/* * Copyright (C) 2016 Mark Roszko * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "sexpr/sexpr.h" #include #include #include #include #include namespace SEXPR { SEXPR::SEXPR( SEXPR_TYPE aType, size_t aLineNumber ) : m_type( aType ), m_lineNumber( aLineNumber ) { } SEXPR::SEXPR(SEXPR_TYPE aType) : m_type( aType ), m_lineNumber( 1 ) { } SEXPR_VECTOR const * SEXPR::GetChildren() const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_LIST ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a list type!"); } return &static_cast< SEXPR_LIST const * >(this)->m_children; } SEXPR* SEXPR::GetChild( size_t aIndex ) const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_LIST ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a list type!"); } return static_cast< SEXPR_LIST const * >(this)->m_children[aIndex]; } void SEXPR::AddChild( SEXPR* aChild ) { if( m_type != SEXPR_TYPE::SEXPR_TYPE_LIST ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a list type!"); } SEXPR_LIST* list = static_cast< SEXPR_LIST * >( this ); list->m_children.push_back( aChild ); } size_t SEXPR::GetNumberOfChildren() const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_LIST ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a list type!"); } return static_cast< SEXPR_LIST const * >(this)->m_children.size(); } std::string const & SEXPR::GetString() const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_ATOM_STRING ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a string type!"); } return static_cast< SEXPR_STRING const * >(this)->m_value; } int32_t SEXPR::GetInteger() const { return static_cast< int >( GetLongInteger() ); } int64_t SEXPR::GetLongInteger() const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_ATOM_INTEGER ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a integer type!"); } return static_cast< SEXPR_INTEGER const * >(this)->m_value; } double SEXPR::GetDouble() const { // we may end up parsing "intended" floats/doubles as ints // so here we allow silent casting back to doubles if( m_type == SEXPR_TYPE::SEXPR_TYPE_ATOM_DOUBLE ) { return static_cast< SEXPR_DOUBLE const * >(this)->m_value; } else if( m_type == SEXPR_TYPE::SEXPR_TYPE_ATOM_INTEGER ) { return static_cast< SEXPR_INTEGER const * >(this)->m_value; } else { throw INVALID_TYPE_EXCEPTION("SEXPR is not a double type!"); } } float SEXPR::GetFloat() const { return static_cast< float >( GetDouble() ); } std::string const & SEXPR::GetSymbol() const { if( m_type != SEXPR_TYPE::SEXPR_TYPE_ATOM_SYMBOL ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a symbol type!"); } return static_cast< SEXPR_SYMBOL const * >(this)->m_value; } SEXPR_LIST* SEXPR::GetList() { if( m_type != SEXPR_TYPE::SEXPR_TYPE_LIST ) { throw INVALID_TYPE_EXCEPTION("SEXPR is not a list type!"); } return static_cast< SEXPR_LIST* >(this); } std::string SEXPR::AsString( size_t aLevel ) const { std::string result; if( IsList() ) { if( aLevel != 0 ) { result = "\n"; } result.append( aLevel * 2, ' ' ); aLevel++; result += "("; SEXPR_VECTOR const* list = GetChildren(); for( std::vector::const_iterator it = list->begin(); it != list->end(); ++it ) { result += (*it)->AsString( aLevel ); if( it != list->end() - 1 ) { result += " "; } } result += ")"; aLevel--; } else if( IsString() ) { result += "\"" + GetString() + "\""; } else if( IsSymbol() ) { result += GetSymbol(); } else if( IsInteger() ) { std::stringstream out; out << GetInteger(); result += out.str(); } else if( IsDouble() ) { std::stringstream out; out << std::setprecision( 16 ) << GetDouble(); result += out.str(); } return result; } SEXPR_LIST::~SEXPR_LIST() { for( auto child : m_children ) { delete child; } m_children.clear(); } SEXPR_LIST& operator<< ( SEXPR_LIST& list, const ISEXPRABLE& obj ) { SEXPR* sobj = obj.SerializeSEXPR(); list.AddChild( sobj ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, int64_t value ) { list.AddChild( new SEXPR_INTEGER( value ) ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, int32_t value ) { list.AddChild( new SEXPR_INTEGER( value ) ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, float value ) { list.AddChild( new SEXPR_DOUBLE( value ) ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, double value ) { list.AddChild( new SEXPR_DOUBLE( value ) ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, std::string value ) { list.AddChild( new SEXPR_STRING( value ) ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, SEXPR* obj ) { list.AddChild( obj ); return list; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, const _OUT_STRING setting ) { SEXPR *res; if( setting._Symbol ) { res = new SEXPR_SYMBOL( setting._String ); } else { res = new SEXPR_STRING( setting._String ); } list.AddChild( res ); return list; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, ISEXPRABLE& obj ) { obj.DeserializeSEXPR( input ); return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, int32_t& inte ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( child->IsInteger() ) { inte = child->GetInteger(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a integer type!" ); } return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, std::string& str ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( child->IsString() || child->IsSymbol() ) { str = child->GetString(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a string type!" ); } return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, int64_t& lint ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( child->IsInteger() ) { lint = child->GetLongInteger(); input.m_inStreamChild++; } else { throw std::invalid_argument("SEXPR is not a long integer type!"); } return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, float& fl ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( child->IsDouble() ) { fl = child->GetFloat(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a float type!" ); } return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, double& dbl ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( child->IsDouble() ) { dbl = child->GetDouble(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a double type!" ); } return input; } SEXPR_LIST& operator>> ( SEXPR_LIST& input, const _IN_STRING is ) { SEXPR* child = input.GetChild( input.m_inStreamChild ); if( is._Symbol ) { if( child->IsSymbol() ) { is._String = child->GetSymbol(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a symbol type!" ); } } else { if( child->IsString() ) { is._String = child->GetString(); input.m_inStreamChild++; } else { throw std::invalid_argument( "SEXPR is not a string type!" ); } } return input; } SEXPR_LIST& operator<< ( SEXPR_LIST& list, SEXPR_LIST* list2 ) { list.AddChild( list2 ); return list; } size_t SEXPR_LIST::doScan( const SEXPR_SCAN_ARG *args, size_t num_args ) { size_t i = 0; for( i = 0; i < num_args; i++ ) { SEXPR* child = GetChild( i ); const SEXPR_SCAN_ARG& arg = args[i]; try { if( arg.type == SEXPR_SCAN_ARG::Type::DOUBLE ) { *arg.u.dbl_value = child->GetDouble(); } else if( arg.type == SEXPR_SCAN_ARG::Type::INT ) { *arg.u.dbl_value = child->GetInteger(); } else if( arg.type == SEXPR_SCAN_ARG::Type::STRING ) { if( child->IsSymbol() ) { *arg.u.str_value = child->GetSymbol(); } else if( child->IsString() ) { *arg.u.str_value = child->GetString(); } } else if( arg.type == SEXPR_SCAN_ARG::Type::LONGINT ) { *arg.u.lint_value = child->GetLongInteger(); } else if( arg.type == SEXPR_SCAN_ARG::Type::SEXPR_STRING ) { if( arg.u.sexpr_str->_Symbol ) { arg.u.sexpr_str->_String = child->GetSymbol(); } else { arg.u.sexpr_str->_String = child->GetString(); } } else if( arg.type == SEXPR_SCAN_ARG::Type::STRING_COMP ) { if( child->IsSymbol() ) { if( child->GetSymbol() != arg.str_value ) { return i; } } else if( child->IsString() ) { if( child->GetString() != arg.str_value ) { return i; } } } else { throw std::invalid_argument( "unsupported argument type, this shouldn't have happened" ); } } catch( const INVALID_TYPE_EXCEPTION& ) { return i; } } return i; } void SEXPR_LIST::doAddChildren( const SEXPR_CHILDREN_ARG *args, size_t num_args ) { size_t i = 0; for( i = 0; i < num_args; i++ ) { const SEXPR_CHILDREN_ARG& arg = args[i]; if( arg.type == SEXPR_CHILDREN_ARG::Type::DOUBLE ) { AddChild( new SEXPR_DOUBLE( arg.u.dbl_value ) ); } else if( arg.type == SEXPR_CHILDREN_ARG::Type::INT ) { AddChild( new SEXPR_INTEGER( arg.u.int_value ) ); } else if( arg.type == SEXPR_CHILDREN_ARG::Type::LONGINT ) { AddChild( new SEXPR_INTEGER( arg.u.lint_value ) ); } else if( arg.type == SEXPR_CHILDREN_ARG::Type::STRING ) { AddChild( new SEXPR_STRING( arg.str_value ) ); } else if( arg.type == SEXPR_CHILDREN_ARG::Type::SEXPR_ATOM ) { AddChild( arg.u.sexpr_ptr ); } else if( arg.type == SEXPR_CHILDREN_ARG::Type::SEXPR_STRING ) { if( arg.u.symbol ) { AddChild( new SEXPR_SYMBOL( arg.str_value ) ); } else { AddChild( new SEXPR_STRING( arg.str_value ) ); } } else { throw std::invalid_argument( "unexpected argument type, this shouldn't have happened" ); } } } }