Oracle® XML DB Developer's Guide 10g Release 2 (10.2) Part Number B14259-02 |
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This chapter describes XMLType
operations and indexing for XML applications (schema-based and non-schema-based). It includes guidelines for creating, manipulating, updating, querying, and indexing XMLType
columns and tables.
This chapter contains these topics:
Note:
Non-schema-based XML: XMLType
tables and columns described in this chapter are not based on the W3C XML Schema 1.0 Recommendation. You can, however, use the techniques and examples provided in this chapter, regardless of which storage option you choose for your XMLType
tables and columns. See Chapter 3, "Using Oracle XML DB" for more storage recommendations.
XML schema-based XML: Appendix A, "XML Schema Primer" and Chapter 5, "XML Schema Storage and Query: Basic" describe how to work with XML schema-based XMLType
tables and columns.
You can query XML data from XMLType
columns in the following ways:
Select XMLType
columns in SQL, PL/SQL, or Java.
Query XMLType
columns directly or using XMLType
methods extract()
and existsNode()
.
Use Oracle Text operators to query the XML content. See "Indexing XMLType Columns" and Chapter 10, "Full-Text Search Over XML".
Use the XQuery language. See "Using XQuery with XMLType Data"
Pretty-printing of results has a performance cost in result size and processing time, because it requires building a full DOM and retaining or generating appropriate whitespace formatting information. For this reason, it is not the default behavior.
If you need pretty-printed output, invoke XMLType
method extract()
on the results. Avoid doing this, however, when working with large documents.
The following rules govern pretty-printing of results:
SQL functions never pretty-print.
XMLType
methods (member functions) extract()
and transform()
always pretty-print.
All other XMLType
methods and all PL/SQL functions in packages DBMS_XMLDOM
and DBMS_XSLPROCESSOR
pretty-print if the data is stored object-relationally; otherwise (CLOB storage), they do not pretty-print.
Note:
As mentioned in "Conventions", many examples in this book show results in pretty-printed form to promote readability, even when the results of the operation would not be pretty-printed in reality.The XPath language is a W3C Recommendation for navigating XML documents. XPath models an XML document as a tree of nodes. It provides a rich set of operations that walk this tree and apply predicates and node-test functions. Applying an XPath expression to an XML document can result in a set of nodes. For example, the expression /PO/PONO
selects all PONO
child elements under the PO
root element of the document.
Note:
Oracle SQL functions andXMLType
methods respect the W3C XPath recommendation, which states that if an XPath expression targets no nodes when applied to XML data, then an empty sequence must be returned; an error must not be raised.
The specific semantics of an Oracle SQL function or XMLType
method that applies an XPath-expression to XML data determines what is returned. For example, SQL function extract
returns NULL
if its XPath-expression argument targets no nodes, and the updating SQL functions, such as deleteXML
, return the input XML data unchanged. An error is never raised if no nodes are targeted, but updating SQL functions may raise an error if an XPath-expression argument targets inappropriate nodes, such as attribute nodes or text nodes.
See Also:
Appendix B, "XPath and Namespace Primer"Table 4-1 lists some common constructs used in XPath.
Table 4-1 Common XPath Constructs
XPath Construct | Description |
---|---|
/ |
Denotes the root of the tree in an XPath expression. For example, |
/ |
Also used as a path separator to identify the children node of any given node. For example, |
// |
Used to identify all descendants of the current node. For example, |
* |
Used as a wildcard to match any child node. For example, |
[ ] |
Used to denote predicate expressions. XPath supports a rich list of binary operators such as Brackets are also used to denote an index into a list. For example, |
Functions |
XPath supports a set of built-in functions such as |
The XPath must identify a single node, or a set of element, text, or attribute nodes. The result of the XPath cannot be a Boolean expression.
Oracle supports the XPath extension function ora:contains()
. This function provides text searching functionality with XPath.
See Also:
Chapter 10, "Full-Text Search Over XML"You can select XMLType
data using PL/SQL, C, or Java. You can also use the XMLType
methods getClobVal()
, getStringVal()
, getNumberVal(),
and getBlobVal(csid)
to retrieve XML data as a CLOB
, VARCHAR
, NUMBER
, and BLOB
value, respectively.
Example 4-1 Selecting XMLType Columns Using Method getClobVal()
This example shows how to select an XMLType
column using method getClobVal()
:
CREATE TABLE xml_table OF XMLType; Table created. CREATE TABLE table_with_xml_column (filename VARCHAR2(64), xml_document XMLType); Table created. INSERT INTO xml_table VALUES (XMLType(bfilename('XMLDIR', 'purchaseOrder.xml'), nls_charset_id('AL32UTF8'))); 1 row created. INSERT INTO table_with_xml_column (filename, xml_document) VALUES ('purchaseOrder.xml', XMLType(bfilename('XMLDIR', 'purchaseOrder.xml'), nls_charset_id('AL32UTF8'))); 1 row created. SELECT x.OBJECT_VALUE.getCLOBVal() FROM xml_table x; X.OBJECT_VALUE.GETCLOBVAL() -------------------------------------------------------------------------------- <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNames paceSchemaLocation="http://localhost:8080/source/schemas/poSource/xsd/purchaseOr der.xsd"> <Reference>SBELL-2002100912333601PDT</Reference> <Actions> <Action> <User>SVOLLMAN</User> </Action> </Actions> <Reject/> <Requestor>Sarah J. Bell</Requestor> <User>SBELL</User> <CostCenter>S30</CostCenter> <ShippingInstructions> <name>Sarah J. Bell</name> <address>400 Oracle Parkway Redwood Shores ... 1 row selected. -- SELECT x.xml_document.getCLOBVal() FROM table_with_xml_column x; X.XML_DOCUMENT.GETCLOBVAL() -------------------------------------------------------------------------------- <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNames paceSchemaLocation="http://localhost:8080/source/schemas/poSource/xsd/purchaseOr der.xsd"> <Reference>SBELL-2002100912333601PDT</Reference> <Actions> <Action> <User>SVOLLMAN</User> </Action> </Actions> <Reject/> <Requestor>Sarah J. Bell</Requestor> <User>SBELL</User> <CostCenter>S30</CostCenter> <ShippingInstructions> <name>Sarah J. Bell</name> <address>400 Oracle Parkway Redwood Shores ... 1 row selected.
Note:
In some circumstances,XMLType
method getClobVal()
returns a temporary CLOB
value. If you call getClobVal()
programmatically, you must explicitly free such a temporary CLOB
value when finished with it. You can do this by calling PL/SQL method DBMS_LOB.freeTemporary()
or its equivalent in Java or C (OCI). You can use method DBMS_LOB.isTemporary()
to test whether a CLOB
value is temporary.You can query XMLType
data and extract portions of it using SQL functions existsNode
, extract
, and extractValue
. These functions use a subset of the W3C XPath recommendation to navigate the document.
Figure 4-1 describes the syntax for SQL function existsNode
.
SQL function existsNode
checks whether the given XPath path references at least one XML element node or text node. If so, the function returns 1
; otherwise, it returns 0
. Optional parameter namespace_string
is used to map the namespace prefixes specified in parameter XPath_string
to the corresponding namespaces.
An XPath expression such as /PurchaseOrder/Reference
results in a single node. Therefore, existsNode
will return 1
for that XPath. This is the same with /PurchaseOrder/Reference/text()
, which results in a single text node.
If existsNode
is called with an XPath expression that locates no nodes, the function returns 0
.
Function existsNode
can be used in queries, and it can be used to create function-based indexes to speed up evaluation of queries.
Note:
When using SQL functionexistsNode
in a query, always use it in the WHERE
clause, never in the SELECT
list.Example 4-2 Using EXISTSNODE to Find a node
This example uses SQL function existsNode
to select rows with SpecialInstructions
set to Expedite
.
SELECT OBJECT_VALUE FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[SpecialInstructions="Expedite"]') = 1; OBJECT_VALUE ---------------------------------------------------------------------------------- <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" <PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" 13 rows selected.
You can create function-based indexes using SQL function existsNode
to speed up the execution. You can also create a CTXXPATH
index to help speed up arbitrary XPath searching.
See Also:
"Creating CTXXPATH Indexes"SQL function extract
is similar to existsNode
. It accepts a VARCHAR2
XPath string that targets a node set and an optional namespace
parameter. It returns an XMLType
instance containing an XML fragment. The syntax is described in Figure 4-2:
extract(XMLType_instance IN XMLType, XPath_string IN VARCHAR2, namespace_string In VARCHAR2 := NULL) RETURN XMLType;
Applying extract
to an XMLType
value extracts the node or a set of nodes from the document identified by the XPath expression. The XPath argument must target a node set. So, for example, XPath expression /a/b/c[count('//d')=4]
can be used, but count('//d')
cannot, because it returns a scalar value (number).
The extracted nodes can be element, attribute, or text nodes. If multiple text nodes are referenced in the XPath expression, the text nodes are collapsed into a single text node value. Namespace
can be used to supply namespace information for prefixes in the XPath expression.
The XMLType
instance returned from extract
need not be a well-formed XML document. It can contain a set of nodes or simple scalar data. You can use XMLType
methods getStringVal()
and getNumberVal()
to extract the scalar data.
For example, the XPath expression /PurchaseOrder/Reference
identifies the Reference
element inside the XML document shown previously. The expression /PurchaseOrder/Reference/text()
, on the other hand, refers to the text node of this Reference
element.
Note:
A text node is considered an instance ofXMLType
. In other words, the following expression returns an XMLtype
instance even though the instance may contain only text:
extract(OBJECT_VALUE, '/PurchaseOrder/Reference/text()')
You can use method getStringVal()
to retrieve the text from the XMLType
instance as a VARCHAR2
value.
Use the text()
node test to identify text nodes in elements before using the getStringVal()
or getNumberVal()
to convert them to SQL data. Not having the text()
node test would produce an XML fragment.
For example:
XPath /PurchaseOrder/Reference
identifies the fragment <Reference> ... </Reference>
XPath /PurchaseOrder/Reference/text()
identifies the value of the text node of the Reference
element.
You can use the index mechanism to identify individual elements in case of repeated elements in an XML document. If you have an XML document such as that in Example 4-3, then you can use:
XPath expression //LineItem[1]
to identify the first LineItem
element.
XPath expression //LineItem[2]
to identify the second LineItem
element.
Example 4-3 Purchase-Order XML Document
<PurchaseOrder xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation= "http://localhost:8080/source/schemas/poSource/xsd/purchaseOrder.xsd"> <Reference>SBELL-2002100912333601PDT</Reference> <Actions> <Action> <User>SVOLLMAN</User> </Action> </Actions> <Reject/> <Requestor>Sarah J. Bell</Requestor> <User>SBELL</User> <CostCenter>S30</CostCenter> <ShippingInstructions> <name>Sarah J. Bell</name> <address>400 Oracle Parkway Redwood Shores CA 94065 USA</address> <telephone>650 506 7400</telephone> </ShippingInstructions> <SpecialInstructions>Air Mail</SpecialInstructions> <LineItems> <LineItem ItemNumber="1"> <Description>A Night to Remember</Description> <Part Id="715515009058" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> </PurchaseOrder>
The result of SQL function extract
is always an XMLType
instance. If applying the XPath path produces an empty set, then extract
returns a NULL
value.
SQL function extract
can be used in a number of ways. You can extract:
Numerical values on which function-based indexes can be created to speed up processing
Collection expressions for use in the FROM
clause of SQL statements
Fragments for later aggregation to produce different documents
Example 4-4 Using EXTRACT to Extract the Value of a Node
This example uses SQL function extract
to retrieve the Reference
children of PurchaseOrder
nodes whose SpecialInstructions
attribute has value Expedite
.
SELECT extract(OBJECT_VALUE, '/PurchaseOrder/Reference') "REFERENCE" FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[SpecialInstructions="Expedite"]') = 1; REFERENCE ------------------------------------------------------------ <Reference>AMCEWEN-20021009123336271PDT</Reference> <Reference>SKING-20021009123336321PDT</Reference> <Reference>AWALSH-20021009123337303PDT</Reference> <Reference>JCHEN-20021009123337123PDT</Reference> <Reference>AWALSH-20021009123336642PDT</Reference> <Reference>SKING-20021009123336622PDT</Reference> <Reference>SKING-20021009123336822PDT</Reference> <Reference>AWALSH-20021009123336101PDT</Reference> <Reference>WSMITH-20021009123336412PDT</Reference> <Reference>AWALSH-20021009123337954PDT</Reference> <Reference>SKING-20021009123338294PDT</Reference> <Reference>WSMITH-20021009123338154PDT</Reference> <Reference>TFOX-20021009123337463PDT</Reference> 13 rows selected.
Note:
SQL functionextractValue
and XMLType
method getStringVal()
differ in their treatment of entity encoding. Function extractValue
unescapes any encoded entities; method getStringVal()
returns the data with entity encoding intact.SQL function extractValue
takes as parameters an XMLType
instance and an XPath expression that targets a node set. It returns a scalar value corresponding to the result of the XPath evaluation on the XMLType
instance.
XML schema-based documents. For documents based on XML schema, if Oracle Database can infer the type of the return value, then a scalar value of the appropriate type is returned. Otherwise, the result is of type VARCHAR2
.
Non-schema-based documents. If the query containing extractValue
can be rewritten, such as when the query is over a SQL/XML view, then a scalar value of the appropriate type is returned. Otherwise, the result is of type VARCHAR2
.
Figure 4-3 describes the extractValue
syntax.
SQL function extractValue
attempts to determine the proper return type from the XML schema associated with the document, or from other information such as the SQL/XML view. If the proper return type cannot be determined, then Oracle XML DB returns a VARCHAR2
. With XML schema-based content, extractValue
returns the underlying datatype in most cases. CLOB
values are returned directly.
If a specific datatype is desired, a conversion function such as to_char
or to_date
can be applied to the result of extractValue
or extract.getStringVal()
. This can help maintain consistency between different queries regardless of whether the queries can be rewritten.
SQL function extractValue
lets you extract the desired value more easily than extract
; it is a convenience function. You can use it in place of extract().getStringVal()
or extract().getnumberval()
.
For example, you can replace extract(x, 'path/text()').getStringVal()
with extractValue(x, 'path/text()')
. If the node at path
has only one child and that child is a text node, then you can leave the text()
test off of the XPath argument: extractValue(x, 'path')
. If not, an error is raised if you leave off text()
.
SQL function extractValue
has the same syntax as function extract
.
SQL function extractValue
has the following characteristics:
It returns only a scalar value (NUMBER
, VARCHAR2
, and so on). It cannot return XML nodes or mixed content. An error is raised if extractValue cannot return a scalar value.
By default, it returns a VARCHAR2
value. If the length is greater than 4K, a run-time error is raised.
If XML schema information is available at query compile time, then the datatype of the returned value is based on the XML schema information. For instance, if the XML schema information for the XPath /PurchaseOrder/LineItems/LineItem[1]/Part/@Quantity
indicates a number, then extractValue
returns a NUMBER
.
If extractValue
is applied to a SQL/XML view and the datatype of the column can be determined from the view definition at compile time, the appropriate type is returned.
If the XPath argument identifies a node, then the node must have exactly one text child (or an errror is raised). The text child is returned. For example, this expression extracts the text child of the Reference
node:
extractValue(xmlinstance, '/PurchaseOrder/Reference')
The XPath argument must target a node set. So, for example, XPath expression /a/b/c[count('//d')=4]
can be used, but count('//d')
cannot, because it returns a scalar value (number).
Example 4-5 Extracting the Scalar Value of an XML Fragment Using extractValue
This query extracts the scalar value of the Reference
node. This is in contrast to Example 4-4 where function extract
is used to retrieve the <Reference>
node itself.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') "REFERENCE" FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[SpecialInstructions="Expedite"]') = 1; REFERENCE ------------------------------------------------------------ AMCEWEN-20021009123336271PDT SKING-20021009123336321PDT AWALSH-20021009123337303PDT JCHEN-20021009123337123PDT AWALSH-20021009123336642PDT SKING-20021009123336622PDT SKING-20021009123336822PDT AWALSH-20021009123336101PDT WSMITH-20021009123336412PDT AWALSH-20021009123337954PDT SKING-20021009123338294PDT WSMITH-20021009123338154PDT TFOX-20021009123337463PDT 13 rows selected.
Note:
FunctionextractValue
and XMLType
method getStringVal()
differ in their treatment of entity encoding. Function extractValue
unescapes any encoded entities; method getStringVal()
returns the data with entity encoding intact.The following examples illustrate ways you can query XML data with SQL.
Example 4-6 Querying XMLType Using EXTRACTVALUE and EXISTSNODE
This example inserts two rows into the purchaseorder
table, then queries data in those rows using extractValue
.
INSERT INTO purchaseorder VALUES (XMLType(bfilename('XMLDIR', 'SMCCAIN-2002091213000000PDT.xml'), nls_charset_id('AL32UTF8'))); 1 row created. INSERT INTO purchaseorder VALUES (XMLType(bfilename('XMLDIR', 'VJONES-20020916140000000PDT.xml'), nls_charset_id('AL32UTF8'))); 1 row created. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') REFERENCE, extractValue(OBJECT_VALUE, '/PurchaseOrder/*//User') USERID, CASE WHEN existsNode(OBJECT_VALUE, '/PurchaseOrder/Reject/Date') = 1 THEN 'Rejected' ELSE 'Accepted' END "STATUS", extractValue(OBJECT_VALUE, '//Date') STATUS_DATE FROM purchaseorder WHERE existsNode(OBJECT_VALUE,'//Date') = 1 ORDER BY extractValue(OBJECT_VALUE,'//Date'); REFERENCE USERID STATUS STATUS_DATE -------------------------------- -------- -------- ------------ VJONES-20020916140000000PDT SVOLLMAN Accepted 2002-10-11 SMCCAIN-2002091213000000PDT SKING Rejected 2002-10-12 2 rows selected.
Example 4-7 Querying Transient XMLType Data
This example uses a PL/SQL cursor to query XML data. A local XMLType
instance is used to store transient data.
DECLARE xNode XMLType; vText VARCHAR2(256); vReference VARCHAR2(32); CURSOR getPurchaseOrder(reference IN VARCHAR2) IS SELECT OBJECT_VALUE XML FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="'|| reference || '"]') = 1; BEGIN vReference := 'EABEL-20021009123335791PDT'; FOR c IN getPurchaseOrder(vReference) LOOP xNode := c.XML.extract('//Requestor'); vText := xNode.extract('//text()').getStringVal(); DBMS_OUTPUT.put_line('The Requestor for Reference ' || vReference || ' is '|| vText); END LOOP; vReference := 'PTUCKER-20021009123335430PDT'; FOR c IN getPurchaseOrder(vReference) LOOP xNode := c.XML.extract('//LineItem[@ItemNumber="1"]/Description'); vText := xNode.extract('//text()').getStringVal(); DBMS_OUTPUT.put_line('The Description of LineItem[1] for Reference ' || vReference || ' is '|| vText); END LOOP; END;/ The Requestor for Reference EABEL-20021009123335791PDT is Ellen S. Abel The Description of LineItem[1] for Reference PTUCKER-20021009123335430PDT is Picnic at Hanging Rock PL/SQL procedure successfully completed.
Example 4-8 Extracting XML Data with EXTRACT, and Inserting It into a Table
This example extracts data from an XML purchase-order document, and inserts it into a SQL relational table using extract
.
CREATE TABLE purchaseorder_table (reference VARCHAR2(28) PRIMARY KEY, requestor VARCHAR2(48), actions XMLType, userid VARCHAR2(32), costcenter VARCHAR2(3), shiptoname VARCHAR2(48), address VARCHAR2(512), phone VARCHAR2(32), rejectedby VARCHAR2(32), daterejected DATE, comments VARCHAR2(2048), specialinstructions VARCHAR2(2048)); Table created. CREATE TABLE purchaseorder_lineitem (reference, FOREIGN KEY ("REFERENCE") REFERENCES "PURCHASEORDER_TABLE" ("REFERENCE") ON DELETE CASCADE, lineno NUMBER(10), PRIMARY KEY ("reference", "lineno"), upc VARCHAR2(14), description VARCHAR2(128), quantity NUMBER(10), unitprice NUMBER(12,2)); Table created.
INSERT INTO purchaseorder_table (reference, requestor, actions, userid, costcenter, shiptoname, address, phone, rejectedby, daterejected, comments, specialinstructions) SELECT x.OBJECT_VALUE.extract('/PurchaseOrder/Reference/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/Requestor/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/Actions'), x.OBJECT_VALUE.extract('/PurchaseOrder/User/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/CostCenter/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/ShippingInstructions/name/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/ShippingInstructions/address/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/ShippingInstructions/telephone/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/Rejection/User/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/Rejection/Date/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/Rejection/Comments/text()').getStringVal(), x.OBJECT_VALUE.extract('/PurchaseOrder/SpecialInstructions/text()').getStringVal() FROM purchaseorder x WHERE x.OBJECT_VALUE.existsNode('/PurchaseOrder[Reference="EABEL-20021009123336251PDT"]') = 1; 1 row created. INSERT INTO purchaseorder_lineitem (reference, lineno, upc, description, quantity, unitprice) SELECT x.OBJECT_VALUE.extract('/PurchaseOrder/Reference/text()').getStringVal(), value(li).extract('/LineItem/@ItemNumber').getNumberVal(), value(li).extract('/LineItem/Part/@Id').getNumberVal(), value(li).extract('/LineItem/Description/text()').getStringVal(), value(li).extract('/LineItem/Part/@Quantity').getNumberVal(), value(li).extract('/LineItem/Part/@UnitPrice').getNumberVal() FROM purchaseorder x, table(XMLSequence(OBJECT_VALUE.extract('/PurchaseOrder/LineItems/LineItem'))) li WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="EABEL-20021009123336251PDT"]') = 1; 3 rows created.
SELECT reference, userid, shiptoname, specialinstructions FROM purchaseorder_table; REFERENCE USERID SHIPTONAME SPECIALINSTRUCTIONS -------------------------------- -------- ------------------------------------------------ ------------------- EABEL-20021009123336251PDT EABEL Ellen S. Abel Counter to Counter 1 row selected. SELECT reference, lineno, upc, description, quantity FROM purchaseorder_lineitem; REFERENCE LINENO UPC DESCRIPTION QUANTITY -------------------------------- ---------- -------------- ---------------------------------- ---------- EABEL-20021009123336251PDT 1 37429125526 Samurai 2: Duel at Ichijoji Temple 3 EABEL-20021009123336251PDT 2 37429128220 The Red Shoes 4 EABEL-20021009123336251PDT 3 715515009058 A Night to Remember 1 3 rows selected.
Example 4-9 Extracting XML Data with EXTRACTVALUE, and Inserting It into a Table
This example extracts data from an XML purchase-order document, and inserts it into a relational table using SQL function extractValue
.
CREATE OR REPLACE PROCEDURE insertPurchaseOrder(PurchaseOrder XMLType) AS reference VARCHAR2(28); BEGIN INSERT INTO purchaseorder_table (reference, requestor, actions, userid, costcenter, shiptoname, address, phone, rejectedby, daterejected, comments, specialinstructions) VALUES (extractValue(PurchaseOrder, '/PurchaseOrder/Reference'), extractValue(PurchaseOrder, '/PurchaseOrder/Requestor'), extract(PurchaseOrder, '/PurchaseOrder/Actions'), extractValue(PurchaseOrder, '/PurchaseOrder/User'), extractValue(PurchaseOrder, '/PurchaseOrder/CostCenter'), extractValue(PurchaseOrder, '/PurchaseOrder/ShippingInstructions/name'), extractValue(PurchaseOrder, '/PurchaseOrder/ShippingInstructions/address'), extractValue(PurchaseOrder, '/PurchaseOrder/ShippingInstructions/telephone'), extractValue(PurchaseOrder, '/PurchaseOrder/Rejection/User'), extractValue(PurchaseOrder, '/PurchaseOrder/Rejection/Date'), extractValue(PurchaseOrder, '/PurchaseOrder/Rejection/Comments'), extractValue(PurchaseOrder, '/PurchaseOrder/SpecialInstructions')) RETURNING reference INTO reference; INSERT INTO purchaseorder_lineitem (reference, lineno, upc, description, quantity, unitprice) SELECT reference, extractValue(value(li), '/LineItem/@ItemNumber'), extractValue(value(li), '/LineItem/Part/@Id'), extractValue(value(li), '/LineItem/Description'), extractValue(value(li), '/LineItem/Part/@Quantity'), extractValue(value(li), '/LineItem/Part/@UnitPrice') FROM table(XMLSequence(extract(PurchaseOrder, '/PurchaseOrder/LineItems/LineItem'))) li; END;/ Procedure created.
CALL insertPurchaseOrder(XMLType(bfilename('XMLDIR', 'purchaseOrder.xml'), nls_charset_id('AL32UTF8'))); Call completed.
SELECT reference, userid, shiptoname, specialinstructions FROM purchaseorder_table; REFERENCE USERID SHIPTONAME SPECIALINSTRUCTIONS -------------------------------- -------- ------------------------------------------------ ------------------- SBELL-2002100912333601PDT SBELL Sarah J. Bell Air Mail 1 row selected. SELECT reference, lineno, upc, description, quantity FROM purchaseorder_lineitem; REFERENCE LINENO UPC DESCRIPTION QUANTITY ------------------------- ------ ------------ ---------------------------------- -------- SBELL-2002100912333601PDT 1 715515009058 A Night to Remember 2 SBELL-2002100912333601PDT 2 37429140222 The Unbearable Lightness Of Being 2 SBELL-2002100912333601PDT 3 715515011020 Sisters 4 3 rows selected.
Example 4-10 Searching XML Data with XMLType Methods extract() and existsNode()
This example extracts the purchase-order name from the purchase-order element, PurchaseOrder
, for customers with "ll
" (double L) in their names and the word "Shores
" in the shipping instructions. It uses XMLType
methods extract()
and existsNode()
instead of SQL functions extract and existsNode
.
SELECT p.OBJECT_VALUE.extract('/PurchaseOrder/Requestor/text()').getStringVal() NAME, count(*) FROM purchaseorder p WHERE p.OBJECT_VALUE.existsNode ('/PurchaseOrder/ShippingInstructions[ora:contains(address/text(),"Shores")>0]', 'xmlns:ora="http://xmlns.oracle.com/xdb') = 1 AND p.OBJECT_VALUE.extract('/PurchaseOrder/Requestor/text()').getStringVal() LIKE '%ll%' GROUP BY p.OBJECT_VALUE.extract('/PurchaseOrder/Requestor/text()').getStringVal(); NAME COUNT(*) -------------------- ---------- Allan D. McEwen 9 Ellen S. Abel 4 Sarah J. Bell 13 William M. Smith 7 4 rows selected.
Example 4-11 Searching XML Data with EXTRACTVALUE
This example shows the query of Example 4-10 rewritten to use SQL function extractValue
.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, count(*) FROM purchaseorder WHERE existsNode (OBJECT_VALUE, '/PurchaseOrder/ShippingInstructions[ora:contains(address/text(), "Shores")>0]', 'xmlns:ora="http://xmlns.oracle.com/xdb') = 1 AND extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor/text()') LIKE '%ll%' GROUP BY extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor'); NAME COUNT(*) -------------------- ---------- Allan D. McEwen 9 Ellen S. Abel 4 Sarah J. Bell 13 William M. Smith 7 4 rows selected.
Example 4-12 shows usage of SQL function extract
to extract nodes identified by an XPath expression. An XMLType
instance containing the XML fragment is returned by extract
. The result may be a set of nodes, a singleton node, or a text value. You can determine whether the result is a fragment using the isFragment()
method on the XMLType
instance.
Note:
You cannot insert fragments intoXMLType
columns. You can use SQL function sys_XMLGen
to convert a fragment into a well-formed document by adding an enclosing tag. See "Generating XML Using SQL Function SYS_XMLGEN". You can, however, query further on the fragment using the various XMLType
functions.Example 4-12 Extracting Fragments From an XMLType Instance Using EXTRACT
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') REFERENCE, count(*) FROM purchaseorder, table(XMLSequence(extract(OBJECT_VALUE,'//LineItem[Part/@Id="37429148327"]'))) WHERE extract(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[Part/@Id="37429148327"]').isFragment() = 1 GROUP BY extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') ORDER BY extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference'); REFERENCE COUNT(*) -------------------------------- ---------- AWALSH-20021009123337303PDT 1 AWALSH-20021009123337954PDT 1 DAUSTIN-20021009123337553PDT 1 DAUSTIN-20021009123337613PDT 1 LSMITH-2002100912333722PDT 1 LSMITH-20021009123337323PDT 1 PTUCKER-20021009123336291PDT 1 SBELL-20021009123335771PDT 1 SKING-20021009123335560PDT 1 SMCCAIN-20021009123336151PDT 1 SMCCAIN-20021009123336842PDT 1 SMCCAIN-2002100912333894PDT 1 TFOX-2002100912333681PDT 1 TFOX-20021009123337784PDT 3 WSMITH-20021009123335650PDT 1 WSMITH-20021009123336412PDT 1 16 rows selected.
This section covers updating transient XML instances and XML data stored in tables. It details use of SQL functions updateXML
, insertChildXML
, insertXMLbefore
, appendChildXML
, and deleteXML
.
For CLOB
-based storage, an update effectively replaces the entire document. To update an entire XML document, use the SQL UPDATE
statement. The right side of the UPDATE
statement SET
clause must be an XMLType
instance. This can be created in any of the following ways:
Use SQL functions or XML constructors that return an XML instance.
Use the PL/SQL DOM APIs for XMLType
that change and bind an existing XML instance.
Use the Java DOM API that changes and binds an existing XML instance.
Note:
Updates for non-schema-based XML documents always update the entire XML document.Example 4-13 Updating XMLType Using the UPDATE SQL Statement
This example updates an XMLType
instance using a SQL UPDATE
statement.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') REFERENCE, extractValue(value(li), '/LineItem/@ItemNumber') LINENO, extractValue(value(li), '/LineItem/Description') DESCRIPTION FROM purchaseorder, table(XMLSequence(extract(OBJECT_VALUE, '//LineItem'))) li WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="DAUSTIN-20021009123335811PDT"]') = 1 AND ROWNUM < 6; REFERENCE LINENO DESCRIPTION -------------------------------- ------- -------------------------------- DAUSTIN-20021009123335811PDT 1 Nights of Cabiria DAUSTIN-20021009123335811PDT 2 For All Mankind DAUSTIN-20021009123335811PDT 3 Dead Ringers DAUSTIN-20021009123335811PDT 4 Hearts and Minds DAUSTIN-20021009123335811PDT 5 Rushmore 5 rows selected. UPDATE purchaseorder SET OBJECT_VALUE = XMLType(bfilename('XMLDIR', 'NEW-DAUSTIN-20021009123335811PDT.xml'), nls_charset_id('AL32UTF8')) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="DAUSTIN-20021009123335811PDT"]') = 1; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') REFERENCE, extractValue(value(li), '/LineItem/@ItemNumber') LINENO, extractValue(value(li), '/LineItem/Description') DESCRIPTION FROM purchaseorder, table(XMLSequence(extract(OBJECT_VALUE, '//LineItem'))) li WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="DAUSTIN-20021009123335811PDT"]') = 1; REFERENCE LINENO DESCRIPTION -------------------------------- ------- -------------------------------- DAUSTIN-20021009123335811PDT 1 Dead Ringers DAUSTIN-20021009123335811PDT 2 Getrud DAUSTIN-20021009123335811PDT 3 Branded to Kill 3 rows selected.
There are several SQL functions that you can use to update XML data incrementally — that is, to replace, insert, or delete XML data without replacing the entire surrounding XML document. This is also called partial updating. These SQL functions are described in the following sections:
updateXML
– Replace XML nodes of any kind. See "UPDATEXML SQL Function".
insertChildXML
– Insert XML element or attribute nodes as children of a given element node. See "INSERTCHILDXML SQL Function".
insertXMLbefore
– Insert XML nodes of any kind immediately before a given node (other than an attribute node). See "INSERTXMLBEFORE SQL Function".
appendChildXML
– Insert XML nodes of any kind as the last child nodes of a given element node. See "APPENDCHILDXML SQL Function".
deleteXML
– Delete XML nodes of any kind. See "DELETEXML SQL Function".
Use functions insertChildXML
, insertXMLbefore
, and appendChildXML
to insert XML data; use deleteXML
to delete XML data; use updateXML
to replace XML data. In particular, do not use function updateXML
to insert or delete XML data by replacing a parent node in its entirety; this will work, but it is less efficient than using one of the other functions, which perform more localized updates.
These are all pure functions, without side effects. Each of these functions applies an XPath-expression argument to input XML data and returns a modified copy of the input XML data. You can then use that returned data with SQL operation UPDATE
to modify database data.
Each of these functions can be used on XML documents that are either schema-based or non-schema-based. In the case of schema-based XML data, these SQL functions perform partial validation on the result, and, where appropriate, argument values are also checked for compatibility with the XML schema.
Note:
Oracle SQL functions andXMLType
methods respect the W3C XPath recommendation, which states that if an XPath expression targets no nodes when applied to XML data, then an empty sequence must be returned; an error must not be raised.
The specific semantics of an Oracle SQL function or XMLType
method that applies an XPath-expression to XML data determines what is returned. For example, SQL function extract
returns NULL
if its XPath-expression argument targets no nodes, and the updating SQL functions, such as deleteXML
, return the input XML data unchanged. An error is never raised if no nodes are targeted, but updating SQL functions may raise an error if an XPath-expression argument targets inappropriate nodes, such as attribute nodes or text nodes.
See Also:
"Partial Validation" for more information on partial validation against an XML schemaSQL function updateXML
replaces XML nodes of any kind. The XML document that is the target of the update can be schema-based or non-schema-based.
A copy of the input XMLType
instance is modified and returned; the original data is unaffected. You can use that returned data with SQL operation UPDATE
to modify database data.
Function updateXML
has the following parameters (in order):
target-data
(XMLType
) – The XML data containing the target node to replace.
One or more pairs of xpath
and replacement
parameters:
xpath
(VARCHAR2
) – An XPath 1.0 expression that locates the nodes within target-data
to replace; each targeted node is replaced by replacement
. These can be nodes of any kind. If xpath
matches an empty sequence of nodes, then no replacement is done; target-data
is returned unchanged (and no error is raised).
replacement
(XMLType
or VARCHAR2
) – The XML data that replaces the data targeted by xpath
. The datatype of replacement
must correspond to the data to be replaced. If xpath
targets an element node for replacement, then the datatype must be XMLType
; if xpath
targets an attribute node or a text node, then it must be VARCHAR2
. In the case of an attribute node, replacement
is only the replacement value of the attribute (for example, 23), not the complete attribute node including the name (for example, my_attribute="23"
).
namespace
(VARCHAR2
, optional) – The XML namespace for parameter xpath
.
SQL function updateXML
can be used to replace existing elements, attributes, and other nodes with new values. It is not an efficient way to insert new nodes or delete existing ones; you can only perform insertions and deletions with updateXML
by using it to replace the entire node that is parent of the node to be inserted or deleted.
Function updateXML
updates only the transient XML instance in memory. Use a SQL UPDATE
statement to update data stored in tables.
Figure 4-4 illustrates the syntax.
Example 4-14 Updating XMLType Using UPDATE and UPDATEXML
This example uses updateXML
on the right side of an UPDATE
statement to update the XML document in a table instead of creating a new document. The entire document is updated, not just the part that is selected.
SELECT extract(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]') ACTION FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; ACTION -------------------------------- <Action> <User>SVOLLMAN</User> </Action> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = updateXML(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]/User/text()', 'SKING') WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; 1 row updated. SELECT extract(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]') ACTION FROM purchaseorder WHERE existsNode(OBJECT_VALUE,'/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; ACTION --------------------------------- <Action> <User>SKING</User> </Action> 1 row selected.
Example 4-15 Updating Multiple Text Nodes and Attribute Values Using UPDATEXML
This example updates multiple nodes using SQL function updateXML
.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ------------------------------------------------------------------------ Sarah J. Bell <LineItems> <LineItem ItemNumber="1"> <Description>A Night to Remember</Description> <Part Id="715515009058" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = updateXML(OBJECT_VALUE, '/PurchaseOrder/Requestor/text()', 'Stephen G. King', '/PurchaseOrder/LineItems/LineItem[1]/Part/@Id', '786936150421', '/PurchaseOrder/LineItems/LineItem[1]/Description/text()', 'The Rock', '/PurchaseOrder/LineItems/LineItem[3]', XMLType('<LineItem ItemNumber="99"> <Description>Dead Ringers</Description> <Part Id="715515009249" UnitPrice="39.95" Quantity="2"/> </LineItem>')) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ------------------------------------------------------------------ Stephen G. King <LineItems> <LineItem ItemNumber="1"> <Description>The Rock</Description> <Part Id="786936150421" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="99"> <Description>Dead Ringers</Description> <Part Id="715515009249" UnitPrice="39.95" Quantity="2"/> </LineItem> </LineItems> 1 row selected.
Example 4-16 Updating Selected Nodes Within a Collection Using UPDATEXML
This example uses SQL function updateXML
to update selected nodes within a collection.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ------------------------------------------------------------------------ Sarah J. Bell <LineItems> <LineItem ItemNumber="1"> <Description>A Night to Remember</Description> <Part Id="715515009058" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = updateXML(OBJECT_VALUE, '/PurchaseOrder/Requestor/text()', 'Stephen G. King', '/PurchaseOrder/LineItems/LineItem/Part[@Id="715515009058"]/@Quantity', 25, '/PurchaseOrder/LineItems/LineItem[Description/text()="The Unbearable Lightness Of Being"]', XMLType('<LineItem ItemNumber="99"> <Part Id="786936150421" Quantity="5" UnitPrice="29.95"/> <Description>The Rock</Description> </LineItem>')) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ------------------------------------------------------------------------ Stephen G. King <LineItems> <LineItem ItemNumber="1"> <Description>A Night to Remember</Description> <Part Id="715515009058" UnitPrice="39.95" Quantity="25"/> </LineItem> <LineItem ItemNumber="99"> <Part Id="786936150421" Quantity="5" UnitPrice="29.95"/> <Description>The Rock</Description> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected.
If you update an XML element to NULL
, the attributes and children of the element are removed, and the element becomes empty. The type and namespace properties of the element are retained. See Example 4-17.
If you update an attribute value to NULL
, the value appears as the empty string. See Example 4-17.
If you update the text node of an element to NULL
, the content (text) of the element is removed; the element itself remains, but is empty. See Example 4-18.
Example 4-17 NULL Updates With UPDATEXML – Element and Attribute
This example updates all of the following to NULL
:
The Description
element and the Quantity
attribute of the LineItem
element whose Part
element has attribute Id
value 715515009058.
The LineItem
element whose Description
element has the content (text) "The Unbearable Lightness Of Being".
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ------------------------------------------------------------------- Sarah J. Bell <LineItems> <LineItem ItemNumber="1"> <Description>A Night to Remember</Description> <Part Id="715515009058" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = updateXML( OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[Part/@Id="715515009058"]/Description', NULL, '/PurchaseOrder/LineItems/LineItem/Part[@Id="715515009058"]/@Quantity', NULL, '/PurchaseOrder/LineItems/LineItem[Description/text()="The Unbearable Lightness Of Being"]', NULL) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Requestor') NAME, extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') LINEITEMS FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; NAME LINEITEMS ---------------- ---------------------------------------------------------------- Sarah J. Bell <LineItems> <LineItem ItemNumber="1"> <Description/> <Part Id="715515009058" UnitPrice="39.95" Quantity=""/> </LineItem> <LineItem/> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected.
Example 4-18 updates the text node of a Part
element whose Description
attribute has value "A Night to Remember
" to NULL
.
Example 4-18 NULL Updates With UPDATEXML – Text Node
The XML data for this example corresponds to a different, revised purchase-order XML schema – see "Revised Purchase-Order XML Schema". In that XML schema, Description
is an attribute of the Part
element, not a sibling element.
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem/Part[@Description="A Night to Remember"]') PART FROM purchaseorder WHERE existsNode(object_value,'/PurchaseOrder[@Reference="SBELL-2003030912333601PDT"]') = 1; PART ---- <Part Description="A Night to Remember" UnitCost="39.95">715515009058</Part> UPDATE purchaseorder SET OBJECT_VALUE = updateXML(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem/Part[@Description="A Night to Remember"]/text()', NULL) WHERE existsNode(object_value,'/PurchaseOrder[@Reference="SBELL-2003030912333601PDT"]') = 1; SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem/Part[@Description="A Night to Remember"]') PART FROM purchaseorder WHERE existsNode(object_value,'/PurchaseOrder[@Reference="SBELL-2003030912333601PDT"]') = 1; PART ---- <Part Description="A Night to Remember" UnitCost="39.95"/>
See Also:
Example 6-2, Example 6-3, Example 3-34, and Example 3-34 for examples of rewritingupdateXML
expressionsYou can update the same XML node more than once in an updateXML
expression. For example, you can update both /EMP[EMPNO=217]
and /EMP[EMPNAME="Jane"]/EMPNO
, where the first XPath identifies the EMPNO
node containing it as well. The order of updates is determined by the order of the XPath expressions in left-to-right order. Each successive XPath works on the result of the previous XPath update.
Here are some guidelines for preserving DOM fidelity when using SQL function updateXML
:
When you update an element to NULL
, you make that element appear empty in its parent, such as in <myElem/>
.When you update a text node inside an element to NULL
, you remove that text node from the element.When you update an attribute node to NULL
, you make the value of the attribute become the empty string, for example, myAttr=""
.
When you update a complexType
element to NULL
, you make the element appear empty in its parent, for example, <myElem/>
.When you update a SQL-inlined simpleType
element to NULL
, you make the element disappear from its parent.When you update a text node to NULL
, you are doing the same thing as setting the parent simpleType
element to NULL
. Furthermore, text nodes can appear only inside simpleType
elements when DOM fidelity is not preserved, since there is no positional descriptor with which to store mixed content.When you update an attribute node to NULL
, you remove the attribute from the element.
You can determine whether or not DOM fidelity is preserved for particular parts of a given XMLType
in a given XML schema by querying the schema metadata for attribute maintainDOM
.
See Also:
"Querying a Registered XML Schema to Obtain Annotations" for an example of querying a schema to retrieve DOM fidelity values
In most cases, the SQL functions that modify XML data (updateXML
, insertChildXML
, insertXMLbefore
, appendChildXML
, and deleteXML
) materialize a copy of the entire input XML document in memory, then update the copy. However, functions updateXML
, insertChildXML
, and deleteXML
are optimized for SQL UPDATE
operations on XML schema-based, object-relationally stored XMLType
tables and columns. If particular conditions are met, then the function call is rewritten to update the object-relational columns directly with the values.
See Also:
Chapter 3, "Using Oracle XML DB" and Chapter 6, "XPath Rewrite" for information on the conditions for XPath rewrite.For example, the XPath argument to updateXML
in Example 4-19 is processed by Oracle XML DB and rewritten into the equivalent object relational SQL statement shown in Example 4-20.
Example 4-19 XPath Expressions in UPDATEXML Expression
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/User') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; EXTRACTVAL ---------- SBELL 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = updateXML(OBJECT_VALUE, '/PurchaseOrder/User/text()', 'SVOLLMAN') WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/User') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; EXTRACTVAL ---------- SVOLLMAN 1 row selected.
Example 4-20 Object Relational Equivalent of UPDATEXML Expression
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/User') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; EXTRACTVAL ---------- SBELL 1 row selected. UPDATE purchaseorder p SET p."XMLDATA"."USERID" = 'SVOLLMAN' WHERE p."XMLDATA"."REFERENCE" = 'SBELL-2002100912333601PDT'; 1 row updated. SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/User') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; EXTRACTVAL ---------- SVOLLMAN 1 row selected.
You can use the SQL functions that modify XML data (updateXML
, insertChildXML
, insertXMLbefore
, appendChildXML
, and deleteXML
) to create new views of XML data.
Example 4-21 Creating Views Using UPDATEXML
This example creates a view of the purchaseorder
table using SQL function updateXML
.
CREATE OR REPLACE VIEW purchaseorder_summary OF XMLType AS
SELECT updateXML(OBJECT_VALUE,
'/PurchaseOrder/Actions', NULL,
'/PurchaseOrder/ShippingInstructions', NULL,
'/PurchaseOrder/LineItems', NULL) AS XML
FROM purchaseorder p;
View created.
SELECT OBJECT_VALUE FROM purchaseorder_summary
WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="DAUSTIN-20021009123335811PDT"]') = 1;
OBJECT_VALUE
---------------------------------------------------------------------------
<PurchaseOrder
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:noNamespaceSchemaLocation="http://localhost:8080/source/schemas/poSource/xsd/purchaseOrder.xsd">
<Reference>DAUSTIN-20021009123335811PDT</Reference>
<Actions/>
<Reject/>
<Requestor>David L. Austin</Requestor>
<User>DAUSTIN</User>
<CostCenter>S30</CostCenter>
<ShippingInstructions/>
<SpecialInstructions>Courier</SpecialInstructions>
<LineItems/>
</PurchaseOrder>
1 row selected.
SQL function insertChildXML
inserts new children (one or more elements of the same type or a single attribute) under parent XML elements. The XML document that is the target of the insertion can be schema-based or non-schema-based.
A copy of the input XMLType
instance is modified and returned; the original data is unaffected. You can use that returned data with SQL operation UPDATE
to modify database data.
Function insertChildXML
has the following parameters (in order):
target-data
(XMLType
) – The XML data containing the target parent element.
parent-xpath
(VARCHAR2
) – An XPath 1.0 expression that locates the parent elements within target-data
; child-data
is inserted under each parent element.
If parent-xpath
matches an empty sequence of element nodes, then no insertion is done; target-data
is returned unchanged (and no error is raised). If parent-xpath
does not match a sequence of element nodes (in particular, if parent-xpath
matches one or more attribute or text nodes), then an error is raised.
child-name
(VARCHAR2
) – The name of the child elements or attribute to insert. An attribute name is distinguished from an element name by having an at-sign (@
) prefix as part of child-name
, for example, @my_attribute
versus my_element
. (The at-sign is not part of the actual attribute name, but serves in the argument to indicate that child-name
refers to an attribute.)
child-data
(XMLType
or VARCHAR2
) – The child XML data to insert:
If one or more elements are being inserted, then this is of datatype XMLType
, and it contains element nodes. Each of the top-level element nodes in child-data
must have the same name (tag) as child-name
(or else an error is raised).
If an attribute is being inserted, then this is of datatype VARCHAR2
, and it represents the (scalar) attribute value. If an attribute of the same name already exists at the insertion location, then an error is raised.
namespace
(VARCHAR2
, optional) – The XML namespace for parameters parent-xpath
and child-data
.
XML data child-data
is inserted as one or more child elements, or a single child attribute, under each of the parent elements located at parent-xpath
; the result is returned.
In order of decreasing precedence, function insertChildXML
has the following behavior for NULL
arguments:
If child-name
is NULL
, then an error is raised.
If target-data
or parent-xpath
is NULL
, then NULL
is returned.
If child-data
is NULL
, then:
If child-name
names an element, then no insertion is done; target-data
is returned unchanged.
If child-name
names an attribute, then an empty attribute value is inserted, for example, my_attribute =
""
.
Figure 4-5 shows the syntax.
If target-data
is XML schema-based, then the schema is consulted to determine the insertion positions. For example, if the schema constrains child elements named child-name
to be the first child elements of a parent-xpath
, then the insertion takes this into account. Similarly, if the child-name
or child-data
argument is inappropriate for an associated schema, then an error is raised.
If the parent element does not yet have a child corresponding in name and kind to child-name
(and if such a child is permitted by the associated XML schema, if any), then child-data
is inserted as new child elements, or a new attribute value, named child-name
.
If the parent element already has a child attribute named child-name
(without the at-sign), then an error is raised. If the parent element already has a child element named child-name
(and if more than one child element is permitted by the associated XML schema, if any), then child-data
is inserted so that its elements become the last child elements named child-name
.
Example 4-22 Inserting a LineItem Element into a LineItems Element
SELECT extract(OBJECT_VALUE,
'/PurchaseOrder/LineItems/LineItem[@ItemNumber="222"]')
FROM purchaseorder
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[@ITEMNUMBER="222"]')
----------------------------------------------------------------------------
1 row selected.
UPDATE purchaseorder
SET OBJECT_VALUE =
insertChildXML(OBJECT_VALUE,
'/PurchaseOrder/LineItems',
'LineItem',
XMLType('<LineItem ItemNumber="222">
<Description>The Harder They Come</Description>
<Part Id="953562951413"
UnitPrice="22.95"
Quantity="1"/>
</LineItem>'))
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
1 row updated.
SELECT extract(OBJECT_VALUE,
'/PurchaseOrder/LineItems/LineItem[@ItemNumber="222"]')
FROM purchaseorder
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[@ITEMNUMBER="222"]')
----------------------------------------------------------------------------
<LineItem ItemNumber="222">
<Description>The Harder They Come</Description>
<Part Id="953562951413" UnitPrice="22.95" Quantity="1"/>
</LineItem>
1 row selected.
If XML data to be updated is XML schema-based and it refers to a namespace, then the data to be inserted must also refer to the same namespace; otherwise, an error will be raised because the inserted data does not conform to the XML schema. For example, if the data in Example 4-22 used the namespace films.xsd
, then the UPDATE
statement would need to be as shown in Example 4-23.
Example 4-23 Inserting an Element that Uses a Namespace
This example is the same as Example 4-22, except that the LineItem
element to be inserted refers to a namespace. This assumes that the XML schema requires a namespace for this element.
Note that this use of namespaces is different from the use of a namespace argument to function insertChildXML
– namespaces supplied in that optional argument apply only to the XPath argument, not to the content to be inserted.
UPDATE purchaseorder
SET OBJECT_VALUE =
insertChildXML(OBJECT_VALUE,
'/PurchaseOrder/LineItems',
'LineItem',
XMLType('<LineItem xmlns="films.xsd" ItemNumber="222">
<Description>The Harder They Come</Description>
<Part Id="953562951413"
UnitPrice="22.95"
Quantity="1"/>
</LineItem>'))
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
1 row updated.
SQL function insertXMLbefore
inserts one or more nodes of any kind immediately before a target node that is not an attribute node. The XML document that is the target of the insertion can be schema-based or non-schema-based.
A copy of the input XMLType
instance is modified and returned; the original data is unaffected. You can use that returned data with SQL operation UPDATE
to modify database data.
Function insertXMLbefore
has the following parameters (in order):
target-data
(XMLType
) – The XML data that is the target of the insertion.
successor-xpath
(VARCHAR2
) – An XPath 1.0 expression that locates zero or more nodes in target-data
of any kind except attribute nodes. XML-data
is inserted immediately before each of these nodes; that is, the nodes in XML-data
become preceding siblings of each of thesuccessor-xpath
nodes.
If successor-xpath
matches an empty sequence of nodes, then no insertion is done; target-data
is returned unchanged (and no error is raised). If successor-xpath
does not match a sequence of nodes that are not attribute nodes, then an error is raised.
XML-data
(XMLType
) – The XML data to be inserted: one or more nodes of any kind. The order of the nodes is preserved after the insertion.
namespace
(optional, VARCHAR2
) – The namespace for parameter successor-xpath
.
The XML-data
nodes are inserted immediately before each of the nonattribute nodes located at successor-xpath
; the result is returned.
Function insertXMLbefore
has the following behavior for NULL
arguments:
If target-data
or parent-xpath
is NULL
, then NULL
is returned.
Otherwise, if child-data
is NULL
, then no insertion is done; target-data
is returned unchanged.
Figure 4-6 shows the syntax.
Example 4-24 Inserting a LineItem Element Before the First LineItem ELement
SELECT extract(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[1]') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[1]') ------------------------------------------------------------ <LineItem ItemNumber="1"> <Description>Salesman</Description> <Part Id="37429158920" UnitPrice="39.95" Quantity="2"/> </LineItem> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = insertXMLbefore(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[1]', XMLType('<LineItem ItemNumber="314"> <Description>Brazil</Description> <Part Id="314159265359" UnitPrice="69.95" Quantity="2"/> </LineItem>')) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; SELECT extract(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[position() <= 2]') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[POSITION()<=2]') ------------------------------------------------------------------------ <LineItem ItemNumber="314"> <Description>Brazil</Description> <Part Id="314159265359" UnitPrice="69.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="1"> <Description>Salesman</Description> <Part Id="37429158920" UnitPrice="39.95" Quantity="2"/> </LineItem> 1 row selected.
SQL function appendChildXML
inserts one or more nodes of any kind as the last children of a given element node. The XML document that is the target of the insertion can be schema-based or non-schema-based.
A copy of the input XMLType
instance is modified and returned; the original data is unaffected. You can use that returned data with SQL operation UPDATE
to modify database data.
Function appendChildXML
has the following parameters (in order):
target-data
(XMLType
)– The XML data containing the target parent element.
parent-xpath
(VARCHAR2
) – An XPath 1.0 expression that locates zero or more element nodes in target-data
that are the targets of the insertion operation; child-data
is inserted as the last child or children of each of these parent elements.
If parent-xpath
matches an empty sequence of element nodes, then no insertion is done; target-data
is returned unchanged (and no error is raised). If parent-xpath
does not match a sequence of element nodes (in particular, if parent-xpath
matches one or more attribute or text nodes), then an error is raised.
child-data
(XMLType
) – Child data to be inserted: one or more nodes of any kind. The order of the nodes is preserved after the insertion.
namespace
(optional, VARCHAR2
) – The namespace for parameter parent-xpath
.
XML data child-data
is inserted as the last child or children of each of the element nodes indicated by parent-xpath
; the result is returned.
Function appendChildXML
has the following behavior for NULL
arguments:
If target-data
or parent-xpath
is NULL
, then NULL
is returned.
Otherwise, if child-data
is NULL
, then no insertion is done; target-data
is returned unchanged.
Figure 4-6 shows the syntax.
Example 4-25 Inserting a Date Element as the Last Child of an Action Element
SELECT extract(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/ACTIONS/ACTION[1]') -------------------------------------------------------- <Action> <User>KPARTNER</User> </Action> 1 row selected. UPDATE purchaseorder SET OBJECT_VALUE = appendChildXML(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]', XMLType('<Date>2002-11-04</Date>')) WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; SELECT extract(OBJECT_VALUE, '/PurchaseOrder/Actions/Action[1]') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]') = 1; EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/ACTIONS/ACTION[1]') -------------------------------------------------------- <Action> <User>KPARTNER</User> <Date>2002-11-04</Date> </Action> 1 row selected.
SQL function deleteXML
deletes XML nodes of any kind. The XML document that is the target of the deletion can be schema-based or non-schema-based.
A copy of the input XMLType
instance is modified and returned; the original data is unaffected. You can use that returned data with SQL operation UPDATE
to modify database data.
Function deleteXML
has the following parameters (in order):
target-data
(XMLType
) – The XML data containing the target nodes (to be deleted).
xpath
(VARCHAR2
) – An XPath 1.0 expression that locates zero or more nodes in target-data
that are the targets of the deletion operation; each of these nodes is deleted.
If xpath
matches an empty sequence of nodes, then no deletion is done; target-data
is returned unchanged (and no error is raised). If xpath
matches the top-level element node, then an error is raised.
namespace
(optional, VARCHAR2
) – The namespace for parameter xpath
.
The XML nodes located at xpath
are deleted from target-data
; the result is returned. Function deleteXML
returns NULL
if target-data
or xpath
is NULL
.
Figure 4-6 shows the syntax.
Example 4-26 Deleting LineItem Element Number 222
SELECT extract(OBJECT_VALUE,
'/PurchaseOrder/LineItems/LineItem[@ItemNumber="222"]')
FROM purchaseorder
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[@ITEMNUMBER="222"]')
----------------------------------------------------------------------------
<LineItem ItemNumber="222">
<Description>The Harder They Come</Description>
<Part Id="953562951413" UnitPrice="22.95" Quantity="1"/>
</LineItem>
1 row selected.
UPDATE purchaseorder
SET OBJECT_VALUE =
deleteXML(OBJECT_VALUE,
'/PurchaseOrder/LineItems/LineItem[@ItemNumber="222"]')
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
SELECT extract(OBJECT_VALUE,
'/PurchaseOrder/LineItems/LineItem[@ItemNumber="222"]')
FROM purchaseorder
WHERE existsNode(OBJECT_VALUE,
'/PurchaseOrder[Reference="AMCEWEN-20021009123336171PDT"]')
= 1;
EXTRACT(OBJECT_VALUE,'/PURCHASEORDER/LINEITEMS/LINEITEM[@ITEMNUMBER="222"]')
----------------------------------------------------------------------------
1 row selected.
Chapter 3 provides a basic introduction to creating indexes on XML documents that have been stored using the structured storage option. It demonstrates how to use the extractValue()
function to create indexes on XMLType
documents stored in tables or columns that are based on the structured storage option.
This section discusses other indexing techniques, including the following:
XPath Rewrite for Indexes on Singleton Elements or Attributes
Creating Function-Based Indexes on XMLType Tables and Columns
When indexes are created on structured XMLType
tables or columns, Oracle XML DB attempts to rewrite the XPath expressions provided to SQL function extractValue
into CREATE INDEX
statements that operate directly on the underlying objects.
For instance, given an index created as shown in Example 4-27, XPath rewrite will rewrite the index, resulting in the create index statement shown in Example 4-28 being executed. As can be seen, the rewritten index is created directly on the columns that manage the attributes of the underlying SQL objects. This technique works well when the element or attribute being indexed occurs only once in the XML Document.
You often need to create an index over a collection: nodes that occur more than once in the target document.
For instance, suppose that you want to create an index on the Id
attribute of the LineItem
element. A logical first attempt would be to create an index using the syntax shown in Example 4-29. However, when the element or attribute being indexed occurs multiple times in the document, the CREATE INDEX
operation fails, because extractValue()
is only allowed to return a single value for each row it processes.
Example 4-29 Using extractValue() to Create an Index on a Repeating Element or Attributes
CREATE INDEX ilineitem_upccode ON purchaseorder (extractValue(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem/Part/@Id')); (extractValue(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem/Part/@Id')) * ERROR at line 2: ORA-19025: EXTRACTVALUE returns value of only one node
You can instead create an index by replacing extractValue
with function extract
and method getStringVal()
, as shown in Example 4-30.
Example 4-30 Using getStringVal() to Create a Function-Based Index on an EXTRACT
CREATE INDEX ilineitem_upccode ON purchaseorder (extract(OBJECT_VALUE,'PurchaseOrder/LineItems/LineItem/Part/@Id').getStringVal()); Index created.
This allows the CREATE INDEX
statement to succeed. However, the index that is created is not what you might expect. The index is created by invoking SQL function extract
and XMLType
method getStringVal()
for each row in the table, and then indexing the result against the rowid of the row.
The problem with this technique is that function extract
can only return multiple nodes. The result of function extract
is a single XMLType
XML fragment containing all the matching nodes. The result of invoking getStringVal()
on an XMLType
instance that contains a fragment is a concatenation of the nodes in the fragment:
SELECT extract(OBJECT_VALUE, '/PurchaseOrder/LineItems') XML, extract(OBJECT_VALUE, 'PurchaseOrder/LineItems/LineItem/Part/@Id').getStringVal() INDEX_VALUE FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference="SBELL-2002100912333601PDT"]') = 1; XML INDEX_VALUE -------------------------------------------------------------------- -------------- <LineItems> 71551500905837 <LineItem ItemNumber="1"> 42914022271551 <Description>A Night to Remember</Description> 5011020 <Part Id="715515009058" UnitPrice="39.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="2"> <Description>The Unbearable Lightness Of Being</Description> <Part Id="37429140222" UnitPrice="29.95" Quantity="2"/> </LineItem> <LineItem ItemNumber="3"> <Description>Sisters</Description> <Part Id="715515011020" UnitPrice="29.95" Quantity="4"/> </LineItem> </LineItems> 1 row selected.
What is indexed for this row is the concatenation of the 3 UPC codes, not, as intended, each of the individual UPC codes. In general, care should be taken when creating an index using SQL function extract
. It is unlikely that this index will be useful.
As is shown in Chapter 3 for schema-based XMLType
values, the best way to resolve this issue is to adopt a storage structure that uses nested tables, to force each node that is indexed to be stored as a separate row. The index can then be created directly on the nested table using object-relational SQL similar to that generated by XPath rewrite.
The index created in Example 4-30 is an example of a function-based index. A function-based index is created by evaluating the specified functions for each row in the table. In the case of Example 4-30, the results of the functions were not useful, and consequently the index itself was not useful.
A function-based index can be useful when the XML content is not managed using structured storage. In this case, instead of the CREATE INDEX
statement being rewritten, the index is created by invoking the function on the XML content and indexing the result.
Example 4-31 Creating a Function-Based Index on a CLOB-based XMLType()
The table created in this example uses CLOB
storage rather than structured storage. The CREATE INDEX
statement creates a function-based index on the value of the text node of the Reference
element. This index enforces the uniqueness constraint on the text-node value.
CREATE TABLE purchaseorder_clob OF XMLType XMLTYPE STORE AS CLOB ELEMENT "http://localhost:8080/source/schemas/poSource/xsd/purchaseOrder.xsd#PurchaseOrder"; Table created. INSERT INTO purchaseorder_clob SELECT OBJECT_VALUE FROM purchaseorder; 134 rows created. CREATE UNIQUE INDEX ipurchaseorder_reference ON purchaseorder_clob (extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference')); Index created. INSERT INTO purchaseorder_clob VALUES (XMLType(bfilename('XMLDIR', 'EABEL-20021009123335791PDT.xml'), nls_charset_id('AL32UTF8'))); INSERT INTO purchaseorder_clob* ERROR at line 1: ORA-00001: unique constraint (QUINE.IPURCHASEORDER_REFERENCE) violated
The optimizer only considers using the index when the function included in the WHERE
clause is identical to the function used to create the index.
Consider the queries in Example 4-32, which find a PurchaseOrder
-based value of the text node associated with the Reference
element. The first query, which uses function existsNode
to locate the document, does not use the index, while the second query, which uses function extractValue
, does use the index. This is because the index was created using extractValue
.
Example 4-32 Queries that use Function-Based Indexes
EXPLAIN PLAN FOR SELECT OBJECT_VALUE FROM purchaseorder_clob WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[Reference = "EABEL-20021009123335791PDT"') = 1; Explained. PLAN_TABLE_OUTPUT ------------------------------------------------------------------------------------------ Plan hash value: 3761539978 ---------------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | ---------------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 2 | 4004 | 3 (34)| 00:00:01 | |* 1 | TABLE ACCESS FULL| PURCHASEORDER_CLOB | 2 | 4004 | 3 (34)| 00:00:01 | ---------------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter(EXISTSNODE(SYS_MAKEXML('3A7F7DBBEE5543A486567A908C71D65A',3664,"PU RCHASEORDER_CLOB"."XMLDATA"),'/PurchaseOrder[Reference = "EABEL-20021009123335791P DT"')=1) 15 rows selected. EXPLAIN PLAN FOR SELECT OBJECT_VALUE FROM purchaseorder_clob WHERE extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') = 'EABEL-20021009123335791PDT'; Explained. PLAN_TABLE_OUTPUT -------------------------------------------------------------------------------------------------------------- Plan hash value: 1408177405 -------------------------------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | -------------------------------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 1 | 2002 | 1 (0)| 00:00:01 | | 1 | TABLE ACCESS BY INDEX ROWID| PURCHASEORDER_CLOB | 1 | 2002 | 1 (0)| 00:00:01 | |* 2 | INDEX UNIQUE SCAN | IPURCHASEORDER_REFERENCE | 1 | | | 00:00:01 | -------------------------------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 2 - access(EXTRACTVALUE(SYS_MAKEXML('3A7F7DBBEE5543A486567A908C71D65A',3664,"XMLDATA"),'/Purc haseOrder/Reference')='EABEL-20021009123335791PDT') Note ----- - dynamic sampling used for this statement 20 rows selected.
Function-based indexes can be created on both structured and unstructured schema-based XMLType
tables and columns as well as non-schema-based XMLType
tables and columns. If XPath rewrite cannot process the XPath expression supplied as part of the CREATE INDEX
statement, the statement will result in a function-based index being created.
An example of this would be creating an index based on SQL function existsNode
. Function existsNode
returns 1
or 0
, depending on whether or not a document contains a node that matches the supplied XPath expression. This means that it is not possible for XPath rewrite to generate an equivalent object-relational CREATE INDEX
statement. In general, since existsNode
returns 0
or 1
, it makes sense to use bitmap indexes when creating an index based on function existsNode
.
In Example 4-33, an index is created that can be used to speed up a query that searches for instances of a rejected purchase order by looking for the presence of a text node of element /PurchaseOrder/Reject/User
.
Since the index is function-based, it can be used with structured and unstructured schema-based XMLType
tables and columns, and with non-schema-based XMLType
tables and columns.
Example 4-33 Creating a Function-Based index on Schema-Based XMLType
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder/Reject/User/text()') = 1; EXTRACTVALUE(OBJECT_VALUE,'/PU ------------------------------ SMCCAIN-2002091213000000PDT 1 row selected. CREATE BITMAP INDEX ipurchaseorder_rejected ON purchaseorder (existsNode(OBJECT_VALUE, '/PurchaseOrder/Reject/User/text()')); Index created. CALL DBMS_STATS.gather_table_stats(USER, 'PURCHASEORDER'); Call completed. EXPLAIN PLAN FOR SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder/Reject/User/text()') = 1; Explained. PLAN_TABLE_OUTPUT ------------------------------------------------------------------------------------- Plan hash value: 841749721 ----------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | ----------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 1 | 419 | 4 (0)| 00:00:01 | |* 1 | TABLE ACCESS FULL| PURCHASEORDER | 1 | 419 | 4 (0)| 00:00:01 | ----------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter("PURCHASEORDER"."SYS_NC00018$" IS NOT NULL) 13 rows selected.
The indexing techniques outlined earlier in this chapter require you to be aware in advance of the set of XPath expressions that will be used when searching XML content. Oracle XML DB also makes it possible to create a CTXXPATH
index. This is a general-purpose XPath-based index that can be used to improve the performance of any search based on SQL function existsNode
. A CTXXPath
index has the following advantages:
You do not need prior knowledge of the XPath expressions that will be searched on.
You can use it with structured and unstructured schema-based XMLType
tables and columns, and with non-schema-based XMLType
tables and columns.
You can use it to improve the performance of searches that involve XPath expressions that target nodes that occur multiple times within a document.
The CTXXPATH
index is based on Oracle Text technology and the functionality provided in the HASPATH
and INPATH
operators provided by the Oracle Text contains
function. The HASPATH
and INPATH
operators allow high performance XPath-like searches to be performed over XML content. Unfortunately, they do not support true XPath-compliant syntax.
The CTXXPATH
index is designed to rewrite the XPath expression supplied to SQL function existsNode
into HASPATH
and INPATH
operators, which can use the underlying text index to quickly locate a superset of the documents that match the supplied XPath expression. Each document identified by the text index is then checked, using a DOM-based evaluation, to ensure that it is a true match for the supplied XPath expression. Due to the asynchronous nature of the underlying Oracle Text technology, the CTXXPATH
index will also perform a DOM-based evaluation of all un-indexed documents, to see if they also should be included in the result set.
CTXXPATH
indexing has the following characteristics:
It can be used only to speed up processing of function existsNode
. It acts as a primary filter for function existsNode
. In other words, it provides a superset of the results that existsNode
provides.
It works only for queries where the XPath expressions that identify the required documents are supplied using an existsNode
expression that appears in the WHERE
clause of the SQL statement being executed.
It handles only a limited set of XPath expressions. See "Choosing the Right Plan: Using CTXXPATH Index in EXISTSNODE Processing" for the list of XPath expressions not supported by the index.
It supports only the STORAGE
preference parameter. See "Creating CTXXPATH Storage Preferences With CTX_DDL. Statements".
It follows the transactional semantics of function existsNode
, returning unindexed rows as part of its result set, in order to guarantee that it returns a superset of the valid results. This is despite the asynchronous nature of Data Manipulation Language (DML) operations such as updating and deleting. (You must use a special command to synchronize DML operations, in a fashion similar to that of the Oracle Text index.)
You create CTXXPATH
indexes the same way you create Oracle Text indexes, using the following syntax:
CREATE INDEX [schema.]index ON [schema.]table(XMLType column) INDEXTYPE IS CTXSYS.ctxxpath [PARAMETERS(paramstring)];
where
paramstring = '[storage storage_pref] [memory memsize] [populate | nopopulate]'
Example 4-34 Using CTXXPATH Index and EXISTSNODE for XPath Searching
This example demonstrates how to create a CTXXPATH
index for XPath searching. A CTXXPATH
index is a global index – the EXPLAIN PLAN
s in this example show that the index is used for each of two very different queries.
CREATE INDEX purchaseorder_clob_xpath ON purchaseorder_clob (OBJECT_VALUE) INDEXTYPE IS CTXSYS.ctxxpath; EXPLAIN PLAN FOR SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder_clob WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder[SpecialInstructions="Air Mail"]') = 1; Explained. PLAN_TABLE_OUTPUT -------------------------------------------------------------------------------------------------------- Plan hash value: 2191955729 -------------------------------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | -------------------------------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 1 | 2031 | 4 (0)| 00:00:01 | |* 1 | TABLE ACCESS BY INDEX ROWID| PURCHASEORDER_CLOB | 1 | 2031 | 4 (0)| 00:00:01 | |* 2 | DOMAIN INDEX | PURCHASEORDER_CLOB_XPATH | | | 4 (0)| 00:00:01 | -------------------------------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter(EXISTSNODE(SYS_MAKEXML('E26E03C077B81004E0340003BA0BF841',3626,"PURCHASEORDER_CLOB "."XMLDATA"),'/PurchaseOrder[SpecialInstructions="Air Mail"]')=1) 2 - access("CTXSYS"."XPCONTAINS"(SYS_MAKEXML('E26E03C077B81004E0340003BA0BF841',3626,"XMLDATA "),'HASPATH(/2cc2504b[6b3fb29d="17a03105"]) ')>0) Note ----- - dynamic sampling used for this statement 21 rows selected. EXPLAIN PLAN FOR SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder_clob WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[Description="The Rock"]') = 1; Explained. PLAN_TABLE_OUTPUT -------------------------------------------------------------------------------------------------------- Plan hash value: 2191955729 -------------------------------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | -------------------------------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 1 | 2031 | 4 (0)| 00:00:01 | |* 1 | TABLE ACCESS BY INDEX ROWID| PURCHASEORDER_CLOB | 1 | 2031 | 4 (0)| 00:00:01 | |* 2 | DOMAIN INDEX | PURCHASEORDER_CLOB_XPATH | | | 4 (0)| 00:00:01 | -------------------------------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter(EXISTSNODE(SYS_MAKEXML('E26E03C077B81004E0340003BA0BF841',3626,"PURCHASEORDER_CLOB "."XMLDATA"),'/PurchaseOrder/LineItems/LineItem[Description="The Rock"]')=1) 2 - access("CTXSYS"."XPCONTAINS"(SYS_MAKEXML('E26E03C077B81004E0340003BA0BF841',3626,"XMLDATA "),'HASPATH(/2cc2504b/52304c67/69182640[2ea8698d="0fb68600"]) ')>0) Note ----- - dynamic sampling used for this statement 21 rows selected.
The only preference allowed in CTXXPATH
indexing is the STORAGE
preference. Create the STORAGE
preference the same way you would for an Oracle Text index, as shown in Example 4-35.
Note:
You must be granted execute privileges on theCTXSYS.CTX_DLL
package in order to create storage preferences.Example 4-35 Creating and Using Storage Preferences for CTXXPATH Indexes
BEGIN CTX_DDL.create_preference('CLOB_XPATH_STORE', 'BASIC_STORAGE'); CTX_DDL.set_attribute('CLOB_XPATH_STORE', 'I_TABLE_CLAUSE', 'tablespace USERS storage (initial 1K)'); CTX_DDL.set_attribute('CLOB_XPATH_STORE', 'K_TABLE_CLAUSE', 'tablespace USERS storage (initial 1K)'); CTX_DDL.set_attribute('CLOB_XPATH_STORE', 'R_TABLE_CLAUSE', 'tablespace USERS storage (initial 1K)'); CTX_DDL.set_attribute('CLOB_XPATH_STORE', 'N_TABLE_CLAUSE', 'tablespace USERS storage (initial 1K)'); CTX_DDL.set_attribute('CLOB_XPATH_STORE', 'I_INDEX_CLAUSE', 'tablespace USERS storage (initial 1K)'); END;/ PL/SQL procedure successfully completed.
CREATE INDEX purchaseorder_clob_xpath ON purchaseorder_clob (OBJECT_VALUE) INDEXTYPE IS CTXSYS.ctxxpath PARAMETERS('storage CLOB_XPATH_STORE memory 120M'); Index created. EXPLAIN PLAN FOR SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder_clob WHERE existsNode(OBJECT_VALUE, '//LineItem/Part[@Id="715515011624"]') = 1; Explained. PLAN_TABLE_OUTPUT ----------------------------------------------------------------------------------------------- Plan hash value: 2191955729 -------------------------------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time | -------------------------------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 1 | 2031 | 4 (0)| 00:00:01 | |* 1 | TABLE ACCESS BY INDEX ROWID| PURCHASEORDER_CLOB | 1 | 2031 | 4 (0)| 00:00:01 | | 2 | DOMAIN INDEX | PURCHASEORDER_CLOB_XPATH | | | 4 (0)| 00:00:01 | -------------------------------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - filter(EXISTSNODE(SYS_MAKEXML('3A7F7DBBEE5543A486567A908C71D65A',3664,"PURCHASEORDER_CLOB "."XMLDATA"),'//LineItem/Part[@Id="715515011624"]')=1) Note ----- - dynamic sampling used for this statement 19 rows selected.
Example 4-36 Synchronizing the CTXXPATH Index
This example shows how to synchronize DML operations using the sync_index
procedure in the CTX_DDL
package.
CALL CTX_DDL.sync_index('purchaseorder_clob_xpath'); Call completed.
Example 4-37 Optimizing the CTXXPATH Index
This example shows how to optimize the CTXXPATH
index using the optimize_index
procedure in the CTX_DDL
package.
EXEC CTX_DDL.optimize_index('PURCHASEORDER_CLOB_XPATH', 'FAST'); PL/SQL procedure successfully completed. EXEC CTX_DDL.optimize_index('PURCHASEORDER_CLOB_XPATH', 'FULL'); PL/SQL procedure successfully completed.
It is not guaranteed that a CTXXPATH
index will always be used to speed up existsNode
processing, for the following reasons:
Oracle Database cost-based optimizer may decide it is too costly to use CTXXPATH
index as a primary filter
XPath expressions cannot all be handled by CTXXPATH
index. The following XPath constructs cannot be handled by CTXXPATH
index:
XPath functions
Numerical range operators
Numerical equality
Arithmetic operators
Union operator (|
)
Parent and sibling axes
An attribute following an asterisk (*
), double slashes (//
), or double periods (..
); for example, /A/*/@attr
, /A//@attr
, or /A//../@attr
A period (.
) or an asterisk (*
) at the end of a path expression
A predicate following a period (.
) or an asterisk (*
)
String literal equalities are supported with the following restrictions:
The left side must be a path – period (.
) by itself is not allowed; for example, .="dog"
is not allowed
The right side must be a literal
Anything not expressible by abbreviated syntax is unsupported
For the cost-based optimizer to better estimate the costs and selectivities for function existsNode
, you must first gather statistics on your CTXXPATH
indexing by using the ANALYZE
command or DBMS_STATS
package as follows:
ANALYZE INDEX myPathIndex COMPUTE STATISTICS;
or you can simply analyze the whole table:
ANALYZE TABLE XMLTab COMPUTE STATISTICS;
XPath queries on XML schema-based XMLType
table are candidates for XPath rewrite. An existsNode
expression in a query may be rewritten to a set of operators on the underlying object-relational columns of the schema-based table. In such a case, the CTXXPATH
index can no longer be used by the query, since it can only be used to satisfy existsNode
queries on the index expression, specified during index creation time.
In Example 4-38, a CTXXPATH
index is created on table purchaseorder
. The existsNode
expression specified in the WHERE
clause is rewritten into an expression that checks if the underlying object-relational column is not NULL
. This is in accordance with XPath rewrite rules. The optimizer hint /*+ NO_XML_QUERY_REWRITE */
causes XPath rewrite to be turned off for the query, so the existsNode
expression is left unchanged.
Example 4-38 Creating a CTXXPATH Index on a Schema-Based XMLType Table
CREATE INDEX purchaseorder_xpath ON purchaseorder (OBJECT_VALUE)
INDEXTYPE IS CTXSYS.CTXXPATH;
Index created.
EXPLAIN PLAN FOR
SELECT extractValue(OBJECT_VALUE, '/PurchaseOrder/Reference') FROM purchaseorder
WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[Description = "The Rock"]') = 1;
Explained.
PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------------------
Plan hash value: 122532357
--------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
--------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 13 | 65520 | 823 (1)| 00:00:10 |
|* 1 | HASH JOIN SEMI | | 13 | 65520 | 823 (1)| 00:00:10 |
| 2 | TABLE ACCESS FULL | PURCHASEORDER | 134 | 56146 | 4 (0)| 00:00:01 |
|* 3 | INDEX FAST FULL SCAN| LINEITEM_TABLE_IOT | 13 | 60073 | 818 (0)| 00:00:10 |
--------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
1 - access("NESTED_TABLE_ID"="PURCHASEORDER"."SYS_NC0003400035$")
3 - filter("DESCRIPTION"='The Rock')
Note
-----
- dynamic sampling used for this statement
20 rows selected.
EXPLAIN PLAN FOR
SELECT /*+ NO_XML_QUERY_REWRITE */ extractValue(OBJECT_VALUE,'/PurchaseOrder/Reference')
FROM purchaseorder
WHERE existsNode(OBJECT_VALUE, '/PurchaseOrder/LineItems/LineItem[Description = "The Rock"]') = 1;
Explained.
PLAN_TABLE_OUTPUT
---------------------------------------------------------------------------------------------------
Plan hash value: 3192700042
---------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
---------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 419 | 4 (0)| 00:00:01 |
|* 1 | TABLE ACCESS BY INDEX ROWID| PURCHASEORDER | 1 | 419 | 4 (0)| 00:00:01 |
| 2 | DOMAIN INDEX | PURCHASEORDER_XPATH | | | 4 (0)| 00:00:01 |
---------------------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
1 - filter(EXISTSNODE(SYS_MAKEXML('3A7F7DBBEE5543A486567A908C71D65A',3664,"PURCHASEORDER
"."XMLEXTRA","PURCHASEORDER"."XMLDATA"),'/PurchaseOrder/LineItems/LineItem[Description="The
Rock"]')=1)
16 rows selected.
Use tracing to determine whether or not an index is being used.
The choice of whether to use CTXXPATH
indexes depends on the storage options used, the size of the documents being indexed, and the query mix involved.
CTXXPATH
indexes can be used for queries with existsNode
expressions on non-schema-based XMLType
tables and columns when the data is stored as a CLOB
value. CTXXPATH
indexes are also useful when CLOB
portions of schema-based documents are queried. The term CLOB-based storage is used to apply to these cases. CTXXPATH
indexes can also be used for existsNode
queries on schema-based XMLType
columns, tables and views, as well as non-schema-based views. The term object-relational storage is used to apply to these cases.
If the storage is CLOB
-based:
Check the query mix to see if a significant fraction involves the same set of XPath expressions. If so, then create function-based indexes for those expressions.
Check the query mix to see if a significant fraction involves existsNode
queries. CTXXPATH
indexes are particularly useful if there are a large number of small documents and for existsNode
queries with low selectivity, that is, with relatively fewer number of hits. Under such scenarios, build CTXXPATH
indexes.
As a general rule, the use of indexes is recommended for Online Transaction Processing (OLTP) environments with few updates.
If the storage is object-relational:
Check the query mix to see if a significant fraction involves XPath expressions that can be rewritten. Chapter 6, "XPath Rewrite" describes the XPath expressions that can potentially get rewritten. The set of XPath expressions that are actually rewritten depends on the type of XPath expression as well as the registered XML schema. B*tree, bitmap and other relational and domain indexes can further be built to improve performance. XPath rewrite offers significant performance advantages. Use it in general. It is enabled by default.
Check the query mix to see if a significant fraction involves the same set of XPath expressions. If so, then Oracle recommends that you create function-based indexes for these expressions. In the presence of XPath rewrite, the XPath expressions are sometimes better evaluated using function-based indexes when:
The queries involve traversing through collections. For example, in extractValue(/PurchaseOrder/Lineitems/Lineitem/Addresses/Address)
, multiple collections are traversed under XPath rewrite.
The queries involve returning a scalar element of a collection. For example, in extractValue(/PurchaseOrder/PONOList/PONO[1])
, a single scalar item needs to be returned, and function-based indexes are more efficient for this. In such a case, you can turn off XPath rewrite using query-level or session-level hints, and use the function-based index
Of the queries that are not rewritten, check the query mix to see if a significant fraction involves existsNode
queries. If so, then you should build CTXXPATH
indexes. CTXXPATH
indexes are particularly useful if there are a large number of small documents, and for existsNode
queries with low selectivity, that is, with relatively fewer number of hits.
Note: Use indexes for OLTP environments that are seldom updated. MaintainingCTXXPATH and function-based indexes when there are frequent updates adds additional overhead. Take this into account when deciding whether function-based indexes, CTXXPATH indexes, or both should be built and maintained. When both types of indexes are built, Oracle Database makes a cost-based decision which index to use. Try to first determine statistics on the CTXXPATH indexing in order to assist the optimizer in choosing the CTXXPATH index when appropriate. |
You can create an Oracle Text index on an XMLType
column. An Oracle Text index enables the contains
SQL function for full-text search over XML.
To create an Oracle Text index, use CREATE INDEX
, specifying the INDEXTYPE
.
Example 4-39 Creating an Oracle Text Index
CREATE INDEX ipurchaseordertextindex ON purchaseorder (OBJECT_VALUE) INDEXTYPE IS CTXSYS.CONTEXT; Index created.
You can also perform Oracle Text operations such as contains
and score
on XMLType
columns.
Example 4-40 Searching XML Data Using CONTAINS
This example shows an Oracle Text search using contains
.
SELECT DISTINCT extractValue(OBJECT_VALUE, '/PurchaseOrder/ShippingInstructions/address') "Address" FROM purchaseorder WHERE contains(OBJECT_VALUE, '$(Fortieth) INPATH(PurchaseOrder/ShippingInstructions/address)') > 0; Address ------------------------------ 1200 East Forty Seventh Avenue New York NY 10024 USA 1 row selected.
See Also:
Chapter 10, "Full-Text Search Over XML" for more information on using Oracle Text operations with Oracle XML DB.