I am probably thinking about this wrong but here goes.
A computer starts spitting out a gazillion random numbers between 11111111111111111111 and 99999999999999999999, in a linear row:
- Sometimes the computer adds a number to one end of the line.
- Sometimes the computer adds a number to the other end of the line.
- Each number has a number that comes, or will come, before.
- Each number has a number that comes, or will come, after.
- Not all numbers are unique, many, but not most, are repeated.
- The computer never stops spitting out numbers.
As I record all of these numbers, I need to be able to make an educated guess, at any given time:
If this is the second time I have seen a number I must know what number preceded it in line last time.
If it has appeared more than two times, I must know the probability/frequency of numbers preceding it.
If this is the second time I have seen a number, I must also know what number came after it in line last time.
If it has appeared more than two times, I must know the probability/frequency of numbers coming after it.
How the heck do I structure the tables in a MySQL database to store all these numbers? Which engine do I use and why? How do I formulate my queries? I need to know fast, but capacity is also important because when will the thing stop spitting them out?
My ill-conceived plan:
1. Unique ID/# 2. #/ID/#
Unique ID's are almost always going to be shorter than the number = faster match. Numbers repeat = fewer ID rows = faster match initially.
Select * in table2 where id=(select id in table1 where #=?)
1. Unique ID/# 2. #/ID 3. ID/#
If I only need left/before, or only need after/right, im shrinking the size of the second query.
SELECT # IN table2(or 3) WHERE id=(SELECT id IN table1 WHERE #=?)
Less queries = less time.
SELECT * IN table WHERE col2=#.
I'm lost.... :( Each number has four attributes, that which comes before+frequency and that which comes after+frequency.
Would I be better off thinking of it in that way? If I store and increment frequency in the table, I do away with repetition and thus speed up my queries? I was initially thinking that if I store every occurrence, it would be faster to figure the frequency programmatically.......
Such simple data, but I just don't have the knowledge of how databases function to know which is more efficient.
In light of a recent comment, I would like to add a bit of information about the actual problem: I have a string of indefinite length. I am trying to store a Markov chain frequency table of the various characters, or chunks of characters, in this string.
Given any point in the string I need to know the probability of the next state, and the probability of the previous state.
I am anticipating user input, based on a corpus of text and past user input. A major difference compared to other applications I have seen is that I am going farther down the chain, more states, at a given time and I need the frequency data to provide multiple possibilities.
I hope that clarifies the picture a lot more. I didn't want to get into the nitty gritty of the problem, because in the past I have created questions that are not specific enough to get a specific answer.
This seems maybe a bit better. My primary question with this solution is: Would providing the "key" (first few characters of the state) increase the speed of the system? i.e query for state_key, then query only the results of that query for the full state?
Table 1: name: state col1:state_id - unique, auto incrementing col2:state_key - the first X characters of the state col3:state - fixed length string or state Table 2: name: occurence col1:state_id_left - non unique key from table 1 col2:state_id_right - non unique key from table 1 col3:frequency - int, incremented every time the two states occur next to each other. QUERY TO FIND PREVIOUS STATES: SELECT * IN occurence WHERE state_id_right=(SELECT state_id IN state WHERE state_key=? AND state=?) QUERY TO FIND NEXT STATES: SELECT * IN occurence WHERE state_id_left=(SELECT state_id IN state WHERE state_key=? AND state=?)