surrogate vs natural key: hard numbers on performance differences?

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情话喂你
情话喂你 2021-02-03 13:52

There\'s a healthy debate out there between surrogate and natural keys:

SO Post 1

SO Post 2

My opinion, which seems to be in line with the majority (it\

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  • 2021-02-03 14:17

    Use both! Natural Keys prevent database corruption (inconsistency might be a better word). When the "right" natural key, (to eliminate duplicate rows) would perform badly because of length, or number of columns involved, for performance purposes, a surrogate key can be added as well to be used as foreign keys in other tables instead of the natural key... But the natural key should remain as an alternate key or unique index to prevent data corruption and enforce database consistency...

    Much of the hoohah (in the "debate" on this issue), may be due to what is a false assumption - that you have to use the Primary Key for joins and Foreign Keys in other tables. THIS IS FALSE. You can use ANY key as the target for foreign keys in other tables. It can be the Primary Key, an alternate Key, or any unique index or unique constraint., as long as it is unique in the target relation (table). And as for joins, you can use anything at all for a join condition, it doesn't even have to be a key, or an index, or even unique !! (although if it is not unique you will get multiple rows in the Cartesian product it creates). You can even create a join using non-specific criterion (like >, <, or "like" as the join condition.

    Indeed, you can create a join using any valid SQL expression that evaluate to a boolean.

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  • 2021-02-03 14:25

    Natural keys differ from surrogate keys in value, not type.

    Any type can be used for a surrogate key, like a VARCHAR for the system-generated slug or something else.

    However, most used types for surrogate keys are INTEGER and RAW(16) (or whatever type your RDBMS does use for GUID's),

    Comparing surrogate integers and natural integers (like SSN) takes exactly same time.

    Comparing VARCHARs make take collation into account and they are generally longer than integers, that making them less efficient.

    Comparing a set of two INTEGER is probably also less efficient than comparing a single INTEGER.

    On datatypes small in size this difference is probably percents of percents of the time required to fetch pages, traverse indexes, acquite database latches etc.

    And here are the numbers (in MySQL):

    CREATE TABLE aint (id INT NOT NULL PRIMARY KEY, value VARCHAR(100));
    CREATE TABLE adouble (id1 INT NOT NULL, id2 INT NOT NULL, value VARCHAR(100), PRIMARY KEY (id1, id2));
    CREATE TABLE bint (id INT NOT NULL PRIMARY KEY, aid INT NOT NULL);
    CREATE TABLE bdouble (id INT NOT NULL PRIMARY KEY, aid1 INT NOT NULL, aid2 INT NOT NULL);
    
    INSERT
    INTO    aint
    SELECT  id, RPAD('', FLOOR(RAND(20090804) * 100), '*')
    FROM    t_source;
    
    INSERT
    INTO    bint
    SELECT  id, id
    FROM    aint;
    
    INSERT
    INTO    adouble
    SELECT  id, id, value
    FROM    aint;
    
    INSERT
    INTO    bdouble
    SELECT  id, id, id
    FROM    aint;
    
    SELECT  SUM(LENGTH(value))
    FROM    bint b
    JOIN    aint a
    ON      a.id = b.aid;
    
    SELECT  SUM(LENGTH(value))
    FROM    bdouble b
    JOIN    adouble a
    ON      (a.id1, a.id2) = (b.aid1, b.aid2);
    

    t_source is just a dummy table with 1,000,000 rows.

    aint and adouble, bint and bdouble contain exactly same data, except that aint has an integer as a PRIMARY KEY, while adouble has a pair of two identical integers.

    On my machine, both queries run for 14.5 seconds, +/- 0.1 second

    Performance difference, if any, is within the fluctuations range.

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