334 lines
18 KiB
C++
334 lines
18 KiB
C++
#pragma once
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#include <fc/reflect.hpp>
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#include <fc/value.hpp>
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#include <fc/exception.hpp>
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#include <fc/lexical_cast.hpp>
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#include <fc/numeric_cast.hpp>
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#include <fc/value_io.hpp>
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#include <fc/tuple.hpp>
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#include <fc/vector.hpp>
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#include <fc/typename.hpp>
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#include <fc/error_report.hpp>
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//#include <typeinfo>
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namespace fc {
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namespace detail {
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template<typename T>
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struct cast_visitor : value::const_visitor {
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cast_visitor( T& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const int16_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const int32_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const int64_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const uint8_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const uint16_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const uint32_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const uint64_t& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const float& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const double& v ) { m_out = fc::numeric_cast<T>(v); }
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virtual void operator()( const bool& v ) { m_out = v; }
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virtual void operator()( const fc::string& v ) { m_out = fc::lexical_cast<T>(v); }
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virtual void operator()( const value::object& ) { FC_THROW_REPORT("bad cast to ${type} from object",
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fc::value().set("type",fc::get_typename<T>::name())); }
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virtual void operator()( const value::array& ) { FC_THROW_REPORT("bad cast to ${type} from array",
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fc::value().set("type",fc::get_typename<T>::name())); }
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virtual void operator()( ) { FC_THROW_REPORT("bad cast to ${type} from null",
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fc::value().set("type",fc::get_typename<T>::name())); }
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private:
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T& m_out;
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};
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template<>
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struct cast_visitor<bool> : value::const_visitor {
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cast_visitor( bool& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ){ m_out = v != 0; }
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virtual void operator()( const int16_t& v ){ m_out = v != 0; }
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virtual void operator()( const int32_t& v ){ m_out = v != 0; }
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virtual void operator()( const int64_t& v ){ m_out = v != 0; }
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virtual void operator()( const uint8_t& v ){ m_out = v != 0; }
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virtual void operator()( const uint16_t& v ){ m_out = v != 0; }
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virtual void operator()( const uint32_t& v ){ m_out = v != 0; }
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virtual void operator()( const uint64_t& v ){ m_out = v != 0; }
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virtual void operator()( const float& v ){ m_out = v != 0; }
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virtual void operator()( const double& v ){ m_out = v != 0; }
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virtual void operator()( const bool& v ){ m_out = v; }
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virtual void operator()( const fc::string& v ) { m_out = !(v != "true"); }
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virtual void operator()( const value::object& ) { FC_THROW_REPORT("bad cast to bool from object"); }
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virtual void operator()( const value::array& ) { FC_THROW_REPORT("bad cast to bool from array"); }
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virtual void operator()( ) { FC_THROW_REPORT("bad cast to bool from null"); }
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private:
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bool& m_out;
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};
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template<>
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struct cast_visitor<fc::string> : value::const_visitor {
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cast_visitor( fc::string& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const int16_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const int32_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const int64_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const uint8_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const uint16_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const uint32_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const uint64_t& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const float& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const double& v ) { m_out = fc::lexical_cast<fc::string>(v); }
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virtual void operator()( const bool& v ) { m_out = v != 0 ? "true" : "false"; }
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virtual void operator()( const fc::string& v ) { m_out = v; }
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virtual void operator()( const value::object& ){ FC_THROW_REPORT("bad cast to string from object"); }
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virtual void operator()( const value::array& ) { FC_THROW_REPORT("bad cast to string from array"); }
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virtual void operator()( ) { m_out = fc::string(); }
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private:
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fc::string& m_out;
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};
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template<>
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struct cast_visitor<value::array> : value::const_visitor {
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cast_visitor( value::array& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ) { FC_THROW_REPORT("bad cast to array from int8");}
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virtual void operator()( const int16_t& v ) { FC_THROW_REPORT("bad cast to array from int16");}
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virtual void operator()( const int32_t& v ) { FC_THROW_REPORT("bad cast to array from int32");}
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virtual void operator()( const int64_t& v ) { FC_THROW_REPORT("bad cast to array from int32");}
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virtual void operator()( const uint8_t& v ) { FC_THROW_REPORT("bad cast to array from uint8");}
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virtual void operator()( const uint16_t& v ) { FC_THROW_REPORT("bad cast to array from uint16");}
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virtual void operator()( const uint32_t& v ) { FC_THROW_REPORT("bad cast to array from uint32");}
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virtual void operator()( const uint64_t& v ) { FC_THROW_REPORT("bad cast to array from uint64");}
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virtual void operator()( const float& v ) { FC_THROW_REPORT("bad cast to array from float");}
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virtual void operator()( const double& v ) { FC_THROW_REPORT("bad cast to array from double");}
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virtual void operator()( const bool& v ) { FC_THROW_REPORT("bad cast to array from bool");}
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virtual void operator()( const fc::string& v ) { FC_THROW_REPORT("bad cast to array from string");}
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virtual void operator()( const value::object& ) { FC_THROW_REPORT("bad cast to array from object");}
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virtual void operator()( const value::array& a ) { m_out = a; }
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virtual void operator()( ) { m_out = value::array(); }
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private:
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value::array& m_out;
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};
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template<>
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struct cast_visitor<value::object> : value::const_visitor {
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cast_visitor( value::object& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ){ FC_THROW_REPORT("bad cast to array from int8");}
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virtual void operator()( const int16_t& v ){ FC_THROW_REPORT("bad cast to array from int16");}
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virtual void operator()( const int32_t& v ){ FC_THROW_REPORT("bad cast to array from int32");}
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virtual void operator()( const int64_t& v ){ FC_THROW_REPORT("bad cast to array from int32");}
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virtual void operator()( const uint8_t& v ){ FC_THROW_REPORT("bad cast to array from uint8");}
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virtual void operator()( const uint16_t& v ){ FC_THROW_REPORT("bad cast to array from uint16");}
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virtual void operator()( const uint32_t& v ){ FC_THROW_REPORT("bad cast to array from uint32");}
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virtual void operator()( const uint64_t& v ){ FC_THROW_REPORT("bad cast to array from uint64");}
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virtual void operator()( const float& v ){ FC_THROW_REPORT("bad cast to array from float");}
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virtual void operator()( const double& v ){ FC_THROW_REPORT("bad cast to array from double");}
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virtual void operator()( const bool& v ){ FC_THROW_REPORT("bad cast to array from bool");}
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virtual void operator()( const fc::string& v ) { FC_THROW_REPORT("bad cast to array from string");}
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virtual void operator()( const value::object& a ) { m_out = a; }
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virtual void operator()( const value::array& ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( ) { m_out = value::object(); }
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private:
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value::object& m_out;
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};
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template<>
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struct cast_visitor<fc::value> : value::const_visitor {
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cast_visitor( value& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ) { m_out = v; }
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virtual void operator()( const int16_t& v ) { m_out = v; }
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virtual void operator()( const int32_t& v ) { m_out = v; }
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virtual void operator()( const int64_t& v ) { m_out = v; }
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virtual void operator()( const uint8_t& v ) { m_out = v; }
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virtual void operator()( const uint16_t& v ) { m_out = v; }
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virtual void operator()( const uint32_t& v ) { m_out = v; }
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virtual void operator()( const uint64_t& v ) { m_out = v; }
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virtual void operator()( const float& v ) { m_out = v; }
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virtual void operator()( const double& v ) { m_out = v; }
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virtual void operator()( const bool& v ) { m_out = v; }
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virtual void operator()( const fc::string& v ) { m_out = v; }
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virtual void operator()( const value::object& a ) { m_out = a; }
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virtual void operator()( const value::array& a ) { m_out = a; }
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virtual void operator()( ) { m_out = value(); }
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value& m_out;
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};
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template<typename T>
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struct cast_visitor<fc::vector<T>> : value::const_visitor {
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cast_visitor( fc::vector<T>& out )
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:m_out(out){}
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virtual void operator()( const int8_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from int8");}
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virtual void operator()( const int16_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from int16");}
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virtual void operator()( const int32_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from int32");}
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virtual void operator()( const int64_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from int64");}
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virtual void operator()( const uint8_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from uint8");}
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virtual void operator()( const uint16_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from uint16");}
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virtual void operator()( const uint32_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from uint32");}
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virtual void operator()( const uint64_t& v ) { FC_THROW_REPORT("bad cast to vector<T> from uint64");}
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virtual void operator()( const float& v ) { FC_THROW_REPORT("bad cast to vector<T> from float");}
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virtual void operator()( const double& v ) { FC_THROW_REPORT("bad cast to vector<T> from double");}
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virtual void operator()( const bool& v ) { FC_THROW_REPORT("bad cast to vector<T> from bool");}
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virtual void operator()( const fc::string& v ) { FC_THROW_REPORT("bad cast to vector<T> from string");}
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virtual void operator()( const value::object& a ) { FC_THROW_REPORT("bad cast to vector<T> from object");}
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virtual void operator()( const value::array& a ) {
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m_out.resize(0);
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m_out.reserve( a.fields.size() );
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int idx = 0;
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for( auto i = a.fields.begin(); i != a.fields.end(); ++i ) {
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try {
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m_out.push_back( value_cast<T>( *i ) );
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} catch( fc::error_report& er ) {
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throw FC_REPORT_PUSH( er, "Error parsing array index ${index} to ${type}",
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fc::value().set("index", idx).set("type",fc::get_typename<T>::name()) );
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}
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++idx;
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}
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}
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virtual void operator()( ) { FC_THROW_REPORT("bad cast");}
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private:
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fc::vector<T>& m_out;
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};
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template<>
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struct cast_visitor<void> : value::const_visitor {
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virtual void operator()( const int8_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const int16_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const int32_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const int64_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const uint8_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const uint16_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const uint32_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const uint64_t& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const float& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const double& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const bool& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const fc::string& v ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const value::object& a ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( const value::array& ) { FC_THROW_REPORT("bad cast");}
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virtual void operator()( ) { }
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};
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template<typename IsTuple=fc::false_type>
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struct cast_if_tuple {
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template<typename T>
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static T cast( const value& v ) {
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typename fc::deduce<T>::type out;
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v.visit(cast_visitor<decltype(out)>(out));
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return out;
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}
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};
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template<>
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struct cast_if_tuple<fc::true_type> {
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struct member_visitor {
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member_visitor( const value& v )
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:_val(v),idx(0){}
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template<typename Member>
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void operator()( Member& m ) {
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try {
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m = value_cast<Member>(_val[idx]);
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} catch ( fc::error_report& er ) {
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throw FC_REPORT_PUSH( er, "Error parsing tuple element ${index}", fc::value().set("index",idx) );
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}
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++idx;
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}
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const value& _val;
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int idx;
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};
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template<typename Tuple>
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static Tuple cast( const value& v ) {
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typename fc::deduce<Tuple>::type out;
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out.visit( member_visitor(v) );
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return out;
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}
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};
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template<typename IsReflected=fc::false_type>
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struct cast_if_reflected {
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template<typename T>
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static T cast( const value& v ) {
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return cast_if_tuple<typename is_tuple<T>::type>::template cast<T>(v);
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}
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};
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template<>
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struct cast_if_reflected<fc::true_type> {
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template<typename T>
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static T cast( const value& v ) {
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T tmp;
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unpack(v,tmp);
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return tmp;
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}
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};
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class value_visitor;
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struct value_holder {
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virtual ~value_holder();
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virtual const char* type()const;
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virtual void visit( value::const_visitor&& v )const;
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virtual void visit( value_visitor&& v );
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virtual void clear();
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virtual size_t size()const;
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virtual void resize( size_t );
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virtual void reserve( size_t );
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virtual value& at( size_t );
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virtual const value& at( size_t )const;
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virtual void push_back( value&& v );
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virtual value_holder* move_helper( char* c );
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virtual value_holder* copy_helper( char* c )const;
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};
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void new_value_holder_void( value* v );
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} // namespace detail
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/**
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* Convert from value v to T
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*
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* Performs the following conversions
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* true -> 1.0, 1, "true"
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*
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* Not all casts are 'clean', the following conversions
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* could cause errors:
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*
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* signed int -> unsigned
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* large int -> smaller int
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* real -> int
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* non-numeric string -> number
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* object -> string or number
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* array -> string or number
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* number,string,array -> object
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*/
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template<typename T>
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T value_cast( const value& v ) {
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return detail::cast_if_reflected<typename fc::reflector<typename fc::deduce<T>::type>::is_defined>::template cast< typename fc::deduce<T>::type >(v);
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}
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template<typename T>
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value::value( const T& v ) {
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detail::new_value_holder_void(this);
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fc::pack( *this, v);
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}
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template<typename T>
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value& value::operator=( const T& v ) {
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this->~value();
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value tmp(v);
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*this = fc::move(tmp);
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return *this;
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}
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template<typename T>
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T value::cast()const {
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return value_cast<T>(*this);
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}
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}
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