/*
 * MapReaderH3M.cpp, part of VCMI engine
 *
 * Authors: listed in file AUTHORS in main folder
 *
 * License: GNU General Public License v2.0 or later
 * Full text of license available in license.txt file, in main folder
 *
 */

#include "StdInc.h"
#include "MapReaderH3M.h"

#include "../filesystem/CBinaryReader.h"
#include "../int3.h"
#include "../mapObjects/ObjectTemplate.h"

VCMI_LIB_NAMESPACE_BEGIN

template<>
BuildingID MapReaderH3M::remapIdentifier(const BuildingID & identifier)
{
	return identifier;
}

template<>
GameResID MapReaderH3M::remapIdentifier(const GameResID & identifier)
{
	return identifier;
}

template<>
SpellID MapReaderH3M::remapIdentifier(const SpellID & identifier)
{
	return identifier;
}

template<>
PlayerColor MapReaderH3M::remapIdentifier(const PlayerColor & identifier)
{
	return identifier;
}

template<class Identifier>
Identifier MapReaderH3M::remapIdentifier(const Identifier & identifier)
{
	return remapper.remap(identifier);
}

MapReaderH3M::MapReaderH3M(CInputStream * stream)
	: reader(std::make_unique<CBinaryReader>(stream))
{
}

void MapReaderH3M::setFormatLevel(const MapFormatFeaturesH3M & newFeatures)
{
	features = newFeatures;
}

void MapReaderH3M::setIdentifierRemapper(const MapIdentifiersH3M & newRemapper)
{
	remapper = newRemapper;
}

ArtifactID MapReaderH3M::readArtifact()
{
	ArtifactID result;

	if(features.levelAB)
		result = ArtifactID(reader->readUInt16());
	else
		result = ArtifactID(reader->readUInt8());

	if(result.getNum() == features.artifactIdentifierInvalid)
		return ArtifactID::NONE;

	if (result.getNum() < features.artifactsCount)
		return remapIdentifier(result);

	logGlobal->warn("Map contains invalid artifact %d. Will be removed!", result.getNum());
	return ArtifactID::NONE;
}

ArtifactID MapReaderH3M::readArtifact32()
{
	ArtifactID result(reader->readInt32());

	if(result == ArtifactID::NONE)
		return ArtifactID::NONE;

	if (result.getNum() < features.artifactsCount)
		return remapIdentifier(result);

	logGlobal->warn("Map contains invalid artifact %d. Will be removed!", result.getNum());
	return ArtifactID::NONE;
}

HeroTypeID MapReaderH3M::readHero()
{
	HeroTypeID result(reader->readUInt8());

	if(result.getNum() == features.heroIdentifierInvalid)
		return HeroTypeID(-1);

	assert(result.getNum() < features.heroesCount);
	return remapIdentifier(result);
}

int32_t MapReaderH3M::readHeroPortrait()
{
	HeroTypeID result(reader->readUInt8());

	if(result.getNum() == features.heroIdentifierInvalid)
		return int32_t(-1);

	assert(result.getNum() < features.heroesPortraitsCount);
	return remapper.remapPortrrait(result);
}

CreatureID MapReaderH3M::readCreature()
{
	CreatureID result;

	if(features.levelAB)
		result = CreatureID(reader->readUInt16());
	else
		result = CreatureID(reader->readUInt8());

	if(result.getNum() == features.creatureIdentifierInvalid)
		return CreatureID::NONE;

	if(result.getNum() < features.creaturesCount)
		return remapIdentifier(result);;

	// this may be random creature in army/town, to be randomized later
	CreatureID randomIndex(result.getNum() - features.creatureIdentifierInvalid - 1);
	assert(randomIndex < CreatureID::NONE);

	if (randomIndex.getNum() > -16)
		return randomIndex;

	logGlobal->warn("Map contains invalid creature %d. Will be removed!", result.getNum());
	return CreatureID::NONE;
}

TerrainId MapReaderH3M::readTerrain()
{
	TerrainId result(readUInt8());
	assert(result.getNum() < features.terrainsCount);
	return remapIdentifier(result);;
}

RoadId MapReaderH3M::readRoad()
{
	RoadId result(readInt8());
	assert(result.getNum() <= features.roadsCount);
	return result;
}

RiverId MapReaderH3M::readRiver()
{
	RiverId result(readInt8());
	assert(result.getNum() <= features.riversCount);
	return result;
}

SecondarySkill MapReaderH3M::readSkill()
{
	SecondarySkill result(readUInt8());
	assert(result.getNum() < features.skillsCount);
	return remapIdentifier(result);;
}

SpellID MapReaderH3M::readSpell()
{
	SpellID result(readUInt8());
	if(result.getNum() == features.spellIdentifierInvalid)
		return SpellID::NONE;
	if(result.getNum() == features.spellIdentifierInvalid - 1)
		return SpellID::PRESET;

	assert(result.getNum() < features.spellsCount);
	return remapIdentifier(result);;
}

SpellID MapReaderH3M::readSpell32()
{
	SpellID result(readInt32());
	if(result.getNum() == features.spellIdentifierInvalid)
		return SpellID::NONE;
	assert(result.getNum() < features.spellsCount);
	return result;
}

PlayerColor MapReaderH3M::readPlayer()
{
	uint8_t value = readUInt8();

	if (value == 255)
		return PlayerColor::NEUTRAL;

	assert(value < PlayerColor::PLAYER_LIMIT_I);
	return PlayerColor(value);
}

PlayerColor MapReaderH3M::readPlayer32()
{
	uint32_t value = readUInt32();

	if (value == 255)
		return PlayerColor::NEUTRAL;

	assert(value < PlayerColor::PLAYER_LIMIT_I);
	return PlayerColor(value);
}

void MapReaderH3M::readBitmaskBuildings(std::set<BuildingID> & dest, std::optional<FactionID> faction)
{
	std::set<BuildingID> h3m;
	readBitmask(h3m, features.buildingsBytes, features.buildingsCount, false);

	for (auto const & h3mEntry : h3m)
	{
		BuildingID mapped = remapper.remapBuilding(faction, h3mEntry);

		if (mapped != BuildingID::NONE) // artifact merchant may be set in random town, but not present in actual town
			dest.insert(mapped);
	}
}

void MapReaderH3M::readBitmaskFactions(std::set<FactionID> & dest, bool invert)
{
	readBitmask(dest, features.factionsBytes, features.factionsCount, invert);
}

void MapReaderH3M::readBitmaskPlayers(std::set<PlayerColor> & dest, bool invert)
{
	readBitmask(dest, 1, 8, invert);
}

void MapReaderH3M::readBitmaskResources(std::set<GameResID> & dest, bool invert)
{
	readBitmask(dest, features.resourcesBytes, features.resourcesCount, invert);
}

void MapReaderH3M::readBitmaskHeroClassesSized(std::set<HeroClassID> & dest, bool invert)
{
	uint32_t classesCount = reader->readUInt32();
	uint32_t classesBytes = (classesCount + 7) / 8;

	readBitmask(dest, classesBytes, classesCount, invert);
}

void MapReaderH3M::readBitmaskHeroes(std::vector<bool> & dest, bool invert)
{
	readBitmask<HeroTypeID>(dest, features.heroesBytes, features.heroesCount, invert);
}

void MapReaderH3M::readBitmaskHeroesSized(std::vector<bool> & dest, bool invert)
{
	uint32_t heroesCount = readUInt32();
	uint32_t heroesBytes = (heroesCount + 7) / 8;
	assert(heroesCount <= features.heroesCount);

	readBitmask<HeroTypeID>(dest, heroesBytes, heroesCount, invert);
}

void MapReaderH3M::readBitmaskArtifacts(std::vector<bool> &dest, bool invert)
{
	readBitmask<ArtifactID>(dest, features.artifactsBytes, features.artifactsCount, invert);
}

void MapReaderH3M::readBitmaskArtifactsSized(std::vector<bool> &dest, bool invert)
{
	uint32_t artifactsCount = reader->readUInt32();
	uint32_t artifactsBytes = (artifactsCount + 7) / 8;
	assert(artifactsCount <= features.artifactsCount);

	readBitmask<ArtifactID>(dest, artifactsBytes, artifactsCount, invert);
}

void MapReaderH3M::readBitmaskSpells(std::vector<bool> & dest, bool invert)
{
	readBitmask<SpellID>(dest, features.spellsBytes, features.spellsCount, invert);
}

void MapReaderH3M::readBitmaskSpells(std::set<SpellID> & dest, bool invert)
{
	readBitmask(dest, features.spellsBytes, features.spellsCount, invert);
}

void MapReaderH3M::readBitmaskSkills(std::vector<bool> & dest, bool invert)
{
	readBitmask<SecondarySkill>(dest, features.skillsBytes, features.skillsCount, invert);
}

void MapReaderH3M::readBitmaskSkills(std::set<SecondarySkill> & dest, bool invert)
{
	readBitmask(dest, features.skillsBytes, features.skillsCount, invert);
}

template<class Identifier>
void MapReaderH3M::readBitmask(std::vector<bool> & dest, const int bytesToRead, const int objectsToRead, bool invert)
{
	for(int byte = 0; byte < bytesToRead; ++byte)
	{
		const ui8 mask = reader->readUInt8();
		for(int bit = 0; bit < 8; ++bit)
		{
			if(byte * 8 + bit < objectsToRead)
			{
				const size_t index = byte * 8 + bit;
				const bool flag = mask & (1 << bit);
				const bool result = (flag != invert);

				Identifier h3mID(index);
				Identifier vcmiID = remapIdentifier(h3mID);

				if (vcmiID.getNum() >= dest.size())
					dest.resize(vcmiID.getNum() + 1);
				dest[vcmiID.getNum()] = result;
			}
		}
	}
}

template<class Identifier>
void MapReaderH3M::readBitmask(std::set<Identifier> & dest, int bytesToRead, int objectsToRead, bool invert)
{
	std::vector<bool> bitmap;
	bitmap.resize(objectsToRead, false);
	readBitmask<Identifier>(bitmap, bytesToRead, objectsToRead, invert);

	for(int i = 0; i < bitmap.size(); i++)
		if(bitmap[i])
			dest.insert(static_cast<Identifier>(i));
}

int3 MapReaderH3M::readInt3()
{
	int3 p;
	p.x = reader->readUInt8();
	p.y = reader->readUInt8();
	p.z = reader->readUInt8();
	return p;
}

std::shared_ptr<ObjectTemplate> MapReaderH3M::readObjectTemplate()
{
	auto tmpl = std::make_shared<ObjectTemplate>();
	tmpl->readMap(*reader);
	remapper.remapTemplate(*tmpl);
	return tmpl;
}

void MapReaderH3M::skipUnused(size_t amount)
{
	reader->skip(amount);
}

void MapReaderH3M::skipZero(size_t amount)
{
#ifdef NDEBUG
	skipUnused(amount);
#else
	for(size_t i = 0; i < amount; ++i)
	{
		uint8_t value = reader->readUInt8();
		assert(value == 0);
	}
#endif
}

void MapReaderH3M::readResourses(TResources & resources)
{
	for(int x = 0; x < features.resourcesCount; ++x)
		resources[x] = reader->readInt32();
}

bool MapReaderH3M::readBool()
{
	uint8_t result = readUInt8();
	assert(result == 0 || result == 1);

	return result != 0;
}

ui8 MapReaderH3M::readUInt8()
{
	return reader->readUInt8();
}

si8 MapReaderH3M::readInt8()
{
	return reader->readInt8();
}

ui16 MapReaderH3M::readUInt16()
{
	return reader->readUInt16();
}

si16 MapReaderH3M::readInt16()
{
	return reader->readInt16();
}

ui32 MapReaderH3M::readUInt32()
{
	return reader->readUInt32();
}

si32 MapReaderH3M::readInt32()
{
	return reader->readInt32();
}

std::string MapReaderH3M::readBaseString()
{
	return reader->readBaseString();
}

CBinaryReader & MapReaderH3M::getInternalReader()
{
	return *reader;
}

VCMI_LIB_NAMESPACE_END