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-rw-r--r--HexBoard.gd70
1 files changed, 30 insertions, 40 deletions
diff --git a/HexBoard.gd b/HexBoard.gd
index b28a2b7..641ff50 100644
--- a/HexBoard.gd
+++ b/HexBoard.gd
@@ -45,8 +45,8 @@ func configure(cols : int, rows : int, side : float, v0 : Vector2, vertical : bo
tl = (2 * int(cr.x) - 1)
search_count = 0
angles = {}
- # origin [top-left] East is at 0°, degrees grow clockwise
if v:
+ # origin [top-left] East is at 0°, degrees grows clockwise
angles[Orientation.E] = 0
angles[Orientation.SE] = 60
angles[Orientation.SW] = 120
@@ -54,12 +54,12 @@ func configure(cols : int, rows : int, side : float, v0 : Vector2, vertical : bo
angles[Orientation.NW] = 240
angles[Orientation.NE] = 300
else:
- angles[Orientation.NE] = 210
- angles[Orientation.N] = 270
- angles[Orientation.NW] = 330
- angles[Orientation.SW] = 30
+ angles[Orientation.SE] = 30
angles[Orientation.S] = 90
- angles[Orientation.SE] = 150
+ angles[Orientation.SW] = 150
+ angles[Orientation.NW] = 210
+ angles[Orientation.N] = 270
+ angles[Orientation.NE] = 330
func size() -> int:
return int(cr.y) / 2 * tl + int(cr.y) % 2 * int(cr.x)
@@ -242,7 +242,7 @@ func line_of_sight(p0 : Vector2, p1 : Vector2, tiles : Array) -> Vector2:
if los_blocked and not contact:
var prev : Tile = tiles[tiles.size() - 1]
var o : int = to_orientation(angle(prev, t))
- ret = compute_contact(from.position, to.position, o, prev.position, true)
+ ret = compute_contact(from.position, to.position, prev.position, o, true)
contact = true
tiles.append(t)
t.blocked = los_blocked
@@ -302,25 +302,25 @@ func diagonal_los(p0 : Vector2, p1 : Vector2, flat : bool, q13 : bool, tiles : A
if t.blocked and not contact:
var o : int = compute_orientation(dx, dy, flat)
if not los_blocked and blocked == 0x03:
- ret = compute_contact(from.position, to.position, o, t.position, false)
+ ret = compute_contact(from.position, to.position, t.position, opposite(o), false)
else:
- ret = compute_contact(from.position, to.position, opposite(o), tiles[tiles.size() - idx].position, false)
+ ret = compute_contact(from.position, to.position, tiles[tiles.size() - idx].position, o, false)
contact = true;
los_blocked = t.blocked || t.block_los(from, to, d, distance(p0, q))
return ret
func compute_orientation(dx :int, dy :int, flat : bool) -> int:
if flat:
- if v: return Orientation.N if dy == 1 else Orientation.S
- else: return Orientation.NE if dy == 1 else Orientation.SW
+ if v: return Orientation.S if dy == 1 else Orientation.N
+ else: return Orientation.S if dx == 1 else Orientation.N
if dx == 1:
- if dy == 1: return Orientation.NE if v else Orientation.E
- else: return Orientation.SE
+ if dy == 1: return Orientation.E
+ else: return Orientation.E if v else Orientation.N
else:
- if dy == 1: return Orientation.NW
- else: return Orientation.SW if v else Orientation.W
+ if dy == 1: return Orientation.W if v else Orientation.S
+ else: return Orientation.W
-func compute_contact(from : Vector2, to : Vector2, o : int, t : Vector2, line : bool) -> Vector2:
+func compute_contact(from : Vector2, to : Vector2, t : Vector2, o : int, line : bool) -> Vector2:
var dx : float = to.x - from.x
var dy : float = to.y - from.y
var n : float = float(IMAX) if dx == 0 else (dy / dx)
@@ -335,20 +335,15 @@ func compute_contact(from : Vector2, to : Vector2, o : int, t : Vector2, line :
var x : float = t.x - dw
return Vector2(x, from.y + n * (x - from.x))
else:
- if line:
- var p : float = -m if (o == Orientation.SE or o == Orientation.NW) else m
- var k : float = t.y - p * t.x
- if o == Orientation.SE || o == Orientation.SW: k += s
- else: k -= s
- var x : float = (k - c) / (n - p)
- return Vector2(x, n * x + c)
- else:
- var x : float = t.x + (-dw if (o == Orientation.NE or o == Orientation.SE) else dw)
- var y : float = t.y + (dh if (o == Orientation.SE or o == Orientation.SW) else -dh)
- return Vector2(x, y)
+ var p : float = -m if (o == Orientation.SE or o == Orientation.NW) else m
+ var k : float = t.y - p * t.x
+ if o == Orientation.SE || o == Orientation.SW: k += s
+ else: k -= s
+ var x : float = (k - c) / (n - p)
+ return Vector2(x, n * x + c)
else:
- if o == Orientation.E: return Vector2(t.x - s, t.y)
- elif o == Orientation.W: return Vector2(t.x + s, t.y)
+ if o == Orientation.E: return Vector2(t.x + s, t.y)
+ elif o == Orientation.W: return Vector2(t.x - s, t.y)
elif o == Orientation.N:
var y : float = t.y - dw
return Vector2(from.x + (y - from.y) / n, y)
@@ -356,17 +351,12 @@ func compute_contact(from : Vector2, to : Vector2, o : int, t : Vector2, line :
var y : float = t.y + dw
return Vector2(from.x + (y - from.y) / n, y)
else:
- if line:
- var p : float = im if (o == Orientation.SE or o == Orientation.NW) else -im
- var k : float = 0
- if o == Orientation.SW or o == Orientation.NW: k = t.y - (p * (t.x + s))
- else: k = t.y - (p * (t.x - s))
- var x : float = (k - c) / (n - p)
- return Vector2(x, n * x + c);
- else:
- var x : float = t.x + (dh if (o == Orientation.NW || o == Orientation.SW) else -dh)
- var y : float = t.y + (dw if (o == Orientation.SE || o == Orientation.SW) else -dw)
- return Vector2(x, y)
+ var p : float = -im if (o == Orientation.SE or o == Orientation.NW) else +im
+ var k : float = 0
+ if o == Orientation.SW or o == Orientation.NW: k = t.y - (p * (t.x - s))
+ else: k = t.y - (p * (t.x + s))
+ var x : float = (k - c) / (n - p)
+ return Vector2(x, n * x + c);
func possible_moves(piece : Piece, from : Tile, tiles : Array) -> int:
tiles.clear()