I am trying to create a Python script which will take an address as input and will spit out its latitude and longitude, or latitudes and longitudes in case of multiple matches, quite like Nominatim.
So, the possible input and outputs could be:-
- In: New York, USA => Out: New York (lat:x1 lon:y1)
- In: New York => Out: New York (lat:x1 lon:y1)
- In: Pearl Street, New York, USA => Out: Pearl Street (lat:x2 lon:y2)
- In: Pearl Street, USA => Out: Pearl Street (lat:x2 lon:y2), Pearl Street (lat:x3 lon:y3)
- In: Pearl Street => Out: Pearl Street (lat:x2 lon:y2), Pearl Street (lat:x3 lon:y3)
- In: 103 Alkazam, New York, USA => Out: New York (lat:x1 lon:y1)
In 6 above, New York was returned since no place was found with address
103 Alkazam, New York, USA, but it could at least find
New York, USA.
Initially I thought of building a tree representing the hierarchy relation where siblings are sorted alphabetically. It could have been like:-
GLOBAL | --------------------------------------------- | | ... USA --------------- | | ... CALIFORNIA NEW YORK | | ----------- ------------- | |.. | |.... PEARL STREET PEARL STREET
But the problem was user can provide incomplete address as in 2, 4 and 5.
So, I next thought of using a search tree and store the fully qualified address in each node. But this too is quite bad since:-
- This will store highly redundant data in each node. Since this will be a really big data so, space conservation matters.
- It won't be able to leverage the fact that user has narrowed down the search space.
I have one additional requirement. I need to detect misspellings. I guess that will have to be dealt as a separate problem and can treat each node as generic strings.
A little elaboration. The input would be a list, where the item on lower index is parent of the item in higher index; and they of course may or may not be immediate parent or child. So for query 1, input would be
["USA", "NEW YORK"]. So, it is perfectly fine that
USA, New York returns no result.
The user should be able to locate a building if he has the address and our data is so detailed.
Update 2 (Omission Case)
If user queries
Pearl Street, USA, so our algo should be able to locate the address since it knows
Pearl Street has
New York as parent and
USA is its parent.
Update 3 (Surplus Case)
Suppose the user queries for
101 C, Alley A, Pearl Street, New York. Also suppose our data does know of
101 C but not about
Alley A. According to it
101 C is a immediate child of
Pearl Street. Even in this case it should be able to locate the address.