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OpenMW/apps/openmw/mwworld/cellstore.cpp
florent.teppe 9a19bb84a4 fixed Clang and whitespace difference with master
2022-09-10 22:58:15 +02:00

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#include "cellstore.hpp"
#include "magiceffects.hpp"
#include <algorithm>
#include <components/debug/debuglog.hpp>
#include <components/misc/tuplehelpers.hpp>
#include <components/esm3/cellstate.hpp>
#include <components/esm3/cellid.hpp>
#include <components/esm3/cellref.hpp>
#include <components/esm3/esmreader.hpp>
#include <components/esm3/esmwriter.hpp>
#include <components/esm3/objectstate.hpp>
#include <components/esm3/containerstate.hpp>
#include <components/esm3/npcstate.hpp>
#include <components/esm3/creaturestate.hpp>
#include <components/esm3/fogstate.hpp>
#include <components/esm3/creaturelevliststate.hpp>
#include <components/esm3/doorstate.hpp>
#include <components/esm3/readerscache.hpp>
#include <components/esm3/loadacti.hpp>
#include <components/esm3/loadalch.hpp>
#include <components/esm3/loadappa.hpp>
#include <components/esm3/loadarmo.hpp>
#include <components/esm3/loadbook.hpp>
#include <components/esm3/loadclot.hpp>
#include <components/esm3/loadcont.hpp>
#include <components/esm3/loadcrea.hpp>
#include <components/esm3/loaddoor.hpp>
#include <components/esm3/loadingr.hpp>
#include <components/esm3/loadlevlist.hpp>
#include <components/esm3/loadligh.hpp>
#include <components/esm3/loadlock.hpp>
#include <components/esm3/loadprob.hpp>
#include <components/esm3/loadrepa.hpp>
#include <components/esm3/loadstat.hpp>
#include <components/esm3/loadweap.hpp>
#include <components/esm3/loadnpc.hpp>
#include <components/esm3/loadmisc.hpp>
#include <components/esm3/loadbody.hpp>
#include <components/esm3/loadench.hpp>
#include "../mwbase/environment.hpp"
#include "../mwbase/luamanager.hpp"
#include "../mwbase/mechanicsmanager.hpp"
#include "../mwbase/world.hpp"
#include "../mwmechanics/creaturestats.hpp"
#include "../mwmechanics/recharge.hpp"
#include "ptr.hpp"
#include "esmloader.hpp"
#include "esmstore.hpp"
#include "class.hpp"
#include "containerstore.hpp"
namespace
{
template <typename Record>
struct RecordToState
{
using StateType = ESM::ObjectState;
};
template <>
struct RecordToState<ESM::NPC>
{
using StateType = ESM::NpcState;
};
template <>
struct RecordToState<ESM::Creature>
{
using StateType = ESM::CreatureState;
};
template <>
struct RecordToState<ESM::Door>
{
using StateType = ESM::DoorState;
};
template <>
struct RecordToState<ESM::Container>
{
using StateType = ESM::ContainerState;
};
template <>
struct RecordToState<ESM::CreatureLevList>
{
using StateType = ESM::CreatureLevListState;
};
template<typename T>
MWWorld::Ptr searchInContainerList(MWWorld::CellRefList<T>& containerList, std::string_view id)
{
for (typename MWWorld::CellRefList<T>::List::iterator iter (containerList.mList.begin());
iter!=containerList.mList.end(); ++iter)
{
MWWorld::Ptr container (&*iter, nullptr);
if (container.getRefData().getCustomData() == nullptr)
continue;
MWWorld::Ptr ptr =
container.getClass().getContainerStore (container).search (id);
if (!ptr.isEmpty())
return ptr;
}
return MWWorld::Ptr();
}
template<typename T>
MWWorld::Ptr searchViaActorId (MWWorld::CellRefList<T>& actorList, int actorId,
MWWorld::CellStore *cell, const std::map<MWWorld::LiveCellRefBase*, MWWorld::CellStore*>& toIgnore)
{
for (typename MWWorld::CellRefList<T>::List::iterator iter (actorList.mList.begin());
iter!=actorList.mList.end(); ++iter)
{
MWWorld::Ptr actor (&*iter, cell);
if (toIgnore.find(&*iter) != toIgnore.end())
continue;
if (actor.getClass().getCreatureStats (actor).matchesActorId (actorId) && actor.getRefData().getCount() > 0)
return actor;
}
return MWWorld::Ptr();
}
template<typename T>
void writeReferenceCollection (ESM::ESMWriter& writer,
const MWWorld::CellRefList<T>& collection)
{
if (!collection.mList.empty())
{
// references
for (typename MWWorld::CellRefList<T>::List::const_iterator
iter (collection.mList.begin());
iter!=collection.mList.end(); ++iter)
{
if (!iter->mData.hasChanged() && !iter->mRef.hasChanged() && iter->mRef.hasContentFile())
{
// Reference that came from a content file and has not been changed -> ignore
continue;
}
if (iter->mData.getCount()==0 && !iter->mRef.hasContentFile())
{
// Deleted reference that did not come from a content file -> ignore
continue;
}
using StateType = typename RecordToState<T>::StateType;
StateType state;
iter->save (state);
// recordId currently unused
writer.writeHNT ("OBJE", collection.mList.front().mBase->sRecordId);
state.save (writer);
}
}
}
template<class RecordType, class T>
void fixRestockingImpl(const T* base, RecordType& state)
{
// Workaround for old saves not containing negative quantities
for(const auto& baseItem : base->mInventory.mList)
{
if(baseItem.mCount < 0)
{
for(auto& item : state.mInventory.mItems)
{
if(item.mCount > 0 && Misc::StringUtils::ciEqual(baseItem.mItem, item.mRef.mRefID))
item.mCount = -item.mCount;
}
}
}
}
template<class RecordType, class T>
void fixRestocking(const T* base, RecordType& state)
{}
template<>
void fixRestocking<>(const ESM::Creature* base, ESM::CreatureState& state)
{
fixRestockingImpl(base, state);
}
template<>
void fixRestocking<>(const ESM::NPC* base, ESM::NpcState& state)
{
fixRestockingImpl(base, state);
}
template<>
void fixRestocking<>(const ESM::Container* base, ESM::ContainerState& state)
{
fixRestockingImpl(base, state);
}
template<typename T>
void readReferenceCollection (ESM::ESMReader& reader,
MWWorld::CellRefList<T>& collection, const ESM::CellRef& cref, const std::map<int, int>& contentFileMap, MWWorld::CellStore* cellstore)
{
const MWWorld::ESMStore& esmStore = MWBase::Environment::get().getWorld()->getStore();
using StateType = typename RecordToState<T>::StateType;
StateType state;
state.mRef = cref;
state.load(reader);
// If the reference came from a content file, make sure this content file is loaded
if (state.mRef.mRefNum.hasContentFile())
{
std::map<int, int>::const_iterator iter =
contentFileMap.find (state.mRef.mRefNum.mContentFile);
if (iter==contentFileMap.end())
return; // content file has been removed -> skip
state.mRef.mRefNum.mContentFile = iter->second;
}
if (!MWWorld::LiveCellRef<T>::checkState (state))
return; // not valid anymore with current content files -> skip
const T *record = esmStore.get<T>().search (state.mRef.mRefID);
if (!record)
return;
if (state.mVersion < 15)
fixRestocking(record, state);
if (state.mVersion < 17)
{
if constexpr (std::is_same_v<T, ESM::Creature>)
MWWorld::convertMagicEffects(state.mCreatureStats, state.mInventory);
else if constexpr (std::is_same_v<T, ESM::NPC>)
MWWorld::convertMagicEffects(state.mCreatureStats, state.mInventory, &state.mNpcStats);
}
else if(state.mVersion < 20)
{
if constexpr (std::is_same_v<T, ESM::Creature> || std::is_same_v<T, ESM::NPC>)
MWWorld::convertStats(state.mCreatureStats);
}
if (state.mRef.mRefNum.hasContentFile())
{
for (typename MWWorld::CellRefList<T>::List::iterator iter (collection.mList.begin());
iter!=collection.mList.end(); ++iter)
if (iter->mRef.getRefNum()==state.mRef.mRefNum && iter->mRef.getRefId() == state.mRef.mRefID)
{
// overwrite existing reference
float oldscale = iter->mRef.getScale();
iter->load (state);
const ESM::Position & oldpos = iter->mRef.getPosition();
const ESM::Position & newpos = iter->mData.getPosition();
const MWWorld::Ptr ptr(&*iter, cellstore);
if ((oldscale != iter->mRef.getScale() || oldpos.asVec3() != newpos.asVec3() || oldpos.rot[0] != newpos.rot[0] || oldpos.rot[1] != newpos.rot[1] || oldpos.rot[2] != newpos.rot[2]) && !ptr.getClass().isActor())
MWBase::Environment::get().getWorld()->moveObject(ptr, newpos.asVec3());
if (!iter->mData.isEnabled())
{
iter->mData.enable();
MWBase::Environment::get().getWorld()->disable(MWWorld::Ptr(&*iter, cellstore));
}
else
MWBase::Environment::get().getLuaManager()->registerObject(MWWorld::Ptr(&*iter, cellstore));
return;
}
Log(Debug::Warning) << "Warning: Dropping reference to " << state.mRef.mRefID << " (invalid content file link)";
return;
}
// new reference
MWWorld::LiveCellRef<T> ref (record);
ref.load (state);
collection.mList.push_back (ref);
MWWorld::LiveCellRefBase* base = &collection.mList.back();
MWBase::Environment::get().getLuaManager()->registerObject(MWWorld::Ptr(base, cellstore));
}
//this function allows us to link a CellRefList<T> to the associated recNameInt, and apply a function
template<typename RecordType, typename Callable>
static void recNameSwitcher(MWWorld::CellRefList<RecordType>& store, ESM::RecNameInts recnNameInt, Callable&& f)
{
if (RecordType::sRecordId == recnNameInt)
{
f(store);
}
}
// helper function for forEachInternal
template<class Visitor, class List>
bool forEachImp (Visitor& visitor, List& list, MWWorld::CellStore* cellStore)
{
for (typename List::List::iterator iter (list.mList.begin()); iter!=list.mList.end();
++iter)
{
if (!MWWorld::CellStore::isAccessible(iter->mData, iter->mRef))
continue;
if (!visitor (MWWorld::Ptr(&*iter, cellStore)))
return false;
}
return true;
}
}
namespace MWWorld
{
struct CellStoreImp
{
CellStoreTuple mRefLists;
template<typename T>
static void assignStoreToIndex(CellStore& stores, CellRefList<T>& refList)
{
const std::size_t storeIndex = CellStore::getTypeIndex<T>();
if (stores.mCellRefLists.size() <= storeIndex)
stores.mCellRefLists.resize(storeIndex + 1);
assert(&refList == &std::get<CellRefList<T>>(stores.mCellStoreImp->mRefLists));
stores.mCellRefLists[storeIndex] = &refList;
}
// listing only objects owned by this cell. Internal use only, you probably want to use forEach() so that moved objects are accounted for.
template<class Visitor>
static bool forEachInternal (Visitor& visitor, MWWorld::CellStore& cellStore)
{
bool returnValue = true;
Misc::tupleForEach(cellStore.mCellStoreImp->mRefLists, [&visitor, &returnValue, &cellStore](auto& store) { returnValue = returnValue && forEachImp(visitor, store, &cellStore); });
return returnValue;
}
};
template <typename X>
void CellRefList<X>::load(ESM::CellRef &ref, bool deleted, const MWWorld::ESMStore &esmStore)
{
const MWWorld::Store<X> &store = esmStore.get<X>();
if (const X *ptr = store.search (ref.mRefID))
{
typename std::list<LiveRef>::iterator iter =
std::find(mList.begin(), mList.end(), ref.mRefNum);
LiveRef liveCellRef (ref, ptr);
if (deleted)
liveCellRef.mData.setDeletedByContentFile(true);
if (iter != mList.end())
*iter = liveCellRef;
else
mList.push_back (liveCellRef);
}
else
{
Log(Debug::Warning)
<< "Warning: could not resolve cell reference '" << ref.mRefID << "'"
<< " (dropping reference)";
}
}
template<typename X> bool operator==(const LiveCellRef<X>& ref, int pRefnum)
{
return (ref.mRef.mRefnum == pRefnum);
}
Ptr CellStore::getCurrentPtr(LiveCellRefBase *ref)
{
MovedRefTracker::iterator found = mMovedToAnotherCell.find(ref);
if (found != mMovedToAnotherCell.end())
return Ptr(ref, found->second);
return Ptr(ref, this);
}
void CellStore::moveFrom(const Ptr &object, CellStore *from)
{
if (mState != State_Loaded)
load();
mHasState = true;
MovedRefTracker::iterator found = mMovedToAnotherCell.find(object.getBase());
if (found != mMovedToAnotherCell.end())
{
// A cell we had previously moved an object to is returning it to us.
assert (found->second == from);
mMovedToAnotherCell.erase(found);
}
else
{
mMovedHere.insert(std::make_pair(object.getBase(), from));
}
updateMergedRefs();
}
MWWorld::Ptr CellStore::moveTo(const Ptr &object, CellStore *cellToMoveTo)
{
if (cellToMoveTo == this)
throw std::runtime_error("moveTo: object is already in this cell");
// We assume that *this is in State_Loaded since we could hardly have reference to a live object otherwise.
if (mState != State_Loaded)
throw std::runtime_error("moveTo: can't move object from a non-loaded cell (how did you get this object anyway?)");
// Ensure that the object actually exists in the cell
if (searchViaRefNum(object.getCellRef().getRefNum()).isEmpty())
throw std::runtime_error("moveTo: object is not in this cell");
MWBase::Environment::get().getLuaManager()->registerObject(MWWorld::Ptr(object.getBase(), cellToMoveTo));
MovedRefTracker::iterator found = mMovedHere.find(object.getBase());
if (found != mMovedHere.end())
{
// Special case - object didn't originate in this cell
// Move it back to its original cell first
CellStore* originalCell = found->second;
assert (originalCell != this);
originalCell->moveFrom(object, this);
mMovedHere.erase(found);
// Now that object is back to its rightful owner, we can move it
if (cellToMoveTo != originalCell)
{
originalCell->moveTo(object, cellToMoveTo);
}
updateMergedRefs();
return MWWorld::Ptr(object.getBase(), cellToMoveTo);
}
cellToMoveTo->moveFrom(object, this);
mMovedToAnotherCell.insert(std::make_pair(object.getBase(), cellToMoveTo));
updateMergedRefs();
return MWWorld::Ptr(object.getBase(), cellToMoveTo);
}
struct MergeVisitor
{
MergeVisitor(std::vector<LiveCellRefBase*>& mergeTo, const std::map<LiveCellRefBase*, MWWorld::CellStore*>& movedHere,
const std::map<LiveCellRefBase*, MWWorld::CellStore*>& movedToAnotherCell)
: mMergeTo(mergeTo)
, mMovedHere(movedHere)
, mMovedToAnotherCell(movedToAnotherCell)
{
}
bool operator() (const MWWorld::Ptr& ptr)
{
if (mMovedToAnotherCell.find(ptr.getBase()) != mMovedToAnotherCell.end())
return true;
mMergeTo.push_back(ptr.getBase());
return true;
}
void merge()
{
for (const auto & [base, _] : mMovedHere)
mMergeTo.push_back(base);
}
private:
std::vector<LiveCellRefBase*>& mMergeTo;
const std::map<LiveCellRefBase*, MWWorld::CellStore*>& mMovedHere;
const std::map<LiveCellRefBase*, MWWorld::CellStore*>& mMovedToAnotherCell;
};
void CellStore::updateMergedRefs()
{
mMergedRefs.clear();
mRechargingItemsUpToDate = false;
MergeVisitor visitor(mMergedRefs, mMovedHere, mMovedToAnotherCell);
CellStoreImp::forEachInternal(visitor, *this);
visitor.merge();
}
bool CellStore::movedHere(const MWWorld::Ptr& ptr) const
{
if (ptr.isEmpty())
return false;
if (mMovedHere.find(ptr.getBase()) != mMovedHere.end())
return true;
return false;
}
CellStore::CellStore(const ESM::Cell* cell, const MWWorld::ESMStore& esmStore, ESM::ReadersCache& readers)
: mStore(esmStore)
, mReaders(readers)
, mCell(cell)
, mState(State_Unloaded)
, mHasState(false)
, mLastRespawn(0, 0)
, mCellStoreImp(std::make_unique<CellStoreImp>())
, mRechargingItemsUpToDate(false)
{
std::apply([this](auto& ...x) {(CellStoreImp::assignStoreToIndex(*this, x), ...); }, mCellStoreImp->mRefLists);
mWaterLevel = cell->mWater;
}
CellStore::~CellStore() = default;
CellStore::CellStore(CellStore&&) = default;
const ESM::Cell *CellStore::getCell() const
{
return mCell;
}
CellStore::State CellStore::getState() const
{
return mState;
}
const std::vector<std::string> &CellStore::getPreloadedIds() const
{
return mIds;
}
bool CellStore::hasState() const
{
return mHasState;
}
bool CellStore::hasId(std::string_view id) const
{
if (mState==State_Unloaded)
return false;
if (mState==State_Preloaded)
return std::binary_search (mIds.begin(), mIds.end(), id);
return searchConst (id).isEmpty();
}
template <typename PtrType>
struct SearchVisitor
{
PtrType mFound;
std::string_view mIdToFind;
bool operator()(const PtrType& ptr)
{
if (ptr.getCellRef().getRefId() == mIdToFind)
{
mFound = ptr;
return false;
}
return true;
}
};
Ptr CellStore::search(std::string_view id)
{
SearchVisitor<MWWorld::Ptr> searchVisitor;
searchVisitor.mIdToFind = id;
forEach(searchVisitor);
return searchVisitor.mFound;
}
ConstPtr CellStore::searchConst(std::string_view id) const
{
SearchVisitor<MWWorld::ConstPtr> searchVisitor;
searchVisitor.mIdToFind = id;
forEachConst(searchVisitor);
return searchVisitor.mFound;
}
Ptr CellStore::searchViaActorId (int id)
{
if (Ptr ptr = ::searchViaActorId (get<ESM::NPC>(), id, this, mMovedToAnotherCell))
return ptr;
if (Ptr ptr = ::searchViaActorId (get<ESM::Creature>(), id, this, mMovedToAnotherCell))
return ptr;
for (const auto& [base, _] : mMovedHere)
{
MWWorld::Ptr actor (base, this);
if (!actor.getClass().isActor())
continue;
if (actor.getClass().getCreatureStats (actor).matchesActorId (id) && actor.getRefData().getCount() > 0)
return actor;
}
return Ptr();
}
class RefNumSearchVisitor
{
const ESM::RefNum& mRefNum;
public:
RefNumSearchVisitor(const ESM::RefNum& refNum) : mRefNum(refNum) {}
Ptr mFound;
bool operator()(const Ptr& ptr)
{
if (ptr.getCellRef().getRefNum() == mRefNum)
{
mFound = ptr;
return false;
}
return true;
}
};
Ptr CellStore::searchViaRefNum (const ESM::RefNum& refNum)
{
RefNumSearchVisitor searchVisitor(refNum);
forEach(searchVisitor);
return searchVisitor.mFound;
}
float CellStore::getWaterLevel() const
{
if (isExterior())
return -1;
return mWaterLevel;
}
void CellStore::setWaterLevel (float level)
{
mWaterLevel = level;
mHasState = true;
}
std::size_t CellStore::count() const
{
return mMergedRefs.size();
}
void CellStore::load ()
{
if (mState!=State_Loaded)
{
if (mState==State_Preloaded)
mIds.clear();
loadRefs ();
mState = State_Loaded;
}
}
void CellStore::preload ()
{
if (mState==State_Unloaded)
{
listRefs ();
mState = State_Preloaded;
}
}
void CellStore::listRefs()
{
assert (mCell);
if (mCell->mContextList.empty())
return; // this is a dynamically generated cell -> skipping.
// Load references from all plugins that do something with this cell.
for (size_t i = 0; i < mCell->mContextList.size(); i++)
{
try
{
// Reopen the ESM reader and seek to the right position.
const std::size_t index = static_cast<std::size_t>(mCell->mContextList[i].index);
const ESM::ReadersCache::BusyItem reader = mReaders.get(index);
mCell->restore(*reader, i);
ESM::CellRef ref;
// Get each reference in turn
ESM::MovedCellRef cMRef;
cMRef.mRefNum.mIndex = 0;
bool deleted = false;
bool moved = false;
while (ESM::Cell::getNextRef(*reader, ref, deleted, cMRef, moved, ESM::Cell::GetNextRefMode::LoadOnlyNotMoved))
{
if (deleted || moved)
continue;
// Don't list reference if it was moved to a different cell.
ESM::MovedCellRefTracker::const_iterator iter =
std::find(mCell->mMovedRefs.begin(), mCell->mMovedRefs.end(), ref.mRefNum);
if (iter != mCell->mMovedRefs.end()) {
continue;
}
Misc::StringUtils::lowerCaseInPlace(ref.mRefID);
mIds.push_back(std::move(ref.mRefID));
}
}
catch (std::exception& e)
{
Log(Debug::Error) << "An error occurred listing references for cell " << getCell()->getDescription() << ": " << e.what();
}
}
// List moved references, from separately tracked list.
for (const auto& [ref, deleted]: mCell->mLeasedRefs)
{
if (!deleted)
mIds.push_back(Misc::StringUtils::lowerCase(ref.mRefID));
}
std::sort (mIds.begin(), mIds.end());
}
void CellStore::loadRefs()
{
assert (mCell);
if (mCell->mContextList.empty())
return; // this is a dynamically generated cell -> skipping.
std::map<ESM::RefNum, std::string> refNumToID; // used to detect refID modifications
// Load references from all plugins that do something with this cell.
for (size_t i = 0; i < mCell->mContextList.size(); i++)
{
try
{
// Reopen the ESM reader and seek to the right position.
const std::size_t index = static_cast<std::size_t>(mCell->mContextList[i].index);
const ESM::ReadersCache::BusyItem reader = mReaders.get(index);
mCell->restore(*reader, i);
ESM::CellRef ref;
ref.mRefNum.unset();
// Get each reference in turn
ESM::MovedCellRef cMRef;
cMRef.mRefNum.mIndex = 0;
bool deleted = false;
bool moved = false;
while (ESM::Cell::getNextRef(*reader, ref, deleted, cMRef, moved, ESM::Cell::GetNextRefMode::LoadOnlyNotMoved))
{
if (moved)
continue;
// Don't load reference if it was moved to a different cell.
ESM::MovedCellRefTracker::const_iterator iter =
std::find(mCell->mMovedRefs.begin(), mCell->mMovedRefs.end(), ref.mRefNum);
if (iter != mCell->mMovedRefs.end()) {
continue;
}
loadRef (ref, deleted, refNumToID);
}
}
catch (std::exception& e)
{
Log(Debug::Error) << "An error occurred loading references for cell " << getCell()->getDescription() << ": " << e.what();
}
}
// Load moved references, from separately tracked list.
for (const auto& leasedRef : mCell->mLeasedRefs)
{
ESM::CellRef &ref = const_cast<ESM::CellRef&>(leasedRef.first);
bool deleted = leasedRef.second;
loadRef (ref, deleted, refNumToID);
}
updateMergedRefs();
}
bool CellStore::isExterior() const
{
return mCell->isExterior();
}
bool CellStore::isQuasiExterior() const
{
return (mCell->mData.mFlags & ESM::Cell::QuasiEx) != 0;
}
Ptr CellStore::searchInContainer(std::string_view id)
{
bool oldState = mHasState;
mHasState = true;
if (Ptr ptr = searchInContainerList (get<ESM::Container>(), id))
return ptr;
if (Ptr ptr = searchInContainerList (get<ESM::Creature>(), id))
return ptr;
if (Ptr ptr = searchInContainerList (get<ESM::NPC>(), id))
return ptr;
mHasState = oldState;
return Ptr();
}
void CellStore::loadRef (ESM::CellRef& ref, bool deleted, std::map<ESM::RefNum, std::string>& refNumToID)
{
Misc::StringUtils::lowerCaseInPlace (ref.mRefID);
const MWWorld::ESMStore& store = mStore;
std::map<ESM::RefNum, std::string>::iterator it = refNumToID.find(ref.mRefNum);
if (it != refNumToID.end())
{
if (it->second != ref.mRefID)
{
// refID was modified, make sure we don't end up with duplicated refs
ESM::RecNameInts foundType = static_cast<ESM::RecNameInts>(store.find(it->second));
if (foundType != 0)
{
Misc::tupleForEach(this->mCellStoreImp->mRefLists,
[&ref, foundType](auto& x) { recNameSwitcher(x, foundType, [&ref](auto& storeIn) { storeIn.remove(ref.mRefNum); }); });
}
}
}
ESM::RecNameInts foundType = static_cast<ESM::RecNameInts>(store.find(ref.mRefID));
bool handledType = false;
if (foundType != 0)
{
Misc::tupleForEach(this->mCellStoreImp->mRefLists, [&ref, &deleted, &store, foundType, &handledType](auto& x) {
recNameSwitcher(x, foundType, [&ref, &deleted, &store, &handledType](auto& storeIn) {
handledType = true;
storeIn.load(ref, deleted, store);
});
});
}
else
{
Log(Debug::Error) << "Cell reference '" + ref.mRefID + "' not found!"; return;
}
if (!handledType)
{
Log(Debug::Error) << "Error: Ignoring reference '" << ref.mRefID << "' of unhandled type";
return;
}
refNumToID[ref.mRefNum] = ref.mRefID;
}
void CellStore::loadState (const ESM::CellState& state)
{
mHasState = true;
if (mCell->mData.mFlags & ESM::Cell::Interior && mCell->mData.mFlags & ESM::Cell::HasWater)
mWaterLevel = state.mWaterLevel;
mLastRespawn = MWWorld::TimeStamp(state.mLastRespawn);
}
void CellStore::saveState (ESM::CellState& state) const
{
state.mId = mCell->getCellId();
if (mCell->mData.mFlags & ESM::Cell::Interior && mCell->mData.mFlags & ESM::Cell::HasWater)
state.mWaterLevel = mWaterLevel;
state.mHasFogOfWar = (mFogState.get() ? 1 : 0);
state.mLastRespawn = mLastRespawn.toEsm();
}
void CellStore::writeFog(ESM::ESMWriter &writer) const
{
if (mFogState.get())
{
mFogState->save(writer, mCell->mData.mFlags & ESM::Cell::Interior);
}
}
void CellStore::readFog(ESM::ESMReader &reader)
{
mFogState = std::make_unique<ESM::FogState>();
mFogState->load(reader);
}
void CellStore::writeReferences (ESM::ESMWriter& writer) const
{
Misc::tupleForEach(this->mCellStoreImp->mRefLists, [&writer](auto& cellRefList) { writeReferenceCollection(writer, cellRefList); });
for (const auto& [base, store] : mMovedToAnotherCell)
{
ESM::RefNum refNum = base->mRef.getRefNum();
ESM::CellId movedTo = store->getCell()->getCellId();
refNum.save(writer, true, "MVRF");
movedTo.save(writer);
}
}
void CellStore::readReferences (ESM::ESMReader& reader, const std::map<int, int>& contentFileMap, GetCellStoreCallback* callback)
{
mHasState = true;
while (reader.isNextSub ("OBJE"))
{
unsigned int unused;
reader.getHT (unused);
// load the RefID first so we know what type of object it is
ESM::CellRef cref;
cref.loadId(reader, true);
int type = MWBase::Environment::get().getWorld()->getStore().find(cref.mRefID);
if (type == 0)
{
Log(Debug::Warning) << "Dropping reference to '" << cref.mRefID << "' (object no longer exists)";
// Skip until the next OBJE or MVRF
while(reader.hasMoreSubs() && !reader.peekNextSub("OBJE") && !reader.peekNextSub("MVRF"))
{
reader.getSubName();
reader.skipHSub();
}
continue;
}
if (type != 0)
{
bool foundCorrespondingStore = false;
Misc::tupleForEach(this->mCellStoreImp->mRefLists, [&reader, this, &cref, &contentFileMap, &foundCorrespondingStore, type](auto&& x) {
recNameSwitcher(x, static_cast<ESM::RecNameInts>(type), [&reader, this, &cref, &contentFileMap, &foundCorrespondingStore](auto& store) {
foundCorrespondingStore = true;
readReferenceCollection(reader, store, cref, contentFileMap, this);
});
});
if (!foundCorrespondingStore)
throw std::runtime_error("unknown type in cell reference section");
}
}
// Do another update here to make sure objects referred to by MVRF tags can be found
// This update is only needed for old saves that used the old copy&delete way of moving objects
updateMergedRefs();
while (reader.isNextSub("MVRF"))
{
reader.cacheSubName();
ESM::RefNum refnum;
ESM::CellId movedTo;
refnum.load(reader, true, "MVRF");
movedTo.load(reader);
if (refnum.hasContentFile())
{
auto iter = contentFileMap.find(refnum.mContentFile);
if (iter != contentFileMap.end())
refnum.mContentFile = iter->second;
}
// Search for the reference. It might no longer exist if its content file was removed.
Ptr movedRef = searchViaRefNum(refnum);
if (movedRef.isEmpty())
{
Log(Debug::Warning) << "Warning: Dropping moved ref tag for " << refnum.mIndex << " (moved object no longer exists)";
continue;
}
CellStore* otherCell = callback->getCellStore(movedTo);
if (otherCell == nullptr)
{
Log(Debug::Warning) << "Warning: Dropping moved ref tag for " << movedRef.getCellRef().getRefId()
<< " (target cell " << movedTo.mWorldspace << " no longer exists). Reference moved back to its original location.";
// Note by dropping tag the object will automatically re-appear in its original cell, though potentially at inapproriate coordinates.
// Restore original coordinates:
movedRef.getRefData().setPosition(movedRef.getCellRef().getPosition());
continue;
}
if (otherCell == this)
{
// Should never happen unless someone's tampering with files.
Log(Debug::Warning) << "Found invalid moved ref, ignoring";
continue;
}
moveTo(movedRef, otherCell);
}
}
bool operator== (const CellStore& left, const CellStore& right)
{
return left.getCell()->getCellId()==right.getCell()->getCellId();
}
bool operator!= (const CellStore& left, const CellStore& right)
{
return !(left==right);
}
void CellStore::setFog(std::unique_ptr<ESM::FogState>&& fog)
{
mFogState = std::move(fog);
}
ESM::FogState* CellStore::getFog() const
{
return mFogState.get();
}
void clearCorpse(const MWWorld::Ptr& ptr)
{
const MWMechanics::CreatureStats& creatureStats = ptr.getClass().getCreatureStats(ptr);
static const float fCorpseClearDelay = MWBase::Environment::get().getWorld()->getStore().get<ESM::GameSetting>().find("fCorpseClearDelay")->mValue.getFloat();
if (creatureStats.isDead() &&
creatureStats.isDeathAnimationFinished() &&
!ptr.getClass().isPersistent(ptr) &&
creatureStats.getTimeOfDeath() + fCorpseClearDelay <= MWBase::Environment::get().getWorld()->getTimeStamp())
{
MWBase::Environment::get().getWorld()->deleteObject(ptr);
}
}
void CellStore::rest(double hours)
{
if (mState == State_Loaded)
{
for (CellRefList<ESM::Creature>::List::iterator it (get<ESM::Creature>().mList.begin()); it!=get<ESM::Creature>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
if (!ptr.isEmpty() && ptr.getRefData().getCount() > 0)
{
MWBase::Environment::get().getMechanicsManager()->restoreDynamicStats(ptr, hours, true);
}
}
for (CellRefList<ESM::NPC>::List::iterator it (get<ESM::NPC>().mList.begin()); it!=get<ESM::NPC>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
if (!ptr.isEmpty() && ptr.getRefData().getCount() > 0)
{
MWBase::Environment::get().getMechanicsManager()->restoreDynamicStats(ptr, hours, true);
}
}
}
}
void CellStore::recharge(float duration)
{
if (duration <= 0)
return;
if (mState == State_Loaded)
{
for (CellRefList<ESM::Creature>::List::iterator it (get<ESM::Creature>().mList.begin()); it!=get<ESM::Creature>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
if (!ptr.isEmpty() && ptr.getRefData().getCount() > 0)
{
ptr.getClass().getContainerStore(ptr).rechargeItems(duration);
}
}
for (CellRefList<ESM::NPC>::List::iterator it (get<ESM::NPC>().mList.begin()); it!=get<ESM::NPC>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
if (!ptr.isEmpty() && ptr.getRefData().getCount() > 0)
{
ptr.getClass().getContainerStore(ptr).rechargeItems(duration);
}
}
for (CellRefList<ESM::Container>::List::iterator it (get<ESM::Container>().mList.begin()); it!=get<ESM::Container>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
if (!ptr.isEmpty() && ptr.getRefData().getCustomData() != nullptr && ptr.getRefData().getCount() > 0
&& ptr.getClass().getContainerStore(ptr).isResolved())
{
ptr.getClass().getContainerStore(ptr).rechargeItems(duration);
}
}
rechargeItems(duration);
}
}
void CellStore::respawn()
{
if (mState == State_Loaded)
{
static const int iMonthsToRespawn = MWBase::Environment::get().getWorld()->getStore().get<ESM::GameSetting>().find("iMonthsToRespawn")->mValue.getInteger();
if (MWBase::Environment::get().getWorld()->getTimeStamp() - mLastRespawn > 24*30*iMonthsToRespawn)
{
mLastRespawn = MWBase::Environment::get().getWorld()->getTimeStamp();
for (CellRefList<ESM::Container>::List::iterator it (get<ESM::Container>().mList.begin()); it!=get<ESM::Container>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
ptr.getClass().respawn(ptr);
}
}
for (CellRefList<ESM::Creature>::List::iterator it (get<ESM::Creature>().mList.begin()); it!=get<ESM::Creature>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
clearCorpse(ptr);
ptr.getClass().respawn(ptr);
}
for (CellRefList<ESM::NPC>::List::iterator it (get<ESM::NPC>().mList.begin()); it!=get<ESM::NPC>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
clearCorpse(ptr);
ptr.getClass().respawn(ptr);
}
for (CellRefList<ESM::CreatureLevList>::List::iterator it (get<ESM::CreatureLevList>().mList.begin()); it!=get<ESM::CreatureLevList>().mList.end(); ++it)
{
Ptr ptr = getCurrentPtr(&*it);
// no need to clearCorpse, handled as part of get<ESM::Creature>()
ptr.getClass().respawn(ptr);
}
}
}
void MWWorld::CellStore::rechargeItems(float duration)
{
if (!mRechargingItemsUpToDate)
{
updateRechargingItems();
mRechargingItemsUpToDate = true;
}
for (const auto& [item, charge] : mRechargingItems)
{
MWMechanics::rechargeItem(item, charge, duration);
}
}
void MWWorld::CellStore::updateRechargingItems()
{
mRechargingItems.clear();
const auto update = [this](auto& list)
{
for (auto & item : list)
{
Ptr ptr = getCurrentPtr(&item);
if (!ptr.isEmpty() && ptr.getRefData().getCount() > 0)
{
checkItem(ptr);
}
}
};
update(get<ESM::Weapon>().mList);
update(get<ESM::Armor>().mList);
update(get<ESM::Clothing>().mList);
update(get<ESM::Book>().mList);
}
void MWWorld::CellStore::checkItem(const Ptr& ptr)
{
std::string_view enchantmentId = ptr.getClass().getEnchantment(ptr);
if (enchantmentId.empty())
return;
const ESM::Enchantment* enchantment = MWBase::Environment::get().getWorld()->getStore().get<ESM::Enchantment>().search(enchantmentId);
if (!enchantment)
{
Log(Debug::Warning) << "Warning: Can't find enchantment '" << enchantmentId << "' on item " << ptr.getCellRef().getRefId();
return;
}
if (enchantment->mData.mType == ESM::Enchantment::WhenUsed
|| enchantment->mData.mType == ESM::Enchantment::WhenStrikes)
mRechargingItems.emplace_back(ptr.getBase(), static_cast<float>(enchantment->mData.mCharge));
}
Ptr MWWorld::CellStore::getMovedActor(int actorId) const
{
for(const auto& [cellRef, cell] : mMovedToAnotherCell)
{
if(cellRef->mClass->isActor() && cellRef->mData.getCustomData())
{
Ptr actor(cellRef, cell);
if(actor.getClass().getCreatureStats(actor).getActorId() == actorId)
return actor;
}
}
return {};
}
}
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