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Remove special case wall collisions, replace with generated objects

Esse commit está contido em:
Fraser Graham 2016-07-13 12:16:10 -06:00
commit ef33a17b6a
2 arquivos alterados com 27 adições e 31 exclusões

Ver arquivo

@ -49,24 +49,41 @@ func (o Obstacle) distance_from_point(p v.Point2d) float64 {
return dist
}
func obstacleFromValues(x, y, w, h float64, hp int) (o Obstacle) {
return Obstacle{
Bounds: v.AABB2d{
A: v.Point2d{X: x, Y: y},
B: v.Point2d{X: x + w, Y: y + h},
},
Hp: hp,
}
}
// GenerateObstacles returns a slice of (count) obstacles within a region
// bounded by width, height.
func GenerateObstacles(count int, width, height float64) []Obstacle {
out := []Obstacle{}
// Create obstacles that cover the edges of the world, so we don't need to
// special case collision at the edges
// left wall
out = append(out, obstacleFromValues(0, 5, 5, height-10, 0))
// // right wall
out = append(out, obstacleFromValues(width-5, 5, 5, height-10, 0))
// // top wall
out = append(out, obstacleFromValues(0, height-5, width, 5, 0))
// bottom wall
out = append(out, obstacleFromValues(0, 0, width, 5, 0))
// Now create N random objects somewhere in the world
for i := 0; i < count; i++ {
x := rand.Float64() * (width - (width / 10))
y := rand.Float64() * (height - (height / 10))
w := rand.Float64() * (width / 10)
h := rand.Float64() * (height / 10)
w := rand.Float64()*(width/10) + 20
h := rand.Float64()*(height/10) + 20
out = append(
out,
Obstacle{
Bounds: v.AABB2d{
A: v.Point2d{X: x, Y: y},
B: v.Point2d{X: 20 + x + w, Y: 20 + y + h},
},
Hp: 10000,
})
obstacleFromValues(x, y, w, h, 10000))
}
return out
}

Ver arquivo

@ -195,29 +195,8 @@ func (r *Robot) checkCollisions(g *Game, probe v.Vector2d) (bool, *v.Point2d, *R
botSize := 5.0
botPolygon := v.OrientedSquare(r.Position, r.Heading, botSize)
bounds := []Obstacle{
Obstacle{
Bounds: v.AABB2d{A: v.Point2d{0, 0}, B: v.Point2d{0, g.width}},
Hp: 0,
},
Obstacle{
Bounds: v.AABB2d{A: v.Point2d{0, 0}, B: v.Point2d{0, g.height}},
Hp: 0,
},
Obstacle{
Bounds: v.AABB2d{A: v.Point2d{g.width, g.height}, B: v.Point2d{0, g.height}},
Hp: 0,
},
Obstacle{
Bounds: v.AABB2d{A: v.Point2d{g.width, g.height}, B: v.Point2d{g.width, 0}},
Hp: 0,
},
}
obstacles := append(g.obstacles, bounds...)
// Check Obstacles
for _, obj := range obstacles {
for _, obj := range g.obstacles {
// collision due to motion:
collision, move_collision, translation := v.PolyPolyIntersection(
botPolygon, probe, obj.Bounds.ToPolygon())