Thursday, February 2, 2012

Building the CAML

Operators

Comparison Operators
Comparison Operators General Meaning
Eq =
Gt
Lt
Geq >=
Leq <=
Neq <> 
Contains Like
IsNull Null
IsNotNull NotNull
BeginsWith Beginning with word
DateRangesOverlap compare the dates in a recurring event with a specified DateTime value, to determine whether they overlap

Fields

The FieldRef element can be any field of the list on which you want to execute the CAML query. If you use the Name attribute you need to specify the internal name of the field. But you can also use the IDattribute to specify the Guid of the field.

Value

The Valueelement specifies the value part of the criterion. The attribute Typeis optional and specifies the data type of the field you want to specify the criterion for. If omitted the data type is considered as being Text. In all other cases you have to specify the Type attribute. DateTime fields are a special case and will be described in more detail later in this article.
If the field type is a Lookup you need to specify the text value.For example you have an Employees list and the Country field is a lookup field referring to the Countries list. In that case an employee living in Belgium will have f.e. following value: #15;Belgium. If you have to query for the employees living in Belgium you will have to write your query as follows:
<Where>
    <Eq>
     <FieldRef Name='Country' />
     <Value Type='Lookup'>Belgium</Value>
  </Eq>
</Where>
You can find this not good coding practice because the name of the country can change in time. In that case you can also query on the id of the country specifying the LookupId attribute in the FieldRef element:
<Where>
  <Eq>
     <FieldRef Name='Country' LookupId='True' />
     <Value Type='Lookup'>15</Value>
  </Eq>
</Where>

Retrieving List Items with CAML using the SharePoint Object Model

If you need to retrieve items from a list when developing web parts, application pages or custom field types you can best use the SPQueryobject from the SharePoint object model. This object is located in the Microsoft.SharePoint namespace of the Microsoft.SharePoint.dll located in the Global Assembly Cache.
Instantiate the object as follows:
SPQuery qry = new SPQuery(); The most important property is the Query property, which needs to be set to your CAML query:
string camlquery = "<OrderBy><FieldRef Name='Country' /></OrderBy><Where>"     + "<Eq><FieldRef Name='LastName' /><Value Type='Text'>Smith</Value></Eq>"     + </Where>"; qry.Query = camlquery; At this point you can execute the query on your list:
SPListItemCollection listItemsCollection = list.GetItems(qry); A small remark with the GetItems method of the SPList instance: this method returns a collection of type SPListItemCollection. It is possible that it is easier working with a DataTable. In that case you can execute the query as follows:
DataTable listItemsTable = list.GetItems(qry).GetDataTable(); The query will not only return all list items that have their last name set to Smith, but also all columns of each list item. In cases you work with large lists it can be important to retrieve a subset of list items containing only the columns you need. In that case you will have to set the ViewFields property of the SPQuery object. You can do this by specifying all columns you want to see returned:
qry.ViewFields = "<FieldRef Name='FirstName' /><FieldRef Name='LastName' />"; This will return the first name and the last name of the retrieved employees, but also the system fields like the ID and the Created date.
The major disadvantage of the SPQuery object is that you can query only one list. If you want to query more than one list you will have to use the SPSiteDataQuery. More on this object in a later article because it earns special attention.
It is common knowledge by now but let me remind you that it’s always a good idea to use SPQuery to retrieve a subset of list items. You can loop through the list item collection to find the list items that match your needs but this will have a serious negative impact on the performance of your work.

Retrieving List Items with CAML using the SharePoint Web Services

If you are developing office clients or any other application that will not run on the server where SharePoint is installed you will need to use the SharePoint Web Services to retrieve (or update) information from SharePoint. If you want to query a list you will need to execute the GetListItems method from the Lists.asmxSharePoint web service.
Working with the SharePoint web services is different in Visual Studio 2005 then in Visual Studio 2008.

Retrieving List Items from the Lists.asmx using Visual Studio 2005

First you have to reference  the web service in your Visual Studio project. If you work with Visual Studio 2005 you have to add a Web Reference to theLists.asmx.
Then you have to instantiate the web service and pass the url of the SharePoint site, plus the location and name of the SharePoint web service. The SharePoint web services are all located in the ISAPI directory of the SharePoint 12 hive but are accessible from outside via the _vti_bin directory.
Initialize the Lists.asmx web service:
 ListService listsWs = new ListService.Lists();
listsWs.Url = siteUrl + @"/_vti_bin/lists.asmx";
Then you have to set the credentials. In case you don’t need to specify a username or password you can proceed as follows:
listsWs.Credentials = System.Net.CredentialCache.DefaultCredentials;
If you have to specify a user name and password:
listsWs.Credentials = new System.Net.NetworkCredential(userName, password);
If you also have to specify a domain, use the other overload:
listsWs.Credentials = new System.Net.NetworkCredential(userName, password, domain);
Then you are ready to call the GetListItems method, which requires the following syntax:
resultNode = _sharepointSite.ListsWSS.GetListItems(listName, viewName,
    queryNode, viewFieldsNode, rowLimit, queryOptionsNode, webID);
Not all arguments are required. Arguments like view name, row limit and web ID are optional.
The query node argument will contain the CAML query as explained in previous sections but need to be enclosed within a <Query> and </Query> tag:
XmlDocument camlDocument = new XmlDocument();
XmlNode queryNode = camlDocument.CreateElement("Query");
queryNode.InnerXml = "<OrderBy><FieldRef Name='Country' /></OrderBy><Where>"
    + "<Eq><FieldRef Name='LastName' /><Value Type='Text'>Smith</Value></Eq>"
    + </Where>";
The same applies to the ViewFields node:
XmlNode viewFieldsNode = camlDocument.CreateElement("ViewFields");
viewFieldsNode.InnerXml = "<FieldRef Name='FirstName' />"
    + "<FieldRef Name='LastName' />";
As you will have noticed, you also need a QueryOptions node. This node will be explained later in this series. If you have no QueryOptions to specify you can pass in an empty node:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");

Retrieving List Items from the Lists.asmx using Visual Studio 2008

But in case you are working with Visual Studio 2008 you will have to add a Service Reference to theLists.asmxweb service. If you don’t want to work asynchronously you have to uncheck the Generate Asynchronous Operations option in the Advanced dialog. When closing the dialog box Visual Studio automatically adds an app.config or web.config file. Open this file and locate the security section. The following XML is generated automatically:
<security mode="None">
    <transport clientCredentialType="None" proxyCredentialType="None"
        realm="" />
    <message clientCredentialType="UserName" algorithmSuite="Default" />
</security>
Replace it with the following:
<security mode="TransportCredentialOnly">
  <transport clientCredentialType="Ntlm"/>
</security>
Return to your code and instantiate the web service:
ListsWS.ListsSoapClient ws = new ListsWS.ListsSoapClient();
You also have to set the necessary credentials. If you can work with the default credentials you can write the following:
 ws.ClientCredentials.Windows.ClientCredential =
       System.Net.CredentialCache.DefaultNetworkCredentials;
 ws.ClientCredentials.Windows.AllowedImpersonationLevel =
       System.Security.Principal.TokenImpersonationLevel.Impersonation;
If necessary you can also pass user name, password and domain:
 ws.ClientCredentials.Windows.ClientCredential =
       new System.Net.NetworkCredential("Administrator", "secret", "U2UCOURSE");
 ws.ClientCredentials.Windows.AllowedImpersonationLevel =
       System.Security.Principal.TokenImpersonationLevel.Impersonation;
If necessary you can set the URL to the web service dynamically:
 ws.Endpoint.Address =
     new System.ServiceModel.EndpointAddress(
     "http://wss.u2ucourse.com/_vti_bin/lists.asmx");
Now you are ready to call the GetListItems method of the web service. There is no difference in calling this method from within Visual Studio 2005:
XmlDocument camlDocument = new XmlDocument();
 XmlNode queryNode = camlDocument.CreateElement("Query");
queryNode.InnerXml = "<OrderBy><FieldRef Name='Country' /></OrderBy><Where>"
    + "<Eq><FieldRef Name='LastName' /><Value Type='Text'>Smith</Value></Eq>"
    + </Where>";
 XmlNode viewFieldsNode = camlDocument.CreateElement("ViewFields");
viewFieldsNode.InnerXml = "<FieldRef Name='FirstName' />"
    + "<FieldRef Name='LastName' />";
 XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
 resultNode = _sharepointSite.ListsWSS.GetListItems(listName, viewName,
    queryNode, viewFieldsNode, rowLimit, queryOptionsNode, webID);
The returned XML is rather complex and needs some special attention. I will come back on this in a later article.

Query Options

Executing a query is not only about CAML. When working with the SPQuery object you can set different properties to influence the returned list items. When working with the SharePoint web services, these options are translated into CAML and are part of the QueryOptions element.

RowLimit

Setting this property limits the number of rows returned in the result set.
When working with the SPQuery object:
qry.RowLimit = 10;
When working with the GetListItems method of the Lists.asmx web service:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
queryOptionsNode.InnerXml = "<RowLimit>10</RowLimit>";

IncludeMandatoryColumns

When this Boolean property is set to True, the result set will not only return the columns as defined in the ViewFields property, but also the columns that you defined in the list as required.
When working with the SPQuery object:
qry.IncludeMandatoryColumns = true;
When working with the GetListItems method of the Lists.asmx web service:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
queryOptionsNode.InnerXml =
    "<IncludeMandatoryColumns>True</IncludeMandatoryColumns>";

DatesInUtc

Setting this Boolean property specifies whether the query returns dates in Coordinated Universal Time (UTC) format. The syntax is similar to that of the previously described property.

ExpandUserField

When you omit this property or set it to false, user fields will return the login name of the user.
Setting this Boolean property to true  (or include it in the QueryOptions node), user fields are returned as follows:
Karine Bosch,#U2UCOURSE\karine,#karine@U2UCOURSE.COM,#,#Karine Bosch
The returned value includes the login name, e-mail address, Session Initiation Protocol (SIP) address, and title, when present, which causes a user field to behave as a multilookup field.  The syntax is similar to that of the previously described property.
There are some other query options to set but they will be explained in detail in the next section.

Special Types of Queries

Some special types of lists require more specialized CAML queries. In some cases it only affects the CAML but in other cases you have to set extra SPQuery properties. If you execute this query against the Lists web service it will affect another argument of the GetListItems method, i.e. the QueryOptions argument.

Building queries for working with Folders

A first variant I will explain is how you can work with folders and sub folders. A folder is a special list item on a list or document library. If you execute a standard CAML query you will end up with list items from the root folder.
If you want to query all folders and sub folders of a list or document library, you have to define extra query options. If you are working with the object model you have to set the ViewAttributes property of the SPQuery object as follows:
qry.ViewAttributes = "Scope='Recursive'";
If you work with GetListItems method of the Lists.asmx SharePoint web service, you have to define an extra node with the QueryOptions element:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
queryOptionsNode.InnerXml = "<ViewAttributes Scope=\"Recursive\" />";
If you want to query a specific sub folder using the SPQuery object, you have to set the Folder property:
qry.Folder = list.ParentWeb.GetFolder("Folders DocLib/2008");
When working with the web services you have to do the following:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
queryOptionsNode.InnerXml = "<Folder>Folders DocLib/2008</Folder>";

Building Queries for working with DateTime Values

Filtering on DateTime fields also requires some extra attention. First of all when querying for a specific date, you have to use the SharePoint datetime notation:
<Where>
   <Ge>
        <FieldRef Name="StartDate" />
        <Value Type="DateTime">2008-08-10T10:00:00Z</Value>
   </Ge>
</Where>
But in this case the date is hard coded and the time part will not be taken into account. This query will return all list items with a start date as of 10 August 2008, also those starting before 10 o’clock. If you want your query to take into account the time part, you have to use a special attribute IncludeTimeValue that you can set on the FieldRef element:
<Where>
   <Ge>
        <FieldRef Name="StartDate" IncludeTimeValue="TRUE" />
        <Value Type="DateTime">2008-08-10T10:00:00Z</Value>
   </Ge>
</Where>
This query will return all list items with a start date as of 10 August 10 o’clock.
As already said, this way the date is hard coded. If you want your query a bit more dynamic, you can always use the element Today.
<Where>
   <Ge>
        <FieldRef Name="StartDate" />
        <Value Type="DateTime"><Today /></Value>
   </Ge>
</Where>
Today will not take a time part into account. Unfortunately a Now element doesn’t exist.
You can also add or subtract a number of days from today’s date. In that case you have to add the Offset attribute to the Today element. The Offset attribute accepts a positive value for adding days and a negative value for subtracting days.
 <Where>
   <Ge>
        <FieldRef Name="StartDate" />
        <Value Type="DateTime"><Today Offset="10" /></Value>
   </Ge>
</Where>
As all this is pure CAML, the query is the same whether you work with the object model or the SharePoint web services.

Building Queries for Calendar Lists

Calendar lists also require a little more attention. A calendar list is based on the Event content type. Normal events can be retrieved with the usual CAML queries. It’s only when you start working with recurring events (events that occur once a day or twice a week or month) that you run into problems.
The Event content type defines a field named fRecurrence, which is set to 1 when a recurring event is created.
Defining a recurring event
Defining a recurring event
When the Calendar view is rendered a recurring event is split into a number of event instances, one for each recurrence.
Calendar view showing event instances for recurring event
Calendar view showing event instances for recurring event
The definition of the recurrence is XML stored in another field defined by the Event content type, i.e. RecurrenceData. An example of such a definition looks as follows:
<recurrence>
   <rule>
     <firstDayOfWeek>su</firstDayOfWeek>
     <repeat>
        <weekly mo="TRUE" we="TRUE" weekFrequency="1" />
     </repeat>
     <repeatForever>FALSE</repeatForever>
   </rule>
</recurrence>
Fortunately you don’t have to parse the XML yourself to get the actual instances of the recurring event. You can use a combination of CAML syntax and query options to achieve this.
When working with the SPQuery object you need to set the ExpandRecurrences property to true. You also have to specify a date in the CalendarDate property. This date will be used to compare the recurring event instances.
Next you have to add a DateRangesOverlap element to the Where clause of the CAML query. This element is used in queries to compare the dates in a recurring event with the date specified in the CalendarDateproperty to see whether they overlap. The CAML looks as follows:
<Where>
   <DateRangesOverlap>
      <FieldRef Name=\"EventDate\" />
      <FieldRef Name=\"EndDate\" />
      <FieldRef Name=\"RecurrenceID\" />
      <Value Type=\"DateTime\"><Month /></Value>
   </DateRangesOverlap>
</Where>
The <Month /> element is used to specify that all occurrences within a month need to be returned. You can also specify Day, Week or Year.
In case you need to work with the GetListItems method of the Lists.asmx web service, you translate the query options into XML:
XmlNode queryOptionsNode = camlDocument.CreateElement("QueryOptions");
queryOptionsNode.InnerXml = "<ExpandRecurrences>TRUE</ExpandRecurrences>"
 + "<CalendarDate>2008-08-12T10:00:00Z</CalendarDate>";
Read more about Calendar lists here: http://blogs.msdn.com/sharepoint/archive/2007/05/14/understanding-the-sharepoint-calendar-and-how-to-export-it-to-ical-format.aspx

 Example: Contains, And, BeginsWith

<Where>
   <And>
       <BeginsWith>
              <FieldRef Name="Conference"/> 
              <Value Type="Note">Morning</Value>
       </BeginsWith>
       <Contains>
              <FieldRef Name="Conference" />
              <Value Type="Note">discussion session</Value>
       </Contains>
   </And>
</Where>
Example: DateRangesOverlap
<Where> 

     <DateRangesOverlap> 

          <FieldRef Name="EventDate"></FieldRef> 

          <FieldRef Name="EndDate"></FieldRef> 

          <FieldRef Name="RecurrenceID"></FieldRef> 

            <Value Type="DateTime"> 

              <Now/> 

            </Value> 

     </DateRangesOverlap> 

</Where>
Logical Joins:
Logical Joins Comments
And Used within the ‘Where’ element to group filters in a query for a view
Or Used within the ‘Where’ element to group filters in a query for a view
Example: And
<Where>

   <And> 

     <Neq> 

        <FieldRef Name="Status"></FieldRef> 

        <Value Type="Text">Completed</Value> 

     </Neq> 

     <IsNull> 

        <FieldRef Name="Sent"></FieldRef> 

     </IsNull> 

   </And> 

</Where> 
Order/Group Operators:
Order/Group Operators Comments
OrderBy Determines the sort order for a query. The OrderBy element contains a group of FieldRef elements
I.e. <OrderBy><FieldRef Name="Title" Ascending="TRUE">
</FieldRef></OrderBy>
GroupBy Contains a Group By section for grouping the data returned through a query in a list view
Example: OrderBy
<OrderBy> 

       <FieldRef Name="Modified" Ascending="FALSE"></FieldRef> 

</OrderBy> 

<Where> 

  <Or> 

    <Neq> 

      <FieldRef Name="Status"></FieldRef> 

      <Value Type="Text">Completed</Value> 

    </Neq> 

    <IsNull> 

      <FieldRef Name="Status"></FieldRef> 

    </IsNull> 

  </Or> 

</Where>
Example: GroupBy
<GroupBy> 

      <FieldRef Name="Modified"/> 

</GroupBy> 

<Where> 

   <Or> 

      <Neq> 

          <FieldRef Name="Status"></FieldRef> 

          <Value Type="Text">Completed</Value> 

      </Neq> 

      <IsNull> 

          <FieldRef Name="Status"></FieldRef> 

      </IsNull> 

   </Or> 

</Where> 
Important: This is very important thing to keep in mind, because SPQuery will be assigned as a string so it wont show compile time error though it may have tag syntax error, not in order, escape sequence error, etc. Escape sequence: The ScriptEncode method escapes characters that would otherwise conflict with script.
Original
Replacement
"
\"
\
\\
+
\u002b
\u003e
\u003c
'
\u0027
Example:
<FieldRef Name=\"Checkbox\"></FieldRef> <Value Type=\"bit\">1</Value>
 
 

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