private void func_22181_a( File file, ArrayList arraylist, int i, int j, IProgressUpdate iprogressupdate) { Collections.sort(arraylist); byte abyte0[] = new byte[4096]; int i1; for (Iterator iterator = arraylist.iterator(); iterator.hasNext(); iprogressupdate.setLoadingProgress(i1)) { ChunkFile chunkfile = (ChunkFile) iterator.next(); int k = chunkfile.func_22323_b(); int l = chunkfile.func_22321_c(); RegionFile regionfile = RegionFileCache.func_22193_a(file, k, l); if (!regionfile.func_22202_c(k & 0x1f, l & 0x1f)) { try { DataInputStream datainputstream = new DataInputStream( new GZIPInputStream(new FileInputStream(chunkfile.func_22324_a()))); DataOutputStream dataoutputstream = regionfile.getChunkDataOutputStream(k & 0x1f, l & 0x1f); for (int j1 = 0; (j1 = datainputstream.read(abyte0)) != -1; ) { dataoutputstream.write(abyte0, 0, j1); } dataoutputstream.close(); datainputstream.close(); } catch (IOException ioexception) { ioexception.printStackTrace(); } } i++; i1 = (int) Math.round((100D * (double) i) / (double) j); } RegionFileCache.func_22192_a(); }
/** Returns an output stream for the specified chunk. Args: worldDir, chunkX, chunkZ */ public static DataOutputStream getChunkOutputStream(File par0File, int par1, int par2) { RegionFile regionfile = createOrLoadRegionFile(par0File, par1, par2); return regionfile.getChunkDataOutputStream(par1 & 0x1f, par2 & 0x1f); }
/** copies a 32x32 chunk set from par2File to par1File, via AnvilConverterData */ private void convertChunks( File par1File, File par2File, WorldChunkManager par3WorldChunkManager, int par4, int par5, IProgressUpdate par6IProgressUpdate) { try { String s = par2File.getName(); RegionFile regionfile = new RegionFile(par2File); RegionFile regionfile1 = new RegionFile( new File( par1File, (new StringBuilder()) .append(s.substring(0, s.length() - ".mcr".length())) .append(".mca") .toString())); for (int i = 0; i < 32; i++) { for (int j = 0; j < 32; j++) { if (!regionfile.isChunkSaved(i, j) || regionfile1.isChunkSaved(i, j)) { continue; } DataInputStream datainputstream = regionfile.getChunkDataInputStream(i, j); if (datainputstream == null) { System.out.println("Failed to fetch input stream"); } else { NBTTagCompound nbttagcompound = CompressedStreamTools.read(datainputstream); datainputstream.close(); NBTTagCompound nbttagcompound1 = nbttagcompound.getCompoundTag("Level"); AnvilConverterData anvilconverterdata = ChunkLoader.load(nbttagcompound1); NBTTagCompound nbttagcompound2 = new NBTTagCompound(); NBTTagCompound nbttagcompound3 = new NBTTagCompound(); nbttagcompound2.setTag("Level", nbttagcompound3); ChunkLoader.convertToAnvilFormat( anvilconverterdata, nbttagcompound3, par3WorldChunkManager); DataOutputStream dataoutputstream = regionfile1.getChunkDataOutputStream(i, j); CompressedStreamTools.write(nbttagcompound2, dataoutputstream); dataoutputstream.close(); } } int k = (int) Math.round((100D * (double) (par4 * 1024)) / (double) (par5 * 1024)); int l = (int) Math.round((100D * (double) ((i + 1) * 32 + par4 * 1024)) / (double) (par5 * 1024)); if (l > k) { par6IProgressUpdate.setLoadingProgress(l); } } regionfile.close(); regionfile1.close(); } catch (IOException ioexception) { ioexception.printStackTrace(); } }