#include "Globals.h"
#include "PathFinder.h"
#include "../BlockInfo.h"
#include "../Chunk.h"
cPathFinder::cPathFinder(double a_MobWidth, double a_MobHeight) :
m_Path(),
m_GiveUpCounter(0),
m_NotFoundCooldown(0)
{
m_Width = a_MobWidth;
m_Height = a_MobHeight;
}
ePathFinderStatus cPathFinder::GetNextWayPoint(cChunk & a_Chunk, const Vector3d & a_Source, Vector3d * a_Destination, Vector3d * a_OutputWaypoint, bool a_DontCare)
{
m_FinalDestination = *a_Destination;
m_Source = a_Source;
// If a recent PATH_NOT_FOUND was returned, we rest for a few ticks.
if (m_NotFoundCooldown > 0)
{
m_NotFoundCooldown -= 1;
return ePathFinderStatus::CALCULATING;
}
// Tweak the destination. If something is wrong with the destination or the chunk, rest for a while.
if (!(EnsureProperPoint(m_FinalDestination, a_Chunk) && EnsureProperPoint(m_Source, a_Chunk)))
{
m_NotFoundCooldown = 20;
return ePathFinderStatus::PATH_NOT_FOUND;
}
/* printf("%d %d %d -> %d %d %d\n",
static_cast<int>(m_Source.x),
static_cast<int>(m_Source.y),
static_cast<int>(m_Source.z),
static_cast<int>(m_FinalDestination.x),
static_cast<int>(m_FinalDestination.y),
static_cast<int>(m_FinalDestination.z)); */
// Rest is over. Prepare m_Path by calling ResetPathFinding.
if (m_NotFoundCooldown == 0)
{
m_NotFoundCooldown = -1;
ResetPathFinding(a_Chunk);
}
// If m_Path has not been initialized yet, initialize it.
if (!m_Path->IsValid())
{
ResetPathFinding(a_Chunk);
}
switch (m_Path->CalculationStep(a_Chunk))
{
case ePathFinderStatus::NEARBY_FOUND:
{
m_NoPathToTarget = true;
m_PathDestination = m_Path->AcceptNearbyPath();
if (a_DontCare)
{
m_FinalDestination = m_PathDestination;
*a_Destination = m_FinalDestination; // Modify the mob's final destination because it doesn't care about reaching an exact spot
}
else
{
m_DeviationOrigin = m_FinalDestination; // This is the only case in which m_DeviationOrigin != m_PathDestination
}
return ePathFinderStatus::CALCULATING;
// The next call will trigger the PATH_FOUND case
}
case ePathFinderStatus::PATH_NOT_FOUND:
{
m_NotFoundCooldown = 20;
return ePathFinderStatus::PATH_NOT_FOUND;
}
case ePathFinderStatus::CALCULATING:
{
return ePathFinderStatus::CALCULATING;
}
case ePathFinderStatus::PATH_FOUND:
{
m_GiveUpCounter -= 1;
if (m_GiveUpCounter == 0)
{
if (a_DontCare)
{
// We're having trouble reaching the next waypoint but the mob
// Doesn't care where to go, just tell him we got there ;)
m_FinalDestination = m_Source;
*a_Destination = m_FinalDestination;
ResetPathFinding(a_Chunk);
return ePathFinderStatus::CALCULATING;
}
else
{
ResetPathFinding(a_Chunk);
return ePathFinderStatus::CALCULATING;
}
}
if (PathIsTooOld())
{
ResetPathFinding(a_Chunk);
return ePathFinderStatus::CALCULATING;
}
if (m_Path->NoMoreWayPoints())
{
// We're always heading towards m_PathDestination.
// If m_PathDestination is exactly m_FinalDestination, then we're about to reach the destination.
if (m_PathDestination == m_FinalDestination)
{
*a_OutputWaypoint = m_FinalDestination;
return ePathFinderStatus::PATH_FOUND;
}
else
{
// Otherwise, we've finished our approximate path and time to recalc.
ResetPathFinding(a_Chunk);
return ePathFinderStatus::CALCULATING;
}
}
Vector3d Waypoint(m_WayPoint);
Vector3d Source(m_Source);
Waypoint.y = 0;
Source.y = 0;
if (m_Path->IsFirstPoint() || (((Waypoint - Source).SqrLength() < WAYPOINT_RADIUS) && (m_Source.y >= m_WayPoint.y)))
{
// if the mob has just started or if the mob reached a waypoint, give them a new waypoint.
m_WayPoint = m_Path->GetNextPoint();
m_GiveUpCounter = 40;
return ePathFinderStatus::PATH_FOUND;
}
else
{
// Otherwise, the mob is still walking towards its waypoint, we'll patiently wait. We won't update m_WayPoint.
*a_OutputWaypoint = m_WayPoint;
return ePathFinderStatus::PATH_FOUND;
}
}
}
UNREACHABLE("Unsupported path finder status");
}
void cPathFinder::ResetPathFinding(cChunk &a_Chunk)
{
m_GiveUpCounter = 40;
m_NoPathToTarget = false;
m_PathDestination = m_FinalDestination;
m_DeviationOrigin = m_PathDestination;
m_Path.reset(new cPath(a_Chunk, m_Source, m_PathDestination, 20, m_Width, m_Height));
}
bool cPathFinder::EnsureProperPoint(Vector3d & a_Vector, cChunk & a_Chunk)
{
cChunk * Chunk = a_Chunk.GetNeighborChunk(FloorC(a_Vector.x), FloorC(a_Vector.z));
BLOCKTYPE BlockType;
NIBBLETYPE BlockMeta;
if ((Chunk == nullptr) || !Chunk->IsValid())
{
return false;
}
int RelX = FloorC(a_Vector.x) - Chunk->GetPosX() * cChunkDef::Width;
int RelZ = FloorC(a_Vector.z) - Chunk->GetPosZ() * cChunkDef::Width;
// If destination in the air, first try to go 1 block north, or east, or west.
// This fixes the player leaning issue.
// If that failed, we instead go down to the lowest air block.
int YBelowUs = FloorC(a_Vector.y) - 1;
if (YBelowUs < 0)
{
return false;
}
Chunk->GetBlockTypeMeta(RelX, YBelowUs, RelZ, BlockType, BlockMeta);
if (!(IsWaterOrSolid(BlockType)))
{
bool InTheAir = true;
int x, z;
for (z = -1; z <= 1; ++z)
{
for (x = -1; x <= 1; ++x)
{
if ((x == 0) && (z == 0))
{
continue;
}
Chunk = a_Chunk.GetNeighborChunk(FloorC(a_Vector.x+x), FloorC(a_Vector.z+z));
if ((Chunk == nullptr) || !Chunk->IsValid())
{
return false;
}
RelX = FloorC(a_Vector.x+x) - Chunk->GetPosX() * cChunkDef::Width;
RelZ = FloorC(a_Vector.z+z) - Chunk->GetPosZ() * cChunkDef::Width;
Chunk->GetBlockTypeMeta(RelX, YBelowUs, RelZ, BlockType, BlockMeta);
if (IsWaterOrSolid((BlockType)))
{
a_Vector.x += x;
a_Vector.z += z;
InTheAir = false;
goto breakBothLoops;
}
}
}
breakBothLoops:
// Go down to the lowest air block.
if (InTheAir)
{
while (a_Vector.y > 0)
{
Chunk->GetBlockTypeMeta(RelX, FloorC(a_Vector.y) - 1, RelZ, BlockType, BlockMeta);
if (IsWaterOrSolid(BlockType))
{
break;
}
a_Vector.y -= 1;
}
}
}
// If destination in water or solid, go up to the first air block.
while (a_Vector.y < cChunkDef::Height)
{
Chunk->GetBlockTypeMeta(RelX, FloorC(a_Vector.y), RelZ, BlockType, BlockMeta);
if (!IsWaterOrSolid(BlockType))
{
break;
}
a_Vector.y += 1;
}
return true;
}
bool cPathFinder::IsWaterOrSolid(BLOCKTYPE a_BlockType)
{
return ((a_BlockType == E_BLOCK_STATIONARY_WATER) || cBlockInfo::IsSolid(a_BlockType));
}
bool cPathFinder::PathIsTooOld() const
{
size_t acceptableDeviation = m_Path->WayPointsLeft() / 2;
if (acceptableDeviation == 0)
{
acceptableDeviation = 1;
}
const auto DeviationSqr = (m_FinalDestination - m_DeviationOrigin).SqrLength();
return (DeviationSqr > (acceptableDeviation * acceptableDeviation));
}