nchebrov/azerothcore-wotlk
1
0
Fork 0
mirror of https://github.com/mod-playerbots/azerothcore-wotlk.git synced 2026-01-27 15:46:24 +00:00
Code Issues Packages Projects Releases Wiki Activity

Big update.

Browse Source
This commit is contained in:
UltraNix
2022-03-12 22:28:00 +01:00
parent 6006eeeb01
commit 12d41d1314
2064 changed files with 427245 additions and 268481 deletions
Download Patch File Download Diff File Expand all files Collapse all files

382
src/common/Utilities/Util.h
View File

@@ -40,47 +40,12 @@ template<typename T, class S> struct Finder
bool operator()(const std::pair<int, S>& obj) { return obj.second.*idMember_ == val_; }
};
class Tokenizer
{
public:
typedef std::vector<char const*> StorageType;
typedef StorageType::size_type size_type;
typedef StorageType::const_iterator const_iterator;
typedef StorageType::reference reference;
typedef StorageType::const_reference const_reference;
public:
Tokenizer(const std::string& src, char const sep, uint32 vectorReserve = 0);
~Tokenizer() { delete[] m_str; }
[[nodiscard]] const_iterator begin() const { return m_storage.begin(); }
[[nodiscard]] const_iterator end() const { return m_storage.end(); }
[[nodiscard]] size_type size() const { return m_storage.size(); }
reference operator [] (size_type i) { return m_storage[i]; }
const_reference operator [] (size_type i) const { return m_storage[i]; }
private:
char* m_str;
StorageType m_storage;
};
struct tm* localtime_r(time_t const* time, struct tm* result);
time_t LocalTimeToUTCTime(time_t time);
time_t GetLocalHourTimestamp(time_t time, uint8 hour, bool onlyAfterTime = true);
tm TimeBreakdown(time_t t);
void stripLineInvisibleChars(std::string& src);
AC_COMMON_API Optional<int32> MoneyStringToMoney(std::string_view moneyString);
std::string secsToTimeString(uint64 timeInSecs, bool shortText = false);
uint32 TimeStringToSecs(const std::string& timestring);
std::string TimeToTimestampStr(time_t t);
std::string TimeToHumanReadable(time_t t);
inline void ApplyPercentModFloatVar(float& var, float val, bool apply)
{
@@ -113,7 +78,7 @@ inline T ApplyPct(T& base, U pct)
template <class T>
inline T RoundToInterval(T& num, T floor, T ceil)
{
return num = std::min(std::max(num, floor), ceil);
return num = std::min<T>(std::max<T>(num, floor), ceil);
}
// UTF8 handling
@@ -545,11 +510,8 @@ public:
part[2] = right.part[2];
return *this;
}
/* requried as of C++ 11 */
#if __cplusplus >= 201103L
flag96(const flag96&) = default;
flag96(flag96&&) = default;
#endif
inline flag96 operator&(flag96 const& right) const
{
@@ -648,348 +610,6 @@ bool CompareValues(ComparisionType type, T val1, T val2)
}
}
class EventMap
{
typedef std::multimap<uint32, uint32> EventStore;
public:
EventMap() { }
/**
* @name Reset
* @brief Removes all scheduled events and resets time and phase.
*/
void Reset()
{
_eventMap.clear();
_time = 0;
_phase = 0;
}
/**
* @name Update
* @brief Updates the timer of the event map.
* @param time Value to be added to time.
*/
void Update(uint32 time)
{
_time += time;
}
/**
* @name GetTimer
* @return Current timer value.
*/
[[nodiscard]] uint32 GetTimer() const
{
return _time;
}
void SetTimer(uint32 time)
{
_time = time;
}
/**
* @name GetPhaseMask
* @return Active phases as mask.
*/
[[nodiscard]] uint8 GetPhaseMask() const
{
return _phase;
}
/**
* @name Empty
* @return True, if there are no events scheduled.
*/
[[nodiscard]] bool Empty() const
{
return _eventMap.empty();
}
/**
* @name SetPhase
* @brief Sets the phase of the map (absolute).
* @param phase Phase which should be set. Values: 1 - 8. 0 resets phase.
*/
void SetPhase(uint8 phase)
{
if (!phase)
{
_phase = 0;
}
else if (phase <= 8)
{
_phase = (1 << (phase - 1));
}
}
/**
* @name AddPhase
* @brief Activates the given phase (bitwise).
* @param phase Phase which should be activated. Values: 1 - 8
*/
void AddPhase(uint8 phase)
{
if (phase && phase <= 8)
{
_phase |= (1 << (phase - 1));
}
}
/**
* @name RemovePhase
* @brief Deactivates the given phase (bitwise).
* @param phase Phase which should be deactivated. Values: 1 - 8.
*/
void RemovePhase(uint8 phase)
{
if (phase && phase <= 8)
{
_phase &= ~(1 << (phase - 1));
}
}
/**
* @name ScheduleEvent
* @brief Creates new event entry in map.
* @param eventId The id of the new event.
* @param time The time in milliseconds until the event occurs.
* @param group The group which the event is associated to. Has to be between 1 and 8. 0 means it has no group.
* @param phase The phase in which the event can occur. Has to be between 1 and 8. 0 means it can occur in all phases.
*/
void ScheduleEvent(uint32 eventId, uint32 time, uint32 group = 0, uint32 phase = 0)
{
if (group && group <= 8)
{
eventId |= (1 << (group + 15));
}
if (phase && phase <= 8)
{
eventId |= (1 << (phase + 23));
}
_eventMap.insert(EventStore::value_type(_time + time, eventId));
}
/**
* @name RescheduleEvent
* @brief Cancels the given event and reschedules it.
* @param eventId The id of the event.
* @param time The time in milliseconds until the event occurs.
* @param group The group which the event is associated to. Has to be between 1 and 8. 0 means it has no group.
* @param phase The phase in which the event can occur. Has to be between 1 and 8. 0 means it can occur in all phases.
*/
void RescheduleEvent(uint32 eventId, uint32 time, uint32 groupId = 0, uint32 phase = 0)
{
CancelEvent(eventId);
ScheduleEvent(eventId, time, groupId, phase);
}
/**
* @name RescheduleEvent
* @brief Cancels the given event and reschedules it.
* @param eventId The id of the event.
* @param time The time in milliseconds until the event occurs.
* @param group The group which the event is associated to. Has to be between 1 and 8. 0 means it has no group.
* @param phase The phase in which the event can occur. Has to be between 1 and 8. 0 means it can occur in all phases.
*/
void RepeatEvent(uint32 time)
{
_eventMap.insert(EventStore::value_type(_time + time, _lastEvent));
}
/**
* @name ExecuteEvent
* @brief Returns the next event to execute and removes it from map.
* @return Id of the event to execute.
*/
uint32 ExecuteEvent()
{
while (!Empty())
{
EventStore::iterator itr = _eventMap.begin();
if (itr->first > _time)
{
return 0;
}
else if (_phase && (itr->second & 0xFF000000) && !((itr->second >> 24) & _phase))
{
_eventMap.erase(itr);
}
else
{
uint32 eventId = (itr->second & 0x0000FFFF);
_lastEvent = itr->second;
_eventMap.erase(itr);
return eventId;
}
}
return 0;
}
/**
* @name DelayEvents
* @brief Delays all events in the map. If delay is greater than or equal internal timer, delay will be 0.
* @param delay Amount of delay.
*/
void DelayEvents(uint32 delay)
{
_time = delay < _time ? _time - delay : 0;
}
void DelayEventsToMax(uint32 delay, uint32 group)
{
for (EventStore::iterator itr = _eventMap.begin(); itr != _eventMap.end();)
{
if (itr->first < _time + delay && (group == 0 || ((1 << (group + 15)) & itr->second)))
{
ScheduleEvent(itr->second, delay);
_eventMap.erase(itr);
itr = _eventMap.begin();
continue;
}
++itr;
}
}
/**
* @name DelayEvents
* @brief Delay all events of the same group.
* @param delay Amount of delay.
* @param group Group of the events.
*/
void DelayEvents(uint32 delay, uint32 group)
{
if (group > 8 || Empty())
{
return;
}
EventStore delayed;
for (EventStore::iterator itr = _eventMap.begin(); itr != _eventMap.end();)
{
if (!group || (itr->second & (1 << (group + 15))))
{
delayed.insert(EventStore::value_type(itr->first + delay, itr->second));
itr = _eventMap.erase(itr);
continue;
}
++itr;
}
_eventMap.insert(delayed.begin(), delayed.end());
}
/**
* @name CancelEvent
* @brief Cancels all events of the specified id.
* @param eventId Event id to cancel.
*/
void CancelEvent(uint32 eventId)
{
if (Empty())
{
return;
}
for (EventStore::iterator itr = _eventMap.begin(); itr != _eventMap.end();)
{
if (eventId == (itr->second & 0x0000FFFF))
{
itr = _eventMap.erase(itr);
continue;
}
++itr;
}
}
/**
* @name CancelEventGroup
* @brief Cancel events belonging to specified group.
* @param group Group to cancel.
*/
void CancelEventGroup(uint32 group)
{
if (!group || group > 8 || Empty())
{
return;
}
uint32 groupMask = (1 << (group + 15));
for (EventStore::iterator itr = _eventMap.begin(); itr != _eventMap.end();)
{
if (itr->second & groupMask)
{
_eventMap.erase(itr);
itr = _eventMap.begin();
continue;
}
++itr;
}
}
/**
* @name GetNextEventTime
* @brief Returns closest occurence of specified event.
* @param eventId Wanted event id.
* @return Time of found event.
*/
[[nodiscard]] uint32 GetNextEventTime(uint32 eventId) const
{
if (Empty())
{
return 0;
}
for (auto const& itr : _eventMap)
{
if (eventId == (itr.second & 0x0000FFFF))
{
return itr.first;
}
}
return 0;
}
/**
* @name GetNextEventTime
* @return Time of next event.
*/
[[nodiscard]] uint32 GetNextEventTime() const
{
return Empty() ? 0 : _eventMap.begin()->first;
}
/**
* @name IsInPhase
* @brief Returns wether event map is in specified phase or not.
* @param phase Wanted phase.
* @return True, if phase of event map contains specified phase.
*/
bool IsInPhase(uint8 phase)
{
return phase <= 8 && (!phase || _phase & (1 << (phase - 1)));
}
private:
uint32 _time{0};
uint32 _phase{0};
uint32 _lastEvent{0};
EventStore _eventMap;
};
template<typename E>
constexpr typename std::underlying_type<E>::type AsUnderlyingType(E enumValue)
{