//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: XBox win32 replacements - Mocks trivial windows flow // //=============================================================================// #include "../pch_tier0.h" #include "xbox/xbox_win32stubs.h" #include "tier0/memdbgon.h" // On the 360, threads can run on any of 6 logical processors DWORD g_dwProcessAffinityMask = 0x3F; #define HWND_MAGIC 0x12345678 struct xWndClass_t { char* pClassName; WNDPROC wndProc; xWndClass_t* pNext; }; struct xWnd_t { xWndClass_t* pWndClass; int x; int y; int w; int h; long windowLongs[GWL_MAX]; int show; int nMagic; xWnd_t* pNext; }; static xWndClass_t* g_pWndClasses; static xWnd_t* g_pWnds; static HWND g_focusWindow; inline bool IsWndValid( HWND hWnd ) { if ( !hWnd || ((xWnd_t*)hWnd)->nMagic != HWND_MAGIC ) return false; return true; } int MessageBox(HWND hWnd, LPCTSTR lpText, LPCTSTR lpCaption, UINT uType) { XBX_Error( lpText ); Assert( 0 ); return (0); } LONG GetWindowLong(HWND hWnd, int nIndex) { LONG oldLong; if ( !IsWndValid( hWnd ) ) return 0; switch (nIndex) { case GWL_WNDPROC: case GWL_USERDATA: case GWL_STYLE: case GWL_EXSTYLE: oldLong = ((xWnd_t*)hWnd)->windowLongs[nIndex]; break; default: // not implemented Assert( 0 ); return 0; } return oldLong; } LONG_PTR GetWindowLongPtr(HWND hWnd, int nIndex) { UINT idx; switch ( nIndex ) { case GWLP_WNDPROC: idx = GWL_WNDPROC; break; case GWLP_USERDATA: idx = GWL_USERDATA; break; default: // not implemented Assert(0); return 0; } return GetWindowLong( hWnd, idx ); } LONG_PTR GetWindowLongPtrW(HWND hWnd, int nIndex) { AssertMsg( false, "GetWindowLongPtrW does not exist on Xbox 360." ); return GetWindowLongPtr( hWnd, nIndex ); } LONG SetWindowLong(HWND hWnd, int nIndex, LONG dwNewLong) { LONG oldLong; if ( !IsWndValid( hWnd ) ) return 0; switch ( nIndex ) { case GWL_WNDPROC: case GWL_USERDATA: case GWL_STYLE: oldLong = ((xWnd_t*)hWnd)->windowLongs[nIndex]; ((xWnd_t*)hWnd)->windowLongs[nIndex] = dwNewLong; break; default: // not implemented Assert( 0 ); return 0; } return oldLong; } LONG_PTR SetWindowLongPtr(HWND hWnd, int nIndex, LONG_PTR dwNewLong) { UINT idx; switch ( nIndex ) { case GWLP_WNDPROC: idx = GWL_WNDPROC; break; case GWLP_USERDATA: idx = GWL_USERDATA; break; default: // not implemented Assert( 0 ); return 0; } return SetWindowLong( hWnd, idx, dwNewLong ); } LONG_PTR SetWindowLongPtrW(HWND hWnd, int nIndex, LONG_PTR dwNewLong) { AssertMsg( false, "SetWindowLongPtrW does not exist on Xbox 360." ); return SetWindowLongPtr( hWnd, nIndex, dwNewLong ); } HWND CreateWindow(LPCTSTR lpClassName, LPCTSTR lpWindowName, DWORD dwStyle, int x, int y, int nWidth, int nHeight, HWND hWndParent, HMENU hMenu, HINSTANCE hInstance, LPVOID lpParam) { // find classname xWndClass_t* pWndClass = g_pWndClasses; while ( pWndClass ) { if ( !V_tier0_stricmp( lpClassName, pWndClass->pClassName ) ) break; pWndClass = pWndClass->pNext; } if ( !pWndClass ) { // no such class return (HWND)NULL; } // allocate and setup xWnd_t* pWnd = new xWnd_t; memset( pWnd, 0, sizeof(xWnd_t) ); pWnd->pWndClass = pWndClass; pWnd->windowLongs[GWL_WNDPROC] = (LONG)pWndClass->wndProc; pWnd->windowLongs[GWL_STYLE] = dwStyle; pWnd->x = x; pWnd->y = y; pWnd->w = nWidth; pWnd->h = nHeight; pWnd->nMagic = HWND_MAGIC; // link into list pWnd->pNext = g_pWnds; g_pWnds = pWnd; // force the focus g_focusWindow = (HWND)pWnd; // send the expected message sequence SendMessage( (HWND)pWnd, WM_CREATE, 0, 0 ); SendMessage( (HWND)pWnd, WM_ACTIVATEAPP, TRUE, 0 ); return (HWND)pWnd; } HWND CreateWindowEx(DWORD dwExStyle, LPCTSTR lpClassName, LPCTSTR lpWindowName, DWORD dwStyle, int x, int y, int nWidth, int nHeight, HWND hWndParent, HMENU hMenu, HINSTANCE hInstance, LPVOID lpParam) { return CreateWindow( lpClassName, lpWindowName, dwStyle, x, y, nWidth, nHeight, hWndParent, hMenu, hInstance, lpParam ); } BOOL DestroyWindow( HWND hWnd ) { if ( !IsWndValid( hWnd ) ) return FALSE; xWnd_t* pPrev = g_pWnds; xWnd_t* pCur = g_pWnds; while ( pCur ) { if ( pCur == (xWnd_t*)hWnd ) { if ( pPrev == g_pWnds ) { // at head of list, fixup g_pWnds = pCur->pNext; } else { // remove from chain pPrev->pNext = pCur->pNext; } pCur->nMagic = 0; delete pCur; break; } // advance through list pPrev = pCur; pCur = pCur->pNext; } return TRUE; } ATOM RegisterClassEx(CONST WNDCLASSEX *lpwcx) { // create xWndClass_t* pWndClass = new xWndClass_t; memset(pWndClass, 0, sizeof(xWndClass_t)); pWndClass->pClassName = new char[strlen(lpwcx->lpszClassName)+1]; strcpy(pWndClass->pClassName, lpwcx->lpszClassName); pWndClass->wndProc = lpwcx->lpfnWndProc; // insert into list pWndClass->pNext = g_pWndClasses; g_pWndClasses = pWndClass; return (ATOM)pWndClass; } ATOM RegisterClass(CONST WNDCLASS *lpwc) { // create xWndClass_t* pWndClass = new xWndClass_t; memset(pWndClass, 0, sizeof(xWndClass_t)); pWndClass->pClassName = new char[strlen(lpwc->lpszClassName)+1]; strcpy(pWndClass->pClassName, lpwc->lpszClassName); pWndClass->wndProc = lpwc->lpfnWndProc; // insert into list pWndClass->pNext = g_pWndClasses; g_pWndClasses = pWndClass; return (ATOM)pWndClass; } HWND GetFocus(VOID) { if ( !IsWndValid( g_focusWindow ) ) return NULL; return g_focusWindow; } HWND SetFocus( HWND hWnd ) { HWND hOldFocus = g_focusWindow; if ( IsWndValid( hWnd ) ) { g_focusWindow = hWnd; } return hOldFocus; } LRESULT CallWindowProc(WNDPROC lpPrevWndFunc, HWND hWnd, UINT Msg, WPARAM wParam, LPARAM lParam) { return (lpPrevWndFunc(hWnd, Msg, wParam, lParam)); } LRESULT CallWindowProcW(WNDPROC lpPrevWndFunc, HWND hWnd, UINT Msg, WPARAM wParam, LPARAM lParam) { AssertMsg( false, "CallWindowProcW does not exist on Xbox 360." ); return CallWindowProc( lpPrevWndFunc, hWnd, Msg, wParam, lParam ); } int GetSystemMetrics(int nIndex) { XVIDEO_MODE videoMode; XGetVideoMode( &videoMode ); // default to having the backbuffer the same as the mode resolution. int nFrameBufferWidth, nFrameBufferHeight; nFrameBufferWidth = videoMode.dwDisplayWidth; nFrameBufferHeight = videoMode.dwDisplayHeight; // override for cases where we need to have a different backbuffer either for memory reasons // or for dealing with anamorphic modes. if ( !videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 640 && videoMode.dwDisplayHeight == 576 ) { // PAL normal nFrameBufferWidth = 640; nFrameBufferHeight = 480; } else if ( videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 640 && videoMode.dwDisplayHeight == 576 ) { // PAL widescreen nFrameBufferWidth = 848; nFrameBufferHeight = 480; } else if ( videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 640 && videoMode.dwDisplayHeight == 480 ) { // anamorphic nFrameBufferWidth = 848; nFrameBufferHeight = 480; } else if ( videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 1024 && videoMode.dwDisplayHeight == 768 ) { // anamorphic nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } else if ( videoMode.dwDisplayWidth == 1280 && videoMode.dwDisplayHeight == 760 ) { nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } else if ( videoMode.dwDisplayWidth == 1280 && videoMode.dwDisplayHeight == 768 ) { nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } else if ( !videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 1280 && videoMode.dwDisplayHeight == 1024 ) { nFrameBufferWidth = 1024; nFrameBufferHeight = 768; } else if ( videoMode.fIsWideScreen && videoMode.dwDisplayWidth == 1280 && videoMode.dwDisplayHeight == 1024 ) { // anamorphic nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } else if ( videoMode.dwDisplayWidth == 1360 && videoMode.dwDisplayHeight == 768 ) { nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } else if ( videoMode.dwDisplayWidth == 1920 && videoMode.dwDisplayHeight == 1080 ) { nFrameBufferWidth = 1280; nFrameBufferHeight = 720; } switch ( nIndex ) { case SM_CXFIXEDFRAME: case SM_CYFIXEDFRAME: case SM_CYSIZE: return 0; case SM_CXSCREEN: return nFrameBufferWidth; case SM_CYSCREEN: return nFrameBufferHeight; } // not implemented Assert( 0 ); return 0; } BOOL ShowWindow(HWND hWnd, int nCmdShow) { if ( !IsWndValid( hWnd ) ) return FALSE; ((xWnd_t*)hWnd)->show = nCmdShow; if ((nCmdShow == SW_SHOWDEFAULT) || (nCmdShow == SW_SHOWNORMAL) || (nCmdShow == SW_SHOW)) g_focusWindow = hWnd; return TRUE; } LRESULT SendMessage(HWND hWnd, UINT Msg, WPARAM wParam, LPARAM lParam) { if ( !IsWndValid( hWnd ) ) return 0L; xWnd_t* pWnd = (xWnd_t*)hWnd; WNDPROC wndProc = (WNDPROC)pWnd->windowLongs[GWL_WNDPROC]; Assert( wndProc ); LRESULT result = wndProc(hWnd, Msg, wParam, lParam); return result; } LRESULT SendMessageTimeout( HWND hWnd, UINT Msg, WPARAM wParam, LPARAM lParam, UINT fuFlags, UINT uTimeout, PDWORD_PTR lpdwResult ) { *lpdwResult = SendMessage( hWnd, Msg, wParam, lParam ); return -1; } BOOL GetClientRect(HWND hWnd, LPRECT lpRect) { if ( !IsWndValid( hWnd ) ) return FALSE; xWnd_t* pWnd = (xWnd_t*)hWnd; lpRect->left = 0; lpRect->top = 0; lpRect->right = pWnd->w; lpRect->bottom = pWnd->h; return TRUE; } int GetDeviceCaps(HDC hdc, int nIndex) { switch (nIndex) { case HORZRES: return GetSystemMetrics( SM_CXSCREEN ); case VERTRES: return GetSystemMetrics( SM_CYSCREEN ); case VREFRESH: return 60; } Assert( 0 ); return 0; } BOOL SetWindowPos( HWND hWnd, HWND hWndInsertAfter, int x, int y, int cx, int cy, UINT uFlags ) { if ( !IsWndValid( hWnd ) ) return FALSE; xWnd_t* pWnd = (xWnd_t*)hWnd; if ( !( uFlags & SWP_NOMOVE ) ) { pWnd->x = x; pWnd->y = y; } if ( !( uFlags & SWP_NOSIZE ) ) { pWnd->w = cx; pWnd->h = cy; } return TRUE; } int XBX_unlink( const char* filename ) { bool bSuccess = DeleteFile( filename ) != 0; if ( !bSuccess && GetLastError() == ERROR_FILE_NOT_FOUND ) { // not a real error bSuccess = true; } // 0 = sucess, -1 = failure return bSuccess ? 0 : -1; } //----------------------------------------------------------------------------- // Purpose: Xbox low level replacement for _mkdir(). // Expects to be driven by a higher level path iterator. //----------------------------------------------------------------------------- int XBX_mkdir( const char *pszDir ) { bool bSuccess = CreateDirectory( pszDir, XBOX_DONTCARE ) != 0; if ( !bSuccess && GetLastError() == ERROR_ALREADY_EXISTS ) { // not a real error bSuccess = true; } // 0 = sucess, -1 = failure return ( bSuccess ? 0 : -1 ); } char *XBX_getcwd( char *buf, size_t size ) { if ( !buf ) { buf = (char*)malloc( 4 ); } strncpy( buf, "D:", size ); return buf; } int XBX_access( const char *path, int mode ) { if ( !path ) { return -1; } // get the fatx attributes DWORD dwAttr = GetFileAttributes( path ); if ( dwAttr == (DWORD)-1 ) { return -1; } if ( mode == 0 ) { // is file exist? return 0; } else if ( mode == 2 ) { // is file write only? return -1; } else if ( mode == 4 ) { // is file read only? if ( dwAttr & FILE_ATTRIBUTE_READONLY ) return 0; else return -1; } else if ( mode == 6 ) { // is file read and write? if ( !( dwAttr & FILE_ATTRIBUTE_READONLY ) ) return 0; else return -1; } return -1; } DWORD XBX_GetCurrentDirectory( DWORD nBufferLength, LPTSTR lpBuffer ) { XBX_getcwd( lpBuffer, nBufferLength ); return strlen( lpBuffer ); } DWORD XBX_GetModuleFileName( HMODULE hModule, LPTSTR lpFilename, DWORD nSize ) { int len; char *pStr; char *pEnd; char xexName[MAX_PATH]; if ( hModule == GetModuleHandle( NULL ) ) { // isolate xex of command line pStr = GetCommandLine(); if ( pStr ) { // cull possible quotes around xex if ( pStr[0] == '\"' ) { pStr++; pEnd = strchr( pStr, '\"' ); if ( !pEnd ) { // no ending matching quote return 0; } } else { // find possible first argument pEnd = strchr( lpFilename, ' ' ); if ( !pEnd ) { pEnd = pStr+strlen( pStr ); } } len = pEnd-pStr; memcpy( xexName, pStr, len ); xexName[len] = '\0'; len = _snprintf( lpFilename, nSize, "D:\\%s", xexName ); if ( len == -1 ) lpFilename[nSize-1] = '\0'; return strlen( lpFilename ); } } return 0; }