/*********************************************************************** * fwidget_functions.cpp - FWidget helper functions * * * * This file is part of the FINAL CUT widget toolkit * * * * Copyright 2019-2020 Markus Gans * * * * FINAL CUT is free software; you can redistribute it and/or modify * * it under the terms of the GNU Lesser General Public License as * * published by the Free Software Foundation; either version 3 of * * the License, or (at your option) any later version. * * * * FINAL CUT is distributed in the hope that it will be useful, but * * WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU Lesser General Public License for more details. * * * * You should have received a copy of the GNU Lesser General Public * * License along with this program. If not, see * * . * ***********************************************************************/ #include "final/fapplication.h" #include "final/fcolorpair.h" #include "final/fstatusbar.h" #include "final/fstyle.h" #include "final/fwidget.h" #include "final/fwidgetcolors.h" namespace finalcut { // FWidget non-member functions //---------------------------------------------------------------------- bool isFocusNextKey (const FKey key) { if ( key == FKey::Tab || key == FKey::Right || key == FKey::Down ) return true; return false; } //---------------------------------------------------------------------- bool isFocusPrevKey (const FKey key) { if ( key == FKey::Back_tab || key == FKey::Left || key == FKey::Up ) return true; return false; } //---------------------------------------------------------------------- FApplication* getFApplication() { return FApplication::getApplicationObject(); } //---------------------------------------------------------------------- FKey getHotkey (const FString& text) { // Returns the hotkey character from a string // e.g. "E&xit" returns 'x' if ( text.isEmpty() ) return FKey::None; std::size_t i{0}; const std::size_t length = text.getLength(); while ( i < length ) { try { if ( i + 1 < length && text[i] == '&' ) { i++; return FKey(text[i]); } } catch (const std::out_of_range&) { return FKey::None; } i++; } return FKey::None; } //---------------------------------------------------------------------- std::size_t getHotkeyPos (const FString& src, FString& dest) { // Find hotkey position in string // + generate a new string without the '&'-sign constexpr auto NOT_SET = static_cast(-1); std::size_t hotkeypos{NOT_SET}; std::size_t i{0}; for (auto&& ch : src) { if ( ch == L'&' && hotkeypos == NOT_SET && src.getLength() != i + 1 ) hotkeypos = i; else dest += ch; i++; } return hotkeypos; } //---------------------------------------------------------------------- void setHotkeyViaString (FWidget* w, const FString& text) { // Set hotkey accelerator via string if ( ! w ) return; FKey hotkey = getHotkey(text); if ( hotkey > 0xff00 && hotkey < 0xff5f ) // full-width character hotkey -= 0xfee0; if ( hotkey != FKey::None ) { if ( std::isalpha(int(hotkey)) || std::isdigit(int(hotkey)) ) { w->addAccelerator (FKey(std::tolower(int(hotkey)))); w->addAccelerator (FKey(std::toupper(int(hotkey)))); // Meta + hotkey w->addAccelerator (FKey::Meta_offset + FKey(std::tolower(int(hotkey)))); } else w->addAccelerator (hotkey); } else w->delAccelerator(); } //---------------------------------------------------------------------- void setWidgetFocus (FWidget* widget) { if ( ! widget || widget->hasFocus() ) return; auto focused_widget = FWidget::getFocusWidget(); widget->setFocus(); if ( focused_widget && focused_widget->isWidget() ) // old focused widget focused_widget->redraw(); widget->redraw(); if ( FWidget::getStatusBar() ) FWidget::getStatusBar()->drawMessage(); } //---------------------------------------------------------------------- void drawShadow (FWidget* w) { if ( FTerm::isMonochron() && ! w->flags.trans_shadow ) return; if ( (FTerm::getEncoding() == Encoding::VT100 && ! w->flags.trans_shadow) || (FTerm::getEncoding() == Encoding::ASCII && ! w->flags.trans_shadow) ) { clearShadow(w); return; } if ( w->flags.trans_shadow ) drawTransparentShadow (w); // transparent shadow else if ( w->flags.shadow ) drawBlockShadow (w); // non-transparent shadow } //---------------------------------------------------------------------- void drawTransparentShadow (FWidget* w) { // transparent shadow const std::size_t width = w->getWidth(); const std::size_t height = w->getHeight(); const auto& wc = FWidget::getColorTheme(); w->print() << FStyle {Style::Transparent} << FPoint {int(width) + 1, 1} << " " << FStyle {Style::None} << FColorPair {wc->shadow_bg, wc->shadow_fg} << FStyle {Style::ColorOverlay}; for (std::size_t y{1}; y < height; y++) { w->print() << FPoint{int(width) + 1, int(y) + 1} << " "; } w->print() << FStyle {Style::None} << FStyle {Style::Transparent} << FPoint {1, int(height) + 1} << " " << FStyle {Style::None} << FColorPair {wc->shadow_bg, wc->shadow_fg} << FStyle {Style::ColorOverlay} << FString {width, L' '} << FStyle {Style::None}; if ( FTerm::isMonochron() ) w->setReverse(false); } //---------------------------------------------------------------------- void drawBlockShadow (FWidget* w) { // non-transparent shadow if ( ! FTerm::hasShadowCharacter() ) return; const std::size_t width = w->getWidth(); const std::size_t height = w->getHeight(); const auto& wc = FWidget::getColorTheme(); w->print() << FPoint {int(width) + 1, 1}; if ( w->isWindowWidget() ) { w->print() << FColorPair {wc->shadow_fg, wc->shadow_bg} << FStyle {Style::InheritBackground}; // current background color will be ignored } else if ( auto p = w->getParentWidget() ) w->print() << FColorPair {wc->shadow_fg, p->getBackgroundColor()}; w->print (UniChar::LowerHalfBlock); // ▄ if ( w->isWindowWidget() ) w->print() << FStyle {Style::InheritBackground}; for (std::size_t y{1}; y < height; y++) { w->print() << FPoint {int(width) + 1, int(y) + 1} << UniChar::FullBlock; // █ } w->print() << FPoint {2, int(height) + 1}; if ( w->isWindowWidget() ) w->print() << FStyle {Style::InheritBackground}; w->print() << FString{width, UniChar::UpperHalfBlock}; // ▀ if ( w->isWindowWidget() ) w->print() << FStyle {Style::None}; } //---------------------------------------------------------------------- void clearShadow (FWidget* w) { if ( FTerm::isMonochron() ) return; const std::size_t width = w->getWidth(); const std::size_t height = w->getHeight(); const auto& wc = FWidget::getColorTheme(); if ( w->isWindowWidget() ) { w->print() << FColorPair {wc->shadow_fg, wc->shadow_bg} << FStyle {Style::InheritBackground}; // current background color will be ignored } else if ( auto p = w->getParentWidget() ) w->print() << FColorPair {wc->shadow_fg, p->getBackgroundColor()}; if ( int(width) <= w->woffset.getX2() ) { for (std::size_t y{1}; y <= height; y++) { w->print() << FPoint {int(width) + 1, int(y)} << ' '; // clear █ } } if ( int(height) <= w->woffset.getY2() ) { w->print() << FPoint{2, int(height) + 1} << FString{width, L' '}; // clear ▀ } if ( w->isWindowWidget() ) w->print() << FStyle {Style::None}; } //---------------------------------------------------------------------- void drawFlatBorder (FWidget* w) { if ( ! FTerm::isNewFont() ) return; const std::size_t width = w->getWidth(); const std::size_t height = w->getHeight(); const auto& wc = FWidget::getColorTheme(); if ( auto p = w->getParentWidget() ) w->setColor (wc->dialog_fg, p->getBackgroundColor()); else w->setColor (wc->dialog_fg, wc->dialog_bg); for (std::size_t y{0}; y < height; y++) { w->print() << FPoint {0, int(y) + 1}; if ( w->double_flatline_mask.left[uLong(y)] ) // left+right line (on left side) w->print (UniChar::NF_rev_border_line_right_and_left); else // right line (on left side) w->print (UniChar::NF_rev_border_line_right); w->print() << FPoint {int(width) + 1, int(y) + 1}; if ( w->double_flatline_mask.right[y] ) // left+right line (on right side) w->print (UniChar::NF_rev_border_line_right_and_left); else // left line (on right side) w->print (UniChar::NF_border_line_left); } w->print() << FPoint {1, 0}; for (std::size_t x{0}; x < width; x++) { if ( w->double_flatline_mask.top[x] ) // top+bottom line (at top) w->print (UniChar::NF_border_line_up_and_down); else // bottom line (at top) w->print (UniChar::NF_border_line_bottom); } w->print() << FPoint {1, int(height) + 1}; for (std::size_t x{0}; x < width; x++) { if ( w->double_flatline_mask.bottom[x] ) // top+bottom line (at bottom) w->print (UniChar::NF_border_line_up_and_down); else // top line (at bottom) w->print (UniChar::NF_border_line_upper); } } //---------------------------------------------------------------------- void clearFlatBorder (FWidget* w) { if ( ! FTerm::isNewFont() ) return; const std::size_t width = w->getWidth(); const std::size_t height = w->getHeight(); const auto& wc = FWidget::getColorTheme(); if ( auto p = w->getParentWidget() ) w->setColor (wc->dialog_fg, p->getBackgroundColor()); else w->setColor (wc->dialog_fg, wc->dialog_bg); for (std::size_t y{0}; y < height; y++) { // clear on left side w->print() << FPoint {0, int(y) + 1}; if ( w->double_flatline_mask.left[y] ) w->print (UniChar::NF_border_line_left); else w->print (' '); // clear on right side w->print() << FPoint {int(width) + 1, int(y) + 1}; if ( w->double_flatline_mask.right[y] ) w->print (UniChar::NF_rev_border_line_right); else w->print (' '); } // clear at top w->print() << FPoint {1, 0}; for (std::size_t x{0}; x < width; x++) { if ( w->double_flatline_mask.top[x] ) w->print (UniChar::NF_border_line_upper); else w->print (' '); } // clear at bottom w->print() << FPoint {1, int(height) + 1}; for (std::size_t x{0}; x < width; x++) { if ( w->double_flatline_mask.bottom[x] ) w->print (UniChar::NF_border_line_bottom); else w->print (' '); } } //---------------------------------------------------------------------- inline void checkBorder (const FWidget* w, FRect& r) { if ( r.x1_ref() > r.x2_ref() ) std::swap (r.x1_ref(), r.x2_ref()); if ( r.y1_ref() > r.y2_ref() ) std::swap (r.y1_ref(), r.y2_ref()); if ( r.x1_ref() < 1 ) r.x1_ref() = 1; if ( r.y1_ref() < 1 ) r.y1_ref() = 1; if ( r.x2_ref() > int(w->getWidth()) ) r.x2_ref() = int(w->getWidth()); if ( r.y2_ref() > int(w->getHeight()) ) r.y2_ref() = int(w->getHeight()); } //---------------------------------------------------------------------- void drawBorder (FWidget* w, const FRect& r) { FRect rect = r; checkBorder (w, rect); if ( FTerm::isNewFont() ) drawNewFontBox (w, rect); else drawBox (w, rect); } //---------------------------------------------------------------------- void drawListBorder (FWidget* w, const FRect& r) { FRect rect = r; checkBorder (w, rect); if ( FTerm::isNewFont() ) drawNewFontListBox (w, rect); else drawBox (w, rect); } //---------------------------------------------------------------------- inline void drawBox (FWidget* w, const FRect& r) { // Use box-drawing characters to draw a border if ( ! w ) return; w->print() << r.getUpperLeftPos() << UniChar::BoxDrawingsDownAndRight // ┌ << FString{r.getWidth() - 2, UniChar::BoxDrawingsHorizontal} // ─ << UniChar::BoxDrawingsDownAndLeft; // ┐ for (auto y = r.getY1() + 1; y < r.getY2(); y++) { w->print() << FPoint{r.getX1(), y} << UniChar::BoxDrawingsVertical // │ << FPoint{r.getX2(), y} << UniChar::BoxDrawingsVertical; // │ } w->print() << r.getLowerLeftPos() << UniChar::BoxDrawingsUpAndRight // └ << FString{r.getWidth() - 2, UniChar::BoxDrawingsHorizontal} // ─ << UniChar::BoxDrawingsUpAndLeft; // ┘ } //---------------------------------------------------------------------- inline void drawNewFontBox (FWidget* w, const FRect& r) { // Use new graphical font characters to draw a border w->print() << r.getUpperLeftPos() << UniChar::NF_border_corner_middle_upper_left // ┌ << FString{r.getWidth() - 2, UniChar::NF_border_line_horizontal} // ─ << UniChar::NF_border_corner_middle_upper_right; // ┐ for (auto y = r.getY1() + 1; y < r.getY2(); y++) { w->print() << FPoint{r.getX1(), y} << UniChar::NF_border_line_vertical // │ << FPoint{r.getX2(), y} << UniChar::NF_border_line_vertical; // │ } w->print() << r.getLowerLeftPos() << UniChar::NF_border_corner_middle_lower_left // └ << FString{r.getWidth() - 2, UniChar::NF_border_line_horizontal} // ─ << UniChar::NF_border_corner_middle_lower_right; // ┘ } //---------------------------------------------------------------------- inline void drawNewFontListBox (FWidget* w, const FRect& r) { w->print() << r.getUpperLeftPos() << UniChar::NF_border_line_middle_left_down // ┌ << FString{r.getWidth() - 2, UniChar::NF_border_line_horizontal} // ─ << UniChar::NF_border_line_left_down; // ╷ for (auto y = r.getY1() + 1; y < r.getY2(); y++) { w->print() << FPoint{r.getX1(), y} << UniChar::NF_border_line_left // border left ⎸ << FPoint{r.getX2(), y} << UniChar::NF_border_line_left; // border left ⎸ } w->print() << r.getLowerLeftPos() << UniChar::NF_border_line_middle_right_up // └ << FString{r.getWidth() - 2, UniChar::NF_border_line_horizontal} // ─ << UniChar::NF_border_line_left_up; // ╵ } } // namespace finalcut