/**
 *  String field types for amqp
 *
 *  @copyright 2014 - 2023 Copernica BV
 */

/**
 *  Include guard
 */
#pragma once

/**
 *  Dependencies
 */
#include "field.h"
#include "outbuffer.h"
#include "numericfield.h"
#include "inbuffer.h"

/**
 *  Set up namespace
 */
namespace AMQP {

/**
 *  Base class for string types
 */
template <typename T, char F>
class StringField : public Field
{
private:
    /**
     *  Pointer to string data
     *  @var string
     */
    std::string _data;

public:
    /**
     *  Initialize empty string
     */
    StringField() {}

    /**
     *  Construct based on a std::string
     *  @param  value   string value
     */
    StringField(const std::string &value) : _data(value) {}

    /**
     *  Construct based on a std::string
     *  @param  value   string value
     */
    StringField(const std::string_view &value) : _data(value) {}

    /**
     *  Construct based on a std::string
     *  @param  value   string value
     */
    StringField(std::string &&value) : _data(std::move(value)) {}
    
    /**
     *  Construct based on a buffer
     *  @param  buffer  buffer value
     *  @param  size    size of the buffer
     */
    StringField(const char *buffer, size_t size) : _data(buffer, size) {}
    
    /**
     *  Construct based on a c-string
     *  @param  buffer  buffer value
     */
    StringField(const char *buffer) : _data(buffer) {}

    /**
     *  Construct based on received data
     *  @param  frame
     */
    StringField(InBuffer &frame)
    {
        // get the size
        T size(frame);

        // allocate string
        _data = std::string(frame.nextData(size.value()), (size_t) size.value());
    }

    /**
     *  Clean up memory used
     */
    virtual ~StringField() = default;

    /**
     *  Create a new instance of this object
     *  @return std::unique_ptr<Field>
     */
    virtual std::unique_ptr<Field> clone() const override
    {
        // create a new copy of ourselves and return it
        return std::unique_ptr<Field>(new StringField(_data));
    }

    /**
     *  Assign a new value
     *  @param  value   new value
     */
    StringField& operator=(const std::string &value)
    {
        // overwrite data
        _data = value;

        // allow chaining
        return *this;
    }

    /**
     *  Assign a new value
     *  @param  value   new value
     */
    StringField& operator=(std::string &&value)
    {
        // overwrite data
        _data = std::move(value);

        // allow chaining
        return *this;
    }

    /**
     *  Assign a new value
     *  @param  value   new value
     */
    StringField& operator=(const char *value)
    {
        // overwrite data
        _data.assign(value);

        // allow chaining
        return *this;
    }
    
    /**
     *  Assign a new value
     *  @param  value
     *  @return StringField
     */
    StringField& assign(const std::string &value)
    {
        // overwrite data
        _data = value;

        // allow chaining
        return *this;
    }

    /**
     *  Assign a new value
     *  @param  value   new value
     *  @return StringField
     */
    StringField& assign(std::string &&value)
    {
        // overwrite data
        _data = std::move(value);

        // allow chaining
        return *this;
    }

    /**
     *  Assign a new value
     *  @param  value   new value
     *  @return StringField
     */
    StringField& assign(const char *value)
    {
        // overwrite data
        _data.assign(value);

        // allow chaining
        return *this;
    }
    
    /**
     *  Assign a new value
     *  @param  value   new value
     *  @return StringField
     */
    StringField& assign(const char *value, size_t size)
    {
        // overwrite data
        _data.assign(value, size);

        // allow chaining
        return *this;
    }
    
    /**
     *  Make the field empty
     *  @return StringField
     */
    StringField &clear()
    {
        // clear internal dta
        _data.clear();
        
        // allow chaining
        return *this;
    }

    /**
     *  Get the size this field will take when
     *  encoded in the AMQP wire-frame format
     *  @return size_t
     */
    virtual size_t size() const override
    {
        // find out size of the size parameter
        T size((typename T::Type)_data.size());

        // size of the uint8 or uint32 + the actual string size
        return size.size() + _data.size();
    }

    /**
     *  Get the value
     *  @return string
     */
    virtual operator const std::string& () const override
    {
        return _data;
    }

    /**
     *  Get the value
     *  @return string
     */
    const std::string& value() const
    {
        // get data
        return _data;
    }

    /**
     *  Get the maximum allowed string length for this field
     *  @return size_t
     */
    constexpr static size_t maxLength()
    {
        return T::max();
    }

    /**
     *  Write encoded payload to the given buffer.
     *  @param  buffer
     */
    virtual void fill(OutBuffer& buffer) const override
    {
        // create size
        T size((typename T::Type)_data.size());

        // first, write down the size of the string
        size.fill(buffer);

        // write down the string content
        buffer.add(_data);
    }

    /**
     *  Get the type ID that is used to identify this type of
     *  field in a field table
     *  @return char
     */
    virtual char typeID() const override
    {
        return F;
    }

    /**
     *  We are a string
     *
     *  @return true, because we are a string
     */
    bool isString() const override
    {
        return true;
    }

    /**
     *  Output the object to a stream
     *  @param std::ostream
     */
    virtual void output(std::ostream &stream) const override
    {
        // show
        stream << "string(" << value() << ")";
    }
};

/**
 *  Concrete string types for AMQP
 */
typedef StringField<UOctet, 's'>    ShortString;
typedef StringField<ULong, 'S'>     LongString;

/**
 *  end namespace
 */
}