void ReleaseDesignerOutlets()
{
if (Cell1 != null)
{
Cell1.Dispose();
Cell1 = null;
}
if (Cell2 != null)
{
Cell2.Dispose();
Cell2 = null;
}
if (Cell3 != null)
{
Cell3.Dispose();
Cell3 = null;
}
if (inboxCell != null)
{
inboxCell.Dispose();
inboxCell = null;
}
}
// Constructor
//public cellOutputValues (string cellName, float iradius, simulationManager2 imngr) {
public cellOutputValues(Cell2 icell)
{
/*name = cellName;
* cellRadius = iradius;
* mngr = imngr;*/
cell = icell;
//if (!cell.randomStartingPosition) {
// allReceptorsOriginPoint = cell.globalToLocal(cell.globalMeshVerts[cell.originVert]);
//}
string expFolder = "exp_" + cell.mngr.experimentNumber;
basicPathForOutput = Application.dataPath + "/Output/" + expFolder + "/";
if (!Directory.Exists(basicPathForOutput))
{
Directory.CreateDirectory(basicPathForOutput);
Directory.CreateDirectory(basicPathForOutput + "distance_from_interaction_point/");
Directory.CreateDirectory(basicPathForOutput + "diffusion_calculations/");
Directory.CreateDirectory(basicPathForOutput + "receptor_amounts/");
Directory.CreateDirectory(basicPathForOutput + "signal/");
}
}
public static Vector2 GetSpawnPoint()
{
var vertices = new Vertex2[4 + spaceships.Count + shots.Count];
var index = 0;
var spaceHalfSize = Game.Size / 2;
vertices[index++] = new Vertex2(-spaceHalfSize.x, -spaceHalfSize.y);
vertices[index++] = new Vertex2(spaceHalfSize.x, -spaceHalfSize.y);
vertices[index++] = new Vertex2(-spaceHalfSize.x, spaceHalfSize.y);
vertices[index++] = new Vertex2(spaceHalfSize.x, spaceHalfSize.y);
foreach (var obj in spaceships)
{
vertices[index++] = new Vertex2(obj.Position.x, obj.Position.y);
}
foreach (var obj in shots)
{
vertices[index++] = new Vertex2(obj.Position.x, obj.Position.y);
}
var triangulation = Triangulation.CreateDelaunay <Vertex2, Cell2>(vertices);
Cell2 maxTriangle = triangulation.Cells.First();
float maxArea = 0;
foreach (var triangle in triangulation.Cells)
{
var area = triangle.Area;
if (area > maxArea)
{
maxArea = area;
maxTriangle = triangle;
}
}
return(maxTriangle.Centroid);
}
private static void NtxConfigurePositionQuad(FieldEntity entity, float baseTime, float targetTime,
Cell2 srcCell,
Cell2 targetCell, float height1, float height2, float arcHeight)
{
var a = new FVector3(srcCell.X, srcCell.Y, height1);
var c = new FVector3(targetCell.X, targetCell.Y, height2);
var b = FVector3.Midpoint(a, c);
b = new FVector3(b.X, b.Y, arcHeight);
entity.Position = new Position(a, b, c, baseTime, targetTime);
}
private IEnumerable <FieldEntity> MgScanPrimaryMulti(Cell2 startCell, Cell2 axis,
int count)
{
for (var i = 0; i < count; i++)
{
var res = Manager?.CheckPrimaryEntity(startCell + axis * i);
if (res != null)
{
yield return(res);
}
}
}
private FieldEntity MgScanPrimary(Cell2 startCell, Cell2 axis, int count)
{
for (var i = 0; i < count; i++)
{
var res = Manager?.CheckPrimaryEntity(startCell + axis * i);
if (res != null)
{
return(res);
}
}
return(null);
}
public void loadnewSS(string filepath)
{
int Cols = 0;
int Rows = 0;
IEnumerable <string> SScols = from dimensions in XDocument.Load(filepath).Descendants("spreadsheet")
select dimensions.Element("columns").Value;
IEnumerable <string> SSrows = from dimensions in XDocument.Load(filepath).Descendants("spreadsheet")
select dimensions.Element("rows").Value;
if (Int32.TryParse(SScols.First(), out Cols) && Int32.TryParse(SSrows.First(), out Rows))
{
if (Cols != ColumnCount || Rows != RowCount)
{
// Set size for Collection
Collection = new Cell2[Cols, Rows];
// Set each cell in Collection to specific Cell2 and tie to Property changed event
for (int i = 0; i < Cols; i++)
{
for (int a = 0; a < Rows; a++)
{
Collection[i, a] = new Cell2(i, a);
Collection[i, a].PropertyChanged += Cell_PropertyChanged;
Collection[i, a].ValPropertyChanged += Cell_PropertyChanged;
}
}
// Set ColumnCount and RowCount values
ColumnCount = Cols;
RowCount = Rows;
}
}
var Cellvals = from dimensions in XDocument.Load(filepath).Descendants("cells").Descendants("cell")
where new Regex("[a-zA-Z]+[\\d]*").IsMatch(dimensions.Element("placement").Value)
select new
{
TextVal = dimensions.Element("text").Value,
CellVal = dimensions.Element("placement").Value,
ValVal = dimensions.Element("value").Value
};
foreach (var cellval in Cellvals)
{
getCell(cellval.CellVal)._Text = cellval.TextVal;
//((Cell2)hold).SetValue(cellval.ValVal);
}
}
/// <summary>
/// 显示Cell文件
/// </summary>
/// <param name="fileID">文件ID</param>
private void showCell(string fileID)
{
// string fileID = e.Node.Name;
IList <MDL.T_CellAndEFile> cellAndEFile_List =
(new BLL.T_CellAndEFile_BLL()).FindByFileID(fileID, Globals.ProjectNO);
if (cellAndEFile_List != null && cellAndEFile_List.Count > 0)
{
string filePath = cellAndEFile_List[0].filepath;
if (filePath != null && filePath.Length > 0 && filePath.IndexOf(".cll") > -1)
{
int retValue = Cell2.OpenFile(string.Concat(Globals.ProjectPath, filePath), "");
Cell2.HScrollHeight = 1;
//Cell2.VScrollWidth = 0;
if (Cell2.GetTotalSheets() > 1)
{
Cell2.SetCurSheet(0);
}
}
else
{
IList <MDL.T_CellFileTemplate> cellFileTemplate_List =
(new BLL.T_CellFileTemplate_BLL()).FindByFileID(fileID);
if (cellFileTemplate_List != null && cellFileTemplate_List.Count > 0 &&
cellFileTemplate_List[0].filepath != null && cellFileTemplate_List[0].filepath.Length > 0)
{
int retValue = Cell2.OpenFile(string.Concat(Application.StartupPath, "\\", "Template", cellFileTemplate_List[0].filepath), "");
//Cell2.AutoScrollOffset = 1;
//Cell2.VScrollWidth = 0;
if (Cell2.GetTotalSheets() > 1)
{
Cell2.SetCurSheet(0);
}
}
else
{
Cell2.OpenFile(Globals.BlankCell, "");
}
}
}
else
{
Cell2.OpenFile(Globals.BlankCell, "");
}
}
// Constructor for spreadsheet
public spreadsheet(int Col, int Row)
{
// Set size for Collection
Collection = new Cell2[Col, Row];
// Set each cell in Collection to specific Cell2 and tie to Property changed event
for (int i = 0; i < Col; i++)
{
for (int a = 0; a < Row; a++)
{
Collection[i, a] = new Cell2(i, a);
Collection[i, a].PropertyChanged += Cell_PropertyChanged;
Collection[i, a].ValPropertyChanged += Cell_PropertyChanged;
}
}
// Set ColumnCount and RowCount values
ColumnCount = Col;
RowCount = Row;
}
public twoCellInteraction(Cell2 icellA, Cell2 icellB)
{
cellA = icellA;
cellB = icellB;
// Assigning the closest point on each cell surface to the cells themselves. DONT FORGET TO MOVE IT HERE!
// Find the closest point between the two cells on each cell's surface, and calculate the radius around which a receptor interaction might happen. LOCAL SPACE!
Vector3 fromCellAToCellB = cellB.gameObject.transform.position - cellA.gameObject.transform.position;
//Vector3 closestPointIfSphere = cellA.localToGlobal(cellA.radius * fromCellAToCellB.normalized);// WHY USE THIS?!
// to find actual closest point on surface, we find the closest vertex to the point on a spherical cell
//cellA.closestPointToInteractingCellOnCellSurface = cellA.findClosestVertexOnSurface(closestPointIfSphere); // KANAL - no need to find closest point on sphere first, just find the closest point to the other cell.
cellA.closestPointToInteractingCellOnCellSurface = cellA.findClosestVertexOnSurface(cellB.transform.position);
// Setting the origin vertex for filopodia
//cellA.endocytosisCenterVert = cellA.findFarthestVertexIndexOnSurface(cellB.transform.position);
// cell 2
Vector3 fromCellBToCellA = cellA.gameObject.transform.position - cellB.gameObject.transform.position;
//closestPointIfSphere = cellB.localToGlobal(cellB.radius * fromCellBToCellA.normalized);
// to find actual closest point on surface, we find the closest vertex to the point on a spherical cell
//cellB.closestPointToInteractingCellOnCellSurface = cellB.findClosestVertexOnSurface(closestPointIfSphere);
cellB.closestPointToInteractingCellOnCellSurface = cellB.findClosestVertexOnSurface(cellA.transform.position);
// Setting the origin vertex for filopodia
//cellB.endocytosisCenterVert = cellB.findFarthestVertexIndexOnSurface(cellA.transform.position);
// Set values for output
/*cellA.outputValues.interactionPointOnCell = cellA.closestPointToInteractingCellOnCellSurface;
* cellB.outputValues.interactionPointOnCell = cellB.closestPointToInteractingCellOnCellSurface;*/
// Create a line between the cells
/*LineRenderer lineObject = GameObject.Instantiate(Resources.Load("LineBetweenReceptors", typeof(LineRenderer))) as LineRenderer;
* lineObject.gameObject.name = "LineBetweenCells";
* // Draw the line itself
* lineObject.SetPosition(0, cellA.closestPointToInteractingCellOnCellSurface);//cellA.transform.position
* lineObject.SetPosition(1, cellB.closestPointToInteractingCellOnCellSurface); //cellB.transform.position
* lineObject.SetColors(new Color(0f, 0f, 1f, 0.3f), new Color(0f, 0f, 1f, 0.3f));*/
Debug.Log("Distance between cells: " + Utils.calcEuclideanDistance(cellA.closestPointToInteractingCellOnCellSurface, cellB.closestPointToInteractingCellOnCellSurface));
}
/// <summary>
/// 初始化详细过程
/// </summary>
public void Init()
{
try
{
Cell2.WorkbookReadonly = true;
this.Text = "工程资料用表 - " + Globals.Projectname; //窗体标题
tssLabel1.Text = Globals.NormalStatus; //状态栏:就绪
tssLabel2.Text = Globals.AppTitle; //状态栏:应用程序标题
tssLabel3.Text = "当前用户:" + Globals.LoginUser; //状态栏:当前用户
ImageList imageList1 = treeFactory.CreateTreeImageList();
treeView1.ImageList = imageList1;
treeFactory.GetTree(treeView1, Globals.ProjectNO, "", true, true, 1, true);
Cell2.OpenFile(Globals.BlankCell, "");
listView1.LargeImageList = imageList1;
listView1.SmallImageList = imageList1;
}
catch
{
}
}
// builds a map of the neighbors of each vector
public void buildNeighborsDetails(Cell2 icell, Mesh mesh)
{
objectMesh = mesh;
cell = icell;
int[] t = mesh.triangles;
//verticesHash = new ArrayList(mesh.vertices.Length);
/*for (int i = 0; i < mesh.vertices.Length; i++) {
* neighborsForVertex.Add(i, new List<int>());
* }*/
//vertexDetails tempDets;
// Initialize vertexDetails array to each vertex.
for (int i = 0; i < mesh.vertices.Length; i++)
{
vertexDetails tempDets = new vertexDetails();
tempDets.neighborIndicesList = new List <int>();
tempDets.distancePerNeighbor = new List <float>();
tempDets.probabilityPerNeighbor = new List <float>();
//tempDets.probabilityDensityPerNeighbor = new List<float>();
tempDets.neighborIndicesByProbability = new List <int>();
detailsForVertex.Add(i, tempDets);
}
// For each trio of indices of vectors that form a triangle, register that they are neighbors of each other...
for (int i = 0; i < t.Length; i += 3)
{
// read the indices of the vertices that make up the tri
int indexOfVert1 = t[i];
int indexOfVert2 = t[i + 1];
int indexOfVert3 = t[i + 2];
addAllVerticesToEachOthersLists(indexOfVert1, indexOfVert2, indexOfVert3);
}
calculateStandardProbability();
calculateDensityForExocytosis();
}
private int overwriteReceptorsInInteractionRadiusList(Cell2 cell, List <Receptor3> receptorsInInteractionRadius)
{
int innerCounter = 0;
// going over all receptors of cell to check if they're inside the possible interaction radius.
foreach (Receptor3 rec in cell.receptors)
{
if (rec.inInteractionRadius()) // receptor IN interaction radius
{
try { // TRYING TO OVERWRITE
// Insert it into beginning of array. We're overwriting elements intentionally, to not search the array everytime (to add delete elements) and to not define new arrays in every iteration.
receptorsInInteractionRadius[innerCounter++] = rec;
} catch { // NO PLACE ALLOCATED YET - ADDING.
receptorsInInteractionRadius.Add(rec);
// We're NOT incrementing innerCounter, because apparently it is done even if the above code fails and we reach here. Interesting.
}
}
}
// returning length of array:
return(innerCounter);
}
public FieldEntity CheckPrimaryEntity(Cell2 cell) => _gridPrimaryEntities.TryGetValue((long)cell, out var res) ? res : null;
private static void NtxConfigurePositionStatic(FieldEntity entity, Cell2 cell, float height) => entity.Position = new Position(new FVector3(cell.X, cell.Y, height));
private bool MgCheckWarnCell(Cell2 cell) => Manager?.CheckWarnCell(cell) ?? true;
//this function supports for single ring polygon
public static Vector2 GetPolyLabel(Vector2[] polygon, float precision = 1f)
{
//Find the bounding box of the outer ring
float minX = 0, minY = 0, maxX = 0, maxY = 0;
for (int i = 0; i < polygon.Length; i++)
{
var p = polygon[i];
if (i == 0 || p.x < minX)
{
minX = p.x;
}
if (i == 0 || p.y < minY)
{
minY = p.y;
}
if (i == 0 || p.x > maxX)
{
maxX = p.x;
}
if (i == 0 || p.y > maxY)
{
maxY = p.y;
}
}
float width = maxX - minX;
float height = maxY - minY;
float cellSize = Math.Min(width, height);
float h = cellSize / 2;
//A priority queue of cells in order of their "potential" (max distance to polygon)
PriorityQueue <float, Cell2> cellQueue = new PriorityQueue <float, Cell2>();
if (FloatEquals(cellSize, 0))
{
return(new Vector2(minX, minY));
}
//Cover polygon with initial cells
for (float x = minX; x < maxX; x += cellSize)
{
for (float y = minY; y < maxY; y += cellSize)
{
Cell2 cell = new Cell2(x + h, y + h, h, polygon);
cellQueue.Enqueue(cell.Max, cell);
}
}
//Take centroid as the first best guess
Cell2 bestCell = GetCentroidCell2(polygon);
//Special case for rectangular polygons
var bboxCell = new Cell2(minX + width / 2, minY + height / 2, 0, polygon);
if (bboxCell.D > bestCell.D)
{
bestCell = bboxCell;
}
int numProbes = cellQueue.Count;
while (cellQueue.Count > 0)
{
//Pick the most promising cell from the queue
var cell = cellQueue.Dequeue();
//Update the best cell if we found a better one
if (cell.D > bestCell.D)
{
bestCell = cell;
}
//Do not drill down further if there's no chance of a better solution
if (cell.Max - bestCell.D <= precision)
{
continue;
}
//Split the cell into four cells
h = cell.H / 2;
var cell1 = new Cell2(cell.X - h, cell.Y - h, h, polygon);
cellQueue.Enqueue(cell1.Max, cell1);
var cell2 = new Cell2(cell.X + h, cell.Y - h, h, polygon);
cellQueue.Enqueue(cell2.Max, cell2);
var cell3 = new Cell2(cell.X - h, cell.Y + h, h, polygon);
cellQueue.Enqueue(cell3.Max, cell3);
var cell4 = new Cell2(cell.X + h, cell.Y + h, h, polygon);
cellQueue.Enqueue(cell4.Max, cell4);
numProbes += 4;
}
return(new Vector2(bestCell.X, bestCell.Y));
}
public int PrintCellToPDF(string cellFileName, string outFileName)
{
if (!System.IO.File.Exists(cellFileName))
{
return(0);
}
string FileExt = System.IO.Path.GetExtension(cellFileName);//文件后缀
try
{
if (FileExt.ToLower() != ".cll")
{
if (FileExt.ToLower() == ".pdf" ||
FileExt.ToLower() == ".daf")
{
System.IO.File.Copy(cellFileName, outFileName, true);
return(this.MergePDFFilesPages(outFileName));
}
else
{
if (this.FileConverToPDF(cellFileName, outFileName))
{
return(this.MergePDFFilesPages(outFileName));
}
else
{
return(0);
}
}
}
}
catch (Exception ex)
{
MyCommon.WriteLog("50cllPdf 转换pdf异常:" + ex.Message);
}
//System.Collections.ArrayList fileList = new System.Collections.ArrayList();
//Cell2.SetPrinter(PrinterOperate.UsePrinterName);
//Cell2.PrintPara(1, 1, 0, 0); //单色打印
if (System.IO.Directory.Exists(tempPath))
{
MyCommon.DeleteAndCreateEmptyDirectory(tempPath, false);
MyCommon.DeleteAndCreateEmptyDirectory(tempPath, true);
}
else
{
MyCommon.DeleteAndCreateEmptyDirectory(tempPath, true);
}
ArrayList fileList = new ArrayList();
try
{
if (Cell2.OpenFile(cellFileName, "") != 1)
{
return(0);
}
Cell2.PrintSetAlign(1, 1);
Cell2.PrintSetMargin(5, 5, 5, 5);
Cell2.PrintPara(1, 1, 0, 0); //单色打印
//Cell2.SetCurSheet(j);
//Cell2.PrintPageBreak(0);
}
catch (Exception ex)
{
MyCommon.WriteLog("Cell2 打开错误:" + ex.Message);
}
//判断当前页 所有的单元是否只读
// 如果当前页的所有单元格只读,就不转换PDF
// 否则 就直接转换PDF
Assembly asm = Assembly.GetExecutingAssembly();
string AppPath = asm.Location;
try
{
bool isToPDF_flg = true;
for (int j = 0; j < Cell2.GetTotalSheets(); j++)
{
Cell2.SetCurSheet(j);
string TittleName = Cell2.GetSheetLabel(j);
if (TittleName != null)
{
if (TittleName.Contains("填表提示") || TittleName.Contains("填表说明") || TittleName.Trim() == "说明")//
{
continue;
}
}
string tempoutfileName = Guid.NewGuid().ToString() + ".pdf";
isToPDF_flg = true;
for (int iRow = 1; iRow < Cell2.GetRows(j) - 1; iRow++)
{
if (!isToPDF_flg)
{
break;
}
if (Cell2.IsRowHidden(iRow, j) == false && Cell2.GetRowHeight(1, iRow, j) > 10)
{
for (int iCol = 1; iCol < Cell2.GetCols(j) - 1; iCol++)
{
if (!isToPDF_flg)
{
break;
}
if (Cell2.IsColHidden(iCol, j) == false && Cell2.GetColWidth(1, iCol, j) > 10)
{
if (Cell2.GetCellInput(iCol, iRow, j) != 5)
{
isToPDF_flg = false;
break;
}
}
}
}
}
if ((!isToPDF_flg))
{
//ConverToPDF.PreparePrint(Assembly.GetExecutingAssembly().FullName, "", tempPath + tempoutfileName);
//Cell2.PrintSheet(0, j);
//ConverToPDF.Wait4PringFinish("", tempPath + tempoutfileName);
if (Cell2.ExportPdfFile(tempPath + tempoutfileName, j, 0, 1))
{
fileList.Add(tempPath + tempoutfileName);
}
}
}
Cell2.closefile();
}
catch (Exception ex)
{
MyCommon.WriteLog("Cell2 转换PDF错误:" + ex.Message);
}
#region
/*
* //Cell2.ExportPdfFile(tempPath + tempoutfileName, -1, 0, Cell2.GetTotalSheets());
*
*
* //for (int j = 0; j < Cell2.GetTotalSheets(); j++)
* //{
* // string TittleName = Cell2.GetSheetLabel(j);
* // if (!TittleName.Contains(Globals.Descriptive))
* // {
* // fileList.Add(tempFile + j.ToString() + ".pdf");
* // outFile = tempFile + j.ToString() + ".pdf";
* // NewPrint();
* // oPrinterMonitor.OnPrinterInit += new _IPrinterMonitorEvents_OnPrinterInitEventHandler(oPrinterMonitor_OnPrinterInit);
* // Cell2.PrintSheet(0, j);
* // oPrinterMonitor.OnPrinterInit -= new _IPrinterMonitorEvents_OnPrinterInitEventHandler(oPrinterMonitor_OnPrinterInit);
* // Application.DoEvents();
* // }
* //}
*
* //foreach (object obj in fileList)
* //{
* // if(!System.IO.File.Exists(obj.ToString()))
* // {
* // fileList.Remove(obj);
* // }
* //}
* //if (fileList.Count <= 0)
* //{
* // return 0;
* //}
* */
#endregion
string[] FileName = new string[fileList.Count];
for (int i = 0; i < fileList.Count; i++)
{
FileName[i] = fileList[i].ToString();
}
if (FileName.Length <= 0)
{
return(0);
}
return(MergePDFFilesPages(outFileName));
}
private static void NtxConfigureHitBox(FieldEntity entity, Cell2 cell, HitBox.AvoidType avoidType,
bool targetable, bool primary) => entity.HitBox = new HitBox(cell, avoidType, targetable, primary);
private static void NtxConfigurePositionLinear(FieldEntity entity, float baseTime, float targetTime,
Cell2 srcCell,
Cell2 targetCell, float height1, float height2) =>
entity.Position = new Position(new FVector3(srcCell.X, srcCell.Y, height1),
new FVector3(targetCell.X, targetCell.Y, height2), baseTime, targetTime);
private bool Printcells(string filepath, string printerName)
{
int b = Cell2.OpenFile(filepath, "");
if (b != 1)
{
return(false);
}
Cell2.PrintSetAlign(1, 1);
Cell2.PrintSetMargin(5, 5, 5, 5);
//判断当前页 所有的单元是否只读
// 如果当前页的所有单元格只读,就不转换PDF
// 否则 就直接转换PDF
bool isToPDF_flg = true;
for (int j = 0; j < Cell2.GetTotalSheets(); j++)
{
Cell2.SetCurSheet(j);
string TittleName = Cell2.GetSheetLabel(j);
if (TittleName != null &&
TittleName.Contains("填表提示"))//
{
continue;
}
isToPDF_flg = true;
for (int iRow = 1; iRow < Cell2.GetRows(j) - 1; iRow++)
{
if (!isToPDF_flg)
{
break;
}
if (Cell2.IsRowHidden(iRow, j) == false && Cell2.GetRowHeight(1, iRow, j) > 10)
{
for (int iCol = 1; iCol < Cell2.GetCols(j) - 1; iCol++)
{
if (!isToPDF_flg)
{
break;
}
if (Cell2.IsColHidden(iCol, j) == false && Cell2.GetColWidth(1, iCol, j) > 10)
{
if (Cell2.GetCellInput(iCol, iRow, j) != 5)
{
isToPDF_flg = false;
break;
}
}
}
}
}
if ((!isToPDF_flg))
{
Cell2.PrintSheet(0, j);
}
}
Cell2.closefile();
return(true);
}
Vector3 hardCodedCellCenter = new Vector3(-51.17f, 21.22f, 7.54f); // :_( It's the only way to find the cell body (without the filopodia) center.
// Constructor
public Receptor3(Cell2 icell, /*simulationManager2*/ simulationManager3 ismngr, System.Random rand, bool ivisible) //GameObject receptorMesh,
// saving the cell and the sim manager objets
{
cell = icell;
smngr = ismngr;
receptorId = smngr.generateUniqueId();
// Initializing variables.
nextV = -1;
totalMinisteps = 0;
currentMiniStep = 0;
// Assign position if set to random
//if (icell.randomStartingPosition) {
currentV = rand.Next(0, cell.globalMeshVerts.Length);
// COMMENTING OUT TO AVOID RUNNING THIS. PROBABLY NOT RELEVANT ANYWAY.
/*if (icell.exocytoseOutsideInteractionRadius) { // we have to check if the random position is outside the interactions radius
* while (isVertexInInteractionRadius(currentV)) { // run until you find a vertex that's outside the interaction radius
* currentV = rand.Next(0, cell.globalMeshVerts.Length);
* }
* }*/
/*if (icell.noExocytosisInFilopodia) { // we have to check if the random position is on the main body
* while (!isVertexInMainBody(currentV)) { // run until you find a vertex that's on the main body itself (not on filopodia)
* currentV = rand.Next(0, cell.globalMeshVerts.Length);
* }
* }*/
if (icell.exocytosisMainlyInFilopodia) // we have to check if the random position is on the filopodia
{
float chanceOfExocytosingInFilopodia = (float)rand.NextDouble();
if (chanceOfExocytosingInFilopodia <= icell.ratioOfExocytosingReceptorsInFilopodia)
{
// exocytose in filopodia
while (isVertexInMainBody(currentV)) // run until you find a vertex that's on the filopodia itself (not on the cell body)
{
currentV = rand.Next(0, cell.globalMeshVerts.Length);
}
}
else
{
// exocytose in cell body
while (!isVertexInMainBody(currentV)) // run until you find a vertex that's on the cell body.
{
currentV = rand.Next(0, cell.globalMeshVerts.Length);
}
}
}
recPosition = cell.globalMeshVerts[currentV];
// Create receptor mesh if visible
if (ivisible)
{
visible = true;
}
}
public override string ToString()
{
return(Cell1.ToString() + ":" + Cell2.ToString());
}
private FieldEntity MgCheckPrimaryEntity(Cell2 cell) => Manager?.CheckPrimaryEntity(cell);
public bool CheckWarnCell(Cell2 cell) => _gridWarnCells.ContainsKey((long)cell);
