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| <noinclude>{{documentation/versioncheck}}</noinclude> | | <noinclude>{{documentation/versioncheck}}</noinclude> |
− | ==Background==
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− | The executable Slicer application ''Slicer-Superbuild/Slicer-build/Slicer'' (or Slicer.exe) is the [[Documentation/{{documentation/version}}/Developers/Launcher|launcher]] of the real application binary ''Slicer-Superbuild/Slicer-build/bin/SlicerApp-real''.
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− | ==Linux==
| + | {{documentation/banner |
− | | + | | text = [https://slicer.readthedocs.io/en/latest/developer_guide/debugging/index.html This page has been moved to read-the-docs.] |
− | ===Analyze a segmentation fault===
| + | | background-color = 8FBC8F }} |
− | $ ulimit -c unlimited
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− | $ ./Slicer
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− | ... make it crash
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− | $ ./Slicer --gdb ./bin/SlicerApp-real
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− | (gdb) core core
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− | (gdb) backtrace
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− | ...
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− | | |
− | ====With systemd====
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− | In linux distros with systemd, coredumps are managed by the systemd daemon.
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− | And stored, in a compressed format (.lz4), in
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− | /var/lib/systemd/coredump/core.SlicerApp-real.xxxx.lz4
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− | | |
− | It can happen that even with ulimit -c unlimited, the coredump files are still truncated.
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− | You can check latest coredumps, and the correspoding PID with:
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− | coredumpctl list
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− | Thu 2018-05-24 16:37:46 EDT 22544 1000 1000 11 missing /usr/lib/firefox/firefox
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− | Fri 2018-05-25 15:50:52 EDT 14721 1000 1000 6 truncated /path/Slicer-build/bin/SlicerApp-real
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− | Mon 2018-05-28 11:35:43 EDT 17249 1000 1000 6 present /path/Slicer-build/bin/SlicerApp-real
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− | | |
− | You can modify systemd coredump to increase the default max file size in:
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− | /etc/systemd/coredump.conf
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− | [Coredump]
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− | #Storage=external
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− | #Compress=yes
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− | ProcessSizeMax=8G
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− | ExternalSizeMax=8G
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− | JournalSizeMax=6G
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− | #MaxUse=
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− | #KeepFree=
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− | | |
− | After that change, make Slicer crash again, and the core file will be present, instead of truncated.
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− | | |
− | You can launch gdb with a coredump file with the command:
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− | coredumpctl gdb $PID
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− | If no $PID is provided, the latest coredump is used. PID can be retrieved using `coredumpctl list`.
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− | | |
− | To decompress the coredump file to use with other IDE or ddd, change the coredump.conf Compress option, or use:
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− | coredumpctl dump $PID > /tmp/corefile
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− | | |
− | ===GDB debug with launch arguments===
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− | The Slicer app launcher provides options to start other programs with the Slicer environment settings.
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− | | |
− | *<code>--launch <executable> [<parameters>]</code>: executes an arbitrary program. For example, <code>Slicer --launch /usr/bin/gnome-terminal</code> starts gnome-terminal (then run GDB directly on SlicerQT-real)
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− | *<code>--gdb</code>: runs GDB then executes SlicerQT-real from within the debugger environment.
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− | | |
− | ===GDB debug by attaching to running process [RECOMMENDED] ===
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− | | |
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− | | |
− | <ol start="1" style="list-style-type: decimal;">
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− | | |
− | <li>Starting with Ubuntu 10.10, ptracing of non-child processes by non-root users as been disabled -ie. only a process which is a parent of another process can ptrace it for normal users.
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− | <ol style="list-style-type:none; border-left:thick solid red; padding-left:1em;">
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− | <li>
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− | <p>You can temporarily disable this restriction by:</p>
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− | <pre>$ echo 0 | sudo tee /proc/sys/kernel/yama/ptrace_scope</pre>
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− | </li>
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− | <li>
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− | <p>To permanently allow it to edit <code>/etc/sysctl.d/10-ptrace.conf</code> and change the line:</p>
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− | <pre>kernel.yama.ptrace_scope = 1</pre>
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− | <p>to read:</p>
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− | <pre>kernel.yama.ptrace_scope = 0</pre>
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− | </li>
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− | <li>For more details: http://askubuntu.com/questions/41629/after-upgrade-gdb-wont-attach-to-process</li>
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− | </ol>
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− | </li>
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− | | |
− | <li>
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− | <p>Running Slicer with the following command line argument will allow you to easily obtain the associated PID:</p>
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− | <pre>$ ./Slicer --attach-process</pre>
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− | <p>This will bring up a window with the <code>PID</code> before loading any modules, which is also helpful for debugging the loading process.</p>
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− | </li>
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− | | |
− | <li>
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− | <p>Then, you can attach the process to <code>gdb</code> using the following command:</p>
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− | <pre>$ gdb --pid $PIDABOVE</pre>
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− | </li>
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− | | |
− | | |
− | <li>
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− | <p>Finally type the following gdb command</p>
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− | <pre>(gdb) continue</pre>
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− | <p>If not using the <code>--attach-process</code>, the <code>PID</code> could be obtain using the following command:</p>
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− | <pre>$ ps -Afww | grep SlicerApp-real</pre>
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− | </li>
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− | | |
− | </ol>
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− | | |
− | ===GDB debug by using exec-wrapper===
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− | An alternative approach is to use a wrapper script to emulate the functionality of the app launcher. This will allow you to use gdb or a gdb-controlling program such as an IDE, in order to interactively debug directly from GDB without attaching.
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− | | |
− | The general idea of the wrapper is to set all of the appropriate environment variables as they would be set by the app launcher. From SlicerLauncherSettings:
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− | *[LibraryPath] contents should be in LD_LIBRARY_PATH
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− | *[Paths] contents should be in PATH
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− | *[EnvironmentVariables] should each be set
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− | | |
− | See [[Slicer4:Example_Wrapper_Script|this example script]]
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− | | |
− | Now, start gdb and do the following:
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− | <pre>
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− | (gdb) set exec-wrapper ./WrapSlicer4
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− | (gdb) exec-file ./bin/SlicerQT-real
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− | (gdb) run
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− | </pre>
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− | | |
− | Since VTK and ITK include many multithreaded filters, by default you will see lots of messages like the following from gdb during rendering and processing:
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− | [New Thread 0x7fff8378f700 (LWP 20510)]
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− | [Thread 0x7fff8b0aa700 (LWP 20506) exited]
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− | These can be turned off with this command:
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− | set print thread-events off
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− | | |
− | ===GDB debug in CodeLite IDE===
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− | [[{{FULLPAGENAME}}/CodeLite|Linux debugging with CodeLite IDE]]
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− | | |
− | ===Using QtCreator===
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− | See [[Documentation/{{documentation/version}}/Developers/Tutorials/QtCreator|QtCreator page]] for instructions.
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− | | |
− | == Windows ==
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− | | |
− | === Using Visual Studio ===
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− | Note: SimpleITK has to be disabled for building in debug mode. See more information at http://www.na-mic.org/Bug/view.php?id=3816 .
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− | For VisualStudio it's also possible to run the IDE with the correct environment to debug slicer.
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− | | |
− | * Start VisualStudio by using the launcher. Run: <code>Slicer.exe --VisualStudio</code>
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− | ** If you use non-supported VisualStudio version (e.g., VS2010, VS2012, ...) then you may have to start the executable of the VisualStudio IDE manually with the --launch option, for example: <code>Slicer.exe --launch "c:\Program Files (x86)\Microsoft Visual Studio 11.0\Common7\IDE\devenv.exe"</code>
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− | * When Visual Studio is started, open the <code>...\Slicer-build\Slicer.sln</code> solution
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− | * Set the SlicerApp as StartUp project (right-click on SlicerApp project and select "Set as StartUp Project")
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− | * Run Slicer in debug mode by Start Debugging command (in Debug menu).
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− | | |
− | Note that because CMake re-creates the solution file from within the build process, Visual Studio will sometimes need to stop and reload the project, requiring manual button pressing on your part (just press Yes or OK whenever you are asked). To avoid this, you can use a script to complete the build process and then re-start the Visual Studio.
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− | | |
− | ===Using QtCreator=== | |
− | See [[Documentation/{{documentation/version}}/Developers/Tutorials/QtCreator|QtCreator page]] for instructions.
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− | | |
− | === Using shell scripts for building/re-building Slicer ===
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− | | |
− | ==== Using batch (.bat) files ====
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− | Copy-paste the content below into a file called ''BuildSlicer.bat'' and run it to build or re-build Slicer. Check and if necessary update the first few lines with the actual location of source code and tools on your computer.
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− | | |
− | <pre>
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− | set SLICER_SOURCE_DIR="c:\D\S4"
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− | set SLICER_BIN_DIR="c:\D\S4R"
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− | set SLICER_QMAKE_EXE="c:\D\Support\qt-4.8.7-64-vs2013-rel\bin\qmake.exe"
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− | set CMAKE_EXE="C:\Program Files (x86)\CMake\bin\cmake.exe"
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− | set CTEST_EXE="C:\Program Files (x86)\CMake\bin\ctest.exe"
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− | mkdir %SLICER_BIN_DIR%
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− | cd /d %SLICER_BIN_DIR%
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− | %CMAKE_EXE% %SLICER_SOURCE_DIR% -G "Visual Studio 12 2013 Win64" -DQT_QMAKE_EXECUTABLE:PATH=%SLICER_QMAKE_EXE% -DSlicer_USE_PYTHONQT_WITH_OPENSSL:BOOL=OFF -DSlicer_USE_SimpleITK:BOOL=OFF
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− | %CTEST_EXE% -D Experimental
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− | </pre>
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− | | |
− | ==== Experimental: Using Cygwin ====
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− | If you use cygwin, you can create simple shell scripts, for example in /usr/local/bin, which these several steps at once when run from the Slicer4-superbuild directory:
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− | | |
− | * ''s4build'' (slicer4 build)
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− | (cd Slicer-build; cmake.exe -VV --debug-output . && ./Slicer.exe --VisualStudio Slicer.sln /out buildlog.txt /build)
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− | (cd Slicer-build; ./Slicer.exe --VisualStudio Slicer.sln)
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− | * ''s4sbuild'' (slicer4 super build)
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− | (cmake.exe -VV --debug-output . && ./Slicer-build/Slicer.exe --VisualStudio Slicer.sln /out buildlog.txt /build)
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− | (cd Slicer-build; ./Slicer.exe --VisualStudio Slicer.sln)
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− | The ''s4build'' command re-runs cmake and then runs the build of Slicer only. When this completes, it launches visual studio with slicer loaded for debugging.
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− | ''s4sbuild'' is similar, but it runs the superbuild process so that all the dependency libraries are updated. This takes longer, but is sometimes needed when there has been a change to CTK or other tools.
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− | Note the buildlog.txt files for checking if anything went wrong.
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− | | |
− | == Mac (Xcode) ==
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− | ===Using Xcode===
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− | [[image:Xcode-scheme-Screen Shot 2012-10-05 at 10.13.30 AM.png|thumb|right|200px]]
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− | As of slicer 4.2, we do not support building using Xcode, however if you build slicer using traditional unix Makefiles you can still debug using the powerful source debugging features of Xcode.
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− | ''Note: You need to set up a dummy project in Xcode just to enable some of the options.'' This means that Xcode will create a MacOS code template, but you won't use it directly (instead you will point to the code you build with cmake/make).
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− | | |
− | ==== Attaching to a running process ====
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− | You can use the Attach to Process option in the Xcode Product menu for debugging. This will allow you to get browsable stack traces for crashes.
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− | | |
− | Steps:
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− | # Start Slicer
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− | # Start Xcode
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− | # Use the Product->Attach to Process... menu
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− | | |
− | ====Setting Breakpoints====
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− | To set a breakpoint in code that is not crashing, you can set it via the command line interface. For the lldb debugger, first attach to the process and break the program. Then at the (lldb) prompt, stop at a method as follows:
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− | breakpoint set -M vtkMRMLScene::Clear
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− | then you can single step and/or set other breakpoints in that file.
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− | Alternatively, you can use the Product->Debug->Create a Symbolic Breakpoint... option. This is generally preferable to the lldb level debugging, since it shows up in the Breakpoints pane and can be toggled/deleted with the GUI.
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− | | |
− | ====Debugging the Startup Process====
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− | To debug startup issues you can set up a 'Scheme' and select the Slicer.app in your Slicer-build directory (see screen shot). You can set up multiple schemes with different command line arguments and executables (for example to debug tests).
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− | Since you are using a dummy project but want to debug the slicer application, you need to do the following:
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− | # Start Xcode and open dummy project
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− | # Pick Product->Edit Scheme...
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− | # Select the Run section
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− | # Select the Info tab
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− | # Pick Slicer.app as the Executable
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− | # Click OK
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− | # Now the Run button will start Slicer for debugging
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− | | |
− | Note that you can create multiple schemes, each various command line options to pass to slicer so you can easily get back to a debugging environment.
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− | | |
− | ===Using QtCreator===
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− | See [[Documentation/{{documentation/version}}/Developers/Tutorials/QtCreator|QtCreator page]] for instructions.
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− | | |
− | ===Profiling===
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− | The [http://en.wikipedia.org/wiki/Instruments_%28application%29 Instruments] tool is very useful for profiling.
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− | | |
− | ==Debugging a Test==
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− | Once VisualStudio is open with the Slicer environment loaded, it is possible to run and debug tests.
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− | To run all tests, build the ''RUN_TESTS'' project.
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− | #To debug a test, find its project:
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− | ##Libs/MRML/Core tests are in the ''MRMLCoreCxxTests'' project
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− | ##CLI tests are in ''CLI_NAMETest'' project (e.g. ThresholdScalarVolumeTest)
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− | ##Loadable module tests are in ''qSlicerLOADABLE_NAMECxxTests'' project (e.g. qSlicerVolumeRenderingCxxTests)
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− | ##Module logic tests are in ''MODULE_NAMELogicCxxTests'' project (e.g. VolumeRenderingLogicCxxTests)
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− | ##Module widgets tests are in ''MODULE_NAMEWidgetsCxxTests'' project (e.g. VolumesWidgetsCxxTests)
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− | #Go to the project debugging properties (right click -> Properties, then Configuration Properties/Debugging)
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− | #In ''Command Arguments'', type the name of the test (e.g. <code>vtkMRMLSceneImportTest</code> for project MRMLCoreCxxTests)
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− | # If the test takes argument(s), enter the argument(s) after the test name in ''Command Arguments'' (e.g. <code>vtkMRMLSceneImportTest C:\Path\To\Slicer4\Libs\MRML\Core\Testing\vol_and_cube.mrml</code>)
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− | ## You can see what arguments are passed by the dashboards by looking at the test details in [http://slicer.cdash.org/index.php?project=Slicer4 CDash].
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− | ## Most VTK and Qt tests support the <code>-I</code> argument, it allows the test to be run in "interactive" mode. It doesn't exit at the end of the test.
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− | # Make the project ''Set As StartUp Project''
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− | # ''Start Debugging (F5)''
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− | ==Debugging Python scripts==
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− | See [[Documentation/{{documentation/version}}/Developers/Python_scripting#How_can_I_use_a_visual_debugger_for_step-by-step_debugging|Python scripting page]].
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− | {{:Documentation/{{documentation/version}}/Developers/FAQ/Debugging|Debugging}}
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