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package resolv
// Object represents an object that can be spread across one or more Cells in a Space. An Object is essentially an AABB (Axis-Aligned Bounding Box) Rectangle.
type Object struct {
Shape Shape // A shape for more specific collision-checking.
Space * Space // Reference to the Space the Object exists within
X , Y , W , H float64 // Position and size of the Object in the Space
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TouchingCells * RingBuffer // An array of Cells the Object is touching
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Data interface { } // A pointer to a user-definable object
ignoreList map [ * Object ] bool // Set of Objects to ignore when checking for collisions
tags [ ] string // A list of tags the Object has
}
// NewObject returns a new Object of the specified position and size.
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func NewObjectSingleTag ( x , y , w , h float64 , tag string ) * Object {
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o := & Object { }
o . X = x
o . Y = y
o . W = w
o . H = h
o . TouchingCells = NewRingBuffer ( 512 ) // [WARNING] Should make N large enough to cover all "TouchingCells", otherwise some cells would fail to unregister an object, resulting in memory corruption and incorrect detection result!
o . tags = [ ] string { tag }
o . ignoreList = make ( map [ * Object ] bool )
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return o
}
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func NewObject ( x , y , w , h float64 , tags ... string ) * Object {
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o := & Object { }
o . X = x
o . Y = y
o . W = w
o . H = h
o . TouchingCells = NewRingBuffer ( 512 )
o . tags = [ ] string { }
o . ignoreList = make ( map [ * Object ] bool )
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if len ( tags ) > 0 {
o . AddTags ( tags ... )
}
return o
}
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func ( obj * Object ) GetData ( ) interface { } {
return obj . Data
}
func ( obj * Object ) GetShape ( ) * Shape {
return & ( obj . Shape )
}
func ( obj * Object ) Position ( ) ( float64 , float64 ) {
return obj . X , obj . Y
}
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// Clone clones the Object with its properties into another Object. It also clones the Object's Shape (if it has one).
func ( obj * Object ) Clone ( ) * Object {
newObj := NewObject ( obj . X , obj . Y , obj . W , obj . H , obj . Tags ( ) ... )
newObj . Data = obj . Data
if obj . Shape != nil {
newObj . SetShape ( obj . Shape . Clone ( ) )
}
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for k , _ := range obj . ignoreList {
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newObj . AddToIgnoreList ( k )
}
return newObj
}
// Update updates the object's association to the Cells in the Space. This should be called whenever an Object is moved.
// This is automatically called once when creating the Object, so you don't have to call it for static objects.
func ( obj * Object ) Update ( ) {
if obj . Space != nil {
// Object.Space.Remove() sets the removed object's Space to nil, indicating it's been removed. Because we're updating
// the Object (which is essentially removing it from its previous Cells / position and re-adding it to the new Cells /
// position), we store the original Space to re-set it.
space := obj . Space
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obj . Space . RemoveSingle ( obj )
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obj . Space = space
cx , cy , ex , ey := obj . BoundsToSpace ( 0 , 0 )
for y := cy ; y <= ey ; y ++ {
for x := cx ; x <= ex ; x ++ {
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c := obj . Space . GetCell ( x , y )
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if c != nil {
c . register ( obj )
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obj . TouchingCells . Put ( c )
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}
}
}
}
if obj . Shape != nil {
obj . Shape . SetPosition ( obj . X , obj . Y )
}
}
// AddTags adds tags to the Object.
func ( obj * Object ) AddTags ( tags ... string ) {
obj . tags = append ( obj . tags , tags ... )
}
// RemoveTags removes tags from the Object.
func ( obj * Object ) RemoveTags ( tags ... string ) {
for _ , tag := range tags {
for i , t := range obj . tags {
if t == tag {
obj . tags = append ( obj . tags [ : i ] , obj . tags [ i + 1 : ] ... )
break
}
}
}
}
// HasTags indicates if an Object has any of the tags indicated.
func ( obj * Object ) HasTags ( tags ... string ) bool {
for _ , tag := range tags {
for _ , t := range obj . tags {
if t == tag {
return true
}
}
}
return false
}
// Tags returns the tags an Object has.
func ( obj * Object ) Tags ( ) [ ] string {
return append ( [ ] string { } , obj . tags ... )
}
// SetShape sets the Shape on the Object, in case you need to use precise per-Shape intersection detection. SetShape calls Object.Update() as well, so that it's able to
// update the Shape's position to match its Object as necessary. (If you don't use this, the Shape's position might not match the Object's, depending on if you set the Shape
// after you added the Object to a Space and if you don't call Object.Update() yourself afterwards.)
func ( obj * Object ) SetShape ( shape Shape ) {
if obj . Shape != shape {
obj . Shape = shape
obj . Update ( )
}
}
// BoundsToSpace returns the Space coordinates of the shape (x, y, w, and h), given its world position and size, and a supposed movement of dx and dy.
func ( obj * Object ) BoundsToSpace ( dx , dy float64 ) ( int , int , int , int ) {
cx , cy := obj . Space . WorldToSpace ( obj . X + dx , obj . Y + dy )
ex , ey := obj . Space . WorldToSpace ( obj . X + obj . W + dx - 1 , obj . Y + obj . H + dy - 1 )
return cx , cy , ex , ey
}
// SharesCells returns whether the Object occupies a cell shared by the specified other Object.
func ( obj * Object ) SharesCells ( other * Object ) bool {
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rb := obj . TouchingCells
for i := rb . StFrameId ; i < rb . EdFrameId ; i ++ {
cell := rb . GetByFrameId ( i ) . ( * Cell )
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if cell . Contains ( other ) {
return true
}
}
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return false
}
// SharesCellsTags returns if the Cells the Object occupies have an object with the specified tags.
func ( obj * Object ) SharesCellsTags ( tags ... string ) bool {
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rb := obj . TouchingCells
for i := rb . StFrameId ; i < rb . EdFrameId ; i ++ {
cell := rb . GetByFrameId ( i ) . ( * Cell )
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if cell . ContainsTags ( tags ... ) {
return true
}
}
return false
}
// Center returns the center position of the Object.
func ( obj * Object ) Center ( ) ( float64 , float64 ) {
return obj . X + ( obj . W / 2.0 ) , obj . Y + ( obj . H / 2.0 )
}
// SetCenter sets the Object such that its center is at the X and Y position given.
func ( obj * Object ) SetCenter ( x , y float64 ) {
obj . X = x - ( obj . W / 2 )
obj . Y = y - ( obj . H / 2 )
}
// CellPosition returns the cellular position of the Object's center in the Space.
func ( obj * Object ) CellPosition ( ) ( int , int ) {
return obj . Space . WorldToSpace ( obj . Center ( ) )
}
// SetRight sets the X position of the Object so the right edge is at the X position given.
func ( obj * Object ) SetRight ( x float64 ) {
obj . X = x - obj . W
}
// SetBottom sets the Y position of the Object so that the bottom edge is at the Y position given.
func ( obj * Object ) SetBottom ( y float64 ) {
obj . Y = y - obj . H
}
// Bottom returns the bottom Y coordinate of the Object (i.e. object.Y + object.H).
func ( obj * Object ) Bottom ( ) float64 {
return obj . Y + obj . H
}
// Right returns the right X coordinate of the Object (i.e. object.X + object.W).
func ( obj * Object ) Right ( ) float64 {
return obj . X + obj . W
}
func ( obj * Object ) SetBounds ( topLeft , bottomRight Vector ) {
obj . X = topLeft [ 0 ]
obj . Y = topLeft [ 1 ]
obj . W = bottomRight [ 0 ] - obj . X
obj . H = bottomRight [ 1 ] - obj . Y
}
// Check checks the space around the object using the designated delta movement (dx and dy). This is done by querying the containing Space's Cells
// so that it can see if moving it would coincide with a cell that houses another Object (filtered using the given selection of tag strings). If so,
// Check returns a Collision. If no objects are found or the Object does not exist within a Space, this function returns nil.
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func ( obj * Object ) CheckAllWithHolder ( dx , dy float64 , cc * Collision ) bool {
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if obj . Space == nil {
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return false
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}
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cc . Clear ( )
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cc . checkingObject = obj
if dx < 0 {
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dx = Min ( dx , - 1 )
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} else if dx > 0 {
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dx = Max ( dx , 1 )
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}
if dy < 0 {
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dy = Min ( dy , - 1 )
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} else if dy > 0 {
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dy = Max ( dy , 1 )
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}
cc . dx = dx
cc . dy = dy
cx , cy , ex , ey := obj . BoundsToSpace ( dx , dy )
objectsAdded := map [ * Object ] bool { }
cellsAdded := map [ * Cell ] bool { }
for y := cy ; y <= ey ; y ++ {
for x := cx ; x <= ex ; x ++ {
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if c := obj . Space . GetCell ( x , y ) ; c != nil {
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rb := c . Objects
for i := rb . StFrameId ; i < rb . EdFrameId ; i ++ {
o := rb . GetByFrameId ( i ) . ( * Object )
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// We only want cells that have objects other than the checking object, or that aren't on the ignore list.
if ignored := obj . ignoreList [ o ] ; o == obj || ignored {
continue
}
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if _ , added := objectsAdded [ o ] ; ! added {
cc . Objects . Put ( o )
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objectsAdded [ o ] = true
if _ , added := cellsAdded [ c ] ; ! added {
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cc . Cells . Put ( c )
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cellsAdded [ c ] = true
}
continue
}
}
}
}
}
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if 0 >= cc . Objects . Cnt {
return false
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}
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return true
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}
// Overlaps returns if an Object overlaps another Object.
func ( obj * Object ) Overlaps ( other * Object ) bool {
return other . X <= obj . X + obj . W && other . X + other . W >= obj . X && other . Y <= obj . Y + obj . H && other . Y + other . H >= obj . Y
}
// AddToIgnoreList adds the specified Object to the Object's internal collision ignoral list. Cells that contain the specified Object will not be counted when calling Check().
func ( obj * Object ) AddToIgnoreList ( ignoreObj * Object ) {
obj . ignoreList [ ignoreObj ] = true
}
// RemoveFromIgnoreList removes the specified Object from the Object's internal collision ignoral list. Objects removed from this list will once again be counted for Check().
func ( obj * Object ) RemoveFromIgnoreList ( ignoreObj * Object ) {
delete ( obj . ignoreList , ignoreObj )
}