CMakeLists.txt

cmake_minimum_required( VERSION 3.11 FATAL_ERROR )
set(CMAKE_CXX_STANDARD 17)
project(HiggsAnalysisCombinedLimit VERSION 0.0.1)

option( MODIFY_ROOTMAP "Modify generated Rootmap to take out classes already bundled in StatAnalysis" FALSE )
option( INSTALL_PYTHON "Install the Python library and scripts" TRUE )

# Can build with CMake after e.g. setting up StatAnalysis release like this:
# export ATLAS_LOCAL_ROOT_BASE=/cvmfs/atlas.cern.ch/repo/ATLASLocalRootBase
# source $ATLAS_LOCAL_ROOT_BASE/user/atlasLocalSetup.sh; asetup StatAnalysis,0.3.2
# mkdir build; cd build
# cmake path/to/source # change this path to where-ever you cloned Combine repo to
# make -j4

list(APPEND CMAKE_PREFIX_PATH $ENV{ROOTSYS})
find_package( ROOT REQUIRED COMPONENTS Core MathMore RooFitCore RooFit RooStats Minuit HistFactory RooFitHS3)
find_package(Eigen3 REQUIRED)
find_package(Vdt)
find_package(LCG QUIET) # only used for FindBoost in StatAnalysis
find_package( Boost REQUIRED COMPONENTS program_options filesystem )

message(STATUS "Using ROOT From: ${ROOT_INCLUDE_DIRS}")
include(${ROOT_USE_FILE})

include_directories(${ROOT_INCLUDE_DIRS})
include_directories(BEFORE ${CMAKE_CURRENT_SOURCE_DIR})
add_definitions(${ROOT_CXX_FLAGS})

set(LIBNAME HiggsAnalysisCombinedLimit)

file(GLOB HEADERS RELATIVE ${CMAKE_CURRENT_SOURCE_DIR} interface/*.h*)
file(GLOB SOURCES RELATIVE ${CMAKE_CURRENT_SOURCE_DIR} src/*.c*)

# includes require "HiggsAnalysis/CombinedLimit" prefix in many places
# so create a symlink in the build dir
file(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/HiggsAnalysis)
execute_process(COMMAND ${CMAKE_COMMAND} -E create_symlink "${CMAKE_CURRENT_SOURCE_DIR}" "${CMAKE_CURRENT_BINARY_DIR}/HiggsAnalysis/CombinedLimit" )
include_directories(${CMAKE_CURRENT_BINARY_DIR})

ROOT_GENERATE_DICTIONARY(G__${LIBNAME} HiggsAnalysis/CombinedLimit/src/classes.h LINKDEF src/classes_def.xml
        MODULE ${LIBNAME}
        OPTIONS --deep)
add_library(${LIBNAME} SHARED ${SOURCES} G__${LIBNAME}.cxx)
set_target_properties(${LIBNAME} PROPERTIES PUBLIC_HEADER "${HEADERS}")
target_link_libraries (${LIBNAME} Eigen3::Eigen ${ROOT_LIBRARIES} ${Boost_LIBRARIES} VDT::VDT)

add_executable(combine bin/combine.cpp)
target_link_libraries(combine PUBLIC ${LIBNAME})


# Create empty __init__.py file in the build directory that will be installed
# in the Python library directories.
set(empty_init_py "${CMAKE_CURRENT_BINARY_DIR}/__init__.py")

if(MODIFY_ROOTMAP)
        # edit the generated rootmap in-situ before installation
        
        # Define the path to the generated file
        set(GENERATED_FILE_PATH "${CMAKE_CURRENT_BINARY_DIR}/lib${LIBNAME}.rootmap")

        # Define the custom command to search and replace in-place
        add_custom_command(
          OUTPUT "${GENERATED_FILE_PATH}.bak"  # Declare the generated file as output
          DEPENDS "${GENERATED_FILE_PATH}"  # Ensure it depends on the original generated file
          COMMAND sed -i.bak -e "/class RooParamKeysPdf/d"
                            -e "/class RooStarMomentMorph/d"
                            -e "/class RooStats::HistFactory::RooBSpline/d"
                            -e "/class RooStats::HistFactory::RooBSplineBases/d" 
                            -e "/class ResponseFunction/d"
                            -e "/class RooTwoSidedCBShape/d"
                            "${GENERATED_FILE_PATH}"
          COMMENT "Removing conflicting classes from generated rootmap"
        )

        # Define a custom target that depends on the custom command output
        add_custom_target(
                ModifyRootmapFile  # Name of the custom target
                DEPENDS "${GENERATED_FILE_PATH}.bak"  # Ensure the custom command is executed
        )

        # Add the custom target as a dependency to another target to ensure it's built
        add_dependencies(combine ModifyRootmapFile)
endif()

#####################
# Installation part #
#####################


# Install the dictionaries.
install(FILES ${CMAKE_CURRENT_BINARY_DIR}/lib${LIBNAME}_rdict.pcm
        ${CMAKE_CURRENT_BINARY_DIR}/lib${LIBNAME}.rootmap
        DESTINATION lib)

# Install the libraries and header files.
install(TARGETS ${LIBNAME}
        LIBRARY DESTINATION lib
        PUBLIC_HEADER DESTINATION include/HiggsAnalysis/CombinedLimit/interface
        )
# dictionary requires classes.h to be in include path exactly as it was specified
install(FILES ${CMAKE_CURRENT_BINARY_DIR}/HiggsAnalysis/CombinedLimit/src/classes.h
        DESTINATION include/HiggsAnalysis/CombinedLimit/src)

# Install the "combine" executable in the bin directory.
install(TARGETS combine DESTINATION bin)

# This block is commented out for now, while using the less sophisticated location below
# Check if the Python library installation directory is outside the install
# prefix. If it is, we error out because CMake should not install files outside
# the prefix. In the future, one can imagine to let the user choose where the
# Python libraries get installed in the prefix with a CMake configuration flag.
#find_package(Python COMPONENTS Interpreter Development) # To get the Python library install directory into Python_SITELIB
#cmake_path(IS_PREFIX CMAKE_INSTALL_PREFIX "${Python_SITELIB}" sitelib_in_prefix)
#if(NOT ${sitelib_in_prefix})
#    message( FATAL_ERROR "Your Python library installation directory ${Python_SITELIB} "
#            "is outside the install prefix ${CMAKE_INSTALL_PREFIX}! "
#            "This is not supported for now. Consider changing the install prefix "
#            "with the -DCMAKE_INSTALL_PREFIX:PATH=<path> cmake configuration option.")
#endif()
#
## The the Python library installation directory relative to the install prefix.
#file(RELATIVE_PATH Python_SITELIB_IN_PREFIX ${CMAKE_INSTALL_PREFIX} ${Python_SITELIB})

if(INSTALL_PYTHON)
  # Install the scripts like "text2workspace" to the bin directory.
  install(DIRECTORY scripts/ DESTINATION bin)

  set(Python_SITELIB_IN_PREFIX "python")

  message (STATUS "Using Python install location:" ${Python_SITELIB_IN_PREFIX})
  # The python package will be installed in such a way that the original
  # CMSSW-style directory structure is kept, for maximal compatibility.
  install(DIRECTORY python/ DESTINATION ${Python_SITELIB_IN_PREFIX}/HiggsAnalysis/CombinedLimit)

  # Create empty __init__.py files in the Python package subdirectories such that
  # the Python imports work.
  file(TOUCH ${empty_init_py})
  INSTALL(FILES ${empty_init_py} DESTINATION ${Python_SITELIB_IN_PREFIX}/HiggsAnalysis)
  INSTALL(FILES ${empty_init_py} DESTINATION ${Python_SITELIB_IN_PREFIX}/HiggsAnalysis/CombinedLimit)
endif()