282

I often find these three variants:

SELECT COUNT(*) FROM Foo;
SELECT COUNT(1) FROM Foo;
SELECT COUNT(PrimaryKey) FROM Foo;

As far as I can see, they all do the same thing, and I find myself using the three in my codebase. However, I don't like to do the same thing different ways. To which one should I stick? Is any one of them better than the two others?

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    +1, I didn't even know, SELECT COUNT(PrimaryKey) FROM Foo; was even an option Commented Apr 26, 2010 at 1:16
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    IMO, if you don't know the difference, pick one and stick with it. If you can't be right, at least be consistent. Commented Apr 26, 2010 at 1:18
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    @Anthony Forloney: let's make it clear that PrimaryKey refers to the name of your primary key field, and that it's not some magical keyword.
    – zneak
    Commented Apr 26, 2010 at 1:21
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    @zneak, Yeah, I realized that when MySQL threw me an error Unknown column "primarykey" in 'field list' good job me. Commented Apr 26, 2010 at 1:24
  • 3
    @gbn: yeah it's possible duplicate. but not exact duplicate, the OP takes into account the COUNT(PrimaryKey) construct. so that made it not exact duplicate. it's a topic of its own, contrasting it with the other two approaches
    – Hao
    Commented Apr 28, 2010 at 2:25

4 Answers 4

279

Bottom Line

Use either COUNT(field) or COUNT(*), and stick with it consistently, and if your database allows COUNT(tableHere) or COUNT(tableHere.*), use that.

In short, don't use COUNT(1) for anything. It's a one-trick pony, which rarely does what you want, and in those rare cases is equivalent to count(*)

Use count(*) for counting

Use * for all your queries that need to count everything, even for joins, use *

SELECT boss.boss_id, COUNT(subordinate.*)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

But don't use COUNT(*) for LEFT joins, as that will return 1 even if the subordinate table doesn't match anything from parent table

SELECT boss.boss_id, COUNT(*)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

Don't be fooled by those advising that when using * in COUNT, it fetches entire row from your table, saying that * is slow. The * on SELECT COUNT(*) and SELECT * has no bearing to each other, they are entirely different thing, they just share a common token, i.e. *.

An alternate syntax

In fact, if it is not permitted to name a field as same as its table name, RDBMS language designer could give COUNT(tableNameHere) the same semantics as COUNT(*). Example:

For counting rows we could have this:

SELECT COUNT(emp) FROM emp

And they could make it simpler:

SELECT COUNT() FROM emp

And for LEFT JOINs, we could have this:

SELECT boss.boss_id, COUNT(subordinate)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

But they cannot do that (COUNT(tableNameHere)) since SQL standard permits naming a field with the same name as its table name:

CREATE TABLE fruit -- ORM-friendly name
(
fruit_id int NOT NULL,
fruit varchar(50), /* same name as table name, 
                and let's say, someone forgot to put NOT NULL */
shape varchar(50) NOT NULL,
color varchar(50) NOT NULL
)

Counting with null

And also, it is not a good practice to make a field nullable if its name matches the table name. Say you have values 'Banana', 'Apple', NULL, 'Pears' on fruit field. This will not count all rows, it will only yield 3, not 4

SELECT count(fruit) FROM fruit

Though some RDBMS do that sort of principle (for counting the table's rows, it accepts table name as COUNT's parameter), this will work in Postgresql (if there is no subordinate field in any of the two tables below, i.e. as long as there is no name conflict between field name and table name):

SELECT boss.boss_id, COUNT(subordinate)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

But that could cause confusion later if we will add a subordinate field in the table, as it will count the field(which could be nullable), not the table rows.

So to be on the safe side, use:

SELECT boss.boss_id, COUNT(subordinate.*)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

count(1): The one-trick pony

In particular to COUNT(1), it is a one-trick pony, it works well only on one table query:

SELECT COUNT(1) FROM tbl

But when you use joins, that trick won't work on multi-table queries without its semantics being confused, and in particular you cannot write:

-- count the subordinates that belongs to boss
SELECT boss.boss_id, COUNT(subordinate.1)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

So what's the meaning of COUNT(1) here?

SELECT boss.boss_id, COUNT(1)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

Is it this...?

-- counting all the subordinates only
SELECT boss.boss_id, COUNT(subordinate.boss_id)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

Or this...?

-- or is that COUNT(1) will also count 1 for boss regardless if boss has a subordinate
SELECT boss.boss_id, COUNT(*)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

By careful thought, you can infer that COUNT(1) is the same as COUNT(*), regardless of type of join. But for LEFT JOINs result, we cannot mold COUNT(1) to work as: COUNT(subordinate.boss_id), COUNT(subordinate.*)

So just use either of the following:

-- count the subordinates that belongs to boss
SELECT boss.boss_id, COUNT(subordinate.boss_id)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

Works on Postgresql, it's clear that you want to count the cardinality of the set

-- count the subordinates that belongs to boss
SELECT boss.boss_id, COUNT(subordinate.*)
FROM boss
LEFT JOIN subordinate on subordinate.boss_id = boss.boss_id
GROUP BY boss.id

Another way to count the cardinality of the set, very English-like (just don't make a column with a name same as its table name) : http://www.sqlfiddle.com/#!1/98515/7

select boss.boss_name, count(subordinate)
from boss
left join subordinate on subordinate.boss_code = boss.boss_code
group by boss.boss_name

You cannot do this: http://www.sqlfiddle.com/#!1/98515/8

select boss.boss_name, count(subordinate.1)
from boss
left join subordinate on subordinate.boss_code = boss.boss_code
group by boss.boss_name

You can do this, but this produces wrong result: http://www.sqlfiddle.com/#!1/98515/9

select boss.boss_name, count(1)
from boss
left join subordinate on subordinate.boss_code = boss.boss_code
group by boss.boss_name
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  • 4
    COUNT(1) looks like a magic number, one that is used when someone already have a grasp what is going on under-the-hood. It could led to abuse (i.e. if there's a malicious intention), since all of COUNT(0), COUNT(1), COUNT(2), COUNT(42) (you get the gist) are the same as COUNT(*), somebody could obfuscate the code and use COUNT(2) for example, so the next maintainer could have a hard time deducing what those COUNTs do. Someone will only start to use COUNT(1) when he/she already gleans that COUNT(1) is same as COUNT(*). Nobody started their database career with COUNT(1) Commented Apr 26, 2010 at 3:07
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    or from jester programmers, they could do: SELECT COUNT('ME IN') FROM tbl, for the thinking that like 1 in COUNT(1), 'ME IN' will be ignored and optimized by the RDBMS also
    – Hao
    Commented Apr 28, 2010 at 2:30
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    Of course it "does work", the question does it work properly? If John has two subordinates George and Ringo, and Paul don't have any, try to fashion COUNT(1) to LEFT JOIN that it will work properly, so Paul's subordinate count will be 0. Solve this first: sqlfiddle.com/#!1/98515/13 Commented May 7, 2012 at 14:22
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    I emphasized this statement on my answer regarding using COUNT(1) on LEFT JOIN: You can do this, but this produces wrong result. Search this phrase on this page: wrong result Commented May 7, 2012 at 14:26
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    The very first sentence of this answer is already wrong! "Use either COUNT(field) or COUNT(), and stick with it consistently"* They are not the same thing. COUNT(*) and COUNT(1) are the same, but when you put a non-constant expression there, they're not.
    – Lukas Eder
    Commented Sep 19, 2019 at 12:25
63

Two of them always produce the same answer:

  • COUNT(*) counts the number of rows
  • COUNT(1) also counts the number of rows

Assuming the pk is a primary key and that no nulls are allowed in the values, then

  • COUNT(pk) also counts the number of rows

However, if pk is not constrained to be not null, then it produces a different answer:

  • COUNT(possibly_null) counts the number of rows with non-null values in the column possibly_null.

  • COUNT(DISTINCT pk) also counts the number of rows (because a primary key does not allow duplicates).

  • COUNT(DISTINCT possibly_null_or_dup) counts the number of distinct non-null values in the column possibly_null_or_dup.

  • COUNT(DISTINCT possibly_duplicated) counts the number of distinct (necessarily non-null) values in the column possibly_duplicated when that has the NOT NULL clause on it.

Normally, I write COUNT(*); it is the original recommended notation for SQL. Similarly, with the EXISTS clause, I normally write WHERE EXISTS(SELECT * FROM ...) because that was the original recommend notation. There should be no benefit to the alternatives; the optimizer should see through the more obscure notations.

2
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    I didn't even know COUNT(DISTINCT) worked, though it makes sense. Is it specific to a SQL flavor, or it's widely supported?
    – zneak
    Commented Apr 26, 2010 at 1:36
  • 2
    @zneak: COUNT(DISTINCT x) has been in SQL since SQL-86 (the first standard), so I would be surprised to find any SQL DBMS that did not support it. Commented Apr 26, 2010 at 1:40
9

Asked and answered before...

Books on line says "COUNT ( { [ [ ALL | DISTINCT ] expression ] | * } )"

"1" is a non-null expression so it's the same as COUNT(*). The optimiser recognises it as trivial so gives the same plan. A PK is unique and non-null (in SQL Server at least) so COUNT(PK) = COUNT(*)

This is a similar myth to EXISTS (SELECT * ... or EXISTS (SELECT 1 ...

And see the ANSI 92 spec, section 6.5, General Rules, case 1

        a) If COUNT(*) is specified, then the result is the cardinality
          of T.

        b) Otherwise, let TX be the single-column table that is the
          result of applying the <value expression> to each row of T
          and eliminating null values. If one or more null values are
          eliminated, then a completion condition is raised: warning-
          null value eliminated in set function.
1
  • that's only for sql server and sybase, other systems that follow ansi will evaluate the expression in count(1) and run slower Commented Feb 29 at 0:36
3

I feel the performance characteristics change from one DBMS to another. It's all on how they choose to implement it. Since I have worked extensively on Oracle, I'll tell from that perspective.

COUNT(*) - Fetches entire row into result set before passing on to the count function, count function will aggregate 1 if the row is not null

COUNT(1) - Will not fetch any row, instead count is called with a constant value of 1 for each row in the table when the WHERE matches.

COUNT(PK) - The PK in Oracle is indexed. This means Oracle has to read only the index. Normally one row in the index B+ tree is many times smaller than the actual row. So considering the disk IOPS rate, Oracle can fetch many times more rows from Index with a single block transfer as compared to entire row. This leads to higher throughput of the query.

From this you can see the first count is the slowest and the last count is the fastest in Oracle.

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    Fortunately they have been sensible enough to change that after you left - oracledba.co.uk/tips/count_speed.htm
    – OrangeDog
    Commented Feb 17, 2011 at 11:20
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    I have my doubt on COUNT(*) fetch the entire row. I don't think the Oracle engine is dumber than SQL...
    – Sam
    Commented Sep 6, 2022 at 3:29
  • nope, doesn't fetch. that's a myth Commented Feb 29 at 0:37

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