A* Pathfinding Project  4.2.2
The A* Pathfinding Project for Unity 3D
Funnel Class Reference

Implements the funnel algorithm as well as various related methods. More...

Detailed Description

Implements the funnel algorithm as well as various related methods.

See also
http://digestingduck.blogspot.se/2010/03/simple-stupid-funnel-algorithm.html
FunnelModifier for the component that you can attach to objects to use the funnel algorithm.

Classes

struct  FunnelPortals
 Funnel in which the path to the target will be. More...
 
struct  PathPart
 Part of a path. More...
 

Static Public Member Functions

static List< Vector3 > Calculate (FunnelPortals funnel, bool unwrap, bool splitAtEveryPortal)
 Calculate the shortest path through the funnel. More...
 
static FunnelPortals ConstructFunnelPortals (List< GraphNode > nodes, PathPart part)
 
static void ShrinkPortals (FunnelPortals portals, float shrink)
 
static List< PathPartSplitIntoParts (Path path)
 
static void Unwrap (FunnelPortals funnel, Vector2[] left, Vector2[] right)
 Unwraps the funnel portals from 3D space to 2D space. More...
 

Static Protected Member Functions

static Vector3 FromXZ (Vector2 p)
 
static bool LeftOrColinear (Vector2 a, Vector2 b)
 True if b is to the left of or on the line from (0,0) to a. More...
 
static bool RightOrColinear (Vector2 a, Vector2 b)
 True if b is to the right of or on the line from (0,0) to a. More...
 
static Vector2 ToXZ (Vector3 p)
 

Static Private Member Functions

static void Calculate (Vector2[] left, Vector2[] right, int numPortals, int startIndex, List< int > funnelPath, int maxCorners, out bool lastCorner)
 Funnel algorithm. More...
 
static int FixFunnel (Vector2[] left, Vector2[] right, int numPortals)
 Try to fix degenerate or invalid funnels. More...
 
static bool UnwrapHelper (Vector3 portalStart, Vector3 portalEnd, Vector3 prevPoint, Vector3 nextPoint, ref Quaternion mRot, ref Vector3 mOffset)
 

Member Function Documentation

◆ Calculate() [1/2]

static List<Vector3> Calculate ( FunnelPortals  funnel,
bool  unwrap,
bool  splitAtEveryPortal 
)
static

Calculate the shortest path through the funnel.

Parameters
funnelThe portals of the funnel. The first and last vertices portals must be single points (so for example left[0] == right[0]).
unwrapDetermines if twists and bends should be straightened out before running the funnel algorithm.
splitAtEveryPortalIf true, then a vertex will be inserted every time the path crosses a portal instead of only at the corners of the path. The result will have exactly one vertex per portal if this is enabled. This may introduce vertices with the same position in the output (esp. in corners where many portals meet).

If the unwrap option is disabled the funnel will simply be projected onto the XZ plane. If the unwrap option is enabled then the funnel may be oriented arbitrarily and may have twists and bends. This makes it possible to support the funnel algorithm in XY space as well as in more complicated cases, such as on curved worlds.

See also
Unwrap

◆ Calculate() [2/2]

static void Calculate ( Vector2 []  left,
Vector2 []  right,
int  numPortals,
int  startIndex,
List< int >  funnelPath,
int  maxCorners,
out bool  lastCorner 
)
staticprivate

Funnel algorithm.

funnelPath will be filled with the result. The result is the indices of the vertices that were picked, a non-negative value refers to the corresponding index in the left array, a negative value refers to the corresponding index in the right array. So e.g 5 corresponds to left[5] and -2 corresponds to right[2]

See also
http://digestingduck.blogspot.se/2010/03/simple-stupid-funnel-algorithm.html

◆ ConstructFunnelPortals()

static FunnelPortals ConstructFunnelPortals ( List< GraphNode nodes,
PathPart  part 
)
static

◆ FixFunnel()

static int FixFunnel ( Vector2 []  left,
Vector2 []  right,
int  numPortals 
)
staticprivate

Try to fix degenerate or invalid funnels.

Returns
The number of vertices at the start of both arrays that should be ignored or -1 if the algorithm failed.

◆ FromXZ()

static Vector3 FromXZ ( Vector2  p)
staticprotected

◆ LeftOrColinear()

static bool LeftOrColinear ( Vector2  a,
Vector2  b 
)
staticprotected

True if b is to the left of or on the line from (0,0) to a.

◆ RightOrColinear()

static bool RightOrColinear ( Vector2  a,
Vector2  b 
)
staticprotected

True if b is to the right of or on the line from (0,0) to a.

◆ ShrinkPortals()

static void ShrinkPortals ( FunnelPortals  portals,
float  shrink 
)
static

◆ SplitIntoParts()

static List<PathPart> SplitIntoParts ( Path  path)
static

◆ ToXZ()

static Vector2 ToXZ ( Vector3  p)
staticprotected

◆ Unwrap()

static void Unwrap ( FunnelPortals  funnel,
Vector2 []  left,
Vector2 []  right 
)
static

Unwraps the funnel portals from 3D space to 2D space.

The result is stored in the left and right arrays which must be at least as large as the funnel.left and funnel.right lists.

The input is a funnel like in the image below. It may be rotated and twisted.

The output will be a funnel in 2D space like in the image below. All twists and bends will have been straightened out.

See also
Calculate(FunnelPortals,bool,bool)

◆ UnwrapHelper()

static bool UnwrapHelper ( Vector3  portalStart,
Vector3  portalEnd,
Vector3  prevPoint,
Vector3  nextPoint,
ref Quaternion  mRot,
ref Vector3  mOffset 
)
staticprivate

The documentation for this class was generated from the following file: