PostgreSQL 8.3.23 Documentation | ||||
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The specific function to be used in a function invocation is determined according to the following steps.
Function Type Resolution
Select the functions to be considered from the
pg_proc
system catalog. If
an unqualified function name was used, the functions
considered are those of the right name and argument count
that are visible in the current search path (see Section 5.7.3). If
a qualified function name was given, only functions in the
specified schema are considered.
If the search path finds multiple functions of identical argument types, only the one appearing earliest in the path is considered. But functions of different argument types are considered on an equal footing regardless of search path position.
Check for a function accepting exactly the input argument types. If one exists (there can be only one exact match in the set of functions considered), use it. (Cases involving unknown will never find a match at this step.)
If no exact match is found, see whether the function call appears to be a special type conversion request. This happens if the function call has just one argument and the function name is the same as the (internal) name of some data type. Furthermore, the function argument must be either an unknown-type literal, or a type that is binary-compatible with the named data type, or a type that could be converted to the named data type by applying that type's I/O functions (that is, the conversion is either to or from one of the standard string types). When these conditions are met, the function call is treated as a form of CAST specification. [1]
Look for the best match.
Discard candidate functions for which the input types do not match and cannot be converted (using an implicit conversion) to match. unknown literals are assumed to be convertible to anything for this purpose. If only one candidate remains, use it; else continue to the next step.
Run through all candidates and keep those with the most exact matches on input types. (Domains are considered the same as their base type for this purpose.) Keep all candidates if none have any exact matches. If only one candidate remains, use it; else continue to the next step.
Run through all candidates and keep those that accept preferred types (of the input data type's type category) at the most positions where type conversion will be required. Keep all candidates if none accept preferred types. If only one candidate remains, use it; else continue to the next step.
If any input arguments are unknown, check the type categories accepted at those argument positions by the remaining candidates. At each position, select the string category if any candidate accepts that category. (This bias towards string is appropriate since an unknown-type literal does look like a string.) Otherwise, if all the remaining candidates accept the same type category, select that category; otherwise fail because the correct choice cannot be deduced without more clues. Now discard candidates that do not accept the selected type category. Furthermore, if any candidate accepts a preferred type at a given argument position, discard candidates that accept non-preferred types for that argument.
If only one candidate remains, use it. If no candidate or more than one candidate remains, then fail.
Note that the "best match" rules are identical for operator and function type resolution. Some examples follow.
Example 10-4. Rounding Function Argument Type Resolution
There is only one round
function with two arguments. (The first is numeric, the second is integer.) So the following query automatically
converts the first argument of type integer to numeric:
SELECT round(4, 4); round -------- 4.0000 (1 row)
That query is actually transformed by the parser to
SELECT round(CAST (4 AS numeric), 4);
Since numeric constants with decimal points are initially assigned the type numeric, the following query will require no type conversion and might therefore be slightly more efficient:
SELECT round(4.0, 4);
Example 10-5. Substring Function Type Resolution
There are several substr
functions, one of which takes types text
and integer. If called with a string
constant of unspecified type, the system chooses the candidate
function that accepts an argument of the preferred category
string (namely of type text).
SELECT substr('1234', 3); substr -------- 34 (1 row)
If the string is declared to be of type varchar, as might be the case if it comes from a table, then the parser will try to convert it to become text:
SELECT substr(varchar '1234', 3); substr -------- 34 (1 row)
This is transformed by the parser to effectively become
SELECT substr(CAST (varchar '1234' AS text), 3);
Note: The parser learns from the pg_cast catalog that text and varchar are binary-compatible, meaning that one can be passed to a function that accepts the other without doing any physical conversion. Therefore, no type conversion call is really inserted in this case.
And, if the function is called with an argument of type integer, the parser will try to convert that to text:
SELECT substr(1234, 3); ERROR: function substr(integer, integer) does not exist HINT: No function matches the given name and argument types. You might need to add explicit type casts.
This does not work because integer does not have an implicit cast to text. An explicit cast will work, however:
SELECT substr(CAST (1234 AS text), 3); substr -------- 34 (1 row)
[1] |
The reason for this step is to support function-style cast specifications in cases where there is not an actual cast function. If there is a cast function, it is conventionally named after its output type, and so there is no need to have a special case. See CREATE CAST for additional commentary. |