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# JsonCpp
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[![badge ](https://img.shields.io/badge/conan.io-jsoncpp%2F1.8.0-green.svg?logo=data:image/png;base64%2CiVBORw0KGgoAAAANSUhEUgAAAA4AAAAOCAMAAAAolt3jAAAA1VBMVEUAAABhlctjlstkl8tlmMtlmMxlmcxmmcxnmsxpnMxpnM1qnc1sn85voM91oM11oc1xotB2oc56pNF6pNJ2ptJ8ptJ8ptN9ptN8p9N5qNJ9p9N9p9R8qtOBqdSAqtOAqtR%2BrNSCrNJ/rdWDrNWCsNWCsNaJs9eLs9iRvNuVvdyVv9yXwd2Zwt6axN6dxt%2Bfx%2BChyeGiyuGjyuCjyuGly%2BGlzOKmzOGozuKoz%2BKqz%2BOq0OOv1OWw1OWw1eWx1eWy1uay1%2Baz1%2Baz1%2Bez2Oe02Oe12ee22ujUGwH3AAAAAXRSTlMAQObYZgAAAAFiS0dEAIgFHUgAAAAJcEhZcwAACxMAAAsTAQCanBgAAAAHdElNRQfgBQkREyOxFIh/AAAAiklEQVQI12NgAAMbOwY4sLZ2NtQ1coVKWNvoc/Eq8XDr2wB5Ig62ekza9vaOqpK2TpoMzOxaFtwqZua2Bm4makIM7OzMAjoaCqYuxooSUqJALjs7o4yVpbowvzSUy87KqSwmxQfnsrPISyFzWeWAXCkpMaBVIC4bmCsOdgiUKwh3JojLgAQ4ZCE0AMm2D29tZwe6AAAAAElFTkSuQmCC )](http://www.conan.io/source/jsoncpp/1.8.0/theirix/ci)
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[JSON][json-org] is a lightweight data-interchange format. It can represent
numbers, strings, ordered sequences of values, and collections of name/value
pairs.
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[json-org]: http://json.org/
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JsonCpp is a C++ library that allows manipulating JSON values, including
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serialization and deserialization to and from strings. It can also preserve
existing comment in unserialization/serialization steps, making it a convenient
format to store user input files.
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## Documentation
[JsonCpp documentation][JsonCpp-documentation] is generated using [Doxygen][].
[JsonCpp-documentation]: http://open-source-parsers.github.io/jsoncpp-docs/doxygen/index.html
[Doxygen]: http://www.doxygen.org
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## A note on backward-compatibility
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* `1.y.z` is built with C++11.
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* `0.y.z` can be used with older compilers.
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* Major versions maintain binary-compatibility.
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## Using JsonCpp in your project
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The recommended approach to integrating JsonCpp in your project is to include
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the [amalgamated source ](#generating-amalgamated-source-and-header ) (a single
`.cpp` file and two `.h` files) in your project, and compile and build as you
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would any other source file. This ensures consistency of compilation flags and
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ABI compatibility, issues which arise when building shared or static
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libraries. See the next section for instructions.
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The `include/` should be added to your compiler include path. JsonCpp headers
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should be included as follow:
#include < json / json . h >
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If JsonCpp was built as a dynamic library on Windows, then your project needs to define the macro `JSON_DLL` .
### Generating amalgamated source and header
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JsonCpp is provided with a script to generate a single header and a single
source file to ease inclusion into an existing project. The amalgamated source
can be generated at any time by running the following command from the
top-directory (this requires Python 2.6):
python amalgamate.py
It is possible to specify header name. See the `-h` option for detail.
By default, the following files are generated:
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* `dist/jsoncpp.cpp` : source file that needs to be added to your project.
* `dist/json/json.h` : corresponding header file for use in your project. It is
equivalent to including `json/json.h` in non-amalgamated source. This header
only depends on standard headers.
* `dist/json/json-forwards.h` : header that provides forward declaration of all
JsonCpp types.
The amalgamated sources are generated by concatenating JsonCpp source in the
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correct order and defining the macro `JSON_IS_AMALGAMATION` to prevent inclusion of other headers.
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## Contributing to JsonCpp
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### Building and testing with Conan
[Conan ](https://www.conan.io/#/ ) is an open source package manager intended for C/C++ projects.
It is cross platform and build system agnostic.
Conan requires Python for running, and can be installed using pip:
pip install conan
Detailed instructions can be found on [conan docs ](http://docs.conan.io/en/latest/ ).
For build jsoncpp with conan, you need to create a [conanfile.txt ](http://docs.conan.io/en/latest/reference/conanfile_txt.html ) or a [conanfile.py ](http://docs.conan.io/en/latest/reference/conanfile.html ). The first is simpler, but the second is more flexible.
This is a sample conanfile.txt:
```
[requires]
jsoncpp/1.8.0@theirix/ci
[generators]
cmake
```
**Note**: cmake is not required, you can use other [integrations ](http://docs.conan.io/en/latest/integrations.html ). Or you can set the appropriate environment variables, using [virtualenv generators ](http://docs.conan.io/en/latest/mastering/virtualenv.html ).
Then run the following command from the conanfile directory:
conan install --build missing
This will try to download the appropriate package for your settings (OS, compiler, architecture) from the [recipe packages ](https://www.conan.io/source/jsoncpp/1.8.0/theirix/ci ). If it is not found, the package will be built.
**Note**: you do not need to install cmake to build jsoncpp using conan, because the recipe will download it automatically.
If you need, you can customize the jsoncpp recipe. Just clone/fork [it from github ](https://github.com/theirix/conan-jsoncpp/ ).
See [integrations instructions ](http://docs.conan.io/en/latest/integrations.html ) for how to use your build system with conan.
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### Building and testing with CMake
[CMake][] is a C++ Makefiles/Solution generator. It is usually available on most Linux system as package. On Ubuntu:
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sudo apt-get install cmake
[CMake]: http://www.cmake.org
Note that Python is also required to run the JSON reader/writer tests. If
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missing, the build will skip running those tests.
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When running CMake, a few parameters are required:
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* A build directory where the makefiles/solution are generated. It is also used
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to store objects, libraries and executables files.
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* The generator to use: makefiles or Visual Studio solution? What version or
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Visual Studio, 32 or 64 bits solution?
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Steps for generating solution/makefiles using `cmake-gui` :
* Make "source code" point to the source directory.
* Make "where to build the binary" point to the directory to use for the build.
* Click on the "Grouped" check box.
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* Review JsonCpp build options (tick `BUILD_SHARED_LIBS` to build as a
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dynamic library).
* Click the configure button at the bottom, then the generate button.
* The generated solution/makefiles can be found in the binary directory.
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Alternatively, from the command-line on Unix in the source directory:
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mkdir -p build/debug
cd build/debug
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cmake -DCMAKE_BUILD_TYPE=debug -DBUILD_STATIC_LIBS=ON -DBUILD_SHARED_LIBS=OFF -DARCHIVE_INSTALL_DIR=. -G "Unix Makefiles" ../..
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make
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For a good pkg-config file, add:
-DCMAKE_INSTALL_INCLUDEDIR=include/jsoncpp
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Running `cmake -h` will display the list of available generators (passed using
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the `-G` option).
By default CMake hides compilation commands. This can be modified by specifying
`-DCMAKE_VERBOSE_MAKEFILE=true` when generating makefiles.
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### Building and testing with SCons
**Note:** The SCons-based build system is deprecated. Please use CMake (see the
section above).
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JsonCpp can use [Scons][] as a build system. Note that SCons requires Python to
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be installed.
[SCons]: http://www.scons.org/
Invoke SCons as follows:
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scons platform=$PLATFORM [TARGET]
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where `$PLATFORM` may be one of:
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* `suncc` : Sun C++ (Solaris)
* `vacpp` : Visual Age C++ (AIX)
* `mingw`
* `msvc6` : Microsoft Visual Studio 6 service pack 5-6
* `msvc70` : Microsoft Visual Studio 2002
* `msvc71` : Microsoft Visual Studio 2003
* `msvc80` : Microsoft Visual Studio 2005
* `msvc90` : Microsoft Visual Studio 2008
* `linux-gcc` : Gnu C++ (linux, also reported to work for Mac OS X)
If you are building with Microsoft Visual Studio 2008, you need to set up the
environment by running `vcvars32.bat` (e.g. MSVC 2008 command prompt) before
running SCons.
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### Running the tests manually
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You need to run tests manually only if you are troubleshooting an issue.
In the instructions below, replace `path/to/jsontest` with the path of the
`jsontest` executable that was compiled on your platform.
cd test
# This will run the Reader/Writer tests
python runjsontests.py path/to/jsontest
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# This will run the Reader/Writer tests, using JSONChecker test suite
# (http://www.json.org/JSON_checker/).
# Notes: not all tests pass: JsonCpp is too lenient (for example,
# it allows an integer to start with '0'). The goal is to improve
# strict mode parsing to get all tests to pass.
python runjsontests.py --with-json-checker path/to/jsontest
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# This will run the unit tests (mostly Value)
python rununittests.py path/to/test_lib_json
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# You can run the tests using valgrind:
python rununittests.py --valgrind path/to/test_lib_json
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### Running the tests using SCons
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Note that tests can be run using SCons using the `check` target:
scons platform=$PLATFORM check
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### Building the documentation
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Run the Python script `doxybuild.py` from the top directory:
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python doxybuild.py --doxygen=$(which doxygen) --open --with-dot
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See `doxybuild.py --help` for options.
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### Adding a reader/writer test
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To add a test, you need to create two files in test/data:
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* a `TESTNAME.json` file, that contains the input document in JSON format.
* a `TESTNAME.expected` file, that contains a flatened representation of the
input document.
The `TESTNAME.expected` file format is as follows:
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* Each line represents a JSON element of the element tree represented by the
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input document.
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* Each line has two parts: the path to access the element separated from the
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element value by `=` . Array and object values are always empty (i.e.
represented by either `[]` or `{}` ).
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* Element path `.` represents the root element, and is used to separate object
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members. `[N]` is used to specify the value of an array element at index `N` .
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See the examples `test_complex_01.json` and `test_complex_01.expected` to better understand element paths.
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### Understanding reader/writer test output
When a test is run, output files are generated beside the input test files. Below is a short description of the content of each file:
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* `test_complex_01.json` : input JSON document.
* `test_complex_01.expected` : flattened JSON element tree used to check if
parsing was corrected.
* `test_complex_01.actual` : flattened JSON element tree produced by `jsontest`
from reading `test_complex_01.json` .
* `test_complex_01.rewrite` : JSON document written by `jsontest` using the
`Json::Value` parsed from `test_complex_01.json` and serialized using
`Json::StyledWritter` .
* `test_complex_01.actual-rewrite` : flattened JSON element tree produced by
`jsontest` from reading `test_complex_01.rewrite` .
* `test_complex_01.process-output` : `jsontest` output, typically useful for
understanding parsing errors.
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## License
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See the `LICENSE` file for details. In summary, JsonCpp is licensed under the
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MIT license, or public domain if desired and recognized in your jurisdiction.