Esempio n. 1
0
        private byte[] Decrypt(FileData d)
        {
            int[] filedata = null;
            filedata = new int[d.size() / 4];
            int size   = (int)d.size();
            int words  = size >> 2;
            int xorval = 0;

            d.seek(0x1C);
            d.Endian = Endianness.Big;
            int      SEED  = d.readInt();
            RandomXS _rand = new RandomXS(SEED);

            d.Endian = Endianness.Big;
            d.seek(0);
            if (size % 8 == 0)
            {
                goto Dword_loop;
            }
            else if (size == 0)
            {
                return(null);
            }
            else if (size / 8 <= 0)
            {
                goto BYTE_loop;
            }
            else
            {
                ;//goto default_loop
            }
            #region DWORD Loop
Dword_loop:
            if (words == 0)
            {
                goto loops_end;
            }
            else if (words / 8 <= 0)
            {
                goto Word_Loop;
            }
            else
            {
                for (int i = 0; i < (words >> 3); i++)
                {
                    for (int x = 0; x < 8; x++)
                    {
                        var randInt = _rand.GetInt();
                        var XOR     = d.readInt() ^ randInt;
                        var val     = XOR ^ xorval;
                        xorval = (randInt << 13) & unchecked ((int)0x80000000);
                        filedata[x + (i * 8)] = val.Reverse();
                    }
                }
            }
            #endregion
            #region Word Loop
Word_Loop:
            if ((words & 7) <= 0)
            {
                goto loops_end;
            }
            int offset = (size >> 2 >> 3 << 3 << 2);
            d.seek(offset);

            for (int i = 0; i < (words & 7); i++)
            {
                var randInt = _rand.GetInt();
                var XOR     = d.readInt() ^ randInt;
                var val     = XOR ^ xorval;
                xorval = (randInt << 13) & unchecked ((int)0x80000000);
                filedata[offset / 4 + i] = val.Reverse();
            }
            goto loops_end;
            #endregion
            #region BYTE Loop
BYTE_loop:
            if ((size & 7) == 0)
            {
                goto func_end;
            }
            d.seek(4);
            for (int i = 4; i < (size & 7); i++)
            {
                byte[] data    = BitConverter.GetBytes(filedata[i.RoundDown(4)]);
                var    b       = d.readByte();
                var    shifted = (b >> 3) | (b << 32 - 3);
                var    val     = b ^ shifted;
                data[i] = (byte)val;
            }
            #endregion
loops_end:
            filedata[7] = SEED.Reverse();
func_end:
            byte[] result = new byte[filedata.Length * sizeof(int)];
            Buffer.BlockCopy(filedata, 0, result, 0, result.Length);
            return(result);
        }
Esempio n. 2
0
        public static Animation read(FileData d)
        {
            d.Endian = Endianness.Big;

            d.skip(4); // header OMO
            d.skip(4); // two shorts, idk

            d.skip(4); //flags?

            d.skip(2);
            int boneCount  = d.readShort();
            int frameCount = d.readShort();
            int frameSize  = d.readShort();

            int offset1 = d.readInt();  // nodeOffset
            int offset2 = d.readInt();  // interOffset
            int offset3 = d.readInt();  // keyOffset

            SkelAnimation anim = new SkelAnimation();

            anim.Tag = d;

            if (boneCount > offset2 / 0x10)
            {
                boneCount = offset2 / 0x10;
                anim.Tag  = null;
            }

            // base frames
            // These are linked to bones via hashes
            d.seek(offset1); //
            int[]     framekey = new int[boneCount];
            KeyNode[] baseNode = new KeyNode[boneCount];

            // Start positions for bones/nodes
            for (int i = 0; i < boneCount; i++)
            {
                flagsused = flagsused | d.readInt(); d.seek(d.pos() - 4);
                //Console.WriteLine(flagsused.ToString("x"));

                int flags = d.readByte();
                int tFlag = d.readByte();
                int rFlag = d.readByte();
                int sFlag = d.readByte();
                int hash  = d.readInt(); // used to find the identifying bone
                int off1  = d.readInt() + offset2;
                framekey[i] = d.readInt();

                bool hasTrans = (flags & 0x01) == 0x01;
                bool hasScale = (flags & 0x04) == 0x04;
                bool hasRot   = (flags & 0x02) == 0x02;

                KeyNode node = new KeyNode();
                baseNode[i] = node;

                node.hash = (uint)hash;

                int temp = d.pos();
                d.seek(off1);

                if (hasTrans)
                {
                    if (tFlag == 0x8)
                    { // interpolated
                        node.t_type = KeyNode.INTERPOLATED;
                        node.t      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.t2     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    else if (tFlag == 0x20)
                    {
                        node.t_type = KeyNode.CONSTANT;
                        node.t      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    else if (tFlag == 0x4)
                    {
                        // entire Vector3 provided in keyframe data i.e. KEYFRAME type
                        node.t_type = KeyNode.KEYFRAME;
                    }
                }
                if (hasRot)
                {
                    if ((rFlag & 0xF0) != 0x50 && (rFlag & 0xF0) != 0x70 && (rFlag & 0xF0) != 0x60 && (rFlag & 0xF0) != 0xA0)
                    {
                        //Console.WriteLine(rFlag);
                    }

                    if ((rFlag & 0xF0) == 0xA0)
                    {
                        // All data is in the keyframe for this type
                        node.r_type = KeyNode.COMPRESSED;
                    }

                    if ((rFlag & 0xF0) == 0x50)
                    { // interpolated
                        node.r_type = KeyNode.INTERPOLATED;
                        node.rv     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.rv2    = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }

                    if ((rFlag & 0xF0) == 0x60)
                    {
                        node.r_type  = KeyNode.KEYFRAME;
                        node.rv      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.r_extra = d.readFloat() / 65535;
                    }

                    if ((rFlag & 0xF0) == 0x70)
                    {
                        node.r_type = KeyNode.CONSTANT;
                        node.rv     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                }

                if (hasScale)
                {
                    if ((sFlag & 0xF0) == 0x80)
                    { // interpolated
                        node.s_type = KeyNode.INTERPOLATED;
                        node.s      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.s2     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    // TODO: investigate the difference between these
                    if ((rFlag & 0x0F) == 0x02 || (rFlag & 0x0F) == 0x03)
                    { // constant
                        node.s_type = KeyNode.CONSTANT;
                        node.s      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                }
                d.seek(temp);
            }

            // Interpolated type below here is always a set translation/rotation/scale
            // from the coords specified with the bone node above

            Animation a = new Animation("Anim");

            a.Tag        = anim.Tag;
            a.FrameCount = frameCount;

            d.seek(offset3);

            for (int j = 0; j < boneCount; j++)
            {
                string bid  = "";
                int    hash = -1;
                if (!MainForm.Hashes.ids.TryGetValue(baseNode[j].hash, out bid))
                {
                    hash = (int)baseNode[j].hash;
                }
                Animation.KeyNode n = new Animation.KeyNode(bid);
                n.Hash = hash;
                a.Bones.Add(n);
                n.Type = Animation.BoneType.NORMAL;

                /*foreach (ModelContainer con in Runtime.ModelContainers)
                 *  if (con.VBN != null)
                 *      bid = con.VBN.getBone(baseNode[j].hash) == null ? "" : con.VBN.getBone(baseNode[j].hash).Text;*/

                for (int i = 0; i < a.FrameCount; i++)
                {
                    d.seek(offset3 + frameSize * i + framekey[j]);

                    if (baseNode[j].t_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / 0xffff);
                        float i2 = ((float)d.readShort() / 0xffff);
                        float i3 = ((float)d.readShort() / 0xffff);

                        float x = baseNode[j].t.X + (baseNode[j].t2.X * (i1));
                        float y = baseNode[j].t.Y + (baseNode[j].t2.Y * (i2));
                        float z = baseNode[j].t.Z + (baseNode[j].t2.Z * (i3));

                        //node.t = new Vector3(x, y, z);  // Translation
                        n.XPOS.Keys.Add(new Animation.KeyFrame(x, i));
                        n.YPOS.Keys.Add(new Animation.KeyFrame(y, i));
                        n.ZPOS.Keys.Add(new Animation.KeyFrame(z, i));
                    }
                    else if (baseNode[j].t_type == KeyNode.CONSTANT)
                    {
                        //node.t = baseNode[j].t;
                        n.XPOS.Keys.Add(new Animation.KeyFrame(baseNode[j].t.X, i));
                        n.YPOS.Keys.Add(new Animation.KeyFrame(baseNode[j].t.Y, i));
                        n.ZPOS.Keys.Add(new Animation.KeyFrame(baseNode[j].t.Z, i));
                    }
                    else if (baseNode[j].t_type == 2)
                    {
                        float x = d.readFloat();
                        float y = d.readFloat();
                        float z = d.readFloat();

                        //node.t = new Vector3(x, y, z);
                        n.XPOS.Keys.Add(new Animation.KeyFrame(x, i));
                        n.YPOS.Keys.Add(new Animation.KeyFrame(y, i));
                        n.ZPOS.Keys.Add(new Animation.KeyFrame(z, i));
                    }

                    if (baseNode[j].r_type == KeyNode.COMPRESSED)
                    {
                        // There are 64 bits present for each node of this rot type
                        // The format is: 20bits * 3 of encoded floats, and 4 bits of flags
                        // The flags describe which 3 components of the quaternion are being presented
                        int b1 = d.readByte();
                        int b2 = d.readByte();
                        int b3 = d.readByte();
                        int b4 = d.readByte();
                        int b5 = d.readByte();
                        int b6 = d.readByte();
                        int b7 = d.readByte();
                        int b8 = d.readByte();

                        // Capture 20 bits at a time of the raw data
                        int f1    = (b1 << 12) | (b2 << 4) | ((b3 & 0xF0) >> 4);
                        int f2    = ((b3 & 0xF) << 16) | (b4 << 8) | b5;
                        int f3    = (b6 << 12) | (b7 << 4) | ((b8 & 0xF0) >> 4);
                        int flags = b8 & 0xF;

                        Quaternion r = new Quaternion();
                        switch (flags)
                        {
                        case 0:      // y, z, w provided
                            r.Y = encodedRot10ToQuaternionComponent(f1);
                            r.Z = encodedRot10ToQuaternionComponent(f2);
                            r.W = encodedRot10ToQuaternionComponent(f3);

                            r.X = (float)Math.Sqrt(Math.Abs(1 - (r.Y * r.Y + r.Z * r.Z + r.W * r.W)));
                            break;

                        case 1:      // x, z, w provided
                            r.X = encodedRot10ToQuaternionComponent(f1);
                            r.Z = encodedRot10ToQuaternionComponent(f2);
                            r.W = encodedRot10ToQuaternionComponent(f3);

                            r.Y = (float)Math.Sqrt(Math.Abs(1 - (r.X * r.X + r.Z * r.Z + r.W * r.W)));
                            break;

                        case 2:      // x, y, w provided
                            r.X = encodedRot10ToQuaternionComponent(f1);
                            r.Y = encodedRot10ToQuaternionComponent(f2);
                            r.W = encodedRot10ToQuaternionComponent(f3);

                            r.Z = (float)Math.Sqrt(Math.Abs(1 - (r.X * r.X + r.Y * r.Y + r.W * r.W)));
                            break;

                        case 3:      // x, y, z, provided
                            r.X = encodedRot10ToQuaternionComponent(f1);
                            r.Y = encodedRot10ToQuaternionComponent(f2);
                            r.Z = encodedRot10ToQuaternionComponent(f3);

                            r.W = (float)Math.Sqrt(Math.Abs(1 - (r.X * r.X + r.Y * r.Y + r.Z * r.Z)));
                            break;

                        default:
                            Console.WriteLine("Unknown rotation type3 flags: " + flags);
                            break;
                        }
                        n.RotType = Animation.RotationType.QUATERNION;
                        n.XROT.Keys.Add(new Animation.KeyFrame(r.X, i));
                        n.YROT.Keys.Add(new Animation.KeyFrame(r.Y, i));
                        n.ZROT.Keys.Add(new Animation.KeyFrame(r.Z, i));
                        n.WROT.Keys.Add(new Animation.KeyFrame(r.W, i));
                    }
                    else if (baseNode[j].r_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / (0xffff));
                        float i2 = ((float)d.readShort() / (0xffff));
                        float i3 = ((float)d.readShort() / (0xffff));

                        float x = baseNode[j].rv.X + (baseNode[j].rv2.X * (i1));
                        float y = baseNode[j].rv.Y + (baseNode[j].rv2.Y * (i2));
                        float z = baseNode[j].rv.Z + (baseNode[j].rv2.Z * (i3));

                        float w = (float)Math.Sqrt(Math.Abs(1 - (x * x + y * y + z * z)));

                        Quaternion r = new Quaternion(new Vector3(x, y, z), w);
                        r.Normalize();

                        n.RotType = Animation.RotationType.QUATERNION;
                        n.XROT.Keys.Add(new Animation.KeyFrame(r.X, i));
                        n.YROT.Keys.Add(new Animation.KeyFrame(r.Y, i));
                        n.ZROT.Keys.Add(new Animation.KeyFrame(r.Z, i));
                        n.WROT.Keys.Add(new Animation.KeyFrame(r.W, i));
                    }
                    else if (baseNode[j].r_type == KeyNode.KEYFRAME)
                    {
                        float scale = d.readShort() * baseNode[j].r_extra;
                        float x     = baseNode[j].rv.X;
                        float y     = baseNode[j].rv.Y;
                        float z     = baseNode[j].rv.Z + scale;
                        float w     = rot6CalculateW(x, y, z);

                        Quaternion r = new Quaternion(x, y, z, w);
                        n.RotType = Animation.RotationType.QUATERNION;
                        n.XROT.Keys.Add(new Animation.KeyFrame(r.X, i));
                        n.YROT.Keys.Add(new Animation.KeyFrame(r.Y, i));
                        n.ZROT.Keys.Add(new Animation.KeyFrame(r.Z, i));
                        n.WROT.Keys.Add(new Animation.KeyFrame(r.W, i));
                    }
                    else
                    {
                        float x = baseNode[j].rv.X;
                        float y = baseNode[j].rv.Y;
                        float z = baseNode[j].rv.Z;
                        float w = (float)Math.Sqrt(Math.Abs(1 - (x * x + y * y + z * z)));

                        Quaternion r = new Quaternion(baseNode[j].rv, w);
                        r.Normalize();
                        n.RotType = Animation.RotationType.QUATERNION;
                        n.XROT.Keys.Add(new Animation.KeyFrame(r.X, i));
                        n.YROT.Keys.Add(new Animation.KeyFrame(r.Y, i));
                        n.ZROT.Keys.Add(new Animation.KeyFrame(r.Z, i));
                        n.WROT.Keys.Add(new Animation.KeyFrame(r.W, i));
                    }

                    if (baseNode[j].s_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / (0xffff));
                        float i2 = ((float)d.readShort() / (0xffff));
                        float i3 = ((float)d.readShort() / (0xffff));

                        float x = baseNode[j].s.X + (baseNode[j].s2.X * (i1));
                        float y = baseNode[j].s.Y + (baseNode[j].s2.Y * (i2));
                        float z = baseNode[j].s.Z + (baseNode[j].s2.Z * (i3));

                        //node.s = new Vector3(x, y, z);
                        n.XSCA.Keys.Add(new Animation.KeyFrame(x, i));
                        n.YSCA.Keys.Add(new Animation.KeyFrame(y, i));
                        n.ZSCA.Keys.Add(new Animation.KeyFrame(z, i));
                    }
                    else
                    {
                        //node.s = baseNode[j].s;
                        n.XSCA.Keys.Add(new Animation.KeyFrame(baseNode[j].s.X, i));
                        n.YSCA.Keys.Add(new Animation.KeyFrame(baseNode[j].s.Y, i));
                        n.ZSCA.Keys.Add(new Animation.KeyFrame(baseNode[j].s.Z, i));
                    }
                }
            }

            return(a);
        }
Esempio n. 3
0
        /*public void readStageAnim()
         * {
         *  FileData d = new FileData("C:\\Users\\ploaj_000\\Desktop\\Melee\\GrIz.dat");
         *  d.Endian = System.IO.Endianness.Big;
         *  Debug = true;
         *  readKeyFrame(d, 8, 0x107300, 0x04, 0x00, 0x08, 0, 0x06);
         * }*/

        public void readKeyFrame(FileData d, int length, int dataoff, int valueFormat, int tanFormat, int keyframeCount, int boneId, int trackType)
        {
            int temp = d.pos();

            d.seek(dataoff);

            if (Debug)
            {
                Console.WriteLine("Start 0x" + d.pos() + " " + keyframeCount);
            }

            DATAnimTrack track = new DATAnimTrack();

            track.type = (AnimType)trackType;
            nodes[boneId].Add(track);

            while (d.pos() < dataoff + length)
            {
                int type = readExtendedByte(d);

                int interpolation = ((type) & 0x0F);
                int numOfKey      = ((type >> 4) & 0xFF) + 1;

                if (Debug)
                {
                    Console.WriteLine("Interpolation type: " + (InterpolationType)interpolation + "\tnumofkey: " + numOfKey);
                }

                for (int i = 0; i < numOfKey; i++)
                {
                    double value = -99, tan = -99;
                    int    time = 0;
                    if (interpolation == 1)
                    { // step
                        value = readVal(d, valueFormat);
                        time  = readExtendedByte(d);
                        if (Debug)
                        {
                            Console.WriteLine("\t" + value + "\t" + time);
                        }
                    }
                    if (interpolation == 2)
                    { // linear
                        value = readVal(d, valueFormat);
                        time  = readExtendedByte(d);
                        //Console.WriteLine("\t" + value + "\t" + time);
                    }
                    if (interpolation == 3)
                    { // hermite
                        value = readVal(d, valueFormat);
                        tan   = 0;
                        time  = readExtendedByte(d);
                        if (Debug)
                        {
                            Console.WriteLine("\t" + value + "\t" + time);
                        }
                    }
                    if (interpolation == 4)
                    { // hermite
                        value = readVal(d, valueFormat);
                        tan   = readVal(d, tanFormat);
                        time  = readExtendedByte(d);
                        if (Debug)
                        {
                            Console.WriteLine("\t" + value + "\t" + tan + "\t" + time);
                        }
                    }
                    if (interpolation == 5)
                    { // hermite
                        tan = readVal(d, tanFormat);
                        if (Debug)
                        {
                            Console.WriteLine("\t" + "Tan" + tan);
                        }
                    }
                    if (interpolation == 6)
                    { // constant
                        value = readVal(d, valueFormat);
                        time  = readExtendedByte(d);
                        //Console.WriteLine("\t" + value + "\t" + time);
                    }

                    KeyNode node = new KeyNode();
                    node.value             = (float)value;
                    node.frame             = time;
                    node.tan               = (float)tan;
                    node.interpolationType = (InterpolationType)interpolation;
                    track.keys.Add(node);
                    //node.boneID = boneId;
                }
                d.Endian = System.IO.Endianness.Big;
            }
            //Console.WriteLine("Ends at: " + (d.pos() + 8 - (d.pos() % 8)).ToString("x"));

            d.seek(temp);
        }
Esempio n. 4
0
        public static SkelAnimation read(FileData d)
        {
            d.Endian = Endianness.Big;

            d.skip(4); // header OMO
            d.skip(4); // two shorts, idk

            d.skip(4); //flags?

            d.skip(2);
            int numOfBones = d.readShort();
            int frameSize  = d.readShort();
            int frameStart = d.readShort();

            int offset1 = d.readInt();
            int offset2 = d.readInt();
            int offset3 = d.readInt();

            SkelAnimation anim = new SkelAnimation();

            anim.Tag = d;
            //anim.setModel(m);

            // base frames
            // These are linked to bones somehow, hash??
            d.seek(offset1); //
            int[]     framekey = new int[numOfBones];
            KeyNode[] baseNode = new KeyNode[numOfBones];

            for (int i = 0; i < numOfBones; i++)
            {
                int flags = d.readByte();
                int tFlag = d.readByte();
                int rFlag = d.readByte();
                int sFlag = d.readByte();
                int hash  = d.readInt(); // used to find the identifying bone
                int off1  = d.readInt() + offset2;
                framekey[i] = d.readInt();

                bool hasTrans = (flags & 0x01) == 0x01;
                bool hasScale = (flags & 0x04) == 0x04;
                bool hasRot   = (flags & 0x02) == 0x02;

                KeyNode node = new KeyNode();
                baseNode[i] = node;

                node.hash = (uint)hash;

                int temp = d.pos();
                d.seek(off1);

                if (hasTrans)
                {
                    if (tFlag == 0x8)
                    { // interpolated
                        node.t_type = KeyNode.INTERPOLATED;
                        node.t      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.t2     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    else if (tFlag == 0x20)
                    {
                        node.t_type = KeyNode.CONSTANT;
                        node.t      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                }
                if (hasRot)
                {
                    if ((rFlag & 0xF) != 0x50 && (rFlag & 0xF0) != 0x70 && (rFlag & 0xF0) != 0x60 && (rFlag & 0xF0) != 0xA0)
                    {
                        //Console.WriteLine(rFlag);
                    }

                    if ((rFlag & 0xF0) == 0xA0)
                    {
                        node.r_type = 3;
                    }

                    if ((rFlag & 0xF0) == 0x50)
                    { // interpolated
                        node.r_type = KeyNode.INTERPOLATED;
                        node.rv     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.rv2    = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    if ((rFlag & 0xF0) == 0x70 || (rFlag & 0xF0) == 0x60)
                    { // constant
                        node.r_type = KeyNode.CONSTANT;
                        node.rv     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        if ((rFlag & 0xF0) == 0x60)
                        {
                            d.skip(4);
                        }
                    }
                }

                if (hasScale)
                {
                    if ((sFlag & 0xF0) == 0x80)
                    { // interpolated
                        node.s_type = KeyNode.INTERPOLATED;
                        node.s      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                        node.s2     = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                    if ((rFlag & 0x0F) == 0x02 || (rFlag & 0x0F) == 0x03)
                    { // constant
                        node.s_type = KeyNode.CONSTANT;
                        node.s      = new Vector3(d.readFloat(), d.readFloat(), d.readFloat());
                    }
                }
                d.seek(temp);
            }


            d.seek(offset3);
            for (int i = 0; i < frameSize; i++)
            {
                KeyFrame key = new KeyFrame();
                key.frame = i;

                int off = d.pos();

                for (int j = 0; j < numOfBones; j++)
                {
                    KeyNode node = new KeyNode();

                    node.t_type = baseNode[j].t_type;
                    node.r_type = baseNode[j].r_type;
                    node.s_type = baseNode[j].s_type;

                    node.id   = baseNode[j].id;
                    node.hash = baseNode[j].hash;

                    d.seek(off + framekey[j]);

                    if (baseNode[j].t_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / 0xffff);
                        float i2 = ((float)d.readShort() / 0xffff);
                        float i3 = ((float)d.readShort() / 0xffff);

                        float x = baseNode[j].t.X + (baseNode[j].t2.X * (i1));
                        float y = baseNode[j].t.Y + (baseNode[j].t2.Y * (i2));
                        float z = baseNode[j].t.Z + (baseNode[j].t2.Z * (i3));

                        node.t = new Vector3(x, y, z);
                    }
                    else
                    {
                        node.t = baseNode[j].t;
                    }

                    if (baseNode[j].r_type == 3)
                    {
                        float i4 = ((float)d.readShort() / (0xffff));
                        float i1 = ((float)d.readShort() / (0xffff));
                        float i2 = ((float)d.readShort() / (0xffff));
                        float i3 = ((float)d.readShort() / (0xffff));

                        node.r      = new Quaternion(new Vector3(i1, i2, i3), i4);
                        node.r      = VBN.FromEulerAngles(i4 * i1, i4 * i2, i4 * i3);
                        node.r_type = KeyNode.INTERPOLATED;
                        //node.r.Normalize();
                    }
                    else
                    if (baseNode[j].r_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / (0xffff));
                        float i2 = ((float)d.readShort() / (0xffff));
                        float i3 = ((float)d.readShort() / (0xffff));

                        float x = baseNode[j].rv.X + (baseNode[j].rv2.X * (i1));
                        float y = baseNode[j].rv.Y + (baseNode[j].rv2.Y * (i2));
                        float z = baseNode[j].rv.Z + (baseNode[j].rv2.Z * (i3));

                        float w = (float)Math.Sqrt(Math.Abs(1 - (x * x + y * y + z * z)));

                        node.r = new Quaternion(new Vector3(x, y, z), w);
                        node.r.Normalize();
                    }
                    else
                    {
                        float x = baseNode[j].rv.X;
                        float y = baseNode[j].rv.Y;
                        float z = baseNode[j].rv.Z;

                        float w = (float)Math.Sqrt(1 - (x * x + y * y + z * z));

                        node.r = new Quaternion(baseNode[j].rv, w);
                    }

                    if (baseNode[j].s_type == KeyNode.INTERPOLATED)
                    {
                        float i1 = ((float)d.readShort() / (0xffff));
                        float i2 = ((float)d.readShort() / (0xffff));
                        float i3 = ((float)d.readShort() / (0xffff));

                        float x = baseNode[j].s.X + (baseNode[j].s2.X * (i1));
                        float y = baseNode[j].s.Y + (baseNode[j].s2.Y * (i2));
                        float z = baseNode[j].s.Z + (baseNode[j].s2.Z * (i3));

                        node.s = new Vector3(x, y, z);
                    }
                    else
                    {
                        node.s = baseNode[j].s;
                    }

                    key.addNode(node);
                }
                d.seek(off + frameStart);

                anim.addKeyframe(key);
            }

            return(anim);
        }
Esempio n. 5
0
        /**
         * Reading and saving --------------------
         **/

        public override void Read(string filename)
        {
            FileData d = new FileData(filename);

            d.seek(0);
            d.Endian = Endianness.Little;

            format = d.readShort();
            unkown = (ushort)d.readShort();
            flags  = d.readInt();
            mode   = d.readInt();
            bool hasNameTable = (flags & 2) > 0;

            int polyCount = d.readInt();

            mesh     = new List <Mesh>();
            descript = new List <Descriptor>();
            List <List <int> > prim = new List <List <int> >();

            for (int i = 0; i < polyCount; i++)
            {
                if (i == 0 && mode == 1)
                {
                    Descriptor des = new Descriptor();
                    des.ReadDescription(d);
                    descript.Add(des);
                }

                Mesh m = new Mesh();
                mesh.Add(m);

                int        faceCount = d.readInt();
                List <int> prims     = new List <int>();
                prim.Add(prims);
                for (int j = 0; j < faceCount; j++)
                {
                    int        nodeCount = d.readInt();
                    List <int> nodeList  = new List <int>();
                    m.nodeList.Add(nodeList);

                    for (int k = 0; k < nodeCount; k++)
                    {
                        nodeList.Add(d.readInt()); // for a node list?
                    }
                    int primitiveCount = d.readInt();
                    prims.Add(primitiveCount);

                    if (hasNameTable)
                    {
                        int nameId = d.readInt();
                    }

                    if (mode == 0)
                    {
                        if (format == 4)
                        {
                            int[] buffer = new int[primitiveCount];
                            for (int k = 0; k < primitiveCount; k++)
                            {
                                buffer[k] = d.readShort();
                            }
                            d.align(4);
                            List <int> buf = new List <int>();
                            buf.AddRange(buffer);
                            m.faces.Add(buf);
                        }
                        else
                        {
                            Descriptor des = new Descriptor();
                            des.ReadDescription(d);
                            descript.Add(des);
                        }
                    }
                }
            }

            if (mode == 0)
            {
                //Console.WriteLine("Extra!");
            }

            // TODO: STRING TABLE
            if (hasNameTable)
            {
                for (int i = 0; i < mesh.Count; i++)
                {
                    int index = d.readByte();
                    nameTable.Add(d.readString());
                }
            }


            if (format != 4)
            {
                d.align(32);
            }

            // Vertex Bank
            int start = d.pos();

            for (int i = 0; i < 1; i++)
            {
                if (mode == 0 || i == 0)
                {
                    Descriptor des = descript[i];

                    if (format != 4)
                    {
                        while (d.pos() < start + des.length)
                        {
                            Vertex v = new Vertex();
                            vertices.Add(v);

                            for (int k = 0; k < des.type.Length; k++)
                            {
                                d.align(2);
                                switch (des.type[k])
                                {
                                case 0:     //Position
                                    v.pos.X = readType(d, des.format[k], des.scale[k]);
                                    v.pos.Y = readType(d, des.format[k], des.scale[k]);
                                    v.pos.Z = readType(d, des.format[k], des.scale[k]);
                                    break;

                                case 1:     //Normal
                                    v.nrm.X = readType(d, des.format[k], des.scale[k]);
                                    v.nrm.Y = readType(d, des.format[k], des.scale[k]);
                                    v.nrm.Z = readType(d, des.format[k], des.scale[k]);
                                    break;

                                case 2:     //Color
                                    v.col.X = (int)(readType(d, des.format[k], des.scale[k]));
                                    v.col.Y = (int)(readType(d, des.format[k], des.scale[k]));
                                    v.col.Z = (int)(readType(d, des.format[k], des.scale[k]));
                                    v.col.W = (int)(readType(d, des.format[k], des.scale[k]));
                                    break;

                                case 3:     //Tex0
                                    v.tx.Add(new Vector2(readType(d, des.format[k], des.scale[k]), readType(d, des.format[k], des.scale[k])));
                                    break;

                                case 4:     //Tex1
                                    v.tx.Add(new Vector2(readType(d, des.format[k], des.scale[k]), readType(d, des.format[k], des.scale[k])));
                                    break;

                                case 5:     //Bone Index
                                    v.node.Add(d.readByte());
                                    v.node.Add(d.readByte());
                                    break;

                                case 6:     //Bone Weight
                                    v.weight.Add(readType(d, des.format[k], des.scale[k]));
                                    v.weight.Add(readType(d, des.format[k], des.scale[k]));
                                    break;
                                    //default:
                                    //    Console.WriteLine("WTF is this");
                                }
                            }
                        }
                        d.align(32);
                    }
                }

                for (int j = 0; j < mesh.Count; j++)
                {
                    foreach (int l in prim[j])
                    {
                        List <int> face = new List <int>();
                        mesh[j].faces.Add(face);
                        for (int k = 0; k < l; k++)
                        {
                            face.Add(d.readShort());
                        }
                        d.align(32);
                    }
                }
            }

            PreRender();
        }
Esempio n. 6
0
        public void Read(FileData d)
        {
            d.Endian = System.IO.Endianness.Big;
            d.seek(4); // skip filesize
            int dataSize         = d.readInt();
            int offsetTableCount = d.readInt();
            int rootA            = d.readInt();
            int headerSize       = 0x20;

            int rootOffset = headerSize + dataSize + offsetTableCount * 4;

            d.seek(rootOffset);
            int figtree = d.readInt() + headerSize;

            d.skip(4);
            String name = d.readString(d.pos(), -1);

            this.Name = name;

            d.seek(figtree);
            d.skip(8);
            float frameCount = d.readFloat();
            int   keyOffset  = d.readInt();

            if (Debug)
            {
                Console.WriteLine(name + "\tCount: " + frameCount);
            }
            this.frameCount = (int)frameCount;

            int temp = d.pos();

            d.seek(keyOffset + 0x20);
            //int boneCount = 0x2E; // TODO: Use actual bone count 0x35
            List <int> keyFrameCount = new List <int>();
            int        bid           = d.readByte();

            while (bid != 0xFF)
            {
                keyFrameCount.Add(bid);
                bid = d.readByte();
                nodes.Add(new List <DATAnimTrack>());
            }
            int boneCount = keyFrameCount.Count;

            if (Debug)
            {
                Console.WriteLine(boneCount);
            }

            d.seek(temp);

            int animDataOffset = 0;

            int[] trackcount = new int[offsetTableCount];
            for (int i = 0; i < offsetTableCount; i++)
            {
                trackcount[i] = d.readInt();
                if (i == 0)
                {
                    animDataOffset = trackcount[i];
                }
            }

            d.seek(animDataOffset + 0x20);
            for (int i = 0; i < boneCount; i++)
            { // bonecount
                if (Debug)
                {
                    Console.WriteLine("Bone " + i + ": " + keyFrameCount[i] + "\t" + d.pos().ToString("x"));
                }

                for (int j = 0; j < keyFrameCount[i]; j++)
                {
                    int length = d.readShort();
                    d.skip(2);
                    int trackType   = d.readByte();
                    int valueFormat = d.readByte();
                    int tanFormat   = d.readByte();
                    d.skip(1);
                    int dataoff = d.readInt() + 0x20;

                    if (Debug)
                    {
                        Console.WriteLine((AnimType)trackType + "\tLength: " + length + "\tOffset: " + dataoff.ToString("x") + " " + valueFormat.ToString("x") + " " + tanFormat.ToString("x"));
                    }
                    // System.out.println(valueFormat + " " + tanFormat);
                    readKeyFrame(d, length, dataoff, valueFormat, tanFormat, keyFrameCount[i], i, trackType);
                }
            }
        }
Esempio n. 7
0
        /*type 1  - collisions
         * type 2  - spawns
         * type 3  - respawns
         * type 4  - camera bounds
         * type 5  - death boundaries
         * type 6  - enemy generator
         * type 7  - ITEMPT_transform
         * type 8  - ???
         * type 9  - ITEMPT
         * type 10 - fsAreaCam (and other fsArea's ? )
         * type 11 - fsCamLimit
         * type 12 - damageShapes (damage sphere and damage capsule are the only ones I've seen, type 2 and 3 respectively)
         * type 13 - item spawners
         * type 14 - general shapes (general rect, general path, etc.)
         * type 15 - general points
         * type 16 - ???
         * type 17 - FsStartPoint
         * type 18 - ???
         * type 19 - ???*/

        public override void Read(string filename)
        {
            FileData f = new FileData(filename);

            f.skip(0xA);//It's magic

            f.skip(1);
            int collisionCount = f.readInt();

            for (int i = 0; i < collisionCount; i++)
            {
                Collision temp = new Collision();
                temp.read(f);
                collisions.Add(temp);
            }

            f.skip(1);
            int spawnCount = f.readInt();

            for (int i = 0; i < spawnCount; i++)
            {
                Spawn temp = new Spawn();
                temp.read(f);
                spawns.Add(temp);
            }

            f.skip(1);
            int respawnCount = f.readInt();

            for (int i = 0; i < respawnCount; i++)
            {
                Spawn temp = new Spawn();
                temp.read(f);
                respawns.Add(temp);
            }

            f.skip(1);
            int cameraCount = f.readInt();

            for (int i = 0; i < cameraCount; i++)
            {
                Bounds temp = new Bounds();
                temp.read(f);
                cameraBounds.Add(temp);
            }

            f.skip(1);
            int blastzoneCount = f.readInt();

            for (int i = 0; i < blastzoneCount; i++)
            {
                Bounds temp = new Bounds();
                temp.read(f);
                blastzones.Add(temp);
            }

            f.skip(1);
            int enemyGeneratorCount = f.readInt();

            for (int i = 0; i < enemyGeneratorCount; i++)
            {
                EnemyGenerator temp = new EnemyGenerator();
                temp.read(f);
                enemySpawns.Add(temp);
            }

            f.skip(1);
            if (f.readInt() != 0) //7
            {
                return;
            }

            f.skip(1);
            if (f.readInt() != 0) //8
            {
                return;
            }

            f.skip(1);
            if (f.readInt() != 0) //9
            {
                return;
            }

            f.skip(1);
            int fsAreaCamCount = f.readInt();

            if (fsAreaCamCount != 0)
            {
                return;
            }

            f.skip(1);
            int fsCamLimitCount = f.readInt();

            if (fsCamLimitCount != 0)
            {
                return;
            }

            f.skip(1);
            int damageShapeCount = f.readInt();

            for (int i = 0; i < damageShapeCount; i++)
            {
                DamageShape temp = new DamageShape();
                temp.read(f);
                damageShapes.Add(temp);
            }

            f.skip(1);
            int itemCount = f.readInt();

            for (int i = 0; i < itemCount; i++)
            {
                ItemSpawner temp = new ItemSpawner();
                temp.read(f);
                itemSpawns.Add(temp);
            }

            f.skip(1);
            int generalShapeCount = f.readInt();

            for (int i = 0; i < generalShapeCount; i++)
            {
                GeneralShape temp = new GeneralShape();
                temp.read(f);
                generalShapes.Add(temp);
            }

            f.skip(1);
            int generalPointCount = f.readInt();

            for (int i = 0; i < generalPointCount; i++)
            {
                GeneralPoint temp = new GeneralPoint();
                temp.read(f);
                generalPoints.Add(temp);
            }

            f.skip(1);
            if (f.readInt() != 0) //16
            {
                return;           //no clue how to be consistent in reading these so...
            }
            f.skip(1);
            if (f.readInt() != 0) //17
            {
                return;           //no clue how to be consistent in reading these so...
            }
            f.skip(1);
            if (f.readInt() != 0) //18
            {
                return;           //no clue how to be consistent in reading these so...
            }
            f.skip(1);
            if (f.readInt() != 0) //19
            {
                return;           //no clue how to be consistent in reading these so...
            }
            //LVD doesn't end here and neither does my confusion, will update this part later
        }
Esempio n. 8
0
 public void writeHalfFloat(float f)
 {
     writeShort(FileData.fromFloat(f));
 }
Esempio n. 9
0
        public void ReadNTP3(FileData d)
        {
            d.skip(0x2);
            int count = d.readShort();

            d.skip(0x8);

            int dataPtr = 0;

            for (int i = 0; i < count; i++)
            {
                Debug.WriteLine(d.pos().ToString("x"));
                NUD_Texture tex = new NUD_Texture();
                tex.type = PixelInternalFormat.Rgba32ui;

                int totalSize = d.readInt();
                d.skip(4); // padding

                int dataSize   = d.readInt();
                int headerSize = d.readShort();
                d.skip(3);
                int numMips = d.readByte();
                Debug.WriteLine(numMips);
                d.skip(1);
                tex.setPixelFormatFromNutFormat(d.readByte());
                tex.width  = d.readShort();
                tex.height = d.readShort();

                d.skip(8); // padding?

                int dataOffset = d.readInt() + dataPtr + 0x10;
                d.skip(0x0C);

                int[] mipSizes = new int[numMips];

                if (numMips == 1)
                {
                    mipSizes[0] = dataSize;
                }
                else
                {
                    for (int j = 0; j < numMips; j++)
                    {
                        mipSizes[j] = d.readInt();
                    }
                }
                d.align(16);

                d.skip(0x18);
                tex.id = d.readInt();
                d.skip(4); // padding align 8

                // add mipmap data
                for (int miplevel = 0; miplevel < numMips; miplevel++)
                {
                    byte[] texArray = d.getSection(dataOffset, mipSizes[miplevel]);
                    tex.mipmaps.Add(texArray);
                    dataOffset += mipSizes[miplevel];
                }

                dataPtr += headerSize;

                if (tex.getNutFormat() == 14 || tex.getNutFormat() == 17)
                {
                    Console.WriteLine("Endian swap");
                    // swap
                    foreach (byte[] mip in tex.mipmaps)
                    {
                        for (int t = 0; t < mip.Length; t += 4)
                        {
                            byte t1 = mip[t];
                            mip[t]     = mip[t + 1];
                            mip[t + 1] = mip[t + 2];
                            mip[t + 2] = mip[t + 3];
                            mip[t + 3] = t1;

                            /*byte t1 = mip[t];
                             * byte t2 = mip[t+1];
                             * mip[t] = mip[t + 3];
                             * mip[t + 1] = mip[t + 2];
                             * mip[t + 2] = t2;
                             * mip[t + 3] = t1;*/
                        }
                    }
                }

                textures.Add(tex);

                /*for (int miplevel = 0; miplevel < numMips; miplevel++)
                 * {
                 *  byte[] texArray = d.getSection(dataOffset, mipSizes[miplevel]);
                 *
                 *  if (tex.getNutFormat() == 14)
                 *  {
                 *      byte[] oldArray = texArray;
                 *      for (int pos = 0; pos < mipSizes[miplevel]; pos+=4)
                 *      {
                 *
                 *          for (int p = 0; p < 4; p++)
                 *          {
                 *              if (p == 0)
                 *                  texArray[pos + 3] = oldArray[pos];
                 *              else
                 *                  texArray[pos + p - 1] = oldArray[pos + p];
                 *          }
                 *
                 *      }
                 *  }
                 *  tex.mipmaps.Add(texArray);
                 *  dataOffset += mipSizes[miplevel];
                 * }*/
            }

            foreach (var tex in textures)
            {
                if (!draw.ContainsKey(tex.id))
                {
                    draw.Add(tex.id, loadImage(tex, true));
                }
            }
        }
Esempio n. 10
0
        public void ReadNTWU(FileData d)
        {
            d.skip(0x02);
            int count = d.readShort();

            d.skip(0x10);
            int headerPtr       = d.pos();
            int dataPtr         = 0;
            int gtxHeaderOffset = 0;

            for (int i = 0; i < count; i++)
            {
                NUD_Texture tex = new NUD_Texture();
                tex.type = PixelInternalFormat.Rgba32ui;

                d.seek(headerPtr);
                int totalSize  = d.readInt();
                int headerSize = d.readShort();
                int numMips    = d.readInt();
                tex.setPixelFormatFromNutFormat(d.readShort());
                tex.width  = d.readShort();
                tex.height = d.readShort();

                d.skip(8); // mipmaps and padding
                int dataOffset = d.readInt() + dataPtr + 0x10;

                headerPtr += headerSize;
                dataPtr   += headerSize;

                d.skip(0x04);
                if (i == 0)
                {
                    gtxHeaderOffset = d.readInt() + 0x10;
                }
                else
                {
                    gtxHeaderOffset += 0x80;
                    d.skip(0x04);
                }

                d.skip(0x04);

                // check for cubemap
                bool cmap = (d.readInt() == d.readInt());
                d.seek(d.pos() - 8);
                if (cmap)
                {
                    Console.WriteLine("cubemap detected");
                }

                d.skip(headerSize - 0x50);

                d.skip(0x18);
                tex.id = d.readInt();

                Console.WriteLine(gtxHeaderOffset.ToString("x"));
                d.seek(gtxHeaderOffset);
                d.skip(0x04);              // dim
                d.skip(0x04);              // width
                d.skip(0x04);              // height
                d.skip(0x04);              // depth
                d.skip(0x04);              // numMips
                int format = d.readInt();
                d.skip(0x04);              // aa
                d.skip(0x04);              // use
                int imageSize = d.readInt();
                d.skip(0x04);              // imagePtr
                int maxSize = d.readInt(); // mipSize
                d.skip(0x04);              // mipPtr
                int tileMode = d.readInt();
                int swizzle  = d.readInt();
                d.skip(0x04); // alignment
                int pitch = d.readInt();

                int ds   = dataOffset;
                int s1   = 0;
                int size = 0;
                Console.WriteLine(totalSize.ToString("x"));
                for (int mipLevel = 0; mipLevel < numMips; mipLevel++)
                {
                    // Maybe this is the problem?
                    int mipSize = imageSize >> (mipLevel * 2);
                    int p       = pitch >> mipLevel;

                    size = d.readInt();
                    //Console.WriteLine("\tMIP: " + size.ToString("x") + " " + dataOffset.ToString("x") + " " + mipSize.ToString("x") + " " + p + " " + (size == 0 ? ds + totalSize - dataOffset : size));

                    //Console.WriteLine(tex.id.ToString("x") + " " + dataOffset.ToString("x") + " " + mipSize.ToString("x") + " " + p + " " + swizzle);
                    //Console.WriteLine((tex.width >> mipLevel) + " " + (tex.height >> mipLevel));

                    //if (cmap) tex.height *= 2;

                    int w = (tex.width >> mipLevel);
                    int h = (tex.height >> mipLevel);

                    {
                        byte[] deswiz = GTX.swizzleBC(
                            d.getSection(dataOffset, d.size() - dataOffset),
                            w,
                            h,
                            format,
                            tileMode,
                            p,
                            swizzle
                            );
                        tex.mipmaps.Add(new FileData(deswiz).getSection(0, mipSize));
                    }
                    if (mipLevel == 0)
                    {
                        s1         = size;
                        dataOffset = ds + size;
                    }
                    else
                    {
                        dataOffset = ds + s1 + size;
                    }
                    //dataOffset += mipSize;

                    /*if (cmap)
                     * {
                     *  for(int k = 0; k < 5; k++)
                     *  {
                     *      p = pitch >> (mipLevel + k + 1);
                     *      tex.mipmaps.Add(GTX.swizzleBC(
                     *          d.getSection(dataOffset, mipSize),
                     *          w,
                     *          h,
                     *          format,
                     *          tileMode,
                     *          p,
                     *          swizzle
                     *      ));
                     *
                     *      dataOffset += mipSize;
                     *  }
                     * }*/

                    //while (dataOffset % 1024 != 0) dataOffset++;
                    //if (mipSize == 0x4000) dataOffset += 0x400;
                }

                textures.Add(tex);
            }

            foreach (var tex in textures)
            {
                if (!draw.ContainsKey(tex.id))
                {
                    draw.Add(tex.id, loadImage(tex, false));
                }

                // redo mipmaps

                /*GL.BindTexture(TextureTarget.Texture2D, draw[tex.id]);
                 * for (int k = 1; k < tex.mipmaps.Count; k++)
                 * {
                 *  tex.mipmaps[k] = new byte[tex.mipmaps[k].Length];
                 *  GCHandle pinnedArray = GCHandle.Alloc(tex.mipmaps[k], GCHandleType.Pinned);
                 *  IntPtr pointer = pinnedArray.AddrOfPinnedObject();
                 *  GL.GetCompressedTexImage(TextureTarget.Texture2D, 0, pointer);
                 *  pinnedArray.Free();
                 * }*/
            }


            //File.WriteAllBytes("C:\\s\\Smash\\extract\\data\\fighter\\duckhunt\\model\\body\\mip1.bin", bytearray);

            //Console.WriteLine(GL.GetError());

            /*int j = 0;
             * foreach(byte[] b in textures[0].mipmaps)
             * {
             *  if (j == 3)
             *  {
             *      for(int w = 3; w < 8; w++)
             *      {
             *          for (int p = 3; p < 6; p++)
             *          {
             *              byte[] deswiz = GTX.swizzleBC(
             *                  b,
             *                  (int)Math.Pow(2, w),
             *                  64,
             *                  51,
             *                  4,
             *                   (int)Math.Pow(2, p),
             *                  197632
             *              );
             *              File.WriteAllBytes("C:\\s\\Smash\\extract\\data\\fighter\\duckhunt\\model\\body\\chunk_" + (int)Math.Pow(2, p) + "_" + (int)Math.Pow(2, w), deswiz);
             *          }
             *      }
             *
             *  }
             *  j++;
             * }*/
        }
Esempio n. 11
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 public NUT(FileData d)
 {
     Read(d);
 }
Esempio n. 12
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        public override void Read(string filename)
        {
            FileData d = new FileData(filename);

            d.Endian = Endianness.Little; // characters are little
            d.seek(8);                    // skip magic and version?
            int count = d.readInt();      // entry count

            for (int i = 0; i < count; i++)
            {
                SBEntry sb = new SBEntry()
                {
                    hash     = (uint)d.readInt(),
                    param1_1 = d.readFloat(),
                    param1_2 = d.readInt(),
                    param1_3 = d.readInt(),
                    param2_1 = d.readFloat(),
                    param2_2 = d.readInt(),
                    param2_3 = d.readInt(),
                    rx1      = d.readFloat(),
                    rx2      = d.readFloat(),
                    ry1      = d.readFloat(),
                    ry2      = d.readFloat(),
                    rz1      = d.readFloat(),
                    rz2      = d.readFloat()
                };

                for (int j = 0; j < 8; j++)
                {
                    sb.boneHashes[j] = (uint)d.readInt();
                }

                for (int j = 0; j < 4; j++)
                {
                    sb.unks1[j] = d.readFloat();
                }

                for (int j = 0; j < 5; j++)
                {
                    sb.unks2[j] = d.readFloat();
                }

                sb.factor = d.readFloat();

                for (int j = 0; j < 4; j++)
                {
                    sb.ints[j] = d.readInt();
                }

                bones.Add(sb);

                /*Console.WriteLine(sb.hash.ToString("x"));
                 * Console.WriteLine(d.readFloat() + " " + d.readInt() + " " + d.readInt());
                 * Console.WriteLine(d.readFloat() + " " + d.readInt() + " " + d.readInt());
                 *
                 * //28 floats?
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat() + " " + d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat() + " " + d.readFloat() + " " + d.readFloat());
                 *
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat() + " " + d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat() + " " + d.readFloat() + " " + d.readFloat());
                 *
                 * Console.WriteLine(d.readFloat() + " " + d.readFloat());
                 * Console.WriteLine(d.readInt() +  " " + d.readInt());
                 * Console.WriteLine(d.readInt() + " " + d.readInt());
                 * Console.WriteLine();*/
            }
        }
Esempio n. 13
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        public override void Read(string filename)
        {
            FileData file = new FileData(filename);

            if (file != null)
            {
                file.Endian = Endianness.Little;
                Endian      = Endianness.Little;
                string magic = file.readString(0, 4);
                if (magic == "VBN ")
                {
                    file.Endian = Endianness.Big;
                    Endian      = Endianness.Big;
                }

                file.seek(4);

                unk_1               = (short)file.readShort();
                unk_2               = (short)file.readShort();
                totalBoneCount      = (UInt32)file.readInt();
                boneCountPerType[0] = (UInt32)file.readInt();
                boneCountPerType[1] = (UInt32)file.readInt();
                boneCountPerType[2] = (UInt32)file.readInt();
                boneCountPerType[3] = (UInt32)file.readInt();

                int[] pi = new int[totalBoneCount];
                for (int i = 0; i < totalBoneCount; i++)
                {
                    Bone temp = new Bone(this);
                    temp.Text = file.readString(file.pos(), -1);
                    file.skip(64);
                    temp.boneType = (UInt32)file.readInt();
                    pi[i]         = file.readInt();
                    temp.boneId   = (UInt32)file.readInt();
                    temp.position = new float[3];
                    temp.rotation = new float[3];
                    temp.scale    = new float[3];
                    bones.Add(temp);
                }

                for (int i = 0; i < bones.Count; i++)
                {
                    bones[i].position[0] = file.readFloat();
                    bones[i].position[1] = file.readFloat();
                    bones[i].position[2] = file.readFloat();
                    bones[i].rotation[0] = file.readFloat();
                    bones[i].rotation[1] = file.readFloat();
                    bones[i].rotation[2] = file.readFloat();
                    bones[i].scale[0]    = file.readFloat();
                    bones[i].scale[1]    = file.readFloat();
                    bones[i].scale[2]    = file.readFloat();
                    Bone temp = bones[i];
                    temp.parentIndex = pi[i];
                    //Debug.Write(temp.parentIndex);
                    //if (temp.parentIndex != 0x0FFFFFFF && temp.parentIndex > -1)
                    //    bones[temp.parentIndex].children.Add(i);
                    bones[i] = temp;
                }
                reset();
            }
        }
Esempio n. 14
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        public void Read(FileData f)
        {
            f.Endian = Endianness.Little;
            f.seek(4);
            int count = f.readInt();

            f.skip(12);
            int dataCount  = f.readInt();
            int boneCount  = f.readInt();
            int hashCount  = f.readInt();
            int hashOffset = f.readInt() + 0x28;

            f.skip(4);

            int pos = f.pos();

            f.seek(hashOffset);

            csvHashes     csv      = new csvHashes(Path.Combine(MainForm.executableDir, "hashTable.csv"));
            List <string> bonename = new List <string>();

            for (int i = 0; i < hashCount; i++)
            {
                uint hash = (uint)f.readInt();
                for (int j = 0; j < csv.ids.Count; j++)
                {
                    if (csv.ids[j] == hash)
                    {
                        Console.WriteLine(csv.names[j]);
                        bonename.Add(csv.names[j]);
                        break;
                    }
                }
            }

            f.seek(pos);
            Console.WriteLine("Count " + count);

            for (int i = 0; i < dataCount; i++)
            {
                Console.WriteLine("Bone " + i + " start at " + f.pos().ToString("x"));
                // 3 sections
                int secLength = f.readInt();
                int someCount = f.readInt(); // usually 2?

                for (int sec = 0; sec < 5; sec++)
                {
                    int size = f.readInt();
                    int id   = f.readInt();
                    Console.WriteLine(id + ":\t" + size.ToString("x"));
                    for (int j = 0; j < ((size - 1) / 4) - 1; j++)
                    {
                        Console.Write("\t" + f.readShort() + " " + f.readShort() + "\t");
                    }
                    Console.WriteLine();
                }

                f.skip(8);
            }

            Console.WriteLine("0x" + f.pos().ToString("X"));
            f.skip(8);
            int hashSize = f.readInt();
            int unk      = f.readInt();
        }
Esempio n. 15
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        public NUT.NUD_Texture toNUT_Texture()
        {
            NUT.NUD_Texture tex = new NUT.NUD_Texture();
            tex.id     = 0x48415348;
            tex.height = header.height;
            tex.width  = header.width;
            float size = 1;
            int   mips = header.mipmapCount;

            /*if (mips > header.mipmapCount)
             * {
             *  mips = header.mipmapCount;
             *  MessageBox.Show("Possible texture error: Only one mipmap");
             * }*/

            switch (header.dwFourCC)
            {
            case 0x0:
                size      = 4f;
                tex.type  = PixelInternalFormat.SrgbAlpha;
                tex.utype = OpenTK.Graphics.OpenGL.PixelFormat.Rgba;
                break;

            case 0x31545844:
                size     = 1 / 2f;
                tex.type = PixelInternalFormat.CompressedRgbaS3tcDxt1Ext;
                break;

            case 0x35545844:
                size     = 1f;
                tex.type = PixelInternalFormat.CompressedRgbaS3tcDxt5Ext;
                break;

            case 0x32495441:
                size     = 1 / 2f;
                tex.type = PixelInternalFormat.CompressedRedRgtc1;
                break;

            case 0x31495441:
                size     = 1f;
                tex.type = PixelInternalFormat.CompressedRgRgtc2;
                break;

            default:
                MessageBox.Show("Unsupported DDS format - 0x" + header.dwFourCC.ToString("x"));
                break;
            }

            // now for mipmap data...
            FileData d = new FileData(data);
            int      off = 0, w = header.width, h = header.height;

            if (header.mipmapCount == 0)
            {
                header.mipmapCount = 1;
            }
            for (int i = 0; i < header.mipmapCount; i++)
            {
                int s = (int)((w * h) * size);
                if (s < 0x8)
                {
                    s = 0x8;
                }
                //Console.WriteLine(off.ToString("x") + " " + s.ToString("x"));
                w /= 2;
                h /= 2;
                tex.mipmaps.Add(d.getSection(off, s));
                off += s;
            }
            Console.WriteLine(off.ToString("x"));

            return(tex);
        }