public TXT1(ref EndianBinaryReader reader, ref MAT1 materials, ref FNL1 fonts) : base(ref reader) { base.setType("Text Box"); long startPos = reader.Pos() - 0x4C; mBufferLength = reader.ReadUInt16(); mStringLength = reader.ReadUInt16(); mMaterialIdx = reader.ReadUInt16(); mFontNum = reader.ReadUInt16(); mAnotherOrigin = reader.ReadByte(); mAlignment = reader.ReadByte(); reader.ReadBytes(0x2); mTextOffset = reader.ReadUInt32(); mTopColor = reader.ReadRGBAColor8(); mBottomColor = reader.ReadRGBAColor8(); mSizeX = reader.ReadF32(); mSizeY = reader.ReadF32(); mCharacterSize = reader.ReadF32(); mLineSize = reader.ReadF32(); if (mStringLength != 0) { byte[] str = reader.ReadBytesFrom(startPos + mTextOffset, mStringLength - 2); mString = Encoding.GetEncoding(1201).GetString(str); } mMaterialName = materials.getMaterialNameFromIndex(mMaterialIdx); mFontName = fonts.getFontNameFromIndex(mFontNum); reader.Seek(startPos + mSectionSize); }
public WND1(ref EndianBinaryReader reader, ref MAT1 materials) : base(ref reader) { base.setType("Window"); long startPos = reader.Pos() - 0x4C; mContentOverflowLeft = reader.ReadF32(); mContentOverflowRight = reader.ReadF32(); mContentOverflowTop = reader.ReadF32(); mContentOverflowBottom = reader.ReadF32(); mFrameCount = reader.ReadByte(); mFlag = reader.ReadByte(); reader.ReadUInt16(); // padding mWindowContentOffset = reader.ReadUInt32(); mWindowFrameOffset = reader.ReadUInt32(); mTopLeftColor = reader.ReadRGBAColor8(); mTopRightColor = reader.ReadRGBAColor8(); mBottomLeftColor = reader.ReadRGBAColor8(); mBottomRightColor = reader.ReadRGBAColor8(); mMaterialIndex = reader.ReadUInt16(); mNumUVSets = reader.ReadByte(); reader.ReadByte(); // padding mUVSets = new List <UVCoordSet>(); for (byte i = 0; i < mNumUVSets; i++) { mUVSets.Add(reader.ReadUVCoordSet()); } // now we read our window frames reader.Seek(startPos + mWindowFrameOffset); mFrameOffsets = new List <int>(); for (byte i = 0; i < mFrameCount; i++) { mFrameOffsets.Add(reader.ReadInt32()); } mFrames = new List <WND1Frame>(); foreach (int offset in mFrameOffsets) { reader.Seek(startPos + offset); mFrames.Add(new WND1Frame(ref reader)); } mMaterialName = materials.getMaterialNameFromIndex(mMaterialIndex); reader.Seek(startPos + mSectionSize); }
public PIC1(ref EndianBinaryReader reader, ref MAT1 materials) : base(ref reader) { base.setType("Picture"); mTopLeftColor = reader.ReadRGBAColor8(); mTopRightColor = reader.ReadRGBAColor8(); mBottomLeftColor = reader.ReadRGBAColor8(); mBottomRightColor = reader.ReadRGBAColor8(); mMaterialIndex = reader.ReadUInt16(); mNumUVSets = reader.ReadByte(); mUnk5F = reader.ReadByte(); mUVCoordinates = new List <UVCoordSet>(); for (byte i = 0; i < mNumUVSets; i++) { mUVCoordinates.Add(reader.ReadUVCoordSet()); } mMaterialName = materials.getMaterialNameFromIndex(mMaterialIndex); }
public BRLYT(ref EndianBinaryReader reader) : base() { reader.SetEndianess(Endianess.Big); base.setLayoutVersion(LayoutVersion.Wii); if (reader.ReadString(4) != "RLYT") { Console.WriteLine("Bad magic. Expected RLYT."); return; } mBOM = reader.ReadUInt16(); mVersion = reader.ReadUInt16(); mFileLength = reader.ReadUInt32(); mHeaderLength = reader.ReadUInt16(); mNumSections = reader.ReadUInt16(); mLayoutParams = new LYT1(ref reader); // for panels LayoutBase prev = null; LayoutBase parent = null; bool isRootPaneSet = false; bool isRootGroupSet = false; // for groups LayoutBase previousGroup = null; LayoutBase groupParent = null; for (int i = 0; i < mNumSections; i++) { string magic = reader.ReadString(4); switch (magic) { case "txl1": mTextureList = new TXL1(ref reader); break; case "fnl1": mFontList = new FNL1(ref reader); break; case "mat1": mMaterialList = new MAT1(ref reader); break; case "pan1": PAN1 panel = new PAN1(ref reader); // root panel *should* be the first thing in the list of elements // so if it isn't, then the layout is wrong if (!isRootPaneSet) { mRootPanel = panel; isRootPaneSet = true; } if (parent != null) { parent.addChild(panel); panel.setParent(parent); } prev = panel; break; case "pic1": PIC1 pic = new PIC1(ref reader, ref mMaterialList); if (parent != null) { parent.addChild(pic); pic.setParent(parent); } prev = pic; break; case "bnd1": BND1 bnd = new BND1(ref reader); if (parent != null) { parent.addChild(bnd); bnd.setParent(parent); } prev = bnd; break; case "txt1": TXT1 txt = new TXT1(ref reader, ref mMaterialList, ref mFontList); if (parent != null) { parent.addChild(txt); txt.setParent(parent); } prev = txt; break; case "usd1": // user data is assigned to the previous read element USD1 usd = new USD1(ref reader); if (prev != null) { prev.addUserData(usd); } break; case "wnd1": WND1 window = new WND1(ref reader, ref mMaterialList); if (parent != null) { parent.addChild(window); window.setParent(parent); } prev = window; break; case "pas1": if (prev != null) { parent = prev; } reader.ReadUInt32(); break; case "pae1": prev = parent; parent = prev.getParent(); reader.ReadUInt32(); break; case "grp1": GRP1 group = new GRP1(ref reader); if (!isRootGroupSet) { mRootGroup = group; isRootGroupSet = true; } if (groupParent != null) { groupParent.addChild(group); group.setParent(groupParent); } previousGroup = group; break; case "grs1": if (previousGroup != null) { groupParent = previousGroup; } reader.ReadUInt32(); break; case "gre1": previousGroup = groupParent; groupParent = previousGroup.getParent(); reader.ReadUInt32(); break; } } }