internal static bool ReadTag(this NbtTag tag, NbtBinaryReader readStream) { while (true) { NbtTag nbtTag; do { NbtTagType nbtTagType = readStream.ReadTagType(); switch (nbtTagType) { case NbtTagType.End: return(true); case NbtTagType.Byte: nbtTag = (NbtTag) new NbtByte(); break; case NbtTagType.Short: nbtTag = (NbtTag) new NbtShort(); break; case NbtTagType.Int: nbtTag = (NbtTag) new NbtInt(); break; case NbtTagType.Long: nbtTag = (NbtTag) new NbtLong(); break; case NbtTagType.Float: nbtTag = (NbtTag) new NbtFloat(); break; case NbtTagType.Double: nbtTag = (NbtTag) new NbtDouble(); break; case NbtTagType.ByteArray: nbtTag = (NbtTag) new NbtByteArray(); break; case NbtTagType.String: nbtTag = (NbtTag) new NbtString(); break; case NbtTagType.List: nbtTag = (NbtTag) new NbtList(); break; case NbtTagType.Compound: nbtTag = (NbtTag) new NbtCompound(); break; case NbtTagType.IntArray: nbtTag = (NbtTag) new NbtIntArray(); break; case NbtTagType.LongArray: nbtTag = (NbtTag) new NbtLongArray(); break; case NbtTagType.Unknown: return(true); break; default: throw new FormatException("Unsupported tag type found in NBT_Compound: " + (object)nbtTagType); } //nbtTag.Parent = (NbtTag) this; nbtTag.Name = readStream.ReadString(); }while (!nbtTag.ReadTag(readStream)); switch (tag.TagType) { case NbtTagType.Compound: NbtCompound compound = (NbtCompound)tag; compound.Add(nbtTag); break; case NbtTagType.List: NbtList list = (NbtList)tag; list.Add(nbtTag); break; } } }
internal override void SkipTag(NbtBinaryReader readStream) { while (true) { NbtTagType nextTag = readStream.ReadTagType(); NbtTag newTag; switch (nextTag) { case NbtTagType.End: return; case NbtTagType.Byte: newTag = new NbtByte(); break; case NbtTagType.Short: newTag = new NbtShort(); break; case NbtTagType.Int: newTag = new NbtInt(); break; case NbtTagType.Long: newTag = new NbtLong(); break; case NbtTagType.Float: newTag = new NbtFloat(); break; case NbtTagType.Double: newTag = new NbtDouble(); break; case NbtTagType.ByteArray: newTag = new NbtByteArray(); break; case NbtTagType.String: newTag = new NbtString(); break; case NbtTagType.List: newTag = new NbtList(); break; case NbtTagType.Compound: newTag = new NbtCompound(); break; case NbtTagType.IntArray: newTag = new NbtIntArray(); break; default: throw new NbtFormatException("Unsupported tag type found in NBT_Compound: " + nextTag); } readStream.SkipString(); newTag.SkipTag(readStream); } }
internal override void SkipTag(NbtBinaryReader readStream) { // read list type, and make sure it's defined ListType = readStream.ReadTagType(); int length = readStream.ReadInt32(); if (length < 0) { throw new NbtFormatException("Negative list size given."); } switch (ListType) { case NbtTagType.Byte: readStream.Skip(length); break; case NbtTagType.Short: readStream.Skip(length * sizeof(short)); break; case NbtTagType.Int: readStream.Skip(length * sizeof(int)); break; case NbtTagType.Long: readStream.Skip(length * sizeof(long)); break; case NbtTagType.Float: readStream.Skip(length * sizeof(float)); break; case NbtTagType.Double: readStream.Skip(length * sizeof(double)); break; default: for (int i = 0; i < length; i++) { switch (listType) { case NbtTagType.ByteArray: new NbtByteArray().SkipTag(readStream); break; case NbtTagType.String: readStream.SkipString(); break; case NbtTagType.List: new NbtList().SkipTag(readStream); break; case NbtTagType.Compound: new NbtCompound().SkipTag(readStream); break; case NbtTagType.IntArray: new NbtIntArray().SkipTag(readStream); break; } } break; } }
internal override bool ReadTag(NbtBinaryReader readStream) { if (Parent != null && readStream.Selector != null && !readStream.Selector(this)) { SkipTag(readStream); return(false); } while (true) { NbtTagType nextTag = readStream.ReadTagType(); NbtTag newTag; switch (nextTag) { case NbtTagType.End: return(true); case NbtTagType.Byte: newTag = new NbtByte(); break; case NbtTagType.Short: newTag = new NbtShort(); break; case NbtTagType.Int: newTag = new NbtInt(); break; case NbtTagType.Long: newTag = new NbtLong(); break; case NbtTagType.Float: newTag = new NbtFloat(); break; case NbtTagType.Double: newTag = new NbtDouble(); break; case NbtTagType.ByteArray: newTag = new NbtByteArray(); break; case NbtTagType.String: newTag = new NbtString(); break; case NbtTagType.List: newTag = new NbtList(); break; case NbtTagType.Compound: newTag = new NbtCompound(); break; case NbtTagType.IntArray: newTag = new NbtIntArray(); break; default: throw new NbtFormatException("Unsupported tag type found in NBT_Compound: " + nextTag); } newTag.Parent = this; newTag.Name = readStream.ReadString(); if (newTag.ReadTag(readStream)) { // ReSharper disable AssignNullToNotNullAttribute // newTag.Name is never null tags.Add(newTag.Name, newTag); // ReSharper restore AssignNullToNotNullAttribute } } }
internal override bool ReadTag(NbtBinaryReader readStream) { if (readStream.Selector != null && !readStream.Selector(this)) { SkipTag(readStream); return(false); } ListType = readStream.ReadTagType(); int length = readStream.ReadInt32(); if (length < 0) { throw new NbtFormatException("Negative list size given."); } for (int i = 0; i < length; i++) { NbtTag newTag; switch (ListType) { case NbtTagType.Byte: newTag = new NbtByte(); break; case NbtTagType.Short: newTag = new NbtShort(); break; case NbtTagType.Int: newTag = new NbtInt(); break; case NbtTagType.Long: newTag = new NbtLong(); break; case NbtTagType.Float: newTag = new NbtFloat(); break; case NbtTagType.Double: newTag = new NbtDouble(); break; case NbtTagType.ByteArray: newTag = new NbtByteArray(); break; case NbtTagType.String: newTag = new NbtString(); break; case NbtTagType.List: newTag = new NbtList(); break; case NbtTagType.Compound: newTag = new NbtCompound(); break; case NbtTagType.IntArray: newTag = new NbtIntArray(); break; default: // should never happen, since ListType is checked beforehand throw new NbtFormatException("Unsupported tag type found in a list: " + ListType); } newTag.Parent = this; if (newTag.ReadTag(readStream)) { tags.Add(newTag); } } return(true); }