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Sort passings, improve simulation 

* use DFS to find path when passings are missing
* give passings sorted by increasing time
This commit is contained in:
Mattéo Delabre 2020-07-27 21:01:21 +02:00
parent 5db750adca
commit fe08c42920
Signed by: matteo
GPG Key ID: AE3FBD02DC583ABB
4 changed files with 717 additions and 93 deletions
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4
src/tam/network.js
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@ -88,7 +88,8 @@ a “ref” tag`);
stop.lat stop.lat
], { ], {
name: stop.tags.name, name: stop.tags.name,
routes: [[lineRef, routeRef]] routes: [[lineRef, routeRef]],
successors: [],
}); });
} else { } else {
stops[stop.tags.ref].properties.routes.push([ stops[stop.tags.ref].properties.routes.push([
@ -223,6 +224,7 @@ different sequence of nodes in two or more lines.`);
routes: [[lineRef, routeRef]] routes: [[lineRef, routeRef]]
}); });
stops[begin].properties.successors.push(end);
segments[id].properties.length = ( segments[id].properties.length = (
1000 * turfLength(segments[id])); 1000 * turfLength(segments[id]));
} }

571
src/tam/network.json
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File diff suppressed because it is too large Load Diff

18
src/tam/realtime.js
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@ -13,8 +13,9 @@ let currentCourses = null;
* @property {string} id Unique identifier for this course. * @property {string} id Unique identifier for this course.
* @property {string} line Transport line number. * @property {string} line Transport line number.
* @property {string} finalStop Final stop to which the course is headed. * @property {string} finalStop Final stop to which the course is headed.
* @property {Object.<string,number>} nextPassings Next stations to which * @property {Array.<Array>} nextPassings Next stations to which
* the vehicle will stop, associated to the passing timestamp. * the vehicle will stop, associated to the passing timestamp, ordered by
* increasing passing timestamp.
*/ */
/** /**
@ -52,10 +53,10 @@ const fetch = async() => {
id, id,
line, line,
finalStop, finalStop,
nextPassings: { [stopId]: arrivalTime } nextPassings: [[stopId, arrivalTime]]
}; };
} else { } else {
courses[id].nextPassings[stopId] = arrivalTime; courses[id].nextPassings.push([stopId, arrivalTime]);
} }
} }
@ -66,7 +67,7 @@ const fetch = async() => {
if (!(course.line in network.lines)) { if (!(course.line in network.lines)) {
delete courses[courseId]; delete courses[courseId];
} else { } else {
for (const stopId of Object.keys(course.nextPassings)) { for (const [stopId,] of course.nextPassings) {
if (!(stopId in network.stops)) { if (!(stopId in network.stops)) {
delete courses[courseId]; delete courses[courseId];
break; break;
@ -75,6 +76,13 @@ const fetch = async() => {
} }
} }
// Order next passings by increasing passing time
for (const courseId of Object.keys(courses)) {
courses[courseId].nextPassings.sort(
([, time1], [, time2]) => time1 - time2
);
}
currentCourses = courses; currentCourses = courses;
} }

217
src/tam/simulation.js
View File

@ -5,14 +5,38 @@ const network = require("./network.json");
const server = "http://localhost:4321"; const server = "http://localhost:4321";
const stops = Object.keys(network.stops);
const findRoute = (from, to) => {
const queue = [[from, []]];
while (queue.length) {
const [head, path] = queue.shift();
for (const successor of network.stops[head].properties.successors) {
if (successor === to) {
return path.concat([head, successor]);
}
if (!path.includes(successor)) {
queue.push([successor, path.concat([head])]);
}
}
}
return null;
};
class Course { class Course {
constructor(data) { constructor(data) {
this.id = data.id; this.id = data.id;
this.passings = {}; this.prevPassings = [];
this.nextPassings = [];
this.state = null; this.state = null;
// Attributes for the `stopped` state // Attributes for the `stopped` state
this.currentStop = null; this.currentStop = null;
this.departureTime = 0;
// Attributes for the `moving` state // Attributes for the `moving` state
this.departureStop = null; this.departureStop = null;
@ -38,76 +62,118 @@ class Course {
updateData(data) { updateData(data) {
this.line = data.line; this.line = data.line;
this.finalStop = data.finalStop; this.finalStop = data.finalStop;
Object.assign(this.passings, data.nextPassings); this.nextPassings = data.nextPassings;
const now = Date.now(); const now = Date.now();
// Make sure were on the right `stopped`/`moving` state
if (this.state === null) { if (this.state === null) {
let previousStop = null; // Initialize the course on the first available segment
let departureTime = 0; const index = this.nextPassings.findIndex(
([, time]) => time >= now
);
let nextStop = null; if (index === -1) {
let arrivalTime = Infinity;
for (const [stopId, time] of Object.entries(this.passings)) {
if (time > now && time < arrivalTime) {
nextStop = stopId;
arrivalTime = time;
}
if (time < now && time > departureTime) {
previousStop = stopId;
departureTime = time;
}
}
if (nextStop === null) {
return false; return false;
} }
if (previousStop === null) { if (index === 0) {
// Teleport to the first known stop this.arriveToStop(this.nextPassings[index][0]);
this.arriveToStop(nextStop);
} else { } else {
this.arriveToStop(this.nextPassings[index - 1][0]);
// Teleport to the first known segment this.moveToStop(...this.nextPassings[index]);
this.arriveToStop(previousStop);
this.moveToStop(nextStop, arrivalTime);
} }
} else if (this.state === "moving") { } else if (this.state === "moving") {
if (this.passings[this.arrivalStop] <= now) { const index = this.nextPassings.findIndex(
// Should already be at the next stop ([stop, ]) => stop === this.arrivalStop
this.arriveToStop(this.arrivalStop); );
if (index === -1 || this.nextPassings[index][1] <= now) {
// Next stop is not announced or in the past,
// move towards it as fast as possible
this.arrivalTime = now;
} else { } else {
// On the right track, update the arrival time // On the right track, update the arrival time
this.arrivalTime = this.passings[this.arrivalStop]; this.arrivalTime = this.nextPassings[index][1];
} }
} else { } else {
// (this.state === 'stopped') // (this.state === 'stopped')
// Try moving to the next stop // Try moving to the next stop
let nextStop = null; const index = this.nextPassings.findIndex(
let arrivalTime = Infinity; ([stop, ]) => stop === this.currentStop
);
for (const [stopId, time] of Object.entries(this.passings)) { if (index !== -1) {
if (time > now && time < arrivalTime) { if (this.nextPassings[index][1] <= now) {
nextStop = stopId; // Current stop is still announced but in the past
arrivalTime = time; if (index + 1 < this.nextPassings.length) {
// Move to next stop
this.moveToStop(...this.nextPassings[index + 1]);
} else {
// No next stop announced, end of course
return false;
}
} else {
// Cannot move yet, departure is in the future
this.departureTime = this.nextPassings[index][1];
} }
} } else {
// Current stop is not announced, find the first stop
// announced in the future to which is connection is
// possible
let found = false;
if (nextStop === null) { for (
// This course is finished let index = 0;
return false; index < this.nextPassings.length;
} ++index
) {
const [stop, arrivalTime] = this.nextPassings[index];
if (nextStop !== this.currentStop) { if (arrivalTime > now) {
this.moveToStop(nextStop, arrivalTime); const route = findRoute(this.currentStop, stop);
if (route !== null) {
// Move to the first intermediate stop, guess the
// arrival time based on the final arrival time and
// the relative distance of the stops
const midDistance = network.segments[
`${route[0]}-${route[1]}`
].properties.length;
let totalDistance = midDistance;
for (
let midIndex = 1;
midIndex + 1 < route.length;
++midIndex
) {
totalDistance += network.segments[
`${route[midIndex]}-${route[midIndex + 1]}`
].properties.length;
}
const midTime = now + (arrivalTime - now) *
midDistance / totalDistance;
this.moveToStop(route[1], midTime);
found = true;
break;
}
}
}
if (!found) {
// No valid next stop available
return false;
}
} }
} }
if (this.state === "moving") { if (this.state === "moving") {
this.speed = this.computeTheoreticalSpeed(); const segment = this.currentSegment;
const distance = segment.properties.length - this.traveledDistance;
const duration = this.arrivalTime - Date.now();
this.speed = this.computeSpeed(distance, duration);
} }
return true; return true;
@ -115,7 +181,6 @@ class Course {
tick(time) { tick(time) {
if (this.state === "moving") { if (this.state === "moving") {
// Integrate current speed in travelled distance // Integrate current speed in travelled distance
this.traveledDistance += this.speed * time; this.traveledDistance += this.speed * time;
const segment = this.currentSegment; const segment = this.currentSegment;
@ -155,10 +220,12 @@ class Course {
arriveToStop(stop) { arriveToStop(stop) {
this.state = "stopped"; this.state = "stopped";
this.currentStop = stop; this.currentStop = stop;
this.departureTime = Date.now();
this.prevPassings.push([stop, Date.now()]);
this.position = ( this.position = (
turfProjection.toMercator(network.stops[stop]) turfProjection.toMercator(network.stops[stop])
.geometry.coordinates); .geometry.coordinates
this.history.push(["arriveToStop", stop]); );
} }
/** /**
@ -168,49 +235,43 @@ class Course {
* @returns {undefined} * @returns {undefined}
*/ */
moveToStop(stop, arrivalTime) { moveToStop(stop, arrivalTime) {
if (!(`${this.currentStop}-${stop}` in network.segments)) { const segmentId = `${this.currentStop}-${stop}`;
if (!(segmentId in network.segments)) {
console.warn(`Course ${this.id} cannot go from stop console.warn(`Course ${this.id} cannot go from stop
${this.currentStop} to stop ${stop}. Teleporting to ${stop}`); ${this.currentStop} to stop ${stop}. Teleporting to ${stop}`);
this.arriveToStop(stop); this.arriveToStop(stop);
return; return;
} }
const distance = network.segments[segmentId].properties.length;
const duration = arrivalTime - Date.now();
if (this.computeSpeed(distance, duration) === 0) {
// Speed would be too low, better wait for some time
return;
}
this.state = "moving"; this.state = "moving";
this.departureStop = this.currentStop; this.departureStop = this.currentStop;
this.arrivalStop = stop; this.arrivalStop = stop;
this.arrivalTime = arrivalTime; this.arrivalTime = arrivalTime;
this.traveledDistance = 0; this.traveledDistance = 0;
this.speed = 0; this.speed = 0;
this.history.push(["moveToStop", stop, arrivalTime]);
console.info(`Course ${this.id} leaving stop ${this.currentStop} \
with initial speed ${this.computeTheoreticalSpeed() * 3600} km/h`);
} }
/** computeSpeed(distance, duration) {
* Compute the speed that needs to be maintained to arrive on time. if (duration <= 0) {
* @returns {number} Speed in meters per millisecond. // Late: go to maximum speed
*/ return 50 / 3600;
computeTheoreticalSpeed() { }
if (this.state !== "moving") {
if (distance / duration <= 10 / 3600) {
// Too slow: pause until speed is sufficient
return 0; return 0;
} }
const segment = this.currentSegment; return distance / duration;
const remainingTime = this.arrivalTime - Date.now();
const remainingDistance = (
segment.properties.length - this.traveledDistance
);
if (remainingDistance <= 0) {
return 0;
}
if (remainingTime <= 0) {
// Were late, go to maximum speed
return 50 / 3600; // 50 km/h
}
return remainingDistance / remainingTime;
} }
} }
@ -221,16 +282,12 @@ const updateData = async courses => {
for (const [id, data] of Object.entries(dataset)) { for (const [id, data] of Object.entries(dataset)) {
if (id in courses) { if (id in courses) {
if (!courses[id].updateData(data)) { if (!courses[id].updateData(data)) {
console.info(`Course ${id} is finished.`);
delete courses[id]; delete courses[id];
} }
} else { } else {
const newCourse = new Course(data); const newCourse = new Course(data);
if (!newCourse.updateData(data)) { if (newCourse.updateData(data)) {
console.info(`Ignoring course ${id} which is outdated.`);
} else {
console.info(`Course ${id} starting.`);
courses[id] = newCourse; courses[id] = newCourse;
} }
} }