/************************************************************************ * Copyright (c) 2005-2006 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 "navdata.h" #include "log.h" #include "m_exceptions.h" /* see http://members.aol.com/form1/fixed.htm for fixed point floats: * int_var = (long) fixed_var >> 8; // for 8 bits after point */ namespace OpenGTA { Map::Map(const std::string& filename) { nav = 0; fd = PHYSFS_openRead(filename.c_str()); if (fd == NULL) { std::string f2(filename); transform(f2.begin(), f2.end(), f2.begin(), tolower); fd = PHYSFS_openRead(f2.c_str()); } if (!fd) { //throw std::string("FileNotFound: ") + filename; std::ostringstream o; o << filename << " with error: " << SDL_GetError(); throw E_FILENOTFOUND(o.str()); } loadHeader(); loadBase(); loadColumn(); loadBlock(); loadObjects(); loadRoutes(); loadLocations(); loadNavData(); //dump(); } Map::~Map() { if (column) delete [] column; if (block) delete [] block; if (objects) delete [] objects; if (nav) delete nav; LocationMap::iterator i = locations.begin(); while (i != locations.end()) { delete i->second; ++i; } locations.clear(); if (fd) PHYSFS_close(fd); } int Map::loadHeader() { PHYSFS_uint32 vc; PHYSFS_readULE32(fd, &vc); //INFO << "Map version code: " << vc << std::endl; PHYSFS_uint8 sn; PHYSFS_read(fd, static_cast(&styleNumber), 1, 1); //INFO << "Style number: " << int(styleNumber) << std::endl; PHYSFS_read(fd, static_cast(&sn), 1, 1); //INFO << "Sample number: " << int(sn) << std::endl; PHYSFS_uint16 reserved; PHYSFS_readULE16(fd, &reserved); PHYSFS_readULE32(fd, &routeSize); PHYSFS_readULE32(fd, &objectPosSize); PHYSFS_readULE32(fd, &columnSize); PHYSFS_readULE32(fd, &blockSize); PHYSFS_readULE32(fd, &navDataSize); /* INFO << "Route size: " << routeSize << std::endl; INFO << "Object size: " << objectPosSize << std::endl; INFO << "Column size: " << columnSize << std::endl; INFO << "Block size: " << blockSize << " (" << blockSize / sizeof(BlockInfo) << " blocks " << blockSize % sizeof(BlockInfo) << " overcount)" << std::endl; INFO << "Navdata size: " << navDataSize << std::endl; */ column = new PHYSFS_uint16[columnSize/2]; block = new BlockInfo[blockSize / sizeof(BlockInfo) ]; objects = new ObjectPosition[objectPosSize / sizeof(ObjectPosition)]; return 0; } int Map::loadBase() { PHYSFS_seek(fd, static_cast(_topHeaderSize)); for (int y = 0; y < GTA_MAP_MAXDIMENSION; y++) { for(int x = 0; x < GTA_MAP_MAXDIMENSION; x++) { PHYSFS_readULE32(fd, &base[x][y]); //std::cout << x << "," << y << " : " << base[x][y] << std::endl; } } return 0; } int Map::loadColumn() { if (!PHYSFS_seek(fd, _baseSize + _topHeaderSize)) { //throw std::string("IO Error while seeking in mapfile"); throw E_IOERROR(PHYSFS_getLastError()); } //PHYSFS_uint16 v; for (unsigned int i = 0; i < columnSize/2; i++) { PHYSFS_readULE16(fd, &column[i]); //std::cout << i << ": " << v << std::endl; } return 0; } int Map::loadBlock() { PHYSFS_seek(fd, _baseSize + columnSize + _topHeaderSize); int i, max; max = blockSize / sizeof(BlockInfo); //uint8_t tmp; for (i = 0; i < max; i++) { PHYSFS_readULE16(fd, &block[i].typeMap); PHYSFS_read(fd, static_cast(&block[i].typeMapExt), 1, 1); PHYSFS_read(fd, static_cast(&block[i].left), 1, 1); PHYSFS_read(fd, static_cast(&block[i].right), 1, 1); PHYSFS_read(fd, static_cast(&block[i].top), 1, 1); PHYSFS_read(fd, static_cast(&block[i].bottom), 1, 1); PHYSFS_read(fd, static_cast(&block[i].lid), 1, 1); //block[i].animMode = 0; } return 0; } void Map::loadObjects() { PHYSFS_seek(fd, _baseSize + columnSize + _topHeaderSize + blockSize); int c = objectPosSize / sizeof(ObjectPosition); numObjects = c; assert(objectPosSize % sizeof(ObjectPosition) == 0); for (int i=0; i < c; i++) { PHYSFS_readULE16(fd, &objects[i].x); PHYSFS_readULE16(fd, &objects[i].y); PHYSFS_readULE16(fd, &objects[i].z); PHYSFS_read(fd, static_cast(&objects[i].type), 1, 1); PHYSFS_read(fd, static_cast(&objects[i].remap), 1, 1); PHYSFS_readULE16(fd, &objects[i].rotation); PHYSFS_readULE16(fd, &objects[i].pitch); PHYSFS_readULE16(fd, &objects[i].roll); // shift every coord? or just if any > 255 /* objects[i].x = objects[i].x >> 6; objects[i].y = objects[i].y >> 6; objects[i].z = objects[i].z >> 6;*/ /* std::cout << objects[i].x << "," << objects[i].y << "," << objects[i].z << " " << int(objects[i].type) << " remap " << int(objects[i].remap) << " rot " << objects[i].rotation << " " << objects[i].pitch << " " << objects[i].roll << std::endl; */ } } void Map::loadRoutes() { //FIXME: missing PHYSFS_uint32 _si = _baseSize + columnSize + _topHeaderSize + objectPosSize + blockSize; PHYSFS_seek(fd, _si); PHYSFS_uint32 _counted = 0; while (_counted < routeSize) { PHYSFS_uint8 num_vertices = 0; PHYSFS_uint8 route_type = 0; PHYSFS_read(fd, static_cast(&num_vertices), 1, 1); PHYSFS_read(fd, static_cast(&route_type), 1, 1); //INFO << "route-t " << int(route_type) << " with " << int(num_vertices) << " vertices" << std::endl; PHYSFS_uint8 x, y, z; for (int i=0; i < num_vertices; i++) { PHYSFS_read(fd, static_cast(&x), 1, 1); PHYSFS_read(fd, static_cast(&y), 1, 1); PHYSFS_read(fd, static_cast(&z), 1, 1); //INFO << int(x) << "," << int(y) << "," << int(z) << std::endl; _counted += 3; } _counted += 2; } } Map::Location::Location() : x(0), y(0), z(0) {} Map::Location::Location(const Map::Location & other) : x(other.x), y(other.y), z(other.z) {} void Map::loadLocations() { //FIXME: missing PHYSFS_uint32 _si = _baseSize + columnSize + _topHeaderSize + objectPosSize + routeSize + blockSize; PHYSFS_seek(fd, _si); // police // hospital // unused // unused // fire // unused Location loc; PHYSFS_uint8 loc_type = 0; for (int i = 0; i < 36; ++i) { PHYSFS_read(fd, static_cast(&loc.x), 1, 1); PHYSFS_read(fd, static_cast(&loc.y), 1, 1); PHYSFS_read(fd, static_cast(&loc.z), 1, 1); if ((loc.x == 0) && (loc.y == 0) && (loc.z == 0)) continue; if (i < 6) loc_type = 0; else if ((i >= 6) && (i < 12)) loc_type = 1; else if ((i >= 24) && (i < 30)) loc_type = 2; else continue; //std::cout << int(loc_type) <<": " << int(loc.x) << ", " << int(loc.y) << ", " << int(loc.z) << std::endl; locations.insert(std::pair(loc_type, new Location(loc))); } } void Map::loadNavData() { PHYSFS_uint32 _si = _baseSize + columnSize + _topHeaderSize + objectPosSize + routeSize + 3 * 6 * 6 + blockSize; PHYSFS_seek(fd, _si); nav = new NavData(navDataSize, fd); assert(nav); } PHYSFS_uint16 Map::getNumBlocksAt(PHYSFS_uint8 x, PHYSFS_uint8 y) { return column[base[x][y] / 2]; } PHYSFS_uint16 Map::getNumBlocksAtNew(PHYSFS_uint8 x, PHYSFS_uint8 y) { return 6 - column[base[x][y] / 2]; } Map::BlockInfo* Map::getBlockAt(PHYSFS_uint8 x, PHYSFS_uint8 y, PHYSFS_uint8 z) { PHYSFS_uint16 v = column[base[x][y] / 2 + z]; return &block[v]; } Map::BlockInfo* Map::getBlockAtNew(PHYSFS_uint8 x, PHYSFS_uint8 y, PHYSFS_uint8 z) { PHYSFS_uint16 idx0 = 6 - column[base[x][y] / 2]; if (idx0 > z) idx0 -= z; else assert(idx0 > z); idx0 = column[base[x][y] / 2 + idx0]; return &block[idx0]; } PHYSFS_uint16 Map::getInternalIdAt(PHYSFS_uint8 x, PHYSFS_uint8 y, PHYSFS_uint8 z) { return column[base[x][y] / 2 + z]; } Map::BlockInfo* Map::getBlockByInternalId(PHYSFS_uint16 id) { return &block[id]; } void Map::dump() { for (int y = 0; y < GTA_MAP_MAXDIMENSION; y++) { for(int x = 0; x < GTA_MAP_MAXDIMENSION; x++) { std::cout << x << "," << y << ":" << column[base[x][y] / 2] << "||"; PHYSFS_uint16 ts = column[base[x][y] / 2]; std::cout << "("; for(int t=1; t <= (6 - ts); t++) { BlockInfo *info = &block[column[base[x][y] / 2 + t]]; std::cout << int(info->slopeType()) << ", "; } std::cout << ")" << std::endl; } } } } #if 0 #include void do_exit() { PHYSFS_deinit(); } int main(int argc, char* argv[]) { PHYSFS_init(argv[0]); atexit(do_exit); std::cout << "Physfs-Base: " << PHYSFS_getBaseDir() << std::endl; PHYSFS_addToSearchPath(PHYSFS_getBaseDir(), 1); std::cout << "Has: " << argv[1] << " : " << PHYSFS_exists(argv[1]) << std::endl; OpenGTA::Map a(argv[1]); a.dump(); return 0; } #endif