Exemplo n.º 1
0
void variant::swap(variant &other) noexcept
{
    using std::swap;

    auto thisEmpty = this->empty();
    auto otherEmpty = other.empty();
    if (thisEmpty && otherEmpty)
        return;

    if (thisEmpty && !otherEmpty)
    {
        other.manager->f_move(other.storage, storage);
        manager = other.manager;

        other.manager = internal::variant_function_table_for<void>();
        other.storage = storage_t{};
        return;
    }

    if (!thisEmpty && otherEmpty)
    {
        manager->f_move(storage, other.storage);
        other.manager = manager;

        manager = internal::variant_function_table_for<void>();
        storage = storage_t{};
        return;
    }

    storage_t temporary;
    manager->f_move(storage, temporary);
    other.manager->f_move(other.storage, storage);
    manager->f_move(temporary, other.storage);

    swap(manager, other.manager);
}
Exemplo n.º 2
0
    void xml_writer_impl::write_element(const variant& element)
    {
        try
        {
            if (element.is<variant::Collection>() && element.empty() && element.type() != variant::DataTable)
            {
                write_empty_element();
                return;
            }

            switch(element.type())
            {
            case variant::None:
            {
                write_empty_element();
                break;
            }
            case variant::Any:
            case variant::String:
            {
                if (element.as<std::string>().empty())
                {
                    write_empty_element();
                    break;
                }
            }
            case variant::Float:
            case variant::Double:
            case variant::Int32:
            case variant::UInt32:
            case variant::Int64:
            case variant::UInt64:
            case variant::Boolean:
            case variant::Date:
            case variant::Time:
            case variant::DateTime:
            {
                m_os << start_tag();
                write_text(element);
                m_os << end_tag();
                break;
            }
            case variant::Dictionary:
            case variant::Bag:
            {
                if ((m_mode & xml_mode::Preserve)!=0)
                {
                    if (element.has_key(xml_attributes))
                    {
                        m_stack.top().m_attributes = element[xml_attributes];

                        if (element.size()==1)
                        {
                            write_empty_element();
                            break;
                        }
                    }

                    m_os << start_tag();

                    bool prev_is_text = false;
                    variant::const_iterator it, end(element.end());
                    for (it=element.begin(); it!=end; ++it)
                    {
                        if (it.key()==xml_attributes)
                        {
                            continue;
                        }
                        else if (it.key()==xml_text)
                        {
                            write_text(it.value());
                            prev_is_text = true;
                        }
                        else if (it.key()==xml_instruction)
                        {
                            push(it.key());

                            if (!prev_is_text)
                            {
                                m_os << indent();
                            }

                            write_instruction(it.value());

                            prev_is_text = false;

                            pop();
                        }
                        else if (it.key()==xml_comment)
                        {
                            push(it.key());

                            if (!prev_is_text)
                            {
                                m_os << indent();
                            }

                            write_comment(it.value());

                            prev_is_text = false;

                            pop();
                        }
                        else
                        {
                            push(it.key());

                            if (!prev_is_text)
                            {
                                m_os << indent();
                            }

                            write_element(it.value());

                            prev_is_text = false;

                            pop();
                        }
                    }

                    if (!prev_is_text)
                    {
                        m_os << indent();
                    }

                    m_os << end_tag();
                }
                else
                {
                    m_os << start_tag();

                    variant::const_iterator it, end(element.end());
                    for (it=element.begin(); it!=end; ++it)
                    {
                        push(it.key());

                        m_os << indent();
                        write_variant(it.value());

                        pop();
                    }

                    m_os << indent() << end_tag();
                }

                break;
            }
            case variant::List:
            {
                m_os << start_tag();

                BOOST_FOREACH(const variant& item, element)
                {
                    push();
                    m_os << indent();
                    write_variant(item);
                    pop();
                }

                m_os << indent();
                m_os << end_tag();

                break;
            }
            case variant::Tuple:
            {
                m_stack.top().m_attributes.insert("size", variant(element.size()));
                m_os << start_tag();

                BOOST_FOREACH(const variant& item, element)
                {
                    push();
                    m_os << indent();
                    write_variant(item);
                    pop();
                }

                m_os << indent();
                m_os << end_tag();
                break;
            }
            case variant::TimeSeries:
            {
                m_os << start_tag();

                variant::const_iterator it, end = element.end();
                for (it=element.begin(); it!=end; ++it)
                {
                    push().insert("time", variant(it.time()));
                    m_os << indent();
                    write_variant(it.value());
                    pop();
                }

                m_os << indent();
                m_os << end_tag();
                break;
            }
            case variant::DataTable:
            {
                const data_table& dt = element.m_value.get<variant::DataTable>();

                m_stack.top().m_attributes
                    .insert("rows",    variant(dt.size()))
                    .insert("columns", variant(dt.columns().size()));
                m_os << start_tag();

                if (!dt.columns().empty())
                {
                    push("Columns");
                    m_os << indent() << start_tag();

                    for (data_table::column_container_type::const_iterator column_iter = dt.columns().begin()
                           ; column_iter != dt.columns().end()
                           ; ++column_iter)
                    {
                        push("Column")
                            .insert("name", variant(column_iter->name()))
                            .insert("type", variant(variant::enum_to_string(column_iter->type())));
                        m_os << indent();
                        write_empty_element();
                        pop();
                    }

                    m_os << indent() << end_tag();
                    pop();
                }

                for (data_table::column_container_type::const_iterator column_iter = dt.columns().begin()
                       ; column_iter != dt.columns().end()
                       ; ++column_iter)
                {
                    push("Column").insert("name", variant(column_iter->name()));
                    m_os << indent() << start_tag();

                    if (column_iter->type() & variant_base::Primitive)
                    {
                        boost::scoped_ptr<data_table_column_writer> column_writer(
                            make_data_table_column_stream_writer(*column_iter, m_os)
                        );

                        while (column_writer->has_next())
                        {
                            push("V");
                            m_os << indent() << start_tag();
                            column_writer->write();
                            m_os << end_tag();
                            pop();

                            column_writer->advance();
                        }
                    }
                    else
                    {
                        variant::const_iterator iter(column_iter->begin());
                        variant::const_iterator end(column_iter->end());
                        while (iter != end)
                        {
                            push("V");
                            m_os << indent();
                            write_variant(*(iter++));
                            pop();
                        }
                    }

                    m_os << indent() << end_tag();
                    pop();
                }

                m_os << indent();
                m_os << end_tag();

                break;
            }
            case variant::Buffer:
            {
                m_os << start_tag();
                const void *data = element.as<void*>();
                size_t size = element.size();
                if (data!=nullptr && size>0)
                {
                    unsigned int n = 0;
                    boost::scoped_ptr<char> b64(detail::b64_encode((const char*)data, (unsigned int)size, &n));
                    if (!b64.get())
                    {
                        boost::throw_exception(variant_error("Unable to base64 encode data"));
                    }
                    m_os << b64.get();
                }
                m_os << end_tag();
                break;
            }
            case variant::Object:
            {
                const object& obj(element.as<object>());

                // write class name
                m_stack.top().m_attributes
                    .insert("class", variant(obj.name()))
                    .insert("version", variant(obj.version()));

                m_os << start_tag();

                // write parameter dictionary
                variant params;
                obj.deflate(params);
                push("params");
                m_os << indent();
                write_variant(params);
                pop();

                m_os << indent();
                m_os << end_tag();

                break;
            }
            case variant::Exception:
            {
                m_os << start_tag();

                exception_data e(element.as<exception_data>());

                push("type");
                m_os << indent();
                write_element(variant(e.type()));
                pop();
                
                push("message");
                m_os << indent();
                write_element(variant(e.message()));
                pop();

                if (!e.source().empty())
                {
                    push("source");
                    m_os << indent();
                    write_element(variant(e.source()));
                    pop();
                }

                if (!e.stack().empty())
                {
                    push("stack");
                    m_os << indent();
                    write_element(variant(e.stack()));
                    pop();
                }

                m_os << indent();
                m_os << end_tag();
                break;
            }
            case variant::Array:
            {
                const typed_array& a(element.as<typed_array>());
                m_stack.top().m_attributes
                    .insert("size", variant(a.size()))
                    .insert("type", variant(variant::enum_to_string(a.type())));
                
                m_os << start_tag();

                for (size_t i=0; i<a.size(); ++i)
                {
                    push();
                    m_os << indent();
                    write_element(variant(a[i]));
                    pop();
                }

                m_os << indent();
                m_os << end_tag();
                break;
            }
            default:
                 boost::throw_exception(variant_error("Case exhaustion: " + variant::enum_to_string(element.type()))); 
            }