private void GetComponents()
{
meshGen = GetComponent <MeshGenerator>();
_randomSprite = GetComponent <RandomSprite>();
_planeBuilder = GetComponent <PlaneBuilder>();
signNumber = GetComponent <NumberExample>();
_navMeshSurface = GetComponentInParent <NavMeshSurface>();
}
public static Mesh CreateOnlyBackUntextured(PlaneBuilder builder)
{
int numberOfVerticesWidth = builder.NumberOfSegmentsWidth + 1;
int numberOfVerticesHeight = builder.NumberOfSegmentsHeight + 1;
int numberOfVertices = numberOfVerticesWidth * numberOfVerticesHeight;
float segmentSizeWidth = builder.Width / builder.NumberOfSegmentsWidth;
float segmentSizeHeight = builder.Height / builder.NumberOfSegmentsHeight;
Vector3[] vertices = new Vector3[numberOfVertices];
Vector2[] uvs = null;
int[] triangles = new int[builder.NumberOfSegmentsWidth * builder.NumberOfSegmentsHeight * 6];
Vector2 shifts = CalculatePivotShift(builder.Pivot, builder.Width, builder.Height);
Quaternion rotation = Quaternion.Euler(builder.Rotation);
for (int y = 0; y < numberOfVerticesHeight; y++)
{
for (int x = 0; x < numberOfVerticesWidth; x++)
{
int n = y * numberOfVerticesWidth + x;
vertices[n] = rotation * new Vector3(x * segmentSizeWidth - shifts[0], y * segmentSizeHeight - shifts[1], 0);
}
}
int index = 0;
for (int y = 0; y < builder.NumberOfSegmentsHeight; y++)
{
for (int x = 0; x < builder.NumberOfSegmentsWidth; x++)
{
triangles[index] = y * numberOfVerticesWidth + x;
triangles[index + 1] = y * numberOfVerticesWidth + (x + 1);
triangles[index + 2] = (y + 1) * numberOfVerticesWidth + x;
triangles[index + 3] = y * numberOfVerticesWidth + (x + 1);
triangles[index + 4] = (y + 1) * numberOfVerticesWidth + (x + 1);
triangles[index + 5] = (y + 1) * numberOfVerticesWidth + x;
index += 6;
}
}
Mesh mesh = new Mesh()
{
vertices = vertices,
triangles = triangles,
uv = uvs,
};
mesh.RecalculateNormals();
return(mesh);
}
public List <IMazeElement> GetNeighboursOfMazeElement(IMazeElement mazeElement)
{
List <IMazeElement> NeighboursList = new List <IMazeElement>();
NeighboursList.Add(PlaneBuilder.GetFromMazeArray(Mathf.Clamp((int)mazeElement.Index.x - 1, 0, (int)PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.x - 1), (int)mazeElement.Index.y));
NeighboursList.Add(PlaneBuilder.GetFromMazeArray(Mathf.Clamp((int)mazeElement.Index.x + 1, 0, (int)PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.x - 1), (int)mazeElement.Index.y));
NeighboursList.Add(PlaneBuilder.GetFromMazeArray((int)mazeElement.Index.x, Mathf.Clamp((int)mazeElement.Index.y - 1, 0, (int)PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.y - 1)));
NeighboursList.Add(PlaneBuilder.GetFromMazeArray((int)mazeElement.Index.x, Mathf.Clamp((int)mazeElement.Index.y + 1, 0, (int)PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.y - 1)));
return(NeighboursList);
}
void Awake()
{
MazeElementBounds = MazeElementPrefab.GetComponent <SpriteRenderer>().bounds;
GamePlaneBounds = new Bounds(transform.Find("Sprite").position, transform.Find("Sprite").GetComponent <SpriteRenderer>().bounds.size);
MazeElementAndGapSumOn = new Vector2(MazeElementSidesLenght.x + MazeElementGapBetween, MazeElementSidesLenght.y + MazeElementGapBetween);
gamePlaneBuilder = new PlaneBuilder(
new FirstUpLeftMazeElementPositionProvider(this, this),
new NumberOfMazeElementsInGamePlaneArea(this),
this,
this);
CreateGamePlaneGridInScene();
}
public void _2_2_GetNeighboursOfMazeElement_CheckIfresultIsEqualWithCorrect()
{
Vector2 gamePlaneSize = new Vector2(10, 10);
IPlaneBuilder planeBoundry = GetPlaneBuilderMock(gamePlaneSize);
PlaneBuilder planeBuilder = Substitute.For <PlaneBuilder>();
planeBuilder.SetPlaneController(planeBoundry);
IMazeElement currentMazeElement = planeBoundry.GetFromMazeArray(2, 8);
List <IMazeElement> neighbourMazeElementList = planeBuilder.GetNeighboursOfMazeElement(currentMazeElement);
List <IMazeElement> list = CreateNeighbourList(planeBoundry, currentMazeElement);
Assert.AreEqual(neighbourMazeElementList, list);
}
public string Post([FromBody] List <JObject> value)
{
string result;
try
{
//llama la estructura del conector
DataSet structure = new DataSet();
SQLTransaction ejecutar = new SQLTransaction();
structure = ejecutar.GetStruct();
planeBuild = new PlaneBuilder();
if (value != null)
{
plane.Append(planeBuild.BuildInitial(structure, value[0])); //construye linea inicial
for (int j = 0; j < value.Count; j++) //recorre la lista de registros a enviar
{
string ConectorType = (string)value[j]["Conector"]; //extrae el nombre del conector
JObject json = value[j]; //extrae json del conector a enviar
plane.Append(planeBuild.BuildMasters(structure, json, ref consectLine)); //construye encabezados o maestros
string Pano = plane.ToString();
plane.Append(planeBuild.BuildDetails(structure, json, ref consectLine)); //construye movimientos
}
plane.Append(planeBuild.BuildFinal(structure, value[0], ref consectLine));//construye linea final
string Plano = plane.ToString();
String PlanoSinEtiquetas = Plano.Replace("<Linea>", "").Replace("</Linea>", "");
string cia = PlanoSinEtiquetas.Substring(17, 1);
//var SavePlane = new StreamWriter($@"C:\inetpub\wwwroot\SKYApi\planos\Pedido{DateTime.Now.ToString("ddMMyyyy")}.txt");
//SavePlane.WriteLine(PlanoSinEtiquetas);
//SavePlane.Close();
result = planeBuild.SendInformationWS(Plano, cia);
return(result);
}
return("No se envio ningun Body..");
}
catch (Exception e)
{
return(e.Message);
}
}
// Update is called once per frame
void Update()
{
PlaneBuilder planeBuilder = new PlaneBuilder();
planeBuilder.SetUpSubmeshes(subMeshSize);
MeshFilter meshFilter = this.GetComponent <MeshFilter>();
MeshRenderer meshrenderer = this.GetComponent <MeshRenderer>();
MeshCollider meshcollider = this.GetComponent <MeshCollider>();
//create points of plane
Vector3[,] points = new Vector3[width, height];
for (int x = 0; x < width; x++)
{
for (int y = 0; y < height; y++)
{
points[x, y] = new Vector3(cellSize * x, cellSize * y);
}
}
//create the quads
int submesh = 0;
for (int x = 0; x < width - 1; x++)
{
for (int y = 0; y < height - 1; y++)
{
Vector3 bRight = points[x, y];
Vector3 bLeft = points[x + 1, y];
Vector3 tRight = points[x, y + 1];
Vector3 tLeft = points[x + 1, y + 1];
//create 2 triangles that make up a quad
planeBuilder.BuildMeshTriangle(bLeft, tRight, tLeft, submesh % subMeshSize);
planeBuilder.BuildMeshTriangle(bLeft, bRight, tRight, submesh % subMeshSize);
}
submesh++;
}
meshFilter.mesh = planeBuilder.CreateMesh();
meshcollider.sharedMesh = meshFilter.mesh;
planeBuilder.AddMaterials(meshrenderer);
}
public static Mesh Create(PlaneBuilder builder)
{
if (!builder.FrontSided && !builder.BackSided)
{
return(null);
}
// Generate only front side
if (builder.FrontSided && !builder.BackSided)
{
// with UV
if (builder.GenerateUvMap)
{
return(CreateOnlyFrontTextured(builder));
}
else
{
return(CreateOnlyFrontUntextured(builder));
}
}
// Generate only back side
else if (!builder.FrontSided && builder.BackSided)
{
// with UV
if (builder.GenerateUvMap)
{
return(CreateOnlyBackTextured(builder));
}
else
{
return(CreateOnlyBackUntextured(builder));
}
}
// Generate double sided
else
{
// with UV
if (builder.GenerateUvMap)
{
return(CreateDoubleSidedTextured(builder));
}
else
{
return(CreateDoubleSidedUntextured(builder));
}
}
}
public void PlaneBuilderBuildsProperPlaneTest()
{
var plane = new PlaneBuilder();
var result = plane.SetProductionYear(1997)
.SetBrand("Audi")
.SetKerbWeight(1000)
.SetColor(Color.Pink)
.SetMaxVelosity(300)
.Build();
Assert.AreEqual(1997, result.ProductionYear);
Assert.AreEqual("Audi", result.Brand);
Assert.AreEqual(1000, result.KerbWeight);
Assert.AreEqual(Color.Pink, result.Color);
Assert.AreEqual(300, result.MaxVelocity);
}
void buildGround()
{
PlaneBuilder pBuilder = new PlaneBuilder();
for (int x =0; x < mapSize -1; x++) //-1 as the bottom left of the quad is x/y but top left is x+1/y+1
{
for (int y =0; y < mapSize -1; y++)
{
Vector3[] verts = new Vector3[4];
verts[0] = getHeight(x,y);
verts[1] = getHeight(x +1,y);
verts[2] = getHeight(x,y +1);
verts[3] = getHeight(x +1,y +1);
pBuilder.addQuad(verts);
}
}
GetComponent<MeshFilter> ().mesh = pBuilder.compileMesh();//low polly map
}
Mesh getHighPollyQuad(int x, int y)
{
if(x < 0 || y < 0 || x > cityW.mapSize|| y > cityW.mapSize)
Debug.LogError("the quad specified at " + x +", "+ y+" can not be found");
x *= quadResolution;
y *= quadResolution;
PlaneBuilder plane = new PlaneBuilder();
for(int xIndex =0; xIndex < quadResolution -1; xIndex++)
{
for(int yIndex =0; yIndex < quadResolution -1; yIndex++)
{
//detailedHeightMap[x + xIndex,y + yIndex];
addQuad(x + xIndex,y + yIndex, ref plane);
}
}
return plane.compileMesh();
}
public void CreateGamePlaneGridInScene()
{
PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY = numberOfMazeElementsInGamePlaneArea.IntagerNumberOfMazeElementOnXAndYAxisInGamePlaneArea();
Vector3 positionOfMazeElement;
Vector3 positionOfFirstUpLeftMazeElement = firstUpLeftMazeElementPositionProvider.PositionOfFirstUpLeftMazeElementOnGamePlaneArea();
Vector2 distanceBetweenTwoMazeElementsCentersOnAxis = CountDistanceBetweenTwoMazeElementsCentersOnAxis();
PlaneBuilder.InitMazeArray();
for (int i = 0; i < PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.x; i++)
{
positionOfMazeElement.x = positionOfFirstUpLeftMazeElement.x + i * distanceBetweenTwoMazeElementsCentersOnAxis.x;
for (int j = 0; j < PlaneBuilder.IntagerNumberOfMazeElementsOnXAndY.y; j++)
{
positionOfMazeElement.y = positionOfFirstUpLeftMazeElement.y - j * distanceBetweenTwoMazeElementsCentersOnAxis.y;
positionOfMazeElement.z = PlaneElementsBounds.GamePlaneBounds.center.z - 1;
PlaneBuilder.CreateMazeElementPrefab(positionOfMazeElement, i, j);
}
}
}
public override void OnInspectorGUI()
{
planeMonoBehaviour = (PlaneMonoBehaviour)target;
planeBuilder = planeMonoBehaviour.Builder;
BasePrimitiveMonoBehaviourEditor <PlaneBuilder> .GenerateBaseFields(planeBuilder);
EditorGUI.BeginDisabledGroup(!planeBuilder.FrontSided && !planeBuilder.BackSided);
EditorGUILayout.Space();
EditorGUILayout.LabelField("Plane Settings", EditorStyles.boldLabel);
planeBuilder.SetWidth(EditorGUILayout.FloatField("Width", planeBuilder.Width));
planeBuilder.SetHeight(EditorGUILayout.FloatField("Height", planeBuilder.Height));
planeBuilder.SetNumberOfSegmentsWidth(EditorGUILayout.IntField("Number Of Segments Width", planeBuilder.NumberOfSegmentsWidth));
planeBuilder.SetNumberOfSegmentsHeight(EditorGUILayout.IntField("Number Of Segments Height", planeBuilder.NumberOfSegmentsHeight));
EditorGUI.EndDisabledGroup();
planeMonoBehaviour.RecreateMesh();
}
private void Form1_Load(object sender, EventArgs e)
{
SQLTransaction ejecutar = new SQLTransaction();
DataSet structure = new DataSet();
PlaneBuilder planeBuild = new PlaneBuilder();
string filePath = @"C:\Interfaz_tu_compra\Excel_de_carque";//RUTA DONDE VA A LEER EXCEL
try
{
//MessageBox.Show("inicio proceso");
DirectoryInfo di = new DirectoryInfo(filePath);
foreach (var fi in di.GetFiles("*.xlsx"))
{
//MessageBox.Show("leyo archivo");
var file = filePath + @"\" + fi.Name;
SLDocument s1 = new SLDocument(file);
int idRow = 2;
List <DoctoContable> jsonExcel = new List <DoctoContable>();
while (!string.IsNullOrEmpty(s1.GetCellValueAsString(idRow, 1)))//RECORRE EL EXCEL LEIDO
{
DoctoContable reg = new DoctoContable();
var cuenta = s1.GetCellValueAsString(idRow, 1);//VALIDA PARA QUE CUENTA SE VA A IR
if (cuenta == "11100503")
{
reg.F351_ID_AUXILIAR = "11100503";
reg.F351_ID_FE = "110201";
reg.F351_ID_TERCERO = "";
reg.F351_DOCTO_BANCO = "CG";
reg.F351_NRO_DOCTO_BANCO = s1.GetCellValueAsDateTime(idRow, 3).ToString("yyyyMMdd");
}
else if (cuenta == "53051502")
{
reg.F351_ID_AUXILIAR = "53051502";
reg.F351_ID_FE = "";
reg.F351_ID_TERCERO = "890300279";
reg.F351_DOCTO_BANCO = "";
reg.F351_NRO_DOCTO_BANCO = "0";
}
else
{
reg.F351_ID_AUXILIAR = "28050502";
reg.F351_ID_FE = "";
reg.F351_ID_TERCERO = "890300279";
reg.F351_DOCTO_BANCO = "";
reg.F351_NRO_DOCTO_BANCO = "0";
}
reg.F351_NOTAS = "SE RECLASIFICAN PAGOS TU COMPRA DEL DIA " + DateTime.Now.ToString("yyyyMMdd");
var tipo = s1.GetCellValueAsString(idRow, 4);//VALIDA SI ES DEBITO O CREDITO
if (tipo == "DB")
{
reg.F351_VALOR_DB = s1.GetCellValueAsString(idRow, 2);
}
else
{
reg.F351_VALOR_CR = s1.GetCellValueAsString(idRow, 2);
}
jsonExcel.Add(reg);
idRow++;
}
string fecha = DateTime.Now.ToString("yyyyMMdd");
fecha = @"""" + fecha + @""""; //COMILLA DOBLE EN FECHA
string jsonDocto = JsonConvert.SerializeObject(jsonExcel); //CONVERSION OBJETO EN JSON
jsonDocto = @"{ ""Conector"": ""Docto_Contable"",""F350_FECHA"":" + fecha //ADICION DE ENCABEZADO EN JSON DE DOCTO CONTABLE
+ @",""F350_NOTAS"": ""SE RECLASIFICAN PAGOS TU COMPRA DEL DIA " + DateTime.Now.ToString("yyyyMMdd")
+ @" "",""Movto_Contable"":" + jsonDocto + "}";
structure = ejecutar.GetStruct();//CONSULTA LA ESTRUCTURA
StringBuilder plane = new StringBuilder();
int consectLine = 1;
JObject jsonValue = JObject.Parse(jsonDocto);
List <JObject> value = new List <JObject>();
value.Add(jsonValue);
//MessageBox.Show("armo json");
if (value != null) //ARMA EL PLANO CON BASE EN EL JSON Y LA ESTRUCTURA
{
plane.Append(planeBuild.BuildInitial(structure, value[0])); //construye linea inicial
for (int j = 0; j < value.Count; j++) //recorre la lista de registros a enviar
{
string ConectorType = (string)value[j]["Conector"]; //extrae el nombre del conector
JObject json = value[j]; //extrae json del conector a enviar
plane.Append(planeBuild.BuildMasters(structure, json, ref consectLine)); //construye encabezados o maestros
string Pano = plane.ToString();
plane.Append(planeBuild.BuildDetails(structure, json, ref consectLine)); //construye movimientos
}
plane.Append(planeBuild.BuildFinal(structure, value[0], ref consectLine));//construye linea final
//MessageBox.Show("armo plano");
string Plano = plane.ToString();
var SavePlane = new StreamWriter($@"C:\Interfaz_tu_compra\Txt_unoee\{fi.Name}.txt");
SavePlane.WriteLine(Plano);
SavePlane.Close();
//MessageBox.Show("guardo plano");
fi.MoveTo($@"C:\Interfaz_tu_compra\Excel_de_carque\procesados\{fi.Name}");
//MessageBox.Show("movio plano");
}
}
}
catch (Exception ex)
{
MessageBox.Show(ex.Message);
throw ex;
}
finally
{
Application.Exit();
}
}
float[,] detailedHeightMap = null; //stored as a connected array
#endregion Fields
#region Methods
void addQuad(int x, int y, ref PlaneBuilder pBuilder)
{
Vector3[] quadVerts = new Vector3[4]{getVert(x,y),getVert(x +1,y),getVert(x,y + 1),getVert(x + 1,y + 1)};
//print(getVert(x,y).y);
pBuilder.addQuad(quadVerts);
}
private void Awake()
{
planeMonoBehaviour = (PlaneMonoBehaviour)target;
planeBuilder = planeMonoBehaviour.Builder;
}
public static Mesh CreateDoubleSidedTextured(PlaneBuilder builder)
{
int numberOfVerticesWidth = builder.NumberOfSegmentsWidth + 1;
int numberOfVerticesHeight = builder.NumberOfSegmentsHeight + 1;
int numberOfVerticesOneSide = numberOfVerticesWidth * numberOfVerticesHeight;
int numberOfVertices = numberOfVerticesOneSide * 2;
float segmentSizeWidth = builder.Width / builder.NumberOfSegmentsWidth;
float segmentSizeHeight = builder.Height / builder.NumberOfSegmentsHeight;
float uvSegmentSizeWidth;
float uvSegmentSizeHeight;
if (builder.SizeRelative)
{
uvSegmentSizeWidth = 1 / builder.NumberOfSegmentsWidth;
uvSegmentSizeHeight = 1 / builder.NumberOfSegmentsHeight;
}
else
{
uvSegmentSizeWidth = segmentSizeWidth;
uvSegmentSizeHeight = segmentSizeHeight;
}
Vector3[] vertices = new Vector3[numberOfVertices];
Vector2[] uvs = new Vector2[numberOfVertices];
int[] triangles = new int[builder.NumberOfSegmentsWidth * builder.NumberOfSegmentsHeight * 6 * 2];
Vector2 shifts = CalculatePivotShift(builder.Pivot, builder.Width, builder.Height);
Quaternion rotation = Quaternion.Euler(builder.Rotation);
for (int y = 0; y < numberOfVerticesHeight; y++)
{
for (int x = 0; x < numberOfVerticesWidth; x++)
{
int n = y * numberOfVerticesWidth + x;
int backN = numberOfVerticesOneSide + n;
// Generate for front vertice
vertices[n] = rotation * new Vector3(x * segmentSizeWidth - shifts[0], y * segmentSizeHeight - shifts[1], 0);
uvs[n] = new Vector2
(
(x * uvSegmentSizeWidth + builder.UvOffset.x) * builder.UvTiling.x,
(y * uvSegmentSizeHeight + builder.UvOffset.y) * builder.UvTiling.y
);
// Generate for back vertice
vertices[backN] = vertices[n];
uvs[backN] = uvs[n];
}
}
int index = 0;
for (int y = 0; y < builder.NumberOfSegmentsHeight; y++)
{
for (int x = 0; x < builder.NumberOfSegmentsWidth; x++)
{
// Triangles for front segment
triangles[index] = y * numberOfVerticesWidth + x;
triangles[index + 1] = (y + 1) * numberOfVerticesWidth + x;
triangles[index + 2] = y * numberOfVerticesWidth + (x + 1);
triangles[index + 3] = y * numberOfVerticesWidth + (x + 1);
triangles[index + 4] = (y + 1) * numberOfVerticesWidth + x;
triangles[index + 5] = (y + 1) * numberOfVerticesWidth + (x + 1);
// Triangles for back segment
triangles[index + 6] = numberOfVerticesOneSide + y * numberOfVerticesWidth + x;
triangles[index + 7] = numberOfVerticesOneSide + y * numberOfVerticesWidth + (x + 1);
triangles[index + 8] = numberOfVerticesOneSide + (y + 1) * numberOfVerticesWidth + x;
triangles[index + 9] = numberOfVerticesOneSide + y * numberOfVerticesWidth + (x + 1);
triangles[index + 10] = numberOfVerticesOneSide + (y + 1) * numberOfVerticesWidth + (x + 1);
triangles[index + 11] = numberOfVerticesOneSide + (y + 1) * numberOfVerticesWidth + x;
index += 12;
}
}
Mesh mesh = new Mesh()
{
vertices = vertices,
triangles = triangles,
uv = uvs,
};
mesh.RecalculateNormals();
mesh.RecalculateTangents();
return(mesh);
}
