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149 lines
5.5 KiB
149 lines
5.5 KiB
################################################################################
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# Build python extension
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################################################################################
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function(add_mlir_python_extension libname extname)
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cmake_parse_arguments(ARG
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""
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"INSTALL_DIR"
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"SOURCES;LINK_LIBS"
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${ARGN})
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if (ARG_UNPARSED_ARGUMENTS)
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message(FATAL_ERROR " Unhandled arguments to add_mlir_python_extension(${libname}, ... : ${ARG_UNPARSED_ARGUMENTS}")
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endif()
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if ("${ARG_SOURCES}" STREQUAL "")
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message(FATAL_ERROR " Missing SOURCES argument to add_mlir_python_extension(${libname}, ...")
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endif()
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# Normally on unix-like platforms, extensions are built as "MODULE" libraries
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# and do not explicitly link to the python shared object. This allows for
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# some greater deployment flexibility since the extension will bind to
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# symbols in the python interpreter on load. However, it also keeps the
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# linker from erroring on undefined symbols, leaving this to (usually obtuse)
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# runtime errors. Building in "SHARED" mode with an explicit link to the
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# python libraries allows us to build with the expectation of no undefined
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# symbols, which is better for development. Note that not all python
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# configurations provide build-time libraries to link against, in which
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# case, we fall back to MODULE linking.
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if(Python3_LIBRARIES STREQUAL "" OR NOT MLIR_PYTHON_BINDINGS_VERSION_LOCKED)
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set(PYEXT_LINK_MODE MODULE)
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set(PYEXT_LIBADD)
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else()
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set(PYEXT_LINK_MODE SHARED)
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set(PYEXT_LIBADD ${Python3_LIBRARIES})
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endif()
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# The actual extension library produces a shared-object or DLL and has
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# sources that must be compiled in accordance with pybind11 needs (RTTI and
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# exceptions).
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add_library(${libname} ${PYEXT_LINK_MODE}
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${ARG_SOURCES}
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)
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target_include_directories(${libname} PRIVATE
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"${Python3_INCLUDE_DIRS}"
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"${pybind11_INCLUDE_DIR}"
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)
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# The extension itself must be compiled with RTTI and exceptions enabled.
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# Also, some warning classes triggered by pybind11 are disabled.
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target_compile_options(${libname} PRIVATE
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$<$<OR:$<CXX_COMPILER_ID:Clang>,$<CXX_COMPILER_ID:AppleClang>,$<CXX_COMPILER_ID:GNU>>:
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# Enable RTTI and exceptions.
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-frtti -fexceptions
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# Noisy pybind warnings
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-Wno-unused-value
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-Wno-covered-switch-default
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>
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$<$<CXX_COMPILER_ID:MSVC>:
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# Enable RTTI and exceptions.
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/EHsc /GR>
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)
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# Configure the output to match python expectations.
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set_target_properties(
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${libname} PROPERTIES
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# Build-time RPath layouts require to be a directory one up from the
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# binary root.
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# TODO: Don't reference the LLVM_BINARY_DIR here: the invariant is that
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# the output directory must be at the same level of the lib directory
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# where libMLIR.so is installed. This is presently not optimal from a
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# project separation perspective and a discussion on how to better
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# segment MLIR libraries needs to happen.
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LIBRARY_OUTPUT_DIRECTORY ${LLVM_BINARY_DIR}/python
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OUTPUT_NAME "${extname}"
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PREFIX "${PYTHON_MODULE_PREFIX}"
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SUFFIX "${PYTHON_MODULE_SUFFIX}${PYTHON_MODULE_EXTENSION}"
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)
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if(WIN32)
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# Need to also set the RUNTIME_OUTPUT_DIRECTORY on Windows in order to
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# control where the .dll gets written.
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set_target_properties(
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${libname} PROPERTIES
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RUNTIME_OUTPUT_DIRECTORY ${LLVM_BINARY_DIR}/python
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)
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endif()
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# pybind11 requires binding code to be compiled with -fvisibility=hidden
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# For static linkage, better code can be generated if the entire project
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# compiles that way, but that is not enforced here. Instead, include a linker
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# script that explicitly hides anything but the PyInit_* symbols, allowing gc
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# to take place.
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set_target_properties(${libname} PROPERTIES CXX_VISIBILITY_PRESET "hidden")
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# Python extensions depends *only* on the public API and LLVMSupport unless
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# if further dependencies are added explicitly.
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target_link_libraries(${libname}
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PRIVATE
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MLIRPublicAPI
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LLVMSupport
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${ARG_LINK_LIBS}
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${PYEXT_LIBADD}
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)
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target_link_options(${libname}
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PRIVATE
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# On Linux, disable re-export of any static linked libraries that
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# came through.
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$<$<PLATFORM_ID:Linux>:LINKER:--exclude-libs,ALL>
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)
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llvm_setup_rpath(${libname})
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################################################################################
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# Install
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################################################################################
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if (ARG_INSTALL_DIR)
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install(TARGETS ${libname}
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COMPONENT ${libname}
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LIBRARY DESTINATION ${ARG_INSTALL_DIR}
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ARCHIVE DESTINATION ${ARG_INSTALL_DIR}
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# NOTE: Even on DLL-platforms, extensions go in the lib directory tree.
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RUNTIME DESTINATION ${ARG_INSTALL_DIR}
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)
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endif()
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if (NOT LLVM_ENABLE_IDE)
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add_llvm_install_targets(
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install-${libname}
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DEPENDS ${libname}
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COMPONENT ${libname})
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endif()
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endfunction()
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function(add_mlir_dialect_python_bindings tblgen_target filename dialectname)
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set(LLVM_TARGET_DEFINITIONS ${filename})
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mlir_tablegen("${dialectname}.py" -gen-python-op-bindings
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-bind-dialect=${dialectname})
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add_public_tablegen_target(${tblgen_target})
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add_custom_command(
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TARGET ${tblgen_target} POST_BUILD
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COMMENT "Copying generated python source \"dialects/${dialectname}.py\""
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COMMAND "${CMAKE_COMMAND}" -E copy_if_different
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"${CMAKE_CURRENT_BINARY_DIR}/${dialectname}.py"
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"${PROJECT_BINARY_DIR}/python/mlir/dialects/${dialectname}.py")
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endfunction()
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