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Working on metars, updating ui drawer

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This commit is contained in:
Ben Sherriff
2025-04-16 22:43:03 -04:00
parent 81335f1b48
commit 3aa8954626
9 changed files with 279 additions and 139 deletions
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16
README.md
View File

@@ -6,9 +6,12 @@
## Makefile
* `make` or `make help` to list all commands
* `make docker-up` to start all containers
* `make docker-refresh` to start the background services
* `make docker-clean` to stop and delete all containers, volumes, and networks related
to the application
**WARNING**: Running `make docker-clean` or `make docker-refresh` will wipe the database, redis, and minio data
## Setup
1. Override any environment variables in `.env.local`
@@ -20,7 +23,16 @@ to the application
* Running just `make cert` will generate `localhost` certificates
4. Run the application with `make up`
### Development Environment
Start background services with `make docker-refresh`
* Note: when `ENVIRONMENT` is not set to `production` (i.e., set to `development`),
the nginx container will function only as a reverse proxy - the UI must be run through `make run-ui`
Start the UI through `make run-ui` and the API through `make run-api`
### Production Environment
Start with `make docker-up`
The most likely to change environment variables are the following:
* `UI_PORT`
* `API_PORT`
@@ -71,3 +83,7 @@ The following resources were used to help decode METARS.
### Other data
- https://www.faa.gov/air_traffic/weather/asos
## Tests
`cargo test metars::model::tests::test_parse_time -- --exact --nocapture
`

2
api/src/account/routes.rs
View File

@@ -134,7 +134,7 @@ async fn validate_session(req: HttpRequest) -> HttpResponse {
let session_id = cookie.value().to_string();
let session = match Session::replace(&session_id, &ip_address).await {
Ok(session) => session,
Err(err) => {
Err(_) => {
log::error!(
"Invalid session validate attempt [Session: {}] [IP Address: {}]",
session_id,

12
api/src/db/mod.rs
View File

@@ -1,5 +1,7 @@
use crate::error::ApiResult;
use redis::{Client as RedisClient, aio::MultiplexedConnection as RedisConnection, RedisResult};
use redis::{
Client as RedisClient, aio::MultiplexedConnection as RedisConnection, RedisResult,
};
use s3::{Bucket, Region, creds::Credentials, BucketConfiguration, request::ResponseData};
use serde::{Deserialize, Serialize};
use std::sync::OnceLock;
@@ -129,10 +131,10 @@ fn redis() -> &'static RedisClient {
REDIS.get().unwrap()
}
pub fn redis_connection() -> RedisResult<redis::Connection> {
let conn = redis().get_connection()?;
Ok(conn)
}
// pub fn redis_connection() -> RedisResult<redis::Connection> {
// let conn = redis().get_connection()?;
// Ok(conn)
// }
pub async fn redis_async_connection() -> RedisResult<RedisConnection> {
let conn = redis().get_multiplexed_async_connection().await?;

145
api/src/metars/model.rs
View File

@@ -1,6 +1,6 @@
use crate::error::Error;
use crate::{error::ApiResult, db};
use chrono::{DateTime, Datelike, Utc};
use chrono::{DateTime, Datelike, NaiveDate, Utc};
use std::collections::HashSet;
use std::env;
use std::fmt::Display;
@@ -338,49 +338,7 @@ impl Metar {
// Date/Time
let observation_time = metar_parts[0];
metar_parts.remove(0);
if observation_time.len() != 7 {
return Err(Error::new(
500,
format!(
"Unable to parse observation time in {}: {}",
observation_time, metar_string
),
));
}
let observation_time_day = match observation_time[0..2].parse::<u32>() {
Ok(day) => day,
Err(err) => return Err(err.into()),
};
let observation_time_hour = match observation_time[2..4].parse::<u32>() {
Ok(hour) => hour,
Err(err) => return Err(err.into()),
};
let observation_time_minute = match observation_time[4..6].parse::<u32>() {
Ok(minute) => minute,
Err(err) => return Err(err.into()),
};
let current_time = Utc::now().naive_utc();
// Check if the observation time is from the previous month
let observation_time_month = if current_time.day() > observation_time_day {
current_time.month() - 1
} else {
current_time.month()
};
// Check if the observation time is from the previous year
let observation_time_year = if current_time.month() > observation_time_month {
current_time.year() - 1
} else {
current_time.year()
};
let observation_time = format!(
"{:04}-{:02}-{:02}T{:02}:{:02}:00Z",
observation_time_year,
observation_time_month,
observation_time_day,
observation_time_hour,
observation_time_minute
);
let observation_time = Self::parse_time(observation_time)?;
metar.observation_time = match chrono::DateTime::parse_from_rfc3339(&observation_time) {
Ok(datetime) => datetime.with_timezone(&Utc),
Err(err) => return Err(err.into()),
@@ -928,6 +886,49 @@ impl Metar {
Ok(metar)
}
fn parse_time(observation_time: &str) -> ApiResult<String> {
if observation_time.len() != 7 {
return Err(Error::new(
500,
format!("Unable to parse observation time in {}", observation_time),
));
}
let observation_day = match observation_time[0..2].parse::<u32>() {
Ok(day) => day,
Err(err) => return Err(err.into()),
};
let observation_hour = match observation_time[2..4].parse::<u32>() {
Ok(hour) => hour,
Err(err) => return Err(err.into()),
};
let observation_minute = match observation_time[4..6].parse::<u32>() {
Ok(minute) => minute,
Err(err) => return Err(err.into()),
};
let current_time = Utc::now().naive_utc();
let current_year = current_time.year();
let current_month = current_time.month();
let candidate_date = NaiveDate::from_ymd_opt(current_year, current_month, observation_day)
.ok_or_else(|| Error::new(500, format!("Invalid date with day {} for current month", observation_day)))?
.and_hms_opt(observation_hour, observation_minute, 0).unwrap();
let obs_datetime = if candidate_date > current_time {
// Subtract one month. (Handle year rollover carefully.)
let (month, year) = if current_month == 1 {
(12, current_year - 1)
} else {
(current_month - 1, current_year)
};
let adjusted_date = NaiveDate::from_ymd_opt(year, month, observation_day)
.ok_or_else(|| Error::new(500, format!("Invalid date with day {} for month {}", observation_day, month)))?;
adjusted_date.and_hms(observation_hour, observation_minute, 0)
} else {
candidate_date
};
Ok(obs_datetime.format("%Y-%m-%dT%H:%M:00Z").to_string())
}
async fn get_missing_metar_icaos(
db_metars: &Vec<Self>,
station_icaos: &Vec<String>,
@@ -961,7 +962,7 @@ impl Metar {
.collect::<Vec<String>>();
let mut metars: Vec<Metar> = vec![];
for icao_chunk in icao_chunks {
let url = format!("{}/metar?ids={}&order=id", base_url, icao_chunk);
let url = format!("{}/metar?ids={}&hours=0&order=id,-obs", base_url, icao_chunk);
let mut m = match client.get(url).send().await {
Ok(r) => {
// Check if the status code is 200
@@ -1049,7 +1050,6 @@ impl Metar {
let result: RedisResult<Option<bool>> = conn.get(icao).await;
match result {
Ok(Some(value)) => {
log::info!("{}: {}", icao, value);
if value {
updated_missing_icao_list.push(icao);
}
@@ -1105,6 +1105,7 @@ impl Metar {
}
pub async fn insert(&self) -> ApiResult<()> {
log::trace!("Inserting metar {} with observation time {}", self.icao, self.observation_time);
let metar: MetarRow = self.to_db()?;
metar.insert().await?;
Ok(())
@@ -1113,26 +1114,68 @@ impl Metar {
#[cfg(test)]
mod tests {
use chrono::NaiveDateTime;
use super::*;
#[test]
fn test_metar() {
fn test_parse_time() {
for day in 1..=31 {
for hour in 0..24 {
for minute in 0..60 {
// METAR form "DDHHMMZ"
let obs_time = format!("{:02}{:02}{:02}Z", day, hour, minute);
let result = Metar::parse_time(&obs_time);
match result {
Ok(datetime_str) => {
// "YYYY-MM-DDTHH:MM:00Z"
assert_eq!(
datetime_str.len(),
20,
"Unexpected length for input {} yielded {}",
obs_time,
datetime_str
);
// Remove the trailing 'Z' and parse
let trimmed = &datetime_str[..19];
NaiveDateTime::parse_from_str(trimmed, "%Y-%m-%dT%H:%M:%S")
.unwrap_or_else(|e| {
panic!(
"Parsing '{}' from input {} failed: {}",
trimmed, obs_time, e
)
});
}
Err(_err) => {}
}
}
}
}
}
#[tokio::test]
async fn test_metar() {
let mut metar_string = "METAR KABC 121755Z AUTO 21016G24KT 180V240 1SM R11/P6000FT -RA BR BKN015 OVC025 06/04 A2990
RMK AO2 PK WND 20032/25 WSHFT 1715 VIS 3/4V1 1/2 VIS 3/4 RWY11 RAB07 CIG 013V017 CIG 017 RWY11 PRESFR
SLP125 P0003 60009 T00640036 10066 21012 58033 TSNO $".to_string();
let metar = Metar::parse(&metar_string).unwrap();
// dbg!(&metar);
dbg!(&metar.observation_time);
metar_string = "KMIA 090053Z 33004KT 10SM FEW015 FEW024 SCT075 SCT250 25/22 A2990 RMK AO2 SLP126 T02500217 $".to_string();
let metar = Metar::parse(&metar_string).unwrap();
// dbg!(&metar);
dbg!(&metar.observation_time);
metar_string =
"KMRB 082253Z 30014G23KT 10SM CLR 05/M12 A3002 RMK AO2 PK WND 30028/2157 SLP168 T00501117"
.to_string();
let metar = Metar::parse(&metar_string).unwrap();
// dbg!(&metar);
dbg!(&metar.observation_time);
// metar_string = "KHEF 092356Z 13009KT 10SM CLR 08/M03 A3022 RMK AO2 SLP239 6//// T00831033 10133 20078 53002 PNO $".to_string();
metar_string = "KHEF 092356Z 13009KT 10SM CLR 08/M03 A3022 RMK AO2 SLP239 6//// T00831033 10133 20078 53002 PNO $".to_string();
let metar = Metar::parse(&metar_string).unwrap();
dbg!(&metar.observation_time);
metar_string = "KSLK 162351Z AUTO VRB03KT 1SM -SN BR FEW007 OVC014 00/M02 A2974 RMK AO2 SLP090 P0001 60004 T00001017 10000 21011 53026".to_string();
let metar = Metar::parse(&metar_string).unwrap();
dbg!(&metar.observation_time);
}
}

5
bruno/Metars/Find Metars.bru
View File

@@ -5,12 +5,11 @@ meta {
}
get {
url: {{API_URL}}/metars?icaos=KJYO,KOKV,KMRB,KHEF,KIAD&force=true
url: {{API_URL}}/metars?icaos=KHEF,KJYO
body: none
auth: none
}
params:query {
icaos: KJYO,KOKV,KMRB,KHEF,KIAD
force: true
icaos: KHEF,KJYO
}

54
ui/src/App.tsx
View File

@@ -25,9 +25,17 @@ L.Icon.Default.mergeOptions({
shadowUrl: markerShadow
});
const openStreetMapUrl = 'https://tile.openstreetmap.org/{z}/{x}/{y}.png';
const lightLayerUrl = 'https://{s}.basemaps.cartocdn.com/light_all/{z}/{x}/{y}.png';
const darkLayerUrl = 'https://{s}.basemaps.cartocdn.com/dark_all/{z}/{x}/{y}.png';
export interface LayerInfo {
url: string;
name: string;
markerOutline: string;
}
const layerMap: LayerInfo[] = [
{ url: 'https://tile.openstreetmap.org/{z}/{x}/{y}.png', name: 'Open Street Map', markerOutline: 'black' },
{ url: 'https://{s}.basemaps.cartocdn.com/light_all/{z}/{x}/{y}.png', name: 'Carto Light', markerOutline: 'black' },
{ url: 'https://{s}.basemaps.cartocdn.com/dark_all/{z}/{x}/{y}.png', name: 'Carto Dark', markerOutline: 'white'},
]
// const dark1Url = 'https://maps.rainviewer.com/data/v3/5/10/11.pbf';
// const dark2Url = 'https://basemaps.arcgis.com/arcgis/rest/services/World_Basemap_v2/VectorTileServer/tile/2/0/3.pbf';
const defaultZoom = 6;
@@ -38,7 +46,10 @@ function App() {
const [rainViewerUrl, setRainViewerUrl] = useState<string | null>(null);
const initialRadarValue = Cookies.get('showRadar') === 'true';
const [showRadar, setShowRadar] = useState<boolean>(initialRadarValue);
const [baseLayer, setBaseLayer] = useState<string>(Cookies.get('selectedBaseLayer') || 'Open Street Map');
const initialShowNoMetarValue = Cookies.get('showNoMetar') === 'true';
const [showNoMetar, setShowNoMetar] = useState<boolean>(initialShowNoMetarValue);
const [selectedLayerIndex, setSelectedLayerIndex] = useState<string>(Cookies.get('selectedLayer') || '0');
const [selectedLayer, setSelectedLayer] = useState<LayerInfo>(layerMap[Number(selectedLayerIndex)]);
useEffect(() => {
if (showRadar) {
@@ -56,11 +67,21 @@ function App() {
});
}
function toggleShowNoMetar() {
setShowNoMetar((prev) => {
const newValue = !prev;
Cookies.set('showNoMetar', newValue.toString(), { expires: 7 });
return newValue;
});
}
function BaseLayerChangeHandler() {
useMapEvents({
baselayerchange: (e) => {
setBaseLayer(e.name);
Cookies.set('selectedBaseLayer', e.name, { expires: 7 });
const index = layerMap.findIndex(layer => layer.name === e.name);
setSelectedLayerIndex(`${index}`);
Cookies.set('selectedLayer', `${index}`, { expires: 7 });
setSelectedLayer(layerMap[index]);
}
});
return null;
@@ -86,21 +107,24 @@ function App() {
zoomControl={false}
>
<LayersControl>
<LayersControl.BaseLayer checked={baseLayer === 'Open Street Map'} name={'Open Street Map'}>
<TileLayer url={openStreetMapUrl} />
</LayersControl.BaseLayer>
<LayersControl.BaseLayer checked={baseLayer === 'Carto Light'} name={'Carto Light'}>
<TileLayer url={lightLayerUrl} />
</LayersControl.BaseLayer>
<LayersControl.BaseLayer checked={baseLayer === 'Carto Dark'} name={'Carto Dark'}>
<TileLayer url={darkLayerUrl} />
{layerMap.map((layer, index) => (
<LayersControl.BaseLayer key={index} checked={selectedLayerIndex === `${index}`} name={layer.name}>
<TileLayer url={layer.url} />
</LayersControl.BaseLayer>
))}
</LayersControl>
{rainViewerUrl && showRadar && <TileLayer url={rainViewerUrl} opacity={0.5} zIndex={10} />}
<ZoomControl position={'bottomright'} />
<AirportLayer setAirport={setAirport} />
<AirportLayer setAirport={setAirport} selectedLayer={selectedLayer} showNoMetar={showNoMetar} />
<BaseLayerChangeHandler />
</MapContainer>
<UnstyledButton
onClick={toggleShowNoMetar}
style={{ bottom: '120px' }}
className={`map-button ${showNoMetar ? 'active' : ''}`}
>
U
</UnstyledButton>
<UnstyledButton
onClick={toggleRadar}
style={{ bottom: '80px' }}

94
ui/src/components/AirportDrawer.tsx
View File

@@ -1,8 +1,9 @@
import { Box, Divider, Drawer, Group, Text } from '@mantine/core';
import { Box, Drawer, Group, Tabs, TabsList, Text, Tooltip } from '@mantine/core';
import { Airport, AirportCategory } from '@lib/airport.types.ts';
import { getMarkerColor, Metar } from '@lib/metar.types.ts';
import { useEffect, useState } from 'react';
import { getMetars } from '@lib/metar.ts';
import { useMediaQuery } from '@mantine/hooks';
export default function AirportDrawer({
airport,
@@ -12,15 +13,27 @@ export default function AirportDrawer({
setAirport: (airport: Airport | null) => void;
}) {
const [metar, setMetar] = useState<Metar | undefined>(undefined);
const isMobile = useMediaQuery('(max-width: 768px)');
useEffect(() => {
if (airport != null) {
if (!airport) return;
function updateMetar() {
if (!airport) return;
console.log(airport.icao);
getMetars({ icaos: [airport.icao] }).then((m) => {
if (m.length > 0) {
setMetar(m[0]);
} else {
setMetar(undefined);
}
});
}
updateMetar();
const interval = setInterval(updateMetar, 60000);
return () => clearInterval(interval);
}, [airport]);
if (!airport) {
@@ -35,47 +48,58 @@ export default function AirportDrawer({
onClose={() => setAirport(null)}
title={airport.name}
withinPortal
zIndex={10000}
styles={{ root: { width: 0, height: 0 } }}
zIndex={1000}
styles={{ root: { padding: 0, margin: 0, width: 0, height: 0 } }}
padding='md'
size='md'
size={isMobile ? '100%' : 'md'}
position='left'
withOverlay={false}
closeOnClickOutside={false}
>
<Box mb='lg'>
{metar && metar.flight_category && (
<Group justify='space-between' mb='md'>
<Group
justify='space-between'
mb='md'
style={{
backgroundColor: '#272f38',
borderTop: '1px solid #1a242f',
borderBottom: '1px solid #1a242f',
padding: '10px'
}}
>
<Text style={{ color: metarColor }}>{metar.flight_category}</Text>
<Text size='sm'>{metar.observation_time ? new Date(metar.observation_time).toLocaleString() : 'N/A'}</Text>
<Tooltip zIndex={1001} label={new Date(metar.observation_time).toLocaleString()}>
<TimeSince date={metar.observation_time} />
</Tooltip>
</Group>
)}
<Group>
<div>ICAO: {airport.icao}</div>
<div>Category: {airportCategoryToText(airport.category)}</div>
<div>
Country / Region: {airport.iso_country}, {airport.iso_region}
</div>
<div>Municipality: {airport.municipality || 'N/A'}</div>
<div>Local Code: {airport.local || 'N/A'}</div>
<div>Elevation: {airport.elevation_ft}</div>
<div>
Coordinates: {airport.latitude.toFixed(4)}, {airport.longitude.toFixed(4)}
</div>
<div>Control Tower: {airport.has_tower ? 'Yes' : 'No'}</div>
<div>Beacon: {airport.has_beacon ? 'Yes' : 'No'}</div>
{metar && metar.flight_category && (
<>
<Divider my='sm' />
<div>Flight Category: {metar.flight_category}</div>
</>
<Tabs variant={'outline'} defaultValue={'info'}>
<TabsList grow>
<Tabs.Tab value={'info'}>Info</Tabs.Tab>
<Tabs.Tab value={'weather'}>Weather</Tabs.Tab>
</TabsList>
<Tabs.Panel value={'info'}><AirportInfo airport={airport}/></Tabs.Panel>
{airport.latest_metar && (
<Tabs.Panel value={'weather'}><WeatherInfo metar={airport.latest_metar} /></Tabs.Panel>
)}
</Group>
</Tabs>
</Box>
</Drawer>
);
}
function AirportInfo({ airport }: { airport: Airport }) {
return (<div>
<Text>ICAO: {airport.icao}</Text>
<Text>Category: {airportCategoryToText(airport.category)}</Text>
</div>);
}
function WeatherInfo({ metar }: { metar: Metar }) {
return <>{metar.raw_text}</>
}
function airportCategoryToText(category: AirportCategory): string {
switch (category) {
case AirportCategory.SMALL:
@@ -96,3 +120,19 @@ function airportCategoryToText(category: AirportCategory): string {
return 'Unknown';
}
}
function TimeSince({ date }: { date: string }) {
const inputDate = new Date(date);
// @ts-expect-error doing arithmetic with dates
const seconds = Math.floor((new Date() - inputDate) / 1000);
if (seconds < 60) {
const content = seconds + (seconds === 1 ? " second ago" : " seconds ago");
return <Text>{content}</Text>;
} else {
const minutes = Math.floor(seconds / 60);
const content = minutes + (minutes === 1 ? " minute ago" : " minutes ago");
// If more than 60 minutes have passed, set the text color to yellow
return <Text style={{ color: minutes >= 60 ? '#fca903' : undefined }}>{content}</Text>;
}
}

75
ui/src/components/AirportLayer.tsx
View File

@@ -4,13 +4,22 @@ import { useMapEvents } from 'react-leaflet';
import { getAirports } from '@lib/airport.ts';
import AirportMarker from '@components/AirportMarker.tsx';
import { LeafletEvent } from 'leaflet';
import { LayerInfo } from '@/App.tsx';
interface Bounds {
northEast: { lat: number; lon: number };
southWest: { lat: number; lon: number };
}
export default function AirportLayer({ setAirport }: { setAirport: (airport: Airport) => void }) {
export default function AirportLayer({
setAirport,
showNoMetar,
selectedLayer
}: {
setAirport: (airport: Airport) => void;
showNoMetar: boolean;
selectedLayer: LayerInfo;
}) {
const [airports, setAirports] = useState<Airport[]>([]);
function loadAirports(event: LeafletEvent) {
@@ -52,40 +61,44 @@ export default function AirportLayer({ setAirport }: { setAirport: (airport: Air
}
}, [map]);
const categoryOrder: { [key in AirportCategory]?: number } = {
[AirportCategory.LARGE]: 3,
[AirportCategory.MEDIUM]: 2,
[AirportCategory.SMALL]: 1,
[AirportCategory.HELIPORT]: 0
};
// const categoryOrder: { [key in AirportCategory]?: number } = {
// [AirportCategory.LARGE]: 3,
// [AirportCategory.MEDIUM]: 2,
// [AirportCategory.SMALL]: 1,
// [AirportCategory.HELIPORT]: 0
// };
const sortedAirports = airports.slice().sort((a, b) => {
// Compare by airport category first.
const categoryA = categoryOrder[a.category] ?? 4;
const categoryB = categoryOrder[b.category] ?? 4;
if (categoryA !== categoryB) {
return categoryA - categoryB;
}
// Then compare by flight category if available.
// Assuming that latest_metar.flight_category is a string and "UNKN" needs to come last.
const fcA = a.latest_metar?.flight_category ?? 'UNKN';
const fcB = b.latest_metar?.flight_category ?? 'UNKN';
if (fcA === 'UNKN' && fcB !== 'UNKN') return 1;
if (fcB === 'UNKN' && fcA !== 'UNKN') return -1;
// If both flight categories are not "UNKN", do a simple alphabetical comparison.
// (You may wish to customize this logic based on the actual flight category values.)
if (fcA < fcB) return -1;
if (fcA > fcB) return 1;
return 0;
});
// const sortedAirports = airports.slice().sort((a, b) => {
// // Compare by airport category first.
// const categoryA = categoryOrder[a.category] ?? 4;
// const categoryB = categoryOrder[b.category] ?? 4;
// if (categoryA !== categoryB) {
// return categoryA - categoryB;
// }
//
// // Then compare by flight category if available.
// // Assuming that latest_metar.flight_category is a string and "UNKN" needs to come last.
// const fcA = a.latest_metar?.flight_category ?? 'UNKN';
// const fcB = b.latest_metar?.flight_category ?? 'UNKN';
//
// if (fcA === 'UNKN' && fcB !== 'UNKN') return 1;
// if (fcB === 'UNKN' && fcA !== 'UNKN') return -1;
//
// // If both flight categories are not "UNKN", do a simple alphabetical comparison.
// // (You may wish to customize this logic based on the actual flight category values.)
// if (fcA < fcB) return -1;
// if (fcA > fcB) return 1;
// return 0;
// });
return (
<>
{sortedAirports.map((airport, index) => (
<AirportMarker key={index} airport={airport} index={index} setAirport={setAirport} />
{airports.map((airport, index) => (
<div key={index}>
{(showNoMetar || airport.latest_metar != undefined) && (
<AirportMarker airport={airport} index={index} setAirport={setAirport} selectedLayer={selectedLayer} />
)}
</div>
))}
</>
);

13
ui/src/components/AirportMarker.tsx
View File

@@ -3,17 +3,20 @@ import { Marker, Popup } from 'react-leaflet';
import L from 'leaflet';
import { useRef } from 'react';
import { getMarkerColor } from '@lib/metar.types.ts';
import { LayerInfo } from '@/App.tsx';
export default function AirportMarker({
index,
airport,
setAirport
setAirport,
selectedLayer,
}: {
index: number;
airport: Airport;
setAirport: (airport: Airport) => void;
selectedLayer: LayerInfo;
}) {
const icon = createCustomIcon(airport);
const icon = createCustomIcon(airport, selectedLayer);
const markerRef = useRef<L.Marker>(null);
return (
@@ -35,7 +38,7 @@ export default function AirportMarker({
);
}
function createCustomIcon(airport: Airport): L.DivIcon {
function createCustomIcon(airport: Airport, selectedLayer: LayerInfo): L.DivIcon {
if (airport.category === AirportCategory.HELIPORT) {
return L.divIcon({
html: `
@@ -44,7 +47,7 @@ function createCustomIcon(airport: Airport): L.DivIcon {
height: 14px;
border-radius: 50%;
border: 2px solid black;
background-color: white;
background-color: ${selectedLayer.markerOutline};
display: flex;
align-items: center;
justify-content: center;
@@ -83,7 +86,7 @@ function createCustomIcon(airport: Airport): L.DivIcon {
width: 18px;
height: 18px;
border-radius: 50%;
border: 2px solid #fff;
border: 2px solid ${selectedLayer.markerOutline};
z-index: {info[1]}">
</div>
`,