/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ /* * This code is based on Labyrinth of Time code with assistance of * * Copyright (c) 1993 Terra Nova Development * Copyright (c) 2004 The Wyrmkeep Entertainment Co. * */ #include "lab/stddefines.h" namespace Lab { extern uint16 DataBytesPerRow; /*****************************************************************************/ /* Copies memory. */ /*****************************************************************************/ static void copytwo(byte *Dest, byte *Source) { #if defined(USE_SWAP) Dest[1] = Source[0]; Dest[0] = Source[1]; #else *Dest = *Source; Dest++; Source++; *Dest = *Source; #endif } /*------------------------ unDiff Horizontal Memory -------------------------*/ /*****************************************************************************/ /* Undiffs a piece of memory when header size is a byte, and copy/skip size */ /* is also a byte. */ /*****************************************************************************/ static void unDIFFByteByte(byte *Dest, byte *diff) { uint16 skip, copy; while (1) { skip = *diff; diff++; copy = *diff; diff++; if (skip == 255) { if (copy == 0) { copytwo((byte *) &skip, diff); diff += 2; copytwo((byte *) ©, diff); diff += 2; } else if (copy == 255) return; } Dest += skip; memcpy(Dest, diff, copy); Dest += copy; diff += copy; } } /*****************************************************************************/ /* Undiffs a piece of memory when header size is a byte, and copy/skip size */ /* is a word. */ /*****************************************************************************/ static void unDIFFByteWord(uint16 *Dest, uint16 *diff) { uint16 skip, copy; while (1) { skip = ((byte *)diff)[0]; copy = ((byte *)diff)[1]; diff++; if (skip == 255) { if (copy == 0) { skip = swapUShort(*diff); diff++; copy = swapUShort(*diff); diff++; } else if (copy == 255) return; } Dest += skip; while (copy > 3) { *Dest = *diff; //swapUShort(*diff); Dest++; diff++; *Dest = *diff; //swapUShort(*diff); Dest++; diff++; *Dest = *diff; //swapUShort(*diff); Dest++; diff++; *Dest = *diff; //swapUShort(*diff); Dest++; diff++; copy -= 4; } while (copy) { *Dest = *diff; //swapUShort(*diff); Dest++; diff++; copy--; } } } /*****************************************************************************/ /* UnDiffs a coded DIFF string onto an already initialized piece of memory. */ /*****************************************************************************/ bool unDIFFMemory(byte *Dest, byte *diff, uint16 HeaderSize, uint16 CopySize) { if (HeaderSize == 1) { if (CopySize == 1) unDIFFByteByte(Dest, diff); else if (CopySize == 2) unDIFFByteWord((uint16 *)Dest, (uint16 *)diff); else return false; } else error("unDIFFMemory: HeaderSize is %d", HeaderSize); return true; } /*------------------------- unDiff Vertical Memory --------------------------*/ /*****************************************************************************/ /* Undiffs a piece of memory when header size is a byte, and copy/skip size */ /* is a byte. */ /*****************************************************************************/ static void VUnDIFFByteByte(byte *Dest, byte *diff, uint16 bytesperrow) { byte *CurPtr; uint16 skip, copy; uint16 counter = 0; while (counter < DataBytesPerRow) { CurPtr = Dest + counter; for (;;) { skip = *diff; diff++; copy = *diff; diff++; if (skip == 255) { counter += copy; break; } else { CurPtr += (skip * bytesperrow); while (copy) { copy--; *CurPtr = *diff; CurPtr += bytesperrow; diff++; } } } } } /*****************************************************************************/ /* Undiffs a piece of memory when header size is a byte, and copy/skip size */ /* is a word. */ /*****************************************************************************/ static void VUnDIFFByteWord(uint16 *Dest, uint16 *diff, uint16 bytesperrow) { uint16 *CurPtr; uint16 skip, copy; uint16 counter = 0, wordsperrow; wordsperrow = bytesperrow / 2; while (counter < (DataBytesPerRow >> 1)) { CurPtr = Dest + counter; for (;;) { skip = ((byte *)diff)[0]; copy = ((byte *)diff)[1]; diff++; if (skip == 255) { counter += copy; break; } else { CurPtr += (skip * wordsperrow); while (copy) { *CurPtr = *diff; //swapUShort(*diff); CurPtr += wordsperrow; diff++; copy--; } } } } } /*****************************************************************************/ /* Undiffs a piece of memory when header size is a byte, and copy/skip size */ /* is a long. */ /*****************************************************************************/ static void VUnDIFFByteLong(uint32 *Dest, uint32 *diff, uint16 bytesperrow) { uint32 *CurPtr; uint16 skip, copy; uint16 counter = 0, longsperrow; byte *diff1 = (byte *)diff; longsperrow = bytesperrow / 4; while (counter < (DataBytesPerRow >> 2)) { CurPtr = Dest + counter; for (;;) { skip = *diff1; diff1++; copy = *diff1; diff1++; if (skip == 255) { counter += copy; break; } else { CurPtr += (skip * longsperrow); while (copy) { *CurPtr = *(uint32 *)diff1; //swapULong(*diff); CurPtr += longsperrow; diff1 += 4; copy--; } } } } } /*****************************************************************************/ /* UnDiffs a coded DIFF string onto an already initialized piece of memory. */ /*****************************************************************************/ bool VUnDIFFMemory(byte *Dest, byte *diff, uint16 HeaderSize, uint16 CopySize, uint16 bytesperrow) { if (HeaderSize == 1) { if (CopySize == 1) VUnDIFFByteByte(Dest, diff, bytesperrow); else if (CopySize == 2) VUnDIFFByteWord((uint16 *)Dest, (uint16 *)diff, bytesperrow); else if (CopySize == 4) VUnDIFFByteLong((uint32 *)Dest, (uint32 *)diff, bytesperrow); else return false; } else return (false); return true; } /*****************************************************************************/ /* Runlength decodes a chunk of memory. */ /*****************************************************************************/ void runLengthDecode(byte *Dest, byte *Source) { int8 num; int16 count; while (1) { num = (int8)*Source; Source++; if (num == 127) { return; } else if (num > '\0') { memcpy(Dest, Source, num); Source += num; Dest += num; } else { count = (int16)(-num); num = *Source; Source++; while (count) { *Dest = num; Dest++; count--; } } } } /*****************************************************************************/ /* Does a vertical run length decode. */ /*****************************************************************************/ void VRunLengthDecode(byte *Dest, byte *Source, uint16 bytesperrow) { int8 num; int16 count; uint16 Counter; byte *Top; Top = Dest; for (Counter = 0; Counter < DataBytesPerRow; Counter++) { Dest = Top; Dest += Counter; num = (int8)*Source; Source++; while (num != 127) { if (num > '\0') { while (num) { *Dest = *Source; Source++; Dest += bytesperrow; num--; } } else { count = (int16)(-num); num = (int8)*Source; Source++; while (count) { *Dest = num; Dest += bytesperrow; count--; } } num = *Source; Source++; } } } } // End of namespace Lab