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cuberite-2a/src/MobProximityCounter.cpp
peterbell10 950aeffff8
CheckBasicStyle: Check number of empty lines between functions (#4267)
Add check for number of empty lines between functions and fix the corresponding failures
2018-07-26 22:24:36 +01:00

96 lines
2.5 KiB
C++

#include "Globals.h" // NOTE: MSVC stupidness requires this to be the same across all modules
#include "MobProximityCounter.h"
#include "Entities/Entity.h"
#include "Chunk.h"
void cMobProximityCounter::CollectMob(cEntity & a_Monster, cChunk & a_Chunk, double a_Distance)
{
// LOGD("Collecting monster %s, with distance %f", a_Monster->GetClass(), a_Distance);
tMonsterToDistance::iterator it = m_MonsterToDistance.find(&a_Monster);
if (it == m_MonsterToDistance.end())
{
sDistanceAndChunk newDistanceAndChunk(a_Distance, a_Chunk);
std::pair<tMonsterToDistance::iterator, bool> result = m_MonsterToDistance.insert(tMonsterToDistance::value_type(&a_Monster, newDistanceAndChunk));
if (!result.second)
{
ASSERT(!"A collected Monster was not found inside distance map using find(), but insert() said there already is a key for it");
}
}
else
{
if (a_Distance < it->second.m_Distance)
{
it->second.m_Distance = a_Distance;
it->second.m_Chunk = &a_Chunk;
}
}
m_EligibleForSpawnChunks.insert(&a_Chunk);
}
void cMobProximityCounter::convertMaps()
{
for (tMonsterToDistance::const_iterator itr = m_MonsterToDistance.begin(); itr != m_MonsterToDistance.end(); ++itr)
{
m_DistanceToMonster.insert(tDistanceToMonster::value_type(itr->second.m_Distance, sMonsterAndChunk(*itr->first, *itr->second.m_Chunk)));
}
}
cMobProximityCounter::sIterablePair cMobProximityCounter::getMobWithinThosesDistances(double a_DistanceMin, double a_DistanceMax)
{
sIterablePair toReturn;
toReturn.m_Count = 0;
toReturn.m_Begin = m_DistanceToMonster.end();
toReturn.m_End = m_DistanceToMonster.end();
a_DistanceMin *= a_DistanceMin;// this is because is use square distance
a_DistanceMax *= a_DistanceMax;
if (m_DistanceToMonster.empty())
{
convertMaps();
}
for (tDistanceToMonster::const_iterator itr = m_DistanceToMonster.begin(); itr != m_DistanceToMonster.end(); ++itr)
{
if (toReturn.m_Begin == m_DistanceToMonster.end())
{
if ((a_DistanceMin == 1.0) || (itr->first > a_DistanceMin))
{
toReturn.m_Begin = itr; // This is the first one with distance > a_DistanceMin;
}
}
if (toReturn.m_Begin != m_DistanceToMonster.end())
{
if ((a_DistanceMax != 1.0) && (itr->first > a_DistanceMax))
{
toReturn.m_End = itr; // This is just after the last one with distance < a_DistanceMax
// Note : if we are not going through this, it's ok, toReturn.m_End will be end();
break;
}
else
{
toReturn.m_Count ++;
}
}
}
return toReturn;
}