/* ** maphack.cpp ** ** Newly implemented map hack loader, based on sc_man. ** **--------------------------------------------------------------------------- ** Copyright 2020 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #include "build.h" #include "sc_man.h" #include "printf.h" #include "c_dispatch.h" #include "md4.h" #include "hw_sections.h" static TArray usermaphacks; TArray blockingpairs[MAXWALLS]; void AddUserMapHack(usermaphack_t& mhk) { usermaphacks.Push(mhk); } static int32_t LoadMapHack(const char *filename) { int currentsprite = -1; int currentwall = -1; int currentsector = -1; FScanner sc; int lump = fileSystem.FindFile(filename); if (lump < 0) { return -1; } sc.OpenLumpNum(lump); while (sc.GetString()) { FString token = sc.String; auto validateSprite = [&]() { if (currentsprite < 0) { sc.ScriptMessage("Using %s without a valid sprite", token.GetChars()); return false; } return true; }; auto validateWall = [&]() { if (currentwall < 0) { sc.ScriptMessage("Using %s without a valid wall", token.GetChars()); return false; } return true; }; auto validateSector = [&]() { if (currentsector < 0) { sc.ScriptMessage("Using %s without a valid sector", token.GetChars()); return false; } return true; }; if (sc.Compare("sprite")) { currentwall = -1; currentsector = -1; if (sc.CheckNumber()) { currentsprite = sc.Number; if (currentsprite < 0 || currentsprite >= MAXSPRITES) { sc.ScriptMessage("Invalid sprite number %d", currentsprite); currentsprite = -1; } } else currentsprite = -1; } if (sc.Compare("wall")) { currentsprite = -1; currentsector = -1; if (sc.CheckNumber()) { currentwall = sc.Number; if (currentwall < 0 || currentwall >= MAXWALLS) { sc.ScriptMessage("Invalid wall number %d", currentwall); currentwall = -1; } } else currentwall = -1; } if (sc.Compare("sector")) { currentsprite = -1; currentwall = -1; if (sc.CheckNumber()) { currentsector = sc.Number; if (currentsector < 0 || currentsector >= MAXSECTORS) { sc.ScriptMessage("Invalid sector number %d", currentsector); currentsector = -1; } } else currentsector = -1; } else if (sc.Compare("blocks")) { if (sc.CheckNumber() && validateWall()) { blockingpairs[currentwall].Push(sc.Number); } } else if (sc.Compare("sector")) { if (sc.CheckNumber()) { if (currentsprite != -1 && validateSprite()) { sprite[currentsprite].sectnum = sc.Number; } } } else if (sc.Compare("picnum")) { if (sc.CheckNumber()) { if (currentwall != -1 && validateWall()) { wall[currentwall].picnum = sc.Number; } else if (currentsprite != -1 && validateSprite()) { sprite[currentsprite].picnum = sc.Number; } } } else if (sc.Compare("overpicnum")) { if (sc.CheckNumber() && validateWall()) { wall[currentwall].overpicnum = sc.Number; } } else if (sc.Compare("overpicnum")) { if (sc.CheckNumber() && validateWall()) { wall[currentwall].overpicnum = sc.Number; } } else if (sc.Compare("split")) { int start = -1, end = -1; if (sc.CheckNumber()) start = sc.Number; if (sc.CheckNumber()) end = sc.Number; if (end >= 0 && validateSector()) { hw_SetSplitSector(currentsector, start, end); } } else if (sc.Compare("clearflags")) { if (currentsector != -1 && validateSector()) { sc.GetString(); if (sc.Compare("floor") && sc.CheckNumber()) { sector[currentsector].floorstat &= ~sc.Number; } else if (sc.Compare("ceiling") && sc.CheckNumber()) { sector[currentsector].ceilingstat &= ~sc.Number; } else sc.ScriptError("Bad token %s", sc.String); } else if (sc.CheckNumber()) { if (currentwall != -1 && validateWall()) { wall[currentwall].cstat &= ~sc.Number; } else if (currentsprite != -1 && validateSprite()) { sprite[currentsprite].cstat &= ~sc.Number; } } } else if (sc.Compare("setflags")) { if (sc.CheckNumber()) { if (currentwall != -1 && validateWall()) { wall[currentwall].cstat |= sc.Number; } else if (currentsprite != -1 && validateSprite()) { sprite[currentsprite].cstat |= sc.Number; } } } else if (sc.Compare("lotag")) { if (sc.CheckNumber()) { if (currentwall != -1 && validateWall()) { wall[currentwall].lotag = sc.Number; } else if (currentsprite != -1 && validateSprite()) { sprite[currentsprite].lotag = sc.Number; } } } else if (sc.Compare("angleoff") || sc.Compare("angoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].angoff = (int16_t)sc.Number; } else if (sc.Compare("notmd") || sc.Compare("notmd2") || sc.Compare("notmd3")) { if (validateSprite()) spriteext[currentsprite].flags |= SPREXT_NOTMD; } else if (sc.Compare("nomdanim") || sc.Compare("nomd2anim") || sc.Compare("nomd3anim")) { if (validateSprite()) spriteext[currentsprite].flags |= SPREXT_NOMDANIM; } else if (sc.Compare("pitch")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].pitch = (int16_t)sc.Number; } else if (sc.Compare("roll")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].roll = (int16_t)sc.Number; } else if (sc.Compare("mdxoff") || sc.Compare("mdpivxoff") || sc.Compare("mdpivotxoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].pivot_offset.x = sc.Number; } else if (sc.Compare("mdyoff") || sc.Compare("mdpivyoff") || sc.Compare("mdpivotyoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].pivot_offset.y = sc.Number; } else if (sc.Compare("mdzoff") || sc.Compare("mdpivzoff") || sc.Compare("mdpivotzoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].pivot_offset.z = sc.Number; } else if (sc.Compare("mdposxoff") || sc.Compare("mdpositionxoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].position_offset.x = sc.Number; } else if (sc.Compare("mdposyoff") || sc.Compare("mdpositionyoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].position_offset.x = sc.Number; } else if (sc.Compare("mdposzoff") || sc.Compare("mdpositionzoff")) { if (sc.CheckNumber() && validateSprite()) spriteext[currentsprite].position_offset.x = sc.Number; } else if (sc.Compare("away1")) { if (validateSprite()) spriteext[currentsprite].flags |= SPREXT_AWAY1; } else if (sc.Compare("away2")) { if (validateSprite()) spriteext[currentsprite].flags |= SPREXT_AWAY2; } else if (sc.Compare("mhkreset")) { if (validateSprite()) { auto& sx = spriteext[currentsprite]; sx.angoff = 0; sx.flags &= ~(SPREXT_NOTMD | SPREXT_NOMDANIM | SPREXT_AWAY1 | SPREXT_AWAY2); sx.pitch = 0; sx.roll = 0; sx.pivot_offset = {}; sx.position_offset = {}; } } else if (sc.Compare("light")) { // skip over it - once lights are working this should be reactivated. Assignments were kept as documentation. sc.MustGetNumber(); //light.sector= sc.Number; sc.MustGetNumber(); //light.x= sc.Number; sc.MustGetNumber(); //light.y= sc.Number; sc.MustGetNumber(); //light.z= sc.Number; sc.MustGetNumber(); //light.range= sc.Number; sc.MustGetNumber(); //light.color[0]= sc.Number; sc.MustGetNumber(); //light.color[1]= sc.Number; sc.MustGetNumber(); //light.color[2]= sc.Number; sc.MustGetNumber(); //light.radius= sc.Number; sc.MustGetNumber(); //light.faderadius= sc.Number; sc.MustGetNumber(); //light.angle= sc.Number; sc.MustGetNumber(); //light.horiz= sc.Number; sc.MustGetNumber(); //light.minshade= sc.Number; sc.MustGetNumber(); //light.maxshade= sc.Number; sc.MustGetNumber(); //light.priority= sc.Number; sc.MustGetString(); //light.tilenum= sc.Number; } } return 0; } void G_LoadMapHack(const char* filename, const unsigned char* md4) { hw_ClearSplitSector(); for (auto& p : blockingpairs) p.Clear(); FString internal = "engine/compatibility/"; for (int j = 0; j < 16; ++j) { internal.AppendFormat("%02x", md4[j]); } LoadMapHack(internal + ".mhk"); FString hack = StripExtension(filename) + ".mhk"; if (LoadMapHack(hack)) { for (auto& mhk : usermaphacks) { if (!memcmp(md4, mhk.md4, 16)) { LoadMapHack(mhk.mhkfile); } } } } // Map hacks use MD4 instead of MD5. Oh, well... CCMD(md4sum) { if (argv.argc() < 2) { Printf("Usage: md4sum ...\n"); } for (int i = 1; i < argv.argc(); ++i) { FileReader fr = fileSystem.OpenFileReader(argv[i]); if (!fr.isOpen()) { Printf("%s: %s\n", argv[i], strerror(errno)); } else { auto data = fr.Read(); uint8_t digest[16]; md4once(data.Data(), data.Size(), digest); for (int j = 0; j < 16; ++j) { Printf("%02x", digest[j]); } Printf(" //*%s\n", argv[i]); } } }