Adding upstream version 16.2.11+ds.upstream/16.2.11+dsupstream

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 584 insertions, 0 deletions

diff --git a/src/json_spirit/json_spirit_value.h b/src/json_spirit/json_spirit_value.h
new file mode 100644
index 000000000..a4126369f
--- /dev/null
+++ b/src/json_spirit/json_spirit_value.h
@@ -0,0 +1,584 @@
+#ifndef JSON_SPIRIT_VALUE

+#define JSON_SPIRIT_VALUE

+

+//          Copyright John W. Wilkinson 2007 - 2011

+// Distributed under the MIT License, see accompanying file LICENSE.txt

+

+// json spirit version 4.05

+

+#if defined(_MSC_VER) && (_MSC_VER >= 1020)

+# pragma once

+#endif

+

+#include <vector>

+#include <map>

+#include <string>

+#include <sstream>

+#include <stdexcept>

+#include <boost/config.hpp> 

+#include <boost/cstdint.hpp> 

+#include <boost/shared_ptr.hpp> 

+#include <boost/variant.hpp> 

+

+// comment out the value types you don't need to reduce build times and intermediate file sizes

+#define JSON_SPIRIT_VALUE_ENABLED

+//#define JSON_SPIRIT_WVALUE_ENABLED

+#define JSON_SPIRIT_MVALUE_ENABLED

+//#define JSON_SPIRIT_WMVALUE_ENABLED

+

+namespace json_spirit

+{

+    enum Value_type{ obj_type, array_type, str_type, bool_type, int_type, real_type, null_type };

+

+    struct Null{};

+    

+    template< class Config >    // Config determines whether the value uses std::string or std::wstring and

+                                // whether JSON Objects are represented as vectors or maps

+    class Value_impl

+    {

+    public:

+

+        typedef Config Config_type;

+        typedef typename Config::String_type String_type;

+        typedef typename Config::Object_type Object;

+        typedef typename Config::Array_type Array;

+        typedef typename String_type::const_pointer Const_str_ptr;  // eg const char*

+

+        Value_impl();  // creates null value

+        Value_impl( Const_str_ptr      value ); 

+        Value_impl( const String_type& value );

+        Value_impl( const Object&      value );

+        Value_impl( const Array&       value );

+        Value_impl( bool               value );

+        Value_impl( int                value );

+        Value_impl( boost::int64_t     value );

+        Value_impl( boost::uint64_t    value );

+        Value_impl( double             value );

+

+        template< class Iter >

+        Value_impl( Iter first, Iter last );    // constructor from containers, e.g. std::vector or std::list

+

+        template< BOOST_VARIANT_ENUM_PARAMS( typename T ) >

+        Value_impl( const boost::variant< BOOST_VARIANT_ENUM_PARAMS(T) >& variant ); // constructor for compatible variant types

+

+        Value_impl( const Value_impl& other );

+

+        bool operator==( const Value_impl& lhs ) const;

+

+        Value_impl& operator=( const Value_impl& lhs );

+

+        Value_type type() const;

+

+        bool is_uint64() const;

+        bool is_null() const;

+

+        const String_type& get_str()    const;

+        const Object&      get_obj()    const;

+        const Array&       get_array()  const;

+        bool               get_bool()   const;

+        int                get_int()    const;

+        boost::int64_t     get_int64()  const;

+        boost::uint64_t    get_uint64() const;

+        double             get_real()   const;

+

+        Object& get_obj();

+        Array&  get_array();

+

+        template< typename T > T get_value() const;  // example usage: int    i = value.get_value< int >();

+                                                     // or             double d = value.get_value< double >();

+

+        static const Value_impl null;

+

+    private:

+

+        void check_type( const Value_type vtype ) const;

+

+        typedef boost::variant< boost::recursive_wrapper< Object >, boost::recursive_wrapper< Array >, 

+                                String_type, bool, boost::int64_t, double, Null, boost::uint64_t > Variant;

+

+        Variant v_;

+

+        class Variant_converter_visitor : public boost::static_visitor< Variant > 

+        {

+        public:

+         

+              template< typename T, typename A, template< typename, typename > class Cont >

+              Variant operator()( const Cont< T, A >& cont ) const 

+              {

+                  return Array( cont.begin(), cont.end() );

+              }

+             

+              Variant operator()( int i ) const 

+              {

+                  return static_cast< boost::int64_t >( i );

+              }

+           

+              template<class T>

+              Variant operator()( const T& t ) const 

+              {

+                  return t;

+              }

+        };

+    };

+

+    // vector objects

+

+    template< class Config >

+    struct Pair_impl

+    {

+        typedef typename Config::String_type String_type;

+        typedef typename Config::Value_type Value_type;

+

+        Pair_impl()

+        {

+        }

+

+        Pair_impl( const String_type& name, const Value_type& value );

+

+        bool operator==( const Pair_impl& lhs ) const;

+

+        String_type name_;

+        Value_type value_;

+    };

+

+#if defined( JSON_SPIRIT_VALUE_ENABLED ) || defined( JSON_SPIRIT_WVALUE_ENABLED )

+    template< class String >

+    struct Config_vector

+    {

+        typedef String String_type;

+        typedef Value_impl< Config_vector > Value_type;

+        typedef Pair_impl < Config_vector > Pair_type;

+        typedef std::vector< Value_type > Array_type;

+        typedef std::vector< Pair_type > Object_type;

+

+        static Value_type& add( Object_type& obj, const String_type& name, const Value_type& value )

+        {

+            obj.push_back( Pair_type( name , value ) );

+

+            return obj.back().value_;

+        }

+                

+        static String_type get_name( const Pair_type& pair )

+        {

+            return pair.name_;

+        }

+                

+        static Value_type get_value( const Pair_type& pair )

+        {

+            return pair.value_;

+        }

+    };

+#endif

+

+    // typedefs for ASCII

+

+#ifdef JSON_SPIRIT_VALUE_ENABLED

+    typedef Config_vector< std::string > Config;

+

+    typedef Config::Value_type  Value;

+    typedef Config::Pair_type   Pair;

+    typedef Config::Object_type Object;

+    typedef Config::Array_type  Array;

+#endif

+

+    // typedefs for Unicode

+

+#if defined( JSON_SPIRIT_WVALUE_ENABLED ) && !defined( BOOST_NO_STD_WSTRING )

+    typedef Config_vector< std::wstring > wConfig;

+

+    typedef wConfig::Value_type  wValue;

+    typedef wConfig::Pair_type   wPair;

+    typedef wConfig::Object_type wObject;

+    typedef wConfig::Array_type  wArray;

+#endif

+

+    // map objects

+

+#if defined( JSON_SPIRIT_MVALUE_ENABLED ) || defined( JSON_SPIRIT_WMVALUE_ENABLED )

+    template< class String >

+    struct Config_map

+    {

+        typedef String String_type;

+        typedef Value_impl< Config_map > Value_type;

+        typedef std::vector< Value_type > Array_type;

+        typedef std::map< String_type, Value_type > Object_type;

+        typedef std::pair< String_type, Value_type > Pair_type;

+

+        static Value_type& add( Object_type& obj, const String_type& name, const Value_type& value )

+        {

+            return obj[ name ] = value;

+        }

+                

+        static String_type get_name( const Pair_type& pair )

+        {

+            return pair.first;

+        }

+                

+        static Value_type get_value( const Pair_type& pair )

+        {

+            return pair.second;

+        }

+    };

+#endif

+

+    // typedefs for ASCII

+

+#ifdef JSON_SPIRIT_MVALUE_ENABLED

+    typedef Config_map< std::string > mConfig;

+

+    typedef mConfig::Value_type  mValue;

+    typedef mConfig::Object_type mObject;

+    typedef mConfig::Array_type  mArray;

+#endif

+

+    // typedefs for Unicode

+

+#if defined( JSON_SPIRIT_WMVALUE_ENABLED ) && !defined( BOOST_NO_STD_WSTRING )

+    typedef Config_map< std::wstring > wmConfig;

+

+    typedef wmConfig::Value_type  wmValue;

+    typedef wmConfig::Object_type wmObject;

+    typedef wmConfig::Array_type  wmArray;

+#endif

+

+    ///////////////////////////////////////////////////////////////////////////////////////////////

+    //

+    // implementation

+

+    inline bool operator==( const Null&, const Null& )

+    {

+        return true;

+    }

+

+    template< class Config >

+    const Value_impl< Config > Value_impl< Config >::null;

+

+    template< class Config >

+    Value_impl< Config >::Value_impl()

+    :   v_( Null() )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( const Const_str_ptr value )

+    :  v_( String_type( value ) )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( const String_type& value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( const Object& value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( const Array& value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( bool value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( int value )

+    :   v_( static_cast< boost::int64_t >( value ) )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( boost::int64_t value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( boost::uint64_t value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( double value )

+    :   v_( value )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >::Value_impl( const Value_impl< Config >& other )

+    :   v_( other.v_ )

+    {

+    }

+

+    template< class Config >

+    template< class Iter >

+    Value_impl< Config >::Value_impl( Iter first, Iter last )

+    :   v_( Array( first, last ) )

+    {

+    }

+

+    template< class Config >

+    template< BOOST_VARIANT_ENUM_PARAMS( typename T ) >

+    Value_impl< Config >::Value_impl( const boost::variant< BOOST_VARIANT_ENUM_PARAMS(T) >& variant )

+    :   v_( boost::apply_visitor( Variant_converter_visitor(), variant) )

+    {

+    }

+

+    template< class Config >

+    Value_impl< Config >& Value_impl< Config >::operator=( const Value_impl& lhs )

+    {

+        Value_impl tmp( lhs );

+

+        std::swap( v_, tmp.v_ );

+

+        return *this;

+    }

+

+    template< class Config >

+    bool Value_impl< Config >::operator==( const Value_impl& lhs ) const

+    {

+        if( this == &lhs ) return true;

+

+        if( type() != lhs.type() ) return false;

+

+        return v_ == lhs.v_; 

+    }

+

+    template< class Config >

+    Value_type Value_impl< Config >::type() const

+    {

+        if( is_uint64() )

+        {

+            return int_type;

+        }

+

+        return static_cast< Value_type >( v_.which() );

+    }

+

+    template< class Config >

+    bool Value_impl< Config >::is_uint64() const

+    {

+        return v_.which() == null_type + 1;

+    }

+

+    template< class Config >

+    bool Value_impl< Config >::is_null() const

+    {

+        return type() == null_type;

+    }

+

+    template< class Config >

+    void Value_impl< Config >::check_type( const Value_type vtype ) const

+    {

+        if( type() != vtype ) 

+        {

+            std::ostringstream os;

+

+            os << "value type is " << type() << " not " << vtype;

+

+            throw std::runtime_error( os.str() );

+        }

+    }

+

+    template< class Config >

+    const typename Config::String_type& Value_impl< Config >::get_str() const

+    {

+        check_type( str_type );

+

+        return *boost::get< String_type >( &v_ );

+    }

+

+    template< class Config >

+    const typename Value_impl< Config >::Object& Value_impl< Config >::get_obj() const

+    {

+        check_type( obj_type );

+

+        return *boost::get< Object >( &v_ );

+    }

+     

+    template< class Config >

+    const typename Value_impl< Config >::Array& Value_impl< Config >::get_array() const

+    {

+        check_type( array_type );

+

+        return *boost::get< Array >( &v_ );

+    }

+     

+    template< class Config >

+    bool Value_impl< Config >::get_bool() const

+    {

+        check_type( bool_type );

+

+        return boost::get< bool >( v_ );

+    }

+     

+    template< class Config >

+    int Value_impl< Config >::get_int() const

+    {

+        check_type( int_type );

+

+        return static_cast< int >( get_int64() );

+    }

+    

+    template< class Config >

+    boost::int64_t Value_impl< Config >::get_int64() const

+    {

+        check_type( int_type );

+

+        if( is_uint64() )

+        {

+            return static_cast< boost::int64_t >( get_uint64() );

+        }

+

+        return boost::get< boost::int64_t >( v_ );

+    }

+    

+    template< class Config >

+    boost::uint64_t Value_impl< Config >::get_uint64() const

+    {

+        check_type( int_type );

+

+        if( !is_uint64() )

+        {

+            return static_cast< boost::uint64_t >( get_int64() );

+        }

+

+        return boost::get< boost::uint64_t >( v_ );

+    }

+

+    template< class Config >

+    double Value_impl< Config >::get_real() const

+    {

+        if( type() == int_type )

+        {

+            return is_uint64() ? static_cast< double >( get_uint64() )

+                               : static_cast< double >( get_int64() );

+        }

+

+        check_type( real_type );

+

+        return boost::get< double >( v_ );

+    }

+

+    template< class Config >

+    typename Value_impl< Config >::Object& Value_impl< Config >::get_obj()

+    {

+        check_type( obj_type );

+

+        return *boost::get< Object >( &v_ );

+    }

+

+    template< class Config >

+    typename Value_impl< Config >::Array& Value_impl< Config >::get_array()

+    {

+        check_type( array_type );

+

+        return *boost::get< Array >( &v_ );

+    }

+

+    template< class Config >

+    Pair_impl< Config >::Pair_impl( const String_type& name, const Value_type& value )

+    :   name_( name )

+    ,   value_( value )

+    {

+    }

+

+    template< class Config >

+    bool Pair_impl< Config >::operator==( const Pair_impl< Config >& lhs ) const

+    {

+        if( this == &lhs ) return true;

+

+        return ( name_ == lhs.name_ ) && ( value_ == lhs.value_ );

+    }

+

+    // converts a C string, ie. 8 bit char array, to a string object

+    //

+    template < class String_type >

+    String_type to_str( const char* c_str )

+    {

+        String_type result;

+

+        for( const char* p = c_str; *p != 0; ++p )

+        {

+            result += *p;

+        }

+

+        return result;

+    }

+

+    //

+

+    namespace internal_

+    {

+        template< typename T >

+        struct Type_to_type

+        {

+        };

+

+        template< class Value > 

+        int get_value( const Value& value, Type_to_type< int > )

+        {

+            return value.get_int();

+        }

+       

+        template< class Value > 

+        boost::int64_t get_value( const Value& value, Type_to_type< boost::int64_t > )

+        {

+            return value.get_int64();

+        }

+       

+        template< class Value > 

+        boost::uint64_t get_value( const Value& value, Type_to_type< boost::uint64_t > )

+        {

+            return value.get_uint64();

+        }

+       

+        template< class Value > 

+        double get_value( const Value& value, Type_to_type< double > )

+        {

+            return value.get_real();

+        }

+       

+        template< class Value > 

+        typename Value::String_type get_value( const Value& value, Type_to_type< typename Value::String_type > )

+        {

+            return value.get_str();

+        }

+       

+        template< class Value > 

+        typename Value::Array get_value( const Value& value, Type_to_type< typename Value::Array > )

+        {

+            return value.get_array();

+        }

+       

+        template< class Value > 

+        typename Value::Object get_value( const Value& value, Type_to_type< typename Value::Object > )

+        {

+            return value.get_obj();

+        }

+       

+        template< class Value > 

+        bool get_value( const Value& value, Type_to_type< bool > )

+        {

+            return value.get_bool();

+        }

+    }

+

+    template< class Config >

+    template< typename T > 

+    T Value_impl< Config >::get_value() const

+    {

+        return internal_::get_value( *this, internal_::Type_to_type< T >() );

+    }

+}

+

+#endif