Safe Haskell	None
Language	Haskell2010

Game.LambdaHack.Common.Vector

Contents

Internal operations

Description

Basic operations on bounded 2D vectors, with an efficient, but not 1-1 and not monotonic Enum instance.

Synopsis

data Vector = Vector {
- vx :: X
- vy :: Y
}
type VectorI = Int
isUnit :: Vector -> Bool
isDiagonal :: Vector -> Bool
neg :: Vector -> Vector
chessDistVector :: Vector -> Int
euclidDistSqVector :: Vector -> Vector -> Int
moves :: [Vector]
movesCardinal :: [Vector]
movesCardinalI :: [VectorI]
movesDiagonal :: [Vector]
movesDiagonalI :: [VectorI]
compassText :: Vector -> Text
vicinityBounded :: X -> Y -> Point -> [Point]
vicinityUnsafe :: Point -> [Point]
vicinityCardinal :: X -> Y -> Point -> [Point]
vicinityCardinalUnsafe :: Point -> [Point]
squareUnsafeSet :: Point -> EnumSet Point
shift :: Point -> Vector -> Point
shiftBounded :: X -> Y -> Point -> Vector -> Point
trajectoryToPath :: Point -> [Vector] -> [Point]
trajectoryToPathBounded :: X -> Y -> Point -> [Vector] -> [Point]
vectorToFrom :: Point -> Point -> Vector
computeTrajectory :: Int -> Int -> Int -> [Point] -> ([Vector], (Speed, Int))
type RadianAngle = Double
rotate :: RadianAngle -> Vector -> Vector
towards :: Point -> Point -> Vector
_moveTexts :: [Text]
longMoveTexts :: [Text]
movesSquare :: [VectorI]
pathToTrajectory :: [Point] -> [Vector]
normalize :: Double -> Double -> Vector
normalizeVector :: Vector -> Vector

Documentation

data Vector Source #

2D vectors in cartesian representation. Coordinates grow to the right and down, so that the (1, 1) vector points to the bottom-right corner of the screen.

Constructors

Vector
Fields vx :: X vy :: Y

Instances

Enum Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods succ :: Vector -> Vector # pred :: Vector -> Vector # toEnum :: Int -> Vector # fromEnum :: Vector -> Int # enumFrom :: Vector -> [Vector] # enumFromThen :: Vector -> Vector -> [Vector] # enumFromTo :: Vector -> Vector -> [Vector] # enumFromThenTo :: Vector -> Vector -> Vector -> [Vector] #
Eq Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods (==) :: Vector -> Vector -> Bool # (/=) :: Vector -> Vector -> Bool #
Ord Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods compare :: Vector -> Vector -> Ordering # (<) :: Vector -> Vector -> Bool # (<=) :: Vector -> Vector -> Bool # (>) :: Vector -> Vector -> Bool # (>=) :: Vector -> Vector -> Bool # max :: Vector -> Vector -> Vector # min :: Vector -> Vector -> Vector #
Read Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods readsPrec :: Int -> ReadS Vector # readList :: ReadS [Vector] # readPrec :: ReadPrec Vector # readListPrec :: ReadPrec [Vector] #
Show Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods showsPrec :: Int -> Vector -> ShowS # show :: Vector -> String # showList :: [Vector] -> ShowS #
Generic Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Associated Types type Rep Vector :: Type -> Type # Methods from :: Vector -> Rep Vector x # to :: Rep Vector x -> Vector #
Binary Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods put :: Vector -> Put # get :: Get Vector # putList :: [Vector] -> Put #
NFData Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector Methods rnf :: Vector -> () #
type Rep Vector Source #
Instance details Defined in Game.LambdaHack.Common.Vector type Rep Vector = D1 (MetaData "Vector" "Game.LambdaHack.Common.Vector" "LambdaHack-0.9.3.0-inplace" False) (C1 (MetaCons "Vector" PrefixI True) (S1 (MetaSel (Just "vx") NoSourceUnpackedness NoSourceStrictness DecidedStrict) (Rec0 X) :*: S1 (MetaSel (Just "vy") NoSourceUnpackedness NoSourceStrictness DecidedStrict) (Rec0 Y)))

type VectorI = Int Source #

Enumeration representation of Vector.

isUnit :: Vector -> Bool Source #

Tells if a vector has length 1 in the chessboard metric.

isDiagonal :: Vector -> Bool Source #

Checks whether a unit vector is a diagonal direction, as opposed to cardinal. If the vector is not unit, it checks that the vector is not horizontal nor vertical.

neg :: Vector -> Vector Source #

Reverse an arbirary vector.

chessDistVector :: Vector -> Int Source #

The lenght of a vector in the chessboard metric, where diagonal moves cost 1.

euclidDistSqVector :: Vector -> Vector -> Int Source #

Squared euclidean distance between two vectors.

moves :: [Vector] Source #

Vectors of all unit moves in the chessboard metric, clockwise, starting north-west.

movesCardinal :: [Vector] Source #

Vectors of all cardinal direction unit moves, clockwise, starting north.

movesCardinalI :: [VectorI] Source #

movesDiagonal :: [Vector] Source #

Vectors of all diagonal direction unit moves, clockwise, starting north.

movesDiagonalI :: [VectorI] Source #

compassText :: Vector -> Text Source #

vicinityBounded Source #

Arguments

:: X
-> Y	limit the search to this area
-> Point	position to find neighbours of
-> [Point]

All (8 at most) closest neighbours of a point within an area.

vicinityUnsafe :: Point -> [Point] Source #

vicinityCardinal Source #

Arguments

:: X
-> Y	limit the search to this area
-> Point	position to find neighbours of
-> [Point]

All (4 at most) cardinal direction neighbours of a point within an area.

vicinityCardinalUnsafe :: Point -> [Point] Source #

squareUnsafeSet :: Point -> EnumSet Point Source #

shift :: Point -> Vector -> Point Source #

Translate a point by a vector.

shiftBounded :: X -> Y -> Point -> Vector -> Point Source #

Translate a point by a vector, but only if the result fits in an area.

trajectoryToPath :: Point -> [Vector] -> [Point] Source #

A list of points that a list of vectors leads to.

trajectoryToPathBounded :: X -> Y -> Point -> [Vector] -> [Point] Source #

A list of points that a list of vectors leads to, bounded by level size.

vectorToFrom :: Point -> Point -> Vector Source #

The vector between the second point and the first. We have

shift pos1 (pos2 `vectorToFrom` pos1) == pos2

The arguments are in the same order as in the underlying scalar subtraction.

computeTrajectory :: Int -> Int -> Int -> [Point] -> ([Vector], (Speed, Int)) Source #

type RadianAngle = Double Source #

rotate :: RadianAngle -> Vector -> Vector Source #

Rotate a vector by the given angle (expressed in radians) counterclockwise and return a unit vector approximately in the resulting direction.

towards :: Point -> Point -> Vector Source #

Given two distinct positions, determine the direction (a unit vector) in which one should move from the first in order to get closer to the second. Ignores obstacles. Of several equally good directions (in the chessboard metric) it picks one of those that visually (in the euclidean metric) maximally align with the vector between the two points.

Internal operations

_moveTexts :: [Text] Source #

Currently unused.

longMoveTexts :: [Text] Source #

movesSquare :: [VectorI] Source #

pathToTrajectory :: [Point] -> [Vector] Source #

A list of vectors between a list of points.

normalize :: Double -> Double -> Vector Source #

Given a vector of arbitrary non-zero length, produce a unit vector that points in the same direction (in the chessboard metric). Of several equally good directions it picks one of those that visually (in the euclidean metric) maximally align with the original vector.

normalizeVector :: Vector -> Vector Source #