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I have a database containing a lot of train times, for a lot of different trains. It looks something like this:


Station_id Station_name etc


StationName Arrival Departure TrainNumber etc

I know how to retrieve the time of departure for a given train, but how would i proceed if I wanted to retrieve a travel plan containing several connecting trains based on a user selected departure station and arrival station?

E.g someone want to go from London to Manchester, but there are no direct trains travelling this route, so he would have to change train i Liverpool. How would I query the database to get this result?

I hope someone can help me with this as I am unable to find a solution.

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I don't know if you can do this in a simple query... – Matthew Jones Nov 4 '09 at 14:04
Ok. Do you know how I can do it. Do I need several querys? – AppDeveloper122 Nov 4 '09 at 14:15
I agree with Matthew - this is a classic computer science problem, but I've never really seen any SQL-based solutions for that :-) Requires trial'n'error, forward and back-tracking - more than what T-SQL can handle as a programming language, I'd say – marc_s Nov 4 '09 at 14:20
Check This may bet this an help you stackoverflow.com/q/17362506/1697436 – SD7 Nov 22 '13 at 3:24
up vote 2 down vote accepted

It's true that finding the optimal solution to the problem given completely unknown data is way beyond the capabilities of SQL. That is, in theory the quickest route may be to take a trip with thousands of train changes, and the total number of possible combinations is far beyond the capabilities of any computer to process.

But in practice, I think it's safe to say that a trip with fewer train changes is almost always faster than a trip with more stops, and the traveller would probably prefer fewer train changes over a slightly shorter total trip anyway as it avoids the hassle of changing trains and the danger of missing a train because of delays. I don't know what your rail system is like (or even where you're from) but I'd guess that most trips can be completed with a modest number of train changes, probably rarely more than 2, right?

So David O'Neill's solution is basically right, though I think the query he gives is a little confused. He fails to specify the starting station, he seems to assume that the train number is unchanged throughout the trip, and perhaps most important, he calculates the time as the sum of the travel times. Surely what matters to the traveller is the total time between departure and arrival, not just the time on the train. Ten minutes on the train, four hours at the station waiting for the next train, and another ten minutes on the second train, is 4 hours and twenty minutes, not twenty minutes. Oh, and he doesn't seem to insure that the connecting train doesn't leave until after the first train arrives. A connection does you little good if the other train leaves ten minutes before you get there.

So I think the real query would be more like this:

Oh, your description of what's in the tables seems incompletet, so excuse me if I just invent my own tables with the data you would have to have to do this. Namely, you had better have:

Trip (train_number, departure_station_id, arrival_station_id, departure_time, arrival_time)

Station (station_id, station_name)

First query: Look for a direct trip:

select t1.train_number, t1.arrival_time-t1.departure_time as time
from trip t1
where t1.departure_station_id=?station_from
and t1.arrival_station_id=?station_to
order by time

If that turns up nothing, try again with one train change:

select t1.train_number, t2.train_number, t2.arrival_time-t1.departure_time as time
from trip t1
join trip t2 on (t2.departure_station_id=t1.arrival_station_id
and t2.departure_time>t1.arrival_time)
where t1.departure_station_id=?station_from
and t2.arrival_station_id=?station_to
order by time

If still nothing, try two train changes:

select t1.train_number, t2.train_number, t3.train_number, t3.arrival_time-t1.departure_time as time
from trip t1
join trip t2 on (t2.departure_station_id=t1.arrival_station_id
and t2.departure_time>t1.arrival_time)
join trip t3 on (t3.departure_station_id=t2.arrival_station_id
and t3.departure_time>t2.arrival_time)
where t1.departure_station_id=?station_from
and t3.arrival_station_id=?station_to
order by time


You could combine all that into a single query with a UNION, filling in nulls for the extra train numbers in the shorter queries. That would have the advantage that if a trip with extra train changes really was shorter, you'd find that one. But I suspect that rarely happens. And to make the union work, you'd have to go up to the maximum number of changes -- whatever you're going to allow -- with every query, and performance would probably suck.

I haven't tried this, but I'd guess that with proper indexes the query for no-changes would be lightning fast, one change would be very fast, two changes would start getting slow, and beyond that would probably be a very long query, because the number of possible combinations would be huge. Note that a simple query like this would include absurd itineries. Like you want to go from London to Paris? We could try London to Moscow to Rome to Paris. Or London to Glasglow back to London then to Paris. Of course these would have long times and the ORDER BY would sort them to the bottom, but they'd show up as possible routes that would have to be eliminated. You could add criteria to eliminate routes that come back on themselves, but other absurd trips are harder to identify.

Have fun!

share|improve this answer
Thanks for your answer. This solution seems like a good one, and I will try this. I agree that one can eliminate the most absurd itenaries by using order by. So i think this will be sufficient for my needs. – AppDeveloper122 Nov 4 '09 at 15:10
+1 You are right that what I did with train_number probably isn't right. I was trying to get at the idea of a trip number to make sure you weren't getting the arrival time from a different trip IE when I traveled from A to B via train 1, train 1 will arrive at B after it leaves A. You're idea of splitting trips into a separate table makes this much simpler – David Oneill Nov 4 '09 at 15:19
Further thought: GPSs do this all the time: I wonder what their algorithm is. I've noticed my GPS will often get a suboptimum route because it apparently does not consider the possibility that the best route may involve starting off in the wrong direction. Like, if I want to go east, and there's a major highway that would take me straight there but the nearest entrance is two blocks west of my start location, it will ignore the highway and instead take me on a long winding path over back roads. I suspect it's algorithm tries to always head at least generally toward the ultimate goal. – Jay Nov 4 '09 at 18:04
@David: I certainly didn't mean that to come across as ridiculing you! I think your basic suggestion was right on. You just got a little sloppy throwing the query together. – Jay Nov 5 '09 at 14:48

This cannot be reduced to a simple SQL query. Or a complex one, for that matter :)

You want to solve the Shortest Path Problem.

You will need to build a graph using your stations as vertices, and paths between vertices representing a possible journey from one station to another (Note that you will have many paths from one node to another, keyed by departure time). The weight of the each path is its (the journey's) duration.

You then solve the shortest path problem using one of the algorithms suggested by the Wikipedia link, bearing in mind that you have to add the cost of waiting at station N until the departure time of the train to station N+1.

Sounds like a fun hack!

share|improve this answer
Thanks for answering, I really appreciate that people take the time to answer me. I think it would be to much trouble to go by the shortest path option, as I will list several alternatives in a list, one can chose the option that fits best. – AppDeveloper122 Nov 4 '09 at 14:59

I'm a little unsure about what information is in table2. For the moment, I'm assuming that table2 contains both a departure time and a destination station (dest_station_name)

select t1.station_name, t2.station_name, t3.station_name, 
  t4.station_name, t5.station_name,  
  sum(t2.arrival - t1.departure + /*the rest of them */) as total_time from table2 t1
join table2 t2 on t1.dest_station_name = t2.station_name 
  and t1.train_number = t2.train_number
join table2 t3 on t2.dest_station_name = t3.station_name 
   and t2.train_number = t3.train_number
join table2 t4 on t3.dest_station_name = t4.station_name 
   and t3.train_number = t4.train_number
join table2 t5 on t4.dest_station_name = t5.station_name 
   and t4.train_number = t5.train_number
where t5.station_name = :goal_station
order by total_time desc;

Since you won't know ahead of time how many jumps you'll want to take, you'll probably want to write a series of these, each with a different number of train hops. Run 1 hop and look for no data returned. It nothing was returned, run the 2 hop query. If that returned nothing, run the 3 hop query, and so forth.

Edited formatting

NOTE: As is noted in the other answers and comments: this cannot be used to guarantee the shortest path. This CAN be used to find the path with the fewest hops. For example, the technique I wrote up would recommend going from New York to Washinton DC via the route New York to Los Angeles to Washington DC even if New York to Trenton NJ to Lanchester PA to Washington DC was available.

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Word of warning: this will use a HUGE amount of processing if you have a lot of trains and you're checking multiple hops. But you may have a small enough data set that this won't matter. – David Oneill Nov 4 '09 at 14:33
Thanks I will try this. I have about 500 different train routes. But I will try this, and limit to 2 connecting trains. It does not have to be the shortest path, as I will list by total travel time. Thanks again for helping out. – AppDeveloper122 Nov 4 '09 at 14:56

I suspect that you have stumbled across one of those particluarly hard problems that may not have any real answer. It may not be possible with one or even several queries. Suppose a user selects station A to Station B as a journey.

  1. Find all trains that start at A and end at B. If you find any then you can stop.
  2. If not find all trains that start at A.
  3. For each station S1, S2, ..., Sn that a train that starts at A end at query for trains that start at Sx to B. If you find a train then stop. But, if not you have to repeat. You have to be careful at this point that you do not end up in a loop. that is you find a train from A - E, then E - F then F - A.

You may need to use a recursive function like this(Be careful, this is not completely thought through):

journey(A, B)
      if A = B then return empty journey else
      query for trains that go from A to B, if found return the one step journey
          query for all trains that start at A
          for each endpoint of trains that start at A => E
               rest = journey(E, B)
          return A-E+rest
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Thanks for answering. I will try to combine this solution with the one below. – AppDeveloper122 Nov 4 '09 at 15:02

i don't think you really need a shortest path solution for this.

usually websites know max 2 train routes between cities. there usually aren't more anyway. if a user wants to use some other route then you have a "travel via" field.

so you'd just connect the routes in one.

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Thanks for answering. Some of my trainroutes are intercity trains, or a subway system, so I there might be a lot of routes serving the same citys. But I will only allow to search for a maximum of two connecting trains. – AppDeveloper122 Nov 4 '09 at 15:01

I suppose the way to solve this you will need to implement some sort of searching algorithm - it will not be solvable with a simple query. You should load your train times in a structure, then look for all possible connections from A to B.

When finding all possible routes within the given parameters (lets say you know the date of the planned trip) you should sort them by several criteria - like shortest journey, fastest journey, cheapest journey - if you store ticket cost information, least number of train switches, etc ... and then display the most favorable results.

Sounds like a fun project to work on for a while. You might have given me an idea for a new hobby project for the weekend ;)

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