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I've bumped into a lot of VARCHAR(1) fields in a database I've recently had to work with. I rolled my eyes: obviously the designer didn't have a clue. But maybe I'm the one who needs to learn something. Is there any conceivable reason to use a VARCHAR(1) data type rather than CHAR(1)? I would think that the RDMS would convert the one to the other automatically.

The database is MS SQL 2K5, but evolved from Access back in the day.

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3 Answers 3

up vote 13 down vote accepted

Yes there is sense to it.

  • Easier for it to be definable in the language. It is consistent and easier to define varchar to allow 1-8000 than to say it needs to be 2+ or 3+ to 8000.

  • The VARying CHARacter aspect of VARCHAR(1) is exactly that. It may not be optimal for storage but conveys a specific meaning, that the data is either 1 char (classroom code) or blank (outside activity) instead of NULL (unknown/not-yet-classified).

Storage plays very little part in this - looking at a database schema for CHAR(1), you would almost expect that it must always have a 1 char value, such as credit cards must have 16 digits. That is simply not the case with some data where it can be one or optionally none.

There are also differences to using VARCHAR(1) vs CHAR(1)+NULL combination for those who say tri-state [ 1-char | 0-char | NULL ] is completely useless. It allows for SQL statements like:

select activity + '-' + classroom
from  ...

which would otherwise be more difficult if you use char(1)+NULL, which can convey the same information but has subtle differences.

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1  
I can see that there'd be no real reason for the implementation to prohibit VARCHAR(1), but I'm asking if there would be any design benefit. Regarding your second point, just to clarify, you're pointing out that VARCHAR(1) can be an empty string, but CHAR(1) cannot? I can see that; an obscure reason to choose VARCHAR(1) over CHAR(1), but conceivably a valid one. –  Jon of All Trades Feb 2 '11 at 0:36
    
"•Easier for it to be definable in the language." - can you elborate? –  Mitch Wheat Feb 2 '11 at 0:39
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Well, from an Oracle perspective Tom Kite disagrees! I would never use varchar(1). Char(1) to me implies a column will contain 1 and exactly one character. I would question a schema design that has varchar(1) OR char(1) nullable. –  Mitch Wheat Feb 2 '11 at 0:48
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@Mitch - for each professional there are various others who may or may not disagree. Nothing personal, but it's like I don't agree with everything you say just because you are an MS MVP. There are other MS MVPs who hold different opinions across different subjects. Nobody is right all the time. –  RichardTheKiwi Feb 2 '11 at 0:58
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that the data is either 1 char (classroom code) or blank (outside activity). Assuming that "blank" does not refer to null, this justification implies the use of a zero length string which is its own dubious design choice and would also violate the least astonishment rule. Use of Coalesce with a null and values with lengths greater than zero is more explicit and more flexible. –  Thomas Oct 7 '12 at 20:20

AFAIK, No.

a VARCHAR(1) requires 3 bytes storage (The storage size is the actual length of data entered + 2 bytes. Ref.

a CHAR(1) requires 1 byte.

From a storage perspective: A rule of thumb is, if it's less than or equal to 5 chars, consider using a fixed length char column.

A reason to avoid varchar(1) (aside from the fact they they convey poor design reasoning, IMO) is when using Linq2SQL: LINQ to SQL and varchar(1) fields

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3  
Not a good rule of thumb. The problem with fixed-length 4 vs varchar(4) is that char(4) + '-x' has unwanted spaces. Yes you can trim, but that's adding complexity that is not required simply using varchar(4). –  RichardTheKiwi Feb 2 '11 at 0:36
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@Mitch - that Linq2SQL issue is a bug. The bug once fixed renders the point invalid, and is extremely localised to VS2008. social.msdn.microsoft.com/Forums/en-US/linqtosql/thread/…, social.msdn.microsoft.com/Forums/en/linqtosql/thread/… –  RichardTheKiwi Feb 2 '11 at 1:13
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IMO, this the right answer. Varchar(1) violates the least astonishment rule, gains nothing and does have a cost (however slight) in storing an extra bit to indicate the number of characters actually in use. I cannot think of any situation where it would be a logical design choice. –  Thomas Mar 7 '11 at 18:42
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@MartinSmith - However, it is also true that in parts of software engineering, the probability of specific types of changes are not equal and those probabilities change over time. Dropping the PK in a column that is char(1) will not be expensive to that table. It can't be because the number of unique values it can contain is limited. However, dropping the foreign key constraints to that table with a char(1) PK could be expensive and if I'm not mistaken, you would have to do that whether you are using char or varchar. –  Thomas Oct 7 '12 at 20:54
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@MartinSmith - I'll concede that under a narrow set of circumstances, altering a varchar(1) instead of a char(1) will finish in a time that might make a meaningful difference even though it would require multiple millions of rows. However, the overwhelming majority of the time, the time difference will be irrelevant because of the infrequency with which this type of operation is performed. The motivation to use varchar(1) because "some day" you might have to expand it and that operation will be slightly faster is dubious. Clarity of intent should win over premature optimization. –  Thomas Oct 7 '12 at 21:42

One use case for this may be if the designer wants to allow for the possibility that a greater number of characters may be required in the future.

Altering a fixed length datatype from char(1) to char(2) means that all the table rows need to be updated and any indexes or constraints that access this column dropped first.

Making these changes to a large table in production can be an extremely time consuming operation that requires down time.

Altering a column from varchar(1) to varchar(2) is much easier as it is a metadata only change (FK constraints that reference the column will need to be dropped and recreated but no need to rebuild the indexes or update the data pages).

Moreover the 2 bytes per row saving might not always materialize anyway. If the row definition is already quite long this won't always affect the number of rows that can fit on a data page. Another case would be if using the compression feature in Enterprise Edition the way the data is stored is entirely different than that mentioned in Mitch's answer in any event. Both varchar(1) and char(1) would end up stored the same way in the short data region.

@Thomas - e.g. try this table definition.

CREATE TABLE T2
(
Code VARCHAR(1),
Foo datetime2,
Bar int,
Filler CHAR(4000),
PRIMARY KEY CLUSTERED (Code, Foo, Bar)
)

INSERT INTO T2
SELECT TOP 100000 'A', 
                  GETDATE(), 
                  ROW_NUMBER() OVER (ORDER BY (SELECT 0)),
                  NULL
FROM master..spt_values v1,  master..spt_values v2

CREATE NONCLUSTERED INDEX IX_T2_Foo ON T2(Foo) INCLUDE (Filler);
CREATE NONCLUSTERED INDEX IX_T2_Bar ON T2(Bar) INCLUDE (Filler);

For a varchar it is trivial to change the column definition from varchar(1) to varchar(2). This is a metadata only change.

ALTER TABLE T2 ALTER COLUMN Code VARCHAR(2) NOT NULL

If the change is from char(1) to char(2) the following steps must happen.

  1. Drop the PK from the table. This converts the table into a heap and means all non clustered indexes need to be updated with the RID rather than the clustered index key.
  2. Alter the column definition. This means all rows are updated in the table so that Code now is stored as char(2).
  3. Add back the clustered PK constraint. As well as rebuilding the CI itself this means all non clustered indexes need to be updated again with the CI key as a row pointer rather than the RID.
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