mayhem-firmware/firmware/common/ui_widget.cpp
Kyle Reed fb00bfac3f
Nav stack cleanup (#1460)
* Minor nav stack fixes
* Nav stack cleanup
* Additional cleanup, fix notepad crash
* Fix abort/cancel
* Fix for nasty focus bug
* Format
2023-09-27 21:03:02 +02:00

2366 lines
58 KiB
C++

/*
* 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 <cstdint>
#include <cstddef>
#include <algorithm>
#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*> 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() {
}
void Widget::blur() {
context().focus_manager().set_focus_widget(nullptr);
}
void Widget::on_blur() {
}
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*>& Widget::children() const {
return no_children;
}
Context& Widget::context() const {
chDbgAssert(parent_, "parent_ is null",
"Check that parent isn't null before deref.");
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<Widget*> 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<Widget*>& children) {
for (auto child : children) {
remove_child(child);
}
}
const std::vector<Widget*>& View::children() const {
return children_;
}
std::string View::title() const {
return "";
};
/* OptionTabView *********************************************************/
OptionTabView::OptionTabView(Rect parent_rect) {
set_parent_rect(parent_rect);
add_child(&check_enable);
hidden(true);
check_enable.on_select = [this](Checkbox&, bool value) {
enabled = value;
};
}
void OptionTabView::set_enabled(bool value) {
check_enable.set_value(value);
}
bool OptionTabView::is_enabled() {
return check_enable.value();
}
void OptionTabView::set_type(std::string type) {
check_enable.set_text("Transmit " + type);
}
void OptionTabView::focus() {
check_enable.focus();
}
/* 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{std::move(text)} {
}
Text::Text(
Rect parent_rect)
: Text{parent_rect, {}} {
}
void Text::set(std::string_view value) {
text = std::string{value};
set_dirty();
}
void Text::paint(Painter& painter) {
const auto rect = screen_rect();
auto s = has_focus() ? style().invert() : style();
auto max_len = (unsigned)rect.width() / s.font.char_width();
auto text_view = std::string_view{text};
painter.fill_rectangle(rect, s.background);
if (text_view.length() > max_len)
text_view = text_view.substr(0, max_len);
painter.draw_string(
rect.location(),
s,
text_view);
}
/* Labels ****************************************************************/
Labels::Labels(
std::initializer_list<Label> labels)
: labels_{labels} {
}
void Labels::set_labels(std::initializer_list<Label> labels) {
labels_ = labels;
set_dirty();
}
void Labels::paint(Painter& painter) {
for (auto& label : labels_) {
painter.draw_string(
label.pos + screen_pos(),
style().font,
label.color,
style().background,
label.text);
}
}
/* LiveDateTime **********************************************************/
void LiveDateTime::on_tick_second() {
rtcGetTime(&RTCD1, &datetime);
text = "";
if (!hide_clock) {
if (date_enabled) {
text = to_string_dec_uint(datetime.year(), 4, '0') + "-" +
to_string_dec_uint(datetime.month(), 2, '0') + "-" +
to_string_dec_uint(datetime.day(), 2, '0') + " ";
} else {
text = " ";
}
text = text + to_string_dec_uint(datetime.hour(), 2, '0') + ":" + to_string_dec_uint(datetime.minute(), 2, '0');
if (seconds_enabled) {
text += ":";
if (init_delay == 0)
text += to_string_dec_uint(datetime.second(), 2, '0');
else {
// Placeholder while the seconds are not updated
text += "XX";
init_delay--;
}
}
}
set_dirty();
}
LiveDateTime::LiveDateTime(
Rect parent_rect)
: Widget{parent_rect} {
signal_token_tick_second = rtc_time::signal_tick_second += [this]() {
this->on_tick_second();
};
}
LiveDateTime::~LiveDateTime() {
rtc_time::signal_tick_second -= signal_token_tick_second;
}
void LiveDateTime::paint(Painter& painter) {
const auto rect = screen_rect();
const auto s = style();
on_tick_second();
painter.fill_rectangle(rect, s.background);
painter.draw_string(
rect.location(),
s,
text);
}
void LiveDateTime::set_hide_clock(bool new_value) {
this->hide_clock = new_value;
}
void LiveDateTime::set_date_enabled(bool new_value) {
this->date_enabled = new_value;
}
void LiveDateTime::set_seconds_enabled(bool new_value) {
this->seconds_enabled = new_value;
}
/* BigFrequency **********************************************************/
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) {
uint32_t i, digit_def;
std::array<char, 7> digits;
char digit;
Point digit_pos;
ui::Color segment_color;
const auto rect = screen_rect();
// Erase
painter.fill_rectangle(
{{0, rect.location().y()}, {screen_width, 52}},
ui::Color::black());
// Prepare digits
if (!_frequency) {
digits.fill(10); // ----.---
digit_pos = {0, rect.location().y()};
} else {
_frequency /= 1000; // GMMM.KKK(uuu)
for (i = 0; i < 7; i++) {
digits[6 - i] = _frequency % 10;
_frequency /= 10;
}
// Remove leading zeros
for (i = 0; i < 3; i++) {
if (!digits[i])
digits[i] = 16; // "Don't draw" code
else
break;
}
digit_pos = {(Coord)(240 - ((7 * digit_width) + 8) - (i * digit_width)) / 2, rect.location().y()};
}
segment_color = style().foreground;
// Draw
for (i = 0; i < 7; i++) {
digit = digits[i];
if (digit < 16) {
digit_def = segment_font[(uint8_t)digit];
for (size_t s = 0; s < 7; s++) {
if (digit_def & 1)
painter.fill_rectangle({digit_pos + segments[s].location(), segments[s].size()}, segment_color);
digit_def >>= 1;
}
}
if (i == 3) {
// Dot
painter.fill_rectangle({digit_pos + Point(34, 48), {4, 4}}, segment_color);
digit_pos += {(digit_width + 8), 0};
} else {
digit_pos += {digit_width, 0};
}
}
}
/* ProgressBar ***********************************************************/
ProgressBar::ProgressBar(
Rect parent_rect)
: Widget{parent_rect} {
}
void ProgressBar::set_max(const uint32_t max) {
if (max == _max) return;
if (_value > _max)
_value = _max;
_max = max;
set_dirty();
}
void ProgressBar::set_value(const uint32_t value) {
if (value == _value) return;
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() * (uint64_t)_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(bool clear_buffer = false) {
if (clear_buffer)
buffer.clear();
if (!hidden() && visible()) {
display.fill_rectangle(
screen_rect(),
Color::black());
}
pos = {0, 0};
}
void Console::write(std::string message) {
bool escape = false;
if (!hidden() && visible()) {
const Style& s = style();
const Font& font = s.font;
auto rect = screen_rect();
ui::Color pen_color = s.foreground;
for (auto c : message) {
if (escape) {
if (c < std::size(term_colors))
pen_color = term_colors[(uint8_t)c];
else
pen_color = s.foreground;
escape = false;
} else {
if (c == '\n') {
crlf();
} else if (c == '\x1B') {
escape = true;
} else {
auto glyph = font.glyph(c);
auto advance = glyph.advance();
// Would drawing next character be off the end? Newline.
if ((pos.x() + advance.x()) > rect.width())
crlf();
Point pos_glyph{
rect.left() + pos.x(),
display.scroll_area_y(pos.y())};
display.draw_glyph(pos_glyph, glyph, pen_color, s.background);
pos += {advance.x(), 0};
}
}
}
buffer = message;
} else {
if (buffer.size() < 256) buffer += message;
}
}
void Console::writeln(std::string message) {
write(message + "\n");
}
void Console::paint(Painter&) {
write(buffer);
}
void Console::on_show() {
enable_scrolling(true);
clear();
}
bool Console::scrolling_enabled = false;
void Console::enable_scrolling(bool enable) {
if (enable) {
auto sr = screen_rect();
auto line_height = style().font.line_height();
// Count full lines that can fit in console's rectangle.
auto max_lines = sr.height() / line_height; // NB: int division to floor.
// The scroll area must be a multiple of the line_height
// or some lines will end up vertically truncated.
scroll_height = max_lines * line_height;
display.scroll_set_area(sr.top(), sr.top() + scroll_height);
display.scroll_set_position(0);
scrolling_enabled = true;
} else {
display.scroll_disable();
scrolling_enabled = false;
}
}
void Console::on_hide() {
/* TODO: Clear region to eliminate brief flash of content at un-shifted
* position? */
enable_scrolling(false);
}
void Console::crlf() {
if (hidden() || !visible()) return;
const auto& s = style();
auto sr = screen_rect();
auto line_height = s.font.line_height();
// Advance to the next line (\n) position and "carriage return" x to 0.
pos = {0, pos.y() + line_height};
if (pos.y() >= scroll_height) {
// Line is past off the "bottom", need to scroll.
if (!scrolling_enabled)
enable_scrolling(true);
// See the notes in lcd_ili9341.hpp about how scrolling works.
// The gist is that VSA will be moved to scroll the "top" off the
// screen. The drawing code uses 'scroll_area_y' to get the actual
// screen coordinate based on VSA. The "bottom" line is *always*
// at 'VSA + ((max_lines - 1) * line_height)' and so is constant.
pos = {0, scroll_height - line_height};
// Scroll off the "top" line.
display.scroll(-line_height);
// Clear the new line at the "bottom".
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<ui::Dim>((8 * length) + 24), 24}});
else
set_parent_rect({parent_pos, {static_cast<ui::Dim>((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<Coord>(x + 24 + 4),
static_cast<Coord>(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<Coord>(x + 16 + 2),
static_cast<Coord>(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,
bool instant_exec)
: Widget{parent_rect},
text_{text},
instant_exec_{instant_exec} {
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();
if (on_touch_press) {
on_touch_press(*this);
}
if (on_select && instant_exec_) {
on_select(*this);
}
return true;
case TouchEvent::Type::End:
set_highlighted(false);
set_dirty();
if (on_touch_release) {
on_touch_release(*this);
}
if (on_select && !instant_exec_) {
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
}
/* ButtonWithEncoder ****************************************************************/
ButtonWithEncoder::ButtonWithEncoder(
Rect parent_rect,
std::string text,
bool instant_exec)
: Widget{parent_rect},
text_{text},
instant_exec_{instant_exec} {
set_focusable(true);
}
void ButtonWithEncoder::set_text(const std::string value) {
text_ = value;
set_dirty();
}
int32_t ButtonWithEncoder::get_encoder_delta() {
return encoder_delta;
}
void ButtonWithEncoder::set_encoder_delta(const int32_t delta) {
encoder_delta = delta;
}
std::string ButtonWithEncoder::text() const {
return text_;
}
void ButtonWithEncoder::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 ButtonWithEncoder::on_focus() {
if (on_highlight)
on_highlight(*this);
}
bool ButtonWithEncoder::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 ButtonWithEncoder::on_touch(const TouchEvent event) {
switch (event.type) {
case TouchEvent::Type::Start:
set_highlighted(true);
set_dirty();
if (on_touch_press) {
on_touch_press(*this);
}
if (on_select && instant_exec_) {
on_select(*this);
}
return true;
case TouchEvent::Type::End:
set_highlighted(false);
set_dirty();
if (on_touch_release) {
on_touch_release(*this);
}
if (on_select && !instant_exec_) {
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
}
bool ButtonWithEncoder::on_encoder(const EncoderEvent delta) {
if (delta != 0) {
encoder_delta += delta;
delta_change = true;
on_change();
} else
delta_change = 0;
return true;
}
/* NewButton ****************************************************************/
NewButton::NewButton(
Rect parent_rect,
std::string text,
const Bitmap* bitmap)
: NewButton{parent_rect, text, bitmap, Color::dark_cyan()} {}
NewButton::NewButton(
Rect parent_rect,
std::string text,
const Bitmap* bitmap,
Color color,
bool vertical_center)
: Widget{parent_rect},
color_{color},
text_{text},
bitmap_{bitmap},
vertical_center_{vertical_center} {
set_focusable(true);
}
void NewButton::set_text(const std::string value) {
text_ = value;
set_dirty();
}
std::string NewButton::text() const {
return text_;
}
void NewButton::set_bitmap(const Bitmap* bitmap) {
bitmap_ = bitmap;
set_dirty();
}
const Bitmap* NewButton::bitmap() {
return bitmap_;
}
void NewButton::set_color(Color color) {
color_ = color;
set_dirty();
}
void NewButton::set_vertical_center(bool value) {
vertical_center_ = value;
set_dirty();
}
ui::Color NewButton::color() {
return color_;
}
void NewButton::paint(Painter& painter) {
if (!bitmap_ && text_.empty())
return;
const auto r = screen_rect();
const Style style = paint_style();
painter.draw_rectangle({r.location(), {r.width(), 1}}, Color::light_grey());
painter.draw_rectangle({r.left(), r.top() + r.height() - 1, r.width(), 1}, Color::dark_grey());
painter.draw_rectangle({r.left() + r.width() - 1, r.top(), 1, r.height()}, Color::dark_grey());
painter.fill_rectangle(
{r.left(), r.top() + 1, r.width() - 1, r.height() - 2},
style.background);
int y = r.top();
if (bitmap_) {
int offset_y = vertical_center_ ? (r.height() / 2) - (bitmap_->size.height() / 2) : 6;
Point bmp_pos = {r.left() + (r.width() / 2) - (bitmap_->size.width() / 2), r.top() + offset_y};
y += bitmap_->size.height() - offset_y;
painter.draw_bitmap(
bmp_pos,
*bitmap_,
color_,
style.background);
}
if (!text_.empty()) {
const auto label_r = style.font.size_of(text_);
painter.draw_string(
{r.left() + (r.width() - label_r.width()) / 2, y + (r.height() - label_r.height()) / 2},
style,
text_);
}
}
Style NewButton::paint_style() {
MutableStyle s{style()};
if (has_focus() || highlighted()) {
s.background = style().foreground;
s.foreground = Color::black();
} else {
s.background = Color::grey();
s.foreground = style().foreground;
}
return s;
}
void NewButton::on_focus() {
if (on_highlight)
on_highlight(*this);
}
bool NewButton::on_key(const KeyEvent key) {
if (key == KeyEvent::Select) {
if (on_select) {
on_select();
return true;
}
} else {
if (on_dir) {
return on_dir(*this, key);
}
}
return false;
}
bool NewButton::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();
}
return true;
default:
return false;
}
}
/* 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;
}
}
/* ImageToggle ***********************************************************/
ImageToggle::ImageToggle(
Rect parent_rect,
const Bitmap* bitmap_)
: ImageToggle{parent_rect,
bitmap_,
Color::green(),
Color::light_grey(),
Color::dark_grey()} {}
ImageToggle::ImageToggle(
Rect parent_rect,
const Bitmap* bitmap_,
Color foreground_true,
Color foreground_false,
Color background_)
: ImageToggle{parent_rect,
bitmap_,
bitmap_,
foreground_true,
background_,
foreground_false,
background_} {}
ImageToggle::ImageToggle(
Rect parent_rect,
const Bitmap* bitmap_true,
const Bitmap* bitmap_false,
Color foreground_true,
Color background_true,
Color foreground_false,
Color background_false)
: ImageButton{parent_rect, bitmap_false, foreground_false, background_false},
bitmap_true_{bitmap_true},
bitmap_false_{bitmap_false},
foreground_true_{foreground_true},
background_true_{background_true},
foreground_false_{foreground_false},
background_false_{background_false},
value_{false} {
ImageButton::on_select = [this](ImageButton&) {
set_value(!value());
};
}
bool ImageToggle::value() const {
return value_;
}
void ImageToggle::set_value(bool b) {
if (b == value_)
return;
value_ = b;
set_bitmap(b ? bitmap_true_ : bitmap_false_);
set_foreground(b ? foreground_true_ : foreground_false_);
set_background(b ? background_true_ : background_false_);
if (on_change)
on_change(b);
}
/* ImageOptionsField *****************************************************/
ImageOptionsField::ImageOptionsField(
Rect parent_rect,
Color foreground,
Color background,
options_t options)
: Widget{parent_rect},
options{std::move(options)},
foreground_{foreground},
background_{background} {
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);
return;
}
new_index++;
}
// No exact match was found, default to 0.
set_selected_index(0);
}
void ImageOptionsField::set_options(options_t new_options) {
options = std::move(new_options);
// Set an invalid index to force on_change.
selected_index_ = (size_t)-1;
set_selected_index(0);
set_dirty();
}
void ImageOptionsField::paint(Painter& painter) {
const bool selected = (has_focus() || highlighted());
const auto paint_style = selected ? style().invert() : style();
painter.draw_rectangle(
{screen_rect().location(), {screen_rect().size().width() + 4, screen_rect().size().height() + 4}},
paint_style.background);
painter.draw_bitmap(
{screen_pos().x() + 2, screen_pos().y() + 2},
*options[selected_index_].first,
foreground_,
background_);
}
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,
size_t length,
options_t options)
: Widget{{parent_pos, {8 * (int)length, 16}}},
length_{length},
options_{std::move(options)} {
set_focusable(true);
}
size_t OptionsField::selected_index() const {
return selected_index_;
}
const OptionsField::name_t& OptionsField::selected_index_name() const {
return options_[selected_index_].first;
}
const OptionsField::value_t& OptionsField::selected_index_value() const {
return options_[selected_index_].second;
}
void OptionsField::set_selected_index(const size_t new_index, bool trigger_change) {
if (new_index < options_.size()) {
if (new_index != selected_index() || trigger_change) {
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);
return;
}
new_index++;
}
// No exact match was found, default to 0.
set_selected_index(0);
}
void OptionsField::set_by_nearest_value(value_t v) {
size_t new_index = 0;
size_t curr_index = 0;
int32_t min_diff = INT32_MAX;
for (const auto& option : options_) {
auto diff = abs(v - option.second);
if (diff < min_diff) {
min_diff = diff;
new_index = curr_index;
}
curr_index++;
}
set_selected_index(new_index);
}
void OptionsField::set_options(options_t new_options) {
options_ = std::move(new_options);
// Set an invalid index to force on_change.
selected_index_ = (size_t)-1;
set_selected_index(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()) {
std::string_view temp = selected_index_name();
if (temp.length() > length_)
temp = temp.substr(0, length_);
painter.draw_string(
screen_pos(),
paint_style,
temp);
}
}
void OptionsField::on_focus() {
if (on_show_options) {
on_show_options();
}
}
bool OptionsField::on_encoder(const EncoderEvent delta) {
int32_t new_value = selected_index() + delta;
if (new_value < 0)
new_value = options_.size() - 1;
else if ((size_t)new_value >= options_.size())
new_value = 0;
set_selected_index(new_value);
return true;
}
bool OptionsField::on_touch(const TouchEvent event) {
if (event.type == TouchEvent::Type::Start) {
focus();
}
return true;
}
/* TextEdit ***********************************************************/
TextEdit::TextEdit(
std::string& str,
size_t max_length,
Point position,
uint32_t length)
: Widget{{position, {8 * static_cast<int>(length), 16}}},
text_{str},
max_length_{std::max<size_t>(max_length, str.length())},
char_count_{std::max<uint32_t>(length, 1)},
cursor_pos_{text_.length()},
insert_mode_{true} {
set_focusable(true);
}
const std::string& TextEdit::value() const {
return text_;
}
void TextEdit::set_cursor(uint32_t pos) {
cursor_pos_ = std::min<size_t>(pos, text_.length());
set_dirty();
}
void TextEdit::set_insert_mode() {
insert_mode_ = true;
}
void TextEdit::set_overwrite_mode() {
insert_mode_ = false;
}
void TextEdit::char_add(char c) {
// Don't add if inserting and at max_length and
// don't overwrite if past the end of the text.
if ((text_.length() >= max_length_ && insert_mode_) ||
(cursor_pos_ >= text_.length() && !insert_mode_))
return;
if (insert_mode_)
text_.insert(cursor_pos_, 1, c);
else
text_[cursor_pos_] = c;
cursor_pos_++;
set_dirty();
}
void TextEdit::char_delete() {
if (cursor_pos_ == 0)
return;
cursor_pos_--;
text_.erase(cursor_pos_, 1);
set_dirty();
}
void TextEdit::paint(Painter& painter) {
auto rect = screen_rect();
auto text_style = has_focus() ? style().invert() : style();
auto offset = 0;
// Does the string need to be shifted?
if (cursor_pos_ >= char_count_)
offset = cursor_pos_ - char_count_ + 1;
// Draw the text starting at the offset.
for (uint32_t i = 0; i < char_count_; i++) {
// Using draw_char to blank the rest of the line with spaces produces less flicker.
auto c = (i + offset < text_.length()) ? text_[i + offset] : ' ';
painter.draw_char(
{rect.location().x() + (static_cast<int>(i) * char_width), rect.location().y()},
text_style, c);
}
// Determine cursor position on screen (either the cursor position or the last char).
int32_t cursor_x = char_width * (offset > 0 ? char_count_ - 1 : cursor_pos_);
Point cursor_point{screen_pos().x() + cursor_x, screen_pos().y()};
auto cursor_style = text_style.invert();
// Invert the cursor character when in overwrite mode.
if (!insert_mode_ && (cursor_pos_) < text_.length())
painter.draw_char(cursor_point, cursor_style, text_[cursor_pos_]);
// Draw the cursor.
Rect cursor_box{cursor_point, {char_width, char_height}};
painter.draw_rectangle(cursor_box, cursor_style.background);
}
bool TextEdit::on_key(const KeyEvent key) {
if (key == KeyEvent::Left && cursor_pos_ > 0)
cursor_pos_--;
else if (key == KeyEvent::Right && cursor_pos_ < text_.length())
cursor_pos_++;
else if (key == KeyEvent::Select)
insert_mode_ = !insert_mode_;
else
return false;
set_dirty();
return true;
}
bool TextEdit::on_encoder(const EncoderEvent delta) {
int32_t new_pos = cursor_pos_ + delta;
// Let the encoder wrap around the ends of the text.
if (new_pos < 0)
new_pos = text_.length();
else if (static_cast<size_t>(new_pos) > text_.length())
new_pos = 0;
set_cursor(new_pos);
return true;
}
bool TextEdit::on_touch(const TouchEvent event) {
if (event.type == TouchEvent::Type::Start)
focus();
set_dirty();
return true;
}
/* TextField *************************************************************/
TextField::TextField(Rect parent_rect, std::string text)
: Text(parent_rect, std::move(text)) {
set_focusable(true);
}
const std::string& TextField::get_text() const {
return text;
}
void TextField::set_text(std::string_view value) {
set(value);
if (on_change)
on_change(*this);
}
bool TextField::on_key(KeyEvent key) {
if (key == KeyEvent::Select && on_select) {
on_select(*this);
return true;
}
return false;
}
bool TextField::on_encoder(EncoderEvent delta) {
if (on_encoder_change) {
on_encoder_change(*this, delta);
return true;
}
return false;
}
bool TextField::on_touch(TouchEvent event) {
if (event.type == TouchEvent::Type::Start) {
focus();
return true;
}
return false;
}
/* NumberField ***********************************************************/
NumberField::NumberField(
Point parent_pos,
int length,
range_t range,
int32_t step,
char fill_char,
bool can_loop)
: Widget{{parent_pos, {8 * length, 16}}},
range{range},
step{step},
length_{length},
fill_char{fill_char},
can_loop{can_loop} {
set_focusable(true);
}
int32_t NumberField::value() const {
return value_;
}
void NumberField::set_value(int32_t new_value, bool trigger_change) {
if (can_loop) {
if (new_value >= range.first)
new_value = new_value % (range.second + 1);
else
new_value = range.second + new_value + 1;
}
new_value = clip(new_value, range.first, range.second);
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::set_step(const int32_t new_step) {
step = new_step;
}
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;
}
/* SymField **************************************************************/
SymField::SymField(
Point parent_pos,
size_t length,
Type type,
bool explicit_edits)
: Widget{{parent_pos, {char_width * (int)length, 16}}},
type_{type},
explicit_edits_{explicit_edits} {
if (length == 0)
length = 1;
selected_ = length - 1;
value_.resize(length);
switch (type) {
case Type::Oct:
set_symbol_list("01234567");
break;
case Type::Dec:
set_symbol_list("0123456789");
break;
case Type::Hex:
set_symbol_list("0123456789ABCDEF");
break;
case Type::Alpha:
set_symbol_list(" 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ");
break;
default:
set_symbol_list("01");
break;
}
set_focusable(true);
}
SymField::SymField(
Point parent_pos,
size_t length,
std::string symbol_list,
bool explicit_edits)
: SymField{parent_pos, length, Type::Custom, explicit_edits} {
set_symbol_list(std::move(symbol_list));
}
char SymField::get_symbol(size_t index) const {
if (index >= value_.length())
return 0;
return value_[index];
}
void SymField::set_symbol(size_t index, char symbol) {
if (index >= value_.length())
return;
set_symbol_internal(index, ensure_valid(symbol));
}
size_t SymField::get_offset(size_t index) const {
if (index >= value_.length())
return 0;
// NB: Linear search - symbol lists are small.
return symbols_.find(value_[index]);
}
void SymField::set_offset(size_t index, size_t offset) {
if (index >= value_.length() || offset >= symbols_.length())
return;
set_symbol_internal(index, symbols_[offset]);
}
void SymField::set_symbol_list(std::string symbol_list) {
if (symbol_list.length() == 0)
return;
symbols_ = std::move(symbol_list);
ensure_all_symbols();
}
void SymField::set_value(uint64_t value) {
auto v = value;
uint8_t radix = get_radix();
for (int i = value_.length() - 1; i >= 0; --i) {
uint8_t temp = v % radix;
value_[i] = uint_to_char(temp, radix);
v /= radix;
}
if (on_change)
on_change(*this);
}
void SymField::set_value(std::string_view value) {
// Is new value too long?
// TODO: Truncate instead? Which end?
if (value.length() > value_.length())
return;
// Right-align string in field.
auto left_padding = value_.length() - value.length();
value_ = std::string(static_cast<size_t>(left_padding), '\0') + std::string{value};
ensure_all_symbols();
}
uint64_t SymField::to_integer() const {
uint64_t v = 0;
uint64_t mul = 1;
uint8_t radix = get_radix();
for (int i = value_.length() - 1; i >= 0; --i) {
auto temp = char_to_uint(value_[i], radix);
v += temp * mul;
mul *= radix;
}
return v;
}
const std::string& SymField::to_string() const {
return value_;
}
void SymField::paint(Painter& painter) {
Point p = screen_pos();
for (size_t n = 0; n < value_.length(); n++) {
auto c = value_[n];
MutableStyle paint_style{style()};
// Only highlight while focused.
if (has_focus()) {
if (explicit_edits_) {
// Invert the whole field on focus if explicit edits is enabled.
paint_style.invert();
} else if (n == selected_) {
// Otherwise only highlight the selected symbol.
paint_style.invert();
}
if (editing_ && n == selected_) {
// Use 'bg_blue' style to indicate in editing mode.
paint_style.foreground = Color::white();
paint_style.background = Color::blue();
}
}
painter.draw_char(p, paint_style, c);
p += {8, 0};
}
}
bool SymField::on_key(KeyEvent key) {
// If explicit edits are enabled, only Select is handled when not in edit mode.
if (explicit_edits_ && !editing_) {
switch (key) {
case KeyEvent::Select:
editing_ = true;
set_dirty();
return true;
default:
return false;
}
}
switch (key) {
case KeyEvent::Select:
editing_ = !editing_;
set_dirty();
return true;
case KeyEvent::Left:
if (selected_ > 0) {
selected_--;
set_dirty();
return true;
}
break;
case KeyEvent::Right:
if (selected_ < (value_.length() - 1)) {
selected_++;
set_dirty();
return true;
}
break;
case KeyEvent::Up:
if (editing_) {
on_encoder(1);
return true;
}
break;
case KeyEvent::Down:
if (editing_) {
on_encoder(-1);
return true;
}
break;
default:
break;
}
return false;
}
bool SymField::on_encoder(EncoderEvent delta) {
if (explicit_edits_ && !editing_)
return false;
// TODO: Wrapping or carrying might be nice.
int offset = get_offset(selected_) + delta;
offset = clip<int>(offset, 0, symbols_.length() - 1);
set_offset(selected_, offset);
return true;
}
bool SymField::on_touch(TouchEvent event) {
if (event.type == TouchEvent::Type::Start)
focus();
return true;
}
char SymField::ensure_valid(char symbol) const {
// NB: Linear search - symbol lists are small.
auto pos = symbols_.find(symbol);
return pos != std::string::npos ? symbol : symbols_[0];
}
void SymField::ensure_all_symbols() {
auto temp = value_;
for (auto& c : value_)
c = ensure_valid(c);
if (temp != value_) {
if (on_change)
on_change(*this);
set_dirty();
}
}
void SymField::set_symbol_internal(size_t index, char symbol) {
if (value_[index] == symbol)
return;
value_[index] = symbol;
if (on_change)
on_change(*this);
set_dirty();
}
uint8_t SymField::get_radix() const {
switch (type_) {
case Type::Oct:
return 8;
case Type::Dec:
return 10;
case Type::Hex:
return 16;
default:
return 0;
}
}
/* Waveform **************************************************************/
Waveform::Waveform(
Rect parent_rect,
int16_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);
// previous_data.resize(length_, 0);
}
void Waveform::set_cursor(const uint32_t i, const int16_t position) {
if (i < 2) {
if (position != cursors[i]) {
cursors[i] = position;
set_dirty();
}
show_cursors = true;
}
}
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) {
size_t n;
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();
const float y_scale = (float)(h - 1) / 65536.0;
int16_t* data_start = data_ + offset_;
if (!length_) return;
x_inc = (float)screen_rect().size().width() / length_;
// Clear
painter.fill_rectangle_unrolled8(screen_rect(), Color::black());
if (digital_) {
// Digital waveform: each value is an horizontal line
x = 0;
h--;
for (n = 0; n < length_; n++) {
y = *(data_start++) ? h : 0;
if (n) {
if (y != prev_y)
painter.draw_vline({(Coord)x, y_offset}, h, color_);
}
painter.draw_hline({(Coord)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 /= 2;
prev_y = y_offset + h - (*(data_start++) * y_scale);
for (n = 1; n < length_; 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;
}
}
// Cursors
if (show_cursors) {
for (n = 0; n < 2; n++) {
painter.draw_vline(
Point(std::min(screen_rect().size().width(), (int)cursors[n]), y_offset),
screen_rect().size().height(),
cursor_colors[n]);
}
}
}
/* VuMeter **************************************************************/
VuMeter::VuMeter(
Rect parent_rect,
uint32_t LEDs,
bool show_max)
: Widget{parent_rect},
LEDs_{LEDs},
show_max_{show_max} {
// set_focusable(false);
LED_height = std::max(1UL, parent_rect.size().height() / LEDs);
split = 256 / LEDs;
}
void VuMeter::set_value(const uint32_t new_value) {
if ((new_value != value_) && (new_value < 256)) {
value_ = new_value;
set_dirty();
}
}
void VuMeter::set_mark(const uint32_t new_mark) {
if ((new_mark != mark) && (new_mark < 256)) {
mark = new_mark;
set_dirty();
}
}
void VuMeter::paint(Painter& painter) {
uint32_t bar;
Color color;
bool lit = false;
uint32_t bar_level;
Point pos = screen_rect().location();
Dim width = screen_rect().size().width() - 4;
Dim height = screen_rect().size().height();
Dim bottom = pos.y() + height;
Coord marks_x = pos.x() + width;
if (value_ != prev_value) {
bar_level = LEDs_ - ((value_ + 1) / split);
// Draw LEDs
for (bar = 0; bar < LEDs_; bar++) {
if (bar >= bar_level)
lit = true;
if (bar == 0)
color = lit ? Color::red() : Color::dark_grey();
else if (bar == 1)
color = lit ? Color::orange() : Color::dark_grey();
else if ((bar == 2) || (bar == 3))
color = lit ? Color::yellow() : Color::dark_grey();
else
color = lit ? Color::green() : Color::dark_grey();
painter.fill_rectangle({pos.x(), pos.y() + (Coord)(bar * (LED_height + 1)), width, (Coord)LED_height}, color);
}
prev_value = value_;
}
// Update max level
if (show_max_) {
if (value_ > max) {
max = value_;
hold_timer = 30; // 0.5s @ 60Hz
} else {
if (hold_timer) {
hold_timer--;
} else {
if (max) max--; // Let it drop
}
}
// Draw max level
if (max != prev_max) {
painter.draw_hline({marks_x, bottom - (height * prev_max) / 256}, 8, Color::black());
painter.draw_hline({marks_x, bottom - (height * max) / 256}, 8, Color::white());
if (prev_max == mark)
prev_mark = 0; // Force mark refresh
prev_max = max;
}
}
// Draw mark (forced refresh)
if (mark) {
painter.draw_hline({marks_x, bottom - (height * prev_mark) / 256}, 8, Color::black());
painter.draw_hline({marks_x, bottom - (height * mark) / 256}, 8, Color::grey());
prev_mark = mark;
}
}
} /* namespace ui */