public ObjectDefTile(ByteArrayInputStream inp, NSMBTileset t)
{
this.t = t;
if (inp.available < 1) //This should never happen. But sometimes, it does.
{
controlByte = 0xFF; //Simulate object end.
return;
}
controlByte = inp.readByte();
if (!controlTile)
{
byte a, b;
a = inp.readByte();
b = inp.readByte();
tileID = a + ((b - t.ObjectDefTileOffset) << 8);
if ((controlByte & 64) != 0) //OVERRIDES
{
tileID += 768;
}
if (a == 0 && b == 0)
{
tileID = -1;
}
}
}
public static NSMBView read(ByteArrayInputStream inp, ByteArrayInputStream cam)
{
NSMBView v = new NSMBView();
v.X = inp.readUShort();
v.Y = inp.readUShort();
v.Width = inp.readUShort();
v.Height = inp.readUShort();
v.Number = inp.readByte();
int camID = inp.readByte();
v.Music = inp.readByte();
v.Unknown1 = inp.readByte();
v.Unknown2 = inp.readByte();
v.Unknown3 = inp.readByte();
v.Lighting = inp.readByte();
v.FlagpoleID = inp.readByte();
cam.seek(0);
int camCount = (int)cam.available / 24;
// Console.Out.WriteLine("CamCount: " + camCount);
int goodCam = -1;
for (int i = 0; i < camCount; i++)
{
cam.seek(i * 24 + 16);
int thisCam = cam.readUShort();
// Console.Out.WriteLine("Cam ID: " + thisCam);
if (thisCam == camID)
{
goodCam = i;
break;
}
}
if (goodCam == -1)
{
Console.Out.WriteLine("Warning: Could not find camera ID " + camID);
}
else
{
cam.seek(goodCam * 24);
v.CameraTop = cam.readInt();
v.CameraBottom = cam.readInt();
v.CameraTopSpin = cam.readInt();
v.CameraBottomSpin = cam.readInt();
cam.skip(2);
v.CameraBottomStick = cam.readUShort();
}
return(v);
}
public void loadObjects()
{
ByteArrayInputStream eObjIndexFile = new ByteArrayInputStream(ObjIndexFile.getContents());
ByteArrayInputStream eObjFile = new ByteArrayInputStream(ObjFile.getContents());
Objects = new ObjectDef[objectCount];
//read object index
int obj = 0;
while (eObjIndexFile.lengthAvailable(4) && obj < Objects.Length)
{
Objects[obj] = new ObjectDef(this);
int offset = eObjIndexFile.readUShort();
Objects[obj].width = eObjIndexFile.readByte();
Objects[obj].height = eObjIndexFile.readByte();
eObjFile.seek(offset);
Objects[obj].load(eObjFile);
obj++;
}
}
public static NSMBView readZone(ByteArrayInputStream inp)
{
NSMBView v = new NSMBView();
v.X = inp.readUShort();
v.Y = inp.readUShort();
v.Width = inp.readUShort();
v.Height = inp.readUShort();
v.Number = inp.readByte();
v.isZone = true;
inp.skip(3);
return(v);
}
public override Bitmap render(Palette p)
{
int w = getWidth();
int h = getHeight();
Bitmap b = new Bitmap(w, h);
ByteArrayInputStream f5data = new ByteArrayInputStream(f5.getContents());
ByteArrayInputStream data = new ByteArrayInputStream(f.getContents());
for (uint y = 0; y < h / 4; y++)
{
for (uint x = 0; x < w / 4; x++)
{
ushort palDat = f5data.readUShort();
ushort palOffs = (ushort)((palDat & 0x3FFF) * 2);
ushort mode = (ushort)((palDat >> 14) & 3);
for (uint yy = 0; yy < 4; yy++)
{
byte row = data.readByte();
for (uint xx = 0; xx < 4; xx++)
{
byte color = (byte)(row >> (byte)(xx * 2));
color &= 3;
Color col;
col = p.getColorSafe(palOffs + color);
switch (mode)
{
case 0:
if (color == 3)
{
col = Color.Transparent;
}
break;
case 1:
if (color == 2)
{
col = ImageTiler.colorMean(p.getColorSafe(palOffs), p.getColorSafe(palOffs + 1), 1, 1);
}
if (color == 3)
{
col = Color.Transparent;
}
break;
case 3:
if (color == 2)
{
col = ImageTiler.colorMean(p.getColorSafe(palOffs), p.getColorSafe(palOffs + 1), 5, 3);
}
if (color == 3)
{
col = ImageTiler.colorMean(p.getColorSafe(palOffs), p.getColorSafe(palOffs + 1), 3, 5);
}
break;
}
b.SetPixel((int)x * 4 + (int)xx, (int)y * 4 + (int)yy, col);
}
}
}
}
return(b);
}
ushort unk; //Let's save it just in case.
public Bncd(File f)
{
ByteArrayInputStream inp = new ByteArrayInputStream(f.getContents());
inp.readInt(); //Magic;
unk = inp.readUShort();
ushort entryCount = inp.readUShort();
uint entriesOffset = inp.readUInt();
uint subEntriesOffset = inp.readUInt();
uint dataOffset = inp.readUInt();
uint dataSize = inp.readUInt();
bool BPP4 = true;
//*/BPP4 = false;
inp.seek(entriesOffset);
//Stores tilenum, tilecount to imageid
Dictionary <uint, int> imagesDict = new Dictionary <uint, int> ();
for (uint entryId = 0; entryId < entryCount; entryId++)
{
BncdEntry e = new BncdEntry();
e.width = inp.readByte();
e.height = inp.readByte();
uint subEntryIdx = inp.readUShort();
uint subEntryCt = inp.readUShort();
inp.savePos();
inp.seek(subEntriesOffset + subEntryIdx * 12);
for (int i = 0; i < subEntryCt; i++)
{
BncdSubEntry se = new BncdSubEntry();
e.subEntries.Add(se);
se.oamAttr0 = inp.readUShort();
se.oamAttr1 = inp.readUShort();
se.unk = inp.readUInt();
se.tileNumber = inp.readUShort();
se.tileCount = inp.readUShort();
//*/se.tileCount *= 2;
uint imageCode = (uint)((se.tileNumber << 16) | se.tileCount);
int imageId = imagesDict.Count;
if (imagesDict.ContainsKey(imageCode))
{
imageId = imagesDict[imageCode];
}
else
{
imagesDict[imageCode] = imageId;
BncdImage img = new BncdImage();
images.Add(img);
img.tileNumber = se.tileNumber;
img.tileCount = se.tileCount;
int oamShape = se.oamAttr0 >> 14;
int oamSize = se.oamAttr1 >> 14;
img.tileWidth = widths[oamSize, oamShape];
}
se.imageId = imageId;
}
inp.loadPos();
}
LevelChooser.showImgMgr();
int tileLen = 8 * 8 / 2;
foreach (BncdImage img in images)
{
File imgFile = new InlineFile(f, (int)dataOffset + img.tileNumber * tileLen, img.tileCount * tileLen, f.name);
LevelChooser.imgMgr.m.addImage(new Image2D(imgFile, 8 * img.tileWidth, BPP4));
}
}
public Bncd256(File f)
{
ByteArrayInputStream arrayInputStream = new ByteArrayInputStream(f.getContents());
arrayInputStream.readInt();
this.unk = arrayInputStream.readUShort();
ushort num1 = arrayInputStream.readUShort();
uint pos = arrayInputStream.readUInt();
uint num2 = arrayInputStream.readUInt();
uint num3 = arrayInputStream.readUInt();
arrayInputStream.readUInt();
arrayInputStream.seek(pos);
Dictionary <uint, int> dictionary = new Dictionary <uint, int>();
for (uint index1 = 0; index1 < (uint)num1; ++index1)
{
Bncd256.Bncd256Entry bncdEntry = new Bncd256.Bncd256Entry();
bncdEntry.width = (int)arrayInputStream.readByte();
bncdEntry.height = (int)arrayInputStream.readByte();
uint num4 = (uint)arrayInputStream.readUShort();
uint num5 = (uint)arrayInputStream.readUShort();
arrayInputStream.savePos();
arrayInputStream.seek(num2 + num4 * 12U);
for (int index2 = 0; (long)index2 < (long)num5; ++index2)
{
Bncd256.Bncd256SubEntry bncdSubEntry = new Bncd256.Bncd256SubEntry();
bncdEntry.subEntries.Add(bncdSubEntry);
bncdSubEntry.oamAttr0 = arrayInputStream.readUShort();
bncdSubEntry.oamAttr1 = arrayInputStream.readUShort();
bncdSubEntry.unk = arrayInputStream.readUInt();
bncdSubEntry.tileNumber = arrayInputStream.readUShort();
bncdSubEntry.tileCount = arrayInputStream.readUShort();
bncdSubEntry.tileCount *= (ushort)2;
uint key = (uint)bncdSubEntry.tileNumber << 16 | (uint)bncdSubEntry.tileCount;
int count = dictionary.Count;
if (dictionary.ContainsKey(key))
{
count = dictionary[key];
}
else
{
dictionary[key] = count;
Bncd256.Bncd256Image bncdImage = new Bncd256.Bncd256Image();
this.images.Add(bncdImage);
bncdImage.tileNumber = (int)bncdSubEntry.tileNumber;
bncdImage.tileCount = (int)bncdSubEntry.tileCount;
int index3 = (int)bncdSubEntry.oamAttr0 >> 14;
int index4 = (int)bncdSubEntry.oamAttr1 >> 14;
bncdImage.tileWidth = Bncd256.widths[index4, index3];
}
bncdSubEntry.imageId = count;
}
arrayInputStream.loadPos();
}
LevelChooser.showImgMgr();
int num6 = 32;
foreach (Bncd256.Bncd256Image image in this.images)
{
File f1 = (File) new InlineFile(f, (int)num3 + image.tileNumber * num6, image.tileCount * num6, f.name);
LevelChooser.imgMgr.m.addImage((PalettedImage) new Image2D(f1, 8 * image.tileWidth, false));
}
}