Ejemplo n.º 1
0
 public static CountPointer <T> ReadCountPointer <T>(this Stream IO)
 {
     CountPointer <T> val = new CountPointer <T> {
         Count  = IO.ReadInt32(),
         Offset = IO.ReadInt32()
     }; val.Entries = new T[val.Count]; return(val);
 }
Ejemplo n.º 2
0
        public void DFTReader(string file)
        {
            IsX  = false;
            DFTs = default;
            byte[] dftData = File.ReadAllBytes(file + ".dft");
            Struct _DOFT   = dftData.RSt(); dftData = null;

            if (_DOFT.Header.Signature != 0x54464F44)
            {
                return;
            }

            s      = File.OpenReader(_DOFT.Data);
            s.IsBE = _DOFT.Header.UseBigEndian;

            DFTs = s.RCPE <DFT>();
            if (DFTs.C < 1)
            {
                s.C(); DFTs.C = -1; return;
            }

            if (!(DFTs.C > 0 && DFTs.O == 0))
            {
                s.PI64 = DFTs.O - _DOFT.Header.Length;
                for (i = 0; i < DFTs.C; i++)
                {
                    ref DFT dft = ref DFTs.E[i];
                    dft.Flags        = (Flags)s.RI32E();
                    dft.Focus        = s.RF32E();
                    dft.FocusRange   = s.RF32E();
                    dft.FuzzingRange = s.RF32E();
                    dft.Ratio        = s.RF32E();
                    dft.Quality      = s.RF32E();
                }
            }
Ejemplo n.º 3
0
        public static Pointer <Eff> ReadEff(this Stream IO, ref Dictionary <int, AetObject> ObjectsDict)
        {
            Pointer <Eff> Eff = new Pointer <Eff> {
                Offset = IO.Position,
                Value  = new Eff
                {
                    LayerID        = IO.ReadInt32(),
                    ParentObjectID = IO.ReadInt32(),
                    Marker         = IO.ReadCountPointer <Marker>()
                }
            };

            Eff.Value.Data.Offset = IO.ReadInt32();
            IO.Position           = Eff.Value.LayerID;
            CountPointer <AetObject> AetObjEntry = IO.ReadCountPointer <AetObject>();

            IO.Position = AetObjEntry.Offset;
            for (int i = 0; i < AetObjEntry.Count; i++)
            {
                IO.ReadAetObject(ref ObjectsDict);
            }
            IO.Position = Eff.Value.Marker.Offset;
            for (int i = 0; i < Eff.Value.Marker.Count; i++)
            {
                Eff.Value.Marker.Entries[i].Frame = IO.ReadSingle();
                Eff.Value.Marker.Entries[i].Name  = IO.ReadPointerStringShiftJIS();
            }
            IO.ReadAnimData(ref Eff.Value.Data);

            return(Eff);
        }
Ejemplo n.º 4
0
 public static MsgPack Add(this MsgPack MsgPack, string Name, CountPointer <float> val)
 {
     if (val.Count == 1)
     {
         return(MsgPack.Add(new MsgPack(Name, val.Entries[0])));
     }
     else if (val.Count > 1)
     {
         MsgPack Val = new MsgPack(val.Count, Name);
         for (int i = 0; i < val.Count; i++)
         {
             Val[i] = val.Entries[i];
         }
         return(MsgPack.Add(Val));
     }
     return(MsgPack);
 }
        public void DFTReader(string file)
        {
            DFTs   = default;
            _IO    = File.OpenReader(file + ".dft", true);
            header = _IO.ReadHeader();
            if (header.Signature != 0x54464F44 || header.InnerSignature != 0x3)
            {
                return;
            }
            _IO.P -= 0x4;

            DFTs = _IO.RCPE <DFT>();
            if (DFTs.C < 1)
            {
                _IO.C(); DFTs.C = -1; return;
            }

            if (DFTs.C > 0 && DFTs.O == 0)
            {
                _IO.C(); DFTs.C = -1; return;
            }

            /*{
             *  _IO.Format = Header.Format = Format.X;
             *  _IO.Offset = Header.Length;
             *  _IO.Position = DFTs.Offset;
             *  DFTs = _IO.ReadCountPointerX<DFT>();
             * }*/

            _IO.P = DFTs.O;
            for (i = 0; i < DFTs.C; i++)
            {
                ref DFT DFT = ref DFTs.E[i];
                _IO.RI32E();
                DFT.Focus        = _IO.RF32E();
                DFT.FocusRange   = _IO.RF32E();
                DFT.FuzzingRange = _IO.RF32E();
                DFT.Ratio        = _IO.RF32E();
                DFT.Quality      = _IO.RF32E();
                if (_IO.IsX)
                {
                    _IO.RI32();
                }
            }
Ejemplo n.º 6
0
        public void CCTReader(string file)
        {
            CCTs   = default;
            _IO    = File.OpenReader(file + ".cct", true);
            header = _IO.ReadHeader();
            if (header.Signature != 0x54524343 || header.InnerSignature != 0x3)
            {
                return;
            }
            _IO.P -= 0x4;

            CCTs = _IO.RCPE <CCT>();
            if (CCTs.C < 1)
            {
                _IO.C(); CCTs.C = -1; return;
            }

            if (CCTs.C > 0 && CCTs.O == 0)
            {
                _IO.C(); CCTs.C = -1; return;
            }

            /*{
             *  _IO.Format = Header.Format = Format.X;
             *  _IO.Offset = Header.Length;
             *  _IO.Position = CCTs.Offset;
             *  CCTs = _IO.ReadCountPointerX<CCT>();
             * }*/

            _IO.P = CCTs.O;
            for (i = 0; i < CCTs.C; i++)
            {
                ref CCT cct = ref CCTs.E[i];
                _IO.RI32E();
                cct.Hue        = _IO.RF32E();
                cct.Saturation = _IO.RF32E();
                cct.Lightness  = _IO.RF32E();
                cct.Exposure   = _IO.RF32E();
                cct.Gamma.X    = _IO.RF32E();
                cct.Gamma.Y    = _IO.RF32E();
                cct.Gamma.Z    = _IO.RF32E();
                cct.Contrast   = _IO.RF32E();
            }
Ejemplo n.º 7
0
 public static MsgPack ReadMP(this MsgPack msg, ref CountPointer <float> val, string Name)
 {
     val.Offset  = 0;
     val.Entries = null;
     if (msg.ContainsKey(Name))
     {
         val.Count = 1;
         val[0]    = msg.ReadSingle(Name);
     }
     else if (msg.ElementArray(Name, out MsgPack Temp))
     {
         val.Count = Temp.Array.Length;
         for (int i = 0; i < val.Count; i++)
         {
             val[i] = Temp[i].ReadSingle();
         }
     }
     return(msg);
 }
        public void BLTReader(string file)
        {
            BLTs   = default;
            _IO    = File.OpenReader(file + ".blt", true);
            header = _IO.ReadHeader();
            if (header.Signature != 0x544D4C42 || header.InnerSignature != 0x3)
            {
                return;
            }
            _IO.P -= 0x4;

            BLTs = _IO.RCPE <BLT>();
            if (BLTs.C < 1)
            {
                _IO.C(); BLTs.C = -1; return;
            }

            if (BLTs.C > 0 && BLTs.O == 0)
            {
                _IO.C(); BLTs.C = -1; return;
            }

            /*{
             *  _IO.Format = Header.Format = Format.X;
             *  _IO.Offset = Header.Length;
             *  _IO.Position = BLTs.Offset;
             *  BLTs = _IO.ReadCountPointerX<BLT>();
             * }*/

            _IO.P = BLTs.O;
            for (i = 0; i < BLTs.C; i++)
            {
                ref BLT blt = ref BLTs.E[i];
                _IO.RI32E();
                blt.Color.X      = _IO.RF32E();
                blt.Color.Y      = _IO.RF32E();
                blt.Color.Z      = _IO.RF32E();
                blt.Brightpass.X = _IO.RF32E();
                blt.Brightpass.Y = _IO.RF32E();
                blt.Brightpass.Z = _IO.RF32E();
                blt.Range        = _IO.RF32E();
            }
Ejemplo n.º 9
0
 public static void ReadMP(this MsgPack msg, ref CountPointer <float> val, string Name)
 {
     val.Offset  = 0;
     val.Entries = null;
     if (msg.ContainsKey(Name))
     {
         val.Count      = 1;
         val.Entries[0] = msg.ReadSingle(Name);
     }
     else if (msg.Element <MsgPack>(Name, out MsgPack Temp))
     {
         val.Count = Temp.Array.Length;
         for (int i = 0; i < val.Count; i++)
         {
             if (Temp[i] is MsgPack temp)
             {
                 val.Entries[i] = temp.ReadSingle();
             }
         }
     }
 }
Ejemplo n.º 10
0
        public void CCTReader(string file)
        {
            IsX  = false;
            CCTs = default;
            byte[] ccData = File.ReadAllBytes(file + ".cct");
            Struct _CCRT  = ccData.RSt(); ccData = null;

            if (_CCRT.Header.Signature != 0x54524343)
            {
                return;
            }

            s      = File.OpenReader(_CCRT.Data);
            s.IsBE = _CCRT.Header.UseBigEndian;

            CCTs = s.RCPE <CCT>();
            if (CCTs.C < 1)
            {
                s.C(); CCTs.C = -1; return;
            }

            if (!(CCTs.C > 0 && CCTs.O == 0))
            {
                s.PI64 = CCTs.O - _CCRT.Header.Length;
                for (i = 0; i < CCTs.C; i++)
                {
                    ref CCT cct = ref CCTs.E[i];
                    cct.Flags      = (Flags)s.RI32E();
                    cct.Hue        = s.RF32E();
                    cct.Saturation = s.RF32E();
                    cct.Lightness  = s.RF32E();
                    cct.Exposure   = s.RF32E();
                    cct.Gamma.X    = s.RF32E();
                    cct.Gamma.Y    = s.RF32E();
                    cct.Gamma.Z    = s.RF32E();
                    cct.Contrast   = s.RF32E();
                }
            }
Ejemplo n.º 11
0
        public void BLTReader(string file)
        {
            IsX  = false;
            BLTs = default;
            byte[] bltData = File.ReadAllBytes(file + ".blt");
            Struct _BLMT   = bltData.RSt(); bltData = null;

            if (_BLMT.Header.Signature != 0x544D4C42)
            {
                return;
            }

            s      = File.OpenReader(_BLMT.Data);
            s.IsBE = _BLMT.Header.UseBigEndian;

            BLTs = s.RCPE <BLT>();
            if (BLTs.C < 1)
            {
                s.C(); BLTs.C = -1; return;
            }

            if (!(BLTs.C > 0 && BLTs.O == 0))
            {
                s.PI64 = BLTs.O - _BLMT.Header.Length;
                for (i = 0; i < BLTs.C; i++)
                {
                    ref BLT blt = ref BLTs.E[i];
                    blt.Flags        = (Flags)s.RI32E();
                    blt.Color.X      = s.RF32E();
                    blt.Color.Y      = s.RF32E();
                    blt.Color.Z      = s.RF32E();
                    blt.Brightpass.X = s.RF32E();
                    blt.Brightpass.Y = s.RF32E();
                    blt.Brightpass.Z = s.RF32E();
                    blt.Range        = s.RF32E();
                }
            }
Ejemplo n.º 12
0
 public static void WX <T>(this Stream stream, CountPointer <T> val)
 {
     stream.WX(val.C); stream.WX(val.O);
 }
Ejemplo n.º 13
0
        public void LITReader(string file)
        {
            LITs   = default;
            _IO    = File.OpenReader(file + ".lit", true);
            header = _IO.ReadHeader();
            if (header.Signature != 0x4354494C || header.InnerSignature != 0x2 ||
                header.SectionSignature != 0x2)
            {
                return;
            }

            LITs = _IO.RCPE <CountPointer <LIT> >();
            if (LITs.C < 1)
            {
                _IO.C(); LITs.C = -1; return;
            }

            _IO.P = LITs.O;
            for (i = 0; i < LITs.C; i++)
            {
                LITs[i] = _IO.RCPX <LIT>();
                if ((LITs[i].C > 0 || LITs[i].O == 0) && !_IO.IsX)
                {
                    _IO.C(); LITs.C = -1; return;
                }

                /*{
                 *  _IO.Format = Header.Format = Format.X;
                 *  _IO.Offset = Header.Length;
                 *  _IO.Position = LITs.Offset;
                 *  LITs[i] = _IO.ReadCountPointerX<LIT>();
                 * }
                 * if (_IO.IsX) IO.ReadInt64();*/
            }

            for (i = 0; i < LITs.C; i++)
            {
                _IO.P = LITs[i].O;
                for (i0 = 0; i0 < LITs[i].C; i0++)
                {
                    ref LIT lit = ref LITs.E[i].E[i0];
                    lit.Id    = (Id   )_IO.RI32E();
                    lit.Flags = (Flags)_IO.RI32E();
                    lit.Type  = (Type )_IO.RI32E();
                    if (_IO.IsX)
                    {
                        _IO.RI64(); _IO.RI64(); _IO.RI64();
                    }
                    lit.Ambient.X   = _IO.RF32E();
                    lit.Ambient.Y   = _IO.RF32E();
                    lit.Ambient.Z   = _IO.RF32E();
                    lit.Ambient.W   = _IO.RF32E();
                    lit.Diffuse.X   = _IO.RF32E();
                    lit.Diffuse.Y   = _IO.RF32E();
                    lit.Diffuse.Z   = _IO.RF32E();
                    lit.Diffuse.W   = _IO.RF32E();
                    lit.Specular.X  = _IO.RF32E();
                    lit.Specular.Y  = _IO.RF32E();
                    lit.Specular.Z  = _IO.RF32E();
                    lit.Specular.W  = _IO.RF32E();
                    lit.Position.X  = _IO.RF32E();
                    lit.Position.Y  = _IO.RF32E();
                    lit.Position.Z  = _IO.RF32E();
                    lit.ToneCurve.X = _IO.RF32E();
                    lit.ToneCurve.Y = _IO.RF32E();
                    lit.ToneCurve.Z = _IO.RF32E();
                    if (_IO.IsX)
                    {
                        _IO.RI64(); _IO.RI64(); _IO.RI64();
                        _IO.RI64(); _IO.RI64(); _IO.RI32();
                    }
                }
            }
Ejemplo n.º 14
0
        public void LITReader(string file)
        {
            IsX  = false;
            LITs = default;
            byte[] litData = File.ReadAllBytes(file + ".lit");
            Struct _LITC   = litData.RSt(); litData = null;

            if (_LITC.Header.Signature != 0x4354494C)
            {
                return;
            }

            s      = File.OpenReader(_LITC.Data);
            s.IsBE = _LITC.Header.UseBigEndian;

            s.RI32();
            LITs = s.RCPE <LightStruct>();
            if (LITs.C < 1)
            {
                s.C(); LITs.C = -1; return;
            }

            s.PI64 = LITs.O - _LITC.Header.Length;
            if (s.RI32() != 0)
            {
                s.PI64 = LITs.O - _LITC.Header.Length;
                for (i = 0; i < LITs.C; i++)
                {
                    LITs.E[i] = new LightStruct
                    {
                        C0 = s.RI32E(), O0 = s.RI32E()
                    }
                }
                ;

                for (i = 0; i < LITs.C; i++)
                {
                    s.PI64 = LITs.E[i].O0 - _LITC.Header.Length;
                    for (i0 = 0; i0 < LITs.E[i].C0; i0++)
                    {
                        ref LIT lit = ref LITs.E[i].E0[i0];
                        lit.Id          = s.RI32E();
                        lit.Flags       = (Flags)s.RI32E();
                        lit.Type        = (Type )s.RI32E();
                        lit.Ambient.X   = s.RF32E();
                        lit.Ambient.Y   = s.RF32E();
                        lit.Ambient.Z   = s.RF32E();
                        lit.Ambient.W   = s.RF32E();
                        lit.Diffuse.X   = s.RF32E();
                        lit.Diffuse.Y   = s.RF32E();
                        lit.Diffuse.Z   = s.RF32E();
                        lit.Diffuse.W   = s.RF32E();
                        lit.Specular.X  = s.RF32E();
                        lit.Specular.Y  = s.RF32E();
                        lit.Specular.Z  = s.RF32E();
                        lit.Specular.W  = s.RF32E();
                        lit.Position.X  = s.RF32E();
                        lit.Position.Y  = s.RF32E();
                        lit.Position.Z  = s.RF32E();
                        lit.ToneCurve.X = s.RF32E();
                        lit.ToneCurve.Y = s.RF32E();
                        lit.ToneCurve.Z = s.RF32E();
                    }
                }
            }
            else
            {
                IsX    = true;
                s.PI64 = LITs.O;
                for (i = 0; i < LITs.C; i++)
                {
                    LITs.E[i] = new LightStruct
                    {
                        C0 = s.RI32E(), C1 = s.RI32E(), O0 = (int)s.RI64E(), O1 = (int)s.RI64E()
                    }
                }
                ;

                for (i = 0; i < LITs.C; i++)
                {
                    s.P = LITs.E[i].O0;
                    for (i0 = 0; i0 < LITs.E[i].C0; i0++)
                    {
                        ref LIT lit = ref LITs.E[i].E0[i0];
                        lit.Id    = s.RI32E();
                        lit.Flags = (Flags)s.RI32E();
                        lit.Type  = (Type )s.RI32E();
                        s.RI32();
                        long off = s.RI64();
                        lit.HasStr      = s.RI64() != 0;
                        lit.Unk10       = s.RI32();
                        lit.Ambient.X   = s.RF32E();
                        lit.Ambient.Y   = s.RF32E();
                        lit.Ambient.Z   = s.RF32E();
                        lit.Ambient.W   = s.RF32E();
                        lit.Diffuse.X   = s.RF32E();
                        lit.Diffuse.Y   = s.RF32E();
                        lit.Diffuse.Z   = s.RF32E();
                        lit.Diffuse.W   = s.RF32E();
                        lit.Specular.X  = s.RF32E();
                        lit.Specular.Y  = s.RF32E();
                        lit.Specular.Z  = s.RF32E();
                        lit.Specular.W  = s.RF32E();
                        lit.Position.X  = s.RF32E();
                        lit.Position.Y  = s.RF32E();
                        lit.Position.Z  = s.RF32E();
                        lit.Unk01       = s.RF32();
                        lit.Unk02       = s.RF32();
                        lit.Unk03       = s.RF32();
                        lit.Unk04       = s.RF32();
                        lit.Unk05.X     = s.RF32();
                        lit.Unk05.Y     = s.RF32();
                        lit.Unk05.Z     = s.RF32();
                        lit.ToneCurve.X = s.RF32E();
                        lit.ToneCurve.Y = s.RF32E();
                        lit.ToneCurve.Z = s.RF32E();
                        lit.Unk         = s.RF32();
                        lit.Unk06       = s.RF32();
                        lit.Unk07       = s.RF32();
                        lit.Unk08       = s.RF32();

                        lit.Str = off > 0 ? s.RaO(off).ToSJIS() : "";
                    }

                    s.P = LITs.E[i].O1;
                    for (i0 = 0; i0 < LITs.E[i].C1; i0++)
                    {
                        ref LITX lit = ref LITs.E[i].E1[i0];
                        lit.C = s.RI32E();
                        s.RI32E();
                        lit.O = (int)s.RI64E();
                    }

                    for (i0 = 0; i0 < LITs.E[i].C1; i0++)
                    {
                        ref LITX lit = ref LITs.E[i].E1[i0];
                        ref      KeyValuePair <int, int>[] data = ref lit.E;
                        data = new KeyValuePair <int, int> [lit.C];

                        s.P = lit.O;
                        for (int i1 = 0; i1 < lit.C; i1++)
                        {
                            data[i1] = new KeyValuePair <int, int>(s.RI32E(), s.RI32E());
                        }
                    }