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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-22 22:13:35 +02:00
vcmi/lib/CCreatureSet.cpp

1077 lines
23 KiB
C++

/*
* CCreatureSet.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 "CCreatureSet.h"
#include "CCreatureHandler.h"
#include "VCMI_Lib.h"
#include "CModHandler.h"
#include "mapObjects/CGHeroInstance.h"
#include "IGameCallback.h"
#include "CGameState.h"
#include "CGeneralTextHandler.h"
#include "spells/CSpellHandler.h"
#include "CHeroHandler.h"
#include "IBonusTypeHandler.h"
#include "serializer/JsonSerializeFormat.h"
#include "NetPacksBase.h"
bool CreatureSlotComparer::operator()(const TPairCreatureSlot & lhs, const TPairCreatureSlot & rhs)
{
return lhs.first->getAIValue() < rhs.first->getAIValue(); // Descendant order sorting
}
const CStackInstance &CCreatureSet::operator[](SlotID slot) const
{
auto i = stacks.find(slot);
if (i != stacks.end())
return *i->second;
else
throw std::runtime_error("That slot is empty!");
}
const CCreature* CCreatureSet::getCreature(SlotID slot) const
{
auto i = stacks.find(slot);
if (i != stacks.end())
return i->second->type;
else
return nullptr;
}
bool CCreatureSet::setCreature(SlotID slot, CreatureID type, TQuantity quantity) /*slots 0 to 6 */
{
if(!slot.validSlot())
{
logGlobal->error("Cannot set slot %d", slot.getNum());
return false;
}
if(!quantity)
{
logGlobal->warn("Using set creature to delete stack?");
eraseStack(slot);
return true;
}
if(hasStackAtSlot(slot)) //remove old creature
eraseStack(slot);
auto armyObj = castToArmyObj();
bool isHypotheticArmy = armyObj ? armyObj->isHypothetic() : false;
putStack(slot, new CStackInstance(type, quantity, isHypotheticArmy));
return true;
}
SlotID CCreatureSet::getSlotFor(CreatureID creature, ui32 slotsAmount) const /*returns -1 if no slot available */
{
return getSlotFor(VLC->creh->objects[creature], slotsAmount);
}
SlotID CCreatureSet::getSlotFor(const CCreature *c, ui32 slotsAmount) const
{
assert(c && c->valid());
for(auto & elem : stacks)
{
assert(elem.second->type->valid());
if(elem.second->type == c)
{
return elem.first; //if there is already such creature we return its slot id
}
}
return getFreeSlot(slotsAmount);
}
bool CCreatureSet::hasCreatureSlots(const CCreature * c, SlotID exclude) const
{
assert(c && c->valid());
for(auto & elem : stacks) // elem is const
{
if(elem.first == exclude) // Check slot
continue;
if(!elem.second || !elem.second->type) // Check creature
continue;
assert(elem.second->type->valid());
if(elem.second->type == c)
return true;
}
return false;
}
std::vector<SlotID> CCreatureSet::getCreatureSlots(const CCreature * c, SlotID exclude, TQuantity ignoreAmount) const
{
assert(c && c->valid());
std::vector<SlotID> result;
for(auto & elem : stacks)
{
if(elem.first == exclude)
continue;
if(!elem.second || !elem.second->type || elem.second->type != c)
continue;
if(elem.second->count == ignoreAmount || elem.second->count < 1)
continue;
assert(elem.second->type->valid());
result.push_back(elem.first);
}
return result;
}
bool CCreatureSet::isCreatureBalanced(const CCreature * c, TQuantity ignoreAmount) const
{
assert(c && c->valid());
TQuantity max = 0;
TQuantity min = std::numeric_limits<TQuantity>::max();
for(auto & elem : stacks)
{
if(!elem.second || !elem.second->type || elem.second->type != c)
continue;
const auto count = elem.second->count;
if(count == ignoreAmount || count < 1)
continue;
assert(elem.second->type->valid());
if(count > max)
max = count;
if(count < min)
min = count;
if(max - min > 1)
return false;
}
return true;
}
SlotID CCreatureSet::getFreeSlot(ui32 slotsAmount) const
{
for(ui32 i=0; i<slotsAmount; i++)
{
if(!vstd::contains(stacks, SlotID(i)))
{
return SlotID(i); //return first free slot
}
}
return SlotID(); //no slot available
}
std::vector<SlotID> CCreatureSet::getFreeSlots(ui32 slotsAmount) const
{
std::vector<SlotID> freeSlots;
for(ui32 i = 0; i < slotsAmount; i++)
{
auto slot = SlotID(i);
if(!vstd::contains(stacks, slot))
freeSlots.push_back(slot);
}
return freeSlots;
}
std::queue<SlotID> CCreatureSet::getFreeSlotsQueue(ui32 slotsAmount) const
{
std::queue<SlotID> freeSlots;
for (ui32 i = 0; i < slotsAmount; i++)
{
auto slot = SlotID(i);
if(!vstd::contains(stacks, slot))
freeSlots.push(slot);
}
return freeSlots;
}
TMapCreatureSlot CCreatureSet::getCreatureMap() const
{
TMapCreatureSlot creatureMap;
TMapCreatureSlot::key_compare keyComp = creatureMap.key_comp();
// https://stackoverflow.com/questions/97050/stdmap-insert-or-stdmap-find
// https://www.cplusplus.com/reference/map/map/key_comp/
for(auto pair : stacks)
{
auto creature = pair.second->type;
auto slot = pair.first;
TMapCreatureSlot::iterator lb = creatureMap.lower_bound(creature);
if(lb != creatureMap.end() && !(keyComp(creature, lb->first)))
continue;
creatureMap.insert(lb, TMapCreatureSlot::value_type(creature, slot));
}
return creatureMap;
}
TCreatureQueue CCreatureSet::getCreatureQueue(SlotID exclude) const
{
TCreatureQueue creatureQueue;
for(auto pair : stacks)
{
if(pair.first == exclude)
continue;
creatureQueue.push(std::make_pair(pair.second->type, pair.first));
}
return creatureQueue;
}
TQuantity CCreatureSet::getStackCount(SlotID slot) const
{
auto i = stacks.find(slot);
if (i != stacks.end())
return i->second->count;
else
return 0; //TODO? consider issuing a warning
}
TExpType CCreatureSet::getStackExperience(SlotID slot) const
{
auto i = stacks.find(slot);
if (i != stacks.end())
return i->second->experience;
else
return 0; //TODO? consider issuing a warning
}
bool CCreatureSet::mergableStacks(std::pair<SlotID, SlotID> &out, SlotID preferable) const /*looks for two same stacks, returns slot positions */
{
//try to match creature to our preferred stack
if(preferable.validSlot() && vstd::contains(stacks, preferable))
{
const CCreature *cr = stacks.find(preferable)->second->type;
for(auto & elem : stacks)
{
if(cr == elem.second->type && elem.first != preferable)
{
out.first = preferable;
out.second = elem.first;
return true;
}
}
}
for(auto i=stacks.begin(); i!=stacks.end(); ++i)
{
for(auto & elem : stacks)
{
if(i->second->type == elem.second->type && i->first != elem.first)
{
out.first = i->first;
out.second = elem.first;
return true;
}
}
}
return false;
}
void CCreatureSet::sweep()
{
for(auto i=stacks.begin(); i!=stacks.end(); ++i)
{
if(!i->second->count)
{
stacks.erase(i);
sweep();
break;
}
}
}
void CCreatureSet::addToSlot(SlotID slot, CreatureID cre, TQuantity count, bool allowMerging)
{
const CCreature *c = VLC->creh->objects[cre];
if(!hasStackAtSlot(slot))
{
setCreature(slot, cre, count);
}
else if(getCreature(slot) == c && allowMerging) //that slot was empty or contained same type creature
{
setStackCount(slot, getStackCount(slot) + count);
}
else
{
logGlobal->error("Failed adding to slot!");
}
}
void CCreatureSet::addToSlot(SlotID slot, CStackInstance *stack, bool allowMerging)
{
assert(stack->valid(true));
if(!hasStackAtSlot(slot))
{
putStack(slot, stack);
}
else if(allowMerging && stack->type == getCreature(slot))
{
joinStack(slot, stack);
}
else
{
logGlobal->error("Cannot add to slot %d stack %s", slot.getNum(), stack->nodeName());
}
}
bool CCreatureSet::validTypes(bool allowUnrandomized) const
{
for(auto & elem : stacks)
{
if(!elem.second->valid(allowUnrandomized))
return false;
}
return true;
}
bool CCreatureSet::slotEmpty(SlotID slot) const
{
return !hasStackAtSlot(slot);
}
bool CCreatureSet::needsLastStack() const
{
return false;
}
ui64 CCreatureSet::getArmyStrength() const
{
ui64 ret = 0;
for(auto & elem : stacks)
ret += elem.second->getPower();
return ret;
}
ui64 CCreatureSet::getPower (SlotID slot) const
{
return getStack(slot).getPower();
}
std::string CCreatureSet::getRoughAmount(SlotID slot, int mode) const
{
/// Mode represent return string format
/// "Pack" - 0, "A pack of" - 1, "a pack of" - 2
int quantity = CCreature::getQuantityID(getStackCount(slot));
if(quantity)
return VLC->generaltexth->arraytxt[(174 + mode) + 3*CCreature::getQuantityID(getStackCount(slot))];
return "";
}
std::string CCreatureSet::getArmyDescription() const
{
std::string text;
std::vector<std::string> guards;
for(auto & elem : stacks)
{
auto str = boost::str(boost::format("%s %s") % getRoughAmount(elem.first, 2) % getCreature(elem.first)->namePl);
guards.push_back(str);
}
if(guards.size())
{
for(int i = 0; i < guards.size(); i++)
{
text += guards[i];
if(i + 2 < guards.size())
text += ", ";
else if(i + 2 == guards.size())
text += VLC->generaltexth->allTexts[237];
}
}
return text;
}
int CCreatureSet::stacksCount() const
{
return static_cast<int>(stacks.size());
}
void CCreatureSet::setFormation(bool tight)
{
formation = tight;
}
void CCreatureSet::setStackCount(SlotID slot, TQuantity count)
{
assert(hasStackAtSlot(slot));
assert(stacks[slot]->count + count > 0);
if (VLC->modh->modules.STACK_EXP && count > stacks[slot]->count)
stacks[slot]->experience = static_cast<TExpType>(stacks[slot]->experience * (count / static_cast<double>(stacks[slot]->count)));
stacks[slot]->count = count;
armyChanged();
}
void CCreatureSet::giveStackExp(TExpType exp)
{
for(TSlots::const_iterator i = stacks.begin(); i != stacks.end(); i++)
i->second->giveStackExp(exp);
}
void CCreatureSet::setStackExp(SlotID slot, TExpType exp)
{
assert(hasStackAtSlot(slot));
stacks[slot]->experience = exp;
}
void CCreatureSet::clear()
{
while(!stacks.empty())
{
eraseStack(stacks.begin()->first);
}
}
const CStackInstance& CCreatureSet::getStack(SlotID slot) const
{
assert(hasStackAtSlot(slot));
return *getStackPtr(slot);
}
const CStackInstance* CCreatureSet::getStackPtr(SlotID slot) const
{
if(hasStackAtSlot(slot))
return stacks.find(slot)->second;
else return nullptr;
}
void CCreatureSet::eraseStack(SlotID slot)
{
assert(hasStackAtSlot(slot));
CStackInstance *toErase = detachStack(slot);
vstd::clear_pointer(toErase);
}
bool CCreatureSet::contains(const CStackInstance *stack) const
{
if(!stack)
return false;
for(auto & elem : stacks)
if(elem.second == stack)
return true;
return false;
}
SlotID CCreatureSet::findStack(const CStackInstance *stack) const
{
auto h = dynamic_cast<const CGHeroInstance *>(this);
if (h && h->commander == stack)
return SlotID::COMMANDER_SLOT_PLACEHOLDER;
if(!stack)
return SlotID();
for(auto & elem : stacks)
if(elem.second == stack)
return elem.first;
return SlotID();
}
CArmedInstance * CCreatureSet::castToArmyObj()
{
return dynamic_cast<CArmedInstance *>(this);
}
void CCreatureSet::putStack(SlotID slot, CStackInstance *stack)
{
assert(slot.getNum() < GameConstants::ARMY_SIZE);
assert(!hasStackAtSlot(slot));
stacks[slot] = stack;
stack->setArmyObj(castToArmyObj());
armyChanged();
}
void CCreatureSet::joinStack(SlotID slot, CStackInstance * stack)
{
const CCreature *c = getCreature(slot);
assert(c == stack->type);
assert(c);
UNUSED(c);
//TODO move stuff
changeStackCount(slot, stack->count);
vstd::clear_pointer(stack);
}
void CCreatureSet::changeStackCount(SlotID slot, TQuantity toAdd)
{
setStackCount(slot, getStackCount(slot) + toAdd);
}
CCreatureSet::CCreatureSet()
{
formation = false;
}
CCreatureSet::CCreatureSet(const CCreatureSet&)
{
assert(0);
}
CCreatureSet::~CCreatureSet()
{
clear();
}
void CCreatureSet::setToArmy(CSimpleArmy &src)
{
clear();
while(src)
{
auto i = src.army.begin();
putStack(i->first, new CStackInstance(i->second.first, i->second.second));
src.army.erase(i);
}
}
CStackInstance * CCreatureSet::detachStack(SlotID slot)
{
assert(hasStackAtSlot(slot));
CStackInstance *ret = stacks[slot];
//if(CArmedInstance *armedObj = castToArmyObj())
if(ret)
{
ret->setArmyObj(nullptr); //detaches from current armyobj
assert(!ret->armyObj); //we failed detaching?
}
stacks.erase(slot);
armyChanged();
return ret;
}
void CCreatureSet::setStackType(SlotID slot, CreatureID type)
{
assert(hasStackAtSlot(slot));
CStackInstance *s = stacks[slot];
s->setType(type);
armyChanged();
}
bool CCreatureSet::canBeMergedWith(const CCreatureSet &cs, bool allowMergingStacks) const
{
if(!allowMergingStacks)
{
int freeSlots = stacksCount() - GameConstants::ARMY_SIZE;
std::set<const CCreature*> cresToAdd;
for(auto & elem : cs.stacks)
{
SlotID dest = getSlotFor(elem.second->type);
if(!dest.validSlot() || hasStackAtSlot(dest))
cresToAdd.insert(elem.second->type);
}
return cresToAdd.size() <= freeSlots;
}
else
{
CCreatureSet cres;
SlotID j;
//get types of creatures that need their own slot
for(auto & elem : cs.stacks)
if ((j = cres.getSlotFor(elem.second->type)).validSlot())
cres.addToSlot(j, elem.second->type->idNumber, 1, true); //merge if possible
//cres.addToSlot(elem.first, elem.second->type->idNumber, 1, true);
for(auto & elem : stacks)
{
if ((j = cres.getSlotFor(elem.second->type)).validSlot())
cres.addToSlot(j, elem.second->type->idNumber, 1, true); //merge if possible
else
return false; //no place found
}
return true; //all stacks found their slots
}
}
bool CCreatureSet::hasStackAtSlot(SlotID slot) const
{
return vstd::contains(stacks, slot);
}
CCreatureSet & CCreatureSet::operator=(const CCreatureSet&cs)
{
assert(0);
return *this;
}
void CCreatureSet::armyChanged()
{
}
void CCreatureSet::serializeJson(JsonSerializeFormat & handler, const std::string & fieldName, const boost::optional<int> fixedSize)
{
if(handler.saving && stacks.empty())
return;
auto a = handler.enterArray(fieldName);
if(handler.saving)
{
size_t sz = 0;
for(const auto & p : stacks)
vstd::amax(sz, p.first.getNum()+1);
if(fixedSize)
vstd::amax(sz, fixedSize.get());
a.resize(sz, JsonNode::JsonType::DATA_STRUCT);
for(const auto & p : stacks)
{
auto s = a.enterStruct(p.first.getNum());
p.second->serializeJson(handler);
}
}
else
{
for(size_t idx = 0; idx < a.size(); idx++)
{
auto s = a.enterStruct(idx);
TQuantity amount = 0;
handler.serializeInt("amount", amount);
if(amount > 0)
{
CStackInstance * new_stack = new CStackInstance();
new_stack->serializeJson(handler);
putStack(SlotID((si32)idx), new_stack);
}
}
}
}
CStackInstance::CStackInstance()
: armyObj(_armyObj)
{
init();
}
CStackInstance::CStackInstance(CreatureID id, TQuantity Count, bool isHypothetic)
: CBonusSystemNode(isHypothetic), armyObj(_armyObj)
{
init();
setType(id);
count = Count;
}
CStackInstance::CStackInstance(const CCreature *cre, TQuantity Count, bool isHypothetic)
: CBonusSystemNode(isHypothetic), armyObj(_armyObj)
{
init();
setType(cre);
count = Count;
}
void CStackInstance::init()
{
experience = 0;
count = 0;
type = nullptr;
idRand = -1;
_armyObj = nullptr;
setNodeType(STACK_INSTANCE);
}
int CStackInstance::getQuantityID() const
{
return CCreature::getQuantityID(count);
}
int CStackInstance::getExpRank() const
{
if (!VLC->modh->modules.STACK_EXP)
return 0;
int tier = type->level;
if (vstd::iswithin(tier, 1, 7))
{
for (int i = (int)VLC->creh->expRanks[tier].size()-2; i >-1; --i)//sic!
{ //exp values vary from 1st level to max exp at 11th level
if (experience >= VLC->creh->expRanks[tier][i])
return ++i; //faster, but confusing - 0 index mean 1st level of experience
}
return 0;
}
else //higher tier
{
for (int i = (int)VLC->creh->expRanks[0].size()-2; i >-1; --i)
{
if (experience >= VLC->creh->expRanks[0][i])
return ++i;
}
return 0;
}
}
int CStackInstance::getLevel() const
{
return std::max (1, (int)type->level);
}
si32 CStackInstance::magicResistance() const
{
si32 val = valOfBonuses(Selector::type()(Bonus::MAGIC_RESISTANCE));
if (const CGHeroInstance * hero = dynamic_cast<const CGHeroInstance *>(_armyObj))
{
//resistance skill
val += hero->valOfBonuses(Bonus::SECONDARY_SKILL_PREMY, SecondarySkill::RESISTANCE);
}
vstd::amin (val, 100);
return val;
}
void CStackInstance::giveStackExp(TExpType exp)
{
int level = type->level;
if (!vstd::iswithin(level, 1, 7))
level = 0;
CCreatureHandler * creh = VLC->creh;
ui32 maxExp = creh->expRanks[level].back();
vstd::amin(exp, (TExpType)maxExp); //prevent exp overflow due to different types
vstd::amin(exp, (maxExp * creh->maxExpPerBattle[level])/100);
vstd::amin(experience += exp, maxExp); //can't get more exp than this limit
}
void CStackInstance::setType(CreatureID creID)
{
if(creID >= 0 && creID < VLC->creh->objects.size())
setType(VLC->creh->objects[creID]);
else
setType((const CCreature*)nullptr);
}
void CStackInstance::setType(const CCreature *c)
{
if(type)
{
detachFrom(const_cast<CCreature*>(type));
if (type->isMyUpgrade(c) && VLC->modh->modules.STACK_EXP)
experience = static_cast<TExpType>(experience * VLC->creh->expAfterUpgrade / 100.0);
}
CStackBasicDescriptor::setType(c);
if(type)
attachTo(const_cast<CCreature*>(type));
}
std::string CStackInstance::bonusToString(const std::shared_ptr<Bonus>& bonus, bool description) const
{
if(Bonus::MAGIC_RESISTANCE == bonus->type)
{
return "";
}
else
{
return VLC->getBth()->bonusToString(bonus, this, description);
}
}
std::string CStackInstance::bonusToGraphics(const std::shared_ptr<Bonus>& bonus) const
{
return VLC->getBth()->bonusToGraphics(bonus);
}
void CStackInstance::setArmyObj(const CArmedInstance * ArmyObj)
{
if(_armyObj)
detachFrom(const_cast<CArmedInstance*>(_armyObj));
_armyObj = ArmyObj;
if(ArmyObj)
attachTo(const_cast<CArmedInstance*>(_armyObj));
}
std::string CStackInstance::getQuantityTXT(bool capitalized) const
{
int quantity = getQuantityID();
if (quantity)
return VLC->generaltexth->arraytxt[174 + quantity*3 - 1 - capitalized];
else
return "";
}
bool CStackInstance::valid(bool allowUnrandomized) const
{
bool isRand = (idRand != -1);
if(!isRand)
{
return (type && type == VLC->creh->objects[type->idNumber]);
}
else
return allowUnrandomized;
}
CStackInstance::~CStackInstance()
{
}
std::string CStackInstance::nodeName() const
{
std::ostringstream oss;
oss << "Stack of " << count << " of ";
if(type)
oss << type->namePl;
else if(idRand >= 0)
oss << "[no type, idRand=" << idRand << "]";
else
oss << "[UNDEFINED TYPE]";
return oss.str();
}
PlayerColor CStackInstance::getOwner() const
{
return _armyObj ? _armyObj->getOwner() : PlayerColor::NEUTRAL;
}
void CStackInstance::deserializationFix()
{
const CCreature *backup = type;
type = nullptr;
setType(backup);
const CArmedInstance *armyBackup = _armyObj;
_armyObj = nullptr;
setArmyObj(armyBackup);
artDeserializationFix(this);
}
CreatureID CStackInstance::getCreatureID() const
{
if(type)
return type->idNumber;
else
return CreatureID::NONE;
}
std::string CStackInstance::getName() const
{
return (count > 1) ? type->namePl : type->nameSing;
}
ui64 CStackInstance::getPower() const
{
assert(type);
return type->AIValue * count;
}
ArtBearer::ArtBearer CStackInstance::bearerType() const
{
return ArtBearer::CREATURE;
}
void CStackInstance::putArtifact(ArtifactPosition pos, CArtifactInstance * art)
{
assert(!getArt(pos));
art->putAt(ArtifactLocation(this, pos));
}
void CStackInstance::serializeJson(JsonSerializeFormat & handler)
{
//todo: artifacts
CStackBasicDescriptor::serializeJson(handler);//must be first
if(handler.saving)
{
if(idRand > -1)
{
int level = (int)idRand / 2;
boost::logic::tribool upgraded = (idRand % 2) > 0;
handler.serializeInt("level", level, 0);
handler.serializeBool("upgraded", upgraded);
}
}
else
{
//type set by CStackBasicDescriptor::serializeJson
if(type == nullptr)
{
int level = 0;
bool upgraded = false;
handler.serializeInt("level", level, 0);
handler.serializeBool("upgraded", upgraded);
idRand = level * 2 + (int)(bool)upgraded;
}
}
}
CCommanderInstance::CCommanderInstance()
{
init();
name = "Unnamed";
}
CCommanderInstance::CCommanderInstance (CreatureID id)
{
init();
setType(id);
name = "Commando"; //TODO - parse them
}
void CCommanderInstance::init()
{
alive = true;
experience = 0;
level = 1;
count = 1;
type = nullptr;
idRand = -1;
_armyObj = nullptr;
setNodeType (CBonusSystemNode::COMMANDER);
secondarySkills.resize (ECommander::SPELL_POWER + 1);
}
CCommanderInstance::~CCommanderInstance()
{
}
void CCommanderInstance::setAlive (bool Alive)
{
//TODO: helm of immortality
alive = Alive;
if (!alive)
{
removeBonusesRecursive(Bonus::UntilCommanderKilled);
}
}
void CCommanderInstance::giveStackExp (TExpType exp)
{
if (alive)
experience += exp;
}
int CCommanderInstance::getExpRank() const
{
return VLC->heroh->level (experience);
}
int CCommanderInstance::getLevel() const
{
return std::max (1, getExpRank());
}
void CCommanderInstance::levelUp ()
{
level++;
for (auto bonus : VLC->creh->commanderLevelPremy)
{ //grant all regular level-up bonuses
accumulateBonus(bonus);
}
}
ArtBearer::ArtBearer CCommanderInstance::bearerType() const
{
return ArtBearer::COMMANDER;
}
bool CCommanderInstance::gainsLevel() const
{
return experience >= (TExpType)VLC->heroh->reqExp(level+1);
}
CStackBasicDescriptor::CStackBasicDescriptor()
{
type = nullptr;
count = -1;
}
CStackBasicDescriptor::CStackBasicDescriptor(CreatureID id, TQuantity Count)
: type (VLC->creh->objects[id]), count(Count)
{
}
CStackBasicDescriptor::CStackBasicDescriptor(const CCreature *c, TQuantity Count)
: type(c), count(Count)
{
}
const Creature * CStackBasicDescriptor::getType() const
{
return type;
}
TQuantity CStackBasicDescriptor::getCount() const
{
return count;
}
void CStackBasicDescriptor::setType(const CCreature * c)
{
type = c;
}
void CStackBasicDescriptor::serializeJson(JsonSerializeFormat & handler)
{
handler.serializeInt("amount", count);
if(handler.saving)
{
if(type)
{
std::string typeName = type->identifier;
handler.serializeString("type", typeName);
}
}
else
{
std::string typeName("");
handler.serializeString("type", typeName);
if(typeName != "")
setType(VLC->creh->getCreature("core", typeName));
}
}
void CSimpleArmy::clear()
{
army.clear();
}
CSimpleArmy::operator bool() const
{
return army.size();
}
bool CSimpleArmy::setCreature(SlotID slot, CreatureID cre, TQuantity count)
{
assert(!vstd::contains(army, slot));
army[slot] = std::make_pair(cre, count);
return true;
}