mirror of
https://github.com/genxium/DelayNoMore
synced 2024-12-26 11:48:56 +00:00
157 lines
4.5 KiB
Go
157 lines
4.5 KiB
Go
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package resolv
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// Collision contains the results of an Object.Check() call, and represents a collision between an Object and cells that contain other Objects.
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// The Objects array indicate the Objects collided with.
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type Collision struct {
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checkingObject *Object // The checking object
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dx, dy float64 // The delta the checking object was moving on that caused this collision
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Objects []*Object // Slice of objects that were collided with; sorted according to distance to calling Object.
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Cells []*Cell // Slice of cells that were collided with; sorted according to distance to calling Object.
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}
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func NewCollision() *Collision {
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return &Collision{
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Objects: []*Object{},
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}
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}
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// HasTags returns whether any objects within the Collision have all of the specified tags. This slice does not contain the Object that called Check().
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func (cc *Collision) HasTags(tags ...string) bool {
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for _, o := range cc.Objects {
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if o == cc.checkingObject {
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continue
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}
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if o.HasTags(tags...) {
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return true
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}
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}
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return false
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}
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// ObjectsByTags returns a slice of Objects from the cells reported by a Collision object by searching for Objects with a specific set of tags.
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// This slice does not contain the Object that called Check().
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func (cc *Collision) ObjectsByTags(tags ...string) []*Object {
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objects := []*Object{}
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for _, o := range cc.Objects {
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if o == cc.checkingObject {
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continue
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}
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if o.HasTags(tags...) {
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objects = append(objects, o)
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}
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}
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return objects
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}
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// ContactWithObject returns the delta to move to come into contact with the specified Object.
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func (cc *Collision) ContactWithObject(object *Object) Vector {
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delta := Vector{0, 0}
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if cc.dx < 0 {
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delta[0] = object.X + object.W - cc.checkingObject.X
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} else if cc.dx > 0 {
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delta[0] = object.X - cc.checkingObject.W - cc.checkingObject.X
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}
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if cc.dy < 0 {
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delta[1] = object.Y + object.H - cc.checkingObject.Y
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} else if cc.dy > 0 {
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delta[1] = object.Y - cc.checkingObject.H - cc.checkingObject.Y
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}
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return delta
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}
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// ContactWithCell returns the delta to move to come into contact with the specified Cell.
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func (cc *Collision) ContactWithCell(cell *Cell) Vector {
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delta := Vector{0, 0}
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cx := float64(cell.X * cc.checkingObject.Space.CellWidth)
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cy := float64(cell.Y * cc.checkingObject.Space.CellHeight)
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if cc.dx < 0 {
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delta[0] = cx + float64(cc.checkingObject.Space.CellWidth) - cc.checkingObject.X
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} else if cc.dx > 0 {
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delta[0] = cx - cc.checkingObject.W - cc.checkingObject.X
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}
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if cc.dy < 0 {
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delta[1] = cy + float64(cc.checkingObject.Space.CellHeight) - cc.checkingObject.Y
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} else if cc.dy > 0 {
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delta[1] = cy - cc.checkingObject.H - cc.checkingObject.Y
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}
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return delta
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}
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// SlideAgainstCell returns how much distance the calling Object can slide to avoid a collision with the targetObject. This only works on vertical and horizontal axes (x and y directly),
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// primarily for platformers / top-down games. avoidTags is a sequence of tags (as strings) to indicate when sliding is valid (i.e. if a Cell contains an Object that has the tag given in
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// the avoidTags slice, then sliding CANNOT happen). If sliding is not able to be done for whatever reason, SlideAgainstCell returns nil.
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func (cc *Collision) SlideAgainstCell(cell *Cell, avoidTags ...string) Vector {
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sp := cc.checkingObject.Space
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collidingCell := cc.Cells[0]
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ccX, ccY := sp.SpaceToWorld(collidingCell.X, collidingCell.Y)
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hX := float64(sp.CellWidth) / 2.0
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hY := float64(sp.CellHeight) / 2.0
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ccX += hX
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ccY += hY
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oX, oY := cc.checkingObject.Center()
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diffX := oX - ccX
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diffY := oY - ccY
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left := sp.Cell(collidingCell.X-1, collidingCell.Y)
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right := sp.Cell(collidingCell.X+1, collidingCell.Y)
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up := sp.Cell(collidingCell.X, collidingCell.Y-1)
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down := sp.Cell(collidingCell.X, collidingCell.Y+1)
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slide := Vector{0, 0}
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// Moving vertically
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if cc.dy != 0 {
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if diffX > 0 && (right == nil || !right.ContainsTags(avoidTags...)) {
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// Slide right
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slide[0] = ccX + hX - cc.checkingObject.X
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} else if diffX < 0 && (left == nil || !left.ContainsTags(avoidTags...)) {
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// Slide left
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slide[0] = ccX - hX - (cc.checkingObject.X + cc.checkingObject.W)
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} else {
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return nil
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}
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}
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if cc.dx != 0 {
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if diffY > 0 && (down == nil || !down.ContainsTags(avoidTags...)) {
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// Slide down
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slide[1] = ccY + hY - cc.checkingObject.Y
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} else if diffY < 0 && (up == nil || !up.ContainsTags(avoidTags...)) {
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// Slide up
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slide[1] = ccY - hY - (cc.checkingObject.Y + cc.checkingObject.H)
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} else {
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return nil
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}
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}
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return slide
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}
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