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Step 6: Adding a Custom Command and Generated File
==================================================
Suppose, for the purpose of this tutorial, we decide that we never want to use
the platform ``log`` and ``exp`` functions and instead would like to
generate a table of precomputed values to use in the ``mysqrt`` function.
In this section, we will create the table as part of the build process,
and then compile that table into our application.
First, let's remove the check for the ``log`` and ``exp`` functions in
``MathFunctions/CMakeLists.txt``. Then remove the check for ``HAVE_LOG`` and
``HAVE_EXP`` from ``mysqrt.cxx``. At the same time, we can remove
:code:`#include <cmath>`.
In the ``MathFunctions`` subdirectory, a new source file named
``MakeTable.cxx`` has been provided to generate the table.
After reviewing the file, we can see that the table is produced as valid C++
code and that the output filename is passed in as an argument.
The next step is to add the appropriate commands to the
``MathFunctions/CMakeLists.txt`` file to build the MakeTable executable and
then run it as part of the build process. A few commands are needed to
accomplish this.
First, at the top of ``MathFunctions/CMakeLists.txt``, the executable for
``MakeTable`` is added as any other executable would be added.
.. literalinclude:: Step7/MathFunctions/CMakeLists.txt
:caption: MathFunctions/CMakeLists.txt
:name: MathFunctions/CMakeLists.txt-add_executable-MakeTable
:language: cmake
:start-after: # first we add the executable that generates the table
:end-before: # add the command to generate the source code
Then we add a custom command that specifies how to produce ``Table.h``
by running MakeTable.
.. literalinclude:: Step7/MathFunctions/CMakeLists.txt
:caption: MathFunctions/CMakeLists.txt
:name: MathFunctions/CMakeLists.txt-add_custom_command-Table.h
:language: cmake
:start-after: # add the command to generate the source code
:end-before: # add the main library
Next we have to let CMake know that ``mysqrt.cxx`` depends on the generated
file ``Table.h``. This is done by adding the generated ``Table.h`` to the list
of sources for the library MathFunctions.
.. literalinclude:: Step7/MathFunctions/CMakeLists.txt
:caption: MathFunctions/CMakeLists.txt
:name: MathFunctions/CMakeLists.txt-add_library-Table.h
:language: cmake
:start-after: # add the main library
:end-before: # state that anybody linking
We also have to add the current binary directory to the list of include
directories so that ``Table.h`` can be found and included by ``mysqrt.cxx``.
.. literalinclude:: Step7/MathFunctions/CMakeLists.txt
:caption: MathFunctions/CMakeLists.txt
:name: MathFunctions/CMakeLists.txt-target_include_directories-Table.h
:language: cmake
:start-after: # state that we depend on our bin
:end-before: # install rules
Now let's use the generated table. First, modify ``mysqrt.cxx`` to include
``Table.h``. Next, we can rewrite the ``mysqrt`` function to use the table:
.. literalinclude:: Step7/MathFunctions/mysqrt.cxx
:caption: MathFunctions/mysqrt.cxx
:name: MathFunctions/mysqrt.cxx
:language: c++
:start-after: // a hack square root calculation using simple operations
Run the :manual:`cmake <cmake(1)>` executable or the
:manual:`cmake-gui <cmake-gui(1)>` to configure the project and then build it
with your chosen build tool.
When this project is built it will first build the ``MakeTable`` executable.
It will then run ``MakeTable`` to produce ``Table.h``. Finally, it will
compile ``mysqrt.cxx`` which includes ``Table.h`` to produce the
``MathFunctions`` library.
Run the Tutorial executable and verify that it is using the table.