examples/cpp/helloworld/CMakeLists.txt - third_party/grpc - Git at Google

 # Copyright 2018 gRPC authors.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #
 # cmake build file for C++ helloworld example.
 # Assumes protobuf and gRPC have been installed using cmake.
 # See cmake_externalproject/CMakeLists.txt for all-in-one cmake build
 # that automatically builds all the dependencies before building helloworld.

 cmake_minimum_required(VERSION 3.5.1)

 project(HelloWorld C CXX)

 if(NOT MSVC)
   set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
 else()
   add_definitions(-D_WIN32_WINNT=0x600)
 endif()

 find_package(Threads REQUIRED)

 if(GRPC_AS_SUBMODULE)
   # One way to build a projects that uses gRPC is to just include the
   # entire gRPC project tree via "add_subdirectory".
   # This approach is very simple to use, but the are some potential
   # disadvantages:
   # * it includes gRPC's CMakeLists.txt directly into your build script
   #   without and that can make gRPC's internal setting interfere with your
   #   own build.
   # * depending on what's installed on your system, the contents of submodules
   #   in gRPC's third_party/* might need to be available (and there might be
   #   additional prerequisites required to build them). Consider using
   #   the gRPC_*_PROVIDER options to fine-tune the expected behavior.
   #
   # A more robust approach to add dependency on gRPC is using
   # cmake's ExternalProject_Add (see cmake_externalproject/CMakeLists.txt).

   # Include the gRPC's cmake build (normally grpc source code would live
   # in a git submodule called "third_party/grpc", but this example lives in
   # the same repository as gRPC sources, so we just look a few directories up)
   add_subdirectory(../../.. ${CMAKE_CURRENT_BINARY_DIR}/grpc EXCLUDE_FROM_ALL)
   message(STATUS "Using gRPC via add_subdirectory.")

   # After using add_subdirectory, we can now use the grpc targets directly from
   # this build.
   set(_PROTOBUF_LIBPROTOBUF libprotobuf)
   if(CMAKE_CROSSCOMPILING)
     find_program(_PROTOBUF_PROTOC protoc)
   else()
     set(_PROTOBUF_PROTOC $<TARGET_FILE:protobuf::protoc>)
   endif()
   set(_GRPC_GRPCPP_UNSECURE grpc++_unsecure)
   if(CMAKE_CROSSCOMPILING)
     find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
   else()
     set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:grpc_cpp_plugin>)
   endif()
 elseif(GRPC_FETCHCONTENT)
   # Another way is to use CMake's FetchContent module to clone gRPC at
   # configure time. This makes gRPC's source code available to your project,
   # similar to a git submodule.
   message(STATUS "Using gRPC via add_subdirectory (FetchContent).")
   include(FetchContent)
   FetchContent_Declare(
     grpc
     GIT_REPOSITORY https://github.com/grpc/grpc.git
     # when using gRPC, you will actually set this to an existing tag, such as
     # v1.25.0, v1.26.0 etc..
     # For the purpose of testing, we override the tag used to the commit
     # that's currently under test.
     GIT_TAG        vGRPC_TAG_VERSION_OF_YOUR_CHOICE)
   FetchContent_MakeAvailable(grpc)

   # Since FetchContent uses add_subdirectory under the hood, we can use
   # the grpc targets directly from this build.
   set(_PROTOBUF_LIBPROTOBUF libprotobuf)
   set(_PROTOBUF_PROTOC $<TARGET_FILE:protoc>)
   set(_GRPC_GRPCPP_UNSECURE grpc++_unsecure)
   if(CMAKE_CROSSCOMPILING)
     find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
   else()
     set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:grpc_cpp_plugin>)
   endif()
 else()
   # This branch assumes that gRPC and all its dependencies are already installed
   # on this system, so they can be located by find_package().

   # Find Protobuf installation
   # Looks for protobuf-config.cmake file installed by Protobuf's cmake installation.
   set(protobuf_MODULE_COMPATIBLE TRUE)
   find_package(Protobuf CONFIG REQUIRED)
   message(STATUS "Using protobuf ${protobuf_VERSION}")

   set(_PROTOBUF_LIBPROTOBUF protobuf::libprotobuf)
   if(CMAKE_CROSSCOMPILING)
     find_program(_PROTOBUF_PROTOC protoc)
   else()
     set(_PROTOBUF_PROTOC $<TARGET_FILE:protobuf::protoc>)
   endif()

   # Find gRPC installation
   # Looks for gRPCConfig.cmake file installed by gRPC's cmake installation.
   find_package(gRPC CONFIG REQUIRED)
   message(STATUS "Using gRPC ${gRPC_VERSION}")

   set(_GRPC_GRPCPP_UNSECURE gRPC::grpc++_unsecure)
   if(CMAKE_CROSSCOMPILING)
     find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
   else()
     set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:gRPC::grpc_cpp_plugin>)
   endif()
 endif()

 # Proto file
 get_filename_component(hw_proto "../../protos/helloworld.proto" ABSOLUTE)
 get_filename_component(hw_proto_path "${hw_proto}" PATH)

 # Generated sources
 set(hw_proto_srcs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.pb.cc")
 set(hw_proto_hdrs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.pb.h")
 set(hw_grpc_srcs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.grpc.pb.cc")
 set(hw_grpc_hdrs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.grpc.pb.h")
 add_custom_command(
       OUTPUT "${hw_proto_srcs}" "${hw_proto_hdrs}" "${hw_grpc_srcs}" "${hw_grpc_hdrs}"
       COMMAND ${_PROTOBUF_PROTOC}
       ARGS --grpc_out "${CMAKE_CURRENT_BINARY_DIR}"
         --cpp_out "${CMAKE_CURRENT_BINARY_DIR}"
         -I "${hw_proto_path}"
         --plugin=protoc-gen-grpc="${_GRPC_CPP_PLUGIN_EXECUTABLE}"
         "${hw_proto}"
       DEPENDS "${hw_proto}")

 # Include generated *.pb.h files
 include_directories("${CMAKE_CURRENT_BINARY_DIR}")

 # Targets greeter_[async_](client|server)
 foreach(_target
   greeter_client greeter_server
   greeter_async_client greeter_async_client2 greeter_async_server)
   add_executable(${_target} "${_target}.cc"
     ${hw_proto_srcs}
     ${hw_grpc_srcs})
   target_link_libraries(${_target}
     ${_GRPC_GRPCPP_UNSECURE}
     ${_PROTOBUF_LIBPROTOBUF})
 endforeach()
	# Copyright 2018 gRPC authors.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#
	# cmake build file for C++ helloworld example.
	# Assumes protobuf and gRPC have been installed using cmake.
	# See cmake_externalproject/CMakeLists.txt for all-in-one cmake build
	# that automatically builds all the dependencies before building helloworld.

	cmake_minimum_required(VERSION 3.5.1)

	project(HelloWorld C CXX)

	if(NOT MSVC)
	set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
	else()
	add_definitions(-D_WIN32_WINNT=0x600)
	endif()

	find_package(Threads REQUIRED)

	if(GRPC_AS_SUBMODULE)
	# One way to build a projects that uses gRPC is to just include the
	# entire gRPC project tree via "add_subdirectory".
	# This approach is very simple to use, but the are some potential
	# disadvantages:
	# * it includes gRPC's CMakeLists.txt directly into your build script
	# without and that can make gRPC's internal setting interfere with your
	# own build.
	# * depending on what's installed on your system, the contents of submodules
	# in gRPC's third_party/* might need to be available (and there might be
	# additional prerequisites required to build them). Consider using
	# the gRPC_*_PROVIDER options to fine-tune the expected behavior.
	#
	# A more robust approach to add dependency on gRPC is using
	# cmake's ExternalProject_Add (see cmake_externalproject/CMakeLists.txt).

	# Include the gRPC's cmake build (normally grpc source code would live
	# in a git submodule called "third_party/grpc", but this example lives in
	# the same repository as gRPC sources, so we just look a few directories up)
	add_subdirectory(../../.. ${CMAKE_CURRENT_BINARY_DIR}/grpc EXCLUDE_FROM_ALL)
	message(STATUS "Using gRPC via add_subdirectory.")

	# After using add_subdirectory, we can now use the grpc targets directly from
	# this build.
	set(_PROTOBUF_LIBPROTOBUF libprotobuf)
	if(CMAKE_CROSSCOMPILING)
	find_program(_PROTOBUF_PROTOC protoc)
	else()
	set(_PROTOBUF_PROTOC $<TARGET_FILE:protobuf::protoc>)
	endif()
	set(_GRPC_GRPCPP_UNSECURE grpc++_unsecure)
	if(CMAKE_CROSSCOMPILING)
	find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
	else()
	set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:grpc_cpp_plugin>)
	endif()
	elseif(GRPC_FETCHCONTENT)
	# Another way is to use CMake's FetchContent module to clone gRPC at
	# configure time. This makes gRPC's source code available to your project,
	# similar to a git submodule.
	message(STATUS "Using gRPC via add_subdirectory (FetchContent).")
	include(FetchContent)
	FetchContent_Declare(
	grpc
	GIT_REPOSITORY https://github.com/grpc/grpc.git
	# when using gRPC, you will actually set this to an existing tag, such as
	# v1.25.0, v1.26.0 etc..
	# For the purpose of testing, we override the tag used to the commit
	# that's currently under test.
	GIT_TAG vGRPC_TAG_VERSION_OF_YOUR_CHOICE)
	FetchContent_MakeAvailable(grpc)

	# Since FetchContent uses add_subdirectory under the hood, we can use
	# the grpc targets directly from this build.
	set(_PROTOBUF_LIBPROTOBUF libprotobuf)
	set(_PROTOBUF_PROTOC $<TARGET_FILE:protoc>)
	set(_GRPC_GRPCPP_UNSECURE grpc++_unsecure)
	if(CMAKE_CROSSCOMPILING)
	find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
	else()
	set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:grpc_cpp_plugin>)
	endif()
	else()
	# This branch assumes that gRPC and all its dependencies are already installed
	# on this system, so they can be located by find_package().

	# Find Protobuf installation
	# Looks for protobuf-config.cmake file installed by Protobuf's cmake installation.
	set(protobuf_MODULE_COMPATIBLE TRUE)
	find_package(Protobuf CONFIG REQUIRED)
	message(STATUS "Using protobuf ${protobuf_VERSION}")

	set(_PROTOBUF_LIBPROTOBUF protobuf::libprotobuf)
	if(CMAKE_CROSSCOMPILING)
	find_program(_PROTOBUF_PROTOC protoc)
	else()
	set(_PROTOBUF_PROTOC $<TARGET_FILE:protobuf::protoc>)
	endif()

	# Find gRPC installation
	# Looks for gRPCConfig.cmake file installed by gRPC's cmake installation.
	find_package(gRPC CONFIG REQUIRED)
	message(STATUS "Using gRPC ${gRPC_VERSION}")

	set(_GRPC_GRPCPP_UNSECURE gRPC::grpc++_unsecure)
	if(CMAKE_CROSSCOMPILING)
	find_program(_GRPC_CPP_PLUGIN_EXECUTABLE grpc_cpp_plugin)
	else()
	set(_GRPC_CPP_PLUGIN_EXECUTABLE $<TARGET_FILE:gRPC::grpc_cpp_plugin>)
	endif()
	endif()

	# Proto file
	get_filename_component(hw_proto "../../protos/helloworld.proto" ABSOLUTE)
	get_filename_component(hw_proto_path "${hw_proto}" PATH)

	# Generated sources
	set(hw_proto_srcs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.pb.cc")
	set(hw_proto_hdrs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.pb.h")
	set(hw_grpc_srcs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.grpc.pb.cc")
	set(hw_grpc_hdrs "${CMAKE_CURRENT_BINARY_DIR}/helloworld.grpc.pb.h")
	add_custom_command(
	OUTPUT "${hw_proto_srcs}" "${hw_proto_hdrs}" "${hw_grpc_srcs}" "${hw_grpc_hdrs}"
	COMMAND ${_PROTOBUF_PROTOC}
	ARGS --grpc_out "${CMAKE_CURRENT_BINARY_DIR}"
	--cpp_out "${CMAKE_CURRENT_BINARY_DIR}"
	-I "${hw_proto_path}"
	--plugin=protoc-gen-grpc="${_GRPC_CPP_PLUGIN_EXECUTABLE}"
	"${hw_proto}"
	DEPENDS "${hw_proto}")

	# Include generated *.pb.h files
	include_directories("${CMAKE_CURRENT_BINARY_DIR}")

	# Targets greeter_[async_](client\|server)
	foreach(_target
	greeter_client greeter_server
	greeter_async_client greeter_async_client2 greeter_async_server)
	add_executable(${_target} "${_target}.cc"
	${hw_proto_srcs}
	${hw_grpc_srcs})
	target_link_libraries(${_target}
	${_GRPC_GRPCPP_UNSECURE}
	${_PROTOBUF_LIBPROTOBUF})
	endforeach()