Example #1
0
 public void DisposeMdlx()
 {
     this.mdlx = null;
     this.timc = null;
     this.timf = null;
     this.altex.Clear();
     this.altex1.Clear();
     this.altex2.Clear();
     this.albody1.Clear();
     this.binMdlx = null;
     this.ctb.Close();
     this.ol = null;
     this.Ma = null;
 }
Example #2
0
 public static Texex2 Load(Stream fs)
 {
     var texex = new Texex2();
     var binaryReader = new BinaryReader(fs);
     fs.Position = 8L;
     binaryReader.ReadInt32();
     int num = binaryReader.ReadInt32();
     int num2 = binaryReader.ReadInt32();
     int num3 = binaryReader.ReadInt32();
     int num4 = binaryReader.ReadInt32();
     fs.Position = num2;
     byte[] array = binaryReader.ReadBytes(num);
     fs.Position = 28L;
     int num5 = binaryReader.ReadInt32();
     int num6 = binaryReader.ReadInt32();
     fs.Position = num3;
     binaryReader.ReadBytes(num4 - num3);
     fs.Position = num4;
     binaryReader.ReadBytes(num5 - num4);
     fs.Position = num5;
     binaryReader.ReadBytes(num6 - num5);
     binaryReader.ReadBytes(Convert.ToInt32(fs.Length) - 4 - num6);
     var array2 = new byte[4194304];
     for (int i = 0; i < num; i++)
     {
         for (int j = 0; j < 2; j++)
         {
             int num7 = (j == 0) ? 0 : (1 + array[i]);
             fs.Position = num3 + 144*num7 + 32;
             ulong num8 = binaryReader.ReadUInt64();
             int num9 = (int) (num8 >> 32) & 16383;
             int num10 = (int) (num8 >> 48) & 63;
             int num11 = (int) (num8 >> 56) & 63;
             Trace.Assert(binaryReader.ReadUInt64() == 80uL, "Unexpected texture format");
             fs.Position = num3 + 144*num7 + 64;
             ulong num12 = binaryReader.ReadUInt64();
             Trace.Assert(binaryReader.ReadUInt64() == 82uL, "Unexpected texture format");
             fs.Position = num3 + 144*num7 + 96;
             ulong num13 = binaryReader.ReadUInt64();
             int num14 = (int) num13 & 16383;
             fs.Position = num3 + 144*num7 + 112;
             ulong num15 = binaryReader.ReadUInt64();
             int num16 = (int) num15 & 16383;
             int num17 = (int) (num15 >> 32) & 2147483647;
             Trace.Assert(num14 == num16, "Unexpected texture format");
             fs.Position = num17;
             var array3 = new byte[16*num16];
             fs.Read(array3, 0, 16*num16);
             Trace.Assert(num11 == 0, "Unexpected texture format");
             int bh = Convert.ToInt32(array3.Length)/8192/num10;
             array3 = Reform32.Encode32(array3, num10, bh);
             Array.Copy(array3, 0, array2, 256*num9, 16*num16);
             Console.Write("");
         }
         fs.Position = num4 + 160*i + 32;
         ulong num18 = binaryReader.ReadUInt64();
         Trace.Assert(num18 == 0uL, "Unexpected texture format");
         Trace.Assert(binaryReader.ReadUInt64() == 63uL, "Unexpected texture format");
         fs.Position = num4 + 160*i + 48;
         ulong num19 = binaryReader.ReadUInt64();
         Trace.Assert(num19 == 0uL, "Unexpected texture format");
         Trace.Assert(binaryReader.ReadUInt64() == 52uL, "Unexpected texture format");
         fs.Position = num4 + 160*i + 64;
         ulong num20 = binaryReader.ReadUInt64();
         Trace.Assert(num20 == 0uL, "Unexpected texture format");
         Trace.Assert(binaryReader.ReadUInt64() == 54uL, "Unexpected texture format");
         fs.Position = num4 + 160*i + 80;
         ulong num21 = binaryReader.ReadUInt64();
         Trace.Assert(binaryReader.ReadUInt64() == 22uL, "Unexpected texture format");
         fs.Position = num4 + 160*i + 112;
         ulong num22 = binaryReader.ReadUInt64();
         int num23 = (int) num22 & 16383;
         int tbw = (int) (num22 >> 14) & 63;
         int num24 = (int) (num22 >> 20) & 63;
         int num25 = (int) (num22 >> 26) & 15;
         int num26 = (int) (num22 >> 30) & 15;
         int num27 = (int) (num22 >> 37) & 16383;
         Trace.Assert(binaryReader.ReadUInt64() == 6uL, "Unexpected texture format");
         int num28 = (1 << num25)*(1 << num26);
         var array4 = new byte[num28];
         Array.Copy(array2, 256*num23, array4, 0, array4.Length);
         var array5 = new byte[8192];
         Array.Copy(array2, 256*num27, array5, 0, array5.Length);
         STim item = null;
         if (num24 == 19)
         {
             item = TexUtil.Decode8(array4, array5, tbw, 1 << num25, 1 << num26);
         }
         if (num24 == 20)
         {
             item = TexUtil.Decode4(array4, array5, tbw, 1 << num25, 1 << num26);
         }
         texex.alt.Add(item);
     }
     int num29 = 0;
     while (num29 < fs.Length)
     {
         fs.Position = num29;
         byte[] array6 = binaryReader.ReadBytes(16);
         if (array6[0] == 95 && array6[1] == 68 && array6[2] == 77 && array6[3] == 89 && array6[8] == 84 &&
             array6[9] == 69 && array6[10] == 88 && array6[11] == 65)
         {
             fs.Position = num29 + 16 + 2;
             int texi = binaryReader.ReadUInt16();
             fs.Position = num29 + 16 + 12;
             binaryReader.ReadUInt16();
             int num30 = binaryReader.ReadUInt16();
             int px = binaryReader.ReadUInt16();
             int py = binaryReader.ReadUInt16();
             int num31 = binaryReader.ReadUInt16();
             int num32 = binaryReader.ReadUInt16();
             int num33 = binaryReader.ReadInt32();
             int num34 = binaryReader.ReadInt32();
             int num35 = binaryReader.ReadInt32();
             fs.Position = num29 + 16 + num35;
             byte[] bits = binaryReader.ReadBytes(num31*num32*num30);
             Patc patc;
             texex.alp.Add(patc = new Patc(bits, px, py, num31, num32, num30, texi));
             int num36 = num29 + 16;
             int num37 = (num34 - num33)/2;
             var list = new List<Texfac>();
             for (int k = 0; k < num37; k++)
             {
                 fs.Position = num36 + num33 + 2*k;
                 int num38 = binaryReader.ReadInt16() - 1;
                 if (num38 >= 0)
                 {
                     fs.Position = num36 + num34 + 4*num38;
                     int num39 = binaryReader.ReadInt32();
                     fs.Position = num36 + num39;
                     int num40 = 0;
                     Texfac texfac;
                     do
                     {
                         texfac = new Texfac();
                         texfac.i0 = k;
                         texfac.i1 = num38;
                         texfac.i2 = num40;
                         texfac.v0 = binaryReader.ReadInt16();
                         texfac.v2 = binaryReader.ReadInt16();
                         texfac.v4 = binaryReader.ReadInt16();
                         texfac.v6 = binaryReader.ReadInt16();
                         list.Add(texfac);
                         num40++;
                     } while (texfac.v0 >= 0);
                 }
             }
             patc.altf = list.ToArray();
         }
         num29 += 16;
     }
     return texex;
 }
Example #3
0
        public static Texex2 Load(Stream fs)
        {
            var texex        = new Texex2();
            var binaryReader = new BinaryReader(fs);

            fs.Position = 8L;
            binaryReader.ReadInt32();
            int num  = binaryReader.ReadInt32();
            int num2 = binaryReader.ReadInt32();
            int num3 = binaryReader.ReadInt32();
            int num4 = binaryReader.ReadInt32();

            fs.Position = num2;
            byte[] array = binaryReader.ReadBytes(num);
            fs.Position = 28L;
            int num5 = binaryReader.ReadInt32();
            int num6 = binaryReader.ReadInt32();

            fs.Position = num3;
            binaryReader.ReadBytes(num4 - num3);
            fs.Position = num4;
            binaryReader.ReadBytes(num5 - num4);
            fs.Position = num5;
            binaryReader.ReadBytes(num6 - num5);
            binaryReader.ReadBytes(Convert.ToInt32(fs.Length) - 4 - num6);
            var array2 = new byte[4194304];

            for (int i = 0; i < num; i++)
            {
                for (int j = 0; j < 2; j++)
                {
                    int num7 = (j == 0) ? 0 : (1 + array[i]);
                    fs.Position = num3 + 144 * num7 + 32;
                    ulong num8  = binaryReader.ReadUInt64();
                    int   num9  = (int)(num8 >> 32) & 16383;
                    int   num10 = (int)(num8 >> 48) & 63;
                    int   num11 = (int)(num8 >> 56) & 63;
                    Trace.Assert(binaryReader.ReadUInt64() == 80uL, "Unexpected texture format");
                    fs.Position = num3 + 144 * num7 + 64;
                    ulong num12 = binaryReader.ReadUInt64();
                    Trace.Assert(binaryReader.ReadUInt64() == 82uL, "Unexpected texture format");
                    fs.Position = num3 + 144 * num7 + 96;
                    ulong num13 = binaryReader.ReadUInt64();
                    int   num14 = (int)num13 & 16383;
                    fs.Position = num3 + 144 * num7 + 112;
                    ulong num15 = binaryReader.ReadUInt64();
                    int   num16 = (int)num15 & 16383;
                    int   num17 = (int)(num15 >> 32) & 2147483647;
                    Trace.Assert(num14 == num16, "Unexpected texture format");
                    fs.Position = num17;
                    var array3 = new byte[16 * num16];
                    fs.Read(array3, 0, 16 * num16);
                    Trace.Assert(num11 == 0, "Unexpected texture format");
                    int bh = Convert.ToInt32(array3.Length) / 8192 / num10;
                    array3 = Reform32.Encode32(array3, num10, bh);
                    Array.Copy(array3, 0, array2, 256 * num9, 16 * num16);
                    Console.Write("");
                }
                fs.Position = num4 + 160 * i + 32;
                ulong num18 = binaryReader.ReadUInt64();
                Trace.Assert(num18 == 0uL, "Unexpected texture format");
                Trace.Assert(binaryReader.ReadUInt64() == 63uL, "Unexpected texture format");
                fs.Position = num4 + 160 * i + 48;
                ulong num19 = binaryReader.ReadUInt64();
                Trace.Assert(num19 == 0uL, "Unexpected texture format");
                Trace.Assert(binaryReader.ReadUInt64() == 52uL, "Unexpected texture format");
                fs.Position = num4 + 160 * i + 64;
                ulong num20 = binaryReader.ReadUInt64();
                Trace.Assert(num20 == 0uL, "Unexpected texture format");
                Trace.Assert(binaryReader.ReadUInt64() == 54uL, "Unexpected texture format");
                fs.Position = num4 + 160 * i + 80;
                ulong num21 = binaryReader.ReadUInt64();
                Trace.Assert(binaryReader.ReadUInt64() == 22uL, "Unexpected texture format");
                fs.Position = num4 + 160 * i + 112;
                ulong num22 = binaryReader.ReadUInt64();
                int   num23 = (int)num22 & 16383;
                int   tbw   = (int)(num22 >> 14) & 63;
                int   num24 = (int)(num22 >> 20) & 63;
                int   num25 = (int)(num22 >> 26) & 15;
                int   num26 = (int)(num22 >> 30) & 15;
                int   num27 = (int)(num22 >> 37) & 16383;
                Trace.Assert(binaryReader.ReadUInt64() == 6uL, "Unexpected texture format");
                int num28  = (1 << num25) * (1 << num26);
                var array4 = new byte[num28];
                Array.Copy(array2, 256 * num23, array4, 0, array4.Length);
                var array5 = new byte[8192];
                Array.Copy(array2, 256 * num27, array5, 0, array5.Length);
                STim item = null;
                if (num24 == 19)
                {
                    item = TexUtil.Decode8(array4, array5, tbw, 1 << num25, 1 << num26);
                }
                if (num24 == 20)
                {
                    item = TexUtil.Decode4(array4, array5, tbw, 1 << num25, 1 << num26);
                }
                texex.alt.Add(item);
            }
            int num29 = 0;

            while (num29 < fs.Length)
            {
                fs.Position = num29;
                byte[] array6 = binaryReader.ReadBytes(16);
                if (array6[0] == 95 && array6[1] == 68 && array6[2] == 77 && array6[3] == 89 && array6[8] == 84 &&
                    array6[9] == 69 && array6[10] == 88 && array6[11] == 65)
                {
                    fs.Position = num29 + 16 + 2;
                    int texi = binaryReader.ReadUInt16();
                    fs.Position = num29 + 16 + 12;
                    binaryReader.ReadUInt16();
                    int num30 = binaryReader.ReadUInt16();
                    int px    = binaryReader.ReadUInt16();
                    int py    = binaryReader.ReadUInt16();
                    int num31 = binaryReader.ReadUInt16();
                    int num32 = binaryReader.ReadUInt16();
                    int num33 = binaryReader.ReadInt32();
                    int num34 = binaryReader.ReadInt32();
                    int num35 = binaryReader.ReadInt32();
                    fs.Position = num29 + 16 + num35;
                    byte[] bits = binaryReader.ReadBytes(num31 * num32 * num30);
                    Patc   patc;
                    texex.alp.Add(patc = new Patc(bits, px, py, num31, num32, num30, texi));
                    int num36 = num29 + 16;
                    int num37 = (num34 - num33) / 2;
                    var list  = new List <Texfac>();
                    for (int k = 0; k < num37; k++)
                    {
                        fs.Position = num36 + num33 + 2 * k;
                        int num38 = binaryReader.ReadInt16() - 1;
                        if (num38 >= 0)
                        {
                            fs.Position = num36 + num34 + 4 * num38;
                            int num39 = binaryReader.ReadInt32();
                            fs.Position = num36 + num39;
                            int    num40 = 0;
                            Texfac texfac;
                            do
                            {
                                texfac    = new Texfac();
                                texfac.i0 = k;
                                texfac.i1 = num38;
                                texfac.i2 = num40;
                                texfac.v0 = binaryReader.ReadInt16();
                                texfac.v2 = binaryReader.ReadInt16();
                                texfac.v4 = binaryReader.ReadInt16();
                                texfac.v6 = binaryReader.ReadInt16();
                                list.Add(texfac);
                                num40++;
                            } while (texfac.v0 >= 0);
                        }
                    }
                    patc.altf = list.ToArray();
                }
                num29 += 16;
            }
            return(texex);
        }