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feat: added broken map for supporting multiple tracks (will likely get removed) and added colorless rendering for tracks in point cloud
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steev 2025-01-13 00:49:08 +01:00
parent 8a59bbbea7
commit df1795c0bd
11 changed files with 147263 additions and 175 deletions
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47
app.py
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@ -53,6 +53,18 @@ def getTrack():
if ("start" in request.args and "end" in request.args) or ("id" in request.args):
if "start" in request.args and "end" in request.args:
if "asMap" in request.args:
# get tracks by filter
start = request.args["start"]
end = request.args["end"]
# Die GeoJSON-Daten aus der Datenbank abrufen
geojson_data = gpxHandler.getTracksInTimeWithGeoData(start, end)
app.logger.debug(f"returned track {geojson_data}")
# Die GeoJSON-Daten als JSON zurückgeben
return jsonify(geojson_data)
# get tracks by filter
start = request.args["start"]
end = request.args["end"]
@ -78,12 +90,36 @@ def getTrack():
return f"error {e}", 500
else:
try:
tracks = gpxHandler.getTracks()
if len(tracks) > 0:
# gets all tracks as list
return gpxHandler.getTracks()
return tracks, 200
else:
return [], 200
except Exception as e:
app.logger.debug(f"fetching all tracks failed with error {e}")
return f"error {e}", 500
@app.route("/track/meta", methods=['GET'])
@cross_origin()
def getTrackMeta():
app.logger.debug(f"found arguments {request.args}")
if "id" in request.args:
# get track by id
trackID = int(request.args["id"])
try:
app.logger.debug(f"Request args: {request.args}")
app.logger.debug(f"track id {trackID}")
track = gpxHandler.getTrackMeta(trackID)
app.logger.debug(f"returned track {track}")
return jsonify(track), 200
except Exception as e:
app.logger.debug(f"fetching track failed with error {e}")
return f"error {e}", 500
@app.route("/driver", methods=['GET', 'POST'])
@cross_origin()
@ -103,6 +139,7 @@ def handleDriverRoute():
try:
drivers = driverHandler.getDrivers()
if len(drivers) > 0:
return drivers, 200
except Exception as e:
app.logger.debug(f"getting drivers failed with error {e}")
@ -163,11 +200,17 @@ def handleVehicleRoute():
if "name" not in data:
return "missing name", 400
licenseplate = ""
if "licensePlate" not in data:
licenseplate = "N/A"
else:
licenseplate = data["licensePlate"]
name = data["name"]
# handle creating vehicle
try:
vehicle = vehicleHandler.createVehicle(name)
vehicle = vehicleHandler.createVehicle(name, licenseplate)
return jsonify({"id": vehicle.id, "name": vehicle.name}), 200
except Exception as e:

8
compose.yaml
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@ -17,10 +17,10 @@ services:
POSTGRES_USER: example
POSTGRES_PASSWORD: example
POSTGRES_DB: geotrack
web:
build: .
ports:
- "8000:5000"
# web:
# build: .
# ports:
# - "8000:5000"
adminer:
image: adminer
restart: always

34
modules/geoObjects.py
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@ -6,7 +6,6 @@ from sqlalchemy.exc import OperationalError
Base = declarative_base()
# TODO: build license plate into car api construct and rebuild api to fit new data
# Funktion zur Herstellung einer Verbindung zur Datenbank
def db_connect():
try:
@ -30,20 +29,23 @@ def create_table(engine):
except Exception as e:
print(f"Fehler bei der Tabellenerstellung: {e}")
# Track-Tabelle
class Track(Base):
__tablename__ = 'track'
id = Column(Integer, primary_key=True, autoincrement=True)
trackName = Column(String(200), nullable=True)
vehicle_id = Column(Integer, ForeignKey('vehicle.id'), nullable=False, default=1)
driver_id = Column(Integer, ForeignKey('driver.id'), nullable=False, default=1)
vehicle_id = Column(Integer, ForeignKey('vehicle.id'), nullable=False)
driver_id = Column(Integer, ForeignKey('driver.id'), nullable=False)
date = Column(Date, nullable=True)
distance = Column(Float, nullable=False, default=0)
speed = Column(Float, nullable=False, default=0)
distance = Column(Float, nullable=False, default=0.0)
speed = Column(Float, nullable=False, default=0.0)
driver = relationship("Driver", backref="vehicle_tracks") # 'vehicle_tracks' als backref
vehicle = relationship("Vehicle", backref="driver_tracks") # 'driver_tracks' als backref
waypoints = relationship('Waypoint', backref='track', lazy=True)
# Beziehungen
driver = relationship("Driver", back_populates="tracks", foreign_keys=[driver_id])
vehicle = relationship("Vehicle", back_populates="tracks", foreign_keys=[vehicle_id])
waypoints = relationship('Waypoint', back_populates='track', lazy=True)
# Waypoint-Tabelle
class Waypoint(Base):
__tablename__ = 'waypoint'
id = Column(Integer, primary_key=True, autoincrement=True)
@ -54,16 +56,24 @@ class Waypoint(Base):
time = Column(DateTime, nullable=True)
track_id = Column(Integer, ForeignKey('track.id'), nullable=False)
# Beziehung zu Track
track = relationship("Track", back_populates="waypoints")
# Driver-Tabelle
class Driver(Base):
__tablename__ = 'driver'
id = Column(Integer, primary_key=True)
name = Column(String, nullable=False)
tracks = relationship("Track", back_populates="driver") # Beziehung von Track -> Driver
# Beziehung zu Tracks
tracks = relationship("Track", back_populates="driver", overlaps="vehicle_tracks")
# Vehicle-Tabelle
class Vehicle(Base):
__tablename__ = 'vehicle'
id = Column(Integer, primary_key=True)
name = Column(String, nullable=False)
tracks = relationship("Track", back_populates="vehicle") # Beziehung von Track -> Vehicle
licenseplate = Column(String, nullable=True)
# Beziehung zu Tracks
tracks = relationship("Track", back_populates="vehicle", overlaps="driver_tracks")

68
modules/gpxInterpreter.py
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@ -2,7 +2,7 @@ import datetime
import gpxpy
import gpxpy.gpx
from sqlalchemy.orm import Session
from geojson import Feature, LineString
from geojson import Feature, LineString, FeatureCollection
from geopy.distance import geodesic
from errors.NotFoundException import NotFoundError
@ -92,6 +92,31 @@ class GPXHandler:
feature = Feature(geometry=LineString(coordinates))
return feature
# handles getting all infos of a track from the database
def getTrackMeta(self, trackID):
track = self.__dbSession.query(Track).filter_by(id=trackID).first()
if not track:
raise NotFoundError(f"track with id {trackID} not found", errors=[])
trackObject = {
"id": track.id,
"name": track.trackName,
"driver": {
"id": track.driver.id,
"name": track.driver.name
} if track.driver else None,
"vehicle": {
"id": track.vehicle.id,
"name": track.vehicle.name,
"licenseplate": track.vehicle.licenseplate
} if track.vehicle else None,
"distance": track.distance,
"time": track.date,
}
return trackObject
# grabs only the tracks from the database and returns them as json object
def getTracks(self):
tracks = self.__dbSession.query(Track).all()
@ -100,23 +125,39 @@ class GPXHandler:
{
"id": track.id,
"name": track.trackName,
# "driver": {
# "id": track.driver.id,
# "name": track.driver.name
# } if track.driver else None,
# "vehicle": {
# "id": track.vehicle.id,
# "name": track.vehicle.name
# } if track.vehicle else None,
# "distance": track.distance,
# "startTime": track.start.isoformat() if track.start else None,
# "endTime": track.end.isoformat() if track.end else None,
"time": track.date,
}
for track in tracks # iterates all tracks and appends them to the list
]
return track_list
def getTracksInTimeWithGeoData(self, start, end):
# Alle Tracks in der Zeitspanne abfragen
tracks = self.__dbSession.query(Track).filter(Track.date.between(start, end)).all()
# Eine Liste von GeoJSON-Features für alle Tracks
features = []
# Für jedes Track-Objekt die Waypoints abfragen und die GeoJSON-Daten generieren
for track in tracks:
# Waypoints für das Track laden
waypoints = track.waypoints # track.waypoints ist bereits korrekt verknüpft
# Waypoints in GeoJSON-kompatible Koordinaten umwandeln
coordinates = [(wp.lon, wp.lat) for wp in waypoints]
# LineString Feature für das Track erstellen
feature = Feature(geometry=LineString(coordinates))
features.append(feature)
# Ein FeatureCollection erstellen, das alle Track-Features enthält
feature_collection = FeatureCollection(features)
# GeoJSON zurückgeben, das von Leaflet verarbeitet werden kann
return feature_collection
def getTracksInTime(self, start, end):
tracks = self.__dbSession.query(Track).filter(Track.date.between(start, end)).all()
@ -134,8 +175,7 @@ class GPXHandler:
"name": track.vehicle.name
} if track.vehicle else None,
"distance": track.distance,
"startTime": track.start.isoformat() if track.start else None,
"end_time": track.end.isoformat() if track.end else None,
"time": track.date,
}
for track in tracks # iterates all tracks and appends them to the list
]

7
modules/vehicleHandler.py
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@ -10,11 +10,11 @@ class VehicleHandler:
pass
# handles creating a vehicle and storing it in the database
def createVehicle(self, name:str) -> Vehicle:
def createVehicle(self, name:str, licenseplate:str) -> Vehicle:
if not name:
raise ValueError("name is empty")
vehicle = Vehicle(name=name)
vehicle = Vehicle(name=name, licenseplate=licenseplate)
self.dbSession.add(vehicle)
self.dbSession.commit()
@ -34,7 +34,8 @@ class VehicleHandler:
driverList = [
{
"id": vehicle.id,
"name": vehicle.name
"name": vehicle.name,
"licensePlate": vehicle.licenseplate
}
# iterates all drivers and appends them to the list
for vehicle in vehicles

146593
uploads/AA_WITAA333_001.gpx Normal file
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File diff suppressed because it is too large Load Diff

77
web/src/components/map.vue
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@ -1,19 +1,35 @@
<script lang="ts">
import { defineComponent, onMounted, PropType, ref, watch } from 'vue';
import { defineComponent, onMounted, PropType, Ref, ref, watch } from 'vue';
import "leaflet/dist/leaflet.css";
import L from "leaflet";
type Track = {
id:number
driver:string
vehicle:{
name: string
licenseplate: string
}
distance:number
}
export default defineComponent({
name: 'Map',
props: {
geoJsonData: {
type: Object as PropType<any>,
required: true
}
},
multiple: {
type: Boolean,
required: true,
},
},
setup(props) {
const mapDiv = ref<HTMLElement | null>(null); // ref to map container element
const mapInstance = ref<any>(null); // reference for the Leaflet map
const track:Ref<Track> = ref({id: 1, driver: "N/A", vehicle: {name: "N/A", licenseplate: "N/A"}, distance: 0.0})
const initializeMap = () => {
if (mapDiv.value) {
@ -32,6 +48,33 @@ export default defineComponent({
initializeMap();
});
const getTrackMeta = async (id:number) => {
const headers: Headers = new Headers()
headers.set('Content-Type', 'application/json')
headers.set('Accept', 'application/json')
const request: RequestInfo = new Request(`http://localhost:5000/track/meta?id=${id}`, {
method: "GET",
headers: headers
})
var response = await fetch(request)
// make sure the request was successfull
if (response.ok) {
var jsonBody = await response.json()
track.value = {
id: jsonBody["id"],
driver: jsonBody["driver"]["name"],
vehicle: {
name: jsonBody["vehicle"]["name"],
licenseplate: jsonBody["vehicle"]["licenseplate"] ?? "N/A"
},
distance: jsonBody["distance"]
}
}
}
// Beobachte geoJsonData und füge sie der Karte hinzu, wenn sie sich ändert
watch(() => props.geoJsonData, (newData) => {
if (newData) {
@ -39,6 +82,9 @@ export default defineComponent({
// Stelle sicher, dass die Karte initialisiert wurde
if (mapInstance.value) {
getTrackMeta(1)
console.log(mapInstance.value)
const geoJsonLayer = L.geoJSON(newData).addTo(mapInstance.value);
const bounds = geoJsonLayer.getBounds();
@ -50,7 +96,8 @@ export default defineComponent({
});
return {
mapDiv, // Gebe mapDiv zurück, damit es im Template verwendet wird
mapDiv,
track
};
},
});
@ -68,16 +115,18 @@ export default defineComponent({
<th>track name</th>
<th>driver</th>
<th>vehicle</th>
<th>distance Color</th>
<th>License Plate</th>
<th>distance</th>
</tr>
</thead>
<tbody>
<!-- row 1 -->
<tr class="bg-base-200">
<th>1</th>
<td>Cy Ganderton</td>
<td>Quality Control Specialist</td>
<td>Blue</td>
<th>{{ track.id }}</th>
<td>{{ track.driver }}</td>
<td>{{ track.vehicle.name }}</td>
<td>{{ track.vehicle.licenseplate }}</td>
<td>{{ Math.round((track.distance / 1000)*100)/100}}KM</td>
</tr>
</tbody>
</table>
@ -85,16 +134,14 @@ export default defineComponent({
</template>
<style scoped>
/* Verhindert, dass die Karte über den Bildschirm hinausgeht */
#mapDiv {
width: 100vw; /* Volle Breite des Viewports */
height: 70vh; /* Volle Höhe des Viewports */
margin: 0; /* Keine Margen */
padding: 0; /* Keine Auffüllung */
overflow: hidden; /* Verhindert ungewolltes Überlaufen */
width: 100vw;
height: 70vh;
margin: 0;
padding: 0;
overflow: hidden;
}
/* Optional: Globale Styles für den Body und html, um das Layout zu normalisieren */
html, body {
margin: 0;
padding: 0;

141
web/src/components/mapMultiple.vue Normal file
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@ -0,0 +1,141 @@
<script lang="ts">
import { defineComponent, onMounted, PropType, Ref, ref, watch } from 'vue';
import "leaflet/dist/leaflet.css";
import L from "leaflet";
type Track = {
id: number;
driver: string;
vehicle: {
name: string;
licenseplate: string;
};
distance: number;
};
export default defineComponent({
name: 'MapMultiple',
props: {
geoJsonData: {
type: Object as PropType<any>,
required: true
},
},
setup(props) {
const mapDiv = ref<HTMLElement | null>(null); // ref to map container element
const mapInstance = ref<any>(null); // reference for the Leaflet map
const tileLayer = ref<any>(null); // reference for the tile layer
const geoJsonLayer = ref<any>(null); // reference for the geoJSON layer
const tracks: Ref<Track[]> = ref([]);
const initializeMap = () => {
if (mapDiv.value) {
mapInstance.value = L.map(mapDiv.value, {
center: [51.4819, 7.2162], // Beispielkoordinaten
zoom: 13,
});
// Hinzufügen von OpenStreetMap-Kacheln und speichern des Layers in einer Variable
tileLayer.value = L.tileLayer('https://tile.openstreetmap.org/{z}/{x}/{y}.png', {}).addTo(mapInstance.value);
}
};
const clearGeoJsonLayer = () => {
// Entferne nur den GeoJSON Layer, nicht den Tile Layer
if (geoJsonLayer.value) {
mapInstance.value.removeLayer(geoJsonLayer.value);
}
};
onMounted(() => {
console.log(props.geoJsonData)
initializeMap();
});
const getTrackMeta = async (id: number) => {
const headers: Headers = new Headers();
headers.set('Content-Type', 'application/json');
headers.set('Accept', 'application/json');
const request: RequestInfo = new Request(`http://localhost:5000/track/meta?id=${id}`, {
method: "GET",
headers: headers
});
var response = await fetch(request);
// make sure the request was successful
if (response.ok) {
var jsonBody = await response.json();
tracks.value.push({
id: jsonBody["id"],
driver: jsonBody["driver"]["name"],
vehicle: {
name: jsonBody["vehicle"]["name"],
licenseplate: jsonBody["vehicle"]["licenseplate"] ?? "N/A"
},
distance: jsonBody["distance"]
});
}
};
// Beobachte geoJsonData und füge sie der Karte hinzu, wenn sie sich ändert
watch(
() => props.geoJsonData,
(newData) => {
if (newData && newData.features && newData.features.length > 0) {
console.log("Neue GeoJSON-Daten erhalten:", newData);
// Stelle sicher, dass die Karte initialisiert wurde
if (mapInstance.value) {
// Leere nur den GeoJSON Layer, nicht die Tiles
clearGeoJsonLayer();
// Iteriere über alle Tracks und lade deren Meta-Daten
tracks.value = []; // Leere das Array der Tracks, da wir die Daten neu laden
newData.features.forEach((feature: any) => {
getTrackMeta(feature.properties.track_id); // Track-Meta-Daten abrufen
geoJsonLayer.value = L.geoJSON(feature).addTo(mapInstance.value);
});
// Passende Zoom-Bereich für alle Tracks
const bounds = geoJsonLayer.value.getBounds();
mapInstance.value.fitBounds(bounds);
} else {
console.error("Die Karte oder GeoJSON-Daten sind nicht verfügbar.");
}
} else {
console.error("Keine gültigen GeoJSON-Daten gefunden.");
}
},
{ immediate: true }
);
return {
mapDiv,
tracks
};
},
});
</script>
<template>
<!-- Das ref-Attribut gibt den Container für die Karte an -->
<div ref="mapDiv" style="width: 70vw; height: 75vh; overflow: hidden;"></div>
</template>
<style scoped>
#mapDiv {
width: 100vw;
height: 70vh;
margin: 0;
padding: 0;
overflow: hidden;
}
html, body {
margin: 0;
padding: 0;
height: 100%;
width: 100%;
}
</style>

284
web/src/components/pointcloud.vue
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@ -1,79 +1,189 @@
<script lang="ts">
import { defineComponent, SetupContext, ref, onMounted, Ref } from "vue";
import { defineComponent, SetupContext, ref, onMounted, Ref, watch } from "vue";
import * as THREE from "three";
import { OrbitControls } from "three/examples/jsm/controls/OrbitControls";
import { useRouter } from "vue-router";
type driver = {
name: string
id: number
}
type Route = {
name: string;
id: number;
time: Date;
driver: {id:number, name:string}
};
export default defineComponent({
name: "ClickablePointCloud",
emits: ["close"],
setup(_, { emit }: SetupContext) {
emits: ['close', 'response'],
name: 'settings',
props: {
routes: {
type: Array as () => Route[],
default: () => [], // Standard: leeres Array
required: true,
},
},
setup(props, { emit }: SetupContext) {
console.log(props)
if (!props.routes || props.routes.length <= 0) alert("no points to show");
const canvasRef: Ref<HTMLCanvasElement | null> = ref(null);
const tooltipRef: Ref<HTMLDivElement | null> = ref(null);
const tooltipText = ref("");
const router = useRouter();
const legend = ref<Record<string, string>>({});
const driverColors = ref<Record<string, string>>({});
var drivers:driver[] = [];
const points:Route[] = props.routes;
const close = () => {
emit("close");
};
// handles sending webrequests to the backend
const getDrivers = async () => {
const headers: Headers = new Headers()
headers.set('Content-Type', 'application/json')
headers.set('Accept', 'application/json')
const request: RequestInfo = new Request("http://localhost:5000/driver", {
method: "GET",
headers: headers
})
var response = await fetch(request)
// make sure the request was successfull
if (response.ok) {
var jsonBody = await response.json()
// convert vehicles from json response to processable data
for (let i = 0; i < jsonBody.length; i++) {
let driver = jsonBody[i]
drivers.push({ id: driver["id"], name: driver["name"] })
const color = new THREE.Color(`hsl(${(i * 360) / drivers.length}, 70%, 50%)`);
driverColors.value[driver["id"]] = color.getStyle();
console.log(color.getStyle())
legend.value[driver["id"]] = driver["name"];
}
} else {
console.log(await response.text())
}
}
// assigns a driver to a point based on the points driver id
const assignDriverToPoint = (points:Route[]) => {
return points.reduce((acc, point) => {
const driverId = point.driver.id;
console.log(`driverid: ${driverId}`)
acc[driverId] = acc[driverId] || [];
acc[driverId].push(point);
return acc;
}, {} as Record<number, Route[]>);
}
// runs only when component has fully mounted
onMounted(() => {
getDrivers();
if (!canvasRef.value) return;
// Szene, Kamera und Renderer einrichten
console.log(`routes: ${props.routes}`)
const scene = new THREE.Scene();
const camera = new THREE.PerspectiveCamera(
75,
window.innerWidth / window.innerHeight,
0.1,
1000
);
const renderer = new THREE.WebGLRenderer({
canvas: canvasRef.value,
antialias: true,
});
const camera = new THREE.PerspectiveCamera( 75, window.innerWidth / window.innerHeight, 0.1, 1000 );
const renderer = new THREE.WebGLRenderer({ canvas: canvasRef.value, antialias: true, });
renderer.setSize(window.innerWidth, window.innerHeight);
// OrbitControls aktivieren
const controls = new OrbitControls(camera, renderer.domElement);
// Raycaster und Maus
const raycaster = new THREE.Raycaster();
const mouse = new THREE.Vector2();
// Beispiel-Daten (Punkte)
const points: Route[] = Array.from({ length: 100 }, (_, i) => ({
name: `Route ${i + 1}`,
id: i + 1,
time: new Date(Date.now() - i * 1000 * 60),
}));
const groupedPoints = assignDriverToPoint(points)
// Punktwolke erstellen
const geometry = new THREE.BufferGeometry();
const vertices = new Float32Array(
points.flatMap((_, i) => [
(Math.random() - 0.5) * 20,
(Math.random() - 0.5) * 20,
(Math.random() - 0.5) * 20,
])
);
geometry.setAttribute("position", new THREE.BufferAttribute(vertices, 3));
const vertices: number[] = [];
const colors: number[] = [];
const totalPoints = points.length;
const offsetXStep = 2; // Wir setzen den Abstand pro Gruppe
let offsetX = 0;
// Berechnungen für den Mittelpunkt der Punktwolke
let sumX = 0, sumY = 0, sumZ = 0;
const getColorForDriver = (driverId: number) => {
const color = driverColors.value[driverId];
if (!color) {
console.error(`No color found for driver ID ${driverId}`);
return "#FFFFFF"; // Rückfallfarbe, wenn keine Farbe gefunden wurde
}
return color;
};
// complicated math things
Object.entries(groupedPoints).forEach(([driverIdStr, driverPoints], index) => {
const driverId = parseInt(driverIdStr, 10);
console.log("Driver Colors:", driverColors.value[driverIdStr]);
if (!driverColors.value[driverId]) {
console.error(`Missing color for Driver ID: ${driverId}`);
}
const color = new THREE.Color(driverColors.value[driverId]);
console.log(`Color for Driver ${driverId}:`, driverColors.value[driverId]);
// calculate offset base on driverid
offsetX += offsetXStep;
driverPoints.forEach(() => {
// calculate random position in the area of a driver
const x = offsetX + (Math.random() - 0.5) * 2;
const y = (Math.random() - 0.5) * 6;
const z = (Math.random() - 0.5) * 6;
// calculate center
sumX += x;
sumY += y;
sumZ += z;
vertices.push(x, y, z);
colors.push(color.r, color.g, color.b);
});
});
// Mittelpunkt der Punktwolke berechnen
const centerX = sumX / totalPoints;
const centerY = sumY / totalPoints;
const centerZ = sumZ / totalPoints;
// put cloud centered on the canvase
const offset = new THREE.Vector3(-centerX, -centerY, -centerZ);
for (let i = 0; i < vertices.length; i += 3) {
vertices[i] += offset.x;
vertices[i + 1] += offset.y;
vertices[i + 2] += offset.z;
}
geometry.setAttribute("position", new THREE.Float32BufferAttribute(vertices, 3));
geometry.setAttribute("color", new THREE.Float32BufferAttribute(colors, 3));
const material = new THREE.PointsMaterial({
color: 0x0077ff,
vertexColors: true,
size: 0.3,
});
const pointCloud = new THREE.Points(geometry, material);
scene.add(pointCloud);
// Kamera und Animation
// animate camera
camera.position.set(10, 10, 25);
controls.update();
@ -84,16 +194,14 @@ export default defineComponent({
}
animate();
// Mausbewegung (für Tooltip)
// handles mouse actions
const onMouseMove = (event: MouseEvent) => {
if (!canvasRef.value || !tooltipRef.value) return;
// Mausposition berechnen (normalisiert)
const rect = canvasRef.value.getBoundingClientRect();
mouse.x = ((event.clientX - rect.left) / rect.width) * 2 - 1;
mouse.y = -((event.clientY - rect.top) / rect.height) * 2 + 1;
// Raycasting
raycaster.setFromCamera(mouse, camera);
const intersects = raycaster.intersectObject(pointCloud);
@ -102,31 +210,31 @@ export default defineComponent({
const point = points[intersectIndex];
tooltipRef.value.style.display = "block";
tooltipRef.value.style.left = `${event.clientX}px`;
tooltipRef.value.style.top = `${event.clientY - 20}px`;
tooltipText.value = `${point.name} (${point.time.toLocaleString()})`;
// 3D-Koordinaten des Punktes holen
const positionArray = pointCloud.geometry.attributes.position.array;
const x = positionArray[intersectIndex * 3];
const y = positionArray[intersectIndex * 3 + 1];
const z = positionArray[intersectIndex * 3 + 2];
// 3D-Koordinaten in 2D Bildschirmkoordinaten umrechnen
const screenPosition = new THREE.Vector3(x, y, z);
screenPosition.project(camera);
// Umrechnung von NDC (Normalized Device Coordinates) zu Pixeln
const tooltipX = (screenPosition.x * 0.5 + 0.5) * window.innerWidth;
const tooltipY = (screenPosition.y * -0.5 + 0.5) * window.innerHeight;
tooltipRef.value.style.left = `${tooltipX + 10}px`; // 10px Abstand zum Punkt
tooltipRef.value.style.top = `${tooltipY + 10}px`; // 10px Abstand zum Punkt
tooltipText.value = `${point.driver.name}: ${point.name} (${point.time.toLocaleString()})`;
} else {
tooltipRef.value.style.display = "none";
}
};
// Punkt klicken
const onMouseClick = (event: MouseEvent) => {
if (!canvasRef.value) return;
// Raycasting
raycaster.setFromCamera(mouse, camera);
const intersects = raycaster.intersectObject(pointCloud);
if (intersects.length > 0) {
const intersectIndex = Math.floor(intersects[0].index || 0);
const point = points[intersectIndex];
router.push(`/routeViewer/${point.id}`);
}
};
canvasRef.value.addEventListener("mousemove", onMouseMove);
canvasRef.value.addEventListener("click", onMouseClick);
// Fenstergröße anpassen
window.addEventListener("resize", () => {
@ -134,24 +242,36 @@ export default defineComponent({
camera.aspect = window.innerWidth / window.innerHeight;
camera.updateProjectionMatrix();
});
});
})
return {
close,
canvasRef,
tooltipRef,
tooltipText,
legend,
driverColors,
};
},
});
</script>
<template>
<div class="pointcloud-container relative">
<canvas ref="canvasRef"></canvas>
<div ref="tooltipRef" class="tooltip hidden fixed z-50 px-2 py-1 bg-base-200 text-base-content rounded">
{{ tooltipText }}
</div>
<!-- Legende -->
<div class="legend absolute top-10 left-10 bg-base-200 p-4 rounded shadow-lg z-50">
<h3 class="font-bold mb-2">Fahrer Legende</h3>
<ul>
<li v-for="(driverName, driverId) in legend" :key="driverId" class="flex items-center mb-1">
<div class="w-4 h-4" :style="{ backgroundColor: driverColors[driverId] }"></div>
<span class="ml-2">{{ driverName }}</span>
</li>
</ul>
</div>
</div>
</template>
@ -168,10 +288,40 @@ canvas {
height: 100%;
}
.btn.close {
.tooltip {
display: none;
position: absolute;
top: 10px;
right: 10px;
z-index: 10;
z-index: 50;
padding: 2px 8px;
background-color: rgba(0, 0, 0, 0.7);
color: white;
border-radius: 4px;
pointer-events: none;
}
.legend {
width: auto;
max-width: 250px;
background-color: rgba(0, 0, 0, 0.7);
color: white;
padding: 10px;
border-radius: 8px;
font-size: 14px;
}
.legend ul {
padding: 0;
list-style-type: none;
}
.legend li {
display: flex;
align-items: center;
}
.legend .color-box {
width: 15px;
height: 15px;
margin-right: 10px;
}
</style>

86
web/src/views/route.vue
View File

@ -5,16 +5,18 @@ import VueDatePicker from '@vuepic/vue-datepicker';
import '@vuepic/vue-datepicker/dist/main.css'
import Map from '../components/map.vue';
import FileUpload from '../components/fileUpload.vue';
import MapMultiple from '../components/mapMultiple.vue';
type DriverType = {
id: number
name: string
}
type track = {
type Track = {
id: number
name: string
driver: DriverType
time: Date
}
type GeoJSONFeature = {
@ -42,10 +44,13 @@ export default defineComponent({
const showCloud: Ref<boolean> = ref(false);
const search: Ref<boolean> = ref(false);
const showUpload: Ref<boolean> = ref(false);
const tracks: Ref<track[]> = ref([])
const tracks: Ref<Track[]> = ref([])
const searchedTracks: Ref<Track[]> = ref([])
const startSearchDate = ref();
const endSearchDate = ref();
const mapData: Ref<GeoJSON | null> = ref(null);
const renderSearchOnMap: Ref<Boolean> = ref(false);
const multipleTracks:Ref<Boolean> = ref(false);
const loadTrack = async (id: number) => {
showMap.value = true;
@ -95,7 +100,7 @@ export default defineComponent({
// convert vehicles from json response to processable data
for (let i = 0; i < jsonBody.length; i++) {
tracks.value.push({ id: jsonBody[i]["id"], name: jsonBody[i]["name"], driver: { name: "", id: 0 } })
tracks.value.push({ id: jsonBody[i]["id"], name: jsonBody[i]["name"], driver: { name: "", id: 0 }, time: new Date(Date.now()) })
}
} else {
console.log(await response.text())
@ -108,10 +113,39 @@ export default defineComponent({
headers.set('Accept', 'application/json')
showMap.value = false;
showCloud.value = true;
search.value = false;
showUpload.value = false;
if (startSearchDate.value == null || endSearchDate.value == null) {
alert("please give all required infos")
showCloud.value = false;
search.value = true;
return;
}
if (renderSearchOnMap.value) {
const request: RequestInfo = new Request("http://localhost:5000/track?start=" + startSearchDate.value + "&end=" + endSearchDate.value + "&asMap=true", {
method: "GET",
headers: headers
})
try {
var response = await fetch(request);
if (response.ok) {
// Wenn die Antwort OK ist, die Daten verarbeiten
mapData.value = await response.json();
console.log("GeoJSON-Daten erfolgreich geladen", mapData.value);
showMap.value = true;
} else {
console.log(await response.text());
}
} catch (error) {
console.error("Fehler beim Laden der Track-Daten:", error);
}
showMap.value = true;
multipleTracks.value = true;
} else {
const request: RequestInfo = new Request("http://localhost:5000/track?start=" + startSearchDate.value + "&end=" + endSearchDate.value, {
method: "GET",
headers: headers
@ -125,19 +159,26 @@ export default defineComponent({
// convert vehicles from json response to processable data
for (let i = 0; i < jsonBody.length; i++) {
tracks.value.push({
id: jsonBody[i]["id"],
name: jsonBody[i]["name"],
let track = jsonBody[i]
console.log(`track: ${jsonBody[i]["name"]}`)
searchedTracks.value = [];
searchedTracks.value.push({
id: track["id"],
name: track["name"],
driver: {
name: jsonBody[i]["driver"]["name"],
id: jsonBody[i]["driver"]["id"]
}
name: track["driver"]["name"],
id: track["driver"]["id"]
},
time: track["time"]
})
}
showCloud.value = true;
} else {
console.log(await response.text())
}
}
}
getTracks()
@ -148,11 +189,14 @@ export default defineComponent({
tracks,
loadTrack,
getTracks,
searchedTracks,
searchTracks,
startSearchDate,
endSearchDate,
renderSearchOnMap,
mapData,
showUpload
showUpload,
multipleTracks
};
},
});
@ -176,7 +220,7 @@ export default defineComponent({
</ul>
</div>
<div style="width: 70%; margin-left: 5%;">
<PointCloud style="border-radius: 10px;" v-if="showCloud && !search"></PointCloud>
<PointCloud :routes="searchedTracks" style="border-radius: 10px;" v-if="showCloud && !search"></PointCloud>
</div>
<div v-if="!showMap && !showCloud && search" style="margin-left: 20%; display:flex;">
<div>
@ -187,11 +231,18 @@ export default defineComponent({
end time
<input class="datepicker" type="date" id="birthday" name="birthday" v-model="endSearchDate">
</div>
<button v-on:click="searchTracks" class="btn btn-success" style="margin-left: 5%; height:60px; width:120px;">Search</button>
<div style="margin-left: 5%;">
show on map:
<input type="checkbox" class="toggle" v-model="renderSearchOnMap" />
</div>
<div v-if="showMap && !search && !showCloud">
<Map :geoJsonData="mapData"
style="width: 68vw; margin-left: 10%; border-radius: 10px; border: 1px solid #95a5a6;"></Map>
<button v-on:click="searchTracks" class="btn btn-success"
style="margin-left: 5%; height:60px; width:120px;">Search</button>
</div>
<div v-if="!multipleTracks && showMap && !search && !showCloud">
<Map :geoJsonData="mapData" style="width: 68vw; margin-left: 10%; border-radius: 10px; border: 1px solid #95a5a6;"></Map>
</div>
<div v-if="multipleTracks && showMap && !search && !showCloud">
<MapMultiple :geoJsonData="mapData" style="width: 68vw; margin-left: 10%; border-radius: 10px; border: 1px solid #95a5a6;"></MapMultiple>
</div>
</div>
</template>
@ -199,6 +250,7 @@ export default defineComponent({
<style scoped>
input.datePicker {
padding: 5px;
border-radius: 5px;;
border-radius: 5px;
;
}
</style>

21
web/src/views/vehicle.vue
View File

@ -4,6 +4,7 @@ import {defineComponent, Ref, ref, SetupContext} from 'vue';
type vehicle = {
id:number
name:string
licenseplate: string
}
export default defineComponent({
@ -11,7 +12,8 @@ export default defineComponent({
setup(_, { emit }: SetupContext) {
const vehicleName:Ref<string> = ref("")
const vehicleList:Ref<vehicle[]> = ref([{id:1,name:"Bike"}])
const licensePlate:Ref<string> = ref("")
const vehicleList:Ref<vehicle[]> = ref([])
// handles getting all existing drivers
const getVehicles = async () => {
@ -31,7 +33,13 @@ export default defineComponent({
// convert vehicles from json response to processable data
for(let i = 0; i < jsonBody.length; i++) {
vehicleList.value.push({id: jsonBody[i]["id"], name: jsonBody[i]["name"]})
let plate = "N/A"
let vehicle = jsonBody[i]
if (vehicle["licensePlate"] != undefined) {
plate = vehicle["licensePlate"];
}
vehicleList.value.push({id: vehicle["id"], name: vehicle["name"], licenseplate: plate})
}
} else {
console.log(await response.text())
@ -45,7 +53,7 @@ export default defineComponent({
headers.set('Content-Type', 'application/json')
headers.set('Accept', 'application/json')
const requestBody = JSON.stringify({ name: vehicleName.value });
const requestBody = JSON.stringify({ name: vehicleName.value, licensePlate: licensePlate.value });
const request: RequestInfo = new Request("http://localhost:5000/vehicle", {
method:"POST",
@ -57,7 +65,7 @@ export default defineComponent({
// make sure the request was successfull
if (response.ok){
var jsonBody = await response.json()
vehicleList.value.push({id: jsonBody["body"], name: vehicleName.value})
vehicleList.value.push({id: jsonBody["body"], name: vehicleName.value, licenseplate: "N/A"})
} else {
console.log(await response.text())
}
@ -67,6 +75,7 @@ export default defineComponent({
return {
createVehicle,
vehicleName,
licensePlate,
vehicleList
};
},
@ -89,12 +98,14 @@ export default defineComponent({
<tr>
<td></td>
<td><input type="text" placeholder="Vehicle Name" class="input input-bordered w-full max-w-xs" v-model="vehicleName"/></td>
<td><input type="text" placeholder="License Plate" class="input input-bordered w-full max-w-xs" v-model="licensePlate"/></td>
<td><a class="btn btn-success" v-on:click="createVehicle">Create Vehicle</a></td>
</tr>
<tr v-for="vehicle in vehicleList">
<th>{{ vehicle.id }}</th>
<td>{{ vehicle.name }}</td>
<td><a class="btn btn-warning">Open Editor</a></td>
<td>{{ vehicle.licenseplate }}</td>
<td></td>
</tr>
</tbody>
</table>