/* 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. * * $URL$ * $Id$ * */ #include "common/timer.h" #include "common/util.h" #include "sci/sci.h" #include "sci/engine/state.h" #include "sci/graphics/screen.h" #include "sci/graphics/palette.h" namespace Sci { SciPalette::SciPalette(ResourceManager *resMan, Screen *screen, bool autoSetPalette) : _resMan(resMan), _screen(screen) { int16 color; _sysPalette.timestamp = 0; for (color = 0; color < 256; color++) { _sysPalette.colors[color].used = 0; _sysPalette.colors[color].r = 0; _sysPalette.colors[color].g = 0; _sysPalette.colors[color].b = 0; _sysPalette.intensity[color] = 100; _sysPalette.mapping[color] = color; } // Black and white are hardcoded _sysPalette.colors[0].used = 1; _sysPalette.colors[255].used = 1; _sysPalette.colors[255].r = 255; _sysPalette.colors[255].g = 255; _sysPalette.colors[255].b = 255; if (autoSetPalette) { if (_resMan->getViewType() == kViewEga) setEGA(); else if (_resMan->isAmiga32color()) setAmiga(); else setFromResource(999, true); } } SciPalette::~SciPalette() { } #define SCI_PAL_FORMAT_CONSTANT 1 #define SCI_PAL_FORMAT_VARIABLE 0 void SciPalette::createFromData(byte *data, Palette *paletteOut) { int palFormat = 0; int palOffset = 0; int palColorStart = 0; int palColorCount = 0; int colorNo = 0; memset(paletteOut, 0, sizeof(Palette)); // Setup default mapping for (colorNo = 0; colorNo < 256; colorNo++) { paletteOut->mapping[colorNo] = colorNo; } if ((data[0] == 0 && data[1] == 1) || (data[0] == 0 && data[1] == 0 && READ_LE_UINT16(data + 29) == 0)) { // SCI0/SCI1 palette palFormat = SCI_PAL_FORMAT_VARIABLE; // CONSTANT; palOffset = 260; palColorStart = 0; palColorCount = 256; //memcpy(&paletteOut->mapping, data, 256); } else { // SCI1.1 palette palFormat = data[32]; palOffset = 37; palColorStart = READ_LE_UINT16(data + 25); palColorCount = READ_LE_UINT16(data + 29); } switch (palFormat) { case SCI_PAL_FORMAT_CONSTANT: for (colorNo = palColorStart; colorNo < palColorStart + palColorCount; colorNo++) { paletteOut->colors[colorNo].used = 1; paletteOut->colors[colorNo].r = data[palOffset++]; paletteOut->colors[colorNo].g = data[palOffset++]; paletteOut->colors[colorNo].b = data[palOffset++]; } break; case SCI_PAL_FORMAT_VARIABLE: for (colorNo = palColorStart; colorNo < palColorStart + palColorCount; colorNo++) { paletteOut->colors[colorNo].used = data[palOffset++]; paletteOut->colors[colorNo].r = data[palOffset++]; paletteOut->colors[colorNo].g = data[palOffset++]; paletteOut->colors[colorNo].b = data[palOffset++]; } break; } } // Will try to set amiga palette by using "spal" file. If not found, we return false bool SciPalette::setAmiga() { Common::File file; int curColor, byte1, byte2; if (file.open("spal")) { for (curColor = 0; curColor < 32; curColor++) { byte1 = file.readByte(); byte2 = file.readByte(); if ((byte1 == EOF) || (byte2 == EOF)) error("Amiga palette file ends prematurely"); _sysPalette.colors[curColor].used = 1; _sysPalette.colors[curColor].r = (byte1 & 0x0F) * 0x11; _sysPalette.colors[curColor].g = ((byte2 & 0xF0) >> 4) * 0x11; _sysPalette.colors[curColor].b = (byte2 & 0x0F) * 0x11; } file.close(); // Directly set the palette, because setOnScreen() wont do a thing for amiga _screen->setPalette(&_sysPalette); return true; } return false; } // Called from picture class, some amiga sci1 games set half of the palette void SciPalette::modifyAmigaPalette(byte *data) { int16 curColor, curPos = 0; byte byte1, byte2; for (curColor = 0; curColor < 16; curColor++) { byte1 = data[curPos++]; byte2 = data[curPos++]; _sysPalette.colors[curColor].r = (byte1 & 0x0F) * 0x11; _sysPalette.colors[curColor].g = ((byte2 & 0xF0) >> 4) * 0x11; _sysPalette.colors[curColor].b = (byte2 & 0x0F) * 0x11; } _screen->setPalette(&_sysPalette); } void SciPalette::setEGA() { int curColor; byte color1, color2; _sysPalette.colors[1].r = 0x000; _sysPalette.colors[1].g = 0x000; _sysPalette.colors[1].b = 0x0AA; _sysPalette.colors[2].r = 0x000; _sysPalette.colors[2].g = 0x0AA; _sysPalette.colors[2].b = 0x000; _sysPalette.colors[3].r = 0x000; _sysPalette.colors[3].g = 0x0AA; _sysPalette.colors[3].b = 0x0AA; _sysPalette.colors[4].r = 0x0AA; _sysPalette.colors[4].g = 0x000; _sysPalette.colors[4].b = 0x000; _sysPalette.colors[5].r = 0x0AA; _sysPalette.colors[5].g = 0x000; _sysPalette.colors[5].b = 0x0AA; _sysPalette.colors[6].r = 0x0AA; _sysPalette.colors[6].g = 0x055; _sysPalette.colors[6].b = 0x000; _sysPalette.colors[7].r = 0x0AA; _sysPalette.colors[7].g = 0x0AA; _sysPalette.colors[7].b = 0x0AA; _sysPalette.colors[8].r = 0x055; _sysPalette.colors[8].g = 0x055; _sysPalette.colors[8].b = 0x055; _sysPalette.colors[9].r = 0x055; _sysPalette.colors[9].g = 0x055; _sysPalette.colors[9].b = 0x0FF; _sysPalette.colors[10].r = 0x055; _sysPalette.colors[10].g = 0x0FF; _sysPalette.colors[10].b = 0x055; _sysPalette.colors[11].r = 0x055; _sysPalette.colors[11].g = 0x0FF; _sysPalette.colors[11].b = 0x0FF; _sysPalette.colors[12].r = 0x0FF; _sysPalette.colors[12].g = 0x055; _sysPalette.colors[12].b = 0x055; _sysPalette.colors[13].r = 0x0FF; _sysPalette.colors[13].g = 0x055; _sysPalette.colors[13].b = 0x0FF; _sysPalette.colors[14].r = 0x0FF; _sysPalette.colors[14].g = 0x0FF; _sysPalette.colors[14].b = 0x055; _sysPalette.colors[15].r = 0x0FF; _sysPalette.colors[15].g = 0x0FF; _sysPalette.colors[15].b = 0x0FF; for (curColor = 0; curColor <= 15; curColor++) { _sysPalette.colors[curColor].used = 1; } // Now setting colors 16-254 to the correct mix colors that occur when not doing a dithering run on // finished pictures for (curColor = 0x10; curColor <= 0xFE; curColor++) { _sysPalette.colors[curColor].used = curColor; color1 = curColor & 0x0F; color2 = curColor >> 4; _sysPalette.colors[curColor].r = (_sysPalette.colors[color1].r >> 1) + (_sysPalette.colors[color2].r >> 1); _sysPalette.colors[curColor].g = (_sysPalette.colors[color1].g >> 1) + (_sysPalette.colors[color2].g >> 1); _sysPalette.colors[curColor].b = (_sysPalette.colors[color1].b >> 1) + (_sysPalette.colors[color2].b >> 1); } setOnScreen(); } bool SciPalette::setFromResource(GuiResourceId resourceId, bool force) { Resource *palResource = _resMan->findResource(ResourceId(kResourceTypePalette, resourceId), 0); Palette palette; if (palResource) { createFromData(palResource->data, &palette); set(&palette, true); return true; } return false; } void SciPalette::set(Palette *sciPal, bool force, bool forceRealMerge) { uint32 systime = _sysPalette.timestamp; if (force || sciPal->timestamp != systime) { merge(sciPal, &_sysPalette, force, forceRealMerge); sciPal->timestamp = _sysPalette.timestamp; if (_screen->_picNotValid == 0 && systime != _sysPalette.timestamp) setOnScreen(); } } void SciPalette::merge(Palette *pFrom, Palette *pTo, bool force, bool forceRealMerge) { uint16 res; int i,j; if ((!forceRealMerge) && (getSciVersion() >= SCI_VERSION_1_1)) { // SCI1.1+ doesnt do real merging anymore, but simply copying over the used colors from other palettes for (i = 1; i < 255; i++) { if (pFrom->colors[i].used) { pTo->colors[i].used = pFrom->colors[i].used; pTo->colors[i].r = pFrom->colors[i].r; pTo->colors[i].g = pFrom->colors[i].g; pTo->colors[i].b = pFrom->colors[i].b; pFrom->mapping[i] = i; } } } else { // colors 0 (black) and 255 (white) are not affected by merging for (i = 1 ; i < 255; i++) { if (!pFrom->colors[i].used)// color is not used - so skip it continue; // forced palette merging or dest color is not used yet or bit 1 of new color is set if (force || (!pTo->colors[i].used) || (pFrom->colors[i].used & 2)) { pTo->colors[i].used = pFrom->colors[i].used; pTo->colors[i].r = pFrom->colors[i].r; pTo->colors[i].g = pFrom->colors[i].g; pTo->colors[i].b = pFrom->colors[i].b; pFrom->mapping[i] = i; continue; } // is the same color already at the same position? -> match it directly w/o lookup // this fixes games like lsl1demo/sq5 where the same rgb color exists multiple times and where we would // otherwise match the wrong one (which would result into the pixels affected (or not) by palette changes) if ((pTo->colors[i].r == pFrom->colors[i].r) && (pTo->colors[i].g == pFrom->colors[i].g) && (pTo->colors[i].b == pFrom->colors[i].b)) { pFrom->mapping[i] = i; continue; } // check if exact color could be matched res = matchColor(pTo, pFrom->colors[i].r, pFrom->colors[i].g, pFrom->colors[i].b); if (res & 0x8000) { // exact match was found pFrom->mapping[i] = res & 0xFF; continue; } // no exact match - see if there is an unused color for (j = 1; j < 256; j++) if (!pTo->colors[j].used) { pTo->colors[j].used = pFrom->colors[i].used; pTo->colors[j].r = pFrom->colors[i].r; pTo->colors[j].g = pFrom->colors[i].g; pTo->colors[j].b = pFrom->colors[i].b; pFrom->mapping[i] = j; break; } // if still no luck - set an approximate color if (j == 256) { pFrom->mapping[i] = res & 0xFF; pTo->colors[res & 0xFF].used |= 0x10; } } } pTo->timestamp = g_system->getMillis() * 60 / 1000; } uint16 SciPalette::matchColor(Palette *pPal, byte r, byte g, byte b) { byte found = 0xFF; int diff = 0x2FFFF, cdiff; int16 dr,dg,db; for (int i = 1; i < 255; i++) { if ((!pPal->colors[i].used)) continue; dr = pPal->colors[i].r - r; dg = pPal->colors[i].g - g; db = pPal->colors[i].b - b; // minimum squares match cdiff = (dr*dr) + (dg*dg) + (db*db); // minimum sum match (Sierra's) // cdiff = ABS(dr) + ABS(dg) + ABS(db); if (cdiff < diff) { if (cdiff == 0) return i | 0x8000; // setting this flag to indicate exact match found = i; diff = cdiff; } } return found; } void SciPalette::getSys(Palette *pal) { if (pal != &_sysPalette) memcpy(pal, &_sysPalette,sizeof(Palette)); } void SciPalette::setOnScreen() { // if (pal != &_sysPalette) // memcpy(&_sysPalette,pal,sizeof(Palette)); // We dont change palette at all times for amiga if (_resMan->isAmiga32color()) return; _screen->setPalette(&_sysPalette); } void SciPalette::setFlag(uint16 fromColor, uint16 toColor, uint16 flag) { uint16 colorNr; for (colorNr = fromColor; colorNr < toColor; colorNr++) { _sysPalette.colors[colorNr].used |= flag; } } void SciPalette::unsetFlag(uint16 fromColor, uint16 toColor, uint16 flag) { uint16 colorNr; for (colorNr = fromColor; colorNr < toColor; colorNr++) { _sysPalette.colors[colorNr].used &= ~flag; } } void SciPalette::setIntensity(uint16 fromColor, uint16 toColor, uint16 intensity, bool setPalette) { memset(&_sysPalette.intensity[0] + fromColor, intensity, toColor - fromColor); if (setPalette) setOnScreen(); } // Returns true, if palette got changed bool SciPalette::animate(byte fromColor, byte toColor, int speed) { Color col; //byte colorNr; int16 colorCount; uint32 now = g_system->getMillis() * 60 / 1000; // search for sheduled animations with the same 'from' value // schedule animation... int scheduleCount = _schedules.size(); int scheduleNr; for (scheduleNr = 0; scheduleNr < scheduleCount; scheduleNr++) { if (_schedules[scheduleNr].from == fromColor) break; } if (scheduleNr == scheduleCount) { // adding a new schedule PalSchedule newSchedule; newSchedule.from = fromColor; newSchedule.schedule = now + ABS(speed); _schedules.push_back(newSchedule); scheduleCount++; } for (scheduleNr = 0; scheduleNr < scheduleCount; scheduleNr++) { if (_schedules[scheduleNr].from == fromColor) { if (_schedules[scheduleNr].schedule <= now) { if (speed > 0) { // TODO: Not really sure about this, sierra sci seems to do exactly this here col = _sysPalette.colors[fromColor]; if (fromColor < toColor) { colorCount = toColor - fromColor - 1; memmove(&_sysPalette.colors[fromColor], &_sysPalette.colors[fromColor + 1], colorCount * sizeof(Color)); } _sysPalette.colors[toColor - 1] = col; } else { col = _sysPalette.colors[toColor - 1]; if (fromColor < toColor) { colorCount = toColor - fromColor - 1; memmove(&_sysPalette.colors[fromColor + 1], &_sysPalette.colors[fromColor], colorCount * sizeof(Color)); } _sysPalette.colors[fromColor] = col; } // removing schedule _schedules[scheduleNr].schedule = now + ABS(speed); // TODO: Not sure when sierra actually removes a schedule //_schedules.remove_at(scheduleNr); return true; } return false; } } return false; } // palVary // init - only does, if palVaryOn == false // target, start, new palette allocation // palVaryOn = true // palDirection = 1 // palStop = 64 // palTime = from caller // copy resource palette to target // init target palette (used = 1 on all colors, color 0 = RGB 0, 0, 0 color 255 = RGB 0xFF, 0xFF, 0xFF // copy sysPalette to startPalette // init new palette like target palette // palPercent = 1 // do various things // return 1 // deinit - unloads target palette, kills timer hook, disables palVaryOn // pause - counts up or down, if counter != 0 -> signal wont get counted up by timer // will only count down to 0 // // Restarting game // palVary = false // palPercent = 0 // call palVary deinit // // Saving/restoring // need to save start and target-palette, when palVaryOn = true } // End of namespace Sci