Επεξεργασία

Κοινή χρήση μέσω


Use EXPLICIT mode with FOR XML

Applies to: SQL Server Azure SQL Database Azure SQL Managed Instance

As described in the article, Constructing XML Using FOR XML, RAW and AUTO mode don't provide much control over the shape of the XML generated from a query result. However, EXPLICIT mode provides the most flexibility in generating the XML you want from a query result.

The EXPLICIT mode query must be written in a specific way so that the additional information about the required XML, such as expected nesting in the XML, is explicitly specified as part of the query. Depending on the XML you request, writing EXPLICIT mode queries can be cumbersome. You may find that Using PATH Mode with nesting is a simpler alternative to writing EXPLICIT mode queries.

Because you describe the XML you want as part of the query in EXPLICIT mode, you must ensure that the generated XML is well formed and valid.

Rowset processing in EXPLICIT mode

The EXPLICIT mode transforms the rowset that results from the query execution into an XML document. In order for EXPLICIT mode to produce the XML document, the rowset must have a specific format. This requires that you write the SELECT query to produce the rowset, the universal table, with a specific format so the processing logic can then produce the XML you want.

First, the query must produce the following two metadata columns:

  • The first column must provide the tag number, integer type, of the current element, and the column name must be Tag. Your query must provide a unique tag number for each element that will be constructed from the rowset.

  • The second column must provide a tag number of the parent element, and this column name must be Parent. In this way, the Tag and the Parent column provide hierarchy information.

These metadata column values, together with the information in the column names, are used to produce the XML you want. Your query must provide column names in a specific way. Also note that a 0 or NULL in the Parent column indicates that the corresponding element has no parent. The element is added to the XML as a top-level element.

To understand how the universal table generated by a query is processed into generating XML result, assume that you have written a query that produces this universal table:

Sample universal table.

Note the following about this universal table:

  • The first two columns are Tag and Parent and are meta columns. These values determine the hierarchy.

  • The column names are specified in a certain way, as described later in this article.

  • In generating the XML from this universal table, the data in this table is partitioned vertically into column groups. The grouping is determined based on the Tag value and the column names. In constructing XML, the processing logic selects one group of columns for each row and constructs an element. The following applies in this example:

    • For Tag column value 1 in the first row, the columns whose names include the same tag number, Customer!1!cid and Customer!1!name, form a group. These columns are used in processing the row, and you may have noticed that the shape of the generated element is <Customer id=... name=...>. Column name format is described later in this article.

    • For rows with Tag column value 2, columns Order!2!id and Order!2!date form a group that is then used in constructing elements, <Order id=... date=... />.

    • For rows with Tag column value 3, columns OrderDetail!3!id!id and OrderDetail!3!pid!idref form a group. Each of these rows generates an element, <OrderDetail id=... pid=...>, from these columns.

  • In generating XML hierarchy, the rows are processed in order. The XML hierarchy is determined as shown in the following:

    • The first row specifies Tag value 1 and Parent value NULL. Therefore, the corresponding element, <Customer> element, is added as a top-level element in the XML.

      <Customer cid="C1" name="Janine">
      
    • The second row identifies Tag value 2 and Parent value 1. Therefore, the element, <Order> element, is added as a child of the <Customer> element.

      <Customer cid="C1" name="Janine">
         <Order id="O1" date="1/20/1996">
      
    • The next two rows identify Tag value 3 and Parent value 2. Therefore, the two elements, <OrderDetail> elements, are added as children of the <Order> element.

      <Customer cid="C1" name="Janine">
         <Order id="O1" date="1/20/1996">
            <OrderDetail id="OD1" pid="P1"/>
            <OrderDetail id="OD2" pid="P2"/>
      
    • The last row identifies 2 as the Tag number and 1 as the Parent tag number. Therefore, another <Order> element child is added to the <Customer> parent element.

      <Customer cid="C1" name="Janine">
         <Order id="O1" date="1/20/1996">
            <OrderDetail id="OD1" pid="P1"/>
            <OrderDetail id="OD2" pid="P2"/>
         </Order>
         <Order id="O2" date="3/29/1997">
      </Customer>
      

To summarize, the values in the Tag and Parent meta columns, the information provided in the column names, and the correct ordering of the rows produce the XML you want when you use EXPLICIT mode.

Universal table row ordering

In constructing the XML, the rows in the universal table are processed in order. Therefore, to retrieve the correct children instances associated with their parent, the rows in the rowset must be ordered so that each parent node is immediately followed by its children.

Specify column names in a universal table

When writing EXPLICIT mode queries, column names in the resulting rowset must be specified by using this format. They provide transformation information including element and attribute names and other additional information, specified by using directives.

This is the general format:

ElementName!TagNumber!AttributeName!Directive

Following is the description of the parts of the format.

  • ElementName

    The resulting generic identifier of the element. For example, if Customers is specified as ElementName, the <Customers> element is generated.

  • TagNumber

    A unique tag value assigned to an element. This value, with the help of the two metadata columns, Tag and Parent, determines the nesting of the elements in the resulting XML.

  • AttributeName

    Provides the name of the attribute to construct in the specified ElementName. This is the behavior if Directive isn't specified.

    If Directive is specified and it is xml, cdata, or element, this value is used to construct an element child of ElementName, and the column value is added to it.

    If you specify the Directive, the AttributeName can be empty. For example, ElementName!TagNumber!!Directive. In this case, the column value is directly contained by the ElementName.

  • Directive

    Directive is optional and you can use it to provide additional information for construction of the XML. Directive has two purposes.

    • One of the purposes is to encode values as ID, IDREF, and IDREFS. You can specify ID, IDREF, and IDREFS keywords as Directives. These directives overwrite the attribute types. This allows you to create intra-document links.

    • Also, you can use Directive to indicate how to map the string data to XML. The hide, element, elementxsinil, xml, xmltext, and cdata keywords can be used as the Directive. The hide directive hides the node. This is useful when you retrieve values only for sorting purposes, but you don't want them in the resulting XML.

    The element directive generates a contained element instead of an attribute. The contained data is encoded as an entity. For example, the < character becomes <. For NULL column values, no element is generated. If you want an element generated for null column values, you can specify the elementxsinil directive. This will generate an element that has the attribute xsi:nil=TRUE.

    The xml directive is the same as an element directive, except that no entity encoding occurs. The element directive can be combined with ID, IDREF, or IDREFS, whereas the xml directive isn't allowed with any other directive, except hide.

    The cdata directive contains the data by wrapping it with a CDATA section. The content isn't entity encoded. The original data type must be a text type such as varchar, nvarchar, text, or ntext. This directive can be used only with hide. When this directive is used, AttributeName must not be specified.

    Combining directives between these two groups is allowed in most cases, but combining them among themselves isn't allowed.

If Directive and AttributeName aren't specified, for example, Customer!1, an element directive is implied, such as Customer!1!!element, and column data is contained in the ElementName.

If the xmltext directive is specified, the column content is wrapped in a single tag that is integrated with the rest of the document. This directive is useful in fetching overflow, unconsumed, XML data stored in a column by OPENXML. For more information, see OPENXML (SQL Server).

If AttributeName is specified, the tag name is replaced by the specified name. Otherwise, the attribute is appended to the current list of attributes of the enclosing elements by putting the content at the beginning of the containment without entity encoding. The column with this directive must be a text type, such as varchar, nvarchar, char, nchar, text, or ntext. This directive can be used only with hide. This directive is useful in fetching overflow data stored in a column. If the content isn't a well-formed XML, the behavior is undefined.

Next steps

The following examples illustrate the use of EXPLICIT mode.

See also