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# Adding a Custom Command and Generated File #

In this section we will show how you can add a generated source file into the
build process of an application. For this example, we will create a table of
precomputed square roots as part of the build process, and then compile that
table into our application.

To accomplish this, we first need a program that will generate the table. In the
MathFunctions subdirectory a new source file named MakeTable.cxx will do just that.

  // A simple program that builds a sqrt table
  #include <iostream>
  #include <fstream>
  #include <cmath>

  int main (int argc, char *argv[])
  {
    // make sure we have enough arguments
    if (argc < 2) {
      return 1;
    }

    std::ofstream fout(argv[1],std::ios_base::out);
    const bool fileOpen = fout.is_open();
    if(fileOpen) {
      fout << "double sqrtTable[] = {" << std::endl;
      for (int i = 0; i < 10; ++i) {
        fout << sqrt(static_cast<double>(i)) << "," << std::endl;
      }
      // close the table with a zero
      fout << "0};" << std::endl;
      fout.close();
    }
    return fileOpen ? 0 : 1; // return 0 if wrote the file
  }

Note 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 MathFunctions’ CMakeLists
file to build the MakeTable executable and then run it as part of the build
process. A few commands are needed to accomplish this, as shown below:

  # first we add the executable that generates the table
  add_executable(MakeTable MakeTable.cxx)

  # add the command to generate the source code
  add_custom_command(
    OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/Table.h
    COMMAND MakeTable ${CMAKE_CURRENT_BINARY_DIR}/Table.h
    DEPENDS MakeTable
    )

  # add the main library
  add_library(MathFunctions
              mysqrt.cxx
              ${CMAKE_CURRENT_BINARY_DIR}/Table.h
              )

  target_include_directories(MathFunctions
          INTERFACE ${CMAKE_CURRENT_SOURCE_DIR}
          PUBLIC ${Tutorial_BINARY_DIR}
                 # add the binary tree directory to the search path for include files
                 ${CMAKE_CURRENT_BINARY_DIR}
          )

  install(TARGETS MathFunctions DESTINATION lib)
  install(FILES MathFunctions.h DESTINATION include)

First, the executable for MakeTable is added as any other executable would be
added. Then we add a custom command that specifies how to produce Table.h by
running MakeTable. 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. 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.

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:

  if (x <= 0) {
    return 0;
  }

  // use the table to help find an initial value
  double result = x;
  if (x >= 1 && x < 10) {
    result = sqrtTable[static_cast<int>(x)];
  }

  // do ten iterations
  for (int i = 0; i < 10; ++i) {
    if (result <= 0) {
      result = 0.1;
    }
    double delta = x - (result*result);
    result = result + 0.5*delta/result;
    std::cout << "Computing sqrt of " << x << " to be " << result << std::endl;
  }

Run cmake or cmake-gui 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.