private async void MenuMake_Click(object sender, EventArgs e) { Progress <int> progress = new Progress <int> (i => { ProgressBar1.Value = i; }); Progress <string> logger = new Progress <string>(i => { iLogger.LogMessage(i); }); Task resetProgress = new Task(() => { Thread.Sleep(1000); ((IProgress <int>)progress).Report(0); }); await Task.Run(() => CreateElevationBitmapHelper.MakeAltitudeImage(ProjectPath.Text, TerrainFile.Text, AltitudeFile.Text, iAltitude, iTerrain, progress, logger)).ContinueWith(c => resetProgress.Start()); }
private void Make() { short altID = 0; string str; byte num = 0; int num1; int num2; int num3; int num4; IEnumerator enumerator = null; TransitionTable transitionTable = new TransitionTable(); DateTime now = DateTime.Now; this.iLogger.StartTask(); this.iLogger.LogMessage("Loading Terrain Image."); try { str = string.Format("{0}\\{1}", this.ProjectPath.Text, this.TerrainFile.Text); this.iLogger.LogMessage(str); this.i_Terrain = new Bitmap(str); } catch (Exception exception1) { ProjectData.SetProjectError(exception1); Exception exception = exception1; this.iLogger.LogMessage("Problem with Loading Terrain Image."); this.iLogger.LogMessage(exception.Message); ProjectData.ClearProjectError(); return; } this.iLogger.LogMessage("Loading Altitude Image."); try { str = string.Format("{0}\\{1}", this.ProjectPath.Text, this.AltitudeFile.Text); this.iLogger.LogMessage(str); this.i_Altitude = new Bitmap(str); } catch (Exception exception3) { ProjectData.SetProjectError(exception3); Exception exception2 = exception3; this.iLogger.LogMessage("Problem with Loading Altitude Image."); this.iLogger.LogMessage(exception2.Message); ProjectData.ClearProjectError(); return; } //this.iLogger.EndTask(); this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("Preparing Image Files."); this.iLogger.StartTask(); int width = this.i_Terrain.Width; int height = this.i_Terrain.Height; Rectangle rectangle = new Rectangle(0, 0, width, height); BitmapData bitmapDatum = this.i_Terrain.LockBits(rectangle, ImageLockMode.ReadWrite, PixelFormat.Format8bppIndexed); IntPtr scan0 = bitmapDatum.Scan0; int width1 = checked (bitmapDatum.Width * bitmapDatum.Height); byte[] numArray = new byte[checked (checked (width1 - 1) + 1)]; Marshal.Copy(scan0, numArray, 0, width1); BitmapData bitmapDatum1 = this.i_Altitude.LockBits(rectangle, ImageLockMode.ReadWrite, PixelFormat.Format8bppIndexed); IntPtr intPtr = bitmapDatum1.Scan0; int width2 = checked (bitmapDatum1.Width * bitmapDatum1.Height); byte[] numArray1 = new byte[checked (checked (width2 - 1) + 1)]; Marshal.Copy(intPtr, numArray1, 0, width2); //this.iLogger.EndTask(); this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("Creating Master Terrian Table."); this.iLogger.StartTask(); MapCell[,] mapCell = new MapCell[checked (width + 1), checked (height + 1)]; ClsAltitudeTable clsAltitudeTable = new ClsAltitudeTable(); clsAltitudeTable.Load(); try { int num5 = checked (width - 1); for (int i = 0; i <= num5; i++) { int num6 = checked (height - 1); for (int j = 0; j <= num6; j++) { int num7 = checked (checked (j * width) + i); ClsAltitude getAltitude = clsAltitudeTable.GetAltitude(numArray1[num7]); mapCell[i, j] = new MapCell(numArray[num7], getAltitude.GetAltitude); } } } catch (Exception exception4) { ProjectData.SetProjectError(exception4); this.iLogger.LogMessage("Altitude image needs to be rebuilt"); ProjectData.ClearProjectError(); return; } this.i_Terrain.Dispose(); this.i_Altitude.Dispose(); this.iLogger.LogTimeStamp(); width--; height--; int num8 = checked ((int)Math.Round((double)width / 8 - 1)); int num9 = checked ((int)Math.Round((double)height / 8 - 1)); this.iLogger.LogMessage("Load Transition Tables."); this.iLogger.StartTask(); string baseDirectory = AppDomain.CurrentDomain.BaseDirectory; #region Data Directory Modification baseDirectory = string.Concat(baseDirectory, "Data\\Engine\\Transitions\\"); #endregion if (Directory.Exists(baseDirectory)) { transitionTable.MassLoad(baseDirectory); this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("Preparing Static Tables"); Collection[,] collections = new Collection[checked (num8 + 1), checked (num9 + 1)]; int num10 = num8; for (int k = 0; k <= num10; k++) { int num11 = num9; for (int l = 0; l <= num11; l++) { collections[k, l] = new Collection(); } } this.iLogger.LogMessage("Applying Transition Tables."); this.iLogger.StartTask(); this.ProgressBar1.Maximum = width; ClsTerrainTable clsTerrainTable = new ClsTerrainTable(); clsTerrainTable.Load(); MapTile mapTile = new MapTile(); Transition.Transition transition = new Transition.Transition(); short[] numArray2 = new short[16]; short num12 = checked ((short)width); for (short m = 0; m <= num12; m = checked ((short)(m + 1))) { num1 = (m != 0 ? checked (m - 1) : width); num2 = (m != width ? checked (m + 1) : 0); short num13 = checked ((short)height); for (short n = 0; n <= num13; n = checked ((short)(n + 1))) { num4 = (n != 0 ? checked (n - 1) : height); num3 = (n != height ? checked (n + 1) : 0); object[] groupID = new object[] { mapCell[num1, num4].GroupID, mapCell[m, num4].GroupID, mapCell[num2, num4].GroupID, mapCell[num1, n].GroupID, mapCell[m, n].GroupID, mapCell[num2, n].GroupID, mapCell[num1, num3].GroupID, mapCell[m, num3].GroupID, mapCell[num2, num3].GroupID }; string str1 = string.Format("{0:X2}{1:X2}{2:X2}{3:X2}{4:X2}{5:X2}{6:X2}{7:X2}{8:X2}", groupID); try { transition = (Transition.Transition)(transitionTable.GetTransitionTable[str1]); if (transition == null) { ClsTerrain terrianGroup = clsTerrainTable.TerrianGroup(mapCell[m, n].GroupID); mapCell[m, n].TileID = terrianGroup.TileID; mapCell[m, n].AltID = altID; terrianGroup = null; } else { altID = mapCell[m, n].AltID; mapTile = transition.GetRandomMapTile(); if (mapTile == null) { ClsTerrain clsTerrain = clsTerrainTable.TerrianGroup(mapCell[m, n].GroupID); mapCell[m, n].TileID = clsTerrain.TileID; mapCell[m, n].ChangeAltID((short)clsTerrain.AltID); clsTerrain = null; } else { MapTile mapTile1 = mapTile; mapCell[m, n].TileID = mapTile1.TileID; mapCell[m, n].ChangeAltID(mapTile1.AltIDMod); mapTile1 = null; } transition.GetRandomStaticTiles(m, n, altID, collections, this.i_RandomStatic); } if (mapCell[m, n].GroupID == 254) { mapCell[m, n].TileID = 1078; mapCell[m, n].AltID = 0; } } catch (Exception exception6) { ProjectData.SetProjectError(exception6); Exception exception5 = exception6; LoggerForm loggerForm = this.iLogger; groupID = new object[] { m, n, altID, str1 }; loggerForm.LogMessage(string.Format("\r\nLocation: X:{0}, Y:{1}, Z:{2} Hkey:{3}", groupID)); this.iLogger.LogMessage(exception5.ToString()); ProjectData.ClearProjectError(); return; } } this.ProgressBar1.Value = m; } this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("Second Pass."); this.iLogger.StartTask(); short[] altID1 = new short[9]; RoughEdge roughEdge = new RoughEdge(); short num14 = checked ((short)width); for (short o = 0; o <= num14; o = checked ((short)(o + 1))) { num1 = (o != 0 ? checked (o - 1) : width); num2 = (o != width ? checked (o + 1) : 0); short num15 = checked ((short)height); for (short p = 0; p <= num15; p = checked ((short)(p + 1))) { num4 = (p != 0 ? checked (p - 1) : height); num3 = (p != height ? checked (p + 1) : 0); mapCell[o, p].ChangeAltID(roughEdge.CheckCorner(mapCell[num1, num4].TileID)); mapCell[o, p].ChangeAltID(roughEdge.CheckLeft(mapCell[num1, p].TileID)); mapCell[o, p].ChangeAltID(roughEdge.CheckTop(mapCell[o, num4].TileID)); if (mapCell[o, p].GroupID == 20) { altID1[0] = mapCell[num1, num4].AltID; altID1[1] = mapCell[o, num4].AltID; altID1[2] = mapCell[num2, num4].AltID; altID1[3] = mapCell[num1, p].AltID; altID1[4] = mapCell[o, p].AltID; altID1[5] = mapCell[num2, p].AltID; altID1[6] = mapCell[num1, num3].AltID; altID1[7] = mapCell[o, num3].AltID; altID1[8] = mapCell[num2, num3].AltID; Array.Sort(altID1); float single = 10f * VBMath.Rnd(); if (single == 0f) { mapCell[o, p].AltID = checked ((short)(checked (altID1[8] - 4))); } else if (single >= 1f && single <= 2f) { mapCell[o, p].AltID = checked ((short)(checked (altID1[8] - 2))); } else if (single >= 3f && single <= 7f) { mapCell[o, p].AltID = altID1[8]; } else if (single >= 8f && single <= 9f) { mapCell[o, p].AltID = checked ((short)(checked (altID1[8] + 2))); } else if (single == 10f) { mapCell[o, p].AltID = checked ((short)(checked (altID1[8] + 4))); } } if (clsTerrainTable.TerrianGroup(mapCell[o, p].GroupID).RandAlt) { float single1 = 10f * VBMath.Rnd(); if (single1 == 0f) { mapCell[o, p].ChangeAltID(-4); } else if (single1 >= 1f && single1 <= 2f) { mapCell[o, p].ChangeAltID(-2); } else if (single1 >= 8f && single1 <= 9f) { mapCell[o, p].ChangeAltID(2); } else if (single1 == 10f) { mapCell[o, p].ChangeAltID(4); } } } this.ProgressBar1.Value = o; } this.iLogger.LogTimeStamp(); int num16 = 1; int num17 = width; if (num17 == 6143) { num = 0; } else if (num17 == 2303) { num = 2; } else if (num17 == 2559) { num = 3; } this.iLogger.LogMessage("\r\n"); this.iLogger.LogMessage("Load . . . . . Import Tiles."); this.iLogger.StartTask(); ImportTiles importTile = new ImportTiles(collections, this.ProjectPath.Text); this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("\r\n"); this.iLogger.LogMessage("Write Mul Files."); this.iLogger.StartTask(); str = string.Format("{0}/Map{1}.mul", this.ProjectPath.Text, num); this.iLogger.LogMessage(str); FileStream fileStream = new FileStream(str, FileMode.Create); BinaryWriter binaryWriter = new BinaryWriter(fileStream); int num18 = width; for (int q = 0; q <= num18; q = checked (q + 8)) { int num19 = height; for (int r = 0; r <= num19; r = checked (r + 8)) { binaryWriter.Write(num16); int num20 = 0; do { int num21 = 0; do { mapCell[checked (q + num21), checked (r + num20)].WriteMapMul(binaryWriter); num21++; }while (num21 <= 7); num20++; }while (num20 <= 7); } } binaryWriter.Close(); fileStream.Close(); str = string.Format("{0}/StaIdx{1}.mul", this.ProjectPath.Text, num); FileStream fileStream1 = new FileStream(str, FileMode.Create); this.iLogger.LogMessage(str); str = string.Format("{0}/Statics{1}.mul", this.ProjectPath.Text, num); FileStream fileStream2 = new FileStream(str, FileMode.Create); this.iLogger.LogMessage(str); BinaryWriter binaryWriter1 = new BinaryWriter(fileStream1); BinaryWriter binaryWriter2 = new BinaryWriter(fileStream2); int num22 = num8; for (int s = 0; s <= num22; s++) { int num23 = num9; for (int t = 0; t <= num23; t++) { int num24 = 0; int position = checked ((int)binaryWriter2.BaseStream.Position); try { enumerator = collections[s, t].GetEnumerator(); while (enumerator.MoveNext()) { ((StaticCell)enumerator.Current).Write(binaryWriter2); num24 = checked (num24 + 7); } } finally { if (enumerator is IDisposable) { ((IDisposable)enumerator).Dispose(); } } if (num24 == 0) { position = -1; } binaryWriter1.Write(position); binaryWriter1.Write(num24); binaryWriter1.Write(num16); } } binaryWriter2.Close(); binaryWriter1.Close(); fileStream2.Close(); fileStream1.Close(); this.iLogger.LogTimeStamp(); this.iLogger.LogMessage("Done."); } else { this.iLogger.LogMessage("Unable to find Transition Data files in the following path: "); this.iLogger.LogMessage(baseDirectory); } }