/************************************************************************ * Copyright (c) 2005-2007 tok@openlinux.org.uk * * * * This file contains code derived from information copyrighted by * * DMA Design. It may not be used in a commercial product. * * * * See license.txt for details. * * * * This notice may not be removed or altered. * ************************************************************************/ #include #include #include #include "opengta.h" #include "buffercache.h" #include "log.h" #include "m_exceptions.h" #include "set.h" using namespace Util; namespace OpenGTA { #define GTA_GRAPHICS_GRX 290 #define GTA_GRAPHICS_GRY 325 #define GTA_GRAPHICS_G24 336 PHYSFS_uint16 GraphicsBase::SpriteNumbers::countByType(const SpriteTypes & t) const { switch (t) { case ARROW: return GTA_SPRITE_ARROW; case DIGIT: return GTA_SPRITE_DIGITS; case BOAT: return GTA_SPRITE_BOAT; case BOX: return GTA_SPRITE_BOX; case BUS: return GTA_SPRITE_BUS; case CAR: return GTA_SPRITE_CAR; case OBJECT: return GTA_SPRITE_OBJECT; case PED: return GTA_SPRITE_PED; case SPEEDO: return GTA_SPRITE_SPEEDO; case TANK: return GTA_SPRITE_TANK; case TRAFFIC_LIGHT: return GTA_SPRITE_TRAFFIC_LIGHTS; case TRAIN: return GTA_SPRITE_TRAIN; case TRDOOR: return GTA_SPRITE_TRDOORS; case BIKE: return GTA_SPRITE_BIKE; case TRAM: return GTA_SPRITE_TRAM; case WBUS: return GTA_SPRITE_WBUS; case WCAR: return GTA_SPRITE_WCAR; case EX: return GTA_SPRITE_EX; case TUMCAR: return GTA_SPRITE_TUMCAR; case TUMTRUCK: return GTA_SPRITE_TUMTRUCK; case FERRY: return GTA_SPRITE_FERRY; default: break; } INFO << "UPS: " << t << std::endl; assert(0); } PHYSFS_uint16 GraphicsBase::SpriteNumbers::reIndex(const PHYSFS_uint16 & id, const SpriteTypes & t) const { switch (t) { case ARROW: return id; case DIGIT: return GTA_SPRITE_ARROW + id; case BOAT: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + id; case BOX: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + id; case BUS: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + id; case CAR: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + id; case OBJECT: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + id; case PED: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + id; case SPEEDO: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + id; case TANK: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + id; case TRAFFIC_LIGHT: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + id; case TRAIN: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + id; case TRDOOR: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + id; case BIKE: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + id; case TRAM: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + id; case WBUS: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + id; case WCAR: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + GTA_SPRITE_WBUS + id; case EX: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + GTA_SPRITE_WBUS + GTA_SPRITE_WCAR + id; case TUMCAR: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + GTA_SPRITE_WBUS + GTA_SPRITE_WCAR + GTA_SPRITE_TUMCAR + id; case TUMTRUCK: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + GTA_SPRITE_WBUS + GTA_SPRITE_WCAR + GTA_SPRITE_TUMCAR + GTA_SPRITE_TUMCAR + id; case FERRY: return GTA_SPRITE_ARROW + GTA_SPRITE_DIGITS + GTA_SPRITE_BOAT + GTA_SPRITE_BOX + GTA_SPRITE_BUS + GTA_SPRITE_CAR + GTA_SPRITE_OBJECT + GTA_SPRITE_PED + GTA_SPRITE_SPEEDO + GTA_SPRITE_TANK + + GTA_SPRITE_TRAFFIC_LIGHTS + GTA_SPRITE_TRAIN + GTA_SPRITE_TRDOORS + GTA_SPRITE_BIKE + GTA_SPRITE_TRAM + GTA_SPRITE_WBUS + GTA_SPRITE_WCAR + GTA_SPRITE_TUMCAR + GTA_SPRITE_TUMCAR + GTA_SPRITE_TUMTRUCK + id; } assert(0); // should never be reached return 0; } GraphicsBase::GraphicsBase() : sideTexBlockMove(256) { rawTiles = NULL; rawSprites = NULL; delta_is_a_set = false; for (int i=0; i < 256; ++i) sideTexBlockMove.set_item(i, true); } bool GraphicsBase::isBlockingSide(uint8_t id) { return sideTexBlockMove.get_item(id); } void GraphicsBase::setupBlocking(const std::string & filename) { // style001 sideTexBlockMove.set_item(10, false); sideTexBlockMove.set_item(20, false); sideTexBlockMove.set_item(97, false); sideTexBlockMove.set_item(109, false); sideTexBlockMove.set_item(110, false); sideTexBlockMove.set_item(115, false); sideTexBlockMove.set_item(116, false); sideTexBlockMove.set_item(155, false); sideTexBlockMove.set_item(156, false); sideTexBlockMove.set_item(157, false); sideTexBlockMove.set_item(158, false); } bool GraphicsBase::getDeltaHandling() { return delta_is_a_set; } void GraphicsBase::setDeltaHandling(bool delta_as_set) { delta_is_a_set = delta_as_set; } GraphicsBase::~GraphicsBase() { if (fd) PHYSFS_close(fd); std::vector::iterator i = animations.begin(); while (i != animations.end()) { delete *i; i++; } animations.clear(); std::vector::iterator i2 = spriteInfos.begin(); while (i2 != spriteInfos.end()) { delete *i2; i2++; } spriteInfos.clear(); std::vector::iterator i3 = objectInfos.begin(); while (i3 != objectInfos.end()) { delete *i3; i3++; } objectInfos.clear(); std::vector::iterator i4 = carInfos.begin(); while (i4 != carInfos.end()) { delete *i4; i4++; } carInfos.clear(); if (rawTiles) delete [] rawTiles; if (rawSprites) delete [] rawSprites; } bool GraphicsBase::isAnimatedBlock(uint8_t area_code, uint8_t id) { std::vector::iterator i = animations.begin(); while (i != animations.end()) { if ((*i)->which == area_code && (*i)->block == id) return true; ++i; } return false; } GraphicsBase::CarInfo* GraphicsBase::findCarByModel(PHYSFS_uint8 model) { std::vector::iterator i = carInfos.begin(); while (i != carInfos.end()) { if ((*i)->model == model) return *i; ++i; } //throw std::string("Failed to find car by model"); std::ostringstream o; o << "Searching for car model " << int(model) << " failed"; throw E_UNKNOWNKEY(o.str()); return NULL; } unsigned int GraphicsBase::getRandomPedRemapNumber() { return int(rand() * (1.0f / (1.0f + RAND_MAX)) * (lastValidPedRemap - firstValidPedRemap) + firstValidPedRemap); } unsigned int GraphicsBase::getPedRemapNumberType(unsigned int _type) { ERROR << "not implemented"<< std::endl; return _type; } uint8_t GraphicsBase::getFormat() { if (_topHeaderSize == 52) return 0; else if (_topHeaderSize == 64) return 1; throw E_INVALIDFORMAT("graphics-base header size"); return 255; } Graphics8Bit::Graphics8Bit(const std::string& style) : GraphicsBase() { fd = PHYSFS_openRead(style.c_str()); if (fd == NULL) { std::string style2(style); transform(style2.begin(), style2.end(), style2.begin(), tolower); fd = PHYSFS_openRead(style2.c_str()); } if (fd == NULL) { //throw std::string("FileNotFound: ") + style; std::ostringstream o; o << style << " with error: " << SDL_GetError(); throw E_FILENOTFOUND(o.str()); } _topHeaderSize = 52; rawTiles = NULL; rawSprites = NULL; masterRGB = NULL; auxBlockTrailSize = 0; loadHeader(); setupBlocking(style); firstValidPedRemap = 131; lastValidPedRemap = 187; } Graphics8Bit::~Graphics8Bit() { //if (rawSprites) // delete [] rawSprites; if (masterRGB) delete masterRGB; } void Graphics8Bit::dump() { uint32_t gs = sideSize + lidSize + auxSize; INFO << "* graphics info *" << std::endl << gs << " bytes in " << gs / 65536 << " pages " << gs / 4096 << " images" << std::endl << spriteInfos.size() << " sprites (" << spriteInfoSize <<") total: " << spriteGraphicsSize << " bytes" << std::endl << "sprite numbers: " << std::endl << spriteNumbers.GTA_SPRITE_ARROW << " arrows" << std::endl << spriteNumbers.GTA_SPRITE_DIGITS << " digits" << std::endl << spriteNumbers.GTA_SPRITE_BOAT << " boats" << std::endl << spriteNumbers.GTA_SPRITE_BOX << " boxes" << std::endl << spriteNumbers.GTA_SPRITE_BUS << " buses" << std::endl << spriteNumbers.GTA_SPRITE_CAR << " cars" << std::endl << spriteNumbers.GTA_SPRITE_OBJECT << " objects" << std::endl << spriteNumbers.GTA_SPRITE_PED << " peds" << std::endl << spriteNumbers.GTA_SPRITE_SPEEDO << " speedos" << std::endl << spriteNumbers.GTA_SPRITE_TANK << " tanks" << std::endl << spriteNumbers.GTA_SPRITE_TRAFFIC_LIGHTS << " traffic lights" << std::endl << spriteNumbers.GTA_SPRITE_TRAIN << " trains" << std::endl << spriteNumbers.GTA_SPRITE_TRDOORS << " train doors" << std::endl << spriteNumbers.GTA_SPRITE_BIKE << " bikes" << std::endl << spriteNumbers.GTA_SPRITE_TRAM << " trams" << std::endl << spriteNumbers.GTA_SPRITE_WBUS << " wbuses" << std::endl << spriteNumbers.GTA_SPRITE_WCAR << " wcars" << std::endl << spriteNumbers.GTA_SPRITE_EX << " exes"<< std::endl << spriteNumbers.GTA_SPRITE_TUMCAR << " tumcars" << std::endl << spriteNumbers.GTA_SPRITE_TUMTRUCK << " tumtrucks" << std::endl << spriteNumbers.GTA_SPRITE_FERRY << " ferries"<< std::endl << "#object-info: " << objectInfos.size() << " #car-info: " << carInfos.size() << std::endl; } void Graphics8Bit::loadHeader() { PHYSFS_uint32 vc; PHYSFS_readULE32(fd, &vc); if(vc != GTA_GRAPHICS_GRY) { ERROR << "graphics file specifies version " << vc << " instead of " << GTA_GRAPHICS_GRY << std::endl; throw E_INVALIDFORMAT("8-bit loader failed"); return; } PHYSFS_readULE32(fd, &sideSize); PHYSFS_readULE32(fd, &lidSize); PHYSFS_readULE32(fd, &auxSize); PHYSFS_readULE32(fd, &animSize); PHYSFS_readULE32(fd, &paletteSize); PHYSFS_readULE32(fd, &remapSize); PHYSFS_readULE32(fd, &remapIndexSize); PHYSFS_readULE32(fd, &objectInfoSize); PHYSFS_readULE32(fd, &carInfoSize); PHYSFS_readULE32(fd, &spriteInfoSize); PHYSFS_readULE32(fd, &spriteGraphicsSize); PHYSFS_readULE32(fd, &spriteNumberSize); INFO << "Block textures: S " << sideSize / 4096 << " L " << lidSize / 4096 << " A " << auxSize / 4096 << std::endl; if (sideSize % 4096 != 0) { ERROR << "Side-Block texture size is not a multiple of 4096" << std::endl; return; } if (lidSize % 4096 != 0) { ERROR << "Lid-Block texture size is not a multiple of 4096" << std::endl; return; } if (auxSize % 4096 != 0) { ERROR << "Aux-Block texture size is not a multiple of 4096" << std::endl; return; } PHYSFS_uint32 tmp = sideSize / 4096 + lidSize / 4096 + auxSize / 4096; tmp = tmp % 4; if (tmp) { auxBlockTrailSize = (4 - tmp) * 4096; INFO << "adjusting aux-block by " << auxBlockTrailSize << std::endl; } INFO << "Anim size: " << animSize << " palette size: " << paletteSize << " remap size: " << remapSize << " remap-index size: " << remapIndexSize << std::endl; INFO << "Obj-info size: " << objectInfoSize << " car-size: " << carInfoSize << " sprite-info size: " << spriteInfoSize << " graphic size: " << spriteGraphicsSize << " numbers s: " << spriteNumberSize << std::endl; if (spriteNumberSize != 42) { ERROR << "spriteNumberSize is " << spriteNumberSize << " (should be 42)" << std::endl; return; } loadTileTextures(); loadAnim(); loadPalette(); loadRemapTables(); loadRemapIndex(); loadObjectInfo(); loadCarInfo(); loadSpriteInfo(); loadSpriteGraphics(); loadSpriteNumbers(); dump(); } void GraphicsBase::loadAnim() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize; PHYSFS_seek(fd, st); PHYSFS_uint8 numAnim; PHYSFS_read(fd, static_cast(&numAnim), 1, 1); for (int i=0; i(&block), 1, 1); PHYSFS_read(fd, static_cast(&which), 1, 1); PHYSFS_read(fd, static_cast(&speed), 1, 1); PHYSFS_read(fd, static_cast(&frameCount), 1, 1); LoadedAnim *animation = new LoadedAnim(frameCount); animation->block = block; animation->which = which; animation->speed = speed; animation->frameCount = frameCount; if (animation->frameCount > 180) { ERROR << "found animation with " << int(animation->frameCount) << " frames ???" << std::endl; } for (int j=0; jframeCount; j++) { uint8_t val; PHYSFS_read(fd, static_cast(&val), 1, 1); animation->frame[j] = val; //PHYSFS_read(fd, static_cast(&animations[i].frame[j]), 1, 1); } animations.push_back(animation); } } void Graphics8Bit::loadPalette() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize; PHYSFS_seek(fd, st); if (masterRGB) delete masterRGB; masterRGB = new RGBPalette(fd); } void Graphics8Bit::loadRemapTables() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize; PHYSFS_seek(fd, st); PHYSFS_read(fd, static_cast(remapTables), 256, 256); /* for (int i=0; i < 256; i++) { for (int j = 0; j < 256; j++) { std::cout << int(remapTables[i][j]) << " "; } std::cout << std::endl; }*/ } void Graphics8Bit::loadRemapIndex() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize; PHYSFS_seek(fd, st); PHYSFS_read(fd, static_cast(&remapIndex), 4, 256); /* std::cout << "LID remap tables" << std::endl; for (int i=0; i<256; ++i) { std::cout << i << ": " << int(remapIndex[i][0]) << ", " << int(remapIndex[i][1]) << ", " << int(remapIndex[i][2]) << ", " << int(remapIndex[i][3]) << std::endl; }*/ } void GraphicsBase::loadObjectInfo_shared(PHYSFS_uint64 offset) { PHYSFS_seek(fd, offset); assert(objectInfoSize % 20 == 0); int c = objectInfoSize / 20; for (int i=0; i< c; i++) { ObjectInfo *obj = new ObjectInfo(); PHYSFS_readULE32(fd, &obj->width); PHYSFS_readULE32(fd, &obj->height); PHYSFS_readULE32(fd, &obj->depth); PHYSFS_readULE16(fd, &obj->sprNum); PHYSFS_readULE16(fd, &obj->weight); PHYSFS_readULE16(fd, &obj->aux); PHYSFS_read(fd, static_cast(&obj->status), 1, 1); PHYSFS_read(fd, static_cast(&obj->numInto), 1, 1); objectInfos.push_back(obj); } } void Graphics8Bit::loadObjectInfo() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize; loadObjectInfo_shared(st); } void GraphicsBase::loadCarInfo_shared(PHYSFS_uint64 offset) { PHYSFS_seek(fd, offset); //INFO << "starting at offset " << offset << std::endl; PHYSFS_uint32 bytes_read = 0; while (bytes_read < carInfoSize) { //INFO << bytes_read << ": " << carInfoSize << std::endl; CarInfo * car = new CarInfo(); PHYSFS_readSLE16(fd, &car->width); PHYSFS_readSLE16(fd, &car->height); PHYSFS_readSLE16(fd, &car->depth); PHYSFS_readSLE16(fd, &car->sprNum); PHYSFS_readSLE16(fd, &car->weightDescriptor); PHYSFS_readSLE16(fd, &car->maxSpeed); PHYSFS_readSLE16(fd, &car->minSpeed); PHYSFS_readSLE16(fd, &car->acceleration); PHYSFS_readSLE16(fd, &car->braking); PHYSFS_readSLE16(fd, &car->grip); PHYSFS_readSLE16(fd, &car->handling); bytes_read += 2 * 11; for (int i=0; i < 12; i++) { PHYSFS_readSLE16(fd, &car->remap24[i].h); PHYSFS_readSLE16(fd, &car->remap24[i].l); PHYSFS_readSLE16(fd, &car->remap24[i].s); } bytes_read += 12 * 3 * 2; for (int i=0; i < 12; i++) { PHYSFS_read(fd, static_cast(&car->remap8[i]), 1, 1); } bytes_read += 12; PHYSFS_read(fd, static_cast(&car->vtype), 1, 1); PHYSFS_read(fd, static_cast(&car->model), 1, 1); PHYSFS_read(fd, static_cast(&car->turning), 1, 1); PHYSFS_read(fd, static_cast(&car->damagable), 1, 1); bytes_read += 4; for (int i=0; i < 4; i++) PHYSFS_readULE16(fd, &car->value[i]); bytes_read += 4 * 2; PHYSFS_read(fd, static_cast(&car->cx), 1, 1); PHYSFS_read(fd, static_cast(&car->cy), 1, 1); PHYSFS_readULE32(fd, &car->moment); bytes_read += 2 + 4; PHYSFS_uint32 fixed_tmp; PHYSFS_readULE32(fd, &fixed_tmp); car->rbpMass = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->g1_Thrust = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->tyreAdhesionX = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->tyreAdhesionY = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->handBrakeFriction = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->footBrakeFriction = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->frontBrakeBias = float(fixed_tmp)/65536; bytes_read += 7 * 4; PHYSFS_readSLE16(fd, &car->turnRatio); PHYSFS_readSLE16(fd, &car->driveWheelOffset); PHYSFS_readSLE16(fd, &car->steeringWheelOffset); bytes_read += 3 * 2; PHYSFS_readULE32(fd, &fixed_tmp); car->backEndSlideValue = float(fixed_tmp)/65536; PHYSFS_readULE32(fd, &fixed_tmp); car->handBrakeSlideValue = float(fixed_tmp)/65536; bytes_read += 2 * 4; PHYSFS_read(fd, static_cast(&car->convertible), 1, 1); PHYSFS_read(fd, static_cast(&car->engine), 1, 1); PHYSFS_read(fd, static_cast(&car->radio), 1, 1); PHYSFS_read(fd, static_cast(&car->horn), 1, 1); PHYSFS_read(fd, static_cast(&car->soundFunction), 1, 1); PHYSFS_read(fd, static_cast(&car->fastChangeFlag), 1, 1); bytes_read += 6; PHYSFS_readSLE16(fd, &car->numDoors); bytes_read += 2; if (car->numDoors > 2) { WARN << "num-doors: " << car->numDoors << " > 2 ???" << std::endl; car->numDoors = 0; } for (int i=0; i < car->numDoors; i++) { PHYSFS_readSLE16(fd, &car->door[i].rpy); PHYSFS_readSLE16(fd, &car->door[i].rpx); PHYSFS_readSLE16(fd, &car->door[i].object); PHYSFS_readSLE16(fd, &car->door[i].delta); bytes_read += 4 * 2; } carInfos.push_back(car); } assert(bytes_read == carInfoSize); } void Graphics8Bit::loadCarInfo() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize + objectInfoSize; loadCarInfo_shared(st); } void Graphics8Bit::loadSpriteInfo() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize + objectInfoSize + carInfoSize; PHYSFS_seek(fd, st); PHYSFS_uint8 v; PHYSFS_uint32 w; PHYSFS_uint32 _bytes_read = 0; while (_bytes_read < spriteInfoSize) { SpriteInfo *si = new SpriteInfo(); PHYSFS_read(fd, static_cast(&si->w), 1, 1); PHYSFS_read(fd, static_cast(&si->h), 1, 1); PHYSFS_read(fd, static_cast(&si->deltaCount), 1, 1); PHYSFS_read(fd, static_cast(&v), 1, 1); PHYSFS_readULE16(fd, &si->size); PHYSFS_readULE32(fd, &w); _bytes_read += 10; //si->ptr = reinterpret_cast(w); si->page = w / 65536; si->xoffset = (w % 65536) % 256; si->yoffset = (w % 65536) / 256; si->clut = 0; /* std::cout << int(si->w) << "," << int(si->h) << " = " << si->size << " deltas: " << int(si->deltaCount) << " at " << w << std::endl; */ // sanity check if (v) WARN << "Compression flag active in sprite!" << std::endl; if (int(si->w) * int(si->h) != int(si->size)) { ERROR << "Sprite info size mismatch: " << int(si->w) << "x" << int(si->h) << " != " << si->size << std::endl; return; } if (si->deltaCount > 32) { ERROR << "Delta count of sprite is " << si->deltaCount << std::endl; return; } for (PHYSFS_uint8 j = 0; j < 33; ++j) { si->delta[j].size = 0; si->delta[j].ptr = 0; if (si->deltaCount && (j < si->deltaCount)) { //std::cout << "reading " << int(j) << std::endl; PHYSFS_readULE16(fd, &si->delta[j].size); PHYSFS_readULE32(fd, &w); _bytes_read += 6; si->delta[j].ptr = reinterpret_cast(w); } } spriteInfos.push_back(si); } st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize + objectInfoSize + carInfoSize + spriteInfoSize; assert(PHYSFS_tell(fd) == PHYSFS_sint64(st)); } void Graphics8Bit::loadSpriteGraphics() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize + objectInfoSize + carInfoSize + spriteInfoSize; PHYSFS_seek(fd, st); rawSprites = new unsigned char[spriteGraphicsSize]; assert(rawSprites != NULL); PHYSFS_read(fd, static_cast(rawSprites), spriteGraphicsSize, 1); if (spriteInfos.size() == 0) { INFO << "No SpriteInfo post-loading work done - structure is empty" << std::endl; return; } std::vector::const_iterator i = spriteInfos.begin(); std::vector::const_iterator end = spriteInfos.end(); PHYSFS_uint32 _pagewise = 256 * 256; while (i != end) { SpriteInfo *info = *i; /* PHYSFS_uint32 offset = reinterpret_cast(info->ptr); PHYSFS_uint32 page = offset / 65536; PHYSFS_uint32 y = (offset % 65536) / 256; PHYSFS_uint32 x = (offset % 65536) % 256; */ //std::cout << int(info->w) << "x" << int(info->h) << " " << int(info->deltaCount) << " deltas" << std::endl; //std::cout << offset << " page " << page << " x,y " << x <<","<ptr = rawSprites + page * _pagewise + 256 * y + x; for (uint8_t k = 0; k < info->deltaCount; ++k) { PHYSFS_uint32 offset = reinterpret_cast(info->delta[k].ptr); PHYSFS_uint32 page = offset / 65536; PHYSFS_uint32 y = (offset % 65536) / 256; PHYSFS_uint32 x = (offset % 65536) % 256; info->delta[k].ptr = rawSprites + page * _pagewise + 256 * y + x; } i++; } return; } void GraphicsBase::loadSpriteNumbers_shared(PHYSFS_uint64 offset) { PHYSFS_seek(fd, offset); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_ARROW); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_DIGITS); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_BOAT); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_BOX); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_BUS); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_CAR); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_OBJECT); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_PED); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_SPEEDO); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TANK); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TRAFFIC_LIGHTS); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TRAIN); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TRDOORS); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_BIKE); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TRAM); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_WBUS); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_WCAR); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_EX); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TUMCAR); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_TUMTRUCK); PHYSFS_readULE16(fd, &spriteNumbers.GTA_SPRITE_FERRY); } void Graphics8Bit::loadSpriteNumbers() { PHYSFS_uint64 st = static_cast(_topHeaderSize) + sideSize + lidSize + auxSize + auxBlockTrailSize + animSize + paletteSize + remapSize + remapIndexSize + objectInfoSize + carInfoSize + spriteInfoSize + spriteGraphicsSize; loadSpriteNumbers_shared(st); } void GraphicsBase::loadTileTextures() { PHYSFS_seek(fd, static_cast(_topHeaderSize)); PHYSFS_uint64 ts = sideSize+lidSize+auxSize; rawTiles = new unsigned char[ts]; int r = PHYSFS_read(fd, static_cast(rawTiles), 1, ts); if ( PHYSFS_uint64(r) == ts ) return; else if ( r == -1) { INFO << "Could not read texture raw data" << std::endl; return; } else INFO << "This message should never be displayed! (" << std::endl; } void GraphicsBase::handleDeltas(const SpriteInfo & info, unsigned char* buffer, Uint32 delta) { const unsigned int b_offset = 256 * info.yoffset + info.xoffset; if (delta_is_a_set) { Util::Set delta_set(32, (unsigned char*)&delta); for (int i = 0; i < 20; ++i) { if (delta_set.get_item(i)) { assert(i < info.deltaCount); const DeltaInfo & di = info.delta[i]; applyDelta(info, buffer, b_offset, di); } } for (int i=20; i < 24; i++) { if (delta_set.get_item(i)) { const DeltaInfo & di = info.delta[i - 20 + 6]; applyDelta(info, buffer, b_offset, di, true); } } for (int i=24; i < 28; i++) { if (delta_set.get_item(i)) { const DeltaInfo & di = info.delta[i - 24 + 11]; applyDelta(info, buffer, b_offset, di, true); } } //assert(0); } else { // delta is only an index; one to big assert(delta <= info.deltaCount); const DeltaInfo & di = info.delta[delta - 1]; applyDelta(info, buffer, b_offset, di); } } unsigned char* Graphics8Bit::getSpriteBitmap(size_t id, int remap = -1, Uint32 delta = 0) { SpriteInfo *info = spriteInfos[id]; assert(info != NULL); //PHYSFS_uint32 offset = reinterpret_cast(info->ptr); //const PHYSFS_uint32 page = offset / 65536; const PHYSFS_uint32 y = info->yoffset; // (offset % 65536) / 256; const PHYSFS_uint32 x = info->xoffset; // (offset % 65536) % 256; const PHYSFS_uint32 page_size = 256 * 256; unsigned char * page_start = rawSprites + info->page * page_size;// + 256 * y + x; assert(page_start != NULL); BufferCache & bcache = BufferCacheHolder::Instance(); unsigned char * dest = bcache.requestBuffer(page_size); bcache.lockBuffer(dest); unsigned char * result = dest; assert(dest != NULL); memcpy(dest, page_start, page_size); if (delta > 0) { handleDeltas(*info, result, delta); /* assert(delta < info->deltaCount); DeltaInfo & di = info->delta[delta]; applyDelta(*info, result+256*y+x, di); */ } if (remap > -1) applyRemap(page_size, remap, result); unsigned char* bigbuf = bcache.requestBuffer(page_size * 4); masterRGB->apply(page_size, result, bigbuf, true); assert(page_size > PHYSFS_uint32(info->w * info->h * 4)); for (uint16_t i = 0; i < info->h; i++) { memcpy(result, bigbuf+(256*y+x)*4, info->w * 4); result += info->w * 4; bigbuf += 256 * 4; } return dest; } void GraphicsBase::applyDelta(const SpriteInfo & spriteInfo, unsigned char* buffer, Uint32 page_offset, const DeltaInfo & deltaInfo, bool mirror) { unsigned char* b = buffer + page_offset; unsigned char* delta = deltaInfo.ptr; PHYSFS_sint32 length_to_go = deltaInfo.size; if (mirror) { PHYSFS_uint32 doff = 0; while (length_to_go > 0) { PHYSFS_uint16* offset = (PHYSFS_uint16*) delta; doff += *offset; delta += 2; unsigned char this_length = *delta; ++delta; PHYSFS_uint32 noff = page_offset + doff; PHYSFS_uint32 _y = noff / 256 * 256; PHYSFS_uint32 _x = doff % 256; for (int i=0; i < this_length; i++) *(buffer + _y + spriteInfo.xoffset + spriteInfo.w - _x - i - 1) = *(delta+i); length_to_go -= (this_length + 3); doff += this_length; delta += this_length; } return; } while (length_to_go > 0) { PHYSFS_uint16* offset = (PHYSFS_uint16*) delta; b += *offset; delta += 2; unsigned char this_length = *delta; ++delta; memcpy(b, delta, this_length); b += this_length; delta += this_length; length_to_go -= (this_length + 3); } } void Graphics8Bit::applyRemap(unsigned int len, unsigned int which, unsigned char* buffer) { assert(buffer!=NULL); unsigned char* t = buffer; for (unsigned int i = 0; i < len; ++i) { *t = remapTables[which][*t]; //FIXME: is this the right order? Is this correct at all? t++; } } void GraphicsBase::prepareSideTexture(unsigned int idx, unsigned char* dst) { assert(dst!=NULL); ++idx; assert(rawTiles); unsigned char* rt = rawTiles + (idx / 4) * 4096 * 4 + (idx % 4) * 64; for (int i=0; i<64; i++) { memcpy(dst, rt, 64); dst += 64; rt += 64*4; } } unsigned char* Graphics8Bit::getSide(unsigned int idx, unsigned int palIdx, bool rgba = false) { prepareSideTexture(idx-1, reinterpret_cast(tileTmp)); unsigned char *res; if (rgba) { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGBA), true); res = reinterpret_cast(tileTmpRGBA); } else { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGB), false); res = reinterpret_cast(tileTmpRGB); } return res; } void GraphicsBase::prepareLidTexture(unsigned int idx, unsigned char* dst) { assert(dst!=NULL); unsigned char* rt = rawTiles; assert(rawTiles); idx += sideSize / 4096 + 1; // FIXME: assumes partition == block end rt += (idx / 4) * 4096 * 4 + (idx % 4) * 64; for (int i=0; i<64; i++) { memcpy(dst, rt, 64); dst += 64; rt += 64*4; } } unsigned char *Graphics8Bit::getLid(unsigned int idx, unsigned int palIdx, bool rgba = false) { prepareLidTexture(idx-1, reinterpret_cast(tileTmp)); if (palIdx > 0) applyRemap(4096, palIdx, reinterpret_cast(tileTmp)); unsigned char *res; if (rgba) { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGBA), true); res = reinterpret_cast(tileTmpRGBA); } else { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGB), false); res = reinterpret_cast(tileTmpRGB); } return res; } void GraphicsBase::prepareAuxTexture(unsigned int idx, unsigned char* dst) { assert(dst!=NULL); unsigned char* rt = rawTiles; assert(rawTiles); idx += (sideSize+lidSize)/4096 + 1; // FIXME: assumes partition == block end rt += (idx / 4) * 4096 * 4 + (idx % 4) * 64; for (int i=0; i<64; i++) { memcpy(dst, rt, 64); dst += 64; rt += 64*4; } } unsigned char* Graphics8Bit::getAux(unsigned int idx, unsigned int palIdx, bool rgba = false) { prepareAuxTexture(idx-1, reinterpret_cast(tileTmp)); unsigned char *res; if (rgba) { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGBA), true); res = reinterpret_cast(tileTmpRGBA); } else { masterRGB->apply(4096, reinterpret_cast(tileTmp), reinterpret_cast(tileTmpRGB), false); res = reinterpret_cast(tileTmpRGB); } return res; } unsigned char* GraphicsBase::getTmpBuffer(bool rgba = false) { if (rgba) return reinterpret_cast(tileTmpRGBA); return reinterpret_cast(tileTmpRGB); } /* RGBPalette */ Graphics8Bit::RGBPalette::RGBPalette() { } Graphics8Bit::RGBPalette::RGBPalette(const std::string& palette) { PHYSFS_file* fd = PHYSFS_openRead(palette.c_str()); if (fd == NULL) { std::string pal2(palette); transform(pal2.begin(), pal2.end(), pal2.begin(), tolower); fd = PHYSFS_openRead(pal2.c_str()); } if (!fd) { std::ostringstream o; o << palette << " with error: " << PHYSFS_getLastError(); throw E_FILENOTFOUND(o.str()); } loadFromFile(fd); } Graphics8Bit::RGBPalette::RGBPalette(PHYSFS_file* fd) { loadFromFile(fd); } int Graphics8Bit::RGBPalette::loadFromFile(PHYSFS_file* fd) { PHYSFS_read(fd, static_cast(&data), 1, 256*3); /* int max_sum = 0; for (int i = 1; i < 256; i+=3) { int sum = int(data[i]) + int(data[i+1]) + int(data[i+2]); if (sum > max_sum) max_sum = sum; }*/ return 0; } void Graphics8Bit::RGBPalette::apply(unsigned int len, const unsigned char* src, unsigned char* dst, bool rgba ) { for (unsigned int i = 0; i < len; i++) { *dst = data[*src * 3 ]; ++dst; *dst = data[*src * 3 + 1]; ++dst; *dst = data[*src * 3 + 2]; ++dst; if (rgba) { if (*src == 0) *dst = 0x00; else *dst = 0xff; ++dst; } ++src; } } }