9.14. XML Functions
The functions and function-like expressions described in this section operate on values of type xml
. See Section 8.13 for information about the xml
type. The function-like expressions xmlparse
and xmlserialize
for converting to and from type xml
are documented there, not in this section.
Use of most of these functions requires Postgres Pro to have been built with configure --with-libxml
.
9.14.1. Producing XML Content
A set of functions and function-like expressions are available for producing XML content from SQL data. As such, they are particularly suitable for formatting query results into XML documents for processing in client applications.
9.14.1.1. xmlcomment
xmlcomment
(text
)
The function xmlcomment
creates an XML value containing an XML comment with the specified text as content. The text cannot contain “--
” or end with a “-
” so that the resulting construct is a valid XML comment. If the argument is null, the result is null.
Example:
SELECT xmlcomment('hello'); xmlcomment -------------- <!--hello-->
9.14.1.2. xmlconcat
xmlconcat
(xml
[, ...])
The function xmlconcat
concatenates a list of individual XML values to create a single value containing an XML content fragment. Null values are omitted; the result is only null if there are no nonnull arguments.
Example:
SELECT xmlconcat('<abc/>', '<bar>foo</bar>'); xmlconcat ---------------------- <abc/><bar>foo</bar>
XML declarations, if present, are combined as follows. If all argument values have the same XML version declaration, that version is used in the result, else no version is used. If all argument values have the standalone declaration value “yes”, then that value is used in the result. If all argument values have a standalone declaration value and at least one is “no”, then that is used in the result. Else the result will have no standalone declaration. If the result is determined to require a standalone declaration but no version declaration, a version declaration with version 1.0 will be used because XML requires an XML declaration to contain a version declaration. Encoding declarations are ignored and removed in all cases.
Example:
SELECT xmlconcat('<?xml version="1.1"?><foo/>', '<?xml version="1.1" standalone="no"?><bar/>'); xmlconcat ----------------------------------- <?xml version="1.1"?><foo/><bar/>
9.14.1.3. xmlelement
xmlelement
(namename
[, xmlattributes(value
[ASattname
] [, ... ])] [, content, ...
])
The xmlelement
expression produces an XML element with the given name, attributes, and content.
Examples:
SELECT xmlelement(name foo); xmlelement ------------ <foo/> SELECT xmlelement(name foo, xmlattributes('xyz' as bar)); xmlelement ------------------ <foo bar="xyz"/> SELECT xmlelement(name foo, xmlattributes(current_date as bar), 'cont', 'ent'); xmlelement ------------------------------------- <foo bar="2007-01-26">content</foo>
Element and attribute names that are not valid XML names are escaped by replacing the offending characters by the sequence _x
, where HHHH
_HHHH
is the character's Unicode codepoint in hexadecimal notation. For example:
SELECT xmlelement(name "foo$bar", xmlattributes('xyz' as "a&b")); xmlelement ---------------------------------- <foo_x0024_bar a_x0026_b="xyz"/>
An explicit attribute name need not be specified if the attribute value is a column reference, in which case the column's name will be used as the attribute name by default. In other cases, the attribute must be given an explicit name. So this example is valid:
CREATE TABLE test (a xml, b xml); SELECT xmlelement(name test, xmlattributes(a, b)) FROM test;
But these are not:
SELECT xmlelement(name test, xmlattributes('constant'), a, b) FROM test; SELECT xmlelement(name test, xmlattributes(func(a, b))) FROM test;
Element content, if specified, will be formatted according to its data type. If the content is itself of type xml
, complex XML documents can be constructed. For example:
SELECT xmlelement(name foo, xmlattributes('xyz' as bar), xmlelement(name abc), xmlcomment('test'), xmlelement(name xyz)); xmlelement ---------------------------------------------- <foo bar="xyz"><abc/><!--test--><xyz/></foo>
Content of other types will be formatted into valid XML character data. This means in particular that the characters <, >, and & will be converted to entities. Binary data (data type bytea
) will be represented in base64 or hex encoding, depending on the setting of the configuration parameter xmlbinary. The particular behavior for individual data types is expected to evolve in order to align the Postgres Pro mappings with those specified in SQL:2006 and later, as discussed in Section D.3.1.3.
9.14.1.4. xmlforest
xmlforest
(content
[ASname
] [, ...])
The xmlforest
expression produces an XML forest (sequence) of elements using the given names and content.
Examples:
SELECT xmlforest('abc' AS foo, 123 AS bar); xmlforest ------------------------------ <foo>abc</foo><bar>123</bar> SELECT xmlforest(table_name, column_name) FROM information_schema.columns WHERE table_schema = 'pg_catalog'; xmlforest ------------------------------------------------------------------------------------------- <table_name>pg_authid</table_name><column_name>rolname</column_name> <table_name>pg_authid</table_name><column_name>rolsuper</column_name> ...
As seen in the second example, the element name can be omitted if the content value is a column reference, in which case the column name is used by default. Otherwise, a name must be specified.
Element names that are not valid XML names are escaped as shown for xmlelement
above. Similarly, content data is escaped to make valid XML content, unless it is already of type xml
.
Note that XML forests are not valid XML documents if they consist of more than one element, so it might be useful to wrap xmlforest
expressions in xmlelement
.
9.14.1.5. xmlpi
xmlpi
(nametarget
[,content
])
The xmlpi
expression creates an XML processing instruction. The content, if present, must not contain the character sequence ?>
.
Example:
SELECT xmlpi(name php, 'echo "hello world";'); xmlpi ----------------------------- <?php echo "hello world";?>
9.14.1.6. xmlroot
xmlroot
(xml
, versiontext
| no value [, standalone yes|no|no value])
The xmlroot
expression alters the properties of the root node of an XML value. If a version is specified, it replaces the value in the root node's version declaration; if a standalone setting is specified, it replaces the value in the root node's standalone declaration.
SELECT xmlroot(xmlparse(document '<?xml version="1.1"?><content>abc</content>'), version '1.0', standalone yes); xmlroot ---------------------------------------- <?xml version="1.0" standalone="yes"?> <content>abc</content>
9.14.1.7. xmlagg
xmlagg
(xml
)
The function xmlagg
is, unlike the other functions described here, an aggregate function. It concatenates the input values to the aggregate function call, much like xmlconcat
does, except that concatenation occurs across rows rather than across expressions in a single row. See Section 9.20 for additional information about aggregate functions.
Example:
CREATE TABLE test (y int, x xml); INSERT INTO test VALUES (1, '<foo>abc</foo>'); INSERT INTO test VALUES (2, '<bar/>'); SELECT xmlagg(x) FROM test; xmlagg ---------------------- <foo>abc</foo><bar/>
To determine the order of the concatenation, an ORDER BY
clause may be added to the aggregate call as described in Section 4.2.7. For example:
SELECT xmlagg(x ORDER BY y DESC) FROM test; xmlagg ---------------------- <bar/><foo>abc</foo>
The following non-standard approach used to be recommended in previous versions, and may still be useful in specific cases:
SELECT xmlagg(x) FROM (SELECT * FROM test ORDER BY y DESC) AS tab; xmlagg ---------------------- <bar/><foo>abc</foo>
9.14.2. XML Predicates
The expressions described in this section check properties of xml
values.
9.14.2.1. IS DOCUMENT
xml
IS DOCUMENT
The expression IS DOCUMENT
returns true if the argument XML value is a proper XML document, false if it is not (that is, it is a content fragment), or null if the argument is null. See Section 8.13 about the difference between documents and content fragments.
9.14.2.2. IS NOT DOCUMENT
xml
IS NOT DOCUMENT
The expression IS NOT DOCUMENT
returns false if the argument XML value is a proper XML document, true if it is not (that is, it is a content fragment), or null if the argument is null.
9.14.2.3. XMLEXISTS
XMLEXISTS
(text
PASSING [BY REF]xml
[BY REF])
The function xmlexists
evaluates an XPath 1.0 expression (the first argument), with the passed XML value as its context item. The function returns false if the result of that evaluation yields an empty node-set, true if it yields any other value. The function returns null if any argument is null. A nonnull value passed as the context item must be an XML document, not a content fragment or any non-XML value.
Example:
SELECT xmlexists('//town[text() = ''Toronto'']' PASSING BY REF '<towns><town>Toronto</town><town>Ottawa</town></towns>'); xmlexists ------------ t (1 row)
The BY REF
clauses are accepted in Postgres Pro, but are ignored, as discussed in Section D.3.2. In the SQL standard, the xmlexists
function evaluates an expression in the XML Query language, but Postgres Pro allows only an XPath 1.0 expression, as discussed in Section D.3.1.
9.14.2.4. xml_is_well_formed
xml_is_well_formed
(text
)xml_is_well_formed_document
(text
)xml_is_well_formed_content
(text
)
These functions check whether a text
string is well-formed XML, returning a Boolean result. xml_is_well_formed_document
checks for a well-formed document, while xml_is_well_formed_content
checks for well-formed content. xml_is_well_formed
does the former if the xmloption configuration parameter is set to DOCUMENT
, or the latter if it is set to CONTENT
. This means that xml_is_well_formed
is useful for seeing whether a simple cast to type xml
will succeed, whereas the other two functions are useful for seeing whether the corresponding variants of XMLPARSE
will succeed.
Examples:
SET xmloption TO DOCUMENT; SELECT xml_is_well_formed('<>'); xml_is_well_formed -------------------- f (1 row) SELECT xml_is_well_formed('<abc/>'); xml_is_well_formed -------------------- t (1 row) SET xmloption TO CONTENT; SELECT xml_is_well_formed('abc'); xml_is_well_formed -------------------- t (1 row) SELECT xml_is_well_formed_document('<pg:foo xmlns:pg="http://postgresql.org/stuff">bar</pg:foo>'); xml_is_well_formed_document ----------------------------- t (1 row) SELECT xml_is_well_formed_document('<pg:foo xmlns:pg="http://postgresql.org/stuff">bar</my:foo>'); xml_is_well_formed_document ----------------------------- f (1 row)
The last example shows that the checks include whether namespaces are correctly matched.
9.14.3. Processing XML
To process values of data type xml
, Postgres Pro offers the functions xpath
and xpath_exists
, which evaluate XPath 1.0 expressions, and the XMLTABLE
table function.
9.14.3.1. xpath
xpath
(xpath
,xml
[,nsarray
])
The function xpath
evaluates the XPath 1.0 expression xpath
(a text
value) against the XML value xml
. It returns an array of XML values corresponding to the node-set produced by the XPath expression. If the XPath expression returns a scalar value rather than a node-set, a single-element array is returned.
The second argument must be a well formed XML document. In particular, it must have a single root node element.
The optional third argument of the function is an array of namespace mappings. This array should be a two-dimensional text
array with the length of the second axis being equal to 2 (i.e., it should be an array of arrays, each of which consists of exactly 2 elements). The first element of each array entry is the namespace name (alias), the second the namespace URI. It is not required that aliases provided in this array be the same as those being used in the XML document itself (in other words, both in the XML document and in the xpath
function context, aliases are local).
Example:
SELECT xpath('/my:a/text()', '<my:a xmlns:my="http://example.com">test</my:a>', ARRAY[ARRAY['my', 'http://example.com']]); xpath -------- {test} (1 row)
To deal with default (anonymous) namespaces, do something like this:
SELECT xpath('//mydefns:b/text()', '<a xmlns="http://example.com"><b>test</b></a>', ARRAY[ARRAY['mydefns', 'http://example.com']]); xpath -------- {test} (1 row)
9.14.3.2. xpath_exists
xpath_exists
(xpath
,xml
[,nsarray
])
The function xpath_exists
is a specialized form of the xpath
function. Instead of returning the individual XML values that satisfy the XPath 1.0 expression, this function returns a Boolean indicating whether the query was satisfied or not (specifically, whether it produced any value other than an empty node-set). This function is equivalent to the XMLEXISTS
predicate, except that it also offers support for a namespace mapping argument.
Example:
SELECT xpath_exists('/my:a/text()', '<my:a xmlns:my="http://example.com">test</my:a>', ARRAY[ARRAY['my', 'http://example.com']]); xpath_exists -------------- t (1 row)
9.14.3.3. xmltable
xmltable
( [XMLNAMESPACES(namespace uri
ASnamespace name
[, ...]), ]row_expression
PASSING [BY REF]document_expression
[BY REF] COLUMNSname
{type
[PATHcolumn_expression
] [DEFAULTdefault_expression
] [NOT NULL | NULL] | FOR ORDINALITY } [, ...] )
The xmltable
function produces a table based on the given XML value, an XPath filter to extract rows, and a set of column definitions.
The optional XMLNAMESPACES
clause is a comma-separated list of namespaces. It specifies the XML namespaces used in the document and their aliases. A default namespace specification is not currently supported.
The required row_expression
argument is an XPath 1.0 expression that is evaluated, passing the document_expression
as its context item, to obtain a set of XML nodes. These nodes are what xmltable
transforms into output rows. No rows will be produced if the document_expression
is null, nor if the row_expression
produces an empty node-set or any value other than a node-set.
document_expression
provides the context item for the row_expression
. It must be a well-formed XML document; fragments/forests are not accepted. The BY REF
clause is accepted but ignored, as discussed in Section D.3.2. In the SQL standard, the xmltable
function evaluates expressions in the XML Query language, but Postgres Pro allows only XPath 1.0 expressions, as discussed in Section D.3.1.
The mandatory COLUMNS
clause specifies the list of columns in the output table. Each entry describes a single column. See the syntax summary above for the format. The column name and type are required; the path, default and nullability clauses are optional.
A column marked FOR ORDINALITY
will be populated with row numbers, starting with 1, in the order of nodes retrieved from the row_expression
's result node-set. At most one column may be marked FOR ORDINALITY
.
Note
XPath 1.0 does not specify an order for nodes in a node-set, so code that relies on a particular order of the results will be implementation-dependent. Details can be found in Section D.3.1.2.
The column_expression
for a column is an XPath 1.0 expression that is evaluated for each row, with the current node from the row_expression
result as its context item, to find the value of the column. If no column_expression
is given, then the column name is used as an implicit path.
If a column's XPath expression returns a non-XML value (limited to string, boolean, or double in XPath 1.0) and the column has a Postgres Pro type other than xml
, the column will be set as if by assigning the value's string representation to the Postgres Pro type. In this release, an XPath boolean or double result must be explicitly cast to string (that is, the XPath 1.0 string
function wrapped around the original column expression); Postgres Pro can then successfully assign the string to an SQL result column of boolean or double type. These conversion rules differ from those of the SQL standard, as discussed in Section D.3.1.3.
In this release, SQL result columns of xml
type, or column XPath expressions evaluating to an XML type, regardless of the output column SQL type, are handled as described in Section D.3.2; the behavior changes significantly in Postgres Pro 12.
If the path expression returns an empty node-set (typically, when it does not match) for a given row, the column will be set to NULL
, unless a default_expression
is specified; then the value resulting from evaluating that expression is used.
Columns may be marked NOT NULL
. If the column_expression
for a NOT NULL
column does not match anything and there is no DEFAULT
or the default_expression
also evaluates to null, an error is reported.
A default_expression
, rather than being evaluated immediately when xmltable
is called, is evaluated each time a default is needed for the column. If the expression qualifies as stable or immutable, the repeat evaluation may be skipped. This means that you can usefully use volatile functions like nextval
in default_expression
.
Examples:
CREATE TABLE xmldata AS SELECT xml $$ <ROWS> <ROW id="1"> <COUNTRY_ID>AU</COUNTRY_ID> <COUNTRY_NAME>Australia</COUNTRY_NAME> </ROW> <ROW id="5"> <COUNTRY_ID>JP</COUNTRY_ID> <COUNTRY_NAME>Japan</COUNTRY_NAME> <PREMIER_NAME>Shinzo Abe</PREMIER_NAME> <SIZE unit="sq_mi">145935</SIZE> </ROW> <ROW id="6"> <COUNTRY_ID>SG</COUNTRY_ID> <COUNTRY_NAME>Singapore</COUNTRY_NAME> <SIZE unit="sq_km">697</SIZE> </ROW> </ROWS> $$ AS data; SELECT xmltable.* FROM xmldata, XMLTABLE('//ROWS/ROW' PASSING data COLUMNS id int PATH '@id', ordinality FOR ORDINALITY, "COUNTRY_NAME" text, country_id text PATH 'COUNTRY_ID', size_sq_km float PATH 'SIZE[@unit = "sq_km"]', size_other text PATH 'concat(SIZE[@unit!="sq_km"], " ", SIZE[@unit!="sq_km"]/@unit)', premier_name text PATH 'PREMIER_NAME' DEFAULT 'not specified') ; id | ordinality | COUNTRY_NAME | country_id | size_sq_km | size_other | premier_name ----+------------+--------------+------------+------------+--------------+--------------- 1 | 1 | Australia | AU | | | not specified 5 | 2 | Japan | JP | | 145935 sq_mi | Shinzo Abe 6 | 3 | Singapore | SG | 697 | | not specified
The following example shows concatenation of multiple text() nodes, usage of the column name as XPath filter, and the treatment of whitespace, XML comments and processing instructions:
CREATE TABLE xmlelements AS SELECT xml $$ <root> <element> Hello<!-- xyxxz -->2a2<?aaaaa?> <!--x--> bbb<x>xxx</x>CC </element> </root> $$ AS data; SELECT xmltable.* FROM xmlelements, XMLTABLE('/root' PASSING data COLUMNS element text); element ---------------------- Hello2a2 bbbCC
The following example illustrates how the XMLNAMESPACES
clause can be used to specify a list of namespaces used in the XML document as well as in the XPath expressions:
WITH xmldata(data) AS (VALUES (' <example xmlns="http://example.com/myns" xmlns:B="http://example.com/b"> <item foo="1" B:bar="2"/> <item foo="3" B:bar="4"/> <item foo="4" B:bar="5"/> </example>'::xml) ) SELECT xmltable.* FROM XMLTABLE(XMLNAMESPACES('http://example.com/myns' AS x, 'http://example.com/b' AS "B"), '/x:example/x:item' PASSING (SELECT data FROM xmldata) COLUMNS foo int PATH '@foo', bar int PATH '@B:bar'); foo | bar -----+----- 1 | 2 3 | 4 4 | 5 (3 rows)
9.14.4. Mapping Tables to XML
The following functions map the contents of relational tables to XML values. They can be thought of as XML export functionality:
table_to_xml(tbl regclass, nulls boolean, tableforest boolean, targetns text) query_to_xml(query text, nulls boolean, tableforest boolean, targetns text) cursor_to_xml(cursor refcursor, count int, nulls boolean, tableforest boolean, targetns text)
The return type of each function is xml
.
table_to_xml
maps the content of the named table, passed as parameter tbl
. The regclass
type accepts strings identifying tables using the usual notation, including optional schema qualifications and double quotes. query_to_xml
executes the query whose text is passed as parameter query
and maps the result set. cursor_to_xml
fetches the indicated number of rows from the cursor specified by the parameter cursor
. This variant is recommended if large tables have to be mapped, because the result value is built up in memory by each function.
If tableforest
is false, then the resulting XML document looks like this:
<tablename> <row> <columnname1>data</columnname1> <columnname2>data</columnname2> </row> <row> ... </row> ... </tablename>
If tableforest
is true, the result is an XML content fragment that looks like this:
<tablename> <columnname1>data</columnname1> <columnname2>data</columnname2> </tablename> <tablename> ... </tablename> ...
If no table name is available, that is, when mapping a query or a cursor, the string table
is used in the first format, row
in the second format.
The choice between these formats is up to the user. The first format is a proper XML document, which will be important in many applications. The second format tends to be more useful in the cursor_to_xml
function if the result values are to be reassembled into one document later on. The functions for producing XML content discussed above, in particular xmlelement
, can be used to alter the results to taste.
The data values are mapped in the same way as described for the function xmlelement
above.
The parameter nulls
determines whether null values should be included in the output. If true, null values in columns are represented as:
<columnname xsi:nil="true"/>
where xsi
is the XML namespace prefix for XML Schema Instance. An appropriate namespace declaration will be added to the result value. If false, columns containing null values are simply omitted from the output.
The parameter targetns
specifies the desired XML namespace of the result. If no particular namespace is wanted, an empty string should be passed.
The following functions return XML Schema documents describing the mappings performed by the corresponding functions above:
table_to_xmlschema(tbl regclass, nulls boolean, tableforest boolean, targetns text) query_to_xmlschema(query text, nulls boolean, tableforest boolean, targetns text) cursor_to_xmlschema(cursor refcursor, nulls boolean, tableforest boolean, targetns text)
It is essential that the same parameters are passed in order to obtain matching XML data mappings and XML Schema documents.
The following functions produce XML data mappings and the corresponding XML Schema in one document (or forest), linked together. They can be useful where self-contained and self-describing results are wanted:
table_to_xml_and_xmlschema(tbl regclass, nulls boolean, tableforest boolean, targetns text) query_to_xml_and_xmlschema(query text, nulls boolean, tableforest boolean, targetns text)
In addition, the following functions are available to produce analogous mappings of entire schemas or the entire current database:
schema_to_xml(schema name, nulls boolean, tableforest boolean, targetns text) schema_to_xmlschema(schema name, nulls boolean, tableforest boolean, targetns text) schema_to_xml_and_xmlschema(schema name, nulls boolean, tableforest boolean, targetns text) database_to_xml(nulls boolean, tableforest boolean, targetns text) database_to_xmlschema(nulls boolean, tableforest boolean, targetns text) database_to_xml_and_xmlschema(nulls boolean, tableforest boolean, targetns text)
Note that these potentially produce a lot of data, which needs to be built up in memory. When requesting content mappings of large schemas or databases, it might be worthwhile to consider mapping the tables separately instead, possibly even through a cursor.
The result of a schema content mapping looks like this:
<schemaname> table1-mapping table2-mapping ... </schemaname>
where the format of a table mapping depends on the tableforest
parameter as explained above.
The result of a database content mapping looks like this:
<dbname> <schema1name> ... </schema1name> <schema2name> ... </schema2name> ... </dbname>
where the schema mapping is as above.
As an example of using the output produced by these functions, Example 9.1 shows an XSLT stylesheet that converts the output of table_to_xml_and_xmlschema
to an HTML document containing a tabular rendition of the table data. In a similar manner, the results from these functions can be converted into other XML-based formats.
Example 9.1. XSLT Stylesheet for Converting SQL/XML Output to HTML
<?xml version="1.0"?> <xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform" xmlns:xsd="http://www.w3.org/2001/XMLSchema" xmlns="http://www.w3.org/1999/xhtml" > <xsl:output method="xml" doctype-system="http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd" doctype-public="-//W3C/DTD XHTML 1.0 Strict//EN" indent="yes"/> <xsl:template match="/*"> <xsl:variable name="schema" select="//xsd:schema"/> <xsl:variable name="tabletypename" select="$schema/xsd:element[@name=name(current())]/@type"/> <xsl:variable name="rowtypename" select="$schema/xsd:complexType[@name=$tabletypename]/xsd:sequence/xsd:element[@name='row']/@type"/> <html> <head> <title><xsl:value-of select="name(current())"/></title> </head> <body> <table> <tr> <xsl:for-each select="$schema/xsd:complexType[@name=$rowtypename]/xsd:sequence/xsd:element/@name"> <th><xsl:value-of select="."/></th> </xsl:for-each> </tr> <xsl:for-each select="row"> <tr> <xsl:for-each select="*"> <td><xsl:value-of select="."/></td> </xsl:for-each> </tr> </xsl:for-each> </table> </body> </html> </xsl:template> </xsl:stylesheet>