/* Copyright (C) Teemu Suutari */

#include "LZW4Decompressor.hpp"
#include "InputStream.hpp"
#include "OutputStream.hpp"
#include "common/Common.hpp"


namespace ancient::internal
{

bool LZW4Decompressor::detectHeaderXPK(uint32_t hdr) noexcept
{
	return hdr==FourCC("LZW4");
}

std::shared_ptr<XPKDecompressor> LZW4Decompressor::create(uint32_t hdr,uint32_t recursionLevel,const Buffer &packedData,std::shared_ptr<XPKDecompressor::State> &state,bool verify)
{
	return std::make_shared<LZW4Decompressor>(hdr,recursionLevel,packedData,state,verify);
}

LZW4Decompressor::LZW4Decompressor(uint32_t hdr,uint32_t recursionLevel,const Buffer &packedData,std::shared_ptr<XPKDecompressor::State> &state,bool verify) :
	XPKDecompressor(recursionLevel),
	_packedData(packedData)
{
	if (!detectHeaderXPK(hdr)) throw Decompressor::InvalidFormatError();
}

LZW4Decompressor::~LZW4Decompressor()
{
	// nothing needed
}

const std::string &LZW4Decompressor::getSubName() const noexcept
{
	static std::string name="XPK-LZW4: LZW4 CyberYAFA compressor";
	return name;
}

void LZW4Decompressor::decompressImpl(Buffer &rawData,const Buffer &previousData,bool verify)
{
	ForwardInputStream inputStream(_packedData,0,_packedData.size());
	MSBBitReader<ForwardInputStream> bitReader(inputStream);
	auto readBit=[&]()->uint32_t
	{
		return bitReader.readBitsBE32(1);
	};
	auto readByte=[&]()->uint8_t
	{
		return inputStream.readByte();
	};

	ForwardOutputStream outputStream(rawData,0,rawData.size());

	while (!outputStream.eof())
	{
		if (!readBit())
		{
			outputStream.writeByte(readByte());
		} else {
			uint32_t distance=uint32_t(readByte())<<8;
			distance|=uint32_t(readByte());
			if (!distance) throw Decompressor::DecompressionError();
			distance=65536-distance;
			uint32_t count=uint32_t(readByte())+3;

			outputStream.copy(distance,count);
		}
	}
}

}