMSHumidity() {} AMSHumidity::AMSHumidity(wxWindow* parent, wxWindowID id, AMSinfo info, const wxPoint& pos, const wxSize& size) : AMSHumidity() { m_amsinfo = info; // road type for (int i = 1; i <= 5; i++) { ams_humidity_img.push_back(ScalableBitmap(this, "hum_level" + std::to_string(i) + "_light", 16)); } for (int i = 1; i <= 5; i++) { ams_humidity_img.push_back(ScalableBitmap(this, "hum_level" + std::to_string(i) + "_dark", 16)); } ams_sun_img = ScalableBitmap(this, "ams_drying", 16); create(parent, id, pos, AMS_HUMIDITY_SIZE); Bind(wxEVT_PAINT, &AMSHumidity::paintEvent, this); wxWindow::SetBackgroundColour(AMS_CONTROL_DEF_HUMIDITY_BK_COLOUR); Bind(wxEVT_LEFT_UP, [this](wxMouseEvent& e) { if (m_show_humidity) { auto mouse_pos = ClientToScreen(e.GetPosition()); auto rect = ClientToScreen(wxPoint(0, 0)); if (mouse_pos.x > rect.x && mouse_pos.y > rect.y) { wxCommandEvent show_event(EVT_AMS_SHOW_HUMIDITY_TIPS); wxPostEvent(GetParent()->GetParent(), show_event); #ifdef __WXMSW__ wxCommandEvent close_event(EVT_CLEAR_SPEED_CONTROL); wxPostEvent(GetParent()->GetParent(), close_event); #endif // __WXMSW__ } } }); } void AMSHumidity::create(wxWindow* parent, wxWindowID id, const wxPoint& pos, const wxSize& size) { wxWindow::Create(parent, id, pos, size); SetMinSize(size); SetMaxSize(size); SetBackgroundColour(AMS_CONTROL_WHITE_COLOUR); Refresh(); } void AMSHumidity::Update(AMSinfo amsinfo) { m_amsinfo = amsinfo; Refresh(); } void AMSHumidity::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AMSHumidity::render(wxDC& dc) { #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AMSHumidity::doRender(wxDC& dc) { wxSize size = GetSize(); dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(AMS_CONTROL_DEF_BLOCK_BK_COLOUR)); // left mode if (m_amsinfo.ams_humidity >= 1 && m_amsinfo.ams_humidity <= 5) { m_show_humidity = true; } else { m_show_humidity = false; } if (m_amsinfo.ams_humidity >= 1 && m_amsinfo.ams_humidity <= 5) { //background dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetBrush(wxBrush(AMS_CONTROL_DEF_HUMIDITY_BK_COLOUR)); dc.DrawRoundedRectangle(0, 0, FromDIP(size.x), FromDIP(size.y), FromDIP(size.y / 2)); //hum image int hum_idx = m_amsinfo.ams_humidity - 1; if (wxGetApp().dark_mode()) { hum_idx += 5; } auto hum_img = ams_humidity_img[hum_idx]; auto pot = wxPoint(FromDIP(size.x * 0.1), FromDIP((size.y - hum_img.GetBmpSize().y) / 2)); dc.DrawBitmap(hum_img.bmp(), pot); //percentage wxString hum_percentage = _L(std::to_string(20 * (5 - m_amsinfo.ams_humidity + 1))); auto tsize = dc.GetMultiLineTextExtent(hum_percentage); dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.SetFont(Label::Body_14); dc.SetTextForeground(AMS_CONTROL_BLACK_COLOUR); pot = wxPoint(FromDIP(size.x * 0.3), FromDIP((size.y - tsize.y) / 2)); dc.DrawText(hum_percentage, pot); pot.x += FromDIP(tsize.x + 5); pot.y += FromDIP(tsize.y / 2 - 4); tsize = dc.GetMultiLineTextExtent(_L("%")); dc.SetFont(Label::Body_12); dc.DrawText(_L("%"), pot); //vertical line dc.SetPen(wxPen(wxColour(194, 194, 194))); dc.SetBrush(wxBrush(wxColour(194, 194, 194))); //dc.DrawLine(FromDIP(GetSize().x * 0.64), FromDIP(GetSize().y / 2 - 10), FromDIP(GetSize().x * 0.64), FromDIP(GetSize().y / 2 + 10)); dc.DrawLine(FromDIP(pot.x + tsize.x + 2), FromDIP(GetSize().y / 2 - 10), FromDIP(pot.x + tsize.x + 2), FromDIP(GetSize().y / 2 + 10)); //sun image /*pot.x = FromDIP(size.x * 0.69); pot.y = FromDIP((size.y - ams_sun_img.GetBmpHeight()) / 2);*/ pot.x = pot.x + tsize.x + 4; pot.y = FromDIP((size.y - ams_sun_img.GetBmpHeight()) / 2); dc.SetPen(wxPen(*wxTRANSPARENT_PEN)); dc.DrawBitmap(ams_sun_img.bmp(), pot); } else { //to do ... } } /************************************************* Description:AmsItem **************************************************/ AmsItem::AmsItem() {} AmsItem::AmsItem(wxWindow *parent,AMSinfo info, AMSModel model) : AmsItem() { m_bitmap_extra_framework = ScalableBitmap(this, "ams_extra_framework_mid", 40); SetDoubleBuffered(true); m_ams_model = model; m_info = info; if (m_ams_model == AMSModel::GENERIC_AMS){ wxWindow::Create(parent, wxID_ANY, wxDefaultPosition, AMS_CANS_WINDOW_SIZE); } else{ wxWindow::Create(parent, wxID_ANY, wxDefaultPosition, AMS_SINGLE_CAN_SIZE); } create(parent); SetBackgroundColour(AMS_CONTROL_DEF_LIB_BK_COLOUR); Bind(wxEVT_PAINT, &AmsItem::paintEvent, this); } AmsItem::~AmsItem() { } void AmsItem::create(wxWindow *parent) { Freeze(); //if (m_ams_model == AMSModel::GENERIC_AMS) if (true) { sizer_can = new wxBoxSizer(wxHORIZONTAL); sizer_item = new wxBoxSizer(wxVERTICAL); auto it = m_info.cans.begin(); for (; it != m_info.cans.end(); it++) { AddCan(*it, m_can_count, m_info.cans.size(), sizer_can); m_can_count++; } it = m_info.cans.begin(); //auto road_panel = new wxWindow(this, wxID_ANY); //auto road_panel = new wxPanel(this, wxID_ANY); //road_panel->SetSize(AMS_CAN_ROAD_SIZE); //road_panel->SetMinSize(AMS_CAN_ROAD_SIZE); if (m_ams_model == AMSModel::GENERIC_AMS || m_ams_model == AMSModel::N3F_AMS){ m_humidity = new AMSHumidity(this, wxID_ANY, m_info); sizer_item->Add(m_humidity, 0, wxALIGN_CENTER_HORIZONTAL, 0); } else{ if (m_ams_model == NO_AMS){ auto ams_ext_image = new AMSExtImage(this, wxID_ANY); sizer_item->Add(ams_ext_image, 0, wxALIGN_CENTER_HORIZONTAL, 0); } } m_panel_road = new AMSRoadUpPart(this, wxID_ANY, m_info, m_ams_model); sizer_item->Add(sizer_can, 0, wxALIGN_CENTER_HORIZONTAL, 0); sizer_item->Add(m_panel_road, 0, wxALIGN_CENTER_HORIZONTAL, 0); SetSizer(sizer_item); } Layout(); Fit(); Thaw(); //Refresh(); } void AmsItem::AddCan(Caninfo caninfo, int canindex, int maxcan, wxBoxSizer* sizer) { auto amscan = new wxWindow(this, wxID_ANY); amscan->SetSize(wxSize(52, 109)); amscan->SetMinSize(wxSize(52, 109)); amscan->SetBackgroundColour(wxColour(240, 240, 240)); wxBoxSizer* m_sizer_ams = new wxBoxSizer(wxVERTICAL); AMSrefresh* m_panel_refresh; AMSExtText* m_panel_text; if (m_ams_model != AMSModel::NO_AMS) { m_panel_refresh = new AMSrefresh(amscan, m_can_count, caninfo); m_can_refresh_list[caninfo.can_id] = m_panel_refresh; } else if (m_ams_model == AMSModel::NO_AMS){ m_panel_text = new AMSExtText(amscan, wxID_ANY); } auto m_panel_lib = new AMSLib(amscan, m_info.ams_id, caninfo); m_panel_lib->Bind(wxEVT_LEFT_DOWN, [this, canindex](wxMouseEvent& ev) { m_canlib_selection = canindex; // m_canlib_id = caninfo.can_id; for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; if (lib->m_can_index == m_canlib_selection) { wxCommandEvent evt(EVT_AMS_UNSELETED_VAMS); evt.SetString(m_info.ams_id); wxPostEvent(GetParent()->GetParent(), evt); lib->OnSelected(); } else { lib->UnSelected(); } } ev.Skip(); }); m_panel_lib->m_ams_model = m_ams_model; m_panel_lib->m_ams_id = m_info.ams_id; m_panel_lib->m_slot_id = caninfo.can_id; m_panel_lib->m_info.can_id = caninfo.can_id; m_panel_lib->m_can_index = canindex; //auto m_panel_road = new AMSRoad(amscan, wxID_ANY, caninfo, canindex, maxcan, wxDefaultPosition, AMS_CAN_ROAD_SIZE); if (m_ams_model != AMSModel::EXTRA_AMS && m_ams_model != AMSModel::NO_AMS) { m_sizer_ams->Add(0, 0, 0, wxALIGN_CENTER_HORIZONTAL, 0); m_sizer_ams->Add(m_panel_refresh, 0, wxALIGN_CENTER_HORIZONTAL | wxDOWN, 4); m_sizer_ams->Add(m_panel_lib, 0, wxALIGN_CENTER_HORIZONTAL, 0); } else { if (m_ams_model == AMSModel::NO_AMS){ m_sizer_ams->Add(0, 0, 0, wxALIGN_CENTER_HORIZONTAL, 0); m_sizer_ams->Add(m_panel_text, 0, wxALIGN_CENTER_HORIZONTAL | wxTOP, 4); m_sizer_ams->Add(m_panel_lib, 0, wxALIGN_CENTER_HORIZONTAL, 0); } } amscan->SetSizer(m_sizer_ams); amscan->Layout(); amscan->Fit(); sizer->Add(amscan, 0, wxUP | wxLEFT | wxRIGHT, 5); /*if (m_ams_model == AMSModel::GENERIC_AMS) { sizer->Add(amscan, 0, wxALL, 0); } else if (m_ams_model == AMSModel::EXTRA_AMS) { if (canindex > 1) { sizer->Prepend(amscan, 0, wxALL, 0); } else { sizer->Add(amscan, 0, wxALL, 0); } }*/ m_can_lib_list[caninfo.can_id] = m_panel_lib; //m_can_road_list[caninfo.can_id] = m_panel_road; } void AmsItem::Update(AMSinfo info) { m_info = info; m_can_count = info.cans.size(); int i = 0; for (auto refresh_it : m_can_refresh_list) { AMSrefresh *refresh = refresh_it.second; if (i < m_can_count) { refresh->Update(info.ams_id, info.cans[i]); refresh->Show(); } else { refresh->Hide(); } i++; } for (int i = 0; i < m_can_lib_list.size(); i++) { AMSLib* lib = m_can_lib_list[std::to_string(i)]; if (i < m_can_count && lib != nullptr) { lib->Update(info.cans[i], info.ams_id); lib->Show(); } else { lib->Hide(); } i++; } if (true || m_ams_model == AMSModel::GENERIC_AMS) { /*m_panel_road->Update(m_info, info.cans[0]); m_panel_road->Show();*/ } Layout(); } void AmsItem::SetDefSelectCan() { for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; m_canlib_selection =lib->m_can_index; m_canlib_id = lib->m_info.can_id; SelectCan(m_canlib_id); break; } } void AmsItem::SelectCan(std::string canid) { for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; if (lib->m_info.can_id == canid) { m_canlib_selection = lib->m_can_index; } } m_canlib_id = canid; for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; if (lib->m_info.can_id == m_canlib_id) { wxCommandEvent evt(EVT_AMS_UNSELETED_VAMS); evt.SetString(m_info.ams_id); wxPostEvent(GetParent()->GetParent(), evt); lib->OnSelected(); } else { lib->UnSelected(); } } } wxColour AmsItem::GetTagColr(wxString canid) { auto tag_colour = *wxWHITE; for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; if (canid == lib->m_info.can_id) tag_colour = lib->GetLibColour(); } return tag_colour; } void AmsItem::SetAmsStepExtra(wxString canid, AMSPassRoadType type, AMSPassRoadSTEP step) { if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_COMBO_LOAD_STEP1) { SetAmsStep(canid.ToStdString()); }else if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_COMBO_LOAD_STEP2) { SetAmsStep(canid.ToStdString()); }else if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_COMBO_LOAD_STEP3) { SetAmsStep(canid.ToStdString()); }else if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_NONE) { SetAmsStep(""); } } void AmsItem::SetAmsStep(std::string amsid, std::string canid, AMSPassRoadType type, AMSPassRoadSTEP step) { m_panel_road->UpdatePassRoad(amsid, canid, type, step); } //void AmsItem::SetAmsStep(wxString amsid, wxString canid, AMSPassRoadType type, AMSPassRoadSTEP step) //{ // // if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_NONE) { // for (auto road_it : m_can_road_list) { // AMSRoad* road = road_it.second; // auto pr = std::vector{}; // pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_NONE); // road->OnPassRoad(pr); // } // // return; // } // // // auto tag_can_index = -1; // for (auto road_it : m_can_road_list) { // AMSRoad* road = road_it.second; // if (canid == road->m_info.can_id) { tag_can_index = road->m_canindex; } // } // if (tag_can_index == -1) return; // // // get colour // auto tag_colour = *wxWHITE; // for (auto lib_it : m_can_lib_list) { // AMSLib* lib = lib_it.second; // if (canid == lib->m_info.can_id) tag_colour = lib->GetLibColour(); // } // // // unload // if (type == AMSPassRoadType::AMS_ROAD_TYPE_UNLOAD) { // for (auto road_it : m_can_road_list) { // AMSRoad* road = road_it.second; // // auto index = road->m_canindex; // auto pr = std::vector{}; // // pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_BOTTOM); // if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_2) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_BOTTOM); } // // if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_3) { // if (index == tag_can_index && index > 0) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_LEFT); } // if (index < tag_can_index && index > 0) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_LEFT_RIGHT); } // if (index == 0 && tag_can_index == index) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_TOP); } // if (index == 0 && tag_can_index > index) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_RIGHT); } // } // // road->SetPassRoadColour(tag_colour); // road->OnPassRoad(pr); // } // } // // // load // if (type == AMSPassRoadType::AMS_ROAD_TYPE_LOAD) { // for (auto road_it : m_can_road_list) { // AMSRoad* road = road_it.second; // // auto index = road->m_canindex; // auto pr = std::vector{}; // // if (index == tag_can_index && index > 0) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_LEFT); } // if (index < tag_can_index && index > 0) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_LEFT_RIGHT); } // if (index == 0 && tag_can_index == index) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_TOP); } // if (index == 0 && tag_can_index > index) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_RIGHT); } // // if (step == AMSPassRoadSTEP::AMS_ROAD_STEP_2) { pr.push_back(AMSPassRoadMode::AMS_ROAD_MODE_END_BOTTOM); } // // road->SetPassRoadColour(tag_colour); // road->OnPassRoad(pr); // } // } //} void AmsItem::SetAmsStep(std::string can_id) { if (m_road_canid != can_id) { m_road_canid = can_id; Refresh(); } } void AmsItem::PlayRridLoading(wxString canid) { for (auto refresh_it : m_can_refresh_list) { AMSrefresh* refresh = refresh_it.second; if (refresh->m_info.can_id == canid) { refresh->PlayLoading(); } } } std::string AmsItem::GetCurrentCan() { if (m_canlib_selection < 0) return ""; return wxString::Format("%d", m_canlib_selection).ToStdString(); } void AmsItem::paintEvent(wxPaintEvent& evt) { wxPaintDC dc(this); render(dc); } void AmsItem::render(wxDC& dc) { /*this->SetSize(AMS_CANS_WINDOW_SIZE); this->SetMinSize(AMS_CANS_WINDOW_SIZE);*/ #ifdef __WXMSW__ wxSize size = GetSize(); wxMemoryDC memdc; wxBitmap bmp(size.x, size.y); memdc.SelectObject(bmp); memdc.Blit({ 0, 0 }, size, &dc, { 0, 0 }); { wxGCDC dc2(memdc); doRender(dc2); } memdc.SelectObject(wxNullBitmap); dc.DrawBitmap(bmp, 0, 0); #else doRender(dc); #endif } void AmsItem::doRender(wxDC& dc) { /*if (m_ams_model == AMSModel::GENERIC_AMS) { this->SetSize(AMS_CANS_WINDOW_SIZE); this->SetMinSize(AMS_CANS_WINDOW_SIZE); } else { this->SetSize(AMS_SINGLE_CAN_SIZE); this->SetMinSize(AMS_SINGLE_CAN_SIZE); }*/ wxSize size = GetSize(); //dc.DrawBitmap(m_bitmap_extra_framework.bmp(), (size.x - m_bitmap_extra_framework.GetBmpSize().x) / 2, (size.y - m_bitmap_extra_framework.GetBmpSize().y) / 2); //road for extra /*if (m_ams_model == AMSModel::EXTRA_AMS) { auto end_top = size.x / 2 - FromDIP(99); auto passroad_width = 6; for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; if (m_road_canid.empty()) { lib->on_pass_road(false); } else { if (lib->m_info.can_id == m_road_canid) { m_road_colour = lib->m_info.material_colour; lib->on_pass_road(true); } } } }*/ // A1 // dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); // dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); // try // { // auto a1_top = size.y / 2 - FromDIP(4); // auto a1_left = m_can_lib_list[0]->canLib->GetScreenPosition().x + m_can_lib_list[0]->canLib->GetSize().x / 2; // auto local_pos1 = GetScreenPosition().x + GetSize().x / 2; // a1_left = size.x / 2 + (a1_left - local_pos1); // dc.DrawLine(a1_left, FromDIP(30), a1_left, a1_top); // dc.DrawLine(a1_left, a1_top, end_top, a1_top); // // A2 // auto a2_top = size.y / 2 + FromDIP(8); // auto a2_left = m_can_lib_list[1]->canLib->GetScreenPosition().x + m_can_lib_list[1]->canLib->GetSize().x / 2; // auto local_pos2 = GetScreenPosition().x + GetSize().x / 2; // a2_left = size.x / 2 + (a2_left - local_pos2); // dc.DrawLine(a2_left, FromDIP(160), a2_left, a2_top); // dc.DrawLine(a2_left, a2_top, end_top, a2_top); // // A3 // auto a3_top = size.y / 2 + FromDIP(4); // auto a3_left = m_can_lib_list[2]->canLib->GetScreenPosition().x + m_can_lib_list[2]->canLib->GetSize().x / 2; // auto local_pos3 = GetScreenPosition().x + GetSize().x / 2; // a3_left = size.x / 2 + (a3_left - local_pos3); // dc.DrawLine(a3_left, FromDIP(160), a3_left, a3_top); // dc.DrawLine(a3_left, a3_top, end_top, a3_top); // // A4 // auto a4_top = size.y / 2; // auto a4_left = m_can_lib_list[3]->canLib->GetScreenPosition().x + m_can_lib_list[3]->canLib->GetSize().x / 2; // auto local_pos4 = GetScreenPosition().x + GetSize().x / 2; // a4_left = size.x / 2 + (a4_left - local_pos4); // dc.DrawLine(a4_left, FromDIP(30), a4_left, a4_top); // dc.DrawLine(a4_left, a4_top, end_top, a4_top); // if (!m_road_canid.empty()) { // if (m_road_canid == "0") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(a1_left, FromDIP(30), a1_left, a1_top); // dc.DrawLine(a1_left, a1_top, end_top, a1_top); // } // if (m_road_canid == "1") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(a2_left, FromDIP(160), a2_left, a2_top); // dc.DrawLine(a2_left, a2_top, end_top, a2_top); // } // if (m_road_canid == "2") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(a3_left, FromDIP(160), a3_left, a3_top); // dc.DrawLine(a3_left, a3_top, end_top, a3_top); // } // if (m_road_canid == "3") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(a4_left, FromDIP(30), a4_left, a4_top); // dc.DrawLine(a4_left, a4_top, end_top, a4_top); // } // } // //to Extruder // dc.SetPen(wxPen(AMS_CONTROL_GRAY500, 2, wxSOLID)); // dc.SetBrush(wxBrush(*wxTRANSPARENT_BRUSH)); // dc.DrawLine(end_top, a1_top, end_top, size.y); // if (!m_road_canid.empty()) { // if (!m_road_canid.empty()) { // if (m_road_canid == "0") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(end_top, a1_top, end_top, size.y); // } // else if (m_road_canid == "1") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(end_top, a2_top, end_top, size.y); // } // else if (m_road_canid == "2") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(end_top, a3_top, end_top, size.y); // } // else if (m_road_canid == "3") { // dc.SetPen(wxPen(m_road_colour, passroad_width, wxSOLID)); // dc.DrawLine(end_top, a4_top, end_top, size.y); // } // } // } // } // catch (...){} //} } void AmsItem::StopRridLoading(wxString canid) { for (auto refresh_it : m_can_refresh_list) { AMSrefresh* refresh = refresh_it.second; if (refresh->m_info.can_id == canid) { refresh->StopLoading(); } } } void AmsItem::msw_rescale() { for (auto refresh_it : m_can_refresh_list) { AMSrefresh* refresh = refresh_it.second; refresh->msw_rescale(); } for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; lib->msw_rescale(); } } void AmsItem::show_sn_value(bool show) { for (auto lib_it : m_can_lib_list) { AMSLib* lib = lib_it.second; lib->show_kn_value(show); } } }} // namespace Slic3r::GUI