A lightweight and modern C/C++ library for building xml parsers. Currently a work in progress.
- wraps and build expat as part of library
- runs on all major platforms: Windows, OSX, linux
- provides an easy to use delegate class to build xml parsers
- [WORK IN PROGRESS]utilizing lambda for easy adding of handler callbacks
- [WORK IN PROGRESS]provides implementation of parser with stack of parsestates
- [WORK IN PROGRESS]xsdgen for generating C++ classes and parser from xsd schemata
- Features
- Building
- Using libexpatpp in your project
- API documentation
- Running tests
- Development and contributing
- Publication
- Acknowledgements
libexpatpp can be built with CMake. CMake is able to produce a build environment for most platforms. For the most important IDE exists a generator option which allows to build project files for these systems.
The simplest (and platform independent) way to build the project using cmake is executing the following command:
cmake -B <builddir> && cmake --build <builddir>
First command in chain creates the build directory <builddir> and configures the project. Second command does a build of the default target in <builddir>.
Cmake can also be called with predefined options, here for configuring and building a Release build:
cmake -D CMAKE_BUILD_TYPE=Release -B <builddir> && cmake --build <builddir>
The example hello_world contains a complete sample project using libexpatcpp and makes use of Cmake's FetchContent() Command to include, build and link expatpp library(explained more detailed in \ref approach1 .
Our "hello_world" project has just one source file, hello_world.cpp file, and it looks like this:
/**
* \file hello_world.cpp the hello_world example for expatpp library
*
* See LICENSE for copyright information.
*/
#include <iostream>
#include "expatpp.hpp"
using std::cout;
using std::endl;
/** a parser delegate which extracts the character data from an xml element*/
class element_delegate : public xmlpp::abstract_delegate {
public:
std::string fullname;
std::string characterData;
void onStartElement( const XML_Char *fullname, const XML_Char **atts) override {
this->fullname = fullname;
}
void onCharacterData(const char *pBuf, int len) override {
characterData.append(pBuf,len);
}
};
int main(int argc,char** argv) {
// prepare xml input,
const char* xml = "<p>hello world!</p>";
// use the delegate to extract character data from input string
element_delegate d;
// parse xml input using delegate d's callbacks
xmlpp::parser::result res = xmlpp::parser::parseString(xml,d);
switch(res) {
case xmlpp::parser::result::OK:
// and output the extracted data in case of successful parsing
cout << "element " << d.fullName << endl
<< " contains this text: "<< d.characterData << endl;
return EXIT_SUCCESS;
default:
cout << "error " << static_cast<int>(res)
<< " on parsing " << endl;
return -static_cast<int>(res);
}
}Running it should output
element p
contains this text: Hello World
for the CMake based build we have included a simple CMakeLists.txt:
cmake_minimum_required(VERSION 3.1.3)
enable_language(C)
enable_language(CXX)
set(CMAKE_CXX_STANDARD 11)
if(POLICY CMP0077)
cmake_policy(SET CMP0077 NEW)
endif()
project(expatpp_hello_world VERSION 0.0.1 LANGUAGES CXX)
include(FetchContent)
#
# expatpp Configuration variables
#
set(EXPATPP_BUILD_EXAMPLES Off)
set(EXPATPP_BUILD_TOOLS Off)
set(EXPATPP_BUILD_TESTS Off)
set(EXPATPP_BUILD_DOCS Off)
# add expatpp project to the build
FetchContent_Declare(expatpp
GIT_REPOSITORY https://github.com/gittiver/libexpatpp.git
GIT_TAG main
)
if(NOT expatpp_POPULATED)
FetchContent_Populate(expatpp)
add_subdirectory(${expatpp_SOURCE_DIR} ${expatpp_BINARY_DIR})
endif(NOT expatpp_POPULATED)
# add executable
add_executable(hello_world hello_world.cpp)
# link against expatpp library (produced by expatpp)
target_link_libraries(hello_world PUBLIC expatpp)To get you started quickly, let's take a look at a few ways to get simple Hello World project working.
CMake contains the FetchContent() command to use libraries where a project depends on.
With:
FetchContent_Declare(expatpp
GIT_REPOSITORY "https://github.com/gittiver/libexpatpp"
GIT_TAG "v0_0_1" )
FetchContent_MakeAvailable(expatpp)we include the library into the build.
With:
target_link_libraries(your_exe expatpp)we link our executable against libexpatpp. This approach is used in the helloworld example, you can use the CMakeFile.lst from there as starting point for your project.
You can install libraries by running in libexpatpp directory:
cmake --build <builddir> --target installNow, all you have to do to compile your project is c++ helloWorld.cpp -o helloWorld -llibexpatpp.
If you get error message like cannot open shared object file: No such file or directory, make sure that your linker includes path where libexpatpp was installed.
If you are using CMake for compilation, we suggest adding libexpatpp as a git submodule with the command
git submodule add https://github.com/gittiver/libexpatpp vendor/libexpatpp`Afterwards, modify your top level CMakeLists.txt file accordingly:
add_subdirectory(vendor/libexpatpp EXCLUDE_FROM_ALL)
target_link_libraries(your_exe expatpp)The add_subdirectory command adds a folder to the build tree, meaning it will run CMakeLists.txt from the included folder as well. Flag EXCLUDE_FROM_ALL disables building (and instalment) of targets in the added folder which are not needed in your project. In the above example only the (static) library libexpatpp will be build, while libexpatpp-aligner, hello_world and the rest won't. In order to access the libexpatpp API, add #include "expatpp.hpp" in your source file (CMake will automatically update your include path).
For complete documentation of libexpatpp library API, visit http://gittiver.github.io/libexpatpp (should be updated to the latest release).
To generate the latest API documentation yourself from the source, you need to have doxygen installed.
Position yourself in the root directory and run doxygen, this will generate docs/ directory. Then open docs/html/index.html file with you favorite browser.
TBD describe how to run included Catch2 based tests
parses xml schemata and generates C++ code for types and elements from schema [TODO] generate also parser class for parsing schema
the example parses the xml output of doxygen documentation system and does a simple listing of its elements on standard output.
Feel free to send pull requests and raise issues.
When developing, you may want to use -D CMAKE_BUILD_TYPE=Debug flag when calling cmake in order to get debugging flags passed to compiler.
This should also happen if you just run cmake <builddir> with no flags.
To check which flags is compiler using, run make with VERBOSE=1: make VERBOSE=1.