#include "ModuleAssemblyComponent.h"

ModuleAssemblyComponent::ModuleAssemblyComponent(Entity* parent) : Component(parent)
{
    m_SubKey = LWOOBJID_EMPTY;
    m_UseOptionalParts = false;
    m_AssemblyPartsLOTs = u"";
}

ModuleAssemblyComponent::~ModuleAssemblyComponent() 
{
    
}

void ModuleAssemblyComponent::SetSubKey(LWOOBJID value) 
{
    m_SubKey = value;
}

LWOOBJID ModuleAssemblyComponent::GetSubKey() const
{
    return m_SubKey;
}

void ModuleAssemblyComponent::SetUseOptionalParts(bool value) 
{
    m_UseOptionalParts = value;
}

bool ModuleAssemblyComponent::GetUseOptionalParts() const
{
    return m_UseOptionalParts;
}

void ModuleAssemblyComponent::SetAssemblyPartsLOTs(const std::u16string& value) 
{
    std::u16string val {};

    val.reserve(value.size() + 1);

    for (auto character : value)
    {
        if (character == '+') character = ';';

        val.push_back(character);
    }

    val.push_back(';');
    
    m_AssemblyPartsLOTs = val;
}

const std::u16string& ModuleAssemblyComponent::GetAssemblyPartsLOTs() const
{
    return m_AssemblyPartsLOTs;
}

void ModuleAssemblyComponent::Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate, unsigned int& flags) 
{
    if (bIsInitialUpdate)
    {
        outBitStream->Write1();

        outBitStream->Write(m_SubKey != LWOOBJID_EMPTY);
        if (m_SubKey != LWOOBJID_EMPTY)
        {
            outBitStream->Write(m_SubKey);
        }

        outBitStream->Write(m_UseOptionalParts);

        outBitStream->Write(static_cast<uint16_t>(m_AssemblyPartsLOTs.size()));
        for (char16_t character : m_AssemblyPartsLOTs)
        {
            outBitStream->Write(character);
        }
    }
}

void ModuleAssemblyComponent::Update(float deltaTime) 
{
    
}