kicad/CMakeLists.txt

1027 lines
37 KiB
CMake

#
# This program source code file is part of KICAD, a free EDA CAD application.
#
# Copyright (C) 2007-2020 Kicad Developers, see AUTHORS.txt for contributors.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, you may find one here:
# http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
# or you may search the http://www.gnu.org website for the version 2 license,
# or you may write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
#
cmake_minimum_required( VERSION 3.10 FATAL_ERROR )
# Default to CMAKE_BUILD_TYPE = Release unless overridden on command line
# http://www.cmake.org/pipermail/cmake/2008-September/023808.html
if( DEFINED CMAKE_BUILD_TYPE )
set( CMAKE_BUILD_TYPE ${CMAKE_BUILD_TYPE} CACHE STRING "Set to either \"Release\" or \"Debug\"" )
else()
set( CMAKE_BUILD_TYPE Release CACHE STRING "Set to either \"Release\" or \"Debug\"" )
endif()
project( kicad )
include( GNUInstallDirs )
include( CMakeDependentOption )
# Path to local CMake modules.
set( CMAKE_MODULE_PATH ${PROJECT_SOURCE_DIR}/CMakeModules )
# On Windows, binaries created by link option -g3 are very large (more than 1Gb for pcbnew,
# and more than 3Gb for the full kicad suite)
# This option create binaries using link option -g1 that create much smaller files, but
# there are less info in debug (but the file names and line numbers are available)
option( BUILD_SMALL_DEBUG_FILES "In debug build: create smaller binaries." OFF )
#
# KiCad build options should be added below.
#
# If you add a new build option, please add it's state to the
# OnCopyVersionInfo() function in common/dialog_about/dialog_about.cpp
# so that build option settings can be included in bug reports.
#
option( KICAD_SCRIPTING
"Build the Python scripting support inside KiCad binaries (default ON)."
ON )
option( KICAD_SCRIPTING_MODULES
"Build native portion of the pcbnew Python module: _pcbnew.{pyd,so} for OS command line use of Python."
ON )
option( KICAD_SCRIPTING_PYTHON3
"Build for Python 3 instead of 2 (default OFF)."
OFF )
option( KICAD_SCRIPTING_WXPYTHON
"Build wxPython implementation for wx interface building in Python and py.shell (default ON)."
ON )
option( KICAD_SCRIPTING_WXPYTHON_PHOENIX
"Use new wxPython binding (default OFF)."
OFF )
option( KICAD_SCRIPTING_ACTION_MENU
"Build a tools menu with registered python plugins: actions plugins (default ON)."
ON )
option( KICAD_USE_OCE
"Build tools and plugins related to OpenCascade Community Edition (default ON)"
ON )
option( KICAD_USE_OCC
"Build tools and plugins related to OpenCascade Technology (overrides KICAD_USE_OCE, default OFF)"
OFF )
option( KICAD_INSTALL_DEMOS
"Install KiCad demos and examples (default ON)"
ON )
option( KICAD_BUILD_QA_TESTS
"Build software Quality assurance unit tests (default ON)"
ON )
option( KICAD_SPICE
"Build KiCad with internal Spice simulator."
ON )
option( KICAD_BUILD_I18N
"Build the translation libraries."
OFF )
option( KICAD_I18N_UNIX_STRICT_PATH
"Use standard Unix locale lookup path (default OFF)."
OFF )
# Not supported by all platforms (for instance mingw)
option( KICAD_SANITIZE
"Build KiCad with sanitizer options. WARNING: Not compatible with gold linker"
OFF )
option( KICAD_STDLIB_DEBUG
"Build KiCad with libstdc++ debug flags enabled."
OFF )
option( KICAD_STDLIB_LIGHT_DEBUG
"Build KiCad with libstdc++ with -Wp,-D_GLIBCXX_ASSERTIONS flag enabled. Not as intrusive as KICAD_STDLIB_DEBUG"
OFF )
option( KICAD_BUILD_PARALLEL_CL_MP
"Build in parallel using the /MP compiler option (default OFF for safety reasons)"
OFF )
option( KICAD_USE_VALGRIND
"Build KiCad with valgrind stack tracking enabled."
OFF )
option( KICAD_NETLIST_QA
"Run eeschema netlist QA tests (requires Python 3)"
OFF )
cmake_dependent_option( KICAD_WIN32_DPI_AWARE
"Turn on DPI awareness for Windows builds only"
OFF "WIN32" OFF )
option( KICAD_USE_EGL
"Build KiCad with EGL backend support for Wayland."
OFF )
cmake_dependent_option( KICAD_USE_BUNDLED_GLEW
"Use the bundled version of GLEW - only available when KICAD_USE_EGL is set"
ON "KICAD_USE_EGL"
OFF )
# when option KICAD_SCRIPTING OR KICAD_SCRIPTING_MODULES is enabled:
# PYTHON_EXECUTABLE can be defined when invoking cmake
# ( use -DPYTHON_EXECUTABLE=<python path>/python.exe or python2 )
# when not defined by user, the default is python.exe under Windows and python2 for others
# python binary file should be in exec path.
# KICAD_SCRIPTING controls the entire python scripting system. If it is off, no other scripting
# functions are available.
if ( NOT KICAD_SCRIPTING )
message( STATUS "KICAD_SCRIPTING is OFF: Disabling all python scripting support" )
set( KICAD_SCRIPTING_MODULES OFF )
set( KICAD_SCRIPTING_ACTION_MENU OFF )
set( KICAD_SCRIPTING_PYTHON3 OFF )
set( KICAD_SCRIPTING_WXPYTHON OFF )
set( KICAD_SCRIPTING_WXPYTHON_PHOENIX OFF)
endif()
# KICAD_SCRIPTING_WXPYTHON_PHOENIX requires enabling the KICAD_SCRIPTING_WXPYTHON flag
# so that the wxWidgets library is properly versioned
if ( KICAD_SCRIPTING AND NOT KICAD_SCRIPTING_WXPYTHON AND KICAD_SCRIPTING_WXPYTHON_PHOENIX )
message( STATUS
"KICAD_SCRIPTING_WXPYTHON_PHOENIX has been requested, setting KICAD_SCRIPTING_WXPYTHON to ON")
set( KICAD_SCRIPTING_WXPYTHON ON)
endif()
# Global setting: exports are explicit
set( CMAKE_CXX_VISIBILITY_PRESET "hidden" )
set( CMAKE_VISIBILITY_INLINES_HIDDEN ON )
# Global setting: build everything position independent
set( CMAKE_POSITION_INDEPENDENT_CODE ON )
# Global setting: Use C++14
set(CMAKE_CXX_STANDARD 14)
set(CMAKE_CXX_EXTENSIONS OFF)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
# Enable additional valgrind instrumentation for stack tracking in libcontext
if( KICAD_USE_VALGRIND )
add_definitions( -DKICAD_USE_VALGRIND )
endif()
# Ensure DEBUG is defined for all platforms in Debug builds
# change to add_compile_definitions() after minimum required CMake version is 3.12
set_property( DIRECTORY APPEND PROPERTY COMPILE_DEFINITIONS $<$<CONFIG:Debug>:DEBUG> )
# Add option to add user directories for linker, if any
LINK_DIRECTORIES( ${LINK_DIRECTORIES_PATH} )
set( KICAD_CONFIG_DIR "kicad" CACHE STRING "Location of user specific KiCad config files" )
mark_as_advanced( KICAD_CONFIG_DIR )
add_definitions( -DKICAD_CONFIG_DIR=${KICAD_CONFIG_DIR} )
# Set default data file path to CMAKE_INSTALL_PREFIX if it wasn't specified during the
# CMake configuration. The value of DEFAULT_INSTALL_PATH is expanded in config.h and
# used in the source code to define the base path for kicad search paths and environment
# variables.
if( NOT DEFAULT_INSTALL_PATH )
set( DEFAULT_INSTALL_PATH "${CMAKE_INSTALL_PREFIX}"
CACHE
PATH
"Location of KiCad data files." )
endif()
message( STATUS "KiCad install dir: <${DEFAULT_INSTALL_PATH}>" )
# Generate build system specific header file.
include( PerformFeatureChecks )
perform_feature_checks()
# Setup the compiler warnings
include( ${CMAKE_MODULE_PATH}/Warnings.cmake )
if( WIN32 )
# define UNICODE and_UNICODE definition on Windows. KiCad uses unicode.
# Both definitions are required
add_definitions(-DUNICODE -D_UNICODE)
# In fully standards-compliant mode, M_PI et al. are defined only if
# _USE_MATH_DEFINES is set.
add_definitions( -D_USE_MATH_DEFINES )
# We need the arch for the resource compiler later
if ( NOT CMAKE_SIZEOF_VOID_P EQUAL 8 )
set( KICAD_BUILD_ARCH "x86" )
elseif( CMAKE_SIZEOF_VOID_P EQUAL 8 )
set( KICAD_BUILD_ARCH "x64" )
endif()
add_definitions( -DKICAD_BUILD_ARCH=${KICAD_BUILD_ARCH} )
if( KICAD_WIN32_DPI_AWARE )
add_definitions( -DKICAD_WIN32_DPI_AWARE=1 )
endif()
endif()
#================================================
# Provide access to CCACHE
#================================================
if (USE_CCACHE)
find_program(CCACHE_FOUND ccache)
if(CCACHE_FOUND)
get_property(RULE_LAUNCH_COMPILE GLOBAL PROPERTY RULE_LAUNCH_COMPILE)
set(RULE_LAUNCH_COMPILE "${RULE_LAUNCH_COMPILE} ${CCACHE_FOUND}")
set_property(GLOBAL PROPERTY RULE_LAUNCH_COMPILE ${RULE_LAUNCH_COMPILE})
get_property(RULE_LAUNCH_LINK GLOBAL PROPERTY RULE_LAUNCH_LINK)
set(RULE_LAUNCH_LINK "${RULE_LAUNCH_LINK} ${CCACHE_FOUND}")
set_property(GLOBAL PROPERTY RULE_LAUNCH_LINK ${RULE_LAUNCH_LINK})
message(STATUS "Used ${CCACHE_FOUND} for compilation.")
else(CCACHE_FOUND)
message(STATUS "CCache was requested but not found.")
endif(CCACHE_FOUND)
endif(USE_CCACHE)
#================================================
# Provide access to DISTCC
#================================================
if (USE_DISTCC)
find_program(DISTCC_FOUND distcc)
if(DISTCC_FOUND)
get_property(RULE_LAUNCH_COMPILE GLOBAL PROPERTY RULE_LAUNCH_COMPILE)
set(RULE_LAUNCH_COMPILE "${RULE_LAUNCH_COMPILE} ${DISTCC_FOUND}")
set_property(GLOBAL PROPERTY RULE_LAUNCH_COMPILE ${RULE_LAUNCH_COMPILE})
message(STATUS "Using ${DISTCC_FOUND} for distributed build.")
else(DISTCC_FOUND)
message(INFO "Distcc was requested but not found.")
endif(DISTCC_FOUND)
endif(USE_DISTCC)
#================================================
# Set flags for GCC, or treat llvm as GCC
#================================================
if( CMAKE_COMPILER_IS_GNUCXX OR CMAKE_CXX_COMPILER_ID MATCHES "Clang" )
# Set 32-bit flag for GCC to prevent excess precision
if( CMAKE_SIZEOF_VOID_P EQUAL 4 )
set( CMAKE_CXX_FLAGS "-ffloat-store ${CMAKE_CXX_FLAGS}" )
endif()
# Link flags in Debug: -g1 and -ggdb1 or -g1 and -ggdb3 can be used.
# Level 1 produces minimal information, enough for making basic backtraces.
# This includes descriptions of functions and external variables, and line number tables,
# but no information about local variables.
# Level 3 includes full information, but binaries are much larger.
if( BUILD_SMALL_DEBUG_FILES )
set( CMAKE_C_FLAGS_DEBUG "-g1 -ggdb1" )
set( CMAKE_CXX_FLAGS_DEBUG "-g1 -ggdb1" )
else()
set( CMAKE_C_FLAGS_DEBUG "-g3 -ggdb3" )
set( CMAKE_CXX_FLAGS_DEBUG "-g3 -ggdb3" )
endif()
if( KICAD_SANITIZE )
add_definitions( -DKICAD_SANITIZE )
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -D_GLIBCXX_SANITIZE_VECTOR -fsanitize=address -fno-optimize-sibling-calls -fsanitize-address-use-after-scope -fno-omit-frame-pointer" )
# ASAN shouldn't be used with these options (https://github.com/google/sanitizers/wiki/AddressSanitizer#faq)
set( CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-stack-protector -U_FORTIFY_SOURCE" )
endif()
if( KICAD_STDLIB_DEBUG )
add_definitions( -DKICAD_STDLIB_DEBUG )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -D_GLIBCXX_DEBUG" )
elseif( KICAD_STDLIB_LIGHT_DEBUG )
# useless if KICAD_STDLIB_DEBUG is ON.
# this option makes some controls to trap out of bound memory access.
add_definitions( -DKICAD_STDLIB_LIGHT_DEBUG )
set( CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} -Wp,-D_GLIBCXX_ASSERTIONS" )
endif()
if( MINGW )
list(APPEND mingw_resource_compiler_INCLUDE_DIRS ${CMAKE_SOURCE_DIR}/resources/msw/ )
list(APPEND mingw_resource_compiler_DEFINES KICAD_BUILD_ARCH=${KICAD_BUILD_ARCH} )
if( KICAD_WIN32_DPI_AWARE )
list(APPEND mingw_resource_compiler_DEFINES KICAD_WIN32_DPI_AWARE=1 )
endif()
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "-s" )
# Since version 2.8.5, Cmake uses a response file (.rsp) to
# pass the list of include paths to gcc
# unfortunately, under mingw32+msys, at least with gcc 4.8 and previous,
# this file is not always expanded and in this case include paths defined in this file
# are not taken in account ( this is the case of wxWidgets includes )
# If it is the case, disable this response file for includes ( See Windows-GNU.cmake module )
if( false ) #set to true to disable the include response file
if( WIN32 AND MSYS AND NOT CMAKE_CROSSCOMPILING )
# fixme: it is needed only with MSYS+MINGW32? or always under MINGW
if( ${CMAKE_SIZEOF_VOID_P} MATCHES 4 )
set( CMAKE_CXX_USE_RESPONSE_FILE_FOR_INCLUDES 0 )
endif()
endif()
endif()
# for some reasons, cmake does do use always a response file to send the list of objects
# to the archiver, and because this list can be very long, and can create issue
# when it is used in a command line, force use of a response file to store it
SET( CMAKE_CXX_USE_RESPONSE_FILE_FOR_OBJECTS 1 )
# The MinGW compiler can use the microsoft system snprintf as standard and it has a broken
# API with respect to the C99 standard, so make sure we force it to use its own compliant
# snprintf
add_definitions(-D__USE_MINGW_ANSI_STDIO=1)
# Allow linking for Boost for the UUID against bcrypt
set( EXTRA_LIBS "bcrypt" )
elseif( NOT APPLE )
# Thou shalt not link vaporware and tell us it's a valid DSO (apple ld doesn't support it)
# temporarily disabled due to breaking ASAN-enabled builds - Tom
# set( CMAKE_SHARED_LINKER_FLAGS "-Wl,--no-undefined" )
# set( CMAKE_MODULE_LINKER_FLAGS "-Wl,--no-undefined" )
set( CMAKE_EXE_LINKER_FLAGS_RELEASE "-s" )
endif()
if( APPLE )
set( CMAKE_LD_FLAGS "${CMAKE_LD_FLAGS} -headerpad_max_install_names") # needed by fixbundle
endif()
endif( CMAKE_COMPILER_IS_GNUCXX OR CMAKE_CXX_COMPILER_ID MATCHES "Clang" )
if( MSVC )
include_directories( ${CMAKE_SOURCE_DIR}/resources/msw/ )
# Disallow implicit linking for Boost
add_definitions( -DBOOST_ALL_NO_LIB )
# But allow it for the UUID so that it will link against bcrypt
add_definitions( -DBOOST_UUID_FORCE_AUTO_LINK )
# Disable MSVC's deprecation warnings
add_definitions( -D_CRT_SECURE_NO_WARNINGS -D_CRT_NONSTDC_NO_DEPRECATE -D_SCL_SECURE_NO_WARNINGS )
# Hide Windows's min() and max() macros
add_definitions( -DNOMINMAX )
# source and execution charset are UTF-8
string( APPEND CMAKE_CXX_FLAGS " /utf-8" )
# C4290: throw() is interpreted as declspec(nothrow)
string( APPEND CMAKE_CXX_FLAGS " /wd4290" )
# C4800: non-bool is explicitly cast to bool, forcing value of 0 or 1
string( APPEND CMAKE_CXX_FLAGS " /wd4800" )
# /Zi: create PDB
string( APPEND CMAKE_CXX_FLAGS " /Zi" )
# /GF: enable string pooling
string( APPEND CMAKE_CXX_FLAGS_RELEASE " /GF" )
# Avoid fatal error because /GF + swig wrapper exceed standard obj file limits
string( APPEND CMAKE_CXX_FLAGS " /bigobj" )
foreach( type EXE SHARED MODULE)
# /DEBUG: create PDB
string( APPEND CMAKE_${type}_LINKER_FLAGS " /DEBUG /MANIFEST:NO" )
# /OPT:REF: omit unreferenced code
string( APPEND CMAKE_${type}_LINKER_FLAGS_RELEASE " /OPT:REF /MANIFEST:NO" )
# /OPT:ICF: fold common data
string( APPEND CMAKE_${type}_LINKER_FLAGS_RELEASE " /OPT:ICF /MANIFEST:NO" )
endforeach()
# Let cl.exe parallelize builds
if( KICAD_BUILD_PARALLEL_CL_MP )
string( APPEND CMAKE_CXX_FLAGS " /MP" )
endif()
endif()
if( KICAD_SCRIPTING )
add_definitions( -DKICAD_SCRIPTING )
endif()
if( KICAD_SCRIPTING_MODULES )
add_definitions( -DKICAD_SCRIPTING_MODULES )
endif()
if( KICAD_SCRIPTING_PYTHON3 )
add_definitions( -DKICAD_SCRIPTING_PYTHON3 )
endif()
if( KICAD_SCRIPTING_WXPYTHON )
add_definitions( -DKICAD_SCRIPTING_WXPYTHON )
endif()
if( KICAD_SCRIPTING_WXPYTHON_PHOENIX )
add_definitions( -DKICAD_SCRIPTING_WXPYTHON_PHOENIX )
endif()
if( KICAD_SCRIPTING_ACTION_MENU )
add_definitions( -DKICAD_SCRIPTING_ACTION_MENU )
endif()
if( KICAD_SPICE )
add_definitions( -DKICAD_SPICE )
endif()
if( KICAD_USE_OCE )
add_definitions( -DKICAD_USE_OCE )
endif()
if( KICAD_USE_OCC )
add_definitions( -DKICAD_USE_OCC )
remove_definitions( -DKICAD_USE_OCE )
unset( KICAD_USE_OCE CACHE )
endif()
if( KICAD_USE_EGL AND UNIX AND NOT APPLE )
message( STATUS "Configuring KiCad for the wxGLCanvas EGL backend" )
add_definitions( -DKICAD_USE_EGL )
elseif( KICAD_USE_EGL )
message( STATUS "Ignoring KICAD_USE_EGL since not on Linux" )
endif()
# KIFACE_SUFFIX is the file extension used for top level program modules which
# implement the KIFACE interface. A valid suffix starts with a period '.'.
if( false )
# This is the eventual situation near milestone C) of modular-kicad blueprint.
# Until then we use .kiface extension so we don't collide with python DSO.
set( KIFACE_SUFFIX ${CMAKE_SHARED_MODULE_SUFFIX} )
else()
# Temporary situation until we can dovetail the python DSO into the kiface DSO.
set( KIFACE_SUFFIX ".kiface" )
endif()
# KIFACE_PREFIX is a basename prefix used for top level program modules which
# implement the KIFACE.
set( KIFACE_PREFIX "_" )
#message( STATUS "KIFACE_SUFFIX:${KIFACE_SUFFIX} KIFACE_PREFIX:${KIFACE_PREFIX}" )
#================================================
# Locations for install targets.
#================================================
if( NOT APPLE )
# Everything without leading / is relative to CMAKE_INSTALL_PREFIX.
set( KICAD_BIN bin
CACHE PATH "Location of KiCad binaries." )
# Do not make these variables "PATH" b/c cmake will truncate them and we need the full path
if( NOT IS_ABSOLUTE ${CMAKE_INSTALL_DATADIR} )
set( KICAD_DATA ${CMAKE_INSTALL_PREFIX}/${CMAKE_INSTALL_DATADIR}/kicad
CACHE STRING "Location of KiCad data files." )
else()
set( KICAD_DATA ${CMAKE_INSTALL_DATADIR}/kicad
CACHE STRING "Location of KiCad data files." )
endif()
if( WIN32 )
set( KICAD_PLUGINS ${KICAD_BIN}/scripting/plugins
CACHE PATH "Location of KiCad plugins." )
set( KICAD_LIB ${KICAD_BIN}
CACHE PATH "Location of KiCad shared objects" )
set( KICAD_USER_PLUGIN ${KICAD_BIN}/plugins
CACHE PATH "Location of KiCad user-loaded plugins" )
else()
set( KICAD_PLUGINS ${KICAD_DATA}/plugins
CACHE PATH "Location of KiCad plugins." )
set( KICAD_LIB ${CMAKE_INSTALL_LIBDIR}
CACHE PATH "Location of KiCad shared objects" )
set( KICAD_USER_PLUGIN ${CMAKE_INSTALL_LIBDIR}/kicad/plugins
CACHE PATH "Location of KiCad user-loaded plugins" )
endif()
set( KICAD_DOCS ${CMAKE_INSTALL_DATADIR}/doc/kicad
CACHE PATH "Location of KiCad documentation files." )
set( KICAD_DEMOS ${KICAD_DATA}/demos
CACHE PATH "Location of KiCad demo files." )
set( KICAD_TEMPLATE ${KICAD_DATA}/template
CACHE PATH "Location of KiCad template files." )
else()
# everything without leading / is relative to CMAKE_INSTALL_PREFIX.
# CMAKE_INSTALL_PREFIX is root of .dmg image
set( KICAD_BIN ${CMAKE_INSTALL_PREFIX}
CACHE PATH "Location of KiCad binaries." FORCE )
# some paths to single app bundle
set( OSX_BUNDLE_MAIN "KiCad.app" )
set( OSX_BUNDLE_BIN_DIR "Contents/MacOS" )
set( OSX_BUNDLE_LIB_DIR "Contents/Frameworks" )
set( OSX_BUNDLE_KIFACE_DIR "Contents/PlugIns" )
set( OSX_BUNDLE_SUP_DIR "Contents/SharedSupport" )
set( OSX_BUNDLE_APP_DIR "Contents/Applications" )
set( OSX_BUNDLE_BUILD_DIR "${CMAKE_BINARY_DIR}/kicad/${OSX_BUNDLE_MAIN}" )
set( OSX_BUNDLE_BUILD_BIN_DIR "${OSX_BUNDLE_BUILD_DIR}/${OSX_BUNDLE_BIN_DIR}" )
set( OSX_BUNDLE_BUILD_LIB_DIR "${OSX_BUNDLE_BUILD_DIR}/${OSX_BUNDLE_LIB_DIR}" )
set( OSX_BUNDLE_BUILD_KIFACE_DIR "${OSX_BUNDLE_BUILD_DIR}/${OSX_BUNDLE_KIFACE_DIR}" )
set( OSX_BUNDLE_BUILD_PLUGIN_DIR "${OSX_BUNDLE_BUILD_DIR}/${OSX_BUNDLE_KIFACE_DIR}" )
set( OSX_BUNDLE_INSTALL_DIR "${KICAD_BIN}/${OSX_BUNDLE_MAIN}" )
set( OSX_BUNDLE_INSTALL_BIN_DIR "${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_BIN_DIR}" )
set( OSX_BUNDLE_INSTALL_LIB_DIR "${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_LIB_DIR}" )
set( OSX_BUNDLE_INSTALL_KIFACE_DIR "${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_KIFACE_DIR}" )
set( OSX_BUNDLE_INSTALL_PLUGIN_DIR "${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_KIFACE_DIR}" )
# everything provided with the application bundle goes into
# KiCad.app/Contents/SharedSupport => accessible via GetDataDir()
# everything else to the .dmg image
set( KICAD_DATA ${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_SUP_DIR}
CACHE PATH "Location of KiCad data files." FORCE )
set( KICAD_LIB ${OSX_BUNDLE_INSTALL_DIR}/${OSX_BUNDLE_LIB_DIR}
CACHE PATH "Location of KiCad shared objects" FORCE )
set( KICAD_USER_PLUGIN ${OSX_BUNDLE_INSTALL_PLUGIN_DIR}
CACHE PATH "Location of KiCad user-loaded plugins" FORCE )
set( KICAD_TEMPLATE ${KICAD_DATA}/template
CACHE PATH "Location of KiCad template files." FORCE )
set( KICAD_PLUGINS ${KICAD_DATA}/plugins
CACHE PATH "Location of KiCad plugins." FORCE )
set( KICAD_DOCS doc
CACHE PATH "Location of KiCad documentation files." FORCE )
set( KICAD_DEMOS demos
CACHE PATH "Location of KiCad demo files." FORCE )
# RPATH setttings for building shared libraries
set( CMAKE_MACOSX_RPATH FALSE )
# Override default paths for fixup_bundle
set( OSX_BUNDLE_OVERRIDE_PATHS "
function( gp_item_default_embedded_path_override item default_embedded_path_var )
# by default, embed things right next to the main bundle executable:
set( path \"@executable_path/../../Contents/MacOS\" )
set( overridden 0 )
# embed .dylibs right next to the main bundle executable:
if( item MATCHES \"\\\\.dylib$\" )
set( path \"@executable_path/../Frameworks\" )
set( overridden 1 )
endif()
set( \${default_embedded_path_var} \"\${path}\" PARENT_SCOPE )
endfunction(gp_item_default_embedded_path_override)
# If `BU_CHMOD_BUNDLE_ITEMS` is not set, `install_name_tool` will fail to re-write some
# loader paths due to lack of writable permissions if the build dependencies were installed
# by brew (or didn't have writable permissions)
set ( BU_CHMOD_BUNDLE_ITEMS ON )
"
)
endif()
mark_as_advanced( KICAD_BIN
KICAD_PLUGINS
KICAD_USER_PLUGIN
KICAD_LIB
KICAD_DATA
KICAD_DOCS
KICAD_DEMOS
KICAD_TEMPLATE )
include( Functions )
include( ExternalProject )
#================================================
# Find libraries that are needed to build KiCad.
#================================================
include( CheckFindPackageResult )
if( KICAD_BUILD_I18N )
find_package( Gettext REQUIRED )
endif()
#
# Find OpenGL library, required
#
set( OpenGL_GL_PREFERENCE "LEGACY" ) # CMake 3.11+ setting; see 'cmake --help-policy CMP0072'
find_package( OpenGL REQUIRED )
#
# Find GLEW library, required
#
# The EGL canvas on GTK requires the use of a GLEW version compiled with an EGL flag.
# The one built in the thirdparty directory has the flag for EGL set, so we use it unless told
# otherwise. Then we search for the system GLEW version and use that instead.
#
if( KICAD_USE_EGL AND KICAD_USE_BUNDLED_GLEW AND UNIX AND NOT APPLE )
if( OpenGL_EGL_FOUND )
message( STATUS "Found OpenGL EGL library: ${OPENGL_egl_LIBRARY}" )
else()
message( FATAL_ERROR "OpenGL EGL library not found" )
endif()
# Add the custom GLEW target
add_subdirectory( thirdparty/glew )
# Set the standard package variables to point to our custom target to mimic the system version.
set( GLEW_LIBRARIES glew )
set( GLEW_FOUND TRUE )
include_directories( SYSTEM $<TARGET_PROPERTY:glew,INCLUDE_DIRECTORIES> )
else()
find_package( GLEW REQUIRED )
check_find_package_result( GLEW_FOUND "GLEW" )
include_directories( SYSTEM ${GLEW_INCLUDE_DIR} )
endif()
#
# Find GLM library, required
#
find_package( GLM 0.9.8 REQUIRED )
add_definitions( -DGLM_FORCE_CTOR_INIT )
include_directories( SYSTEM ${GLM_INCLUDE_DIR} )
#
# Find zlib library, required
#
find_package(ZLIB REQUIRED)
check_find_package_result( ZLIB_FOUND "ZLIB" )
include_directories( SYSTEM ${ZLIB_INCLUDE_DIRS} )
#
# Find CURL library, required
#
find_package( CURL REQUIRED )
include_directories( SYSTEM ${CURL_INCLUDE_DIRS} )
#
# Find Cairo library, required
#
find_package( Cairo 1.12 REQUIRED )
include_directories( SYSTEM ${CAIRO_INCLUDE_DIR} )
find_package( Pixman 0.30 REQUIRED )
include_directories( SYSTEM ${PIXMAN_INCLUDE_DIR} )
#
# Find Boost headers, required.
find_package( Boost 1.59.0 REQUIRED )
include_directories( SYSTEM ${Boost_INCLUDE_DIR} )
# Include MinGW resource compiler.
include( MinGWResourceCompiler )
if( WIN32 )
# we need the gdiplus library for cairo printing on windows
set( GDI_PLUS_LIBRARIES gdiplus )
endif()
# Find ngspice library, required for integrated circuit simulator
if( KICAD_SPICE )
find_package( ngspice REQUIRED )
endif()
# Find OpenCascade Community Edition, required for STEP plugin and tools
if( KICAD_USE_OCE )
set( OCC_LIBRARIES TKBinXCAF TKPCAF TKSTEP TKXDESTEP TKIGES TKXDEIGES )
find_package( OCE 0.18 REQUIRED ${OCC_LIBRARIES} )
include_directories( SYSTEM ${OCE_INCLUDE_DIRS} )
elseif( KICAD_USE_OCC )
find_package(OpenCASCADE)
if( NOT OCC_FOUND )
MESSAGE( FATAL_ERROR "================================================================\n"
" KICAD_USE_OCC=True but OpenCASCADE was not found!\n"
"================================================================\n")
endif()
if( OCC_VERSION_STRING VERSION_LESS 6.9.0 )
MESSAGE( FATAL_ERROR "================================================================\n"
"OpenCASCADE version ${OCC_VERSION_STRING} was found.\n"
" KiCad requires a minimum version of 6.9.0\n"
"================================================================\n")
endif()
include_directories( SYSTEM ${OCC_INCLUDE_DIR} )
endif()
# Assist with header file searching optimization:
# INC_BEFORE and INC_AFTER are two lists which go at the front and back of the
# header file search lists, respectively.
# INC_BEFORE is for use with "include_directories( BEFORE ...)", which _reverses_
# the order during insertion. (So put first wanted last, which is
# ${CMAKE_SOURCE_DIR/include.) Use '.' for current source dir since
# we don't want expansion here and now, which would happen if using ${CMAKE_CURRENT_SOURCE_DIR}.
# Instead we use '.' which is applicable to any source directory below here as a result of
# this lack of expansion.
set( INC_BEFORE
.
${CMAKE_SOURCE_DIR}/include
)
set( INC_AFTER
${CMAKE_BINARY_DIR}
)
#
# Find Python and other scripting resources
#
if( KICAD_SCRIPTING OR KICAD_SCRIPTING_MODULES )
# SWIG 3.0 or later require for C++11 support.
find_package( SWIG 3.0 REQUIRED )
include( ${SWIG_USE_FILE} )
if( KICAD_SCRIPTING_PYTHON3 )
set( PythonInterp_FIND_VERSION 3.3 )
set( PythonLibs_FIND_VERSION 3.3 )
else()
# force a python version < 3.0
set( PythonInterp_FIND_VERSION 2.6 )
set( PythonLibs_FIND_VERSION 2.6 )
endif()
find_package( PythonInterp )
check_find_package_result( PYTHONINTERP_FOUND "Python Interpreter" )
if( NOT KICAD_SCRIPTING_PYTHON3 AND NOT PYTHON_VERSION_MAJOR EQUAL 2 )
message( FATAL_ERROR "Python 2.x is required." )
endif()
# Get the correct Python site package install path from the Python interpreter found by
# FindPythonInterp unless the user specifically defined a custom path.
if( NOT PYTHON_SITE_PACKAGE_PATH )
execute_process( COMMAND ${PYTHON_EXECUTABLE} -c "import distutils.sysconfig;print(\"%s\"%distutils.sysconfig.get_python_lib(plat_specific=0, standard_lib=0, prefix=''))"
OUTPUT_VARIABLE PYTHON_SITE_PACKAGE_PATH
OUTPUT_STRIP_TRAILING_WHITESPACE
)
if( NOT PYTHON_SITE_PACKAGE_PATH )
message( FATAL_ERROR "Error occurred while attempting to find the Python site library path." )
endif()
endif()
if( APPLE )
# relative path for python in bundle
set( PYTHON_LIB_DIR "python/site-packages" )
# install into bundle Frameworks folder
set( PYTHON_DEST "${OSX_BUNDLE_BUILD_LIB_DIR}/${PYTHON_LIB_DIR}"
CACHE PATH "Python module install path."
)
elseif( VCPKG_TOOLCHAIN )
set( PYTHON_DEST "${CMAKE_INSTALL_PREFIX}/bin/Lib/site-packages"
CACHE PATH "Python module install path."
)
else()
set( PYTHON_DEST "${PYTHON_SITE_PACKAGE_PATH}"
CACHE PATH "Python module install path."
)
endif()
mark_as_advanced( PYTHON_DEST )
message( STATUS "Python module install path: ${PYTHON_DEST}" )
if( KICAD_SCRIPTING_PYTHON3 )
find_package( PythonLibs 3.3 REQUIRED )
else()
find_package( PythonLibs 2.6 REQUIRED )
endif()
# Infrequently needed headers go at end of search paths, append to INC_AFTER which
# although is used for all components, should be a harmless hit for something like eeschema
# so long as unused search paths are at the end like this.
set( INC_AFTER ${INC_AFTER} ${PYTHON_INCLUDE_DIRS} ${CMAKE_CURRENT_SOURCE_DIR}/scripting )
endif()
# Find the wxPython installation if requested
if( KICAD_SCRIPTING_WXPYTHON )
find_package( wxPython REQUIRED )
if( KICAD_SCRIPTING_WXPYTHON_PHOENIX AND WXPYTHON_VERSION VERSION_LESS 4.0.0 )
message( FATAL_ERROR
"Unable to find wxPython Phoenix,"
" instead found wxPython Classic ${WXPYTHON_VERSION}" )
endif()
# The test VERSION_GREATER_EQUAL is only available in cmake >3.7, so use the max possible
# version for the 3.0 line as the basis of the comparison
if( NOT KICAD_SCRIPTING_WXPYTHON_PHOENIX AND WXPYTHON_VERSION VERSION_GREATER 3.9.999 )
message( FATAL_ERROR
"Unable to find wxPython Classic,"
" instead found wxPython Phoenix ${WXPYTHON_VERSION}" )
endif()
# GTK3 is required on Linux
if( UNIX AND NOT APPLE )
if( NOT "${WXPYTHON_TOOLKIT}" STREQUAL "gtk3" )
message( FATAL_ERROR "GTK3-based wxPython/Phoenix toolkit is required.")
endif()
endif()
message( STATUS "Found ${WXPYTHON_FLAVOR} "
"${WXPYTHON_VERSION}/${WXPYTHON_TOOLKIT} "
"(wxWidgets ${WXPYTHON_WXVERSION})" )
endif()
#
# Find wxWidgets library, required
#
# Turn on wxWidgets compatibility mode for some classes
add_definitions( -DWX_COMPATIBILITY )
if( KICAD_SCRIPTING_WXPYTHON )
# Check if '--toolkit=xxx' option has been passed
string( REGEX MATCH "--toolkit=([a-zA-Z0-9]+)"
WXWIDGETS_REQUESTED_TOOLKIT "${wxWidgets_CONFIG_OPTIONS}" )
if( WXWIDGETS_REQUESTED_TOOLKIT
AND NOT WXWIDGETS_REQUESTED_TOOLKIT STREQUAL "--toolkit=${WXPYTHON_TOOLKIT}" )
message( WARNING "wxWidgets and wxPython must be based on the same toolkit.\n"
"It will be fixed automatically if you skip the '--toolkit=xxx' "
"wxWidgets_CONFIG_OPTIONS parameter.")
elseif( UNIX AND NOT APPLE )
# Force the use of GTK3 on Linux
set( wxWidgets_CONFIG_OPTIONS ${wxWidgets_CONFIG_OPTIONS} "--toolkit=gtk3" )
else()
# Use the same toolkit as wxPython otherwise there will be a symbol conflict
set( wxWidgets_CONFIG_OPTIONS ${wxWidgets_CONFIG_OPTIONS} "--toolkit=${WXPYTHON_TOOLKIT}" )
endif()
# Require the same wxWidgets version as is used by wxPython
set( wxWidgets_REQ_VERSION ${WXPYTHON_WXVERSION} )
else()
# Require wxWidgets 3.0.0 as the minimum when wxPython is disabled
set( wxWidgets_REQ_VERSION 3.0.0 )
endif()
# See line 49 of CMakeModules/FindwxWidgets.cmake
set( wxWidgets_CONFIG_OPTIONS ${wxWidgets_CONFIG_OPTIONS} --static=no )
find_package( wxWidgets ${wxWidgets_REQ_VERSION} COMPONENTS gl aui adv html core net base propgrid xml stc REQUIRED )
# Include wxWidgets macros.
include( ${wxWidgets_USE_FILE} )
if( KICAD_SCRIPTING_WXPYTHON AND NOT KICAD_SCRIPTING_WXPYTHON_PHOENIX )
# wxPython appears to be installed and valid so make sure the headers are available.
foreach( path ${wxWidgets_INCLUDE_DIRS} )
#message( STATUS "Searching for wx/wxPython/wxPython.h in ${path}" )
find_path( wxPYTHON_INCLUDE_DIRS wx/wxPython/wxPython.h
PATHS "${path}" )
if( wxPYTHON_INCLUDE_DIRS )
message( STATUS "Found wxPython.h in ${path}/wx/wxPython" )
break()
endif()
endforeach()
if( NOT wxPYTHON_INCLUDE_DIRS )
message( FATAL_ERROR "Cannot find wxPython.h" )
endif()
endif()
if( MINGW )
# This needs to be on a separate line to protect against a broken FindWxWidgets.cmake in vcpkg
if( ${wxWidgets_VERSION_STRING} VERSION_LESS 3.1 )
# Work around a bug in wx < 3.1 -- when wx itself is compiled with
# compiler extensions enabled, it assumes these are also available for
# applications.
add_definitions( -U__STRICT_ANSI__ )
endif()
endif()
if( APPLE )
# Remove app bundles in ${KICAD_BIN} before installing anything new.
# Must be defined before all includes so that it is executed first.
install( CODE "
message( STATUS \"Removing existing application bundles...\" )
# Remove links to standalone apps
file( REMOVE \"${KICAD_BIN}/Bitmap2Component.app\" )
file( REMOVE \"${KICAD_BIN}/Eeschema.app\" )
file( REMOVE \"${KICAD_BIN}/GerbView.app\" )
file( REMOVE \"${KICAD_BIN}/PCB Calculator.app\" )
file( REMOVE \"${KICAD_BIN}/Pcbnew.app\" )
file( REMOVE \"${KICAD_BIN}/Page Layout Editor.app\" )
# Remove main bundle
file( REMOVE_RECURSE ${KICAD_BIN}/${OSX_BUNDLE_MAIN} )
" COMPONENT Runtime
)
endif()
#================================================
# Add the documentation
#================================================
find_package( Doxygen )
add_subdirectory( Documentation )
# Generate config.h.
configure_file( ${PROJECT_SOURCE_DIR}/CMakeModules/config.h.cmake
${CMAKE_BINARY_DIR}/config.h )
###
# Generate Map file
###
if( KICAD_MAKE_LINK_MAPS )
# Currently only works on linux/gcc
if( UNIX AND NOT APPLE )
set( MAKE_LINK_MAPS true )
else()
set( MAKE_LINK_MAPS false )
endif()
endif()
#================================================
# "make uninstall" rules
#================================================
configure_file(
"${CMAKE_MODULE_PATH}/cmake_uninstall.cmake.in"
"${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake"
IMMEDIATE @ONLY )
add_custom_target( uninstall
"${CMAKE_COMMAND}" -P "${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake" )
#================================================
# Installation
#================================================
###
# Install scripts
###
if( UNIX AND NOT APPLE )
install( DIRECTORY scripts
DESTINATION ${KICAD_DOCS}
COMPONENT resources
PATTERN "*.bat" EXCLUDE
)
endif()
include( CTest )
enable_testing()
if( UNIX AND NOT APPLE )
# Create a *.deb file:
set( CPACK_GENERATOR "DEB" )
set( CPACK_DEBIAN_PACKAGE_MAINTAINER "http://launchpad.net/kicad" )
set( CPACK_PACKAGE_VERSION_MAJOR 1 )
set( CPACK_PACKAGE_VERSION_MINOR 0 )
set( CPACK_PACKAGE_VERSION_PATCH 0 )
#set( CPACK_PACKAGE_CONTACT Firstname Lastname <email@company.com> )
set( CPACK_PACKAGE_DESCRIPTION_SUMMARY "KiCad built by CMake build system." )
include( CPack )
endif()
#================================================
# Let CMake look in these directories for nested
# 'CMakeLists.txt' files to process
#================================================
# Binaries ( CMake targets )
add_subdirectory( resources )
add_subdirectory( thirdparty )
add_subdirectory( bitmaps_png )
add_subdirectory( libs )
add_subdirectory( common )
add_subdirectory( 3d-viewer )
add_subdirectory( eeschema )
add_subdirectory( gerbview )
add_subdirectory( pcbnew )
add_subdirectory( pagelayout_editor )
add_subdirectory( bitmap2component )
add_subdirectory( pcb_calculator )
add_subdirectory( plugins ) # 3D plugins must be built before kicad
add_subdirectory( cvpcb ) # must be after pcbnew
add_subdirectory( kicad ) # should follow pcbnew, eeschema
add_subdirectory( tools )
add_subdirectory( utils )
add_subdirectory( qa )
# Demos
if( KICAD_INSTALL_DEMOS )
add_subdirectory( demos )
endif ( KICAD_INSTALL_DEMOS )
# I18n Translations
if( KICAD_BUILD_I18N )
add_subdirectory( translation )
endif()
add_subdirectory( template )