portapack-mayhem/firmware/application/ui/ui_geomap.cpp

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/*
* Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc.
* Copyright (C) 2017 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_geomap.hpp"
#include "portapack.hpp"
#include <cstring>
#include <stdio.h>
using namespace portapack;
#include "string_format.hpp"
#include "complex.hpp"
#include "ui_styles.hpp"
#include "ui_font_fixed_5x8.hpp"
namespace ui {
GeoPos::GeoPos(
const Point pos,
const alt_unit altitude_unit,
const spd_unit speed_unit)
: altitude_unit_(altitude_unit), speed_unit_(speed_unit) {
set_parent_rect({pos, {30 * 8, 3 * 16}});
add_children({&labels_position,
&label_spd_position,
&field_altitude,
&field_speed,
&text_alt_unit,
&text_speed_unit,
&field_lat_degrees,
&field_lat_minutes,
&field_lat_seconds,
&text_lat_decimal,
&field_lon_degrees,
&field_lon_minutes,
&field_lon_seconds,
&text_lon_decimal});
// Defaults
set_altitude(0);
set_speed(0);
set_lat(0);
set_lon(0);
const auto changed_fn = [this](int32_t) {
// Convert degrees/minutes/seconds fields to decimal (floating point) lat/lon degree
float lat_value = lat();
float lon_value = lon();
text_lat_decimal.set(to_string_decimal(lat_value, 5));
text_lon_decimal.set(to_string_decimal(lon_value, 5));
if (on_change && report_change)
on_change(altitude(), lat_value, lon_value, speed());
};
field_altitude.on_change = changed_fn;
field_speed.on_change = changed_fn;
field_lat_degrees.on_change = changed_fn;
field_lat_minutes.on_change = changed_fn;
field_lat_seconds.on_change = changed_fn;
field_lon_degrees.on_change = changed_fn;
field_lon_minutes.on_change = changed_fn;
field_lon_seconds.on_change = changed_fn;
const auto wrapped_lat_seconds = [this](int32_t v) {
field_lat_minutes.on_encoder(v);
};
const auto wrapped_lat_minutes = [this](int32_t v) {
field_lat_degrees.on_encoder((field_lat_degrees.value() >= 0) ? v : -v);
};
const auto wrapped_lon_seconds = [this](int32_t v) {
field_lon_minutes.on_encoder(v);
};
const auto wrapped_lon_minutes = [this](int32_t v) {
field_lon_degrees.on_encoder((field_lon_degrees.value() >= 0) ? v : -v);
};
field_lat_seconds.on_wrap = wrapped_lat_seconds;
field_lat_minutes.on_wrap = wrapped_lat_minutes;
field_lon_seconds.on_wrap = wrapped_lon_seconds;
field_lon_minutes.on_wrap = wrapped_lon_minutes;
text_alt_unit.set(altitude_unit_ ? "m" : "ft");
if (speed_unit_ == KMPH) text_speed_unit.set("kmph");
if (speed_unit_ == MPH) text_speed_unit.set("mph");
if (speed_unit_ == HIDDEN) {
text_speed_unit.hidden(true);
label_spd_position.hidden(true);
field_speed.hidden(true);
}
}
void GeoPos::set_read_only(bool v) {
// only setting altitude to read-only (allow manual panning via lat/lon fields)
field_altitude.set_focusable(!v);
field_speed.set_focusable(!v);
}
// Stupid hack to avoid an event loop
void GeoPos::set_report_change(bool v) {
report_change = v;
}
void GeoPos::focus() {
if (field_altitude.focusable())
field_altitude.focus();
else
field_lat_degrees.focus();
}
void GeoPos::hide_altandspeed() {
// Color altitude grey to indicate it's not updated in manual panning mode
field_altitude.set_style(&Styles::grey);
field_speed.set_style(&Styles::grey);
}
void GeoPos::set_altitude(int32_t altitude) {
field_altitude.set_value(altitude);
}
void GeoPos::set_speed(int32_t speed) {
field_speed.set_value(speed);
}
void GeoPos::set_lat(float lat) {
field_lat_degrees.set_value(lat);
field_lat_minutes.set_value((uint32_t)abs(lat / (1.0 / 60)) % 60);
field_lat_seconds.set_value((uint32_t)abs(lat / (1.0 / 3600)) % 60);
}
void GeoPos::set_lon(float lon) {
field_lon_degrees.set_value(lon);
field_lon_minutes.set_value((uint32_t)abs(lon / (1.0 / 60)) % 60);
field_lon_seconds.set_value((uint32_t)abs(lon / (1.0 / 3600)) % 60);
}
float GeoPos::lat() {
if (field_lat_degrees.value() < 0) {
return -1 * (-1 * field_lat_degrees.value() + (field_lat_minutes.value() / 60.0) + (field_lat_seconds.value() / 3600.0));
} else {
return field_lat_degrees.value() + (field_lat_minutes.value() / 60.0) + (field_lat_seconds.value() / 3600.0);
}
};
float GeoPos::lon() {
if (field_lon_degrees.value() < 0) {
return -1 * (-1 * field_lon_degrees.value() + (field_lon_minutes.value() / 60.0) + (field_lon_seconds.value() / 3600.0));
} else {
return field_lon_degrees.value() + (field_lon_minutes.value() / 60.0) + (field_lon_seconds.value() / 3600.0);
}
};
int32_t GeoPos::altitude() {
return field_altitude.value();
};
int32_t GeoPos::speed() {
return field_speed.value();
};
GeoMap::GeoMap(
Rect parent_rect)
: Widget{parent_rect}, markerListLen(0) {
}
bool GeoMap::on_encoder(const EncoderEvent delta) {
// Valid map_zoom values are -2 to -MAX_MAP_ZOOM_OUT, and +1 to +MAX_MAP_ZOOM_IN (values of 0 and -1 are not permitted)
if (delta > 0) {
if (map_zoom < MAX_MAP_ZOOM_IN) {
if (map_zoom == -2) {
map_zoom = 1;
} else {
// zoom in faster after exceeding the map resolution limit
map_zoom += (map_zoom >= MAP_ZOOM_RESOLUTION_LIMIT) ? map_zoom : 1;
}
}
} else if (delta < 0) {
if (map_zoom > -MAX_MAP_ZOOM_OUT) {
if (map_zoom == 1) {
map_zoom = -2;
} else {
if (map_zoom > MAP_ZOOM_RESOLUTION_LIMIT)
map_zoom /= 2;
else
map_zoom--;
}
}
} else {
return false;
}
map_visible = map_opened && (map_zoom <= MAP_ZOOM_RESOLUTION_LIMIT);
zoom_pixel_offset = (map_visible && (map_zoom > 1)) ? (float)map_zoom / 2 : 0.0f;
// Trigger map redraw
markerListUpdated = true;
set_dirty();
return true;
}
void GeoMap::map_read_line(ui::Color* buffer, uint16_t pixels) {
if (map_zoom == 1) {
map_file.read(buffer, pixels << 1);
} else if (map_zoom > 1) {
map_file.read(buffer, (pixels / map_zoom) << 1);
// Zoom in: Expand each pixel to "map_zoom" number of pixels.
// Future TODO: Add dithering to smooth out the pixelation.
// As long as MOD(width,map_zoom)==0 then we don't need to check buffer overflow case when stretching last pixel;
// For 240 width, than means no check is needed for map_zoom values up to 6.
// (Rectangle height must also divide evenly into map_zoom or we get black lines at end of screen)
// Note that zooming in results in a map offset of (1/map_zoom) pixels to the right & downward directions (see zoom_pixel_offset).
for (int i = (geomap_rect_width / map_zoom) - 1; i >= 0; i--) {
for (int j = 0; j < map_zoom; j++) {
buffer[(i * map_zoom) + j] = buffer[i];
}
}
} else {
ui::Color* zoom_out_buffer = new ui::Color[(pixels * (-map_zoom))];
map_file.read(zoom_out_buffer, (pixels * (-map_zoom)) << 1);
// Zoom out: Collapse each group of "-map_zoom" pixels into one pixel.
// Future TODO: Average each group of pixels (in both X & Y directions if possible).
for (int i = 0; i < geomap_rect_width; i++) {
buffer[i] = zoom_out_buffer[i * (-map_zoom)];
}
delete zoom_out_buffer;
}
}
void GeoMap::draw_markers(Painter& painter) {
for (int i = 0; i < markerListLen; ++i) {
draw_marker_item(painter, markerList[i], Color::blue(), Color::blue(), Color::magenta());
}
}
void GeoMap::draw_marker_item(Painter& painter, GeoMarker& item, const Color color, const Color fontColor, const Color backColor) {
const auto r = screen_rect();
const ui::Point itemPoint = item_rect_pixel(item);
if ((itemPoint.x() >= 0) && (itemPoint.x() < r.width()) &&
(itemPoint.y() > 10) && (itemPoint.y() < r.height())) // Dont draw within symbol size of top
{
draw_marker(painter, {itemPoint.x(), itemPoint.y() + r.top()}, item.angle, item.tag, color, fontColor, backColor);
}
}
// Calculate screen position of item, adjusted for zoom factor.
ui::Point GeoMap::item_rect_pixel(GeoMarker& item) {
const auto r = screen_rect();
const auto geomap_rect_half_width = r.width() / 2;
const auto geomap_rect_half_height = r.height() / 2;
GeoPoint mapPoint = lat_lon_to_map_pixel(item.lat, item.lon);
float x = mapPoint.x - x_pos;
float y = mapPoint.y - y_pos;
if (map_zoom > 1) {
x = x * map_zoom + zoom_pixel_offset;
y = y * map_zoom + zoom_pixel_offset;
} else if (map_zoom < 0) {
x = x / (-map_zoom);
y = y / (-map_zoom);
}
x += geomap_rect_half_width;
y += geomap_rect_half_height;
return {(int16_t)x, (int16_t)y};
}
// Converts latitude/longitude to pixel coordinates in map file.
// (Note that when map_zoom==1, one pixel in map file corresponds to 1 pixel on screen)
GeoPoint GeoMap::lat_lon_to_map_pixel(float lat, float lon) {
// Using WGS 84/Pseudo-Mercator projection
float x = (map_width * (lon + 180) / 360);
// Latitude calculation based on https://stackoverflow.com/a/10401734/2278659
double lat_rad = sin(lat * pi / 180);
float y = (map_height - ((map_world_lon / 2 * log((1 + lat_rad) / (1 - lat_rad))) - map_offset));
return {x, y};
}
// Draw grid in place of map (when zoom-in level is too high).
void GeoMap::draw_map_grid() {
const auto r = screen_rect();
// Grid spacing is just based on zoom at the moment, and centered on screen.
// TODO: Maybe align with latitude/longitude seconds instead?
int grid_spacing = map_zoom * 2;
int x = (r.width() / 2) % grid_spacing;
int y = (r.height() / 2) % grid_spacing;
if (map_zoom <= MAP_ZOOM_RESOLUTION_LIMIT)
return;
display.fill_rectangle({{0, r.top()}, {r.width(), r.height()}}, Color::black());
for (uint16_t line = y; line < r.height(); line += grid_spacing) {
display.fill_rectangle({{0, r.top() + line}, {r.width(), 1}}, Color::darker_grey());
}
for (uint16_t column = x; column < r.width(); column += grid_spacing) {
display.fill_rectangle({{column, r.top()}, {1, r.height()}}, Color::darker_grey());
}
}
void GeoMap::paint(Painter& painter) {
const auto r = screen_rect();
std::array<ui::Color, geomap_rect_width> map_line_buffer;
int16_t zoom_seek_x, zoom_seek_y;
// Ony redraw map if it moved by at least 1 pixel
// or the markers list was updated
int x_diff = abs(x_pos - prev_x_pos) * ((map_zoom > 1) ? map_zoom : 1);
int y_diff = abs(y_pos - prev_y_pos) * ((map_zoom > 1) ? map_zoom : 1);
int min_diff = 1;
if (markerListUpdated || (x_diff >= min_diff) || (y_diff >= min_diff)) {
prev_x_pos = x_pos; // Note x_pos/y_pos pixel position in map file now correspond to screen rect CENTER pixel
prev_y_pos = y_pos;
// Adjust starting corner position of map per zoom setting;
// When zooming in the map should technically by shifted left & up by another map_zoom/2 pixels but
// the map_read_line() function doesn't handle that yet so we're adjusting markers instead (see zoom_pixel_offset).
if (map_zoom > 1) {
zoom_seek_x = x_pos - (float)r.width() / (2 * map_zoom);
zoom_seek_y = y_pos - (float)r.height() / (2 * map_zoom);
} else if (map_zoom < 0) {
zoom_seek_x = x_pos - (r.width() * (-map_zoom)) / 2;
zoom_seek_y = y_pos - (r.height() * (-map_zoom)) / 2;
} else {
zoom_seek_x = x_pos - (r.width() / 2);
zoom_seek_y = y_pos - (r.height() / 2);
}
if (map_visible) {
// Read from map file and display to zoomed scale
int duplicate_lines = (map_zoom < 0) ? 1 : map_zoom;
for (uint16_t line = 0; line < (r.height() / duplicate_lines); line++) {
uint16_t seek_line = zoom_seek_y + ((map_zoom >= 0) ? line : line * (-map_zoom));
map_file.seek(4 + ((zoom_seek_x + (map_width * seek_line)) << 1));
map_read_line(map_line_buffer.data(), r.width());
for (uint16_t j = 0; j < duplicate_lines; j++) {
display.draw_pixels({0, r.top() + (line * duplicate_lines) + j, r.width(), 1}, map_line_buffer);
}
}
} else {
// No map data or excessive zoom; just draw a grid
draw_map_grid();
}
// Draw crosshairs in center in manual panning mode
if (manual_panning_) {
display.fill_rectangle({r.center() - Point(16, 1) + Point(zoom_pixel_offset, zoom_pixel_offset), {32, 2}}, Color::red());
display.fill_rectangle({r.center() - Point(1, 16) + Point(zoom_pixel_offset, zoom_pixel_offset), {2, 32}}, Color::red());
}
// Draw the other markers
draw_markers(painter);
draw_scale(painter);
draw_mypos(painter);
markerListUpdated = false;
set_clean();
}
// Draw the marker in the center
if (!manual_panning_ && !hide_center_marker_) {
draw_marker(painter, r.center() + Point(zoom_pixel_offset, zoom_pixel_offset), angle_, tag_, Color::red(), Color::white(), Color::black());
}
}
bool GeoMap::on_keyboard(KeyboardEvent key) {
if (key == '+' || key == ' ') return on_encoder(1);
if (key == '-') return on_encoder(-1);
return false;
}
bool GeoMap::on_touch(const TouchEvent event) {
if ((event.type == TouchEvent::Type::Start) && (mode_ == PROMPT)) {
set_highlighted(true);
if (on_move) {
Point p = event.point - screen_rect().center();
on_move(p.x() / 2.0 * lon_ratio, p.y() / 2.0 * lat_ratio);
return true;
}
}
return false;
}
void GeoMap::move(const float lon, const float lat) {
const auto r = screen_rect();
lon_ = lon;
lat_ = lat;
// Calculate x_pos/y_pos in map file corresponding to CENTER pixel of screen rect
// (Note there is a 1:1 correspondence between map file pixels and screen pixels when map_zoom=1)
GeoPoint mapPoint = lat_lon_to_map_pixel(lat_, lon_);
x_pos = mapPoint.x;
y_pos = mapPoint.y;
// Cap position
if (x_pos > (map_width - r.width() / 2))
x_pos = map_width - r.width() / 2;
if (y_pos > (map_height + r.height() / 2))
y_pos = map_height - r.height() / 2;
// Scale calculation
float km_per_deg_lon = cos(lat * pi / 180) * 111.321; // 111.321 km/deg longitude at equator, and 0 km at poles
pixels_per_km = (r.width() / 2) / km_per_deg_lon;
}
bool GeoMap::init() {
auto result = map_file.open("ADSB/world_map.bin");
map_opened = !result.is_valid();
if (map_opened) {
map_file.read(&map_width, 2);
map_file.read(&map_height, 2);
} else {
map_width = 32768;
map_height = 32768;
}
map_visible = map_opened;
map_center_x = map_width >> 1;
map_center_y = map_height >> 1;
lon_ratio = 180.0 / map_center_x;
lat_ratio = -90.0 / map_center_y;
map_bottom = sin(-85.05 * pi / 180); // Map bitmap only goes from about -85 to 85 lat
map_world_lon = map_width / (2 * pi);
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map_offset = (map_world_lon / 2 * log((1 + map_bottom) / (1 - map_bottom)));
return map_opened;
}
void GeoMap::set_mode(GeoMapMode mode) {
mode_ = mode;
}
void GeoMap::set_manual_panning(bool v) {
manual_panning_ = v;
}
bool GeoMap::manual_panning() {
return manual_panning_;
}
void GeoMap::draw_scale(Painter& painter) {
uint32_t m = 800000;
uint32_t scale_width = (map_zoom > 0) ? m * map_zoom * pixels_per_km : m * pixels_per_km / (-map_zoom);
ui::Color scale_color = (map_visible) ? Color::black() : Color::white();
std::string km_string;
while (scale_width > screen_width * 1000 / 2) {
scale_width /= 2;
m /= 2;
}
scale_width /= 1000;
if (m < 1000) {
km_string = to_string_dec_uint(m) + "m";
} else {
uint32_t km = m / 1000;
m -= km * 1000;
if (m == 0) {
km_string = to_string_dec_uint(km) + " km";
} else {
km_string = to_string_dec_uint(km) + "." + to_string_dec_uint((m + 50) / 100, 1) + "km";
}
}
display.fill_rectangle({{screen_width - 5 - (uint16_t)scale_width, screen_height - 4}, {(uint16_t)scale_width, 2}}, scale_color);
display.fill_rectangle({{screen_width - 5, screen_height - 8}, {2, 6}}, scale_color);
display.fill_rectangle({{screen_width - 5 - (uint16_t)scale_width, screen_height - 8}, {2, 6}}, scale_color);
painter.draw_string({(uint16_t)(screen_width - 25 - scale_width - km_string.length() * 5 / 2), screen_height - 10}, ui::font::fixed_5x8, Color::black(), Color::white(), km_string);
}
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void GeoMap::draw_bearing(const Point origin, const uint16_t angle, uint32_t size, const Color color) {
Point arrow_a, arrow_b, arrow_c;
for (size_t thickness = 0; thickness < 3; thickness++) {
arrow_a = fast_polar_to_point((int)angle, size) + origin;
arrow_b = fast_polar_to_point((int)(angle + 180 - 35), size) + origin;
arrow_c = fast_polar_to_point((int)(angle + 180 + 35), size) + origin;
display.draw_line(arrow_a, arrow_b, color);
display.draw_line(arrow_b, arrow_c, color);
display.draw_line(arrow_c, arrow_a, color);
size--;
}
display.draw_pixel(origin, color); // 1 pixel indicating center pivot point of bearing symbol
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}
void GeoMap::draw_marker(Painter& painter, const ui::Point itemPoint, const uint16_t itemAngle, const std::string itemTag, const Color color, const Color fontColor, const Color backColor) {
const auto r = screen_rect();
int tagOffset = 10;
if (mode_ == PROMPT) {
// Cross
display.fill_rectangle({itemPoint - Point(16, 1), {32, 2}}, color);
display.fill_rectangle({itemPoint - Point(1, 16), {2, 32}}, color);
tagOffset = 16;
} else if (angle_ < 360) {
// if we have a valid angle draw bearing
draw_bearing(itemPoint, itemAngle, 10, color);
tagOffset = 10;
} else {
// draw a small cross
display.fill_rectangle({itemPoint - Point(8, 1), {16, 2}}, color);
display.fill_rectangle({itemPoint - Point(1, 8), {2, 16}}, color);
tagOffset = 8;
}
// center tag above point
if ((itemPoint.y() - r.top() >= 32) && (itemTag.find_first_not_of(' ') != itemTag.npos)) { // only draw tag if doesn't overlap top & not just spaces
painter.draw_string(itemPoint - Point(((int)itemTag.length() * 8 / 2), 14 + tagOffset),
style().font, fontColor, backColor, itemTag);
}
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}
void GeoMap::draw_mypos(Painter& painter) {
if ((my_pos.lat < INVALID_LAT_LON) && (my_pos.lon < INVALID_LAT_LON))
draw_marker_item(painter, my_pos, Color::yellow());
}
void GeoMap::clear_markers() {
markerListLen = 0;
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}
MapMarkerStored GeoMap::store_marker(GeoMarker& marker) {
const auto r = screen_rect();
MapMarkerStored ret;
// Check if it could be on screen
// (Shows more distant planes when zoomed out)
GeoPoint mapPoint = lat_lon_to_map_pixel(marker.lat, marker.lon);
int x_dist = abs((int)mapPoint.x - (int)x_pos);
int y_dist = abs((int)mapPoint.y - (int)y_pos);
int zoom_out = (map_zoom < 0) ? -map_zoom : 1;
if ((x_dist >= (zoom_out * r.width() / 2)) || (y_dist >= (zoom_out * r.height() / 2))) {
ret = MARKER_NOT_STORED;
} else if (markerListLen < NumMarkerListElements) {
markerList[markerListLen] = marker;
markerListLen++;
markerListUpdated = true;
ret = MARKER_STORED;
} else {
ret = MARKER_LIST_FULL;
}
return ret;
}
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void GeoMap::update_my_position(float lat, float lon, int32_t altitude) {
my_pos.lat = lat;
my_pos.lon = lon;
my_altitude = altitude;
markerListUpdated = true;
set_dirty();
}
void GeoMap::update_my_orientation(uint16_t angle, bool refresh) {
my_pos.angle = angle;
if (refresh) {
markerListUpdated = true;
set_dirty();
}
}
void GeoMapView::focus() {
geopos.focus();
if (!geomap.map_file_opened())
nav_.display_modal("No map", "No world_map.bin file in\n/ADSB/ directory", ABORT);
}
void GeoMapView::update_my_position(float lat, float lon, int32_t altitude) {
geomap.update_my_position(lat, lon, altitude);
}
void GeoMapView::update_my_orientation(uint16_t angle, bool refresh) {
geomap.update_my_orientation(angle, refresh);
}
void GeoMapView::update_position(float lat, float lon, uint16_t angle, int32_t altitude, int32_t speed) {
if (geomap.manual_panning()) {
geomap.set_dirty();
return;
}
lat_ = lat;
lon_ = lon;
altitude_ = altitude;
speed_ = speed;
// Stupid hack to avoid an event loop
geopos.set_report_change(false);
geopos.set_lat(lat_);
geopos.set_lon(lon_);
geopos.set_altitude(altitude_);
geopos.set_speed(speed_);
geopos.set_report_change(true);
geomap.set_angle(angle);
geomap.move(lon_, lat_);
geomap.set_dirty();
}
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void GeoMapView::update_tag(const std::string tag) {
geomap.set_tag(tag);
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}
void GeoMapView::setup() {
add_child(&geomap);
geopos.set_altitude(altitude_);
geopos.set_lat(lat_);
geopos.set_lon(lon_);
geopos.on_change = [this](int32_t altitude, float lat, float lon, int32_t speed) {
altitude_ = altitude;
lat_ = lat;
lon_ = lon;
speed_ = speed;
geopos.hide_altandspeed();
geomap.set_manual_panning(true);
geomap.move(lon_, lat_);
geomap.set_dirty();
};
geomap.on_move = [this](float move_x, float move_y) {
lon_ += move_x;
lat_ += move_y;
// Stupid hack to avoid an event loop
geopos.set_report_change(false);
geopos.set_lon(lon_);
geopos.set_lat(lat_);
geopos.set_report_change(true);
geomap.move(lon_, lat_);
geomap.set_dirty();
};
}
GeoMapView::~GeoMapView() {
if (on_close_)
on_close_();
}
// Display mode
GeoMapView::GeoMapView(
NavigationView& nav,
const std::string& tag,
int32_t altitude,
GeoPos::alt_unit altitude_unit,
GeoPos::spd_unit speed_unit,
float lat,
float lon,
uint16_t angle,
const std::function<void(void)> on_close)
: nav_(nav),
altitude_(altitude),
altitude_unit_(altitude_unit),
speed_unit_(speed_unit),
lat_(lat),
lon_(lon),
angle_(angle),
on_close_(on_close) {
mode_ = DISPLAY;
add_child(&geopos);
geomap.init();
setup();
geomap.set_mode(mode_);
geomap.set_tag(tag);
geomap.set_angle(angle);
geomap.move(lon_, lat_);
geomap.set_focusable(true);
geopos.set_read_only(true);
}
// Prompt mode
GeoMapView::GeoMapView(
NavigationView& nav,
int32_t altitude,
GeoPos::alt_unit altitude_unit,
GeoPos::spd_unit speed_unit,
float lat,
float lon,
const std::function<void(int32_t, float, float, int32_t)> on_done)
: nav_(nav),
altitude_(altitude),
altitude_unit_(altitude_unit),
speed_unit_(speed_unit),
lat_(lat),
lon_(lon) {
mode_ = PROMPT;
add_child(&geopos);
geomap.init();
setup();
add_child(&button_ok);
geomap.set_mode(mode_);
geomap.move(lon_, lat_);
geomap.set_focusable(true);
button_ok.on_select = [this, on_done, &nav](Button&) {
if (on_done)
on_done(altitude_, lat_, lon_, speed_);
nav.pop();
};
}
void GeoMapView::clear_markers() {
geomap.clear_markers();
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}
MapMarkerStored GeoMapView::store_marker(GeoMarker& marker) {
return geomap.store_marker(marker);
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}
} /* namespace ui */