Protobuf generator and bindings for Qt framework
Alexey Edelev f9fd1a3349 Prettify doxygen documentation | 5 anos atrás | |
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README.md | 5 anos atrás |
gRPC and Protobuf generator and bindings for Qt framework
Check installation of following packages in your system:
Note: Older versions could be supported as well but not officially tested.
Install GRPC packages in system:
sudo apt-get install libgrpc++-dev protobuf-compiler-grpc libgrpc++1 libgrpc-dev libgrpc6
If required versions of libraries are not found in your system, you may use all-in-one build procedure for prerequesties
Update submodules to fetch 3rdparty dependencies:
git submodule update --init --recursive
mkdir build
cd build
#In case Qt installed in system, use:
cmake ..
#In case you have Qt installed from qt installer, use:
cmake .. -DCMAKE_PREFIX_PATH="<path/to/qt/installation>/Qt<qt_version>/<qt_version>/gcc_64/lib/cmake"
cmake --build . [--config <RELEASE|DEBUG>] -- -j<N>
Download and install:
Note: All applications should be in PATH
Update submodules to fetch 3rdparty dependencies:
git submodule update --init --recursive
Open Qt MSVC command line and follow steps:
"C:\Program Files (x86)\Microsoft Visual Studio\2017\Community\VC\Auxiliary\Build\vcvarsall.bat" <x86|x64>
cd <directory with qtprotobuf project>
mkdir build
cd build
cmake ..
cmake --build . [--config <RELEASE|DEBUG>] -- /m:<N>
protoc --plugin=protoc-gen-qtprotobuf=<path/to/bin>/qtprotobufgen --qtprotobuf_out=<output_dir> <protofile>.proto [--qtprotobuf_opt=out=<output_dir>]
You can integrate QtProtobuf as submodule in your project or as installed in system package. Add following line in your project CMakeLists.txt:
...
find_package(QtProtobufProject CONFIG REQUIRED COMPONENTS QtProtobuf QtGrpc)
file(GLOB PROTO_FILES ABSOLUTE ${CMAKE_CURRENT_SOURCE_DIR}/path/to/protofile1.proto
${CMAKE_CURRENT_SOURCE_DIR}/path/to/protofile2.proto
...
${CMAKE_CURRENT_SOURCE_DIR}/path/to/protofileN.proto)
# Function below generates source files for specified PROTO_FILES,
# writes result to STATIC library target and saves its name to
# ${QtProtobuf_GENERATED} variable
generate_qtprotobuf(TARGET MyTarget
OUT_DIR ${CMAKE_CURRENT_BINARY_DIR}/generated
PROTO_FILES ${PROTO_FILES})
add_executable(MyTarget main.cpp) # Add your target here
target_link_libraries(MyTarget ${QtProtobuf_GENERATED})
Optional:
You also may pre-specify expected generated headers to prevent dummy-parser mistakes
...
set(GENERATED_HEADERS
# List of artifacts expected after qtprotobufgen job done.
# Usually it's full list of messages in all packages with .h header suffix
...
)
...
generate_qtprotobuf(TARGET MyTarget
OUT_DIR ${CMAKE_CURRENT_BINARY_DIR}/generated
PROTO_FILES ${PROTO_FILES}
GENERATED_HEADERS ${GENERATED_HEADERS})
...
To enable QtProtobuf project you need to register protobuf types. It's good practice to make it in 'main' function.
...
#include <QtProtobufTypes>
...
int main(int argc, char *argv[])
{
QtProtobuf::qRegisterProtobufTypes();
... //Qt application initialization and run
}
For each generated class you also need to call 'qRegisterProtobufType<GeneratedClassName>' to enable serialization and QML support
Other option is to include common "qtprotobuf_global.qpb.h" file and call apptopriate qRegisterProtobufTypes() method for you package
If any prohibited Qt/QML keyword is used as field name, generator appends 'Proto' suffix to generated filed name. It's required to omit overloading for example QML reserved names like 'id' or 'objectName'.
E.g. for message:
message MessageReserved {
sint32 import = 1;
sint32 property = 2;
sint32 id = 3;
}
Following properties will be generated:
...
Q_PROPERTY(QtProtobuf::sint32 importProto READ importProto WRITE setImport NOTIFY importProtoChanged)
Q_PROPERTY(QtProtobuf::sint32 propertyProto READ propertyProto WRITE setProperty NOTIFY propertyProtoChanged)
Q_PROPERTY(QtProtobuf::sint32 idProto READ idProto WRITE setId NOTIFY idProtoChanged)
...
Note: List of exceptions might be extended in future releases.
generate_qtprotobuf is cmake helper function that automatically generates STATIC library target from your .proto files
Due to cmake restrictions it's required to specify resulting artifacts manually as list of header files expected after generator job finished.
Parameters:
TARGET - name of you target that will be base for generated target name
OUT_DIR - output directory that will contain generated artifacts. Usually subfolder in build directory should be used
GENERATED_HEADERS - List of header files expected after generator job finished
EXCLUDE_HEADERS - List of header files to be excluded from pre-parsed list of expected header files (e.g. nested messages that are not supported by QtProtobuf generator)
PROTO_FILES - List of .proto files that will be used in generation procedure
MULTI - Enables/disables multi-files generation mode. In case if this property is set to TRUE generator will create pair of header/source files for each message
Note: multi-files generation mode is defined as deprecated by QtProtobuf team, and might have poor support in future
QML - Enables/disables QML code generation in protobuf classes. If set to TRUE qml related code for lists and qml registration to be generated.
Outcome:
QtProtobuf_GENERATED - variable that will contain generated STATIC library target name
QTPROTOBUF_MAKE_COVERAGE - if TRUE/ON, QtProtobuf will be built with gcov intergration, to collect code coverage reports(usefull for developers). FALSE by default
QTPROTOBUF_MAKE_TESTS - if TRUE/ON, tests for QtProtobuf will be built. TRUE by default
QTPROTOBUF_MAKE_EXAMPLES - if TRUE/ON, built-in examples will be built. TRUE by default
QTPROTOBUF_EXECUTABLE - contains full path to QtProtobuf generator add_executable
cd <build directory>
ctest
Project uses doxygen for documentation generation.
You can generate documentation:
mkdir build
cd build
cmake ..
cmake --build . --target doc