--- a/Symbian3/SDK/Source/GUID-9A38894D-98B8-5AFA-A36A-AC8B494EC2CC.dita Wed Mar 31 11:11:55 2010 +0100
+++ b/Symbian3/SDK/Source/GUID-9A38894D-98B8-5AFA-A36A-AC8B494EC2CC.dita Fri Jun 11 12:39:03 2010 +0100
@@ -1,48 +1,44 @@
-<?xml version="1.0" encoding="utf-8"?>
-<!-- Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies) All rights reserved. -->
-<!-- This component and the accompanying materials are made available under the terms of the License
-"Eclipse Public License v1.0" which accompanies this distribution,
-and is available at the URL "http://www.eclipse.org/legal/epl-v10.html". -->
-<!-- Initial Contributors:
- Nokia Corporation - initial contribution.
-Contributors:
--->
-<!DOCTYPE reference
- PUBLIC "-//OASIS//DTD DITA Reference//EN" "reference.dtd">
-<reference id="GUID-9A38894D-98B8-5AFA-A36A-AC8B494EC2CC" xml:lang="en"><title>libmexample:
-Using the Standard C Math Library</title><shortdesc>This example demonstrates the use of math functions, such as <codeph>gamma(double)</codeph>,
-that are part of the Standard C Maths support library (<codeph>libm.dll</codeph>). </shortdesc><prolog><metadata><keywords/></metadata></prolog><refbody>
-<section id="GUID-D3589080-5DD4-5DDF-A269-A7D1687F4705"><title>Purpose</title> <p>This
-example application shows how to use the <filepath>libm.dll</filepath> library.
-It: </p> <ol id="GUID-BDAA52E1-6D3C-520C-9C3F-74A558955A86">
-<li id="GUID-85A5E6A3-19BD-5060-A92E-CFAA7E522DF4"><p>reads an input value
-supplied by the user </p> </li>
-<li id="GUID-7D292EC7-FE00-5E35-9261-C11CB406CF32"><p>applies the gamma function
-on the input value </p> </li>
-<li id="GUID-B1C92272-17F9-5520-AC5D-A55B0C11963C"><p>prints the output. </p> </li>
-</ol> </section>
-<section id="GUID-2638D79E-A3D2-5A08-AFC3-00AF68C3C194-GENID-1-8-1-11-1-1-5-1-3-1-11-1-8-1-3-2"><title>Download</title> <p>Click
-on the following link to download the example: <xref href="guid-6013a680-57f9-415b-8851-c4fa63356636/zips/guid-b6b7503f-d331-4664-a6c8-a3e72b1f6c5b.zip" scope="external"> libmexample.zip</xref></p><p>Click: <xref href="guid-6013a680-57f9-415b-8851-c4fa63356636/guid-b6b7503f-d331-4664-a6c8-a3e72b1f6c5b.html" scope="peer">browse</xref> to view the example code. </p> </section>
-<section id="GUID-C3619B7E-3AF5-58D1-99D1-45CADE74B54C"><title>Class summary</title> <p>The
-example shows the use of the following API: </p> <ul>
-<li id="GUID-3DF01930-3A0E-5645-8D7E-F70321CB2B31"><p> <xref href="GUID-D1B12DAA-B281-3D8C-9CFF-A2062EA72A0A.dita"><apiname>gamma(double)</apiname></xref> from
-the Standard C Maths support library (<filepath>libm.dll</filepath>). </p> </li>
-</ul> </section>
-<section id="GUID-7D90F88D-B6DC-5287-AC55-AAF46443874A"><title>Building and
-configuring</title> <p>To build the example: </p> <ul>
-<li id="GUID-A00084B3-336E-57DE-A399-33DE044E6021"><p>You can build the example
-from your IDE or the command line. </p> <p>If you use an IDE, import the <filepath>bld.inf</filepath> file
-of the example into your IDE, and use the build command of the IDE. </p> <p>If
-you use the command line, open a command prompt, and set the current directory
-to the source code directory of the example. You can then build the example
-with the SBSv1 build tools with the following commands: </p> <p><userinput>bldmake
-bldfiles</userinput> </p> <p><userinput>abld build</userinput> </p> <p> <xref href="GUID-793A5EF9-CC16-5EEB-9011-6431EA76EB15.dita">How to use bldmake</xref> and <xref href="GUID-B6B54E07-3B34-5D5C-8815-93383FA8FB4B.dita">How to use abld</xref> describe
-how to use the SBSv1 build tools. </p> </li>
-<li id="GUID-91962C9F-6048-588E-8100-352354DC49C9"><p>For the emulator, the
-example builds an executable called <filepath>libmexample.exe</filepath> in
-the <filepath>epoc32\release\winscw\<udeb or urel>\</filepath> folder. </p> </li>
-</ul> </section>
-<section id="GUID-97F66C8D-36A9-50D4-8318-2A19BE9832D6"><title>Running the
-example</title> <p>Run the <filepath>libmexample.exe</filepath> executable.
-The example application waits for the user to enter an input value. </p> </section>
+<?xml version="1.0" encoding="utf-8"?>
+<!-- Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies) All rights reserved. -->
+<!-- This component and the accompanying materials are made available under the terms of the License
+"Eclipse Public License v1.0" which accompanies this distribution,
+and is available at the URL "http://www.eclipse.org/legal/epl-v10.html". -->
+<!-- Initial Contributors:
+ Nokia Corporation - initial contribution.
+Contributors:
+-->
+<!DOCTYPE reference
+ PUBLIC "-//OASIS//DTD DITA Reference//EN" "reference.dtd">
+<reference id="GUID-9A38894D-98B8-5AFA-A36A-AC8B494EC2CC" xml:lang="en"><title>libmexample: Using the Standard C Math Library</title><shortdesc>This example demonstrates the use of math functions, such
+as <codeph>gamma(double)</codeph>, that are part of the Standard C
+Maths support library (<codeph>libm.dll</codeph>). </shortdesc><prolog><metadata><keywords/></metadata></prolog><refbody>
+<section id="GUID-D3589080-5DD4-5DDF-A269-A7D1687F4705"><title>Purpose</title> <p>This example application shows how to use the <filepath>libm.dll</filepath> library. It: </p> <ol id="GUID-BDAA52E1-6D3C-520C-9C3F-74A558955A86">
+<li id="GUID-85A5E6A3-19BD-5060-A92E-CFAA7E522DF4"><p>reads an input
+value supplied by the user </p> </li>
+<li id="GUID-7D292EC7-FE00-5E35-9261-C11CB406CF32"><p>applies the
+gamma function on the input value </p> </li>
+<li id="GUID-B1C92272-17F9-5520-AC5D-A55B0C11963C"><p>prints the output. </p> </li>
+</ol> </section>
+<section id="GUID-2638D79E-A3D2-5A08-AFC3-00AF68C3C194-GENID-1-10-1-11-1-1-5-1-3-1-11-1-8-1-3-2"><title>Download</title> <p>Click on the following link to download the example: <xref href="guid-6013a680-57f9-415b-8851-c4fa63356636/zips/guid-b6b7503f-d331-4664-a6c8-a3e72b1f6c5b.zip" scope="external"> libmexample.zip</xref></p><p>Click: <xref href="guid-6013a680-57f9-415b-8851-c4fa63356636/guid-b6b7503f-d331-4664-a6c8-a3e72b1f6c5b.html" scope="peer">browse</xref> to view the example code. </p> </section>
+<section id="GUID-C3619B7E-3AF5-58D1-99D1-45CADE74B54C"><title>Class
+summary</title> <p>The example shows the use of the following API: </p> <ul>
+<li id="GUID-3DF01930-3A0E-5645-8D7E-F70321CB2B31"><p> <xref href="GUID-D1B12DAA-B281-3D8C-9CFF-A2062EA72A0A.dita"><apiname>gamma(double)</apiname></xref> from the Standard C Maths support library (<filepath>libm.dll</filepath>). </p> </li>
+</ul> </section>
+<section id="GUID-7D90F88D-B6DC-5287-AC55-AAF46443874A"><title>Building
+and configuring</title> <p>To build the example: </p> <ul>
+<li id="GUID-A00084B3-336E-57DE-A399-33DE044E6021"><p>You can build
+the example from your IDE or the command line. </p> <p>If you use
+an IDE, import the <filepath>bld.inf</filepath> file of the example
+into your IDE, and use the build command of the IDE. </p> <p>If you
+use the command line, open a command prompt, and set the current directory
+to the source code directory of the example. You can then build the
+example with the SBSv1 build tools with the following commands: </p> <p><userinput>bldmake bldfiles</userinput> </p> <p><userinput>abld
+build</userinput> </p> <p> <xref href="GUID-793A5EF9-CC16-5EEB-9011-6431EA76EB15.dita">How to use bldmake</xref> and <xref href="GUID-B6B54E07-3B34-5D5C-8815-93383FA8FB4B.dita">How to
+use abld</xref> describe how to use the SBSv1 build tools. </p> </li>
+<li id="GUID-91962C9F-6048-588E-8100-352354DC49C9"><p>For the emulator,
+the example builds an executable called <filepath>libmexample.exe</filepath> in the <filepath>epoc32\release\winscw\<udeb or urel>\</filepath> folder. </p> </li>
+</ul> </section>
+<section id="GUID-97F66C8D-36A9-50D4-8318-2A19BE9832D6"><title>Running
+the example</title> <p>Run the <filepath>libmexample.exe</filepath> executable. The example application waits for the user to enter
+an input value. </p> </section>
</refbody></reference>
\ No newline at end of file