//Segment one full file name into directory part and file name part.
//pDir and pFileName must be long enough to contain the result.
//If the full name's level is zero,that no subdirectory in the full name,
//the pDir[0] will contain the file system identifier to indicate this.
//If the full name only contain a directory,i.e,the last character of
//the full name is a slash character,then the pFileName[0] will be set to 0.
BOOL wGetPathName(WCHAR* pFullName,WCHAR* pDir,WCHAR* pFileName)
{
WCHAR DirName[MAX_FILE_NAME_LEN];
WCHAR FileName[13];
WCHAR tmp;
int i = 0;
int j = 0;
if((NULL == pFullName) || (NULL == pDir) || (NULL == pFileName)) //Invalid parameters.
{
return FALSE;
}
if(!wNameIsValid(pFullName)) //Not a valid file name.
{
return FALSE;
}
//strcpy((CHAR*)&DirName[0],(CHAR*)pFullName);
wstrcpy(DirName,pFullName);
i = wstrlen(pFullName);
i -= 1;
if(pFullName[i] == '\\') //The last character is a splitter,means only dir name present.
{
//DirName[i] = 0; //Eliminate the slash.
//strcpy((CHAR*)pDir,(CHAR*)&DirName[0]);
wstrcpy(pDir,&DirName[0]);
pFileName[0] = 0;
return TRUE;
}
j = 0;
while(pFullName[i] != '\\') //Get the file name part.
{
FileName[j ++] = pFullName[i --];
}
DirName[i + 1] = 0; //Keep the slash.
FileName[j] = 0;
//Now reverse the file name string.
for(i = 0;i < (j / 2);i ++)
{
tmp = FileName[i];
FileName[i] = FileName[j - i - 1];
FileName[j - i - 1] = tmp;
}
//strcpy((CHAR*)pDir,(CHAR*)&DirName[0]);
wstrcpy(pDir,&DirName[0]);
//strcpy((CHAR*)pFileName,(CHAR*)&FileName[0]);
wstrcpy(pFileName,&FileName[0]);
return TRUE;
}
EngineObjectReg::EngineObjectReg(const wchar* objName, CreateObjFn fn)
: CreateFn(fn), InstNum(0)
{
assert(objName && objName[0] && objName[1] );
unsigned int nameLen = wstrlen(objName);
ObjName = new wchar[nameLen+1];
if (objName[0] == _W('C') && isupper(objName[1]) )
wstrcpy(ObjName, &objName[1]); // remove beginning C from names like CTexture
else
wstrcpy(ObjName, objName);
Next = g_first_obj;
g_first_obj = this;
};
bool CClassManager::LoadNewLibrary(const wchar* szLibraryName)
{
if (!szLibraryName || !*szLibraryName) return false;
wchar BinPath[MAX_PATH];
bool bAbsolutePath = false;
for(unsigned int i = wstrlen(szLibraryName); i>0; i--)
{
if (szLibraryName[i]=='\\' || szLibraryName[i]=='/')
{
bAbsolutePath = true;
break;
}
}
if (bAbsolutePath)
{
// check extension and copy
if (wstrlen(szLibraryName)<5 || szLibraryName[wstrlen(szLibraryName)-5]!='.')
#if defined(WIN32)
wsprintf(BinPath, 259, _W("%s.wp3d"), szLibraryName);
#elif defined (LINUX)
wsprintf(BinPath, 259, _W("%s.lp3d"), szLibraryName);
#endif
else
wstrcpy(BinPath, szLibraryName); // copy abspath with extension
}
//------------------------------------------
FSFILE* CFS_Sqlite::Open(const wchar* szPath, const wchar* szMode){
wchar szPhPath[MAX_PATH];
// construct physical path
wstrcpy(szPhPath, I_GetBinaryPath());
wstrcat(szPhPath, _W("../data/"));
wstrcat(szPhPath, szPath);
//FILE* fp = wfopen(szPhPath, szMode);
// TODO: implement!
// don't forget to create if write mode and doesn't exist
// on error / not found return NULL
return NULL; // until implemented
FSFILE* ret = new FSFILE;
ret->bArchive = false;
ret->nOffset = ret->nRelOffset = 0;
//fseek(fp, 0, SEEK_END);
ret->nLen = 0; // TODO: implement!
//fseek(fp, 0, SEEK_SET);
//ret->pFileData = fp;
return ret;
}
//------------------------------------------
FSFILE* CFS_Stdio::Open(const wchar* szPath, const wchar* szMode){
wchar szPhPath[MAX_PATH];
// construct physical path
wstrcpy(szPhPath, I_GetBinaryPath());
wstrcat(szPhPath, _W("../data/"));
wstrcat(szPhPath, szPath);
FILE* fp = wfopen(szPhPath, szMode);
if (!fp)
{
// if we are opening for write mode, make sure path to file is created
if (szMode[0]=='w')
{
wchar szdir[MAX_PATH];
wstrcpy(szdir, szPhPath);
for (unsigned int i=0;i<wstrlen(szdir);i++)
if (szdir[i]=='/'||szdir[i]=='\\') {
szdir[i]=0;
#ifdef WIN32
CreateDirectory(szdir, NULL) ? 0 : 1;
#else
mkdir(szdir,777);
#endif
szdir[i]=szPhPath[i];
}
fp = wfopen(szPhPath, szMode); // try to open again
if (!fp) return NULL;
}
else
return NULL;
}
FSFILE* ret = new FSFILE;
ret->bArchive = false;
ret->nOffset = ret->nRelOffset = 0;
fseek(fp, 0, SEEK_END);
ret->nLen = ftell(fp);
fseek(fp, 0, SEEK_SET);
ret->pFileData = fp;
return ret;
}
static void printf_c(wchar_t chr, char **str)
{
if (chr <= 0x7F)
**str = chr;
else if (chr <= 0x7FF)
{
**str = (chr >> 6) + 0xC0;
**str = wstrcpy((chr & 0x3F) + 0x80, str);
}
//------------------------------------------
const wchar* CEngine::GetBuildString()
{
static wchar bs[256];
wchar platform[16];
#if defined(_WIN32)
# if defined(_WIN64)
wstrcpy(platform, _W("Win64") );
# else
wstrcpy(platform, _W("Win32") );
# endif
#elif LINUX
wstrcpy(platform, _W("Linux") );
#elif __MACOSX__
wstrcpy(platform, _W("Mac") );
#else
wstrcpy(platform, _W("Other platform") );
#endif
wsprintf( bs, 255, _W("%s (build %d, %s) <%s>"), _W(P3DNAME), GetBuildNum(), _W(__DATE__), platform );
return bs;
}
//Get the desired level subdirectory from a full name.
//pSubDir will contain the sub-directory name if successfully,so it must long
//enough to contain the result.
BOOL wGetSubDirectory(WCHAR* pFullName,DWORD dwLevel,WCHAR* pSubDir)
{
BOOL bResult = FALSE;
DWORD dwTotalLevel = 0;
DWORD i = 0;
DWORD j = 0;
WCHAR buffer[256]; //Contain sub-directory name temporary.
if((NULL == pFullName) || (NULL == pSubDir) || (0 == dwLevel)) //Level shoud not be zero.
{
return FALSE;
}
if(!wGetFullNameLevel(pFullName,&dwTotalLevel))
{
return FALSE;
}
if(dwLevel > dwTotalLevel) //Exceed the total level.
{
return FALSE;
}
dwTotalLevel = 0;
while(pFullName[i])
{
if(pFullName[i] == '\\') //Splitter encountered.
{
j = 0;
i ++; //Skip the slash.
while((pFullName[i] != '\\') && (pFullName[i]))
{
buffer[j] = pFullName[i];
i ++;
j ++;
}
buffer[j] = 0; //Set the terminator.
dwTotalLevel += 1;
if(dwLevel == dwTotalLevel) //Subdirectory found.
{
bResult = TRUE;
break;
}
i --; //If the slash is skiped,the next sub-directory maybe eliminated.
}
i ++;
}
if(bResult)
{
//strcpy((CHAR*)pSubDir,(CHAR*)&buffer[0]);
wstrcpy(pSubDir,&buffer[0]);
}
return bResult;
}
//------------------------------------------
bool CFS_Stdio::Exists(const wchar* file){
assert(file!=NULL && file[0]!=0);
wchar szPhPath[MAX_PATH];
// construct physical path
wstrcpy(szPhPath, file);
struct _stat mystat;
if (!wstat(szPhPath,&mystat))
return true;
else
return false;
}
//------------------------------------------
tArray<sFSSearchResult> CFS_Sqlite::GetContentOfCategory(const wchar *path)
{
// TODO: implement!
tArray<sFSSearchResult> ret;
// construct physical path
wchar szPhPath[MAX_PATH];
wsprintf(szPhPath, MAX_PATH-1, _W("%s../data/%s/*"), I_GetBinaryPath(), path );
#ifdef _WIN32
WIN32_FIND_DATA wfd;
ZeroMemory(&wfd, sizeof(wfd));
HANDLE hFind = FindFirstFile(szPhPath, &wfd);
if ( hFind == INVALID_HANDLE_VALUE )
return ret;
do
{
if (!*wfd.cFileName || wfd.cFileName[0]==_W('.')) continue;
sFSSearchResult sr;
if (wfd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
sr.Type = FSI_DIR;
else
sr.Type = FSI_FILE;
assert( wstrlen(wfd.cFileName)<64 );
wstrcpy(sr.Name, wfd.cFileName);
ret.AddEx(sr);
} while ( FindNextFile(hFind, &wfd) );
FindClose(hFind);
#else
// TODO:!!
#error todo
#endif
return ret;
}
BOOL cursor_window_get_string_16(CursorWindow* thiz,INT32 row,INT32 col, WCHAR** value)
{
CursorWindowFieldSlot* field = NULL;
CursorWindowRowChunk* chunk=NULL;
INT32 row_in_chunk=0;
return_val_if_fail(thiz , FALSE);
return_val_if_fail(_cursor_window_locate_field(thiz,row,col,&row_in_chunk,&chunk,&field),FALSE);
return_val_if_fail(field->type==FIELD_TYPE_STRING_16||field->type==FIELD_TYPE_NULL,FALSE);
if (field->data.buffer.size==0 || field->data.buffer.buf==NULL)
{
*value = NULL;
return TRUE;
}
*value = TG_CALLOC_V2(field->data.buffer.size);
return_val_if_fail(*value , FALSE);
wstrcpy(*value,(const WCHAR*)field->data.buffer.buf);
return TRUE;
}
IMAGELIB_ERROR_CODE imagelib_start_decode_by_file(const WCHAR* _pathname,IMAGELIB_SESSION** _session)
{
IMAGE_INSTANCE *instance = NULL;
IMAGELIB_SESSION* session =NULL;
IMAGELIB_ERROR_CODE error_code;
char utf_pathname[UTA_MAX_PATHNAME_LEN*2+1];
if(_pathname == NULL)
return IMAGELIB_RAM_EXECPTION;
UnicodeToUtf8(utf_pathname,_pathname);
error_code =image_open_by_filename(utf_pathname, "rb",NULL,&instance);
if(error_code != IMAGELIB_SUCCESS)
{
*_session = NULL;
return error_code;
}
session = IMAGE_MALLOC(sizeof(IMAGELIB_SESSION));
if(session == NULL)
{
*_session = NULL;
return IMAGELIB_RAM_EXECPTION;
}
session->error_code = error_code;
session->pathname = IMAGE_MALLOC((wstrlen(_pathname)+1)*2);
if(session->pathname== NULL)
{
*_session = NULL;
IMAGE_FREE(session);
return IMAGELIB_RAM_EXECPTION;
}
session->decode_sem = NULL;
wstrcpy(session->pathname,_pathname);
session->instance_p = (IMAGELIB_INSTANCE_P)instance;
session->state= IMAGELIB_OPENED;
*_session=session;
session->decode_sem = create_sem(1);
return IMAGELIB_SUCCESS;
}
int main(int argc, char** argv)
{
int result = 0;
RapiConnection* connection = NULL;
HRESULT hr;
char *shortcut, *target;
WCHAR* wide_shortcut = NULL;
WCHAR* wide_target = NULL;
WCHAR *tmp, *tmp_quote;
int tmpsize;
if (!handle_parameters(argc, argv, &shortcut, &target))
goto exit;
if ((connection = rapi_connection_from_path(devpath)) == NULL)
{
fprintf(stderr, "%s: Could not find configuration at path '%s'\n",
argv[0],
devpath?devpath:"(Default)");
goto exit;
}
rapi_connection_select(connection);
hr = CeRapiInit();
if (FAILED(hr))
{
fprintf(stderr, "%s: Unable to initialize RAPI: %s\n",
argv[0],
synce_strerror(hr));
result = 1;
goto exit;
}
convert_to_backward_slashes(shortcut);
wide_shortcut = wstr_from_current(shortcut);
wide_shortcut = adjust_remote_path(wide_shortcut, true);
convert_to_backward_slashes(target);
wide_target = wstr_from_current(target);
wide_target = adjust_remote_path(wide_target, true);
/* Wrap target in quotes. This is required for paths with spaces (for some reason) */
tmp_quote = wstr_from_current("\"");
tmpsize = (wstrlen(wide_target) + 3) * sizeof(WCHAR);
tmp = malloc(tmpsize);
if (!tmp)
goto exit;
wstrcpy(tmp,tmp_quote);
if (!wstr_append(tmp,wide_target,tmpsize))
goto exit;
if (!wstr_append(tmp,tmp_quote,tmpsize))
goto exit;
wstr_free_string(wide_target);
wstr_free_string(tmp_quote);
wide_target = tmp;
BOOL res = CeSHCreateShortcut(wide_shortcut, wide_target);
if (!res)
{
fprintf(stderr, "%s: Unable to create shortcut to '%s' at '%s': %s\n",
argv[0],target,shortcut,
synce_strerror(hr));
result = 1;
goto exit;
}
exit:
wstr_free_string(wide_shortcut);
wstr_free_string(wide_target);
if (shortcut)
free(shortcut);
if (target)
free(target);
CeRapiUninit();
rapi_connection_destroy(connection);
return result;
}
int maincsm_onmessage(CSM_RAM* data, GBS_MSG* msg)
{
if (msg->msg == MSG_IPC)
{
IPC_REQ *ipc = (IPC_REQ*)msg->data0;
if (ipc)
{
if (strcmp(ipc->name_to, IPC_MY_NAME) == 0)
{
if (msg->submess != data->id)
{
LockSched();
CloseCSM(msg->submess);
SUBPROC((void*)CreateClipperGUI);
UnlockSched();
}
}
}
}
if (msg->msg == MSG_RECONFIGURE_REQ)
{
if (strcmp_nocase(successed_config_filename, (char *)msg->data0) == 0)
InitConfig();
}
if (total < cfg_max_history)
{
static WSHDR *clip;
if (not_reading)
{
clip = GetClipBoard();
not_reading = 0;
}
else
{
if (clip != GetClipBoard())
{
clip = GetClipBoard();
if (total)
{
CLIPBOARD_LIST *p = top;
while (1)
{
if (p->next) p = p->next;
else break;
}
p->next = malloc(sizeof(CLIPBOARD_LIST));
p = p->next;
last->next = p;
p->prev = last;
p->next = NULL;
p->ws = AllocWS(clip->wsbody[0] + 1);
wstrcpy(p->ws, clip);
last = p;
}
else
{
top = malloc(sizeof(CLIPBOARD_LIST));
top->prev = NULL;
top->next = NULL;
last = top;
top->ws = AllocWS(clip->wsbody[0] + 1);
wstrcpy(top->ws, clip);
}
total++;
}
}
}
return 1;
}
CClassManager::CClassManager()
{
wstrcpy(m_szBinPath, _W("./"));
m_nLastInitID=0;
}
void
GenerateSOL (BYTE control)
{
COUNT i;
DWORD rand_val;
PPLANET_DESC pCurDesc;
switch (control)
{
case INIT_NPCS:
init_probe ();
break;
case REINIT_NPCS:
if (GET_GAME_STATE (CHMMR_BOMB_STATE) != 3)
GenerateRandomIP (REINIT_NPCS);
else
{
GLOBAL (BattleGroupRef) = 0;
ReinitQueue (&GLOBAL (npc_built_ship_q));
}
break;
case GENERATE_ENERGY:
generate_energy_nodes ();
break;
case GENERATE_LIFE:
generate_tractors ();
break;
case GENERATE_ORBITAL:
generate_orbital ();
break;
case GENERATE_NAME:
i = pSolarSysState->pBaseDesc - pSolarSysState->PlanetDesc;
wstrcpy (GLOBAL_SIS (PlanetName), GAME_STRING (PLANET_NUMBER_BASE + i));
SET_GAME_STATE (BATTLE_PLANET,
pSolarSysState->PlanetDesc[i].data_index);
break;
case GENERATE_MOONS:
{
GenerateRandomIP (GENERATE_MOONS);
i = pSolarSysState->pBaseDesc - pSolarSysState->PlanetDesc;
switch (i)
{
case 2: /* moons of EARTH */
{
COUNT angle;
pSolarSysState->MoonDesc[0].data_index = (BYTE)~0;
pSolarSysState->MoonDesc[0].radius = MIN_MOON_RADIUS;
angle = HALF_CIRCLE + QUADRANT;
pSolarSysState->MoonDesc[0].location.x =
COSINE (angle, pSolarSysState->MoonDesc[0].radius);
pSolarSysState->MoonDesc[0].location.y =
SINE (angle, pSolarSysState->MoonDesc[0].radius);
pSolarSysState->MoonDesc[1].data_index = SELENIC_WORLD;
pSolarSysState->MoonDesc[1].radius = MIN_MOON_RADIUS
+ (MAX_MOONS - 1) * MOON_DELTA;
rand_val = Random ();
angle = NORMALIZE_ANGLE (LOWORD (rand_val));
pSolarSysState->MoonDesc[1].location.x =
COSINE (angle, pSolarSysState->MoonDesc[1].radius);
pSolarSysState->MoonDesc[1].location.y =
SINE (angle, pSolarSysState->MoonDesc[1].radius);
break;
}
case 4: /* moons of JUPITER */
pSolarSysState->MoonDesc[0].data_index = RADIOACTIVE_WORLD;
pSolarSysState->MoonDesc[1].data_index = HALIDE_WORLD;
pSolarSysState->MoonDesc[2].data_index = CYANIC_WORLD;
pSolarSysState->MoonDesc[3].data_index = PELLUCID_WORLD;
break;
case 5: /* moons of SATURN */
pSolarSysState->MoonDesc[0].data_index = ALKALI_WORLD;
break;
case 7: /* moons of NEPTUNE */
pSolarSysState->MoonDesc[0].data_index = VINYLOGOUS_WORLD;
break;
}
break;
}
case GENERATE_PLANETS:
{
#define SOL_SEED 334241042L
SeedRandom (SOL_SEED);
pSolarSysState->SunDesc[0].NumPlanets = 9;
for (i = 0, pCurDesc = pSolarSysState->PlanetDesc; i < 9; ++i, ++pCurDesc)
{
COUNT angle;
UWORD word_val;
pCurDesc->rand_seed = rand_val = Random ();
word_val = LOWORD (rand_val);
angle = NORMALIZE_ANGLE ((COUNT)HIBYTE (word_val));
switch (i)
{
case 0: /* MERCURY */
pCurDesc->data_index = METAL_WORLD;
pCurDesc->radius = EARTH_RADIUS * 39L / 100;
pCurDesc->NumPlanets = 0;
break;
case 1: /* VENUS */
pCurDesc->data_index = PRIMORDIAL_WORLD;
pCurDesc->radius = EARTH_RADIUS * 72L / 100;
pCurDesc->NumPlanets = 0;
angle = NORMALIZE_ANGLE (FULL_CIRCLE - angle);
break;
case 2: /* EARTH */
pCurDesc->data_index = WATER_WORLD | PLANET_SHIELDED;
pCurDesc->radius = EARTH_RADIUS;
pCurDesc->NumPlanets = 2;
break;
case 3: /* MARS */
pCurDesc->data_index = DUST_WORLD;
pCurDesc->radius = EARTH_RADIUS * 152L / 100;
pCurDesc->NumPlanets = 0;
break;
case 4: /* JUPITER */
pCurDesc->data_index = RED_GAS_GIANT;
pCurDesc->radius = EARTH_RADIUS * 500L /* 520L */ / 100;
pCurDesc->NumPlanets = 4;
break;
case 5: /* SATURN */
pCurDesc->data_index = ORA_GAS_GIANT;
pCurDesc->radius = EARTH_RADIUS * 750L /* 952L */ / 100;
pCurDesc->NumPlanets = 1;
break;
case 6: /* URANUS */
pCurDesc->data_index = GRN_GAS_GIANT;
pCurDesc->radius = EARTH_RADIUS * 1000L /* 1916L */ / 100;
pCurDesc->NumPlanets = 0;
break;
case 7: /* NEPTUNE */
pCurDesc->data_index = BLU_GAS_GIANT;
pCurDesc->radius = EARTH_RADIUS * 1250L /* 2999L */ / 100;
pCurDesc->NumPlanets = 1;
break;
case 8: /* PLUTO */
pCurDesc->data_index = PELLUCID_WORLD;
pCurDesc->radius = EARTH_RADIUS * 1550L /* 3937L */ / 100;
pCurDesc->NumPlanets = 0;
angle = FULL_CIRCLE - OCTANT;
break;
}
pCurDesc->location.x =
COSINE (angle, pCurDesc->radius);
pCurDesc->location.y =
SINE (angle, pCurDesc->radius);
}
break;
}
default:
GenerateRandomIP (control);
break;
}
}
//------------------------------------------
bool CEngine::Initialize(const wchar* settings/*="game.ini"*/, bool customWindow/*=false*/, sDisplayProperties *dp/*=NULL*/){
assertd(s_bInit==false, "DOUBLE ENGINE INITIALIZATION!");
s_bInit = true; //predict :-P
// initialize random generator
srand( (unsigned int)milisec() );
cInternalWindow()->BeginSplash();
// memory leaks detection
#if defined(_DEBUG) && defined(_MSC_VER) && _MSC_VER >= 800
_CrtSetDbgFlag ( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF );
//_CrtSetBreakAlloc(23296);
#endif
// ---------------------------------------------------
// QUEUE TESTS
CON(MSG_INFO, _W("------- Command Queue Test -------"));
CCommandQueue q;
DWORD tim;
for (int t=0; t<10; t++)
{
tim = GetTickCount();
// FILL IN QUEUE
for (int i=0; i<20000; i++)
{
sE2RCanvasDesc *cd;
q.Enqueue(NULL, CQI_ENGINE2RENDERER_CANVAS_CREATE, (void*&)cd, sizeof(sE2RCanvasDesc));
cd->handle = 0;
}
CON(MSG_INFO, _W("Iteration #%d: Enqueue %d ms"), t, GetTickCount()-tim );
// DEQUEUE
unsigned int cqi; const void* optr; IQueueCommandReceiver *recv;
tim = GetTickCount();
while (q.Dequeue(cqi, optr, recv))
{
switch(cqi)
{
case CQI_ENGINE2RENDERER_CANVAS_CREATE:
{
sE2RCanvasDesc *cd = (sE2RCanvasDesc *)optr;
}
break;
}
}
CON(MSG_INFO, _W("Iteration #%d: Dequeue %d ms"), t, GetTickCount()-tim );
}
CON(MSG_INFO, _W("----------------------------------"));
// ---------------------------------------------------
// --- WRITE INFO ABOUT LIBRARIES AND MODULES
I_DebugPrint( ConsoleMsg );
CON(MSG_INFO, _W("= %s %s build %d initialization ="), _W(P3DNAME), sizeof(void*)==8?_W("x64"):_W("x86"), GetBuildNum());
if (sizeof(wchar)>1)
CON(MSG_INFO, _W("Unicode support \x263A"));
else
CON(MSG_INFO, _W("Multibyte character set"));
// --- LOAD SETTINGS
m_szSettings = new wchar[wstrlen(settings)+1];
wstrcpy(m_szSettings, settings);
cConfig()->Load(m_szSettings);
//cConfig()->Save(m_szSettings);
// --- INITIALIZE SCRIPT SYSTEM
CON(MSG_INFO, _W("Script system initialization"));
cScriptEngine()->Initialize();
// --- LOAD KEY BINDINGS
cInputManager()->Assign(_W("GUI_CURSOR"), WE_MOUSE_MOTION, 0);
cInputManager()->Assign(_W("GUI_SELECT"), WE_MOUSE_DOWN, 0);
cInputManager()->Save(_W("keys.ini")); // TODO: FIXME: What about load? :D
// --- CREATE MAIN WINDOW
Vec2i mainWindowSize(800,600);
bool initFullscreen = false;
if (customWindow)
{
// use primary screen resolution for frame buffer
// TODO: multiplatform
#ifdef _WIN32
mainWindowSize.x = GetSystemMetrics(SM_CXSCREEN);
mainWindowSize.y = GetSystemMetrics(SM_CYSCREEN);
#endif
}
else
{
if (dp)
{
// use user-defined resolution
initFullscreen = dp->Fullscreen;
mainWindowSize.x = dp->HorRes;
mainWindowSize.y = dp->VertRes;
}
else
{
// use settings
initFullscreen = svFullscreen.GetBool();
mainWindowSize.x = svResolutionX.GetInt();
mainWindowSize.y = svResolutionY.GetInt();
}
}
cInternalWindow()->Create(mainWindowSize);
//Init the internal input system
cInternalInput()->Init( cInternalWindow()->GetHandle() );
//Init the Filesystem
cFilesystem()->Init();
// --- LOAD SELECTED MODULES
s_pRenderer = (IRenderer*)I_GetModule(_W("renderer"), svRenderer.GetString());
if (!s_pRenderer) CON(MSG_ERR_FATAL, _W("Cannot load renderer module. It is a core module, cannot continue!"));
s_pSound = (ISoundEngine*)I_GetModule(_W("sound"), svSound.GetString());
if (!s_pSound) CON(MSG_ERR_FATAL, _W("Cannot load sound module. It is a core module, cannot continue!"));
s_pPhys = (IPhysEngine*)I_GetModule(_W("physics"), svPhysics.GetString());
if (!s_pPhys) CON(MSG_ERR_FATAL, _W("Cannot load phys module. It is a core module, cannot continue!"));
s_pFS = (IFileSystem*)I_GetModule(_W("filesystem"), svFileSystem.GetString());
if (!s_pFS) CON(MSG_ERR_FATAL, _W("Cannot load filesystem module. It is a core module, cannot continue!"));
s_pGUI = (IGUI*)I_GetModule(_W("gui"), svGUI.GetString());
if (!s_pGUI) CON(MSG_ERR_FATAL, _W("Cannot load GUI module. It is a core module, cannot continue!"));
m_bModulesLoaded=true;
// ==== INITIALIZE MODULES ====
s_pRenderer->Initialize(this, &m_queueRenderer);
bool ret = s_pRenderer->iGraphicsDevice()->Initialize(mainWindowSize.x, mainWindowSize.y, initFullscreen, cInternalWindow()->GetHandle());
if (!ret)
{
CON(MSG_ERR_FATAL, _W("Failed to initialize graphics device!"));
}
// ===== SERIALIZATION DEBUG AND TEST =======
Scene scene;
//scene.Save(s_pFS, _W("scenes/test.robject"), iConsole());
//CModel model;
/*model = (Model*)cObjectManager()->CreateObject( _W("Model") );
MeshData md;
MeshSubset ms;
// Material m;
// ms.Material = m;
ms.NumTriangles = 1;
ms.StartIndex = 0;
//ms.StartVertex = 0;
md.Subsets.AddEx(ms);
md.Indices.AddEx(0);
md.Indices.AddEx(1);
md.Indices.AddEx(2);
md.NumIndices = 3;
MeshVertexData mvd;
mvd.Usage = _W("P3DVU_POSITION");
mvd.DataSize = 3;
mvd.Float3.AddEx(Vec3Param(0.0f, 0.0f, 0.0f));
mvd.Float3.AddEx(Vec3Param(0.0f, 1.0f, 0.0f));
mvd.Float3.AddEx(Vec3Param(1.0f, 1.0f , 0.0f));
md.DataStreams.AddEx(mvd);
md.NumVerts = 3;
model->LODs.AddEx(md);
model->Save(s_pFS, _W("triangle.robject"), iConsole());
model->PreCache();*/
// ===========================================
bool initOK=true;
initOK &= s_pSound->Initialize(this);
initOK &= s_pPhys->Initialize(this);
initOK &= s_pFS->Initialize(this);
initOK &= s_pGUI->Initialize(this);
if (!initOK)
CON(MSG_ERR_FATAL, _W("Failed to initialize some core module(s)! Cannot continue. For more details see console.htm."));
cSceneManager()->Create();
cConsole()->InitializeGUI(); // at this time, coz it uses GUI module and it must be initialized ;)
// FIXME: register engine to script, temporary here
/*using namespace luabind;
lua_State* L = cScriptEngine()->GetLVM();
module(L)
[
class_<CEngine>("Engine")
.scope
[
def("GetBuildNum", &CEngine::GetBuildNum )
]
];*/
// load bootstrap script
cScriptEngine()->LoadScript(_W("scripts/bootstrap.rscript"));
// DEBUG TESTING OF QUEUE TO RENDERER
sE2RCanvasDesc* canvas;
EnqueueMessage( MC_RENDERER, this, CQI_ENGINE2RENDERER_CANVAS_CREATE, (void*&)canvas, sizeof(sE2RCanvasDesc) );
canvas->handle = cInternalWindow()->GetHandle();
canvas->size = Vec2i(800,600);
canvas->windowed = !initFullscreen;
//Sleep(10000);
cInternalWindow()->EndSplash();
cInternalWindow()->SetVisible(true);
//Filesystem test
/*UINT oSize;
void *lData=0;
if(cFilesystem()->Load(_W("scripts.bootstrap"), &lData, oSize)==P3D_FILERESULT_OK)
cFilesystem()->FreeLoadedData(lData);
const char* testStr = "this is a test string";
cFilesystem()->Save(_W("scripts.fstest"), testStr, sizeof(char)*strlen(testStr));*/
return true;
}
