提交 4cfae897 编写于 作者: C Christopher Dunn 提交者: GitHub

Merge pull request #652 from cdunn2001/meson-not-scons

Meson not scons; 1.8.2<-1.8.1
/build/
/build-*/
*.pyc
*.swp
*.actual
......@@ -6,7 +7,6 @@
*.process-output
*.rewrite
/bin/
/buildscons/
/libs/
/doc/doxyfile
/dist/
......@@ -31,7 +31,7 @@
# CMake-generated files:
CMakeFiles/
*.cmake
pkg-config/jsoncpp.pc
/pkg-config/jsoncpp.pc
jsoncpp_lib_static.dir/
# In case someone runs cmake in the root-dir:
......
......@@ -59,7 +59,7 @@ ENDMACRO()
#SET( JSONCPP_VERSION_MAJOR X )
#SET( JSONCPP_VERSION_MINOR Y )
#SET( JSONCPP_VERSION_PATCH Z )
SET( JSONCPP_VERSION 1.8.1 )
SET( JSONCPP_VERSION 1.8.2 )
jsoncpp_parse_version( ${JSONCPP_VERSION} JSONCPP_VERSION )
#IF(NOT JSONCPP_VERSION_FOUND)
# MESSAGE(FATAL_ERROR "Failed to parse version string properly. Expect X.Y.Z")
......
New in SVN
----------
* Updated the type system's behavior, in order to better support backwards
compatibility with code that was written before 64-bit integer support was
introduced. Here's how it works now:
* isInt, isInt64, isUInt, and isUInt64 return true if and only if the
value can be exactly represented as that type. In particular, a value
constructed with a double like 17.0 will now return true for all of
these methods.
* isDouble and isFloat now return true for all numeric values, since all
numeric values can be converted to a double or float without
truncation. Note however that the conversion may not be exact -- for
example, doubles cannot exactly represent all integers above 2^53 + 1.
* isBool, isNull, isString, isArray, and isObject now return true if and
only if the value is of that type.
* isConvertibleTo(fooValue) indicates that it is safe to call asFoo.
(For each type foo, isFoo always implies isConvertibleTo(fooValue).)
asFoo returns an approximate or exact representation as appropriate.
For example, a double value may be truncated when asInt is called.
* For backwards compatibility with old code, isConvertibleTo(intValue)
may return false even if type() == intValue. This is because the value
may have been constructed with a 64-bit integer larger than maxInt,
and calling asInt() would cause an exception. If you're writing new
code, use isInt64 to find out whether the value is exactly
representable using an Int64, or asDouble() combined with minInt64 and
maxInt64 to figure out whether it is approximately representable.
* Value
- Patch #10: BOOST_FOREACH compatibility. Made Json::iterator more
standard compliant, added missing iterator_category and value_type
typedefs (contribued by Robert A. Iannucci).
* Compilation
- New CMake based build system. Based in part on contribution from
Igor Okulist and Damien Buhl (Patch #14).
- New header json/version.h now contains version number macros
(JSONCPP_VERSION_MAJOR, JSONCPP_VERSION_MINOR, JSONCPP_VERSION_PATCH
and JSONCPP_VERSION_HEXA).
- Patch #11: added missing JSON_API on some classes causing link issues
when building as a dynamic library on Windows
(contributed by Francis Bolduc).
- Visual Studio DLL: suppressed warning "C4251: <data member>: <type>
needs to have dll-interface to be used by..." via pragma push/pop
in json-cpp headers.
- Added Travis CI intregration: https://travis-ci.org/blep/jsoncpp-mirror
* Bug fixes
- Patch #15: Copy constructor does not initialize allocated_ for stringValue
(contributed by rmongia).
- Patch #16: Missing field copy in Json::Value::iterator causing infinite
loop when using experimental internal map (#define JSON_VALUE_USE_INTERNAL_MAP)
(contributed by Ming-Lin Kao).
New in JsonCpp 0.6.0:
---------------------
* Compilation
- LD_LIBRARY_PATH and LIBRARY_PATH environment variables are now
propagated to the build environment as this is required for some
compiler installation.
- Added support for Microsoft Visual Studio 2008 (bug #2930462):
The platform "msvc90" has been added.
Notes: you need to setup the environment by running vcvars32.bat
(e.g. MSVC 2008 command prompt in start menu) before running scons.
- Added support for amalgamated source and header generation (a la sqlite).
Refer to README.md section "Generating amalgamated source and header"
for detail.
* Value
- Removed experimental ValueAllocator, it caused static
initialization/destruction order issues (bug #2934500).
The DefaultValueAllocator has been inlined in code.
- Added support for 64 bits integer:
Types Json::Int64 and Json::UInt64 have been added. They are aliased
to 64 bits integers on system that support them (based on __int64 on
Microsoft Visual Studio platform, and long long on other platforms).
Types Json::LargestInt and Json::LargestUInt have been added. They are
aliased to the largest integer type supported:
either Json::Int/Json::UInt or Json::Int64/Json::UInt64 respectively.
Json::Value::asInt() and Json::Value::asUInt() still returns plain
"int" based types, but asserts if an attempt is made to retrieve
a 64 bits value that can not represented as the return type.
Json::Value::asInt64() and Json::Value::asUInt64() have been added
to obtain the 64 bits integer value.
Json::Value::asLargestInt() and Json::Value::asLargestUInt() returns
the integer as a LargestInt/LargestUInt respectively. Those functions
functions are typically used when implementing writer.
The reader attempts to read number as 64 bits integer, and fall back
to reading a double if the number is not in the range of 64 bits
integer.
Warning: Json::Value::asInt() and Json::Value::asUInt() now returns
long long. This changes break code that was passing the return value
to *printf() function.
Support for 64 bits integer can be disabled by defining the macro
JSON_NO_INT64 (uncomment it in json/config.h for example), though
it should have no impact on existing usage.
- The type Json::ArrayIndex is used for indexes of a JSON value array. It
is an unsigned int (typically 32 bits).
- Array index can be passed as int to operator[], allowing use of literal:
Json::Value array;
array.append( 1234 );
int value = array[0].asInt(); // did not compile previously
- Added float Json::Value::asFloat() to obtain a floating point value as a
float (avoid lost of precision warning caused by used of asDouble()
to initialize a float).
* Reader
- Renamed Reader::getFormatedErrorMessages() to getFormattedErrorMessages.
Bug #3023708 (Formatted has 2 't'). The old member function is deprecated
but still present for backward compatibility.
* Tests
- Added test to ensure that the escape sequence "\/" is corrected handled
by the parser.
* Bug fixes
- Bug #3139677: JSON [1 2 3] was incorrectly parsed as [1, 3]. Error is now
correctly detected.
- Bug #3139678: stack buffer overflow when parsing a double with a
length of 32 characters.
- Fixed Value::operator <= implementation (had the semantic of operator >=).
Found when adding unit tests for comparison operators.
- Value::compare() is now const and has an actual implementation with
unit tests.
- Bug #2407932: strpbrk() can fail for NULL pointer.
- Bug #3306345: Fixed minor typo in Path::resolve().
- Bug #3314841/#3306896: errors in amalgamate.py
- Fixed some Coverity warnings and line-endings.
* License
- See file LICENSE for details. Basically JsonCpp is now licensed under
MIT license, or public domain if desired and recognized in your jurisdiction.
Thanks to Stephan G. Beal [http://wanderinghorse.net/home/stephan/]) who
helped figuring out the solution to the public domain issue.
......@@ -28,160 +28,25 @@ format to store user input files.
* `0.y.z` can be used with older compilers.
* Major versions maintain binary-compatibility.
## Using JsonCpp in your project
The recommended approach to integrating JsonCpp in your project is to include
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
would any other source file. This ensures consistency of compilation flags and
ABI compatibility, issues which arise when building shared or static
libraries. See the next section for instructions.
The `include/` should be added to your compiler include path. JsonCpp headers
should be included as follow:
#include <json/json.h>
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
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:
* `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
correct order and defining the macro `JSON_IS_AMALGAMATION` to prevent inclusion of other headers.
## Contributing to JsonCpp
### 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/).
### Building and testing with Meson/Ninja
Thanks to David Seifert (@SoapGentoo), we (the maintainers) now use [meson](http://mesonbuild.com/) and [ninja](https://ninja-build.org/) to build for debugging, as well as for continuous integration (see [`travis.sh`](travis.sh) ). Other systems may work, but minor things like version strings might break.
See [integrations instructions](http://docs.conan.io/en/latest/integrations.html) for how to use your build system with conan.
First, install both meson (which requires Python3) and ninja.
### Building and testing with CMake
Then,
[CMake][] is a C++ Makefiles/Solution generator. It is usually available on most Linux system as package. On Ubuntu:
cd jsoncpp/
BUILD_TYPE=shared
#BUILD_TYPE=static
LIB_TYPE=debug
#LIB_TYPE=release
meson --buildtype ${BUILD_TYPE} --default-library ${LIB_TYPE} . build-${LIB_TYPE}
ninja -v -C build-${LIB_TYPE} test
sudo apt-get install cmake
[CMake]: http://www.cmake.org
Note that Python is also required to run the JSON reader/writer tests. If
missing, the build will skip running those tests.
When running CMake, a few parameters are required:
* A build directory where the makefiles/solution are generated. It is also used
to store objects, libraries and executables files.
* The generator to use: makefiles or Visual Studio solution? What version or
Visual Studio, 32 or 64 bits solution?
Steps for generating solution/makefiles using `cmake-gui`:
* Make "source code" point to the source directory.
* Make "where to build the binary" point to the directory to use for the build.
* Click on the "Grouped" check box.
* Review JsonCpp build options (tick `BUILD_SHARED_LIBS` to build as a
dynamic library).
* Click the configure button at the bottom, then the generate button.
* The generated solution/makefiles can be found in the binary directory.
Alternatively, from the command-line on Unix in the source directory:
mkdir -p build/debug
cd build/debug
cmake -DCMAKE_BUILD_TYPE=debug -DBUILD_STATIC_LIBS=ON -DBUILD_SHARED_LIBS=OFF -DARCHIVE_INSTALL_DIR=. -G "Unix Makefiles" ../..
make
For a good pkg-config file, add:
-DCMAKE_INSTALL_INCLUDEDIR=include/jsoncpp
Running `cmake -h` will display the list of available generators (passed using
the `-G` option).
By default CMake hides compilation commands. This can be modified by specifying
`-DCMAKE_VERBOSE_MAKEFILE=true` when generating makefiles.
### Building and testing with SCons
**Note:** The SCons-based build system is deprecated. Please use CMake (see the
section above).
JsonCpp can use [Scons][] as a build system. Note that SCons requires Python to
be installed.
[SCons]: http://www.scons.org/
Invoke SCons as follows:
scons platform=$PLATFORM [TARGET]
where `$PLATFORM` may be one of:
* `suncc`: Sun C++ (Solaris)
* `vacpp`: Visual Age C++ (AIX)
* `mingw`
* `msvc6`: Microsoft Visual Studio 6 service pack 5-6
* `msvc70`: Microsoft Visual Studio 2002
* `msvc71`: Microsoft Visual Studio 2003
* `msvc80`: Microsoft Visual Studio 2005
* `msvc90`: Microsoft Visual Studio 2008
* `linux-gcc`: Gnu C++ (linux, also reported to work for Mac OS X)
If you are building with Microsoft Visual Studio 2008, you need to set up the
environment by running `vcvars32.bat` (e.g. MSVC 2008 command prompt) before
running SCons.
### Building and testing with other build systems
See https://github.com/open-source-parsers/jsoncpp/wiki/Building
### Running the tests manually
......@@ -207,12 +72,6 @@ In the instructions below, replace `path/to/jsontest` with the path of the
# You can run the tests using valgrind:
python rununittests.py --valgrind path/to/test_lib_json
### Running the tests using SCons
Note that tests can be run using SCons using the `check` target:
scons platform=$PLATFORM check
### Building the documentation
Run the Python script `doxybuild.py` from the top directory:
......@@ -258,6 +117,14 @@ When a test is run, output files are generated beside the input test files. Belo
* `test_complex_01.process-output`: `jsontest` output, typically useful for
understanding parsing errors.
## Using JsonCpp in your project
### Amalgamated source
https://github.com/open-source-parsers/jsoncpp/wiki/Amalgamated
### Other ways
If you have trouble, see the Wiki, or post a question as an Issue.
## License
See the `LICENSE` file for details. In summary, JsonCpp is licensed under the
......
"""
Notes:
- shared library support is buggy: it assumes that a static and dynamic library can be build from the same object files. This is not true on many platforms. For this reason it is only enabled on linux-gcc at the current time.
To add a platform:
- add its name in options allowed_values below
- add tool initialization for this platform. Search for "if platform == 'suncc'" as an example.
"""
import os
import os.path
import sys
JSONCPP_VERSION = open(File('#version').abspath,'rt').read().strip()
DIST_DIR = '#dist'
options = Variables()
options.Add( EnumVariable('platform',
'Platform (compiler/stl) used to build the project',
'msvc71',
allowed_values='suncc vacpp mingw msvc6 msvc7 msvc71 msvc80 msvc90 linux-gcc'.split(),
ignorecase=2) )
try:
platform = ARGUMENTS['platform']
if platform == 'linux-gcc':
CXX = 'g++' # not quite right, but env is not yet available.
import commands
version = commands.getoutput('%s -dumpversion' %CXX)
platform = 'linux-gcc-%s' %version
print "Using platform '%s'" %platform
LD_LIBRARY_PATH = os.environ.get('LD_LIBRARY_PATH', '')
LD_LIBRARY_PATH = "%s:libs/%s" %(LD_LIBRARY_PATH, platform)
os.environ['LD_LIBRARY_PATH'] = LD_LIBRARY_PATH
print "LD_LIBRARY_PATH =", LD_LIBRARY_PATH
except KeyError:
print 'You must specify a "platform"'
sys.exit(2)
print "Building using PLATFORM =", platform
rootbuild_dir = Dir('#buildscons')
build_dir = os.path.join( '#buildscons', platform )
bin_dir = os.path.join( '#bin', platform )
lib_dir = os.path.join( '#libs', platform )
sconsign_dir_path = Dir(build_dir).abspath
sconsign_path = os.path.join( sconsign_dir_path, '.sconsign.dbm' )
# Ensure build directory exist (SConsignFile fail otherwise!)
if not os.path.exists( sconsign_dir_path ):
os.makedirs( sconsign_dir_path )
# Store all dependencies signature in a database
SConsignFile( sconsign_path )
def make_environ_vars():
"""Returns a dictionnary with environment variable to use when compiling."""
# PATH is required to find the compiler
# TEMP is required for at least mingw
# LD_LIBRARY_PATH & co is required on some system for the compiler
vars = {}
for name in ('PATH', 'TEMP', 'TMP', 'LD_LIBRARY_PATH', 'LIBRARY_PATH'):
if name in os.environ:
vars[name] = os.environ[name]
return vars
env = Environment( ENV = make_environ_vars(),
toolpath = ['scons-tools'],
tools=[] ) #, tools=['default'] )
if platform == 'suncc':
env.Tool( 'sunc++' )
env.Tool( 'sunlink' )
env.Tool( 'sunar' )
env.Append( CCFLAGS = ['-mt'] )
elif platform == 'vacpp':
env.Tool( 'default' )
env.Tool( 'aixcc' )
env['CXX'] = 'xlC_r' #scons does not pick-up the correct one !
# using xlC_r ensure multi-threading is enabled:
# http://publib.boulder.ibm.com/infocenter/pseries/index.jsp?topic=/com.ibm.vacpp7a.doc/compiler/ref/cuselect.htm
env.Append( CCFLAGS = '-qrtti=all',
LINKFLAGS='-bh:5' ) # -bh:5 remove duplicate symbol warning
elif platform == 'msvc6':
env['MSVS_VERSION']='6.0'
for tool in ['msvc', 'msvs', 'mslink', 'masm', 'mslib']:
env.Tool( tool )
env['CXXFLAGS']='-GR -GX /nologo /MT'
elif platform == 'msvc70':
env['MSVS_VERSION']='7.0'
for tool in ['msvc', 'msvs', 'mslink', 'masm', 'mslib']:
env.Tool( tool )
env['CXXFLAGS']='-GR -GX /nologo /MT'
elif platform == 'msvc71':
env['MSVS_VERSION']='7.1'
for tool in ['msvc', 'msvs', 'mslink', 'masm', 'mslib']:
env.Tool( tool )
env['CXXFLAGS']='-GR -GX /nologo /MT'
elif platform == 'msvc80':
env['MSVS_VERSION']='8.0'
for tool in ['msvc', 'msvs', 'mslink', 'masm', 'mslib']:
env.Tool( tool )
env['CXXFLAGS']='-GR -EHsc /nologo /MT'
elif platform == 'msvc90':
env['MSVS_VERSION']='9.0'
# Scons 1.2 fails to detect the correct location of the platform SDK.
# So we propagate those from the environment. This requires that the
# user run vcvars32.bat before compiling.
if 'INCLUDE' in os.environ:
env['ENV']['INCLUDE'] = os.environ['INCLUDE']
if 'LIB' in os.environ:
env['ENV']['LIB'] = os.environ['LIB']
for tool in ['msvc', 'msvs', 'mslink', 'masm', 'mslib']:
env.Tool( tool )
env['CXXFLAGS']='-GR -EHsc /nologo /MT'
elif platform == 'mingw':
env.Tool( 'mingw' )
env.Append( CPPDEFINES=[ "WIN32", "NDEBUG", "_MT" ] )
elif platform.startswith('linux-gcc'):
env.Tool( 'default' )
env.Append( LIBS = ['pthread'], CCFLAGS = os.environ.get("CXXFLAGS", "-Wall"), LINKFLAGS=os.environ.get("LDFLAGS", "") )
env['SHARED_LIB_ENABLED'] = True
else:
print "UNSUPPORTED PLATFORM."
env.Exit(1)
env.Tool('targz')
env.Tool('srcdist')
env.Tool('globtool')
env.Append( CPPPATH = ['#include'],
LIBPATH = lib_dir )
short_platform = platform
if short_platform.startswith('msvc'):
short_platform = short_platform[2:]
# Notes: on Windows you need to rebuild the source for each variant
# Build script does not support that yet so we only build static libraries.
# This also fails on AIX because both dynamic and static library ends with
# extension .a.
env['SHARED_LIB_ENABLED'] = env.get('SHARED_LIB_ENABLED', False)
env['LIB_PLATFORM'] = short_platform
env['LIB_LINK_TYPE'] = 'lib' # static
env['LIB_CRUNTIME'] = 'mt'
env['LIB_NAME_SUFFIX'] = '${LIB_PLATFORM}_${LIB_LINK_TYPE}${LIB_CRUNTIME}' # must match autolink naming convention
env['JSONCPP_VERSION'] = JSONCPP_VERSION
env['BUILD_DIR'] = env.Dir(build_dir)
env['ROOTBUILD_DIR'] = env.Dir(rootbuild_dir)
env['DIST_DIR'] = DIST_DIR
if 'TarGz' in env['BUILDERS']:
class SrcDistAdder:
def __init__( self, env ):
self.env = env
def __call__( self, *args, **kw ):
apply( self.env.SrcDist, (self.env['SRCDIST_TARGET'],) + args, kw )
env['SRCDIST_BUILDER'] = env.TarGz
else: # If tarfile module is missing
class SrcDistAdder:
def __init__( self, env ):
pass
def __call__( self, *args, **kw ):
pass
env['SRCDIST_ADD'] = SrcDistAdder( env )
env['SRCDIST_TARGET'] = os.path.join( DIST_DIR, 'jsoncpp-src-%s.tar.gz' % env['JSONCPP_VERSION'] )
env_testing = env.Clone( )
env_testing.Append( LIBS = ['json_${LIB_NAME_SUFFIX}'] )
def buildJSONExample( env, target_sources, target_name ):
env = env.Clone()
env.Append( CPPPATH = ['#'] )
exe = env.Program( target=target_name,
source=target_sources )
env['SRCDIST_ADD']( source=[target_sources] )
global bin_dir
return env.Install( bin_dir, exe )
def buildJSONTests( env, target_sources, target_name ):
jsontests_node = buildJSONExample( env, target_sources, target_name )
check_alias_target = env.Alias( 'check', jsontests_node, RunJSONTests( jsontests_node, jsontests_node ) )
env.AlwaysBuild( check_alias_target )
def buildUnitTests( env, target_sources, target_name ):
jsontests_node = buildJSONExample( env, target_sources, target_name )
check_alias_target = env.Alias( 'check', jsontests_node,
RunUnitTests( jsontests_node, jsontests_node ) )
env.AlwaysBuild( check_alias_target )
def buildLibrary( env, target_sources, target_name ):
static_lib = env.StaticLibrary( target=target_name + '_${LIB_NAME_SUFFIX}',
source=target_sources )
global lib_dir
env.Install( lib_dir, static_lib )
if env['SHARED_LIB_ENABLED']:
shared_lib = env.SharedLibrary( target=target_name + '_${LIB_NAME_SUFFIX}',
source=target_sources )
env.Install( lib_dir, shared_lib )
env['SRCDIST_ADD']( source=[target_sources] )
Export( 'env env_testing buildJSONExample buildLibrary buildJSONTests buildUnitTests' )
def buildProjectInDirectory( target_directory ):
global build_dir
target_build_dir = os.path.join( build_dir, target_directory )
target = os.path.join( target_directory, 'sconscript' )
SConscript( target, build_dir=target_build_dir, duplicate=0 )
env['SRCDIST_ADD']( source=[target] )
def runJSONTests_action( target, source = None, env = None ):
# Add test scripts to python path
jsontest_path = Dir( '#test' ).abspath
sys.path.insert( 0, jsontest_path )
data_path = os.path.join( jsontest_path, 'data' )
import runjsontests
return runjsontests.runAllTests( os.path.abspath(source[0].path), data_path )
def runJSONTests_string( target, source = None, env = None ):
return 'RunJSONTests("%s")' % source[0]
import SCons.Action
ActionFactory = SCons.Action.ActionFactory
RunJSONTests = ActionFactory(runJSONTests_action, runJSONTests_string )
def runUnitTests_action( target, source = None, env = None ):
# Add test scripts to python path
jsontest_path = Dir( '#test' ).abspath
sys.path.insert( 0, jsontest_path )
import rununittests
return rununittests.runAllTests( os.path.abspath(source[0].path) )
def runUnitTests_string( target, source = None, env = None ):
return 'RunUnitTests("%s")' % source[0]
RunUnitTests = ActionFactory(runUnitTests_action, runUnitTests_string )
env.Alias( 'check' )
srcdist_cmd = env['SRCDIST_ADD']( source = """
AUTHORS README.md SConstruct
""".split() )
env.Alias( 'src-dist', srcdist_cmd )
buildProjectInDirectory( 'src/jsontestrunner' )
buildProjectInDirectory( 'src/lib_json' )
buildProjectInDirectory( 'src/test_lib_json' )
#print env.Dump()
......@@ -3,10 +3,10 @@
#ifndef JSON_VERSION_H_INCLUDED
# define JSON_VERSION_H_INCLUDED