I am implementing lookup tables.

  • There should be one index column, which can be int, double, or string. If it is int or double, when looking up a value, it should lookup which range it falls int (so if the indices are 0, 5, 10, etc, and the lookup value is 9, it should return the content corresponding to index 5). If it's a string, it only looks for exact matches.
  • The content is one or more columns, each of which may (independently of each other and the index) be int, double, or string as well.
  • The data for the tables should exist in a separate file (preferably one for all tables, regardless of type).
  • The tables should then be stored in a "semi-dynamic" way (ie, at run-time they will be fix, but I need to be able to update, add or modify the tables between runs).

I figured I need to create a base class of table, which go in a map, regardless of what they contain and what they return. The key is the name of the table, and is read from the file. After that, I'm a bit stumped as to how to proceed.

I first had the idea of creating some sort of template, such as template <class INDEX, class CONTENT, int COL, int ROW> and then define array<INDEX>[ROW] and array<CONTENT>[COL][ROW]. But when I tried that, I couldn't put them in the same map (because the instantiations are interpreted as different classes and thus incompatible to one type?).

Then I figured I should probably use an inheritance class structure, with the base class in the map, and then subclass for each type of table. However, if that's the case, I'd need a lot of classes to cover all the combinations of index and content columns being one of the three data types. So I'd need to generalise a bit more, and then I thought "why don't I store all the data as string and keep an array<int> (or even enum?) to keep track of which of the cases each column is (ie int, double, or string)?" That would be a possible solution, as far as I see, although it would be quite ugly and inefficient. Inefficiency isn't a huge problem, since the tables aren't going to be that many or that large, so storing strings and casting to int/double when needed would be viable, but I'd like to do it properly anyway. Also, there's the issue of having the table class needing all the different versions of lookup (ie that takes in and returns int, double, and/or string), so I might end up calling the wrong function on the object (ie call for an int when the table consists of text that cannot be cast from string.). Again, that's not a huge problem, apart from that it's ugly and probably not the way to do it.

I could also have "empty arrays" of each of the type I'm not using, and keep track of which has data with another array<int> (or enum), and maybe a map<int, array<TYPE> >, where TYPE is the type of each column, and then figure out based on which column I'm looking for what array contains what I have saved/need. But that feels even more convoluted and awkward (but maybe I'm wrong).

Alternatively, I could, of course, start splitting up the tables into smaller ones (ie maybe all have one index and only one content column, or even a structure of "index columns" connected to one or more "content columns"). But then I'd need to figure out a neat way of doing that, which I haven't been able to so far.

Anyway, the data file might look like:

Age Table
18;Young Adult

Average Living Space Per District
Young Adult;20;30;35


Does anyone have any hints or advice as to how to tackle this problem?

  • From the outside, it looks like all you really want/need is a database of sorts (which you can then query into). Have you looked into this option instead of hand-rolling everything? MySQL/PostgreSQL/SQLite... There's no shortage of options I'd say. – Max Langhof Sep 16 at 8:04
  • 1
    Why does std::map not work for you? – David Rankin - ReinstateMonica Sep 16 at 8:08
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    Your question is more suitable for softwareengineering.stackexchange.com. If you have implemented your solution in code, then you can also try codereview.stackexchange.com Your question is probably not a good fit for stackoverflow.com because stackoverflow.com/help/dont-ask – Anthony Kong Sep 16 at 8:08
  • About std::map: it comes with its own upper_bound, it will find the first element greater, and the desired lower value then will be std::prev(map.upper_bound(age)) (note: there's lower_bound, too, giving first element not less, but that will give you bad result for ages exactly matching a boundery). – Aconcagua Sep 16 at 8:28
  • There even is already an answer for how to correctly apply upper_bound... – Aconcagua Sep 16 at 8:37

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