/* * Copyright (C) 2014 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek * * This file is part of PortaPack. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "ui_widget.hpp" #include "ui_painter.hpp" #include "portapack.hpp" #include #include #include #include "string_format.hpp" using namespace portapack; namespace ui { static bool ui_dirty = true; void dirty_set() { ui_dirty = true; } void dirty_clear() { ui_dirty = false; } bool is_dirty() { return ui_dirty; } /* Widget ****************************************************************/ const std::vector Widget::no_children { }; Point Widget::screen_pos() { return screen_rect().location(); } Size Widget::size() const { return _parent_rect.size(); } Rect Widget::screen_rect() const { return parent() ? (parent_rect() + parent()->screen_pos()) : parent_rect(); } Rect Widget::parent_rect() const { return _parent_rect; } void Widget::set_parent_rect(const Rect new_parent_rect) { _parent_rect = new_parent_rect; set_dirty(); } Widget* Widget::parent() const { return parent_; } void Widget::set_parent(Widget* const widget) { if( widget == parent_ ) { return; } if( parent_ && !widget ) { // We have a parent, but are losing it. Update visible status. dirty_overlapping_children_in_rect(screen_rect()); visible(false); } parent_ = widget; set_dirty(); } void Widget::set_dirty() { flags.dirty = true; dirty_set(); } bool Widget::dirty() const { return flags.dirty; } void Widget::set_clean() { flags.dirty = false; } void Widget::hidden(bool hide) { if( hide != flags.hidden ) { flags.hidden = hide; // If parent is hidden, either of these is a no-op. if( hide ) { // TODO: Instead of dirtying parent entirely, dirty only children // that overlap with this widget. parent()->dirty_overlapping_children_in_rect(parent_rect()); /* TODO: Notify self and all non-hidden children that they're * now effectively hidden? */ } else { set_dirty(); /* TODO: Notify self and all non-hidden children that they're * now effectively shown? */ } } } void Widget::focus() { context().focus_manager().set_focus_widget(this); } void Widget::on_focus() { //set_dirty(); } void Widget::blur() { context().focus_manager().set_focus_widget(nullptr); } void Widget::on_blur() { //set_dirty(); } bool Widget::focusable() const { return flags.focusable; } void Widget::set_focusable(const bool value) { flags.focusable = value; } bool Widget::has_focus() { return (context().focus_manager().focus_widget() == this); } bool Widget::on_key(const KeyEvent event) { (void)event; return false; } bool Widget::on_encoder(const EncoderEvent event) { (void)event; return false; } bool Widget::on_touch(const TouchEvent event) { (void)event; return false; } const std::vector& Widget::children() const { return no_children; } Context& Widget::context() const { return parent()->context(); } void Widget::set_style(const Style* new_style) { if( new_style != style_ ) { style_ = new_style; set_dirty(); } } const Style& Widget::style() const { return style_ ? *style_ : parent()->style(); } void Widget::visible(bool v) { if( v != flags.visible ) { flags.visible = v; /* TODO: This on_show/on_hide implementation seems inelegant. * But I need *some* way to take/configure resources when * a widget becomes visible, and reverse the process when the * widget becomes invisible, whether the widget (or parent) is * hidden, or the widget (or parent) is removed from the tree. */ if( v ) { on_show(); } else { on_hide(); // Set all children invisible too. for(const auto child : children()) { child->visible(false); } } } } bool Widget::highlighted() const { return flags.highlighted; } void Widget::set_highlighted(const bool value) { flags.highlighted = value; } void Widget::dirty_overlapping_children_in_rect(const Rect& child_rect) { for(auto child : children()) { if( !child_rect.intersect(child->parent_rect()).is_empty() ) { child->set_dirty(); } } } /* View ******************************************************************/ void View::paint(Painter& painter) { painter.fill_rectangle( screen_rect(), style().background ); } void View::add_child(Widget* const widget) { if( widget ) { if( widget->parent() == nullptr ) { widget->set_parent(this); children_.push_back(widget); } } } void View::add_children(const std::initializer_list children) { children_.insert(std::end(children_), children); for(auto child : children) { child->set_parent(this); } } void View::remove_child(Widget* const widget) { if( widget ) { children_.erase(std::remove(children_.begin(), children_.end(), widget), children_.end()); widget->set_parent(nullptr); } } void View::remove_children(const std::vector& children) { for(auto child : children) { remove_child(child); } } const std::vector& View::children() const { return children_; } std::string View::title() const { return ""; }; /* Rectangle *************************************************************/ Rectangle::Rectangle( Color c ) : Widget { }, color { c } { } Rectangle::Rectangle( Rect parent_rect, Color c ) : Widget { parent_rect }, color { c } { } void Rectangle::set_color(const Color c) { color = c; set_dirty(); } void Rectangle::set_outline(const bool outline) { _outline = outline; set_dirty(); } void Rectangle::paint(Painter& painter) { if (!_outline) { painter.fill_rectangle( screen_rect(), color ); } else { painter.draw_rectangle( screen_rect(), color ); } } /* Text ******************************************************************/ Text::Text( Rect parent_rect, std::string text ) : Widget { parent_rect }, text { text } { } Text::Text( Rect parent_rect ) : Text { parent_rect, { } } { } void Text::set(const std::string value) { text = value; set_dirty(); } void Text::paint(Painter& painter) { const auto rect = screen_rect(); const auto s = style(); painter.fill_rectangle(rect, s.background); painter.draw_string( rect.location(), s, text ); } /* BigFrequency **********************************************************/ const uint8_t big_segment_font[11] = { 0b00111111, // 0: ABCDEF 0b00000110, // 1: AB 0b01011011, // 2: ABDEG 0b01001111, // 3: ABCDG 0b01100110, // 4: BCFG 0b01101101, // 5: ACDFG 0b01111101, // 6: ACDEFG 0b00000111, // 7: ABC 0b01111111, // 8: ABCDEFG 0b01101111, // 9: ABCDFG 0b01000000 // -: G }; BigFrequency::BigFrequency( Rect parent_rect, rf::Frequency frequency ) : Widget { parent_rect }, _frequency { frequency } { } void BigFrequency::set(const rf::Frequency frequency) { _frequency = frequency; set_dirty(); } void BigFrequency::paint(Painter& painter) { uint8_t i, digit_def; char digits[7]; char digit; Coord digit_x, digit_y; ui::Color segment_color; const auto rect = screen_rect(); // Erase painter.fill_rectangle({{0, rect.location().y()}, {240, 52}}, ui::Color::black()); if (!_frequency) { for (i = 0; i < 7; i++) // ----.------ digits[i] = 10; } else { _frequency /= 1000; // GMMM.KKKuuu for (i = 0; i < 7; i++) { digits[6 - i] = _frequency % 10; _frequency /= 10; } // Remove leading zeros for (i = 0; i < 7; i++) { if (!digits[i]) digits[i] = 16; // "Don't draw" code else break; } } segment_color = style().foreground; // Draw digit_x = rect.location().x(); // 7 * 32 + 8 = 232 (4 px margins) for (i = 0; i < 7; i++) { digit = digits[i]; digit_y = rect.location().y(); if (digit < 16) { digit_def = big_segment_font[(uint8_t)digit]; if (digit_def & 0x01) painter.fill_rectangle({{digit_x + 4, digit_y}, {20, 4}}, segment_color); if (digit_def & 0x02) painter.fill_rectangle({{digit_x + 24, digit_y + 4}, {4, 20}}, segment_color); if (digit_def & 0x04) painter.fill_rectangle({{digit_x + 24, digit_y + 28}, {4, 20}}, segment_color); if (digit_def & 0x08) painter.fill_rectangle({{digit_x + 4, digit_y + 48}, {20, 4}}, segment_color); if (digit_def & 0x10) painter.fill_rectangle({{digit_x, digit_y + 28}, {4, 20}}, segment_color); if (digit_def & 0x20) painter.fill_rectangle({{digit_x, digit_y + 4}, {4, 20}}, segment_color); if (digit_def & 0x40) painter.fill_rectangle({{digit_x + 4, digit_y + 24}, {20, 4}}, segment_color); } if (i == 3) { // Dot painter.fill_rectangle({{digit_x + 34, digit_y + 48}, {4, 4}}, segment_color); digit_x += 40; } else { digit_x += 32; } } } /* ProgressBar ***********************************************************/ ProgressBar::ProgressBar( Rect parent_rect ) : Widget { parent_rect } { } void ProgressBar::set_max(const uint32_t max) { _value = 0; _max = max; set_dirty(); } void ProgressBar::set_value(const uint32_t value) { if (value > _max) _value = _max; else _value = value; set_dirty(); } void ProgressBar::paint(Painter& painter) { int v_scaled; const auto sr = screen_rect(); const auto s = style(); v_scaled = (sr.size().width() * _value) / _max; painter.fill_rectangle({sr.location(), {v_scaled, sr.size().height()}}, style().foreground); painter.fill_rectangle({{sr.location().x() + v_scaled, sr.location().y()}, {sr.size().width() - v_scaled, sr.size().height()}}, s.background); painter.draw_rectangle(sr, s.foreground); } /* Console ***************************************************************/ Console::Console( Rect parent_rect ) : Widget { parent_rect } { } void Console::clear() { display.fill_rectangle( screen_rect(), Color::black() ); pos = { 0, 0 }; } void Console::write(std::string message) { if (visible) { const Style& s = style(); const Font& font = s.font; const auto rect = screen_rect(); for(const auto c : message) { if( c == '\n' ) { crlf(); } else { const auto glyph = font.glyph(c); const auto advance = glyph.advance(); if( (pos.x() + advance.x()) > rect.width() ) { crlf(); } const Point pos_glyph { rect.left() + pos.x(), display.scroll_area_y(pos.y()) }; display.draw_glyph(pos_glyph, glyph, s.foreground, s.background); pos += { advance.x(), 0 }; } } buffer = message; } else { buffer += message; } } void Console::writeln(std::string message) { write(message); crlf(); } void Console::paint(Painter&) { write(buffer); } void Console::on_show() { const auto screen_r = screen_rect(); display.scroll_set_area(screen_r.top(), screen_r.bottom()); display.scroll_set_position(0); clear(); visible = true; } void Console::on_hide() { /* TODO: Clear region to eliminate brief flash of content at un-shifted * position? */ display.scroll_disable(); } void Console::crlf() { const Style& s = style(); const auto sr = screen_rect(); const auto line_height = s.font.line_height(); pos = { 0, pos.y() + line_height }; const int32_t y_excess = pos.y() + line_height - sr.height(); if( y_excess > 0 ) { display.scroll(-y_excess); pos = { pos.x(), pos.y() - y_excess }; const Rect dirty { sr.left(), display.scroll_area_y(pos.y()), sr.width(), line_height }; display.fill_rectangle(dirty, s.background); } } /* Checkbox **************************************************************/ Checkbox::Checkbox( Point parent_pos, size_t length, std::string text, bool small ) : Widget { }, text_ { text }, small_ { small } { if (!small_) set_parent_rect({ parent_pos, { static_cast((8 * length) + 24), 24 } }); else set_parent_rect({ parent_pos, { static_cast((8 * length) + 16), 16 } }); set_focusable(true); } void Checkbox::set_text(const std::string value) { text_ = value; set_dirty(); } bool Checkbox::set_value(const bool value) { value_ = value; set_dirty(); if( on_select ) { on_select(*this, value_); return true; } return false; } bool Checkbox::value() const { return value_; } void Checkbox::paint(Painter& painter) { const auto r = screen_rect(); const auto paint_style = (has_focus() || highlighted()) ? style().invert() : style(); const auto x = r.location().x(); const auto y = r.location().y(); const auto label_r = paint_style.font.size_of(text_); if (!small_) { painter.draw_rectangle({ { r.location() }, { 24, 24 } }, style().foreground); painter.fill_rectangle({ x + 1, y + 1, 24 - 2, 24 - 2 }, style().background); // Highlight painter.draw_rectangle({ x + 2, y + 2, 24 - 4, 24 - 4 }, paint_style.background); if (value_ == true) { // Check portapack::display.draw_line( {x + 2, y + 14}, {x + 6, y + 18}, ui::Color::green()); portapack::display.draw_line( {x + 6, y + 18}, {x + 20, y + 4}, ui::Color::green()); } else { // Cross portapack::display.draw_line( {x + 1, y + 1}, {x + 24 - 2, y + 24 - 2}, ui::Color::red()); portapack::display.draw_line( {x + 24 - 2, y + 1}, {x + 1, y + 24 - 2}, ui::Color::red()); } painter.draw_string( { static_cast(x + 24 + 4), static_cast(y + (24 - label_r.height()) / 2) }, paint_style, text_ ); } else { painter.draw_rectangle({ { r.location() }, { 16, 16 } }, style().foreground); painter.fill_rectangle({ x + 1, y + 1, 16 - 2, 16 - 2 }, style().background); // Highlight painter.draw_rectangle({ x + 1, y + 1, 16 - 2, 16 - 2 }, paint_style.background); if (value_ == true) { // Check portapack::display.draw_line( {x + 2, y + 8}, {x + 6, y + 12}, ui::Color::green()); portapack::display.draw_line( {x + 6, y + 12}, {x + 13, y + 5}, ui::Color::green()); } else { // Cross portapack::display.draw_line( {x + 1, y + 1}, {x + 16 - 2, y + 16 - 2}, ui::Color::red()); portapack::display.draw_line( {x + 16 - 2, y + 1}, {x + 1, y + 16 - 2}, ui::Color::red()); } painter.draw_string( { static_cast(x + 16), static_cast(y + (16 - label_r.height()) / 2) }, paint_style, text_ ); } } bool Checkbox::on_key(const KeyEvent key) { if( key == KeyEvent::Select ) return set_value(not value_); return false; } bool Checkbox::on_touch(const TouchEvent event) { switch(event.type) { case TouchEvent::Type::Start: set_highlighted(true); set_dirty(); return true; case TouchEvent::Type::End: set_highlighted(false); value_ = not value_; set_dirty(); if( on_select ) { on_select(*this, value_); } return true; default: return false; } } /* Button ****************************************************************/ Button::Button( Rect parent_rect, std::string text ) : Widget { parent_rect }, text_ { text } { set_focusable(true); } void Button::set_text(const std::string value) { text_ = value; set_dirty(); } std::string Button::text() const { return text_; } void Button::paint(Painter& painter) { Color bg, fg; const auto r = screen_rect(); if (has_focus() || highlighted()) { bg = style().foreground; fg = Color::black(); } else { bg = Color::grey(); fg = style().foreground; } const Style paint_style = { style().font, bg, fg }; painter.draw_rectangle({r.location(), {r.size().width(), 1}}, Color::light_grey()); painter.draw_rectangle({r.location().x(), r.location().y() + r.size().height() - 1, r.size().width(), 1}, Color::dark_grey()); painter.draw_rectangle({r.location().x() + r.size().width() - 1, r.location().y(), 1, r.size().height()}, Color::dark_grey()); painter.fill_rectangle( { r.location().x(), r.location().y() + 1, r.size().width() - 1, r.size().height() - 2 }, paint_style.background ); const auto label_r = paint_style.font.size_of(text_); painter.draw_string( { r.location().x() + (r.size().width() - label_r.width()) / 2, r.location().y() + (r.size().height() - label_r.height()) / 2 }, paint_style, text_ ); } void Button::on_focus() { if( on_highlight ) on_highlight(*this); } bool Button::on_key(const KeyEvent key) { if( key == KeyEvent::Select ) { if( on_select ) { on_select(*this); return true; } } else { if( on_dir ) { return on_dir(*this, key); } } return false; } bool Button::on_touch(const TouchEvent event) { switch(event.type) { case TouchEvent::Type::Start: set_highlighted(true); set_dirty(); return true; case TouchEvent::Type::End: set_highlighted(false); set_dirty(); if( on_select ) { on_select(*this); } return true; default: return false; } #if 0 switch(event.type) { case TouchEvent::Type::Start: flags.highlighted = true; set_dirty(); return true; case TouchEvent::Type::Move: { const bool new_highlighted = screen_rect().contains(event.point); if( flags.highlighted != new_highlighted ) { flags.highlighted = new_highlighted; set_dirty(); } } return true; case TouchEvent::Type::End: if( flags.highlighted ) { flags.highlighted = false; set_dirty(); if( on_select ) { on_select(*this); } } return true; default: return false; } #endif } /* Image *****************************************************************/ Image::Image( ) : Image { { }, nullptr, Color::white(), Color::black() } { } Image::Image( const Rect parent_rect, const Bitmap* bitmap, const Color foreground, const Color background ) : Widget { parent_rect }, bitmap_ { bitmap }, foreground_ { foreground }, background_ { background } { } void Image::set_bitmap(const Bitmap* bitmap) { bitmap_ = bitmap; set_dirty(); } void Image::set_foreground(const Color color) { foreground_ = color; set_dirty(); } void Image::set_background(const Color color) { background_ = color; set_dirty(); } void Image::invert_colors() { Color temp; temp = background_; background_ = foreground_; foreground_ = temp; set_dirty(); } void Image::paint(Painter& painter) { if( bitmap_ ) { // Code also handles ImageButton behavior. const bool selected = (has_focus() || highlighted()); painter.draw_bitmap( screen_pos(), *bitmap_, selected ? background_ : foreground_, selected ? foreground_ : background_ ); } } /* ImageButton ***********************************************************/ // TODO: Virtually all this code is duplicated from Button. Base class? ImageButton::ImageButton( const Rect parent_rect, const Bitmap* bitmap, const Color foreground, const Color background ) : Image { parent_rect, bitmap, foreground, background } { set_focusable(true); } bool ImageButton::on_key(const KeyEvent key) { if( key == KeyEvent::Select ) { if( on_select ) { on_select(*this); return true; } } return false; } bool ImageButton::on_touch(const TouchEvent event) { switch(event.type) { case TouchEvent::Type::Start: set_highlighted(true); set_dirty(); return true; case TouchEvent::Type::End: set_highlighted(false); set_dirty(); if( on_select ) { on_select(*this); } return true; default: return false; } } /* ImageOptionsField *****************************************************/ ImageOptionsField::ImageOptionsField( Rect parent_rect, options_t options ) : Widget { parent_rect }, options { options } { set_focusable(true); } size_t ImageOptionsField::selected_index() const { return selected_index_; } size_t ImageOptionsField::selected_index_value() const { return options[selected_index_].second; } void ImageOptionsField::set_selected_index(const size_t new_index) { if ( new_index < options.size() ) { if ( new_index != selected_index() ) { selected_index_ = new_index; if ( on_change ) { on_change(selected_index(), options[selected_index()].second); } set_dirty(); } } } void ImageOptionsField::set_by_value(value_t v) { size_t new_index { 0 }; for(const auto& option : options) { if( option.second == v ) { set_selected_index(new_index); break; } new_index++; } } void ImageOptionsField::set_options(options_t new_options) { options = new_options; set_by_value(0); set_dirty(); } void ImageOptionsField::paint(Painter& painter) { const auto paint_style = has_focus() ? style().invert() : style(); if( selected_index() < options.size() ) { const auto bmp_ptr = options[selected_index()].first; painter.fill_rectangle({screen_rect().location(), {screen_rect().size().width() + 4, screen_rect().size().height() + 4}}, ui::Color::black()); painter.draw_rectangle({screen_rect().location(), {screen_rect().size().width() + 4, screen_rect().size().height() + 4}}, paint_style.background); portapack::display.drawBMP({screen_pos().x() + 2, screen_pos().y() + 1}, bmp_ptr, true); } } void ImageOptionsField::on_focus() { if( on_show_options ) { on_show_options(); } } bool ImageOptionsField::on_encoder(const EncoderEvent delta) { set_selected_index(selected_index() + delta); return true; } bool ImageOptionsField::on_touch(const TouchEvent event) { if( event.type == TouchEvent::Type::Start ) { focus(); } return true; } /* OptionsField **********************************************************/ OptionsField::OptionsField( Point parent_pos, int length, options_t options ) : Widget { { parent_pos, { 8 * length, 16 } } }, length_ { length }, options { options } { set_focusable(true); } size_t OptionsField::selected_index() const { return selected_index_; } size_t OptionsField::selected_index_value() const { return options[selected_index_].second; } void OptionsField::set_selected_index(const size_t new_index) { if( new_index < options.size() ) { if( new_index != selected_index() ) { selected_index_ = new_index; if( on_change ) { on_change(selected_index(), options[selected_index()].second); } set_dirty(); } } } void OptionsField::set_by_value(value_t v) { size_t new_index { 0 }; for(const auto& option : options) { if( option.second == v ) { set_selected_index(new_index); break; } new_index++; } } void OptionsField::set_options(options_t new_options) { options = new_options; set_by_value(0); set_dirty(); } void OptionsField::paint(Painter& painter) { const auto paint_style = has_focus() ? style().invert() : style(); painter.fill_rectangle({screen_rect().location(), {(int)length_ * 8, 16}}, ui::Color::black()); if( selected_index() < options.size() ) { const auto text = options[selected_index()].first; painter.draw_string( screen_pos(), paint_style, text ); } } void OptionsField::on_focus() { if( on_show_options ) { on_show_options(); } } bool OptionsField::on_encoder(const EncoderEvent delta) { set_selected_index(selected_index() + delta); return true; } bool OptionsField::on_touch(const TouchEvent event) { if( event.type == TouchEvent::Type::Start ) { focus(); } return true; } /* NumberField ***********************************************************/ NumberField::NumberField( Point parent_pos, int length, range_t range, int32_t step, char fill_char ) : Widget { { parent_pos, { 8 * length, 16 } } }, range { range }, step { step }, length_ { length }, fill_char { fill_char } { set_focusable(true); } int32_t NumberField::value() const { return value_; } void NumberField::set_value(int32_t new_value, bool trigger_change) { new_value = clip_value(new_value); if( new_value != value() ) { value_ = new_value; if( on_change && trigger_change ) { on_change(value_); } set_dirty(); } } void NumberField::set_range(const int32_t min, const int32_t max) { range.first = min; range.second = max; set_value(value(), false); } void NumberField::paint(Painter& painter) { const auto text = to_string_dec_int(value_, length_, fill_char); const auto paint_style = has_focus() ? style().invert() : style(); painter.draw_string( screen_pos(), paint_style, text ); } bool NumberField::on_key(const KeyEvent key) { if( key == KeyEvent::Select ) { if( on_select ) { on_select(*this); return true; } } return false; } bool NumberField::on_encoder(const EncoderEvent delta) { set_value(value() + (delta * step)); return true; } bool NumberField::on_touch(const TouchEvent event) { if( event.type == TouchEvent::Type::Start ) { focus(); } return true; } int32_t NumberField::clip_value(int32_t value) { if( value > range.second ) { value = range.second; } if( value < range.first ) { value = range.first; } return value; } /* SymField **************************************************************/ SymField::SymField( Point parent_pos, size_t length, symfield_type type ) : Widget { { parent_pos, { static_cast(8 * length), 16 } } }, length_ { length }, type_ { type } { uint32_t c; // Auto-init if (type == SYMFIELD_OCT) { for (c = 0; c < length; c++) set_symbol_list(c, "01234567"); } else if (type == SYMFIELD_DEC) { for (c = 0; c < length; c++) set_symbol_list(c, "0123456789"); } else if (type == SYMFIELD_HEX) { for (c = 0; c < length; c++) set_symbol_list(c, "0123456789ABCDEF"); } set_focusable(true); } uint64_t SymField::value_hex_u64() { uint32_t c; uint64_t v = 0; if (type_ != SYMFIELD_DEF) { for (c = 0; c < length_; c++) v += values_[c] << (4 * (length_ - 1 - c)); return v; } else return 0; } uint32_t SymField::value(const uint32_t index) { if (index >= length_) return 0; return values_[index]; } void SymField::set_value(const uint32_t index, const uint32_t new_value) { if (index >= length_) return; uint32_t clipped_value = clip_value(index, new_value); if (clipped_value != values_[index]) { values_[index] = clipped_value; if( on_change ) { on_change(); } set_dirty(); } } void SymField::set_length(const uint32_t new_length) { if ((new_length <= 32) && (new_length != length_)) { prev_length_ = length_; length_ = new_length; // Clip eventual garbage from previous shorter word for (size_t n = 0; n < length_; n++) set_value(n, values_[n]); erase_prev_ = true; set_dirty(); } } void SymField::set_symbol_list(const uint32_t index, const std::string symbol_list) { if (index >= length_) return; symbol_list_[index] = symbol_list; // Re-clip symbol's value set_value(index, values_[index]); } void SymField::paint(Painter& painter) { Point pt_draw = screen_pos(); if (erase_prev_) { painter.fill_rectangle( { pt_draw, { (int)prev_length_ * 8, 16 } }, Color::black() ); erase_prev_ = false; } for (size_t n = 0; n < length_; n++) { const auto text = symbol_list_[n].substr(values_[n], 1); const auto paint_style = (has_focus() && (n == selected_)) ? style().invert() : style(); painter.draw_string( pt_draw, paint_style, text ); pt_draw += { 8, 0 }; } } bool SymField::on_key(const KeyEvent key) { switch (key) { case KeyEvent::Select: if( on_select ) { on_select(*this); return true; } break; case KeyEvent::Left: if (selected_ > 0) { selected_--; set_dirty(); return true; } break; case KeyEvent::Right: if (selected_ < (length_ - 1)) { selected_++; set_dirty(); return true; } break; default: break; } return false; } bool SymField::on_encoder(const EncoderEvent delta) { int32_t new_value = (int)values_[selected_] + delta; if (new_value >= 0) set_value(selected_, values_[selected_] + delta); return true; } bool SymField::on_touch(const TouchEvent event) { if (event.type == TouchEvent::Type::Start) { focus(); } return true; } int32_t SymField::clip_value(const uint32_t index, const uint32_t value) { size_t symbol_count = symbol_list_[index].length() - 1; if (value > symbol_count) return symbol_count; else return value; } /* Waveform **************************************************************/ Waveform::Waveform( Rect parent_rect, int8_t * data, uint32_t length, uint32_t offset, bool digital, Color color ) : Widget { parent_rect }, data_ { data }, length_ { length }, offset_ { offset }, digital_ { digital }, color_ { color } { //set_focusable(false); } void Waveform::set_offset(const uint32_t new_offset) { if (new_offset != offset_) { offset_ = new_offset; set_dirty(); } } void Waveform::set_length(const uint32_t new_length) { if (new_length != length_) { length_ = new_length; set_dirty(); } } void Waveform::paint(Painter& painter) { uint32_t n, point_count; Coord y, y_offset = screen_rect().location().y(); Coord prev_x = screen_rect().location().x(), prev_y; float x, x_inc; Dim h = screen_rect().size().height(); int8_t * data_start = data_ + offset_; // Clear painter.fill_rectangle(screen_rect(), Color::black()); x_inc = (float)screen_rect().size().width() / length_; point_count = length_; const float y_scale = (float)(h - 1) / 256; // TODO: Make variable if (!point_count) return; if (digital_) { // Digital waveform: each value is an horizontal line x = 0; h--; for (n = 0; n < point_count; n++) { y = *(data_start++) ? h : 0; if (n) { if (y != prev_y) painter.draw_vline( {x, y_offset}, h, color_); } painter.draw_hline( {x, y_offset + y}, ceil(x_inc), color_); prev_y = y; x += x_inc; } } else { // Analog waveform: each value is a point's Y coordinate x = prev_x + x_inc; h = h / 2; prev_y = y_offset + h - (*(data_start++) * y_scale); for (n = 1; n < point_count; n++) { y = y_offset + h - (*(data_start++) * y_scale); display.draw_line( {prev_x, prev_y}, {(Coord)x, y}, color_); prev_x = x; prev_y = y; x += x_inc; } } } } /* namespace ui */