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Nodelist with Playa addresses for burningmesh (#7321)
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Browse Source 
* Move BRC address code to a .cpp file since it will be used from multiple places.

* Nodelist with addresses

* Burning Man icon for BRC page

* Draw last-seen time instead of compass

This is likely more important - don't want to wander to a device that is off.

* Add the bearing list back to the cycled pages on oled devices

* Add bearings screen into the carousel of rotated screens

* trunk fmt

* fix build errors caused by trunk fmt

* correct swapped screen positions for BRC vs bearings display

* don't show playa position if unknown
This commit is contained in:
tschundler 2025-07-21 06:35:44 -07:00 committed by GitHub
parent 77dd73fd23
commit 90385ab0cb
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GPG Key ID: B5690EEEBB952194
7 changed files with 285 additions and 150 deletions
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152
src/graphics/BRC.cpp Normal file
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@ -0,0 +1,152 @@
#include "BRC.h"
#include "GPSStatus.h"
#include "gps/GeoCoord.h"
#include "graphics/Screen.h"
using namespace meshtastic;
const int32_t BRC_LATI = (40.786958 * 1e7);
const int32_t BRC_LONI = (-119.202994 * 1e7);
const double BRC_LATF = 40.786958;
const double BRC_LONF = -119.202994;
const double BRC_NOON = 1.5;
const double RAD_TO_HOUR = (6.0 / 3.14159);
const double METER_TO_FEET = 3.28084;
const double FEET_TO_METER = 1.0 / METER_TO_FEET;
// Pre-calculated street data for performance
struct StreetInfo {
float center;
float width;
const char *name;
};
/*
# python code to generate the StreetInfo
esp_center = 2500
street_info = [
# name, width, preceeding block depth
('Esp', 40, 60), # block size is fake
('A', 30, 400),
('B', 30, 250),
('C', 30, 250),
('D', 30, 250),
('E', 40, 250),
('F', 30, 450), # E-F block is exra deep
('G', 30, 250),
('H', 30, 250),
('I', 30, 250),
('J', 30, 150),
('K', 50, 150),
]
street_center = esp_center - street_info[0][1] //2 - street_info[0][2]
last_center = esp_center
for (name, street_width, block_width) in street_info:
offset = (street_width + block_width) // 2
street_center += street_width //2 + block_width
dia = street_center * 2
dist = street_center - last_center
print(f"{{{street_center}, {offset}, \"{name}\"}},\t// +{dist}ft\tdia: {dia:,}ft")
last_center = street_center
street_center += street_width //2
street_center += 50 # extra buffer after the edge of k to include walk-in camping parking
print(f"{{{street_center}, 0, nullptr}},\t// +{street_center-last_center}ft")
*/
static const StreetInfo streets[] = {
{2500, 50, "Esp"}, // +0ft dia: 5,000ft
{2935, 215, "A"}, // +435ft dia: 5,870ft
{3215, 140, "B"}, // +280ft dia: 6,430ft
{3495, 140, "C"}, // +280ft dia: 6,990ft
{3775, 140, "D"}, // +280ft dia: 7,550ft
{4060, 145, "E"}, // +285ft dia: 8,120ft
{4545, 240, "F"}, // +485ft dia: 9,090ft
{4825, 140, "G"}, // +280ft dia: 9,650ft
{5105, 140, "H"}, // +280ft dia: 10,210ft
{5385, 140, "I"}, // +280ft dia: 10,770ft
{5565, 90, "J"}, // +180ft dia: 11,130ft
{5755, 100, "K"}, // +190ft dia: 11,510ft
{5830, 0, nullptr}, // +75ft
};
BRCAddress::BRCAddress(int32_t lat, int32_t lon)
{
bearing = GeoCoord::bearing(BRC_LATF, BRC_LONF, DegD(lat), DegD(lon)) * RAD_TO_HOUR;
bearing += 12.0 - BRC_NOON;
while (bearing > 12.0) {
bearing -= 12.0;
}
// In imperial units because that is how golden spike data is provided.
distance = GeoCoord::latLongToMeter(BRC_LATF, BRC_LONF, DegD(lat), DegD(lon)) * METER_TO_FEET;
};
int BRCAddress::radial(char *buf, size_t len)
{
uint8_t hour = (uint8_t)(bearing);
uint8_t minute = (uint8_t)((bearing - hour) * 60.0);
hour %= 12;
if (hour == 0) {
hour = 12;
}
return snprintf(buf, len, "%d:%02d", hour, minute);
};
int BRCAddress::annular(char *buf, size_t len, bool noUnit)
{
const char *unit = "m";
float unitMultiplier = FEET_TO_METER;
if (config.display.units == meshtastic_Config_DisplayConfig_DisplayUnits_IMPERIAL) {
unitMultiplier = 1.0;
unit = "ft";
}
if (noUnit)
unit = "";
if (bearing > 1.75 && bearing < 10.25) {
const char *street = nullptr;
float dist = 0;
// Find the appropriate street based on distance
for (const auto &s : streets) {
if (distance > s.center - s.width) {
street = s.name;
dist = distance - s.center;
} else {
break;
}
}
if (street) {
return snprintf(buf, len, "%s %d%s", street, int(dist * unitMultiplier), unit);
}
}
return snprintf(buf, len, "%d%s", int(distance * unitMultiplier), unit);
};
int BRCAddress::full(char *buf, size_t len)
{
auto l = radial(buf, len - 4);
buf += l;
*(buf++) = ' ';
*(buf++) = '&';
*(buf++) = ' ';
buf += annular(buf, len - l - 4, false);
buf[l] = 0; // always null terminated
return l;
};
int BRCAddress::compact(char *buf, size_t len)
{
auto l = radial(buf, len - 2);
buf += l;
*(buf++) = '&';
buf += annular(buf, len - l - 2, true);
buf[l] = 0; // always null terminated
return l;
};

146
src/graphics/BRC.h
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@ -1,147 +1,19 @@
#pragma once
#include "GPSStatus.h"
#include "gps/GeoCoord.h"
#include "graphics/Screen.h"
using namespace meshtastic;
const int32_t BRC_LATI = (40.786958 * 1e7);
const int32_t BRC_LONI = (-119.202994 * 1e7);
const double BRC_LATF = 40.786958;
const double BRC_LONF = -119.202994;
const double BRC_NOON = 1.5;
const double RAD_TO_HOUR = (6.0 / 3.14159);
const double METER_TO_FEET = 3.28084;
const double FEET_TO_METER = 1.0 / METER_TO_FEET;
// Pre-calculated street data for performance
struct StreetInfo {
float center;
float width;
const char *name;
};
/*
# python code to generate the StreetInfo
esp_center = 2500
street_info = [
# name, width, preceeding block depth
('Esp', 40, 60), # block size is fake
('A', 30, 400),
('B', 30, 250),
('C', 30, 250),
('D', 30, 250),
('E', 40, 250),
('F', 30, 450), # E-F block is exra deep
('G', 30, 250),
('H', 30, 250),
('I', 30, 250),
('J', 30, 150),
('K', 50, 150),
]
street_center = esp_center - street_info[0][1] //2 - street_info[0][2]
last_center = esp_center
for (name, street_width, block_width) in street_info:
offset = (street_width + block_width) // 2
street_center += street_width //2 + block_width
dia = street_center * 2
dist = street_center - last_center
print(f"{{{street_center}, {offset}, \"{name}\"}},\t// +{dist}ft\tdia: {dia:,}ft")
last_center = street_center
street_center += street_width //2
street_center += 50 # extra buffer after the edge of k to include walk-in camping parking
print(f"{{{street_center}, 0, nullptr}},\t// +{street_center-last_center}ft")
*/
static const StreetInfo streets[] = {
{2500, 50, "Esp"}, // +0ft dia: 5,000ft
{2935, 215, "A"}, // +435ft dia: 5,870ft
{3215, 140, "B"}, // +280ft dia: 6,430ft
{3495, 140, "C"}, // +280ft dia: 6,990ft
{3775, 140, "D"}, // +280ft dia: 7,550ft
{4060, 145, "E"}, // +285ft dia: 8,120ft
{4545, 240, "F"}, // +485ft dia: 9,090ft
{4825, 140, "G"}, // +280ft dia: 9,650ft
{5105, 140, "H"}, // +280ft dia: 10,210ft
{5385, 140, "I"}, // +280ft dia: 10,770ft
{5565, 90, "J"}, // +180ft dia: 11,130ft
{5755, 100, "K"}, // +190ft dia: 11,510ft
{5830, 0, nullptr}, // +75ft
};
// For size_t/int32_t types on some platforms.
#include <cstdint>
// For size_t
#include <cstddef>
class BRCAddress
{
public:
BRCAddress(int32_t lat, int32_t lon)
{
bearing = GeoCoord::bearing(BRC_LATF, BRC_LONF, DegD(lat), DegD(lon)) * RAD_TO_HOUR;
bearing += 12.0 - BRC_NOON;
while (bearing > 12.0) {
bearing -= 12.0;
}
BRCAddress(int32_t lat, int32_t lon);
// In imperial units because that is how golden spike data is provided.
distance = GeoCoord::latLongToMeter(BRC_LATF, BRC_LONF, DegD(lat), DegD(lon)) * METER_TO_FEET;
};
int radial(char *buf, size_t len)
{
uint8_t hour = (uint8_t)(bearing);
uint8_t minute = (uint8_t)((bearing - hour) * 60.0);
hour %= 12;
if (hour == 0) {
hour = 12;
}
return snprintf(buf, len, "%d:%02d", hour, minute);
};
int annular(char *buf, size_t len)
{
const char *unit = "m";
float unitMultiplier = FEET_TO_METER;
if (config.display.units == meshtastic_Config_DisplayConfig_DisplayUnits_IMPERIAL) {
unitMultiplier = 1.0;
unit = "ft";
}
if (bearing > 1.75 && bearing < 10.25) {
const char *street = nullptr;
float dist = 0;
// Find the appropriate street based on distance
for (const auto &s : streets) {
if (distance > s.center - s.width) {
street = s.name;
dist = distance - s.center;
} else {
break;
}
}
if (street) {
return snprintf(buf, len, "%s %d%s", street, int(dist * unitMultiplier), unit);
}
}
return snprintf(buf, len, "%d%s", int(distance * unitMultiplier), unit);
};
int full(char *buf, size_t len)
{
auto l = radial(buf, len - 4);
buf += l;
*(buf++) = ' ';
*(buf++) = '&';
*(buf++) = ' ';
buf += annular(buf, len - l - 4);
buf[l] = 0; // always null terminated
return l;
};
int radial(char *buf, size_t len);
int annular(char *buf, size_t len, bool noUnit);
int full(char *buf, size_t len);
int compact(char *buf, size_t len);
private:
float bearing;

15
src/graphics/Screen.cpp
View File

@ -905,7 +905,7 @@ void Screen::setFrames(FrameFocus focus)
// Show detailed node views only on E-Ink builds
#ifdef USE_EINK
fsi.positions.nodelist_lastheard = numframes;
fsi.positions.nodelist_bearings = numframes;
normalFrames[numframes++] = graphics::NodeListRenderer::drawLastHeardScreen;
indicatorIcons.push_back(icon_nodes);
@ -916,11 +916,15 @@ void Screen::setFrames(FrameFocus focus)
fsi.positions.nodelist_distance = numframes;
normalFrames[numframes++] = graphics::NodeListRenderer::drawDistanceScreen;
indicatorIcons.push_back(icon_distance);
#endif
#if HAS_GPS
fsi.positions.nodelist_bearings = numframes;
normalFrames[numframes++] = graphics::NodeListRenderer::drawNodeListWithCompasses;
indicatorIcons.push_back(icon_list);
#endif
#if HAS_GPS
fsi.positions.nodelist_brc = numframes;
normalFrames[numframes++] = graphics::NodeListRenderer::drawBRCList;
indicatorIcons.push_back(icon_bm);
fsi.positions.gps = numframes;
normalFrames[numframes++] = graphics::UIRenderer::drawCompassAndLocationScreen;
@ -1386,7 +1390,8 @@ int Screen::handleInputEvent(const InputEvent *event)
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_hopsignal ||
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_distance ||
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_hopsignal ||
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_bearings) {
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_bearings ||
this->ui->getUiState()->currentFrame == framesetInfo.positions.nodelist_brc) {
menuHandler::nodeListMenu();
} else if (this->ui->getUiState()->currentFrame == framesetInfo.positions.wifi) {
menuHandler::wifiBaseMenu();
@ -1447,4 +1452,4 @@ bool shouldWakeOnReceivedMessage()
return false;
}
return true;
}
}

1
src/graphics/Screen.h
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@ -662,6 +662,7 @@ class Screen : public concurrency::OSThread
uint8_t nodelist_hopsignal = 255;
uint8_t nodelist_distance = 255;
uint8_t nodelist_bearings = 255;
uint8_t nodelist_brc = 255;
uint8_t clock = 255;
uint8_t firstFavorite = 255;
uint8_t lastFavorite = 255;

104
src/graphics/draw/NodeListRenderer.cpp
View File

@ -6,6 +6,7 @@
#include "UIRenderer.h"
#include "gps/GeoCoord.h"
#include "gps/RTC.h" // for getTime() function
#include "graphics/BRC.h"
#include "graphics/ScreenFonts.h"
#include "graphics/SharedUIDisplay.h"
#include "graphics/images.h"
@ -87,6 +88,8 @@ const char *getCurrentModeTitle(int screenWidth)
#endif
case MODE_DISTANCE:
return "Distance";
case MODE_BEARING:
return "Bearing";
default:
return "Nodes";
}
@ -309,6 +312,9 @@ void drawEntryDynamic(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16
case MODE_DISTANCE:
drawNodeDistance(display, node, x, y, columnWidth);
break;
case MODE_BEARING:
drawEntryCompass(display, node, x, y, columnWidth);
break;
default:
break;
}
@ -335,6 +341,35 @@ void drawEntryCompass(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16
}
}
void drawEntryBRC(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16_t x, int16_t y, int columnWidth)
{
bool isLeftCol = (x < SCREEN_WIDTH / 2);
// Adjust max text width depending on column and screen width
int nameMaxWidth = columnWidth - (isHighResolution ? (isLeftCol ? 25 : 28) : (isLeftCol ? 20 : 22));
const char *nodeName = getSafeNodeName(node);
display->setTextAlignment(TEXT_ALIGN_LEFT);
display->setFont(FONT_SMALL);
auto xText = x + ((isHighResolution) ? 6 : 3);
display->drawString(xText, y, nodeName);
if (nodeDB->hasValidPosition(node)) {
char buf[14] = "";
BRCAddress(node->position.latitude_i, node->position.longitude_i).compact(buf, 14);
auto nameWidth = display->getStringWidth("WWWW") - 2; // Fixed width so they are aligned.
display->drawString(xText + nameWidth, y, buf);
}
if (node->is_favorite) {
if (isHighResolution) {
drawScaledXBitmap16x16(x, y + 6, smallbulletpoint_width, smallbulletpoint_height, smallbulletpoint, display);
} else {
display->drawXbm(x, y + 5, smallbulletpoint_width, smallbulletpoint_height, smallbulletpoint);
}
}
}
void drawCompassArrow(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16_t x, int16_t y, int columnWidth, float myHeading,
double userLat, double userLon)
{
@ -384,17 +419,46 @@ void drawCompassArrow(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16
*/
}
void drawLastSeenExtra(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16_t x, int16_t y, int columnWidth,
float /*myHeading*/, double /*userLat*/, double /*userLon*/)
{
char timeStr[10];
uint32_t seconds = sinceLastSeen(node);
if (seconds == 0 || seconds == UINT32_MAX) {
snprintf(timeStr, sizeof(timeStr), "?");
} else {
uint32_t minutes = seconds / 60, hours = minutes / 60, days = hours / 24;
snprintf(timeStr, sizeof(timeStr), (days > 99 ? "?" : "%d%c"),
(days ? days
: hours ? hours
: minutes),
(days ? 'd'
: hours ? 'h'
: 'm'));
}
bool isLeftCol = (x < SCREEN_WIDTH / 2);
int timeOffset = (isHighResolution) ? (isLeftCol ? 7 : 10) : (isLeftCol ? 3 : 7);
int rightEdge = x + columnWidth - timeOffset;
if (timeStr[strlen(timeStr) - 1] == 'm') // Fix the fact that our fonts don't line up well all the time
rightEdge -= 1;
// display->setTextAlignment(TEXT_ALIGN_RIGHT);
int textWidth = display->getStringWidth(timeStr);
display->drawString(rightEdge - textWidth, y, timeStr);
}
// =============================
// Main Screen Functions
// =============================
void drawNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y, const char *title,
EntryRenderer renderer, NodeExtrasRenderer extras, float heading, double lat, double lon)
EntryRenderer renderer, NodeExtrasRenderer extras, float heading, double lat, double lon,
int totalColumns)
{
const int COMMON_HEADER_HEIGHT = FONT_HEIGHT_SMALL - 1;
const int rowYOffset = FONT_HEIGHT_SMALL - 3;
int columnWidth = display->getWidth() / 2;
int columnWidth = display->getWidth() / totalColumns;
display->clear();
@ -408,7 +472,6 @@ void drawNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t
int totalRowsAvailable = (display->getHeight() - y) / rowYOffset;
int visibleNodeRows = totalRowsAvailable;
int totalColumns = 2;
int startIndex = scrollIndex * visibleNodeRows * totalColumns;
if (nodeDB->getMeshNodeByIndex(startIndex)->num == nodeDB->getNodeNum()) {
@ -446,7 +509,7 @@ void drawNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t
}
// Draw column separator
if (shownCount > 0) {
if (shownCount > 0 && totalColumns > 1) {
const int firstNodeY = y + 3;
drawColumnSeparator(display, x, firstNodeY, lastNodeY);
}
@ -482,7 +545,31 @@ void drawDynamicNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state,
// Render screen based on currentMode
const char *title = getCurrentModeTitle(display->getWidth());
drawNodeListScreen(display, state, x, y, title, drawEntryDynamic);
if (currentMode == MODE_BEARING) {
float heading = 0;
bool validHeading = false;
auto ourNode = nodeDB->getMeshNode(nodeDB->getNodeNum());
double lat = DegD(ourNode->position.latitude_i);
double lon = DegD(ourNode->position.longitude_i);
if (uiconfig.compass_mode != meshtastic_CompassMode_FREEZE_HEADING) {
if (screen->hasHeading()) {
heading = screen->getHeading(); // degrees
validHeading = true;
} else {
heading = screen->estimatedHeading(lat, lon);
validHeading = !isnan(heading);
}
if (!validHeading) {
lastRenderedMode = MODE_COUNT;
return;
}
}
drawNodeListScreen(display, state, x, y, title, drawEntryCompass, drawCompassArrow, heading, lat, lon);
} else {
drawNodeListScreen(display, state, x, y, title, drawEntryDynamic);
}
// Track the last mode to avoid reinitializing modeStartTime
lastRenderedMode = currentMode;
@ -539,6 +626,11 @@ void drawNodeListWithCompasses(OLEDDisplay *display, OLEDDisplayUiState *state,
drawNodeListScreen(display, state, x, y, "Bearings", drawEntryCompass, drawCompassArrow, heading, lat, lon);
}
void drawBRCList(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y)
{
drawNodeListScreen(display, state, x, y, "BRC", drawEntryBRC, drawLastSeenExtra, 0, 0, 0, 1);
}
/// Draw a series of fields in a column, wrapping to multiple columns if needed
void drawColumns(OLEDDisplay *display, int16_t x, int16_t y, const char **fields)
{
@ -564,4 +656,4 @@ void drawColumns(OLEDDisplay *display, int16_t x, int16_t y, const char **fields
} // namespace NodeListRenderer
} // namespace graphics
#endif
#endif

5
src/graphics/draw/NodeListRenderer.h
View File

@ -24,12 +24,12 @@ typedef void (*EntryRenderer)(OLEDDisplay *, meshtastic_NodeInfoLite *, int16_t,
typedef void (*NodeExtrasRenderer)(OLEDDisplay *, meshtastic_NodeInfoLite *, int16_t, int16_t, int, float, double, double);
// Node list mode enumeration
enum NodeListMode { MODE_LAST_HEARD = 0, MODE_HOP_SIGNAL = 1, MODE_DISTANCE = 2, MODE_COUNT = 3 };
enum NodeListMode { MODE_LAST_HEARD = 0, MODE_HOP_SIGNAL = 1, MODE_DISTANCE = 2, MODE_BEARING = 3, MODE_COUNT = 4 };
// Main node list screen function
void drawNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y, const char *title,
EntryRenderer renderer, NodeExtrasRenderer extras = nullptr, float heading = 0, double lat = 0,
double lon = 0);
double lon = 0, int totalColumns = 2);
// Entry renderers
void drawEntryLastHeard(OLEDDisplay *display, meshtastic_NodeInfoLite *node, int16_t x, int16_t y, int columnWidth);
@ -48,6 +48,7 @@ void drawHopSignalScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_
void drawDistanceScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y);
void drawDynamicNodeListScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y);
void drawNodeListWithCompasses(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y);
void drawBRCList(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y);
// Utility functions
const char *getCurrentModeTitle(int screenWidth);

12
src/graphics/images.h
View File

@ -156,6 +156,18 @@ const uint8_t icon_list[] PROGMEM = {
0x82 // Row 7: #.....#.
};
// ➤ The Man Icon (8x8)
const uint8_t icon_bm[] PROGMEM = {
0x42, // Row 0: .#....#.
0x3C, // Row 1: ..####..
0x3C, // Row 2: ..####..
0x18, // Row 3: ...##...
0x18, // Row 4: ...##...
0x24, // Row 5: ..#..#..
0x24, // Row 6: ..#..#..
0x42 // Row 7: .#....#.
};
// 📶 Signal Bars Icon (left to right, small to large with spacing)
const uint8_t icon_signal[] PROGMEM = {
0b00000000, // ░░░░░░░