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I have a large table (potentially millions of rows) that in its naive form would contain lots of repetition, e.g.:

CREATE TABLE sales(
    id          INTEGER PRIMARY KEY AUTOINCREMENT,
    salesperson TEXT,
    customer    TEXT
);

INSERT INTO sales VALUES(NULL, "Rod", "Acme");
INSERT INTO sales VALUES(NULL, "Jane", "Xyz Corp");
INSERT INTO sales VALUES(NULL, "Freddy", "Acme");
<... many more lines containing significant repetitions of each salesperson and each customer >

I think I know enough that this is not the ideal approach when I want to perform queries such as:

SELECT count(*) FROM sales WHERE salesperson="Jane";

So my database should be rearranged as:

CREATE TABLE sales(
    id          INTEGER PRIMARY KEY AUTOINCREMENT,
    salesperson INTEGER,
    customer    INTEGER
);

CREATE TABLE salespeople(
    id          INTEGER PRIMARY KEY AUTOINCREMENT,
    name        TEXT
);

CREATE TABLE customers(
    id          INTEGER PRIMARY KEY AUTOINCREMENT,
    name        TEXT
);

In reality there are many more columns in the single-table solution, and therefore more distinct tables in the normalized (if that's even the right use of the term) version.

I've timed tests of a dumb query against the single-table v.s. a JOIN with a WHERE against the split-tables version and the "smart" version is about 25% slower, so clearly I'm missing something:

SELECT count(*) FROM sales INNER JOIN salespeople ON sales.salesperson=salespeople.id WHERE salespeople.name="Freddy";

If I lookup the salesperson.id first as a separate query, I see times ~33% faster than the dumb implementation (which is less than I was hoping for).

SELECT id FROM salespeople WHERE name="Freddy";

...then

SELECT count(*) FROM sales WHERE salesperson=previouslyLookedUpId;

I get the impression that the WHERE (in the multi-table solution) is being evaluated for every row, rather than once to determine the relevant salesperson id, as intended. Clearly my queries (or constraints, or indices?) aren't allowing the db engine to work efficiently.

I only know enough to know that I don't know enough... What is the right approach here?

share|improve this question
    
In your SALES table, do you have an index on salespersonid and also one on customerid? –  Tim Aug 6 '11 at 11:33
    
No. Is that achieved as part of the 'CREATE TABLE', or separately? –  Chris Aug 6 '11 at 11:54
1  
CREATE INDEX: sqlite.org/lang_createindex.html –  Tim Aug 6 '11 at 14:02
    
Also, if the SALESPERSON table contained many rows, you'd want an index on SALESPEOPLE.name column. You want indexes on the foreign key columns and on the column(s) you filter by most often. –  Tim Aug 6 '11 at 14:06

1 Answer 1

up vote 1 down vote accepted

First, see my comment about indexes.

Second, the goal of "normalizing" a database design is not performance. Often it is the case that a normalized design will perform more slowly than a denormalized or "flattened" table. Joins can be expensive in terms of resource consumption.

The goal of normalizing is the proper representation of the entities and their relationships; if your domain is accurately mapped to a normalized design it is impossible to get different answers to the same question. That's the goal.

Also, a normalized design is extensible. That is another major virtue and goal.

Since you use the word "smart". A normalized design is "simple-minded", not smart, though it takes smarts to attain simplicity.

P.S.

What kind of performance do you get, relative to a standard join, with this approach:

                 from sales
                 where salespersonid = (select id from SALESPEOPLE where name = 'Joe')

when SALESPEOPLE.name and salespersonid are indexed?

or this:

                ... from sales
                inner join
                (select id from SALESPEOPLE where name = 'Joe') as MYPEEPS
                on sales.salespersonid = MYPEEPS.id
share|improve this answer
    
I was expecting performance to increase (in this case at least) as the 'WHERE' becomes an integer match rather than a string match. –  Chris Aug 6 '11 at 11:55
    
I only know enough to know that I don't know enough. Bear this in mind. Your expectation is not unreasonable, but the join itself has overhead. Performance varies and will depend on the size of the table, the cardinality of the indexes, etc etc, and primarily on whether an operation is CPU-intensive or DISK-intensive. Disk-intensive operations are orders-of-magnitude slower than most CPU-intensive operations. A comparison is a CPU issue and is therefore very low on the list of optimizations. –  Tim Aug 6 '11 at 13:58
    
That said, you are going in the right direction as far as normalization is concerned, by creating the SALESPERSON and CUSTOMER tables and using integer foreign keys. –  Tim Aug 6 '11 at 14:04
    
OK, I've added some indices and now the speed is inline with my rough expectations - the JOINed query now takes ~16% of the time of the big flat (but still un-indexed) table. I need to spend some time tinkering to understand what matters. –  Chris Aug 6 '11 at 14:18
    
I do still have a question though, regarding the reasons behind the original performance deltas. Since the JOINed query was so much slower than the sequential "lookup the ID then do a plain SELECT" solution, is the JOIN query badly written such that the WHERE is evaluated more often (once per sales row) than necessary (just once)? If I'd put a constraint on salesperson.name being unique, would that have helped the db engine to only do the comparison once? –  Chris Aug 6 '11 at 14:22

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