public void ShowMarks(MapEditorEntry.EDIT_OP op, Color[] color)
{
if (mMarks == null)
{
mMarks = new SpriteRenderer[hex.xTile][];
}
for (int x = 0; x < hex.xTile; ++x)
{
if (mMarks[x] == null)
{
mMarks[x] = new SpriteRenderer[hex.yTile];
}
for (int y = 0; y < hex.yTile; ++y)
{
Coord c = new Coord(x + hex.xTile * xIdx, y + hex.yTile * yIdx);
if (mapProxy == null)
{
mapProxy = GameFacade.GetProxy <MapProxy>();
}
MapTileVO tileVo = mapProxy.GetTile(c);
if (tileVo != null)
{
int index;
if (op == MapEditorEntry.EDIT_OP.EDIT_AREA)
{
index = tileVo.camp;
}
else if (op == MapEditorEntry.EDIT_OP.EDIT_LV)
{
index = tileVo.level;
}
else
{
Debug.LogError("Error Op.");
return;
}
if (index >= color.Length)
{
Debug.LogError("No defined color of this index.");
return;
}
SpriteRenderer mark;
if (mMarks[x][y] != null)
{
mMarks[x][y].color = color[index];
continue;
}
mark = GetAMark();
mark.color = color[index];
mark.transform.localPosition = layout.HexCenter(tileVo.coord) - transform.localPosition;
mark.transform.localScale = new Vector3(1.5f, 1.55f, 1f);
mark.transform.localEulerAngles = new Vector3(90f, 0f, 0f);
mMarks[x][y] = mark;
}
}
}
markRoot.gameObject.SetActive(true);
}
int GetMatNameInd(int thisCoordX, int thisCoordY, int neighborInd)
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
if (neighborInd > 5 || neighborInd < 0)
{
Coord thisCoord = new Coord(thisCoordX, thisCoordY);
byte thisMat = mapProxy.GetTile(thisCoord).mat;
if (thisMat == 8)
{
thisMat = 0;
}
int thisMatNameNum = thisSprites[thisMat];
spriteIds[0] = thisMatNameNum;
return(0);
}
Coord c_neighbor = GetNeighborCoord(thisCoordX, thisCoordY, neighborInd);
MapTileVO t_neighbor = mapProxy.GetTile(c_neighbor);
if (t_neighbor == null)
{
return(-1);
}
byte m_neighbor = t_neighbor.mat;
if (m_neighbor == 8)
{
m_neighbor = 0;
}
int neighborMatNameNum = -1;
int neighborMatNameInd = -1;
switch (neighborInd)
{
default:
case 4:
neighborMatNameNum = leftSprites[m_neighbor];
spriteIds[1] = neighborMatNameNum;
neighborMatNameInd = 1;
break;
case 2:
neighborMatNameNum = prevSprites[m_neighbor];
spriteIds[2] = neighborMatNameNum;
neighborMatNameInd = 2;
break;
case 3:
neighborMatNameNum = diagSprites[m_neighbor];
spriteIds[3] = neighborMatNameNum;
neighborMatNameInd = 3;
break;
}
return(neighborMatNameInd);
}
static public void Transmit(int toid, Action after = null, bool transmit = false, bool ontask = false, int lineid = -1, bool taskTrans = false /*任务传送*/) //传送
{
if (!MapModel.getInstance().dicMappoint.ContainsKey(GRMap.instance.m_nCurMapID))
{
return;
}
if (toid != MapModel.getInstance().dicMappoint[GRMap.instance.m_nCurMapID] || lineid != -1)
{
if (!FindBestoModel.getInstance().Canfly) //宝图活动战斗状态禁止传送
{
flytxt.instance.fly(FindBestoModel.getInstance().nofly_txt);
return;
}
cd.updateHandle = (cd cdt) =>
{
int temp = (int)(cd.secCD - cd.lastCD) / 100;
cdt.txt.text = ContMgr.getCont("worldmap_cd", ((float)temp / 10f).ToString());
};
GameObject goeff = GameObject.Instantiate(worldmap.EFFECT_CHUANSONG1) as GameObject;
goeff.transform.SetParent(SelfRole._inst.m_curModel, false);
s_bInTransmit = true;
cd.show(() =>
{
MapProxy.getInstance().sendBeginChangeMap(toid, true, false, lineid);
DoAfterMgr.instacne.addAfterRender(() =>
{
after?.Invoke();
});
s_bInTransmit = false;
}, 3f, false,
() =>
{
GameObject.Destroy(goeff);
s_bInTransmit = false;
}
);
}
else
{
after?.Invoke();
}
debug.Log("我的传送是自动任务传送:" + taskTrans);
if (a3_liteMinimap.instance && a3_liteMinimap.instance.ZidongTask && !taskTrans)
{
a3_liteMinimap.instance.ZidongTask = false;
}
if (a3_liteMinimap.instance && !a3_liteMinimap.instance.ZidongTask && taskTrans)
{
if (a3_liteMinimap.instance.ZidongTaskType == TaskType.MAIN)
{
a3_liteMinimap.instance.TaskBtn(null, true);
}
}
}
int GetMatNameInd(int thisCoordX, int thisCoordY, int neighborInd)
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
if (neighborInd > 5 || neighborInd < 0)
{
Coord thisCoord = new Coord(thisCoordX, thisCoordY);
byte thisMat = mapProxy.GetTile(thisCoord).mat;
if (thisMat == 8)
{
thisMat = 0;
}
int thisMatNameNum = thisSprites[thisMat];
int thisMatNameInd = FindInSpriteIds(spriteIds, thisMatNameNum);
return(thisMatNameInd);
}
Coord c_neighbor = GetNeighborCoord(thisCoordX, thisCoordY, neighborInd);
MapTileVO t_neighbor = mapProxy.GetTile(c_neighbor);
if (t_neighbor == null)
{
return(-1);
}
byte m_neighbor = t_neighbor.mat;
if (m_neighbor == 8)
{
m_neighbor = 0;
}
int neighborMatNameNum = -1;
if (neighborInd == 4)
{
neighborMatNameNum = leftSprites[m_neighbor];
}
else
{
if (thisCoordY % 2 == 0)
{
neighborMatNameNum = leftSprites[m_neighbor];
}
else
{
neighborMatNameNum = thisSprites[m_neighbor];
}
}
int neighborMatNameInd = FindInSpriteIds(spriteIds, neighborMatNameNum);
return(neighborMatNameInd);
}
int GetNeighborHeight(int thisCoordX, int thisCoordY, int neighborInd)
{
int height_neighbor = -1;
Coord c_neighbor = GetNeighborCoord(thisCoordX, thisCoordY, neighborInd);
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
MapTileVO t_neighbor = mapProxy.GetTile(c_neighbor);
if (t_neighbor != null)
{
height_neighbor = t_neighbor.height;
}
return(height_neighbor);
}
public void UpdateSprList()
{
if (mapProxy == null)
{
mapProxy = GameFacade.GetProxy <MapProxy>();
}
List <int> sprs = mapProxy.GetSprLists(xIdx, yIdx);
mHexBg.spriteIds.Clear();
mHexBg.spriteIds.AddRange(sprs);
mHexWater.spriteIds.Clear();
mHexWater.spriteIds.AddRange(sprs);
}
public override void onClick()
{
//if (!A3_TaskModel.getInstance().IfCurrentCollectItem(monsterid))
// return;
if (Vector3.Distance(m_curModel.transform.position, SelfRole._inst.m_curModel.transform.position) >= 0)
{
SelfRole.moveto(m_curModel.transform.position, () =>
{
MapProxy.getInstance().sendCollectBox(m_unIID);
cd.updateHandle = onCD2;
cd.show(() =>
{
m_curAni.SetBool("open", true);
MapProxy.getInstance().sendStopCollectBox(false);
InterfaceMgr.getInstance().close(InterfaceMgr.CD);
},
collectTime, true,
() =>
{
MapProxy.getInstance().sendStopCollectBox(true);
});
}, true, 1f);
//InterfaceMgr.getInstance().close(InterfaceMgr.CD);
}
//else
//{
// cd.updateHandle = onCD2;
// cd.show(() =>
// {
// MapProxy.getInstance().sendCollectBox(m_unIID);
// // InterfaceMgr.getInstance().close(InterfaceMgr.CD);
// },
// collectTime, true,
// () =>
// {
// MapProxy.getInstance().sendStopCollectBox();
// });
// InterfaceMgr.getInstance().close(InterfaceMgr.CD);
//}
}
static int set_m_MapModel(IntPtr L)
{
object o = null;
try
{
o = ToLua.ToObject(L, 1);
WorldController obj = (WorldController)o;
MapProxy arg0 = (MapProxy)ToLua.CheckObject(L, 2, typeof(MapProxy));
obj.m_MapModel = arg0;
return(0);
}
catch (Exception e)
{
return(LuaDLL.toluaL_exception(L, e, o == null ? "attempt to index m_MapModel on a nil value" : e.Message));
}
}
static int get_m_MapModel(IntPtr L)
{
object o = null;
try
{
o = ToLua.ToObject(L, 1);
WorldController obj = (WorldController)o;
MapProxy ret = obj.m_MapModel;
ToLua.PushObject(L, ret);
return(1);
}
catch (Exception e)
{
return(LuaDLL.toluaL_exception(L, e, o == null ? "attempt to index m_MapModel on a nil value" : e.Message));
}
}
public override void onClick()
{
if (!A3_TaskModel.getInstance().IfCurrentCollectItem(monsterid))
{
return;
}
cd.hide();
if (Vector3.Distance(m_curModel.transform.position, SelfRole._inst.m_curModel.transform.position) > 2)
{
SelfRole.moveto(m_curModel.transform.position, () =>
{
MapProxy.getInstance().sendCollectItem(m_unIID);
cd.updateHandle = onCD;
cd.show(() =>
{
m_curAni.SetBool("open", true);
MapProxy.getInstance().sendStopCollectItem(false);
becollected = true;
},
collectTime, true,
() =>
{
MapProxy.getInstance().sendStopCollectItem(true);
});
}, true, 2f);
}
else
{
MapProxy.getInstance().sendCollectItem(m_unIID);
cd.updateHandle = onCD;
cd.show(() =>
{
m_curAni.SetBool("open", true);
MapProxy.getInstance().sendStopCollectItem(false);
becollected = true;
},
collectTime, true,
() =>
{
MapProxy.getInstance().sendStopCollectItem(true);
});
}
}
void GenHexMesh(HEX _hex)
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
Vector3[] hexgon =
{
#if HEXGON0
new Vector3(0, 0, 0), // 0
#endif
new Vector3(0, +1, 0), // 1
new Vector3(+Tx, +Ty, 0), // 2
new Vector3(+Tx, -Ty, 0), // 3
new Vector3(0, -1, 0), // 4
new Vector3(-Tx, -Ty, 0), // 5
new Vector3(-Tx, +Ty, 0), // 6
};
Vector2[] water =
{
new Vector2(0, 0),
new Vector2(1, 0),
};
Color[] sc =
{
new Color(0, 0, 0, 0),
new Color(1, 0, 0, 0),
new Color(0, 1, 0, 0),
new Color(0, 0, 1, 0),
new Color(0, 0, 0, 1),
};
Vector4[] vc =
{
new Vector4(0, 0, 0, 0),
new Vector4(1, 0, 0, 0),
new Vector4(0, 1, 0, 0),
new Vector4(0, 0, 1, 0),
new Vector4(0, 0, 0, 1),
};
int siz = (_hex.yTile + 1) * (_hex.yTile + 1) * 8;
if (lst == null)
{
lst = new int[siz];
}
for (int i = 0; i < siz; i++)
{
lst[i] = -1;
}
welement e = new welement();
_reindex reindex = (ref welement _elm, int _ver, int _col, int _row) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
int loc = ((_row + 1) * (_hex.xTile + 1) + (_col + 1)) * 8 + _ver;
int idx = lst[loc];
if (idx >= 0)
{
return(idx);
}
idx = _elm.vHex.Count;
lst[loc] = idx;
Vector3 _v = Vector3.zero;
Vector3 _n = Vector3.zero;
Vector4 _t = Vector4.zero;
Vector2 _u = Vector2.zero;
Color _c;
Vector2 _waterColor;
float _R = Tx * 2.0f + _hex.fvHex.x;
int m = tileVo.mat;
int n = isGenHeight ? tileVo.height : MapConst.MAP_HEIGHT_HORIZON;
if (m == 8)
{
_waterColor = water[1];
_c = sc [0];
_t = vc [0];
}
else
{
_waterColor = water[0];
_c = sc [m < 4 ? m + 1 : 0];
_t = vc [m > 3 ? m - 3 : 0];
}
_v.x = _R * _col;
_v.y = _R * Tx * _row;
_v.z = n;
_n.z = m;
if (_row % 2 == 0)
{
_v.x += 0.0f;
}
else
{
_v.x += Tx + Ty * _hex.fvHex.x;
}
_elm.vHex.Add(hexgon [_ver] + _v);
_elm.vNor.Add(_n);
_elm.vClr.Add(_c);
_elm.vTan.Add(_t);
_elm.vTex.Add(_u);
_elm.vWater.Add(_waterColor);
_elm.hasFoam.Add(new Vector2(tileVo.blockType == MapBlockType.WaterWave ? 1 : 0, 0));
return(idx);
};
_recheck recheck = (int _ver, int _col, int _row) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
//if (tileVo.mat < 1)
if (tileVo.IsWater())
{
return(false);
}
return(true);
};
int nHexIndices, nIndexOffset;
#if HEXGON0
int[] tdx =
{
0, 1, 2, 0, 2, 3, 0, 3, 4,
0, 4, 5, 0, 5, 6, 0, 6, 1,
};
nHexIndices = 18;
nIndexOffset = 0;
#else
int[] tdx =
{
0, 1, 5, 5, 1, 4, 2, 4, 1, 3, 4, 2
};
nHexIndices = 12;
nIndexOffset = 1;
#endif
int[][] edx =
{
new int[] { 6, 5, 2, 3, 2, 5 },
new int[] { 5, 4, 1, 2, 1, 4 },
new int[] { 1, 6, 3, 4, 3, 6 },
new int[] { 6, 2, 4, 5, 1, 3 },
};
List <int> vIdx = new List <int>();
List <int> vSub = new List <int>();
bool pass = true;
for (int y = 0; y < _yTile; y++)
{
for (int x = 0; x < _xTile; x++)
{
for (int i = 0; i < nHexIndices; i++)
{
if (recheck(tdx[i], x, y) == false)
{
vIdx.Add(reindex(ref e, tdx[i], x, y));
}
}
// west -> x-1
// south west -> odd : x, y-1 even: x-1, y-1
// south -> odd: x+1, y-1 even: x, y-1
int t = y % 2;
int ww = x - 1; // y
int sw = t > 0 ? x : x - 1; // y-1
int nw = t > 0 ? x : x - 1; // y+1
if (IsValid(ww, y))
{
pass = true;
pass &= recheck(edx[0][0] - nIndexOffset, x, y);
pass &= recheck(edx[0][1] - nIndexOffset, x, y);
pass &= recheck(edx[0][2] - nIndexOffset, ww, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[0][0] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[0][1] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[0][2] - nIndexOffset, ww, y));
}
pass = true;
pass &= recheck(edx[0][3] - nIndexOffset, ww, y);
pass &= recheck(edx[0][4] - nIndexOffset, ww, y);
pass &= recheck(edx[0][5] - nIndexOffset, x, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[0][3] - nIndexOffset, ww, y));
vSub.Add(reindex(ref e, edx[0][4] - nIndexOffset, ww, y));
vSub.Add(reindex(ref e, edx[0][5] - nIndexOffset, x, y));
}
if (IsValid(nw, y + 1))
{
pass = true;
pass &= recheck(edx[3][0] - nIndexOffset, x, y);
pass &= recheck(edx[3][1] - nIndexOffset, ww, y);
pass &= recheck(edx[3][2] - nIndexOffset, nw, y + 1);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[3][0] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[3][1] - nIndexOffset, ww, y));
vSub.Add(reindex(ref e, edx[3][2] - nIndexOffset, nw, y + 1));
}
}
if (IsValid(sw, y - 1))
{
pass = true;
pass &= recheck(edx[3][3] - nIndexOffset, x, y);
pass &= recheck(edx[3][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[3][5] - nIndexOffset, ww, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[3][3] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[3][4] - nIndexOffset, sw, y - 1));
vSub.Add(reindex(ref e, edx[3][5] - nIndexOffset, ww, y));
}
}
}
if (IsValid(sw, y - 1))
{
pass = true;
pass &= recheck(edx[1][0] - nIndexOffset, x, y);
pass &= recheck(edx[1][1] - nIndexOffset, x, y);
pass &= recheck(edx[1][2] - nIndexOffset, sw, y - 1);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[1][0] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[1][1] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[1][2] - nIndexOffset, sw, y - 1));
}
pass = true;
pass &= recheck(edx[1][3] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][5] - nIndexOffset, x, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[1][3] - nIndexOffset, sw, y - 1));
vSub.Add(reindex(ref e, edx[1][4] - nIndexOffset, sw, y - 1));
vSub.Add(reindex(ref e, edx[1][5] - nIndexOffset, x, y));
}
}
if (IsValid(nw, y + 1))
{
pass = true;
pass &= recheck(edx[2][0] - nIndexOffset, x, y);
pass &= recheck(edx[2][1] - nIndexOffset, x, y);
pass &= recheck(edx[2][2] - nIndexOffset, nw, y + 1);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[2][0] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[2][1] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[2][2] - nIndexOffset, nw, y + 1));
}
pass = true;
pass &= recheck(edx[2][3] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][4] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][5] - nIndexOffset, x, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[2][3] - nIndexOffset, nw, y + 1));
vSub.Add(reindex(ref e, edx[2][4] - nIndexOffset, nw, y + 1));
vSub.Add(reindex(ref e, edx[2][5] - nIndexOffset, x, y));
}
}
if (y == 0)
{
// we only patch west, north west, south west, which leaves crack in zero line
if (IsValid(x, y - 1))
{
pass = true;
pass &= recheck(edx[2][3] - nIndexOffset, x, y);
pass &= recheck(edx[2][4] - nIndexOffset, x, y);
pass &= recheck(edx[2][5] - nIndexOffset, x, y - 1);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[2][3] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[2][4] - nIndexOffset, x, y));
vSub.Add(reindex(ref e, edx[2][5] - nIndexOffset, x, y - 1));
}
pass = true;
pass &= recheck(edx[2][0] - nIndexOffset, x, y - 1);
pass &= recheck(edx[2][1] - nIndexOffset, x, y - 1);
pass &= recheck(edx[2][2] - nIndexOffset, x, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[2][0] - nIndexOffset, x, y - 1));
vSub.Add(reindex(ref e, edx[2][1] - nIndexOffset, x, y - 1));
vSub.Add(reindex(ref e, edx[2][2] - nIndexOffset, x, y));
}
if (IsValid(x - 1, y - 1))
{
pass = true;
pass &= recheck(edx[3][0] - nIndexOffset, x, y - 1);
pass &= recheck(edx[3][1] - nIndexOffset, x - 1, y - 1);
pass &= recheck(edx[3][2] - nIndexOffset, x, y);
if (pass == false)
{
vSub.Add(reindex(ref e, edx[3][0] - nIndexOffset, x, y - 1));
vSub.Add(reindex(ref e, edx[3][1] - nIndexOffset, x - 1, y - 1));
vSub.Add(reindex(ref e, edx[3][2] - nIndexOffset, x, y));
}
}
}
}
}
}
Mesh me = new Mesh();
me.subMeshCount = 2;
me.vertices = e.vHex.ToArray();
me.SetTriangles(vIdx.ToArray(), 0);
me.SetTriangles(vSub.ToArray(), 1);
me.normals = e.vNor.ToArray();
me.colors = e.vClr.ToArray();
me.tangents = e.vTan.ToArray();
me.uv = e.vTex.ToArray();
me.uv2 = e.vWater.ToArray();
me.uv3 = e.hasFoam.ToArray();
me.bounds = _bound;
var mf = gameObject.GetComponent <MeshFilter>();
if (mf == null)
{
mf = gameObject.AddComponent <MeshFilter>();
}
mf.sharedMesh = me;
var mr = gameObject.GetComponent <MeshRenderer>();
if (mr == null)
{
mr = gameObject.AddComponent <MeshRenderer>();
}
mr.shadowCastingMode = UnityEngine.Rendering.ShadowCastingMode.Off;
mr.sharedMaterials = _hex.GetWaterMats();
//mr.SetPropertyBlock(UpdateBlock());
}
void GenHexMesh(HEX _hex)
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
Vector3[] hexgon =
{
#if HEXGON0
new Vector3(0, 0, 0), // 0
#endif
new Vector3(0, +1, 0), // 1
new Vector3(+Tx, +Ty, 0), // 2
new Vector3(+Tx, -Ty, 0), // 3
new Vector3(0, -1, 0), // 4
new Vector3(-Tx, -Ty, 0), // 5
new Vector3(-Tx, +Ty, 0), // 6
};
Vector2[] water =
{
new Vector2(0, 0),
new Vector2(1, 0),
};
Color[] sc =
{
new Color(0, 0, 0, 0),
new Color(1, 0, 0, 0),
new Color(0, 1, 0, 0),
new Color(0, 0, 1, 0),
new Color(0, 0, 0, 1),
};
Vector4[] vc =
{
new Vector4(0, 0, 0, 0),
new Vector4(1, 0, 0, 0),
new Vector4(0, 1, 0, 0),
new Vector4(0, 0, 1, 0),
new Vector4(0, 0, 0, 1),
};
int siz = (_hex.yTile + 1) * (_hex.yTile + 1) * 8;
if (lst == null)
{
lst = new int[siz];
}
for (int i = 0; i < siz; i++)
{
lst[i] = -1;
}
element e = new element();
_reindex_Blend reindex_Blend = (ref element _elm, int _ver, int _col, int _row, Color BlendColor, Vector4 BlendTangent) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
int loc = ((_row + 1) * (_hex.xTile + 1) + (_col + 1)) * 8 + _ver;
int idx = lst[loc];
//if (idx >= 0)
// return idx;
idx = _elm.vHex.Count;
lst[loc] = idx;
Vector3 _v = Vector3.zero;
Vector3 _n = Vector3.zero;
Vector4 _t = Vector4.zero;
Vector2 _u = Vector2.zero;
Color _c;
float _R = Tx * 2.0f + _hex.fvHex.x;
int m = tileVo.mat;
int n = isGenHeight ? tileVo.height : MapConst.MAP_HEIGHT_HORIZON;
if (m == 8)
{
_c = sc[0];
_t = vc[0];
}
else
{
_c = sc[m <= 3 ? m + 1 : 0];
_t = vc[m >= 4 ? m - 3 : 0];
}
_v.x = _R * _col;
_v.y = _R * Tx * _row;
_v.z = n;
_n.z = m;
if (_row % 2 == 0)
{
_v.x += 0.0f;
}
else
{
_v.x += Tx + Ty * _hex.fvHex.x;
}
_elm.vHex.Add(hexgon[_ver] + _v);
_elm.vNor.Add(_n);
_elm.vClr.Add(BlendColor);
_elm.vTan.Add(BlendTangent);
_elm.vTex.Add(_u);
return(idx);
};
_recheck recheck = (int _ver, int _col, int _row) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
//if (tileVo.mat < 1)
if (tileVo.IsWater())
{
return(false);
}
return(true);
};
int nHexIndices, nIndexOffset;
#if HEXGON0
int[] tdx =
{
0, 1, 2, 0, 2, 3, 0, 3, 4,
0, 4, 5, 0, 5, 6, 0, 6, 1,
};
nHexIndices = 18;
nIndexOffset = 0;
#else
int[] tdx =
{
0, 1, 5, 5, 1, 4, 2, 4, 1, 3, 4, 2
};
nHexIndices = 12;
nIndexOffset = 1;
#endif
int[][] edx =
{
new int[] { 6, 5, 2, 3, 2, 5 },
new int[] { 5, 4, 1, 2, 1, 4 },
new int[] { 1, 6, 3, 4, 3, 6 },
new int[] { 6, 2, 4, 5, 1, 3 },
};
List <int> vIdx = new List <int>();
List <int> vSub = new List <int>();
List <int> vBld = new List <int>();
bool pass = true;
Color C1000 = new Color(1, 0, 0, 0);
Color C0000 = new Color(0, 0, 0, 0);
Color C0001 = new Color(0, 0, 0, 1);
Color C0010 = new Color(0, 0, 1, 0);
Color C0100 = new Color(0, 1, 0, 0);
Color C1010 = new Color(1, 0, 1, 0);
Color C0110 = new Color(0, 1, 1, 0);
Color C1111 = new Color(1, 1, 1, 1);
for (int y = 0; y < _yTile; y++)
{
for (int x = 0; x < _xTile; x++)
{
/*if (!(_x == 1 && _y == 0 && x == 0 && (y >= 11 && y < 15)))
* {
* continue;
* }*/
/*if (!(_x == 1 && _y == 1 && x == 0 && (y >= 1 && y < 5)))
* {
* continue;
* }*/
int thisCoordX = x + _xTile * _x;
int thisCoordY = y + _yTile * _y;
int thisMatNameInd = GetMatNameInd(thisCoordX, thisCoordY, -1);
// west -> x-1
// south west -> odd : x, y-1 even: x-1, y-1
// south -> odd: x+1, y-1 even: x, y-1
int t = y % 2;
int ww = x - 1; // y
int sw = t > 0 ? x : x - 1; // y-1
int nw = t > 0 ? x : x - 1; // y+1
if (IsValid(ww, y))
{
// block 4
int neighbor4MatNameInd = GetMatNameInd(thisCoordX, thisCoordY, 4);
Vector4 tangent = new Vector4(thisMatNameInd * 0.1f, neighbor4MatNameInd * 0.1f, -1, -1);
pass = true;
pass &= recheck(edx[0][0] - nIndexOffset, x, y);
pass &= recheck(edx[0][1] - nIndexOffset, x, y);
pass &= recheck(edx[0][2] - nIndexOffset, ww, y);
bool bBld = false;
if (x == 0)
{
bBld = true;
}
if (pass == true && bBld)
{
vBld.Add(reindex_Blend(ref e, edx[0][0] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[0][1] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[0][2] - nIndexOffset, ww, y, C0100, tangent));
}
pass = true;
pass &= recheck(edx[0][3] - nIndexOffset, ww, y);
pass &= recheck(edx[0][4] - nIndexOffset, ww, y);
pass &= recheck(edx[0][5] - nIndexOffset, x, y);
if (pass == true && bBld)
{
vBld.Add(reindex_Blend(ref e, edx[0][3] - nIndexOffset, ww, y, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[0][4] - nIndexOffset, ww, y, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[0][5] - nIndexOffset, x, y, C1000, tangent));
}
// tri 4
int neighbor5MatNameInd = GetMatNameInd(thisCoordX, thisCoordY, 5);
tangent = new Vector4(thisMatNameInd * 0.1f, neighbor4MatNameInd * 0.1f, neighbor5MatNameInd * 0.1f, -1);
if (IsValid(nw, y + 1))
{
pass = true;
pass &= recheck(edx[3][0] - nIndexOffset, x, y);
pass &= recheck(edx[3][1] - nIndexOffset, ww, y);
pass &= recheck(edx[3][2] - nIndexOffset, nw, y + 1);
if (pass == true && bBld)
{
vBld.Add(reindex_Blend(ref e, edx[3][0] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[3][1] - nIndexOffset, ww, y, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[3][2] - nIndexOffset, nw, y + 1, C0010, tangent));
}
}
// tri 3
int neighbor3MatNameInd = GetMatNameInd(thisCoordX, thisCoordY, 3);
tangent = new Vector4(thisMatNameInd * 0.1f, neighbor3MatNameInd * 0.1f, neighbor4MatNameInd * 0.1f, -1);
if (IsValid(sw, y - 1))
{
pass = true;
pass &= recheck(edx[3][3] - nIndexOffset, x, y);
pass &= recheck(edx[3][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[3][5] - nIndexOffset, ww, y);
if (pass == true && bBld)
{
if (x == 0 && y == 0)
{
// diag tri 3
}
else
{
vBld.Add(reindex_Blend(ref e, edx[3][3] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[3][4] - nIndexOffset, sw, y - 1, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[3][5] - nIndexOffset, ww, y, C0010, tangent));
}
}
}
}
if (IsValid(sw, y - 1))
{
// block 3
int neighbor3MatNameInd = GetMatNameInd(thisCoordX, thisCoordY, 3);
Vector4 tangent = new Vector4(thisMatNameInd * 0.1f, neighbor3MatNameInd * 0.1f, -1, -1);
bool bBld = false;
if (x == 0 && y % 2 == 0)
{
bBld = true;
}
pass = true;
pass &= recheck(edx[1][0] - nIndexOffset, x, y);
pass &= recheck(edx[1][1] - nIndexOffset, x, y);
pass &= recheck(edx[1][2] - nIndexOffset, sw, y - 1);
if (pass == true && bBld)
{
if (x == 0 && y == 0)
{
// diag block 3
}
else
{
vBld.Add(reindex_Blend(ref e, edx[1][0] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[1][1] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[1][2] - nIndexOffset, sw, y - 1, C0100, tangent));
}
}
pass = true;
pass &= recheck(edx[1][3] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][5] - nIndexOffset, x, y);
if (pass == true && bBld)
{
if (x == 0 && y == 0)
{
// diag block 3
}
else
{
vBld.Add(reindex_Blend(ref e, edx[1][3] - nIndexOffset, sw, y - 1, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[1][4] - nIndexOffset, sw, y - 1, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[1][5] - nIndexOffset, x, y, C1000, tangent));
}
}
}
if (IsValid(nw, y + 1))
{
// block 5
int neighbor5MatNameInd = GetMatNameInd(thisCoordX, thisCoordY, 5);
Vector4 tangent = new Vector4(thisMatNameInd * 0.1f, neighbor5MatNameInd * 0.1f, -1, -1);
bool bBld = false;
if (x == 0 && y % 2 == 0)
{
bBld = true;
}
pass = true;
pass &= recheck(edx[2][0] - nIndexOffset, x, y);
pass &= recheck(edx[2][1] - nIndexOffset, x, y);
pass &= recheck(edx[2][2] - nIndexOffset, nw, y + 1);
if (pass == true && bBld)
{
vBld.Add(reindex_Blend(ref e, edx[2][0] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[2][1] - nIndexOffset, x, y, C1000, tangent));
vBld.Add(reindex_Blend(ref e, edx[2][2] - nIndexOffset, nw, y + 1, C0100, tangent));
}
pass = true;
pass &= recheck(edx[2][3] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][4] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][5] - nIndexOffset, x, y);
if (pass == true && bBld)
{
vBld.Add(reindex_Blend(ref e, edx[2][3] - nIndexOffset, nw, y + 1, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[2][4] - nIndexOffset, nw, y + 1, C0100, tangent));
vBld.Add(reindex_Blend(ref e, edx[2][5] - nIndexOffset, x, y, C1000, tangent));
}
}
}
}
Mesh me = new Mesh();
me.subMeshCount = 1;
me.vertices = e.vHex.ToArray();
//me.SetTriangles(vIdx.ToArray(), 0);
//me.SetTriangles(vSub.ToArray(), 1);
me.SetTriangles(vBld.ToArray(), 0);
me.normals = e.vNor.ToArray();
me.colors = e.vClr.ToArray();
me.tangents = e.vTan.ToArray();
me.uv = e.vTex.ToArray();
me.bounds = _bound;
var mf = gameObject.GetComponent <MeshFilter>();
if (mf == null)
{
mf = gameObject.AddComponent <MeshFilter>();
}
mf.sharedMesh = me;
var mr = gameObject.GetComponent <MeshRenderer>();
if (mr == null)
{
mr = gameObject.AddComponent <MeshRenderer>();
}
mr.shadowCastingMode = UnityEngine.Rendering.ShadowCastingMode.Off;
mr.sharedMaterial = _hex.GetTerrainBlendMat();
//mr.SetPropertyBlock(UpdateBlock());
}
void GenHexMesh(HEX _hex)
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
Vector3[] hexgon =
{
#if HEXGON0
new Vector3(0, 0, 0), // 0
#endif
new Vector3(0, +1, 0), // 1
new Vector3(+Tx, +Ty, 0), // 2
new Vector3(+Tx, -Ty, 0), // 3
new Vector3(0, -1, 0), // 4
new Vector3(-Tx, -Ty, 0), // 5
new Vector3(-Tx, +Ty, 0), // 6
};
Vector2[] water =
{
new Vector2(0, 0),
new Vector2(1, 0),
};
Color[] sc =
{
new Color(0, 0, 0, 0),
new Color(1, 0, 0, 0),
new Color(0, 1, 0, 0),
new Color(0, 0, 1, 0),
new Color(0, 0, 0, 1),
};
Vector4[] vc =
{
new Vector4(0, 0, 0, 0),
new Vector4(1, 0, 0, 0),
new Vector4(0, 1, 0, 0),
new Vector4(0, 0, 1, 0),
new Vector4(0, 0, 0, 1),
};
int siz = (_hex.yTile + 1) * (_hex.yTile + 1) * 8;
if (lst == null)
{
lst = new int[siz];
}
for (int i = 0; i < siz; i++)
{
lst[i] = -1;
}
element e = new element();
_reindex reindex = (ref element _elm, int _ver, int _col, int _row, float tmpindex, Vector2 uv2) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
int loc = ((_row + 1) * (_hex.xTile + 1) + (_col + 1)) * 8 + _ver;
int idx = lst[loc];
//if (idx >= 0)
// return idx;
idx = _elm.vHex.Count;
lst[loc] = idx;
Vector3 _v = Vector3.zero;
Vector3 _n = Vector3.zero;
Vector4 _t = Vector4.zero;
Vector2 _u = Vector2.zero;
Color _c;
float _R = Tx * 2.0f + _hex.fvHex.x;
int m = tileVo.mat;
/*
* // sz test
* if(_x==0 && _y==0)
* {
* m=0;
* }
* else if(_x==1 && _y==0)
* {
* m=0;
* }
* else if(_x==0 && _y==1)
* {
* m=0;
* }
* else if(_x==1 && _y==1)
* {
* m=0;
* }
* // sz test
*/
int n = isGenHeight ? tileVo.height : MapConst.MAP_HEIGHT_HORIZON;
if (m == 8)
{
_c = sc[0];
_t = vc[0];
}
else
{
_c = sc[m <= 3 ? m + 1 : 0];
_t = vc[m >= 4 ? m - 3 : 0];
}
_v.x = _R * _col;
_v.y = _R * Tx * _row;
_v.z = n;
_n.z = m;
if (_row % 2 == 0)
{
_v.x += 0.0f;
}
else
{
_v.x += Tx + Ty * _hex.fvHex.x;
}
_elm.vHex.Add(hexgon[_ver] + _v);
_elm.vNor.Add(_n);
_elm.vClr.Add(_c);
if (tmpindex < 100)
{
_t.z = tmpindex;
}
else
{
_t.w = (int)tmpindex / 100;
_t.z = tmpindex - _t.w * 100;
}
_elm.vTan.Add(_t);
_elm.vTex.Add(_u);
_elm.vNorTex.Add(uv2);
return(idx);
};
_recheck recheck = (int _ver, int _col, int _row) =>
{
MapTileVO tileVo = mapProxy.GetTile(_col + _hex.xTile * _x, _row + _hex.yTile * _y);
//if (tileVo.mat < 1)
if (tileVo.IsWater())
{
return(false);
}
return(true);
};
int nHexIndices, nIndexOffset;
#if HEXGON0
int[] tdx =
{
0, 1, 2, 0, 2, 3, 0, 3, 4,
0, 4, 5, 0, 5, 6, 0, 6, 1,
};
nHexIndices = 18;
nIndexOffset = 0;
#else
int[] tdx =
{
0, 1, 5, 5, 1, 4, 2, 4, 1, 3, 4, 2
};
nHexIndices = 12;
nIndexOffset = 1;
#endif
int[][] edx =
{
new int[] { 6, 5, 2, 3, 2, 5 },
new int[] { 5, 4, 1, 2, 1, 4 },
new int[] { 1, 6, 3, 4, 3, 6 },
new int[] { 6, 2, 4, 5, 1, 3 },
};
List <int> vIdx = new List <int>();
List <int> vSub = new List <int>();
List <int> vBld = new List <int>();
bool pass = true;
Color R = new Color(1, 0, 0, 1);
Color G = new Color(0, 1, 0, 1);
Color B = new Color(0, 0, 1, 1);
Color C1 = new Color(1, 1, 1, 1);
Color C0 = new Color(0, 0, 0, 0);
Vector4 V1 = new Vector4(1, 1, 1, 1);
Vector4 V0 = new Vector4(0, 0, 0, 0);
Vector2 uv2_zero = new Vector2(0, 0);
/*Vector2 uv2_normal_block0_6 = new Vector2(0.251f, 0.643f);
* Vector2 uv2_normal_block0_5 = new Vector2(0.743f, 0.643f);
* Vector2 uv2_normal_block0_2 = new Vector2(0.259f, 0.357f);
* Vector2 uv2_normal_block0_3 = new Vector2(0.755f, 0.357f);
* Vector2 uv2_normal_hex_0 = new Vector2(0.5f, 1.0f);
* Vector2 uv2_normal_hex_5 = new Vector2(0.746f, 0.643f);
* Vector2 uv2_normal_hex_6 = new Vector2(0.251f, 0.643f);
* Vector2 uv2_normal_hex_00 = new Vector2(0.5f, 0.0f);
* Vector2 uv2_normal_hex_2 = new Vector2(0.259f, 0.357f);
* Vector2 uv2_normal_hex_3 = new Vector2(0.755f, 0.357f);
* Vector2 uv2_normal_tri_6 = new Vector2(0.251f, 0.643f);
* Vector2 uv2_normal_tri_2 = new Vector2(0.259f, 0.357f);
* Vector2 uv2_normal_tri_4 = new Vector2(0.003f, 0.523f);
* Vector2 uv2_normal_tri_5 = new Vector2(0.746f, 0.643f);
* Vector2 uv2_normal_tri_1 = new Vector2(0.998f, 0.509f);
* Vector2 uv2_normal_tri_3 = new Vector2(0.755f, 0.357f);*/
Vector2 uv2_normal_block0_6 = new Vector2(0.324f, 0.670f);
Vector2 uv2_normal_block0_5 = new Vector2(0.662f, 0.670f);
Vector2 uv2_normal_block0_2 = new Vector2(0.329f, 0.249f);
Vector2 uv2_normal_block0_3 = new Vector2(0.668f, 0.250f);
Vector2 uv2_normal_hex_0 = new Vector2(0.5f, 1.0f);
Vector2 uv2_normal_hex_5 = new Vector2(0.662f, 0.670f);
Vector2 uv2_normal_hex_6 = new Vector2(0.324f, 0.670f);
Vector2 uv2_normal_hex_00 = new Vector2(0.5f, 0.0f);
Vector2 uv2_normal_hex_2 = new Vector2(0.329f, 0.249f);
Vector2 uv2_normal_hex_3 = new Vector2(0.668f, 0.250f);
Vector2 uv2_normal_tri_6 = new Vector2(0.324f, 0.670f);
Vector2 uv2_normal_tri_2 = new Vector2(0.329f, 0.249f);
Vector2 uv2_normal_tri_4 = new Vector2(0.154f, 0.494f);
Vector2 uv2_normal_tri_5 = new Vector2(0.662f, 0.670f);
Vector2 uv2_normal_tri_1 = new Vector2(0.843f, 0.485f);
Vector2 uv2_normal_tri_3 = new Vector2(0.668f, 0.250f);
/*Vector2 uv2_normal_block0_6 = new Vector2(0.326f, 0.668f);
* Vector2 uv2_normal_block0_5 = new Vector2(0.660f, 0.668f);
* Vector2 uv2_normal_block0_2 = new Vector2(0.331f, 0.251f);
* Vector2 uv2_normal_block0_3 = new Vector2(0.666f, 0.252f);
* Vector2 uv2_normal_hex_0 = new Vector2(0.5f, 1.0f);
* Vector2 uv2_normal_hex_5 = new Vector2(0.662f, 0.670f);
* Vector2 uv2_normal_hex_6 = new Vector2(0.324f, 0.670f);
* Vector2 uv2_normal_hex_00 = new Vector2(0.5f, 0.0f);
* Vector2 uv2_normal_hex_2 = new Vector2(0.329f, 0.249f);
* Vector2 uv2_normal_hex_3 = new Vector2(0.668f, 0.250f);
* Vector2 uv2_normal_tri_6 = new Vector2(0.326f, 0.672f);
* Vector2 uv2_normal_tri_2 = new Vector2(0.331f, 0.247f);
* Vector2 uv2_normal_tri_4 = new Vector2(0.152f, 0.494f);
* Vector2 uv2_normal_tri_5 = new Vector2(0.660f, 0.668f);
* Vector2 uv2_normal_tri_1 = new Vector2(0.845f, 0.485f);
* Vector2 uv2_normal_tri_3 = new Vector2(0.666f, 0.252f);*/
for (int y = 0; y < _yTile; y++)
{
for (int x = 0; x < _xTile; x++)
{
/*if(!(x==1 && y==1 || x== && y==1))
* {
* continue;
* }*/
/*if (_x == 1 && _y == 1 && (x < 11 || y < 6))
* {
* continue;
* }*/
// get height info
int thisCoordX = x + _xTile * _x;
int thisCoordY = y + _yTile * _y;
Coord c = new Coord(thisCoordX, thisCoordY);
int thisHeight = mapProxy.GetTile(c).height;
int height_neighbor0 = GetNeighborHeight(thisCoordX, thisCoordY, 0);
int height_neighbor1 = GetNeighborHeight(thisCoordX, thisCoordY, 1);
int height_neighbor2 = GetNeighborHeight(thisCoordX, thisCoordY, 2);
int height_neighbor3 = GetNeighborHeight(thisCoordX, thisCoordY, 3);
int height_neighbor4 = GetNeighborHeight(thisCoordX, thisCoordY, 4);
int height_neighbor5 = GetNeighborHeight(thisCoordX, thisCoordY, 5);
// block5 left
Vector2 uv2_hex0_0 = new Vector2(0.0f, 0.5f);
Vector2 uv2_hex0_1 = new Vector2(0.375f, 0.211f);
Vector2 uv2_hex0_2 = new Vector2(0.375f, 0.785f);
// block0 right
Vector2 uv2_hex3_0 = new Vector2(1.0f, 0.5f);
Vector2 uv2_hex3_4 = new Vector2(0.621f, 0.785f);
Vector2 uv2_hex3_5 = new Vector2(0.621f, 0.211f);
float[] hex_index1 =
{
1.5f, 1.5f, 1.5f, 0.5f, 0.5f, 0.5f, 2.5f, 2.5f, 2.5f,
1.5f, 1.5f, 1.5f, 0.5f, 0.5f, 0.5f, 2.5f, 2.5f, 2.5f,
};
Vector2[] hex_index2 =
{
uv2_hex0_0, uv2_hex0_1, uv2_hex0_1,
uv2_hex0_0, uv2_hex0_1, uv2_hex0_1,
uv2_hex0_0, uv2_hex0_1, uv2_hex0_1,
uv2_hex3_0, uv2_hex3_4, uv2_hex3_5,
uv2_hex3_0, uv2_hex3_4, uv2_hex3_5,
uv2_hex3_0, uv2_hex3_4, uv2_hex3_5,
};
float heightCompare0 = CompareHeight(thisHeight, height_neighbor0);
float heightCompare1 = CompareHeight(thisHeight, height_neighbor1);
float heightCompare2 = CompareHeight(thisHeight, height_neighbor2);
float heightCompare3 = CompareHeight(thisHeight, height_neighbor3);
float heightCompare4 = CompareHeight(thisHeight, height_neighbor4);
float heightCompare5 = CompareHeight(thisHeight, height_neighbor5);
float[] hex_index3 =
{
thisHeight *100 + heightCompare0, thisHeight *100 + heightCompare0, thisHeight *100 + heightCompare0,
thisHeight *100 + heightCompare1, thisHeight *100 + heightCompare1, thisHeight *100 + heightCompare1,
thisHeight *100 + heightCompare2, thisHeight *100 + heightCompare2, thisHeight *100 + heightCompare2,
thisHeight *100 + heightCompare3, thisHeight *100 + heightCompare3, thisHeight *100 + heightCompare3,
thisHeight *100 + heightCompare4, thisHeight *100 + heightCompare4, thisHeight *100 + heightCompare4,
thisHeight *100 + heightCompare5, thisHeight *100 + heightCompare5, thisHeight *100 + heightCompare5,
};
Vector2[] hex_index4 =
{
uv2_normal_hex_00, uv2_normal_hex_2, uv2_normal_hex_3,
uv2_normal_hex_00, uv2_normal_hex_2, uv2_normal_hex_3,
uv2_normal_hex_00, uv2_normal_hex_2, uv2_normal_hex_3,
uv2_normal_hex_0, uv2_normal_hex_5, uv2_normal_hex_6,
uv2_normal_hex_0, uv2_normal_hex_5, uv2_normal_hex_6,
uv2_normal_hex_0, uv2_normal_hex_5, uv2_normal_hex_6,
};
// hexgon
for (int i = 0; i < nHexIndices; i++)
{
if (recheck(tdx[i], x, y) == true)
{
//vIdx.Add(reindex(ref e, tdx[i], x, y, hex_index3[i], hex_index4[i]));
vIdx.Add(reindex(ref e, tdx[i], x, y, 4.5f, hex_index4[i]));
}
}
// west -> x-1
// south west -> odd : x, y-1 even: x-1, y-1
// south -> odd: x+1, y-1 even: x, y-1
int t = y % 2;
int ww = x - 1; // y
int sw = t > 0 ? x : x - 1; // y-1
int nw = t > 0 ? x : x - 1; // y+1
if (IsValid(ww, y))
{
Vector2 uv2_block0_6 = new Vector2(0.621f, 0.211f);
Vector2 uv2_block0_5 = new Vector2(0.621f, 0.785f);
Vector2 uv2_block0_3 = new Vector2(0.375f, 0.785f);
Vector2 uv2_block0_2 = new Vector2(0.375f, 0.211f);
Vector2 uv2_tri0_6 = new Vector2(0.621f, 0.211f);
Vector2 uv2_tri0_2 = new Vector2(0.375f, 0.211f);
Vector2 uv2_tri0_4 = new Vector2(0.5f, 0.0f);
Vector2 uv2_tri5_5 = new Vector2(0.621f, 0.785f);
Vector2 uv2_tri5_1 = new Vector2(0.5f, 1.0f);
Vector2 uv2_tri5_3 = new Vector2(0.375f, 0.785f);
// block 4
pass = true;
pass &= recheck(edx[0][0] - nIndexOffset, x, y);
pass &= recheck(edx[0][1] - nIndexOffset, x, y);
pass &= recheck(edx[0][2] - nIndexOffset, ww, y);
bool bBld = false;
if (x == 0 && isBlend)
{
bBld = true;
}
if (pass == true && !bBld)
{
/*vSub.Add( reindex(ref e, edx[0][0] - nIndexOffset, x, y, 0.5f, uv2_block0_6) );
* vSub.Add( reindex(ref e, edx[0][1] - nIndexOffset, x, y, 0.5f, uv2_block0_5) );
* vSub.Add( reindex(ref e, edx[0][2] - nIndexOffset, ww, y, 0.5f, uv2_block0_2) );*/
vSub.Add(reindex(ref e, edx[0][0] - nIndexOffset, x, y, heightCompare4, uv2_normal_block0_6));
vSub.Add(reindex(ref e, edx[0][1] - nIndexOffset, x, y, heightCompare4, uv2_normal_block0_5));
vSub.Add(reindex(ref e, edx[0][2] - nIndexOffset, ww, y, heightCompare4, uv2_normal_block0_2));
}
pass = true;
pass &= recheck(edx[0][3] - nIndexOffset, ww, y);
pass &= recheck(edx[0][4] - nIndexOffset, ww, y);
pass &= recheck(edx[0][5] - nIndexOffset, x, y);
if (pass == true && !bBld)
{
/*vSub.Add(reindex(ref e, edx[0][3] - nIndexOffset, ww, y, 0.5f, uv2_block0_3));
* vSub.Add(reindex(ref e, edx[0][4] - nIndexOffset, ww, y, 0.5f, uv2_block0_2));
* vSub.Add(reindex(ref e, edx[0][5] - nIndexOffset, x, y, 0.5f, uv2_block0_5));*/
vSub.Add(reindex(ref e, edx[0][3] - nIndexOffset, ww, y, heightCompare4, uv2_normal_block0_3));
vSub.Add(reindex(ref e, edx[0][4] - nIndexOffset, ww, y, heightCompare4, uv2_normal_block0_2));
vSub.Add(reindex(ref e, edx[0][5] - nIndexOffset, x, y, heightCompare4, uv2_normal_block0_5));
}
// tri 4
if (IsValid(nw, y + 1))
{
pass = true;
pass &= recheck(edx[3][0] - nIndexOffset, x, y);
pass &= recheck(edx[3][1] - nIndexOffset, ww, y);
pass &= recheck(edx[3][2] - nIndexOffset, nw, y + 1);
Vector2 v0_uv = new Vector2();
Vector2 v1_uv = new Vector2();
Vector2 v2_uv = new Vector2();
int heightCompare_type = CompareHeight_Tri0(height_neighbor5, height_neighbor4, thisHeight);
float heightCompare_tri0 = 0;
switch (heightCompare_type)
{
case 0:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_3;
v1_uv = uv2_normal_tri_5;
v2_uv = uv2_normal_tri_1;
break;
case 1:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_5;
v1_uv = uv2_normal_tri_1;
v2_uv = uv2_normal_tri_3;
break;
case 2:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_2;
v1_uv = uv2_normal_tri_4;
v2_uv = uv2_normal_tri_6;
break;
case 3:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_6;
v1_uv = uv2_normal_tri_2;
v2_uv = uv2_normal_tri_4;
break;
case 4:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_2;
v1_uv = uv2_normal_tri_4;
v2_uv = uv2_normal_tri_6;
break;
case 5:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_5;
v1_uv = uv2_normal_tri_1;
v2_uv = uv2_normal_tri_3;
break;
default:
heightCompare_tri0 = 4.5f;
break;
}
if (pass == true && !bBld)
{
//if (heightCompare_type == 3)
{
/*vSub.Add(reindex(ref e, edx[3][0] - nIndexOffset, x, y, 0.5f, uv2_tri0_6));
* vSub.Add(reindex(ref e, edx[3][1] - nIndexOffset, ww, y, 0.5f, uv2_tri0_2));
* vSub.Add(reindex(ref e, edx[3][2] - nIndexOffset, nw, y+1, 0.5f, uv2_tri0_4));*/
vSub.Add(reindex(ref e, edx[3][0] - nIndexOffset, x, y, heightCompare_tri0, v0_uv));
vSub.Add(reindex(ref e, edx[3][1] - nIndexOffset, ww, y, heightCompare_tri0, v2_uv));
vSub.Add(reindex(ref e, edx[3][2] - nIndexOffset, nw, y + 1, heightCompare_tri0, v1_uv));
}
}
}
// tri 3
if (IsValid(sw, y - 1))
{
pass = true;
pass &= recheck(edx[3][3] - nIndexOffset, x, y);
pass &= recheck(edx[3][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[3][5] - nIndexOffset, ww, y);
Vector2 v0_uv = new Vector2();
Vector2 v1_uv = new Vector2();
Vector2 v2_uv = new Vector2();
int heightCompare_type = CompareHeight_Tri0(height_neighbor3, thisHeight, height_neighbor4);
float heightCompare_tri0 = 0;
switch (heightCompare_type)
{
case 0:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_1;
v1_uv = uv2_normal_tri_3;
v2_uv = uv2_normal_tri_5;
break;
case 1:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_5;
v1_uv = uv2_normal_tri_1;
v2_uv = uv2_normal_tri_3;
break;
case 2:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_2;
v1_uv = uv2_normal_tri_4;
v2_uv = uv2_normal_tri_6;
break;
case 3:
heightCompare_tri0 = 5.5f;
v0_uv = uv2_normal_tri_6;
v1_uv = uv2_normal_tri_2;
v2_uv = uv2_normal_tri_4;
break;
case 4:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_2;
v1_uv = uv2_normal_tri_4;
v2_uv = uv2_normal_tri_6;
break;
case 5:
heightCompare_tri0 = 3.5f;
v0_uv = uv2_normal_tri_5;
v1_uv = uv2_normal_tri_1;
v2_uv = uv2_normal_tri_3;
break;
default:
heightCompare_tri0 = 4.5f;
break;
}
if (y == 0 && isBlend)
{
bBld = true;
}
float heightCompare_tri5 = 4.5f;
if (heightCompare3 != 4.5f)
{
heightCompare_tri5 = heightCompare3;
}
if (heightCompare4 != 4.5f)
{
heightCompare_tri5 = heightCompare4;
}
if (pass == true && !bBld)
{
/*vSub.Add(reindex(ref e, edx[3][3] - nIndexOffset, x, y, 0.5f, uv2_tri5_5));
* vSub.Add(reindex(ref e, edx[3][4] - nIndexOffset, sw, y-1, 0.5f, uv2_tri5_1));
* vSub.Add(reindex(ref e, edx[3][5] - nIndexOffset, ww, y, 0.5f, uv2_tri5_3));*/
vSub.Add(reindex(ref e, edx[3][3] - nIndexOffset, x, y, heightCompare_tri5, v0_uv));
vSub.Add(reindex(ref e, edx[3][4] - nIndexOffset, sw, y - 1, heightCompare_tri5, v1_uv));
vSub.Add(reindex(ref e, edx[3][5] - nIndexOffset, ww, y, heightCompare_tri5, v2_uv));
}
}
}
if (IsValid(sw, y - 1))
{
Vector2 uv2_block5_5 = new Vector2(0.621f, 0.211f);
Vector2 uv2_block5_4 = new Vector2(0.621f, 0.785f);
Vector2 uv2_block5_2 = new Vector2(0.375f, 0.785f);
Vector2 uv2_block5_1 = new Vector2(0.375f, 0.211f);
// block 3
pass = true;
pass &= recheck(edx[1][0] - nIndexOffset, x, y);
pass &= recheck(edx[1][1] - nIndexOffset, x, y);
pass &= recheck(edx[1][2] - nIndexOffset, sw, y - 1);
bool bBld = false;
if ((x == 0 && y % 2 == 0 || y == 0) && isBlend)
{
bBld = true;
}
if (pass == true && !bBld)
{
vSub.Add(reindex(ref e, edx[1][0] - nIndexOffset, x, y, heightCompare3, uv2_normal_block0_6));
vSub.Add(reindex(ref e, edx[1][1] - nIndexOffset, x, y, heightCompare3, uv2_normal_block0_5));
vSub.Add(reindex(ref e, edx[1][2] - nIndexOffset, sw, y - 1, heightCompare3, uv2_normal_block0_2));
}
pass = true;
pass &= recheck(edx[1][3] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][4] - nIndexOffset, sw, y - 1);
pass &= recheck(edx[1][5] - nIndexOffset, x, y);
if (pass == true && !bBld)
{
vSub.Add(reindex(ref e, edx[1][3] - nIndexOffset, sw, y - 1, heightCompare3, uv2_normal_block0_3));
vSub.Add(reindex(ref e, edx[1][4] - nIndexOffset, sw, y - 1, heightCompare3, uv2_normal_block0_2));
vSub.Add(reindex(ref e, edx[1][5] - nIndexOffset, x, y, heightCompare3, uv2_normal_block0_5));
}
}
if (IsValid(nw, y + 1))
{
Vector2 uv2_block1_1 = new Vector2(0.621f, 0.211f);
Vector2 uv2_block1_6 = new Vector2(0.621f, 0.785f);
Vector2 uv2_block1_4 = new Vector2(0.375f, 0.785f);
Vector2 uv2_block1_3 = new Vector2(0.375f, 0.211f);
// block 5
pass = true;
pass &= recheck(edx[2][0] - nIndexOffset, x, y);
pass &= recheck(edx[2][1] - nIndexOffset, x, y);
pass &= recheck(edx[2][2] - nIndexOffset, nw, y + 1);
bool bBld = false;
if (x == 0 && y % 2 == 0 && isBlend)
{
bBld = true;
}
if (pass == true && !bBld)
{
vSub.Add(reindex(ref e, edx[2][0] - nIndexOffset, x, y, heightCompare5, uv2_normal_block0_6));
vSub.Add(reindex(ref e, edx[2][1] - nIndexOffset, x, y, heightCompare5, uv2_normal_block0_5));
vSub.Add(reindex(ref e, edx[2][2] - nIndexOffset, nw, y + 1, heightCompare5, uv2_normal_block0_2));
}
pass = true;
pass &= recheck(edx[2][3] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][4] - nIndexOffset, nw, y + 1);
pass &= recheck(edx[2][5] - nIndexOffset, x, y);
if (pass == true && !bBld)
{
vSub.Add(reindex(ref e, edx[2][3] - nIndexOffset, nw, y + 1, heightCompare5, uv2_normal_block0_3));
vSub.Add(reindex(ref e, edx[2][4] - nIndexOffset, nw, y + 1, heightCompare5, uv2_normal_block0_2));
vSub.Add(reindex(ref e, edx[2][5] - nIndexOffset, x, y, heightCompare5, uv2_normal_block0_5));
}
}
}
}
Mesh me = new Mesh();
me.subMeshCount = 3;
me.vertices = e.vHex.ToArray();
me.SetTriangles(vIdx.ToArray(), 0);
me.SetTriangles(vSub.ToArray(), 1);
me.SetTriangles(vBld.ToArray(), 2);
me.normals = e.vNor.ToArray();
me.colors = e.vClr.ToArray();
me.tangents = e.vTan.ToArray();
me.uv = e.vTex.ToArray();
me.uv2 = e.vNorTex.ToArray();
me.bounds = _bound;
var mf = gameObject.GetComponent <MeshFilter>();
if (mf == null)
{
mf = gameObject.AddComponent <MeshFilter>();
}
mf.sharedMesh = me;
var mr = gameObject.GetComponent <MeshRenderer>();
if (mr == null)
{
mr = gameObject.AddComponent <MeshRenderer>();
}
mr.shadowCastingMode = UnityEngine.Rendering.ShadowCastingMode.Off;
mr.sharedMaterials = _hex.GetTerrainMats();
//mr.SetPropertyBlock(UpdateBlock());
}
void Init()
{
mapProxy = GameFacade.GetProxy <MapProxy>();
foreach (Dropdown dd in sprLists)
{
dd.ClearOptions();
dd.AddOptions(MapView.Current.Lod0.hex.GetSprNames());
dd.onValueChanged.AddListener((int sprIndex) =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_SPRLIST);
blockTypeLayout.transform.parent.gameObject.SetActive(false);
UpdateCurOpTips("Change Spr List " + sprIndex);
List <int> sprs = new List <int>(4);
for (int i = 0; i < 4; i++)
{
sprs.Add(sprLists[i].value);
}
mapProxy.SeedSprList(mCurLeftClicked.GetSubmapCoord(), sprs);
MapView.Current.Lod0.ForceRereshSubMapView(mCurLeftClicked);
});
}
foreach (Toggle btn in texGroup.GetComponentsInChildren <Toggle>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onValueChanged.AddListener((bool isOn) =>
{
if (isOn)
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_TEX);
blockTypeLayout.transform.parent.gameObject.SetActive(false);
mTexIndex = (byte)(index - 1);
UpdateCurOpTips("Texture " + mTexIndex);
}
});
}
foreach (Button btn in heightLayout.GetComponentsInChildren <Button>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_HEIGHT);
blockTypeLayout.transform.parent.gameObject.SetActive(false);
mHeightOp = index == 2 ? true : false;
UpdateCurOpTips(mHeightOp ? "Height+1 " : "Height-1");
});
}
foreach (Button btn in campLayout.GetComponentsInChildren <Button>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_AREA);
blockTypeLayout.transform.parent.gameObject.SetActive(false);
mCampIndex = index;
UpdateCurOpTips("Area " + mCampIndex);
});
}
foreach (Button btn in levelLayout.GetComponentsInChildren <Button>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_LV);
blockTypeLayout.transform.parent.gameObject.SetActive(false);
mLvIndex = index;
UpdateCurOpTips("Level " + mLvIndex);
});
}
foreach (Button btn in tileTypeLayout.GetComponentsInChildren <Button>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_TILETYPE);
blockTypeLayout.transform.parent.gameObject.SetActive(index == 1);
mTypeIndex = index;
UpdateCurOpTips("MapTileType " + ((MapTileType)mTypeIndex).ToString());
});
}
foreach (Button btn in blockTypeLayout.GetComponentsInChildren <Button>())
{
byte index = byte.Parse(btn.name.Substring(1, 1));
btn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
ChangeCurOp(EDIT_OP.EDIT_BLOCKTYPE);
mBlockTypeIndex = index;
UpdateCurOpTips("BlockType " + ((MapBlockType)mBlockTypeIndex).ToString());
});
}
saveBtn.onClick.AddListener(() =>
{
mIsClickEditArea = true;
GameFacade.GetProxy <MapProxy>().Export();
});
recToggle.onValueChanged.AddListener((bool isOn) =>
{
if (isOn)
{
recOp.text = curEdit.text;
}
});
applyBtn.onClick.AddListener(BulkEdit);
}
public void UpdateInterSprList()
{
MapProxy mapProxy = GameFacade.GetProxy <MapProxy>();
MapTileVO theTile = mapProxy.GetTile(mHexBg._xTile * mHexBg._x, mHexBg._yTile * mHexBg._y);
int theMat = theTile.mat;
if (theMat > 3)
{
theMat = 0;
}
byte leftMat = 255;
byte prevMat = 255;
byte diagMat = 255;
if (left != null)
{
MapTileVO leftTile = mapProxy.GetTile(left.mHexBg._xTile * left.mHexBg._x, left.mHexBg._yTile * left.mHexBg._y);
leftMat = leftTile.mat;
if (leftMat > 3)
{
leftMat = 0;
}
}
if (prev != null)
{
MapTileVO prevTile = mapProxy.GetTile(prev.mHexBg._xTile * prev.mHexBg._x, prev.mHexBg._yTile * prev.mHexBg._y);
prevMat = prevTile.mat;
if (prevMat > 3)
{
prevMat = 0;
}
}
if (diag != null)
{
MapTileVO diagTile = mapProxy.GetTile(diag.mHexBg._xTile * diag.mHexBg._x, diag.mHexBg._yTile * diag.mHexBg._y);
diagMat = diagTile.mat;
if (diagMat > 3)
{
diagMat = 0;
}
}
bool hasLeft = false;
if (left != null && left.mHexBg.spriteIds.Count > 0)
{
hasLeft = true;
}
bool hasPrev = false;
if (prev != null && prev.mHexBg.spriteIds.Count > 0)
{
hasPrev = true;
}
if (mHexBlendL)
{
mHexBlendL.left = hasLeft;
mHexBlendL.thisSprites = mHexBg.spriteIds;
if (hasLeft)
{
//int[] same = GetSameSpriteIds(mHexBg.spriteIds, left.mHexBg.spriteIds);
mHexBlendL.leftSprites = left.mHexBg.spriteIds;
mHexBlendL.spriteIds.Clear();
mHexBlendL.spriteIds.AddRange(mHexBg.spriteIds);
mHexBlendL.spriteIds.AddRange(left.mHexBg.spriteIds);
}
}
if (mHexBlendP)
{
mHexBlendP.prev = hasPrev;
mHexBlendP.thisSprites = mHexBg.spriteIds;
if (hasPrev)
{
//int[] same = GetSameSpriteIds(mHexBg.spriteIds, prev.mHexBg.spriteIds);
mHexBlendP.prevSprites = prev.mHexBg.spriteIds;
mHexBlendP.spriteIds.Clear();
mHexBlendP.spriteIds.AddRange(mHexBg.spriteIds);
mHexBlendP.spriteIds.AddRange(prev.mHexBg.spriteIds);
}
}
if (mHexBlendD)
{
mHexBlendD.left = hasLeft;
mHexBlendD.prev = hasPrev;
mHexBlendD.thisSprites = mHexBg.spriteIds;
if (hasLeft && hasPrev)
{
//int[] same = GetSameSpriteIds(mHexBg.spriteIds, prev.mHexBg.spriteIds);
mHexBlendD.leftSprites = left.mHexBg.spriteIds;
mHexBlendD.prevSprites = prev.mHexBg.spriteIds;
mHexBlendD.diagSprites = diag.mHexBg.spriteIds;
mHexBlendD.spriteIds.Clear();
mHexBlendD.spriteIds.Add(0);
mHexBlendD.spriteIds.Add(1);
mHexBlendD.spriteIds.Add(2);
mHexBlendD.spriteIds.Add(3);
}
}
}
