//------------------------------------------------------------------------- /* Copyright (C) 2010-2020 EDuke32 developers and contributors Copyright (C) 2020 sirlemonhead, Nuke.YKT This file is part of PCExhumed. PCExhumed is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. 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. */ //------------------------------------------------------------------------- #include "ns.h" #include "engine.h" #include "exhumed.h" #include "sound.h" #include "view.h" #include "names.h" #include "aistuff.h" #include "player.h" #include "mapinfo.h" #include "input.h" BEGIN_PS_NS int16_t cPupData[300]; uint8_t *Worktile; int lHeadStartClock; int16_t* pPupData; int lNextStateChange; int nPixels; int nHeadTimeStart; int nHeadStage; int16_t curx[kSpiritY * kSpiritX]; int16_t cury[kSpiritY * kSpiritX]; int8_t destvelx[kSpiritY * kSpiritX]; int8_t destvely[kSpiritY * kSpiritX]; uint8_t pixelval[kSpiritY * kSpiritX]; int8_t origy[kSpiritY * kSpiritX]; int8_t origx[kSpiritY * kSpiritX]; int8_t velx[kSpiritY * kSpiritX]; int8_t vely[kSpiritY * kSpiritX]; int16_t nMouthTile; int nPupData = 0; int word_964E8 = 0; int word_964EA = 0; int word_964EC = 10; int nSpiritRepeatX; int nSpiritRepeatY; DExhumedActor* pSpiritSprite; int nPixelsToShow; int nTalkTime = 0; void InitSpiritHead() { nPixels = 0; auto pSpiritSpr = &pSpiritSprite->s(); nSpiritRepeatX = pSpiritSpr->xrepeat; nSpiritRepeatY = pSpiritSpr->yrepeat; tileLoad(kTileRamsesNormal); // Ramses Normal Head ExhumedSpriteIterator it; while (auto act = it.Next()) { if (act->s().statnum) { act->s().cstat |= 0x8000; } } auto pTile = tilePtr(kTileRamsesNormal); // Ramses Normal Head auto pGold = tilePtr(kTileRamsesGold); for (int x = 0; x < 97; x++) { for (int y = 0; y < 106; y++) { if (*pTile != TRANSPARENT_INDEX) { pixelval[nPixels] = *(pGold + x * kSpiritX + y); origx[nPixels] = x - 48; origy[nPixels] = y - 53; curx[nPixels] = 0; cury[nPixels] = 0; vely[nPixels] = 0; velx[nPixels] = 0; destvelx[nPixels] = RandomSize(2) + 1; if (curx[nPixels] > 0) { destvelx[nPixels] = -destvelx[nPixels]; } destvely[nPixels] = RandomSize(2) + 1; if (cury[nPixels] > 0) { destvely[nPixels] = -destvely[nPixels]; } nPixels++; } pTile++; } } pSpiritSpr->yrepeat = 140; pSpiritSpr->xrepeat = 140; pSpiritSpr->picnum = kTileRamsesWorkTile; nHeadStage = 0; // work tile is twice as big as the normal head size Worktile = TileFiles.tileCreate(kTileRamsesWorkTile, kSpiritY * 2, kSpiritX * 2); pSpiritSpr->cstat &= 0x7FFF; nHeadTimeStart = PlayClock; memset(Worktile, TRANSPARENT_INDEX, WorktileSize); TileFiles.InvalidateTile(kTileRamsesWorkTile); nPixelsToShow = 0; fadecdaudio(); int nTrack = currentLevel->ex_ramses_cdtrack; playCDtrack(nTrack, false); StartSwirlies(); lNextStateChange = PlayClock; lHeadStartClock = PlayClock; auto headfd = fileSystem.OpenFileReader(currentLevel->ex_ramses_pup); if (!headfd.isOpen()) { memset(cPupData, 0, sizeof(cPupData)); } else { nPupData = (int)headfd.Read(cPupData, sizeof(cPupData)); pPupData = cPupData; } nMouthTile = 0; nTalkTime = 1; } void DimSector(int nSector) { int startwall = sector[nSector].wallptr; int nWalls = sector[nSector].wallnum; for (int i = 0; i < nWalls; i++) { if (wall[startwall+i].shade < 40) { wall[startwall+i].shade++; } } if (sector[nSector].floorshade < 40) { sector[nSector].floorshade++; } if (sector[nSector].ceilingshade < 40) { sector[nSector].ceilingshade++; } } void CopyHeadToWorkTile(int nTile) { const uint8_t* pSrc = tilePtr(nTile); uint8_t *pDest = &Worktile[212 * 49 + 53]; for (unsigned i = 0; i < kSpiritY; i++) { memcpy(pDest, pSrc, kSpiritX); pDest += 212; pSrc += kSpiritX; } } // This is based on BuildGDX's version of this function which was a lot less cryptic than PCExhumed's. void DoSpiritHead() { static int dimSectCount = 0; auto pSpiritSpr = &pSpiritSprite->s(); sPlayerInput[0].actions |= SB_CENTERVIEW; TileFiles.InvalidateTile(kTileRamsesWorkTile); switch (nHeadStage) { case 0: case 1: memset(Worktile, TRANSPARENT_INDEX, WorktileSize); break; case 5: if (lNextStateChange <= PlayClock) { if (nPupData != 0) { int clock = *pPupData++; nPupData -= 2; if (nPupData > 0) { lNextStateChange = lHeadStartClock + clock - 10; nTalkTime = !nTalkTime; } else { nTalkTime = false; nPupData = 0; } } else if (!bSubTitles) { if (!CDplaying()) { LevelFinished(); EndLevel = 1; } } } if (--word_964E8 <= 0) { word_964EA = 2 * RandomBit(); word_964E8 = RandomSize(5) + 4; } int tilenum = kTileRamsesNormal; if (--word_964EC < 3) { tilenum = 593; if (word_964EC <= 0) word_964EC = RandomSize(6) + 4; } CopyHeadToWorkTile(word_964EA + tilenum); if (nTalkTime) { if (nMouthTile < 2) nMouthTile++; } else if (nMouthTile != 0) nMouthTile--; if (nMouthTile != 0) { int srctile = nMouthTile + 598; auto src = tilePtr(srctile); int sizx = tileWidth(srctile); int sizy = tileHeight(srctile); int workptr = 212 * (97 - sizx / 2) + 159 - sizy; int srcptr = 0; while (sizx > 0) { memcpy(Worktile + workptr, src + srcptr, sizy); workptr += 212; srcptr += sizy; sizx--; } } return; } nPixelsToShow = 15 * (PlayClock - nHeadTimeStart); if (nPixelsToShow > nPixels) nPixelsToShow = nPixels; switch (nHeadStage) { case 3: FixPalette(); if (nPalDiff == 0) { nFreeze = 2; nHeadStage++; } return; case 0: case 1: case 2: UpdateSwirlies(); if (pSpiritSpr->shade > -127) pSpiritSpr->shade--; if (--dimSectCount < 0) { DimSector(pSpiritSpr->sectnum); dimSectCount = 5; } if (nHeadStage == 0) { if (PlayClock - nHeadTimeStart > 480) { nHeadStage = 1; nHeadTimeStart = PlayClock + 480; } for (int i = 0; i < nPixelsToShow; i++) { if (destvely[i] >= 0) { if (++vely[i] >= destvely[i]) { destvely[i] = (int8_t)-(RandomSize(2) + 1); } } else { if (--vely[i] <= destvely[i]) { destvely[i] = (int8_t)(RandomSize(2) + 1); } } if (destvelx[i] >= 0) { if (++velx[i] >= destvelx[i]) { destvelx[i] = (int8_t)-(RandomSize(2) + 1); } } else { if (--velx[i] <= destvelx[i]) { destvelx[i] = (int8_t)(RandomSize(2) + 1); } } int x = (curx[i] >> 8) + velx[i]; if (x < 97) { if (x < -96) { x = 0; velx[i] = 0; } } else { x = 0; velx[i] = 0; } int y = (cury[i] >> 8) + vely[i]; if (y < 106) { if (y < -105) { y = 0; vely[i] = 0; } } else { y = 0; vely[i] = 0; } curx[i] = (int)(x << 8); cury[i] = (int)(y << 8); Worktile[212 * (x + 97) + 106 + y] = pixelval[i++]; } } if (nHeadStage == 1) { if (pSpiritSpr->xrepeat > nSpiritRepeatX) { pSpiritSpr->xrepeat -= 2; if (pSpiritSpr->xrepeat < nSpiritRepeatX) pSpiritSpr->xrepeat = (uint8_t)nSpiritRepeatX; } if (pSpiritSpr->yrepeat > nSpiritRepeatY) { pSpiritSpr->yrepeat -= 2; if (pSpiritSpr->yrepeat < nSpiritRepeatY) pSpiritSpr->yrepeat = (uint8_t)nSpiritRepeatY; } int nCount = 0; for (int i = 0; i < nPixels; i++) { int dx, dy; if (origx[i] << 8 == curx[i] || abs((origx[i] << 8) - curx[i]) >= 8) dx = ((origx[i] << 8) - curx[i]) >> 3; else { dx = 0; curx[i] = (int)(origx[i] << 8); } if (origy[i] << 8 == cury[i] || abs((origy[i] << 8) - cury[i]) >= 8) dy = ((origy[i] << 8) - cury[i]) >> 3; else { dy = 0; cury[i] = (int)(origy[i] << 8); } if ((dx | dy) != 0) { curx[i] += dx; cury[i] += dy; nCount++; } Worktile[((cury[i] >> 8) + (212 * ((curx[i] >> 8) + 97))) + 106] = pixelval[i]; } if (PlayClock - lHeadStartClock > 600) CopyHeadToWorkTile(590); if (nCount < (15 * nPixels) / 16) { SoundBigEntrance(); AddGlow(pSpiritSpr->sectnum, 20); AddFlash(pSpiritSpr->sectnum, pSpiritSpr->x, pSpiritSpr->y, pSpiritSpr->z, 128); nHeadStage = 3; TintPalette(255, 255, 255); CopyHeadToWorkTile(kTileRamsesNormal); } } break; } } END_PS_NS