lyx_mirror/development/Win32/vld
Peter Kümmel c0708a5c5e add leak tool for msvc 'Visual Leak Detection' 1.9f: original files
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@21911 a592a061-630c-0410-9148-cb99ea01b6c8
2007-12-02 11:05:21 +00:00
..
include add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00
src add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00
CHANGES.txt add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00
COPYING.txt add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00
README.html add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00
vld.ini add leak tool for msvc 'Visual Leak Detection' 1.9f: original files 2007-12-02 11:05:21 +00:00

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    <title>Visual Leak Detector (Beta)</title>

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<body>

<div id="masthead">

<h1>Visual&nbsp;Leak&nbsp;Detector&nbsp;1.9f (Beta)</h1>

<p id="slogan">Enhanced Memory Leak Detection for Visual&nbsp;C++</p>

</div> <!-- #masthead -->




<div id="content">

<div id="toc">

<h2>Table of Contents</h2>

<ul>
    <li><a href="#intro">Introduction</a></li>

    <li><a href="#use">Using Visual&nbsp;Leak&nbsp;Detector</a></li>

    <li><a href="#configure">Configuration Options</a></li>

    <li><a href="#control">Controlling Leak Detection at Runtime</a></li>

    <li><a href="#build">Building Visual&nbsp;Leak&nbsp;Detector from Source</a></li>

    <li><a href="#x64">Windows x64 Support</a></li>

    <li><a href="#faq">Frequently Asked Questions</a></li>

    <li><a href="#restrictions">Known Restrictions</a></li>

    <li><a href="#license">License</a></li>

    <li><a href="#contact">Contacting the Author</a></li>
</ul>

</div> <!-- #toc -->




<h2 id="intro">Introduction</h2>

<p>Visual&nbsp;C++ provides built-in memory leak detection, but its capabilities are minimal at best. This memory leak
   detector was created as a free alternative to the built-in memory leak detector provided with Visual&nbsp;C++. Here
   are some of Visual&nbsp;Leak&nbsp;Detector's features, none of which exist in the built-in detector:</p>

<ul>
    <li>Provides a complete stack trace for each leaked block, including source file and line number information when
        available.</li>

    <li>Detects most, if not all, types of in-process memory leaks including COM-based leaks, and pure Win32 heap-based
    leaks.</li>

    <li>Selected modules (DLLs or even the main EXE) can be excluded from leak detection.</li>

    <li>Provides complete data dumps (in hex and ASCII) of leaked blocks.</li>

    <li>Customizable memory leak report: can be saved to a file or sent to the debugger and can include a variable level
    of detail.</li>
</ul>

<p>Other after-market leak detectors for Visual&nbsp;C++ are already available. But most of the really popular ones,
   like Purify and BoundsChecker, are very expensive. A few free alternatives exist, but they're often too intrusive,
   restrictive, or unreliable. Visual&nbsp;Leak&nbsp;Detector is currently the only freely available memory leak
   detector for Visual C++ that provides all of the above professional-level features packaged neatly in an easy-to-use
   library.</p>

<p>Visual Leak Detector is <a href="#license">licensed</a> free of charge as a service to the Windows developer
   community. If you find it to be useful and would like to just say "Thanks!", or you think it stinks and would like to
   say "This thing sucks!", please feel free to <a href="mailto:dmoulding@gmail.com">drop me a note</a>. Or, if you'd
   prefer, you can <a href="#contact">contribute a small donation</a>. Both are very appreciated.</p>




<h2 id="use">Using Visual&nbsp;Leak&nbsp;Detector</h2>

<p>This section briefly describes the basics of using Visual&nbsp;Leak&nbsp;Detector (VLD).</p>

<p><strong>Important! :</strong> Before using VLD with any Visual C++ project, you must first add the Visual Leak
   Detector include and library directories to the Visual C++ include and library directory search paths:</p>

<ul>
    <li><strong>Visual&nbsp;C++ 8</strong>: Go to Tools -> Options -> Projects and Solutions -> VC++ Directories.
        Select "Include files" from the "Show Directories For" drop-down menu. Add the
        <span class="filename">include</span> subdirectory from the Visual Leak Detector installation directory. Move it
        to the bottom of the list. Then select "Library files" from the drop-down menu and add the
        <span class="filename">lib</span> subdirectory from the Visual Leak Detector installation directory. Again, move
        it to the bottom of the list.</li>
        
    <li><strong>Visual&nbsp;C++ 7</strong>: Go to Project Properties -> C/C++ -> General -> Additional Include
        Directories and add the <span class="filename">include</span> subdirectory from the Visual Leak Detector
        installation directory. Move it to the bottom of the list. Then select Additional Library Directories and add
        the <span class="filename">lib</span> subdirectory from the Visual Leak Detector installation directory. Again,
        move it to the bottom of the list.</li>

    <li><strong>Visual&nbsp;C++ 6</strong>: Go to Tools -> Options -> Directories. Select "Include files" from
        the "Show Directories For" drop-down menu. Add the <span class="filename">include</span> subdirectory
        from the Visual Leak Detector installation directory. Move it to the bottom of the list. Then select "Library
        files" from the drop-down menu and add the <span class="filename">lib</span> subdirectory from the Visual Leak
        Detector installation directory. Again, move it to the bottom of the list.</li>
</ul>
        
<p>To use VLD with your project, follow these simple steps:</p>

<ol>
    <li>In at least one C/C++ source file from your program, include the <span class="filename">vld.h</span> header
        file. It should not matter which file you add the include statement to. It also should not matter in what order
        the header is included in relation to other headers. The only exception is
        <span class="filename">stdafx.h</span> (or any other precompiled header). A precompiled header, such as
        <span class="filename">stdafx.h</span>, must always be the first header included in a source file, so
        <span class="filename">vld.h</span> must be included after any precompiled headers.</li>

    <li>If your program contains one or more DLLs that you would also like to check for memory leaks, then also include
        <span class="filename">vld.h</span> in at least one source file from each DLL to be included in leak
        detection.</li>

    <li>Build the debug version of your program.</li>
</ol>

<p class="note"><strong>Note:</strong> Unlike earlier (pre-1.9) versions of VLD, it is now acceptable to include
   <span class="filename">vld.h</span> in every source file, or to include it in a common header that is included by
   many or all source files. Only one copy of the VLD code will be loaded into the process, regardless of how many
   source files include <span class="filename">vld.h</span>.</p>

<p>VLD will detect memory leaks in your program whenever you run the debug version. When you run the program under the
   Visual&nbsp;C++ debugger, a report of all the memory leaks detected will be displayed in the debugger's output window
   when your program exits (the report can optionally be saved to a file instead, see
   <span class="option">ReportFile</span> under <a href="#configure">Configuration Options</a>). Double-clicking on a
   source file's line number in the memory leak report will take you to that file and line in the editor window,
   allowing easy navigation of the code path leading up to the allocation that resulted in the memory leak.</p>

<p class="note"><strong>Note:</strong> When you build release versions of your program, VLD will not be linked into the
   executable. So it is safe to leave <span class="filename">vld.h</span> included in your source files when doing
   release builds. Doing so will not result in any performance degradation or any other undesirable overhead.</p>




<h2 id="configure">Configuration Options</h2>

<p>There are a several configuration options that control specific aspects of VLD's operation. These configuration
   options are stored in the <span class="filename">vld.ini</span> configuration file. By default, the configuration
   file should be in the Visual Leak Detector installation directory. However, the configuration file can be copied to
   the program's working directory, in which case the configuration settings in that copy of
   <span class="filename">vld.ini</span> will apply only when debugging that one program.</p>

<dl>
    <dt class="option">VLD</dt>
    <dd>
        <p>This option acts as a master on/off switch. By default, this option is set to "on". To <em>completely
        disable</em> Visual Leak Detector at runtime, set this option to "off". When VLD is turned off using this
        option, it will do nothing but print a message to the debugger indicating that it has been turned off.</p>
    </dd>
    
    <dt class="option">AggregateDuplicates</dt>
    <dd>
        <p>Normally, VLD displays each individual leaked block in detail. Setting this option to "yes" will make VLD
           aggregate all leaks that share the same size and call stack under a single entry in the memory leak report.
           Only the first leaked block will be reported in detail. No other identical leaks will be displayed. Instead,
           a tally showing the total number of leaks matching that size and call stack will be shown. This can be useful
           if there are only a few sources of leaks, but those few sources are repeatedly leaking a very large number of
           memory blocks.</p>
    </dd>

    <dt class="option">ForceIncludeModules</dt>
    <dd>
        <p>In some rare cases, it may be necessary to include a module in leak detection, but it may not be possible to
           include <span class="filename">vld.h</span> in any of the module's sources. In such cases, this option can be
           used to force VLD to include those modules in leak detection. List the names of the modules (DLLs) to be
           forcefully included in leak detection. If you do use this option, it's advisable to also add
           <span class="filename">vld.lib</span> to the list of library modules in the linker options of your project's
           settings.</p>

        <p class="note"><strong>Caution:</strong> Use this option only when absolutely necessary. In some situations,
           use of this option may result in unpredictable behavior including false leak reports and/or crashes. It's
           best to stay away from this option unless you are sure you understand what you are doing.</p>
    </dd>

    <dt class="option">MaxDataDump</dt>
    <dd>
        <p>Set this option to an integer value to limit the amount of data displayed in memory block data dumps. When
           this number of bytes of data have been dumped, the dump will stop. This can be useful if any of the leaked
           blocks are very large and the debugger's output window becomes too cluttered. You can set this option to 0
           (zero) if you want to suppress data dumps altogether.</p>
    </dd>

    <dt class="option">MaxTraceFrames</dt>
    <dd>
        <p>By default, VLD will trace the call stack for each allocated block as far back as possible. Each frame traced
           adds additional overhead (in both CPU time and memory usage) to your debug executable. If you'd like to limit
           this overhead, you can define this macro to an integer value. The stack trace will stop when it has traced
           this number of frames. The frame count may include some of the "internal" frames which, by default, are not
           displayed in the debugger's output window (see <span class="option">TraceInternalFrames</span> below). In
           some cases there may be about three or four "internal" frames at the beginning of the call stack. Keep this
           in mind when using this macro, or you may not see the number of frames you expect.</p>
    </dd>

    <dt class="option">ReportEncoding</dt>
    <dd>
        <p>When the memory leak report is saved to a file, the report may optionally be Unicode encoded instead of using
           the default ASCII encoding. This might be useful if the data contained in leaked blocks is likely to consist
           of Unicode text. Set this option to "unicode" to generate a Unicode encoded report.</p>
    </dd>

    <dt class="option">ReportFile</dt>
    <dd>
        <p>Use this option to specify the name and location of the file in which to save the memory leak report when
           using a file as the report destination, as specified by the <span class="option">ReportTo</span> option. If
           no file is specified here, then VLD will save the report in a file named "memory_leak_report.txt" in the
           working directory of the program.</p>
    </dd>

    <dt class="option">ReportTo</dt>
    <dd>
        <p>The memory leak report may be sent to a file in addition to, or instead of, the debugger. Use this option to
           specify which type of destination to use. Specify one of "debugger" (the default), "file", or "both".</p>
    </dd>

    <dt class="option">SelfTest</dt>
    <dd>
        <p>VLD has the ability to check itself for memory leaks. This feature is always active. Every time you run VLD,
           in addition to checking your own program for memory leaks, it is also checking itself for leaks. Setting this
           option to "on" forces VLD to intentionally leak a small amount of memory: a 21-character block filled with
           the text "Memory Leak Self-Test". This provides a way to test VLD's ability to check itself for memory leaks
           and verify that this capability is working correctly. This option is usually only useful for debugging VLD
           itself.</p>
    </dd>
    
    <dt class="option">SlowDebuggerDump</dt>
    <dd>
        <p>If enabled, this option causes Visual Leak Detector to write the memory leak report to the debugger's output
           window at a slower than normal rate. This option is specifically designed to work around a known issue with
           some older versions of Visual Studio where some data sent to the output window might be lost if it is sent
           too quickly. If you notice that some information seems to be missing from the memory leak report, try turning
           this on.</p>
    </dd>

    <dt class="option">StackWalkMethod</dt>
    <dd>
        <p>Selects the method to be used for walking the stack to obtain call stacks for allocated memory blocks. The
           default "fast" method may not always be able to successfully trace completely through all call stacks. In
           such cases, the "safe" method may prove to be more reliable in obtaining the full stack trace. The
           disadvantage with the "safe" method is that it is significantly slower than the "fast" method and will
           probably result in very noticeable performance degradation of the program being debugged. In most cases it
           should be okay to leave this option set to "fast". If you experience problems getting VLD to show call
           stacks, you can try setting this option to "safe".</p>

        <p>If you do use the "safe" method, and notice a significant performance decrease, you may want to consider
           using the <span class="option">MaxTraceFrames</span> option to limit the number of frames traced to a
           relatively small number. This can reduce the amount of time spent tracing the stack by a very large
           amount.</p>
    </dd>

    <dt class="option">StartDisabled</dt>
    <dd>
        <p>Set this option to "yes" to disable memory leak detection initially. This can be useful if you need to be
           able to selectively enable memory leak detection from runtime, without needing to rebuild the executable;
           however, this option should be used with caution. Any memory leaks that may occur before memory leak
           detection is enabled at runtime will go undetected. For example, if the constructor of some global variable
           allocates memory before execution reaches a subsequent call to <span class="function">VLDEnable</span>, then
           VLD will not be able to detect if the memory allocated by the global variable is never freed. Refer to the
           following section on <a href="#control">controlling leak detection at runtime</a> for details on using the
           runtime APIs which can be useful in conjunction with this option.</p>
    </dd>

    <dt class="option">TraceInternalFrames</dt>
    <dd>
        <p>This option determines whether or not all frames of the call stack, including frames internal to the heap,
           are traced. There will always be a number of frames on the call stack which are internal to Visual Leak
           Detector and C/C++ or Win32 heap APIs that aren't generally useful for determining the cause of a leak.
           Normally these frames are skipped during the stack trace, which somewhat reduces the time spent tracing and
           amount of data collected and stored in memory. Including all frames in the stack trace, all the way down into
           VLD's own code can, however, be useful for debugging VLD itself.</p>
    </dd>
</dl>




<h2 id="control">Controlling Leak Detection at Runtime</h2>

<p>Using the default configuration, VLD's memory leak detection will be enabled during the entire run of your program.
   In certain scenarios it may be desirable to selectively disable memory leak detection in certain segments of your
   code. VLD provides simple APIs for controlling the state of memory leak detection at runtime. To access these APIs,
   include <span class="filename">vld.h</span> in the source file that needs to use them.</p>

<dl>
    <dt class="api">VLDDisable</dt>
    <dd>
        <p>This function disables memory leak detection. After calling this function, memory leak detection will remain
           disabled until it is explicitly re-enabled via a call to VLDEnable.</p>

        <pre class="code">void VLDDisable (void);</pre>

        <h3>Arguments:</h3>

        <p>This function accepts no arguments.</p>

        <h3>Return Value:</h3>

        <p>None (this function always succeeds).</p>

        <h3>Notes:</h3>

        <p>This function controls memory leak detection on a per-thread basis. In other words, calling this function
           disables memory leak detection for only the thread that called the function. Memory leak detection will
           remain enabled for any other threads in the same process. This insulates the programmer from having to
           synchronize multiple threads that disable and enable memory leak detection. However, note also that this
           means that in order to disable memory leak detection process-wide, this function must be called from every
           thread in the process.</p>
    </dd>


    <dt class="api">VLDEnable</dt>
    <dd>
        <p>This function enables memory leak detection if it was previously disabled. After calling this function,
           memory leak detection will remain enabled unless it is explicitly disabled again via a call to
           VLDDisable().</p>

        <pre class="code">void VLDEnable (void);</pre>

        <h3>Arguments:</h3>

        <p>This function accepts no arguments.</p>

        <h3>Return Value:</h3>

        <p>None (this function always succeeds).</p>

        <h3>Notes:</h3>

        <p>This function controls memory leak detection on a per-thread basis. See the remarks for
           <span class="function">VLDDisable</span> regarding multithreading and memory leak detection for details.
           Those same concepts also apply to this function.</p>
    </dd>
</dl>




<h2 id="build">Building Visual&nbsp;Leak&nbsp;Detector from Source</h2>

<p>Because Visual&nbsp;Leak&nbsp;Detector is open source, it can be built from source if you want to tweak it to your
   liking. The most difficult part about building VLD from source is getting your build environment correctly set up.
   But if you follow these instructions carefully, the  process should be fairly painless.</p>

<ol>
    <li>VLD depends on the Debug Help Library. This library is part of
        <a href="http://www.microsoft.com/whdc/devtools/debugging/default.mspx">Debugging Tools for Windows</a> (DTfW).
        Download and install DTfW in order to install the required headers and libraries. I recommend installing version
        6.5 of DTfW. Newer versions may also work, but older versions will probably not work. Be sure to manually select
        to install the SDK files during the DTfW installation or the headers and libraries will not be installed (they
        are not installed with a default installation).</li>

    <li>Visual&nbsp;C++ will need to be made aware of where it can find the Debug Help Library header and library files.
        Add the <span class="filename">sdk\inc</span> and <span class="filename">sdk\lib</span> subdirectories from the
        DTfW installation directory to the include and library search paths in Visual&nbsp;C++. (See the section above
        on <a href="#use">using Visual Leak Detector</a> on instructions for adding to these search paths).
    </li>

    <li>VLD also requires a reasonably up-to-date Platform&nbsp;SDK. It is known to work with the latest SDK (as of this
        writing) which is the Windows Server 2003 R2 SDK. It should also work with earlier SDKs, such as the Windows XP
        SP2 SDK or may even work with SDKs as old as the February 2003 SDK. If in doubt,
        <a href="http://www.microsoft.com/downloads/details.aspx?FamilyId=A55B6B43-E24F-4EA3-A93E-40C0EC4F68E5&amp;displaylang=en">update
        your Platform&nbsp;SDK</a> to the latest version.</li>

    <li>Again, Visual&nbsp;C++ will need to know where to find the Platform&nbsp;SDK headers and libraries. Add the
        <span class="filename">Include</span> and <span class="filename">Lib</span> subdirectories from the
        Platform&nbsp;SDK installation directory to the Include and Library search paths, respectively. The
        Platform&nbsp;SDK directories should be placed just after the DTfW directories.</li>
</ol>

<p>To summarize, your Visual&nbsp;C++ include search path should look something like this:</p>

<ul class="vcsearchpath">
   <li>C:\Program&nbsp;Files\Debugging&nbsp;Tools&nbsp;for&nbsp;Windows\sdk\inc</li>

   <li>C:\Program&nbsp;Files\Microsoft&nbsp;Platform&nbsp;SDK\Include</li>

   <li>C:\Program&nbsp;Files\Microsoft&nbsp;Visual&nbsp;Studio\VCx\Include</li>
   
   <li>...</li>
</ul>

<p>And your Visual&nbsp;C++ library search path should look like this:</p>

<ul class="vcsearchpath">
   <li>C:\Program&nbsp;Files\Debugging&nbsp;Tools&nbsp;for&nbsp;Windows\sdk\lib</li>

   <li>C:\Program&nbsp;Files\Microsoft&nbsp;Platform&nbsp;SDK\Lib</li>

   <li>C:\Program&nbsp;Files\Microsoft&nbsp;Visual&nbsp;Studio\VCx\Lib</li>
   
   <li>...</li>
</ul>

<p>In the above examples, "VCx" could be "VC", "VC7", or "VC98" (or possibly other values) depending on which version of
   Visual Studio you have installed. Also, the name of your Platform&nbsp;SDK directory will probably be different from
   the example depending on which version of the Platform&nbsp;SDK you have installed.</p>

<p>Once you have completed all of the above steps, your build environment should be ready. To build VLD, just open the
   <span class="filename">vld.sln</span> solution file and do a full build.</p>

<p>When actually running the built project, <span class="filename">vld.dll</span> will expect to find the Debug Help
   Library as a private assembly. The private assembly must be located in the same directory as
   <span class="filename">vld.dll</span> (either the <span class="filename">Release</span> or
   <span class="filename">Debug</span> directory by default). Otherwise, when VLD is loaded, an error message will pop
   up indicating that the program failed to initialize, and you will see a message similar to the following in the
   debugger's output window:</p>
   <blockquote><p>LDR: LdrpWalkImportDescriptor() failed to probe C:\Projects\vld\Release\vld.dll for its manifest,
   ntstatus 0xc0150002</p></blockquote>
   
<p>To ensure that <span class="filename">vld.dll</span> finds the required private assembly, you need to copy
   <span class="filename">dbghelp.dll</span> and <span class="filename">Microsoft.DTfW.DHL.manifest</span> to the
   same directory that <span class="filename">vld.dll</span> is in.</p>




<h2 id="x64">Windows x64 Support</h2>

<p>The VLD source code has been modified to add support for x64-based 64-bit Windows. However, the binary contained in
   the distributed version of VLD is 32-bit only. To take advantage of the 64-bit support, you'll need to build a 64-bit
   version of VLD from source. To build the 64-bit version, follow the instructions for <a href="#build">building VLD
   from source</a>. So long as it is built using a x64-compatible compiler in 64-bit mode, the resulting DLL will be a
   64-bit binary.</p>

<p class="note"><strong>Note:</strong> I have not personally tested the 64-bit extensions so they are not absolutely
   guaranteed to work out-of-the-box. There may be a few lingering 64-bit compiler errors that still need to be worked
   out. If you need 64-bit support and run into problems trying to build the source in 64-bit mode, please
   <a href="mailto:dmoulding@gmail.com">let me know</a>. I'll be glad to assist in getting the 64-bit code working
   properly.</p>




<h2 id="faq">Frequently Asked Questions</h2>

<dl>
    <dt>When I try to compile my program with VLD, it fails and the compiler gives this error: <strong>Cannot open include file:
    'vld.h': No such file or directory</strong>.</dt>
    <dd>
        <p>The compiler can't find the header file that VLD installed. This probably means that VLD's include
        subdirectory has not been added to the Visual C++ include search path. See the section above about
        <a href="#use">Using Visual Leak Detector</a> for instructions on how to add VLD's directories to the search
        path.</p>
    </dd>
    <dt>In the memory leak report, the callstack contains many lines that say
        <strong>"File and line number unvailable"</strong> or <strong>"Function name unavailable"</strong>.</dt>
    <dd>
        <p>This may mean that VLD couldn't find the symbol database for your program. The symbol database is ususally in
           a file named <span class="filename">[my-program-name].pdb</span>. If this file is not located in the same
           directory as the program itself, then VLD will probably not find it and can't show any file or function
           names.</p>
    </dd>
</dl>




<h2 id="restrictions">Known Restrictions</h2>

<p>Known restrictions/limitations in this version of VLD include:</p>

<ul>
   <li>Memory allocations made through calls to functions loaded from a DLL using delayed loading may not be
       detected.</li> 

   <li>Support for programs that use MFC 7.0 or MFC 7.1 is not complete yet. Some memory leaks from such MFC-based
       programs may not be detected. A possible workaround for this restriction is to try forcefully including the MFC
       DLLs in memory leak detection, by setting the <span class="option">ForceIncludeModules</span> configuration
       option to: "mfc70d.dll mfc71d.dll" and explicitly adding <span class="filename">vld.lib</span> as an input file
       on the linker command line (can be added through project settings by adding it to the list of library modules in
       the linker options). This restriction does not apply to programs that use MFC 4.2 or MFC 8.0 which are both fully
       supported.</li>
       
   <li>Visual Leak Detector may report leaks internal to Visual Leak Detector if the main thread of the process
       terminates while other threads are still running.</li>
       
   <li>On Windows 2000 and earlier operating systems, you may need to manually add the
       <span class="filename">bin\Microsoft.VC80.CRT</span> subdirectory from the Visual Leak Detector installation
       directory to the system PATH environment variable. Also, <span class="filename">dbghelp.dll</span> will probably
       need to be manually copied to the directory where the program being debugged resides. Otherwise the system may
       not find the required DLLs when running VLD.</li>
       
    <li>If more than one copy of the same C Runtime DLL is loaded in the process at the same time, then some leaks may
        go undetected (note that loading more than one copy of the C Runtime DLL at the same time is probably a bad idea
        to begin with).</li>
</ul>




<h2 id="license">License</h2>

<p>Visual&nbsp;Leak&nbsp;Detector is distributed under the terms of the
   <a href="http://www.gnu.org/copyleft/lesser.html">GNU Lesser General Public License</a>. This license allows you to
   use the VLD library with your own programs without restriction. However, if you build a program (or another library)
   that is <em>based</em> on the VLD source code, or uses parts of the VLD source code in it, then some restrictions
   will apply. What this means is that you are free to ship and use the distributed version of the VLD DLL with regular
   commercial programs. But if you create a modified version of VLD, that modified version must remain "free software".
   See the <span class="filename"><a href="COPYING.txt">COPYING.txt</a></span> file for details.</p>

<p>The Debug Help Library (<span class="filename">dbghelp.dll</span>) and Microsoft C Runtime Library
   (<span class="filename">msvcr80.dll</span>) distributed with this software are not part of
   Visual&nbsp;Leak&nbsp;Detector and are not covered under the terms of the GNU Lesser General Public License. They are
   separately copyrighted works of Microsoft Corporation. Microsoft reserves all its rights to its copyrights in the
   Debug Help Library and Microsoft C Runtime Library. Neither your use of the Visual&nbsp;Leak&nbsp;Detector software,
   nor your license under the GNU Lesser General Public license grant you any rights to use the Debug Help Library or
   Microsoft C Runtime Library in <strong>ANY WAY</strong> (for example, redistributing them) that would infringe upon
   Microsoft Corporation's copyright in the Debug Help Library or Microsoft C Runtime Library.</p>

<h3>NO WARRANTY</h3>

<p>BECAUSE VISUAL LEAK DETECTOR ("THE SOFTWARE") IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO
   THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER
   PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT
   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE
   QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL
   NECESSARY SERVICING, REPAIR OR CORRECTION.</p>

<p>IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY
   WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY THE LICENSING TERMS SET FORTH ABOVE, BE LIABLE TO YOU
   FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY
   TO USE THE SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED
   BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF SUCH HOLDER OR
   OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.</p>




<h2 id="contact">Contacting the Author</h2>

<p>Please forward any bug reports, questions, comments or suggestions to me at
<a href="mailto:dmoulding@gmail.com">dmoulding@gmail.com.</a></p>

<p>Donations to help support ongoing development of Visual Leak Detector are very appreciated!</p>

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