Microsoft Official Exam Center New Released 70-433 Dumps Questions, Many New Questions added into it! Braindump2go Offer Free Sample Questions and Answers for Download Now! Visit Our Webiste, get the new updated Questions then pass Microsoft 70-433 at the first try!
Exam Code: 70-433
Exam Name: TS: Microsoft SQL Server 2008, Database Development
Certification Provider: Microsoft
Keywords: 70-433 Exam Dumps,70-433 Practice Tests,70-433 Practice Exams,70-433 Exam Questions,70-433 PDF,70-433 VCE Free,70-433 Book,70-433 E-Book,70-433 Study Guide,70-433 Braindump,70-433 Prep Guide
QUESTION 11
You need to generate the following XML document.
<ProductExport>
<Product Price=”99″>Product1</Product>
<Product Price=”199″>Product2</Product>
<Product Price=”299″>Product3</Product>
<Product Price=”399″>Product4</Product>
</ProductExport>
Which query should you use?
A. SELECT Price, ProductName
FROM Products AS ProductExport
FOR XML PATH(‘Product’)
B. SELECT Price, ProductName
FROM Products
FOR XML AUTO, ROOT(‘ProductExport’)
C. SELECT Price [@Price],
ProductName AS [*]
FROM Products AS ProductExport
FOR XML AUTO, ELEMENTS
D. SELECT Price [@Price],
ProductName AS [*]
FROM Products
FOR XML PATH(‘Product’),ROOT(‘ProductExport’)
Answer: D
QUESTION 12
Your company’s database contains Customers and Orders tables.
You have been tasked to write a SELECT statement that outputs customer and order data as a valid and well-formed XML document.
You are required to mix attribute and element based XML within the document.
You have determined that using the FOR XML AUTO clause will not be suitable.
You need to identify the correct FOR XML clause to meet the requirement.
Which FOR XML statement should you use? (Each correct answer represents a complete solution. Choose two.)
A. FOR BROWSE
B. FOR XML RAW
C. FOR XML PATH
D. FOR XML EXPLICIT
Answer: CD
QUESTION 13
Your company’s database contains Customers and Orders tables.
You have been tasked to write a SELECT statement that exposes the data as a valid and well-formed XML document.
The XML data must be attribute-based, and the order data XML must be nested in the customer data XML.
You need to write a SELECT statement to meet the requirements.
Which Transact-SQL statement should you use?
A. SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c
INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML RAW(‘Contact’), ROOT(‘ContactOrderDate’)
B. SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c
INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML PATH(‘ContactOrderDate’)
C. SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c
INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML AUTO
D. SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c
INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML AUTO, ROOT(‘ContactOrderDate’)
Answer: D
Explanation:
SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML RAW(‘Contact’), ROOT(‘ContactOrderDate’)
Produce the following result:
<ContactOrderDate>
<Contact ContactName=”Paul Henriot” OrderDate=”1996-07-04T00:00:00″ RequiredDate=”1996-08-01T00:00:00″ />
<Contact ContactName=”Karin Josephs” OrderDate=”1996-07-05T00:00:00″ RequiredDate=”1996-08-16T00:00:00″ />
<Contact ContactName=”Paula Wilson” OrderDate=”1998-05-06T00:00:00″ RequiredDate=”1998-06-03T00:00:00″ />
</ContactOrderDate>
SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML PATH(‘ContactOrderDate’)
Produce the following result:
<ContactOrderDate>
<ContactName>Paul Henriot</ContactName>
<OrderDate>1996-07-04T00:00:00</OrderDate>
<RequiredDate>1996-08-01T00:00:00</RequiredDate>
</ContactOrderDate>
<ContactOrderDate>
<ContactName>Karin Josephs</ContactName>
<OrderDate>1996-07-05T00:00:00</OrderDate>
<RequiredDate>1996-08-16T00:00:00</RequiredDate>
</ContactOrderDate>
<ContactOrderDate>
<ContactName>Paula Wilson</ContactName>
<OrderDate>1998-05-06T00:00:00</OrderDate>
<RequiredDate>1998-06-03T00:00:00</RequiredDate>
</ContactOrderDate>
SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML AUTO
Produce the following result:
<c ContactName=”Paul Henriot”>
<o OrderDate=”1996-07-04T00:00:00″ RequiredDate=”1996-08-01T00:00:00″ />
</c>
<c ContactName=”Karin Josephs”>
<o OrderDate=”1996-07-05T00:00:00″ RequiredDate=”1996-08-16T00:00:00″ />
</c>
<c ContactName=”Paula Wilson”>
<o OrderDate=”1998-05-06T00:00:00″ RequiredDate=”1998-06-03T00:00:00″ />
</c>
SELECT c.ContactName, o.OrderDate, o.RequiredDate
FROM Customers c INNER JOIN Orders o
ON c.CustomerID = o.CustomerID
FOR XML AUTO, ROOT(‘ContactOrderDate’)
Produce the following result:
<ContactOrderDate>
<c ContactName=”Paul Henriot”>
<o OrderDate=”1996-07-04T00:00:00″ RequiredDate=”1996-08-01T00:00:00″ />
</c>
<c ContactName=”Karin Josephs”>
<o OrderDate=”1996-07-05T00:00:00″ RequiredDate=”1996-08-16T00:00:00″ />
</c>
<c ContactName=”Paula Wilson”>
<o OrderDate=”1998-05-06T00:00:00″ RequiredDate=”1998-06-03T00:00:00″ />
</c>
</ContactOrderDate>
QUESTION 14
You have a table named Customer that has an XML column named Locations.
This column stores an XML fragment that contains details of one or more locations, as show in the following examples.
<Location City=”Sydney” Address=”…” PhoneNumber=”…” />
<Location City=”Chicago” Address=”…” PhoneNumber=”…” />
<Location City=”London” Address=”…” PhoneNumber=”…” />
You need to write a query that returns a row for each of the customer’s locations.
Each resulting row must include the customer name, city, and an XML fragment that contains the location details.
Which query should you use?
A. SELECT
CustomerName,
Locations.query(‘for $i in /Location return data($i/@City)’),
Locations.query(‘for $i in /Location return $i’)
FROM Customer
B. SELECT
CustomerName,
Locations.query(‘for $i in /Location return element
Location {$i/@City, $i}’)
FROM Customer
C. SELECT
CustomerName,
Locations.query(‘data(/Location/@City)’),
Locations.query(‘/Location’)
FROM Customer
D. SELECT
CustomerName,
Loc.value(‘@City’,’varchar(100)’),
Loc.query(‘.’)
FROM Customer
CROSS APPLY Customer.Locations.nodes (‘/Location’) Locs(Loc)
Answer: D
QUESTION 15
Click the Exhibit button.
You have the following XML:
<Site URL=”http://www.contoso.com/index.htm”>
<Site URL=”http://www.contoso.com/finance/index.htm”>
<Site URL=”http://www.contoso.com/finance/reports/index.htm” />
<Site URL=”http://www.contoso.com/finance/main/index.htm” />
</Site>
<Site URL=”http://www.contoso.com/marketing/index.htm”>
<Site URL=”http://www.contoso.com/marketing/reports/index.htm” />
<Site URL=”http://www.contoso.com/marketing/main/index.htm” />
</Site>
<Site URL=”http://www.contoso.com/sales/index.htm” />
</Site>
You are tasked to query the sites listed in the XML by using OPENXML.
The results will have two columns, ParentSiteURL and SiteURL.
The ParentSiteURL column should contain the URL attribute of the parent site.
The SiteURL column should contain the URL attribute of the site itself.
The output should look like that in the exhibit.
You need to write the OPENXML query.
Which Transact-SQL statement should you use?
A. SELECT ParentSiteURL, SiteURL
FROM OPENXML (@XMLDocHandle, ‘//@Site’, 1)
WITH (
ParentSiteURL nVarChar(512) ‘../URL’,
SiteURL nVarChar(512) ‘URL’)
B. SELECT ParentSiteURL, SiteURL
FROM OPENXML (@XMLDocHandle, ‘//URL’, 1)
WITH (
ParentSiteURL nVarChar(512) ‘../@URL’,
SiteURL nVarChar(512) ‘@URL’)
C. SELECT ParentSiteURL, SiteURL
FROM OPENXML (@XMLDocHandle, ‘//Site’, 1)
WITH (
ParentSiteURL nVarChar(512) ‘../@URL’,
SiteURL nVarChar(512) ‘@URL’)
D. SELECT ParentSiteURL, SiteURL
FROM OPENXML (@XMLDocHandle, ‘//@URL’, 1)
WITH (
ParentSiteURL nVarChar(512) ‘../URL’,
SiteURL nVarChar(512) ‘URL’)
Answer: C
Explanation:
DECLARE @XMLDocHandle int,
@XMLDoc varchar(1000) =’
<Site URL=”http://www.contoso.com/index.htm”>
<Site URL=”http://www.contoso.com/finance/index.htm”>
<Site URL=”http://www.contoso.com/finance/reports/index.htm” />
<Site URL=”http://www.contoso.com/finance/main/index.htm” />
</Site>
<Site URL=”http://www.contoso.com/marketing/index.htm”>
<Site URL=”http://www.contoso.com/marketing/reports/index.htm” />
<Site URL=”http://www.contoso.com/marketing/main/index.htm” />
</Site>
<Site URL=”http://www.contoso.com/sales/index.htm” />
</Site>’;
–Create an internal representation of the XML document.
EXEC sp_xml_preparedocument @XMLDocHandle OUTPUT, @XMLDoc
SELECT ParentSiteURL, SiteURL
FROM OPENXML (@XMLDocHandle, ‘//Site’, 1)
WITH ( ParentSiteURL nVarChar(512) ‘../@URL’,
SiteURL nVarChar(512) ‘@URL’)
QUESTION 16
Your company uses an application that passes XML to the database server by using stored procedures.
The database server has a large number of XML handles that are currently active.
You determine that the XML is not being flushed from SQL Server memory.
You need to identify the system stored procedure to flush the XML from memory.
Which Transact-SQL statement should you use?
A. sp_xml_removedocument
B. sp_xml_preparedocument
C. sp_reserve_http_namespace
D. sp_delete_http_namespace_reservation
Answer: A
Explanation:
sp_xml_removedocument removes the internal representation of the XML document specified by the document handle and invalidates the document handle.
sp_xml_preparedocument reads the XML text provided as input, parses the text by using the MSXML parser
(Msxmlsql.dll), and provides the parsed document in a state ready for consumption.
This parsed document is a tree representation of the various nodes in the XML document:
elements, attributes, text, comments, and so on. A parsed document is stored in the internal cache of SQL Server. The MSXML parser uses one-eighth the total memory available for SQL Server.
To avoid running out of memory, run sp_xml_removedocument to free up the memory.
QUESTION 17
You work for a company that provides marketing data to other companies.
You have the following Transact-SQL statement:
DECLARE @CustomerDemographics XML SET @CustomerDemographics=N’
<CustomerDemographics>
<Customer CustomerID=”1″ Age=”21″ Education=”High School”>
<IsCoffeeDrinker>0</IsCoffeeDrinker>
</Customer>
<Customer CustomerID=”2″ Age=”27″ Education=”College”>
<IsCoffeeDrinker>1</IsCoffeeDrinker>
<IsFriendly>1</IsFriendly>
</Customer>
<Customer CustomerID=”3″ Age=”35″ Education=”Unknown”>
<IsCoffeeDrinker>1</IsCoffeeDrinker>
<IsFriendly>1</IsFriendly>
</Customer>
</CustomerDemographics>’
DECLARE @OutputAgeOfCoffeeDrinkers XML
SET @OutputAgeOfCoffeeDrinkers = @CustomerDemographics.query(‘
for $output in /child::CustomerDemographics/child::Customer[( child::IsCoffeeDrinker[1] cast as xs:boolean )]
return <CoffeeDrinkingCustomer> { $output/attribute::Age \} </CoffeeDrinkingCustomer>’)
SELECT @OutputAgeOfCoffeeDrinkers
You need to determine the result of the query.
What result should you expect?
A. <CoffeeDrinkingCustomer Age=”27″ />
<CoffeeDrinkingCustomer Age=”35″ />
B. <CoffeeDrinkingCustomer Age=”21″ />
C. <CustomerDemographics>
<Customer>
<CoffeeDrinkingCustomer Age=”21″ />
</Customer>
</CustomerDemographics>
D. <CustomerDemographics>
<Customer>
<CoffeeDrinkingCustomer Age=”27″ />
</Customer>
<Customer>
<CoffeeDrinkingCustomer Age=”35″ />
</Customer>
</CustomerDemographics>
Answer: A
QUESTION 18
You have a table named Stores that has an XML column named OpenHours.
This column contains the opening and closing times.
<hours dayofWeek= “Monday” open =”8:00 AM” closed=”8:00 PM”
<hours dayofWeek= “Tuesday” open =”8:00 AM” closed=”8:00 PM”
…
<hours dayofWeek= “Saturday” open =”8:00 AM” closed=”8:00 PM”
You need to write a query that returns a list of stores and their opening time for a specified day.
Which code segment should you use?
A. DECLARE @Day VARCHAR(10) = ‘Tuesday’
SELECT
StoreName, OpenHours.value(‘/hours[1]/@open’,’time’)
FROM Stores
WHERE OpenHours.value(‘/hours[1]/@dayofWeek’,’varchar(20)’) = @Day
B. DECLARE @Day VARCHAR(10) = ‘Tuesday’
SELECT
StoreName,
OpenHours.value(‘/hours[1]/@open’,’time’)
FROM Stores
WHERE OpenHours.exist(‘/hours[@dayofWeek=sql:variable(“@Day”)]’) = 1
C. DECLARE @Day VARCHAR(10) = ‘Tuesday’
SELECT
Storename,
OpenHours.query(‘data(/hours[@dayofWeek=sql:variable
(“@Day”)]/@open)’)
FROM Stores
D. DECLARE @Day VARCHAR(10) = ‘Tuesday’
SELECT StoreName,
OpenHours.value(‘/hours[1][@dayofWeek=sql:variable
(“@Day”)]/@open’,’time’)
FROM Stores
Answer: C
Explanation:
CREATE TABLE Stores(
StoreName VARCHAR(10)NOT NULL,
OpenHours [xml] NULL,
CONSTRAINT [PK_Stores] PRIMARY KEY CLUSTERED (StoreName))
GO
INSERT INTO Stores (StoreName, OpenHours)
VALUES
(
‘Store1’,
‘<hours dayofWeek= “Wednesday” open =”8:00 AM” closed=”8:00 PM”/>
<hours dayofWeek= “Tuesday” open =”9:00 AM” closed=”8:00 PM”/>
<hours dayofWeek= “Friday” open =”8:00 AM” closed=”8:00 PM”/>’),
(‘Store2’,
‘<hours dayofWeek= “Monday” open =”8:00 AM” closed=”8:00 PM”/>
<hours dayofWeek= “Tuesday” open =”8:00 AM” closed=”8:00 PM”/>
<hours dayofWeek= “Saturday” open =”8:00 AM” closed=”8:00 PM”/>’)
DECLARE @Day VARCHAR(10) = ‘Tuesday’
SELECT Storename, OpenHours.query(‘data(/hours[@dayofWeek=sql:variable(“@Day”)]/ @open)’)
FROM Stores
GO
QUESTION 19
You have the following XML document that contains Product information.
DECLARE @prodList xml =’
<ProductList xmlns=”urn:Wide_World_Importers/schemas/Products”>
<Product Name=”Product1″ Category=”Food” Price=”12.3″ />
<Product Name=”Product2″ Category=”Drink” Price=”1.2″ />
<Product Name=”Product3″ Category=”Food” Price=”5.1″ />
…
</ProductList>’;
You need to return a list of products that contains the Product Name, Category, and Price of each product.
Which query should you use?
A. SELECT prod.value(‘.[1]/@Name’,’varchar(100)’),
prod.value(‘.[1]/@Category’,’varchar(20)’),
prod.value(‘.[1]/@Price’,’money’)
FROM @prodList.nodes(‘/ProductList/Product’) ProdList(prod);
B. SELECT prod.value(‘@Name’,’varchar(100)’),
prod.value(‘@Category’,’varchar(20)’),
prod.value(‘@Price’,’money’)
FROM @prodList.nodes(‘/ProductList/Product’) ProdList(prod);
C. WITH XMLNAMESPACES(DEFAULT ‘urn;Wide_World_Importers/schemas/
Products’ as o)
SELECT prod.value(‘Name[1]’,’varchar(100)’),
prod.value(‘Category[1]’,’varchar(20)’),
prod.value(‘Price[1]’,’money’)
FROM @prodList.nodes(‘/o:ProductList/o:Product’) ProdList(prod);
D. WITH XMLNAMESPACES(DEFAULT ‘urn:Wide_World_Importers/schemas/
Products’)
SELECT prod.value(‘./@Name’,’varchar(100)’),
prod.value(‘./@Category’,’varchar(20)’),
prod.value(‘./@Price’,’money’)
FROM @prodList.nodes(‘/ProductList/Product’) ProdList(prod);
Answer: D
QUESTION 20
You have a table named Products.Product.
The table has columns ProductID, Name, Size, and Category.
You have a variable named @XML with following XML value:
<Root>
<Category Name=”Socks” />
<Category Name=”Pants” />
<Category Name=”Shirts” />
</Root>
You are tasked to write a query that lists the products in Products.
Product that match the categories listed in the XML document.
You need to write a query to accomplish the task.
Which query should you write?
A. SELECT p.ProductID, p.Name, p.Size, p.Category
FROM Production.Product p
CROSS APPLY @XML.nodes(‘//Category’) as x(s)
B. SELECT p.ProductID, p.Name, p.Size, p.Category
FROM Production.Product p
OUTER APPLY @XML.nodes(‘//Category’) as x(s)
C. WITH XMLTable
AS
(
SELECT s.value(‘@Name’,’varchar(20)’) as Category
FROM @XML.nodes(‘//Category’) as x(s)
)
SELECT p.ProductID, p.Name, p.Size, p.Category
FROM Production.Product p
INNER JOIN XMLTable x ON p.Category = x.Category
D. WITH XMLTable
AS
(
SELECT s.value(‘@Category’,’varchar(20)’) as Category
FROM @XML.nodes(‘//Category’) as x(s)
)
SELECT p.ProductID, p.Name, p.Size, p.Category
FROM Production.Product p
INNER JOIN XMLTable x ON p.Category = x.Category
Answer: C
Braindump2go New Released 70-433 Dumps PDF are Now For Free Download, 210 Latest Questions, Download It Right Now and Pass Your Exam 100%:
http://www.braindump2go.com/70-433.html
Braindump2go | Testking | Pass4sure | Actualtests | Others | |
$99.99 | $124.99 | $125.99 | $189 | $29.99/$49.99 | |
Up-to-Dated | ✔ | ✖ | ✖ | ✖ | ✖ |
Real Questions | ✔ | ✖ | ✖ | ✖ | ✖ |
Error Correction | ✔ | ✖ | ✖ | ✖ | ✖ |
Printable PDF | ✔ | ✖ | ✖ | ✖ | ✖ |
Premium VCE | ✔ | ✖ | ✖ | ✖ | ✖ |
VCE Simulator | ✔ | ✖ | ✖ | ✖ | ✖ |
One Time Purchase | ✔ | ✖ | ✖ | ✖ | ✖ |
Instant Download | ✔ | ✖ | ✖ | ✖ | ✖ |
Unlimited Install | ✔ | ✖ | ✖ | ✖ | ✖ |
100% Pass Guarantee | ✔ | ✖ | ✖ | ✖ | ✖ |
100% Money Back | ✔ | ✖ | ✖ | ✖ | ✖ |