Files
kicad-source-mirror/cmake/FindPythonInterp.cmake
T
Jon Evans a762311733 The upcoming Fedora 41 will use python 3.13
The Fedora folks are currently working on updating python to version
3.13 in Fedora 41.


(cherry picked from commit f8c8dcde13)

Co-authored-by: Steven A. Falco <stevenfalco@gmail.com>
2024-05-17 14:50:03 +00:00

200 lines
8.6 KiB
CMake

# - Find python interpreter
# This module finds if Python interpreter is installed and determines where the
# executables are. This code sets the following variables:
#
# PYTHONINTERP_FOUND - Was the Python executable found
# PYTHON_EXECUTABLE - path to the Python interpreter
#
# PYTHON_VERSION_STRING - Python version found e.g. 2.5.2
# PYTHON_VERSION_MAJOR - Python major version found e.g. 2
# PYTHON_VERSION_MINOR - Python minor version found e.g. 5
# PYTHON_VERSION_PATCH - Python patch version found e.g. 2
#
# The Python_ADDITIONAL_VERSIONS variable can be used to specify a list of
# version numbers that should be taken into account when searching for Python.
# You need to set this variable before calling find_package(PythonInterp).
#
# You can point to a preferred python install to use by setting the following
# to the point at the root directory of the python install:
#
# PYTHON_ROOT_DIR - The root directory of the python install
#=============================================================================
# Copyright 2005-2010 Kitware, Inc.
# Copyright 2011 Bjoern Ricks <bjoern.ricks@gmail.com>
# Copyright 2012 Rolf Eike Beer <eike@sf-mail.de>
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
unset(_Python_NAMES)
set(_PYTHON1_VERSIONS 1.6 1.5)
set(_PYTHON2_VERSIONS 2.7 2.6 2.5 2.4 2.3 2.2 2.1 2.0)
set(_PYTHON3_VERSIONS 3.13 3.12 3.11 3.10 3.9 3.8 3.7 3.6 3.5 3.4 3.3 3.2 3.1 3.0)
# Disabling the "search every possible place" code for now
# see https://gitlab.com/kicad/code/kicad/-/issues/8553
#if(PythonInterp_FIND_VERSION)
# if(PythonInterp_FIND_VERSION MATCHES "^[0-9]+\\.[0-9]+(\\.[0-9]+.*)?$")
# string(REGEX REPLACE "^([0-9]+\\.[0-9]+).*" "\\1" _PYTHON_FIND_MAJ_MIN "${PythonInterp_FIND_VERSION}")
# string(REGEX REPLACE "^([0-9]+).*" "\\1" _PYTHON_FIND_MAJ "${_PYTHON_FIND_MAJ_MIN}")
# list(APPEND _Python_NAMES python${_PYTHON_FIND_MAJ_MIN} python${_PYTHON_FIND_MAJ})
# unset(_PYTHON_FIND_OTHER_VERSIONS)
# if(NOT PythonInterp_FIND_VERSION_EXACT)
# foreach(_PYTHON_V ${_PYTHON${_PYTHON_FIND_MAJ}_VERSIONS})
# if(NOT _PYTHON_V VERSION_LESS _PYTHON_FIND_MAJ_MIN)
# list(APPEND _PYTHON_FIND_OTHER_VERSIONS ${_PYTHON_V})
# endif()
# endforeach()
# endif()
# unset(_PYTHON_FIND_MAJ_MIN)
# unset(_PYTHON_FIND_MAJ)
# else()
# list(APPEND _Python_NAMES python${PythonInterp_FIND_VERSION})
# set(_PYTHON_FIND_OTHER_VERSIONS ${_PYTHON${PythonInterp_FIND_VERSION}_VERSIONS})
# endif()
#else()
# set(_PYTHON_FIND_OTHER_VERSIONS ${_PYTHON3_VERSIONS} ${_PYTHON2_VERSIONS} ${_PYTHON1_VERSIONS})
#endif()
list(APPEND _Python_NAMES python3 python)
# Search for the preferred executable first
if( ${PYTHON_ROOT_DIR} )
# Search for any of the executable names solely in the directory we've
# been pointed to. Failure to find the python executable here is a fatal
# fail.
find_program(PYTHON_EXECUTABLE NAMES ${_Python_NAMES}
PATHS ${PYTHON_ROOT_DIR}
NO_DEFAULT_PATH )
elseif(VCPKG_TOOLCHAIN)
# this is a hack for arm64 builds for now
# the main problem being nobody seems to actually cross-compile kicad
# and insteads compiles it painfully on slow hardware
set(INTERP_TRIPLET "${VCPKG_TARGET_TRIPLET}")
if(${VCPKG_TARGET_TRIPLET} STREQUAL "arm64-windows")
set(INTERP_TRIPLET "x64-windows")
endif()
# Our VCPKG usage will always place it in a known location
find_program(PYTHON_EXECUTABLE
NAMES ${_Python_NAMES}
PATHS "${VCPKG_INSTALLED_DIR}/${INTERP_TRIPLET}/tools/python3"
NO_DEFAULT_PATH
NO_PACKAGE_ROOT_PATH
NO_CMAKE_PATH
NO_CMAKE_ENVIRONMENT_PATH
NO_CMAKE_SYSTEM_PATH
NO_SYSTEM_ENVIRONMENT_PATH
)
else()
# If there is no specific path given, look for python in the path
find_program(PYTHON_EXECUTABLE NAMES ${_Python_NAMES})
endif()
# Set up the versions we know about, in the order we will search. Always add
# the user supplied additional versions to the front.
set(_Python_VERSIONS
${Python_ADDITIONAL_VERSIONS}
${_PYTHON_FIND_OTHER_VERSIONS}
)
unset(_PYTHON_FIND_OTHER_VERSIONS)
unset(_PYTHON1_VERSIONS)
unset(_PYTHON2_VERSIONS)
unset(_PYTHON3_VERSIONS)
# Search for newest python version if python executable isn't found
if(NOT PYTHON_EXECUTABLE)
# If using the MINGW compiler, we mustn't find the standard python
# distribution because of multiple C-Runtime errors. We must instead
# use the Python-a-mingw-us distribution
if(MINGW)
list( APPEND _Python_PPATHS ${PYTHON_ROOT_DIR} )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.9" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.8" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.7" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.6" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.5" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.4" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.3" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.2" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.1" )
list( APPEND _Python_PPATHS "C:/python/${_CURRENT_VERSION}.0" )
else()
list( APPEND _Python_PPATHS [HKEY_LOCAL_MACHINE\\SOFTWARE\\Python\\PythonCore\\${_CURRENT_VERSION}\\InstallPath] )
endif()
foreach(_CURRENT_VERSION ${_Python_VERSIONS})
set(_Python_NAMES python${_CURRENT_VERSION})
if(WIN32)
list(APPEND _Python_NAMES python)
endif()
find_program(PYTHON_EXECUTABLE
NAMES ${_Python_NAMES}
PATHS ${_Python_PPATHS}
)
endforeach()
endif()
# determine python version string
if(PYTHON_EXECUTABLE)
execute_process(COMMAND "${PYTHON_EXECUTABLE}" -c
"import sys; sys.stdout.write(';'.join([str(x) for x in sys.version_info[:3]]))"
OUTPUT_VARIABLE _VERSION
RESULT_VARIABLE _PYTHON_VERSION_RESULT
ERROR_QUIET)
if(NOT _PYTHON_VERSION_RESULT)
string(REPLACE ";" "." PYTHON_VERSION_STRING "${_VERSION}")
list(GET _VERSION 0 PYTHON_VERSION_MAJOR)
list(GET _VERSION 1 PYTHON_VERSION_MINOR)
list(GET _VERSION 2 PYTHON_VERSION_PATCH)
if(PYTHON_VERSION_PATCH EQUAL 0)
# it's called "Python 2.7", not "2.7.0"
string(REGEX REPLACE "\\.0$" "" PYTHON_VERSION_STRING "${PYTHON_VERSION_STRING}")
endif()
else()
# sys.version predates sys.version_info, so use that
execute_process(COMMAND "${PYTHON_EXECUTABLE}" -c "import sys; sys.stdout.write(sys.version)"
OUTPUT_VARIABLE _VERSION
RESULT_VARIABLE _PYTHON_VERSION_RESULT
ERROR_QUIET)
if(NOT _PYTHON_VERSION_RESULT)
string(REGEX REPLACE " .*" "" PYTHON_VERSION_STRING "${_VERSION}")
string(REGEX REPLACE "^([0-9]+)\\.[0-9]+.*" "\\1" PYTHON_VERSION_MAJOR "${PYTHON_VERSION_STRING}")
string(REGEX REPLACE "^[0-9]+\\.([0-9])+.*" "\\1" PYTHON_VERSION_MINOR "${PYTHON_VERSION_STRING}")
if(PYTHON_VERSION_STRING MATCHES "^[0-9]+\\.[0-9]+\\.[0-9]+.*")
string(REGEX REPLACE "^[0-9]+\\.[0-9]+\\.([0-9]+).*" "\\1" PYTHON_VERSION_PATCH "${PYTHON_VERSION_STRING}")
else()
set(PYTHON_VERSION_PATCH "0")
endif()
else()
# sys.version was first documented for Python 1.5, so assume
# this is older.
set(PYTHON_VERSION_STRING "1.4")
set(PYTHON_VERSION_MAJOR "1")
set(PYTHON_VERSION_MAJOR "4")
set(PYTHON_VERSION_MAJOR "0")
endif()
endif()
unset(_PYTHON_VERSION_RESULT)
unset(_VERSION)
endif()
# handle the QUIETLY and REQUIRED arguments and set PYTHONINTERP_FOUND to TRUE if
# all listed variables are TRUE
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(PythonInterp REQUIRED_VARS PYTHON_EXECUTABLE VERSION_VAR PYTHON_VERSION_STRING)
mark_as_advanced(PYTHON_EXECUTABLE)