/** * @file llwindowwin32.cpp * @brief Platform-dependent implementation of llwindow * * $LicenseInfo:firstyear=2001&license=viewergpl$ * * Copyright (c) 2001-2008, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #if LL_WINDOWS && !LL_MESA_HEADLESS #include "llwindowwin32.h" #include #include #include #include // for _spawn #include #include // Require DirectInput version 8 #define DIRECTINPUT_VERSION 0x0800 #include #include "llkeyboardwin32.h" #include "llerror.h" #include "llgl.h" #include "llstring.h" #include "lldir.h" #include "llglheaders.h" #include "indra_constants.h" #include "llpreeditor.h" // culled from winuser.h #ifndef WM_MOUSEWHEEL /* Added to be compatible with later SDK's */ const S32 WM_MOUSEWHEEL = 0x020A; #endif #ifndef WHEEL_DELTA /* Added to be compatible with later SDK's */ const S32 WHEEL_DELTA = 120; /* Value for rolling one detent */ #endif const S32 MAX_MESSAGE_PER_UPDATE = 20; const S32 BITS_PER_PIXEL = 32; const S32 MAX_NUM_RESOLUTIONS = 32; const F32 ICON_FLASH_TIME = 0.5f; extern BOOL gDebugWindowProc; LPWSTR gIconResource = IDI_APPLICATION; LLW32MsgCallback gAsyncMsgCallback = NULL; // // LLWindowWin32 // void show_window_creation_error(const char* title) { llwarns << title << llendl; } //static BOOL LLWindowWin32::sIsClassRegistered = FALSE; BOOL LLWindowWin32::sLanguageTextInputAllowed = TRUE; BOOL LLWindowWin32::sWinIMEOpened = FALSE; HKL LLWindowWin32::sWinInputLocale = 0; DWORD LLWindowWin32::sWinIMEConversionMode = IME_CMODE_NATIVE; DWORD LLWindowWin32::sWinIMESentenceMode = IME_SMODE_AUTOMATIC; LLCoordWindow LLWindowWin32::sWinIMEWindowPosition(-1,-1); // The following class LLWinImm delegates Windows IMM APIs. // We need this because some language versions of Windows, // e.g., US version of Windows XP, doesn't install IMM32.DLL // as a default, and we can't link against imm32.lib statically. // I believe DLL loading of this type is best suited to do // in a static initialization of a class. What I'm not sure is // whether it follows the Linden Conding Standard... // See http://wiki.secondlife.com/wiki/Coding_standards#Static_Members class LLWinImm { public: static bool isAvailable() { return sTheInstance.mHImmDll != NULL; } public: // Wrappers for IMM API. static BOOL isIME(HKL hkl); static HWND getDefaultIMEWnd(HWND hwnd); static HIMC getContext(HWND hwnd); static BOOL releaseContext(HWND hwnd, HIMC himc); static BOOL getOpenStatus(HIMC himc); static BOOL setOpenStatus(HIMC himc, BOOL status); static BOOL getConversionStatus(HIMC himc, LPDWORD conversion, LPDWORD sentence); static BOOL setConversionStatus(HIMC himc, DWORD conversion, DWORD sentence); static BOOL getCompositionWindow(HIMC himc, LPCOMPOSITIONFORM form); static BOOL setCompositionWindow(HIMC himc, LPCOMPOSITIONFORM form); static LONG getCompositionString(HIMC himc, DWORD index, LPVOID data, DWORD length); static BOOL setCompositionString(HIMC himc, DWORD index, LPVOID pComp, DWORD compLength, LPVOID pRead, DWORD readLength); static BOOL setCompositionFont(HIMC himc, LPLOGFONTW logfont); static BOOL setCandidateWindow(HIMC himc, LPCANDIDATEFORM candidate_form); static BOOL notifyIME(HIMC himc, DWORD action, DWORD index, DWORD value); private: LLWinImm(); ~LLWinImm(); private: // Pointers to IMM API. BOOL (WINAPI *mImmIsIME)(HKL); HWND (WINAPI *mImmGetDefaultIMEWnd)(HWND); HIMC (WINAPI *mImmGetContext)(HWND); BOOL (WINAPI *mImmReleaseContext)(HWND, HIMC); BOOL (WINAPI *mImmGetOpenStatus)(HIMC); BOOL (WINAPI *mImmSetOpenStatus)(HIMC, BOOL); BOOL (WINAPI *mImmGetConversionStatus)(HIMC, LPDWORD, LPDWORD); BOOL (WINAPI *mImmSetConversionStatus)(HIMC, DWORD, DWORD); BOOL (WINAPI *mImmGetCompostitionWindow)(HIMC, LPCOMPOSITIONFORM); BOOL (WINAPI *mImmSetCompostitionWindow)(HIMC, LPCOMPOSITIONFORM); LONG (WINAPI *mImmGetCompositionString)(HIMC, DWORD, LPVOID, DWORD); BOOL (WINAPI *mImmSetCompositionString)(HIMC, DWORD, LPVOID, DWORD, LPVOID, DWORD); BOOL (WINAPI *mImmSetCompositionFont)(HIMC, LPLOGFONTW); BOOL (WINAPI *mImmSetCandidateWindow)(HIMC, LPCANDIDATEFORM); BOOL (WINAPI *mImmNotifyIME)(HIMC, DWORD, DWORD, DWORD); private: HMODULE mHImmDll; static LLWinImm sTheInstance; }; LLWinImm LLWinImm::sTheInstance; LLWinImm::LLWinImm() : mHImmDll(NULL) { // Check system metrics if ( !GetSystemMetrics( SM_DBCSENABLED ) ) return; mHImmDll = LoadLibraryA("Imm32"); if (mHImmDll != NULL) { mImmIsIME = (BOOL (WINAPI *)(HKL)) GetProcAddress(mHImmDll, "ImmIsIME"); mImmGetDefaultIMEWnd = (HWND (WINAPI *)(HWND)) GetProcAddress(mHImmDll, "ImmGetDefaultIMEWnd"); mImmGetContext = (HIMC (WINAPI *)(HWND)) GetProcAddress(mHImmDll, "ImmGetContext"); mImmReleaseContext = (BOOL (WINAPI *)(HWND, HIMC)) GetProcAddress(mHImmDll, "ImmReleaseContext"); mImmGetOpenStatus = (BOOL (WINAPI *)(HIMC)) GetProcAddress(mHImmDll, "ImmGetOpenStatus"); mImmSetOpenStatus = (BOOL (WINAPI *)(HIMC, BOOL)) GetProcAddress(mHImmDll, "ImmSetOpenStatus"); mImmGetConversionStatus = (BOOL (WINAPI *)(HIMC, LPDWORD, LPDWORD)) GetProcAddress(mHImmDll, "ImmGetConversionStatus"); mImmSetConversionStatus = (BOOL (WINAPI *)(HIMC, DWORD, DWORD)) GetProcAddress(mHImmDll, "ImmSetConversionStatus"); mImmGetCompostitionWindow = (BOOL (WINAPI *)(HIMC, LPCOMPOSITIONFORM)) GetProcAddress(mHImmDll, "ImmGetCompositionWindow"); mImmSetCompostitionWindow = (BOOL (WINAPI *)(HIMC, LPCOMPOSITIONFORM)) GetProcAddress(mHImmDll, "ImmSetCompositionWindow"); mImmGetCompositionString= (LONG (WINAPI *)(HIMC, DWORD, LPVOID, DWORD)) GetProcAddress(mHImmDll, "ImmGetCompositionStringW"); mImmSetCompositionString= (BOOL (WINAPI *)(HIMC, DWORD, LPVOID, DWORD, LPVOID, DWORD)) GetProcAddress(mHImmDll, "ImmSetCompositionStringW"); mImmSetCompositionFont = (BOOL (WINAPI *)(HIMC, LPLOGFONTW)) GetProcAddress(mHImmDll, "ImmSetCompositionFontW"); mImmSetCandidateWindow = (BOOL (WINAPI *)(HIMC, LPCANDIDATEFORM)) GetProcAddress(mHImmDll, "ImmSetCandidateWindow"); mImmNotifyIME = (BOOL (WINAPI *)(HIMC, DWORD, DWORD, DWORD)) GetProcAddress(mHImmDll, "ImmNotifyIME"); if (mImmIsIME == NULL || mImmGetDefaultIMEWnd == NULL || mImmGetContext == NULL || mImmReleaseContext == NULL || mImmGetOpenStatus == NULL || mImmSetOpenStatus == NULL || mImmGetConversionStatus == NULL || mImmSetConversionStatus == NULL || mImmGetCompostitionWindow == NULL || mImmSetCompostitionWindow == NULL || mImmGetCompositionString == NULL || mImmSetCompositionString == NULL || mImmSetCompositionFont == NULL || mImmSetCandidateWindow == NULL || mImmNotifyIME == NULL) { // If any of the above API entires are not found, we can't use IMM API. // So, turn off the IMM support. We should log some warning message in // the case, since it is very unusual; these APIs are available from // the beginning, and all versions of IMM32.DLL should have them all. // Unfortunately, this code may be executed before initialization of // the logging channel (llwarns), and we can't do it here... Yes, this // is one of disadvantages to use static constraction to DLL loading. FreeLibrary(mHImmDll); mHImmDll = NULL; // If we unload the library, make sure all the function pointers are cleared mImmIsIME = NULL; mImmGetDefaultIMEWnd = NULL; mImmGetContext = NULL; mImmReleaseContext = NULL; mImmGetOpenStatus = NULL; mImmSetOpenStatus = NULL; mImmGetConversionStatus = NULL; mImmSetConversionStatus = NULL; mImmGetCompostitionWindow = NULL; mImmSetCompostitionWindow = NULL; mImmGetCompositionString = NULL; mImmSetCompositionString = NULL; mImmSetCompositionFont = NULL; mImmSetCandidateWindow = NULL; mImmNotifyIME = NULL; } } } // static BOOL LLWinImm::isIME(HKL hkl) { if ( sTheInstance.mImmIsIME ) return sTheInstance.mImmIsIME(hkl); return FALSE; } // static HIMC LLWinImm::getContext(HWND hwnd) { if ( sTheInstance.mImmGetContext ) return sTheInstance.mImmGetContext(hwnd); return 0; } //static BOOL LLWinImm::releaseContext(HWND hwnd, HIMC himc) { if ( sTheInstance.mImmIsIME ) return sTheInstance.mImmReleaseContext(hwnd, himc); return FALSE; } // static BOOL LLWinImm::getOpenStatus(HIMC himc) { if ( sTheInstance.mImmGetOpenStatus ) return sTheInstance.mImmGetOpenStatus(himc); return FALSE; } // static BOOL LLWinImm::setOpenStatus(HIMC himc, BOOL status) { if ( sTheInstance.mImmSetOpenStatus ) return sTheInstance.mImmSetOpenStatus(himc, status); return FALSE; } // static BOOL LLWinImm::getConversionStatus(HIMC himc, LPDWORD conversion, LPDWORD sentence) { if ( sTheInstance.mImmGetConversionStatus ) return sTheInstance.mImmGetConversionStatus(himc, conversion, sentence); return FALSE; } // static BOOL LLWinImm::setConversionStatus(HIMC himc, DWORD conversion, DWORD sentence) { if ( sTheInstance.mImmSetConversionStatus ) return sTheInstance.mImmSetConversionStatus(himc, conversion, sentence); return FALSE; } // static BOOL LLWinImm::getCompositionWindow(HIMC himc, LPCOMPOSITIONFORM form) { if ( sTheInstance.mImmGetCompostitionWindow ) return sTheInstance.mImmGetCompostitionWindow(himc, form); return FALSE; } // static BOOL LLWinImm::setCompositionWindow(HIMC himc, LPCOMPOSITIONFORM form) { if ( sTheInstance.mImmSetCompostitionWindow ) return sTheInstance.mImmSetCompostitionWindow(himc, form); return FALSE; } // static LONG LLWinImm::getCompositionString(HIMC himc, DWORD index, LPVOID data, DWORD length) { if ( sTheInstance.mImmGetCompositionString ) return sTheInstance.mImmGetCompositionString(himc, index, data, length); return FALSE; } // static BOOL LLWinImm::setCompositionString(HIMC himc, DWORD index, LPVOID pComp, DWORD compLength, LPVOID pRead, DWORD readLength) { if ( sTheInstance.mImmSetCompositionString ) return sTheInstance.mImmSetCompositionString(himc, index, pComp, compLength, pRead, readLength); return FALSE; } // static BOOL LLWinImm::setCompositionFont(HIMC himc, LPLOGFONTW pFont) { if ( sTheInstance.mImmSetCompositionFont ) return sTheInstance.mImmSetCompositionFont(himc, pFont); return FALSE; } // static BOOL LLWinImm::setCandidateWindow(HIMC himc, LPCANDIDATEFORM form) { if ( sTheInstance.mImmSetCandidateWindow ) return sTheInstance.mImmSetCandidateWindow(himc, form); return FALSE; } // static BOOL LLWinImm::notifyIME(HIMC himc, DWORD action, DWORD index, DWORD value) { if ( sTheInstance.mImmNotifyIME ) return sTheInstance.mImmNotifyIME(himc, action, index, value); return FALSE; } // ---------------------------------------------------------------------------------------- LLWinImm::~LLWinImm() { if (mHImmDll != NULL) { FreeLibrary(mHImmDll); mHImmDll = NULL; } } LPDIRECTINPUT8 g_pDI = NULL; LPDIRECTINPUTDEVICE8 g_pJoystick = NULL; BOOL CALLBACK EnumJoysticksCallback( const DIDEVICEINSTANCE* pdidInstance, VOID* pContext ); BOOL CALLBACK EnumObjectsCallback( const DIDEVICEOBJECTINSTANCE* pdidoi, VOID* pContext ); LLWindowWin32::LLWindowWin32(char *title, char *name, S32 x, S32 y, S32 width, S32 height, U32 flags, BOOL fullscreen, BOOL clearBg, BOOL disable_vsync, BOOL use_gl, BOOL ignore_pixel_depth) : LLWindow(fullscreen, flags) { S32 i = 0; mIconResource = gIconResource; mOverrideAspectRatio = 0.f; mNativeAspectRatio = 0.f; mMousePositionModified = FALSE; mInputProcessingPaused = FALSE; mPreeditor = NULL; // Initialize the keyboard gKeyboard = new LLKeyboardWin32(); // Initialize (boot strap) the Language text input management, // based on the system's (user's) default settings. allowLanguageTextInput(mPreeditor, FALSE); GLuint pixel_format; WNDCLASS wc; DWORD dw_ex_style; DWORD dw_style; RECT window_rect; // Set the window title if (!title) { mWindowTitle = new WCHAR[50]; wsprintf(mWindowTitle, L"OpenGL Window"); } else { mWindowTitle = new WCHAR[256]; // Assume title length < 255 chars. mbstowcs(mWindowTitle, title, 255); mWindowTitle[255] = 0; } // Set the window class name if (!name) { mWindowClassName = new WCHAR[50]; wsprintf(mWindowClassName, L"OpenGL Window"); } else { mWindowClassName = new WCHAR[256]; // Assume title length < 255 chars. mbstowcs(mWindowClassName, name, 255); mWindowClassName[255] = 0; } // We're not clipping yet SetRect( &mOldMouseClip, 0, 0, 0, 0 ); // Make an instance of our window then define the window class mhInstance = GetModuleHandle(NULL); mWndProc = NULL; mSwapMethod = SWAP_METHOD_EXCHANGE; // No WPARAM yet. mLastSizeWParam = 0; // Windows GDI rects don't include rightmost pixel window_rect.left = (long) 0; window_rect.right = (long) width; window_rect.top = (long) 0; window_rect.bottom = (long) height; // Grab screen size to sanitize the window S32 window_border_y = GetSystemMetrics(SM_CYBORDER); S32 virtual_screen_x = GetSystemMetrics(SM_XVIRTUALSCREEN); S32 virtual_screen_y = GetSystemMetrics(SM_YVIRTUALSCREEN); S32 virtual_screen_width = GetSystemMetrics(SM_CXVIRTUALSCREEN); S32 virtual_screen_height = GetSystemMetrics(SM_CYVIRTUALSCREEN); if (x < virtual_screen_x) x = virtual_screen_x; if (y < virtual_screen_y - window_border_y) y = virtual_screen_y - window_border_y; if (x + width > virtual_screen_x + virtual_screen_width) x = virtual_screen_x + virtual_screen_width - width; if (y + height > virtual_screen_y + virtual_screen_height) y = virtual_screen_y + virtual_screen_height - height; if (!sIsClassRegistered) { // Force redraw when resized and create a private device context // Makes double click messages. wc.style = CS_HREDRAW | CS_VREDRAW | CS_OWNDC | CS_DBLCLKS; // Set message handler function wc.lpfnWndProc = (WNDPROC) mainWindowProc; // unused wc.cbClsExtra = 0; wc.cbWndExtra = 0; wc.hInstance = mhInstance; wc.hIcon = LoadIcon(mhInstance, mIconResource); // We will set the cursor ourselves wc.hCursor = NULL; // background color is not used if (clearBg) { wc.hbrBackground = (HBRUSH) GetStockObject(WHITE_BRUSH); } else { wc.hbrBackground = (HBRUSH) NULL; } // we don't use windows menus wc.lpszMenuName = NULL; wc.lpszClassName = mWindowClassName; if (!RegisterClass(&wc)) { OSMessageBox("RegisterClass failed", "Error", OSMB_OK); return; } sIsClassRegistered = TRUE; } //----------------------------------------------------------------------- // Get the current refresh rate //----------------------------------------------------------------------- DEVMODE dev_mode; DWORD current_refresh; if (EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &dev_mode)) { current_refresh = dev_mode.dmDisplayFrequency; mNativeAspectRatio = ((F32)dev_mode.dmPelsWidth) / ((F32)dev_mode.dmPelsHeight); } else { current_refresh = 60; } //----------------------------------------------------------------------- // Drop resolution and go fullscreen // use a display mode with our desired size and depth, with a refresh // rate as close at possible to the users' default //----------------------------------------------------------------------- if (mFullscreen) { BOOL success = FALSE; DWORD closest_refresh = 0; for (S32 mode_num = 0;; mode_num++) { if (!EnumDisplaySettings(NULL, mode_num, &dev_mode)) { break; } if (dev_mode.dmPelsWidth == width && dev_mode.dmPelsHeight == height && dev_mode.dmBitsPerPel == BITS_PER_PIXEL) { success = TRUE; if ((dev_mode.dmDisplayFrequency - current_refresh) < (closest_refresh - current_refresh)) { closest_refresh = dev_mode.dmDisplayFrequency; } } } if (closest_refresh == 0) { llwarns << "Couldn't find display mode " << width << " by " << height << " at " << BITS_PER_PIXEL << " bits per pixel" << llendl; success = FALSE; } // If we found a good resolution, use it. if (success) { success = setDisplayResolution(width, height, BITS_PER_PIXEL, closest_refresh); } // Keep a copy of the actual current device mode in case we minimize // and change the screen resolution. JC EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &dev_mode); // If it failed, we don't want to run fullscreen if (success) { mFullscreen = TRUE; mFullscreenWidth = dev_mode.dmPelsWidth; mFullscreenHeight = dev_mode.dmPelsHeight; mFullscreenBits = dev_mode.dmBitsPerPel; mFullscreenRefresh = dev_mode.dmDisplayFrequency; llinfos << "Running at " << dev_mode.dmPelsWidth << "x" << dev_mode.dmPelsHeight << "x" << dev_mode.dmBitsPerPel << " @ " << dev_mode.dmDisplayFrequency << llendl; } else { mFullscreen = FALSE; mFullscreenWidth = -1; mFullscreenHeight = -1; mFullscreenBits = -1; mFullscreenRefresh = -1; char error[256]; /* Flawfinder: ignore */ snprintf(error, sizeof(error), "Unable to run fullscreen at %d x %d.\nRunning in window.", width, height); /* Flawfinder: ignore */ OSMessageBox(error, "Error", OSMB_OK); } } //----------------------------------------------------------------------- // Resize window to account for borders //----------------------------------------------------------------------- if (mFullscreen) { dw_ex_style = WS_EX_APPWINDOW; dw_style = WS_POPUP; // Move window borders out not to cover window contents AdjustWindowRectEx(&window_rect, dw_style, FALSE, dw_ex_style); } else { // Window with an edge dw_ex_style = WS_EX_APPWINDOW | WS_EX_WINDOWEDGE; dw_style = WS_OVERLAPPEDWINDOW; } //----------------------------------------------------------------------- // Create the window // Microsoft help indicates that GL windows must be created with // WS_CLIPSIBLINGS and WS_CLIPCHILDREN, but not CS_PARENTDC //----------------------------------------------------------------------- mWindowHandle = CreateWindowEx(dw_ex_style, mWindowClassName, mWindowTitle, WS_CLIPSIBLINGS | WS_CLIPCHILDREN | dw_style, x, // x pos y, // y pos window_rect.right - window_rect.left, // width window_rect.bottom - window_rect.top, // height NULL, NULL, mhInstance, NULL); if (!mWindowHandle) { OSMessageBox("Window creation error", "Error", OSMB_OK); return; } // TODO: add this after resolving _WIN32_WINNT issue // if (!fullscreen) // { // TRACKMOUSEEVENT track_mouse_event; // track_mouse_event.cbSize = sizeof( TRACKMOUSEEVENT ); // track_mouse_event.dwFlags = TME_LEAVE; // track_mouse_event.hwndTrack = mWindowHandle; // track_mouse_event.dwHoverTime = HOVER_DEFAULT; // TrackMouseEvent( &track_mouse_event ); // } S32 pfdflags = PFD_DRAW_TO_WINDOW | PFD_DOUBLEBUFFER; if (use_gl) { pfdflags |= PFD_SUPPORT_OPENGL; } //----------------------------------------------------------------------- // Create GL drawing context //----------------------------------------------------------------------- PIXELFORMATDESCRIPTOR pfd = { sizeof(PIXELFORMATDESCRIPTOR), 1, pfdflags, PFD_TYPE_RGBA, BITS_PER_PIXEL, 0, 0, 0, 0, 0, 0, // RGB bits and shift, unused 8, // alpha bits 0, // alpha shift 0, // accum bits 0, 0, 0, 0, // accum RGBA 24, // depth bits 8, // stencil bits, avi added for stencil test 0, PFD_MAIN_PLANE, 0, 0, 0, 0 }; if (!(mhDC = GetDC(mWindowHandle))) { close(); OSMessageBox("Can't make GL device context", "Error", OSMB_OK); return; } if (!(pixel_format = ChoosePixelFormat(mhDC, &pfd))) { close(); OSMessageBox("Can't find suitable pixel format", "Error", OSMB_OK); return; } // Verify what pixel format we actually received. if (!DescribePixelFormat(mhDC, pixel_format, sizeof(PIXELFORMATDESCRIPTOR), &pfd)) { close(); OSMessageBox("Can't get pixel format description", "Error", OSMB_OK); return; } // sanity check pfd returned by Windows if (!ignore_pixel_depth && (pfd.cColorBits < 32)) { close(); OSMessageBox( "Second Life requires True Color (32-bit) to run in a window.\n" "Please go to Control Panels -> Display -> Settings and\n" "set the screen to 32-bit color.\n" "Alternately, if you choose to run fullscreen, Second Life\n" "will automatically adjust the screen each time it runs.", "Error", OSMB_OK); return; } if (!ignore_pixel_depth && (pfd.cAlphaBits < 8)) { close(); OSMessageBox( "Second Life is unable to run because it can't get an 8 bit alpha\n" "channel. Usually this is due to video card driver issues.\n" "Please make sure you have the latest video card drivers installed.\n" "Also be sure your monitor is set to True Color (32-bit) in\n" "Control Panels -> Display -> Settings.\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return; } if (!SetPixelFormat(mhDC, pixel_format, &pfd)) { close(); OSMessageBox("Can't set pixel format", "Error", OSMB_OK); return; } if (use_gl) { if (!(mhRC = wglCreateContext(mhDC))) { close(); OSMessageBox("Can't create GL rendering context", "Error", OSMB_OK); return; } if (!wglMakeCurrent(mhDC, mhRC)) { close(); OSMessageBox("Can't activate GL rendering context", "Error", OSMB_OK); return; } gGLManager.initWGL(); if (gGLManager.mHasWGLARBPixelFormat && (wglChoosePixelFormatARB != NULL)) { // OK, at this point, use the ARB wglChoosePixelFormatsARB function to see if we // can get exactly what we want. GLint attrib_list[256]; S32 cur_attrib = 0; attrib_list[cur_attrib++] = WGL_DEPTH_BITS_ARB; attrib_list[cur_attrib++] = 24; attrib_list[cur_attrib++] = WGL_STENCIL_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_DRAW_TO_WINDOW_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_ACCELERATION_ARB; attrib_list[cur_attrib++] = WGL_FULL_ACCELERATION_ARB; attrib_list[cur_attrib++] = WGL_SUPPORT_OPENGL_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_DOUBLE_BUFFER_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_COLOR_BITS_ARB; attrib_list[cur_attrib++] = 32; attrib_list[cur_attrib++] = WGL_RED_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_GREEN_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_BLUE_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_ALPHA_BITS_ARB; attrib_list[cur_attrib++] = 8; // End the list attrib_list[cur_attrib++] = 0; GLint pixel_formats[256]; U32 num_formats = 0; // First we try and get a 32 bit depth pixel format BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 32-bit"); return; } if (!num_formats) { llinfos << "No 32 bit z-buffer, trying 24 bits instead" << llendl; // Try 24-bit format attrib_list[1] = 24; BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 24-bit"); return; } if (!num_formats) { llwarns << "Couldn't get 24 bit z-buffer,trying 16 bits instead!" << llendl; attrib_list[1] = 16; BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result || !num_formats) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 16-bit"); return; } } llinfos << "Choosing pixel formats: " << num_formats << " pixel formats returned" << llendl; pixel_format = pixel_formats[0]; } DestroyWindow(mWindowHandle); mWindowHandle = CreateWindowEx(dw_ex_style, mWindowClassName, mWindowTitle, WS_CLIPSIBLINGS | WS_CLIPCHILDREN | dw_style, x, // x pos y, // y pos window_rect.right - window_rect.left, // width window_rect.bottom - window_rect.top, // height NULL, NULL, mhInstance, NULL); if (!(mhDC = GetDC(mWindowHandle))) { close(); OSMessageBox("Can't make GL device context", "Error", OSMB_OK); return; } if (!SetPixelFormat(mhDC, pixel_format, &pfd)) { close(); OSMessageBox("Can't set pixel format", "Error", OSMB_OK); return; } int swap_method = 0; GLint swap_query = WGL_SWAP_METHOD_ARB; if (wglGetPixelFormatAttribivARB(mhDC, pixel_format, 0, 1, &swap_query, &swap_method)) { switch (swap_method) { case WGL_SWAP_EXCHANGE_ARB: mSwapMethod = SWAP_METHOD_EXCHANGE; llinfos << "Swap Method: Exchange" << llendl; break; case WGL_SWAP_COPY_ARB: mSwapMethod = SWAP_METHOD_COPY; llinfos << "Swap Method: Copy" << llendl; break; case WGL_SWAP_UNDEFINED_ARB: mSwapMethod = SWAP_METHOD_UNDEFINED; llinfos << "Swap Method: Undefined" << llendl; break; default: mSwapMethod = SWAP_METHOD_UNDEFINED; llinfos << "Swap Method: Unknown" << llendl; break; } } } else { llwarns << "No wgl_ARB_pixel_format extension, using default ChoosePixelFormat!" << llendl; } // Verify what pixel format we actually received. if (!DescribePixelFormat(mhDC, pixel_format, sizeof(PIXELFORMATDESCRIPTOR), &pfd)) { close(); OSMessageBox("Can't get pixel format description", "Error", OSMB_OK); return; } llinfos << "GL buffer: Color Bits " << S32(pfd.cColorBits) << " Alpha Bits " << S32(pfd.cAlphaBits) << " Depth Bits " << S32(pfd.cDepthBits) << llendl; if (pfd.cColorBits < 32) { close(); OSMessageBox( "Second Life requires True Color (32-bit) to run in a window.\n" "Please go to Control Panels -> Display -> Settings and\n" "set the screen to 32-bit color.\n" "Alternately, if you choose to run fullscreen, Second Life\n" "will automatically adjust the screen each time it runs.", "Error", OSMB_OK); return; } if (pfd.cAlphaBits < 8) { close(); OSMessageBox( "Second Life is unable to run because it can't get an 8 bit alpha\n" "channel. Usually this is due to video card driver issues.\n" "Please make sure you have the latest video card drivers installed.\n" "Also be sure your monitor is set to True Color (32-bit) in\n" "Control Panels -> Display -> Settings.\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return; } if (!(mhRC = wglCreateContext(mhDC))) { close(); OSMessageBox("Can't create GL rendering context", "Error", OSMB_OK); return; } if (!wglMakeCurrent(mhDC, mhRC)) { close(); OSMessageBox("Can't activate GL rendering context", "Error", OSMB_OK); return; } if (!gGLManager.initGL()) { close(); OSMessageBox( "Second Life is unable to run because your video card drivers\n" "are out of date or unsupported. Please make sure you have\n" "the latest video card drivers installed.\n\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return; } // Disable vertical sync for swap if (disable_vsync && wglSwapIntervalEXT) { llinfos << "Disabling vertical sync" << llendl; wglSwapIntervalEXT(0); } else { llinfos << "Keeping vertical sync" << llendl; } // OK, let's get the current gamma information and store it off. mCurrentGamma = 0.f; // Not set, default; if (!GetDeviceGammaRamp(mhDC, mPrevGammaRamp)) { llwarns << "Unable to get device gamma ramp" << llendl; } // Calculate what the current gamma is. From a posting by Garrett T. Bass, Get/SetDeviceGammaRamp Demystified // http://apollo.iwt.uni-bielefeld.de/~ml_robot/OpenGL-04-2000/0058.html // We're going to assume that gamma's the same for all 3 channels, because I don't feel like doing it otherwise. // Using the red channel. F32 Csum = 0.0; S32 Ccount = 0; for (i = 0; i < 256; i++) { if (i != 0 && mPrevGammaRamp[i] != 0 && mPrevGammaRamp[i] != 65536) { F64 B = (i % 256) / 256.0; F64 A = mPrevGammaRamp[i] / 65536.0; F32 C = (F32) ( log(A) / log(B) ); Csum += C; Ccount++; } } mCurrentGamma = Csum / Ccount; llinfos << "Previous gamma: " << mCurrentGamma << llendl; } //store this pointer for wndProc callback SetWindowLong(mWindowHandle, GWL_USERDATA, (U32)this); //start with arrow cursor initCursors(); setCursor( UI_CURSOR_ARROW ); // Initialize (boot strap) the Language text input management, // based on the system's (or user's) default settings. allowLanguageTextInput(NULL, FALSE); initInputDevices(); } void LLWindowWin32::initInputDevices() { // Direct Input HRESULT hr; if( FAILED( hr = DirectInput8Create( GetModuleHandle(NULL), DIRECTINPUT_VERSION, IID_IDirectInput8, (VOID**)&g_pDI, NULL ) ) ) { llwarns << "Direct8InputCreate failed!" << llendl; } else { while(1) { // Look for a simple joystick we can use for this sample program. if (FAILED( hr = g_pDI->EnumDevices( DI8DEVCLASS_GAMECTRL, EnumJoysticksCallback, NULL, DIEDFL_ATTACHEDONLY ) ) ) break; if (!g_pJoystick) break; if( FAILED( hr = g_pJoystick->SetDataFormat( &c_dfDIJoystick ) ) ) break; if( FAILED( hr = g_pJoystick->EnumObjects( EnumObjectsCallback, (VOID*)mWindowHandle, DIDFT_ALL ) ) ) break; g_pJoystick->Acquire(); break; } } SetTimer( mWindowHandle, 0, 1000 / 30, NULL ); // 30 fps timer } LLWindowWin32::~LLWindowWin32() { delete [] mWindowTitle; mWindowTitle = NULL; delete [] mSupportedResolutions; mSupportedResolutions = NULL; delete mWindowClassName; mWindowClassName = NULL; } void LLWindowWin32::show() { ShowWindow(mWindowHandle, SW_SHOW); SetForegroundWindow(mWindowHandle); SetFocus(mWindowHandle); } void LLWindowWin32::hide() { setMouseClipping(FALSE); ShowWindow(mWindowHandle, SW_HIDE); } void LLWindowWin32::minimize() { setMouseClipping(FALSE); showCursor(); ShowWindow(mWindowHandle, SW_MINIMIZE); } void LLWindowWin32::restore() { ShowWindow(mWindowHandle, SW_RESTORE); SetForegroundWindow(mWindowHandle); SetFocus(mWindowHandle); } // close() destroys all OS-specific code associated with a window. // Usually called from LLWindowManager::destroyWindow() void LLWindowWin32::close() { llinfos << "Closing LLWindowWin32" << llendl; // Is window is already closed? if (!mWindowHandle) { return; } // Make sure cursor is visible and we haven't mangled the clipping state. setMouseClipping(FALSE); showCursor(); // Go back to screen mode written in the registry. if (mFullscreen) { resetDisplayResolution(); } // Clean up remaining GL state llinfos << "Shutting down GL" << llendl; gGLManager.shutdownGL(); llinfos << "Releasing Context" << llendl; if (mhRC) { if (!wglMakeCurrent(NULL, NULL)) { llwarns << "Release of DC and RC failed" << llendl; } if (!wglDeleteContext(mhRC)) { llwarns << "Release of rendering context failed" << llendl; } mhRC = NULL; } // Restore gamma to the system values. restoreGamma(); if (mhDC && !ReleaseDC(mWindowHandle, mhDC)) { llwarns << "Release of ghDC failed" << llendl; mhDC = NULL; } llinfos << "Destroying Window" << llendl; // Don't process events in our mainWindowProc any longer. SetWindowLong(mWindowHandle, GWL_USERDATA, NULL); // Make sure we don't leave a blank toolbar button. ShowWindow(mWindowHandle, SW_HIDE); // This causes WM_DESTROY to be sent *immediately* if (!DestroyWindow(mWindowHandle)) { OSMessageBox("DestroyWindow(mWindowHandle) failed", "Shutdown Error", OSMB_OK); } mWindowHandle = NULL; } BOOL LLWindowWin32::isValid() { return (mWindowHandle != NULL); } BOOL LLWindowWin32::getVisible() { return (mWindowHandle && IsWindowVisible(mWindowHandle)); } BOOL LLWindowWin32::getMinimized() { return (mWindowHandle && IsIconic(mWindowHandle)); } BOOL LLWindowWin32::getMaximized() { return (mWindowHandle && IsZoomed(mWindowHandle)); } BOOL LLWindowWin32::maximize() { BOOL success = FALSE; if (!mWindowHandle) return success; WINDOWPLACEMENT placement; placement.length = sizeof(WINDOWPLACEMENT); success = GetWindowPlacement(mWindowHandle, &placement); if (!success) return success; placement.showCmd = SW_MAXIMIZE; success = SetWindowPlacement(mWindowHandle, &placement); return success; } BOOL LLWindowWin32::getFullscreen() { return mFullscreen; } BOOL LLWindowWin32::getPosition(LLCoordScreen *position) { RECT window_rect; if (!mWindowHandle || !GetWindowRect(mWindowHandle, &window_rect) || NULL == position) { return FALSE; } position->mX = window_rect.left; position->mY = window_rect.top; return TRUE; } BOOL LLWindowWin32::getSize(LLCoordScreen *size) { RECT window_rect; if (!mWindowHandle || !GetWindowRect(mWindowHandle, &window_rect) || NULL == size) { return FALSE; } size->mX = window_rect.right - window_rect.left; size->mY = window_rect.bottom - window_rect.top; return TRUE; } BOOL LLWindowWin32::getSize(LLCoordWindow *size) { RECT client_rect; if (!mWindowHandle || !GetClientRect(mWindowHandle, &client_rect) || NULL == size) { return FALSE; } size->mX = client_rect.right - client_rect.left; size->mY = client_rect.bottom - client_rect.top; return TRUE; } BOOL LLWindowWin32::setPosition(const LLCoordScreen position) { LLCoordScreen size; if (!mWindowHandle) { return FALSE; } getSize(&size); moveWindow(position, size); return TRUE; } BOOL LLWindowWin32::setSize(const LLCoordScreen size) { LLCoordScreen position; getPosition(&position); if (!mWindowHandle) { return FALSE; } moveWindow(position, size); return TRUE; } // changing fullscreen resolution BOOL LLWindowWin32::switchContext(BOOL fullscreen, LLCoordScreen size, BOOL disable_vsync) { GLuint pixel_format; DEVMODE dev_mode; DWORD current_refresh; DWORD dw_ex_style; DWORD dw_style; RECT window_rect; S32 width = size.mX; S32 height = size.mY; resetDisplayResolution(); if (EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &dev_mode)) { current_refresh = dev_mode.dmDisplayFrequency; } else { current_refresh = 60; } gGLManager.shutdownGL(); //destroy gl context if (mhRC) { if (!wglMakeCurrent(NULL, NULL)) { llwarns << "Release of DC and RC failed" << llendl; } if (!wglDeleteContext(mhRC)) { llwarns << "Release of rendering context failed" << llendl; } mhRC = NULL; } if (fullscreen) { mFullscreen = TRUE; BOOL success = FALSE; DWORD closest_refresh = 0; for (S32 mode_num = 0;; mode_num++) { if (!EnumDisplaySettings(NULL, mode_num, &dev_mode)) { break; } if (dev_mode.dmPelsWidth == width && dev_mode.dmPelsHeight == height && dev_mode.dmBitsPerPel == BITS_PER_PIXEL) { success = TRUE; if ((dev_mode.dmDisplayFrequency - current_refresh) < (closest_refresh - current_refresh)) { closest_refresh = dev_mode.dmDisplayFrequency; } } } if (closest_refresh == 0) { llwarns << "Couldn't find display mode " << width << " by " << height << " at " << BITS_PER_PIXEL << " bits per pixel" << llendl; return FALSE; } // If we found a good resolution, use it. if (success) { success = setDisplayResolution(width, height, BITS_PER_PIXEL, closest_refresh); } // Keep a copy of the actual current device mode in case we minimize // and change the screen resolution. JC EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &dev_mode); if (success) { mFullscreen = TRUE; mFullscreenWidth = dev_mode.dmPelsWidth; mFullscreenHeight = dev_mode.dmPelsHeight; mFullscreenBits = dev_mode.dmBitsPerPel; mFullscreenRefresh = dev_mode.dmDisplayFrequency; llinfos << "Running at " << dev_mode.dmPelsWidth << "x" << dev_mode.dmPelsHeight << "x" << dev_mode.dmBitsPerPel << " @ " << dev_mode.dmDisplayFrequency << llendl; window_rect.left = (long) 0; window_rect.right = (long) width; // Windows GDI rects don't include rightmost pixel window_rect.top = (long) 0; window_rect.bottom = (long) height; dw_ex_style = WS_EX_APPWINDOW; dw_style = WS_POPUP; // Move window borders out not to cover window contents AdjustWindowRectEx(&window_rect, dw_style, FALSE, dw_ex_style); } // If it failed, we don't want to run fullscreen else { mFullscreen = FALSE; mFullscreenWidth = -1; mFullscreenHeight = -1; mFullscreenBits = -1; mFullscreenRefresh = -1; llinfos << "Unable to run fullscreen at " << width << "x" << height << llendl; llinfos << "Running in window." << llendl; return FALSE; } } else { mFullscreen = FALSE; window_rect.left = (long) 0; window_rect.right = (long) width; // Windows GDI rects don't include rightmost pixel window_rect.top = (long) 0; window_rect.bottom = (long) height; // Window with an edge dw_ex_style = WS_EX_APPWINDOW | WS_EX_WINDOWEDGE; dw_style = WS_OVERLAPPEDWINDOW; } // don't post quit messages when destroying old windows mPostQuit = FALSE; // create window DestroyWindow(mWindowHandle); mWindowHandle = CreateWindowEx(dw_ex_style, mWindowClassName, mWindowTitle, WS_CLIPSIBLINGS | WS_CLIPCHILDREN | dw_style, window_rect.left, // x pos window_rect.top, // y pos window_rect.right - window_rect.left, // width window_rect.bottom - window_rect.top, // height NULL, NULL, mhInstance, NULL); //----------------------------------------------------------------------- // Create GL drawing context //----------------------------------------------------------------------- static PIXELFORMATDESCRIPTOR pfd = { sizeof(PIXELFORMATDESCRIPTOR), 1, PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER, PFD_TYPE_RGBA, BITS_PER_PIXEL, 0, 0, 0, 0, 0, 0, // RGB bits and shift, unused 8, // alpha bits 0, // alpha shift 0, // accum bits 0, 0, 0, 0, // accum RGBA 24, // depth bits 8, // stencil bits, avi added for stencil test 0, PFD_MAIN_PLANE, 0, 0, 0, 0 }; if (!(mhDC = GetDC(mWindowHandle))) { close(); OSMessageBox("Can't make GL device context", "Error", OSMB_OK); return FALSE; } if (!(pixel_format = ChoosePixelFormat(mhDC, &pfd))) { close(); OSMessageBox("Can't find suitable pixel format", "Error", OSMB_OK); return FALSE; } // Verify what pixel format we actually received. if (!DescribePixelFormat(mhDC, pixel_format, sizeof(PIXELFORMATDESCRIPTOR), &pfd)) { close(); OSMessageBox("Can't get pixel format description", "Error", OSMB_OK); return FALSE; } if (pfd.cColorBits < 32) { close(); OSMessageBox( "Second Life requires True Color (32-bit) to run in a window.\n" "Please go to Control Panels -> Display -> Settings and\n" "set the screen to 32-bit color.\n" "Alternately, if you choose to run fullscreen, Second Life\n" "will automatically adjust the screen each time it runs.", "Error", OSMB_OK); return FALSE; } if (pfd.cAlphaBits < 8) { close(); OSMessageBox( "Second Life is unable to run because it can't get an 8 bit alpha\n" "channel. Usually this is due to video card driver issues.\n" "Please make sure you have the latest video card drivers installed.\n" "Also be sure your monitor is set to True Color (32-bit) in\n" "Control Panels -> Display -> Settings.\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return FALSE; } if (!SetPixelFormat(mhDC, pixel_format, &pfd)) { close(); OSMessageBox("Can't set pixel format", "Error", OSMB_OK); return FALSE; } if (!(mhRC = wglCreateContext(mhDC))) { close(); OSMessageBox("Can't create GL rendering context", "Error", OSMB_OK); return FALSE; } if (!wglMakeCurrent(mhDC, mhRC)) { close(); OSMessageBox("Can't activate GL rendering context", "Error", OSMB_OK); return FALSE; } gGLManager.initWGL(); if (wglChoosePixelFormatARB) { // OK, at this point, use the ARB wglChoosePixelFormatsARB function to see if we // can get exactly what we want. GLint attrib_list[256]; S32 cur_attrib = 0; attrib_list[cur_attrib++] = WGL_DEPTH_BITS_ARB; attrib_list[cur_attrib++] = 24; attrib_list[cur_attrib++] = WGL_STENCIL_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_DRAW_TO_WINDOW_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_ACCELERATION_ARB; attrib_list[cur_attrib++] = WGL_FULL_ACCELERATION_ARB; attrib_list[cur_attrib++] = WGL_SUPPORT_OPENGL_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_DOUBLE_BUFFER_ARB; attrib_list[cur_attrib++] = GL_TRUE; attrib_list[cur_attrib++] = WGL_COLOR_BITS_ARB; attrib_list[cur_attrib++] = 24; attrib_list[cur_attrib++] = WGL_RED_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_GREEN_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_BLUE_BITS_ARB; attrib_list[cur_attrib++] = 8; attrib_list[cur_attrib++] = WGL_ALPHA_BITS_ARB; attrib_list[cur_attrib++] = 8; // End the list attrib_list[cur_attrib++] = 0; GLint pixel_formats[256]; U32 num_formats = 0; // First we try and get a 32 bit depth pixel format BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 32-bit"); return FALSE; } if (!num_formats) { llinfos << "No 32 bit z-buffer, trying 24 bits instead" << llendl; // Try 24-bit format attrib_list[1] = 24; BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 24-bit"); return FALSE; } if (!num_formats) { llwarns << "Couldn't get 24 bit z-buffer,trying 16 bits instead!" << llendl; attrib_list[1] = 16; BOOL result = wglChoosePixelFormatARB(mhDC, attrib_list, NULL, 256, pixel_formats, &num_formats); if (!result || !num_formats) { close(); show_window_creation_error("Error after wglChoosePixelFormatARB 16-bit"); return FALSE; } } llinfos << "Choosing pixel formats: " << num_formats << " pixel formats returned" << llendl; pixel_format = pixel_formats[0]; } DestroyWindow(mWindowHandle); mWindowHandle = CreateWindowEx(dw_ex_style, mWindowClassName, mWindowTitle, WS_CLIPSIBLINGS | WS_CLIPCHILDREN | dw_style, window_rect.left, // x pos window_rect.top, // y pos window_rect.right - window_rect.left, // width window_rect.bottom - window_rect.top, // height NULL, NULL, mhInstance, NULL); if (!(mhDC = GetDC(mWindowHandle))) { close(); OSMessageBox("Can't make GL device context", "Error", OSMB_OK); return FALSE; } if (!SetPixelFormat(mhDC, pixel_format, &pfd)) { close(); OSMessageBox("Can't set pixel format", "Error", OSMB_OK); return FALSE; } int swap_method = 0; GLint swap_query = WGL_SWAP_METHOD_ARB; if (wglGetPixelFormatAttribivARB(mhDC, pixel_format, 0, 1, &swap_query, &swap_method)) { switch (swap_method) { case WGL_SWAP_EXCHANGE_ARB: mSwapMethod = SWAP_METHOD_EXCHANGE; llinfos << "Swap Method: Exchange" << llendl; break; case WGL_SWAP_COPY_ARB: mSwapMethod = SWAP_METHOD_COPY; llinfos << "Swap Method: Copy" << llendl; break; case WGL_SWAP_UNDEFINED_ARB: mSwapMethod = SWAP_METHOD_UNDEFINED; llinfos << "Swap Method: Undefined" << llendl; break; default: mSwapMethod = SWAP_METHOD_UNDEFINED; llinfos << "Swap Method: Unknown" << llendl; break; } } } else { llwarns << "No wgl_ARB_pixel_format extension, using default ChoosePixelFormat!" << llendl; } // Verify what pixel format we actually received. if (!DescribePixelFormat(mhDC, pixel_format, sizeof(PIXELFORMATDESCRIPTOR), &pfd)) { close(); OSMessageBox("Can't get pixel format description", "Error", OSMB_OK); return FALSE; } llinfos << "GL buffer: Color Bits " << S32(pfd.cColorBits) << " Alpha Bits " << S32(pfd.cAlphaBits) << " Depth Bits " << S32(pfd.cDepthBits) << llendl; if (pfd.cColorBits < 32) { close(); OSMessageBox( "Second Life requires True Color (32-bit) to run in a window.\n" "Please go to Control Panels -> Display -> Settings and\n" "set the screen to 32-bit color.\n" "Alternately, if you choose to run fullscreen, Second Life\n" "will automatically adjust the screen each time it runs.", "Error", OSMB_OK); return FALSE; } if (pfd.cAlphaBits < 8) { close(); OSMessageBox( "Second Life is unable to run because it can't get an 8 bit alpha\n" "channel. Usually this is due to video card driver issues.\n" "Please make sure you have the latest video card drivers installed.\n" "Also be sure your monitor is set to True Color (32-bit) in\n" "Control Panels -> Display -> Settings.\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return FALSE; } if (!(mhRC = wglCreateContext(mhDC))) { close(); OSMessageBox("Can't create GL rendering context", "Error", OSMB_OK); return FALSE; } if (!wglMakeCurrent(mhDC, mhRC)) { close(); OSMessageBox("Can't activate GL rendering context", "Error", OSMB_OK); return FALSE; } if (!gGLManager.initGL()) { close(); OSMessageBox( "Second Life is unable to run because your video card drivers\n" "are out of date or unsupported. Please make sure you have\n" "the latest video card drivers installed.\n\n" "If you continue to receive this message, contact customer service.", "Error", OSMB_OK); return FALSE; } // Disable vertical sync for swap if (disable_vsync && wglSwapIntervalEXT) { llinfos << "Disabling vertical sync" << llendl; wglSwapIntervalEXT(0); } else { llinfos << "Keeping vertical sync" << llendl; } SetWindowLong(mWindowHandle, GWL_USERDATA, (U32)this); show(); initInputDevices(); // ok to post quit messages now mPostQuit = TRUE; return TRUE; } void LLWindowWin32::moveWindow( const LLCoordScreen& position, const LLCoordScreen& size ) { if( mIsMouseClipping ) { RECT client_rect_in_screen_space; if( getClientRectInScreenSpace( &client_rect_in_screen_space ) ) { ClipCursor( &client_rect_in_screen_space ); } } // if the window was already maximized, MoveWindow seems to still set the maximized flag even if // the window is smaller than maximized. // So we're going to do a restore first (which is a ShowWindow call) (SL-44655). ShowWindow(mWindowHandle, SW_RESTORE); // NOW we can call MoveWindow MoveWindow(mWindowHandle, position.mX, position.mY, size.mX, size.mY, TRUE); } BOOL LLWindowWin32::setCursorPosition(const LLCoordWindow position) { LLCoordScreen screen_pos; mMousePositionModified = TRUE; if (!mWindowHandle) { return FALSE; } if (!convertCoords(position, &screen_pos)) { return FALSE; } return SetCursorPos(screen_pos.mX, screen_pos.mY); } BOOL LLWindowWin32::getCursorPosition(LLCoordWindow *position) { POINT cursor_point; LLCoordScreen screen_pos; if (!mWindowHandle || !GetCursorPos(&cursor_point)) { return FALSE; } screen_pos.mX = cursor_point.x; screen_pos.mY = cursor_point.y; return convertCoords(screen_pos, position); } void LLWindowWin32::hideCursor() { while (ShowCursor(FALSE) >= 0) { // nothing, wait for cursor to push down } mCursorHidden = TRUE; mHideCursorPermanent = TRUE; } void LLWindowWin32::showCursor() { // makes sure the cursor shows up while (ShowCursor(TRUE) < 0) { // do nothing, wait for cursor to pop out } mCursorHidden = FALSE; mHideCursorPermanent = FALSE; } void LLWindowWin32::showCursorFromMouseMove() { if (!mHideCursorPermanent) { showCursor(); } } void LLWindowWin32::hideCursorUntilMouseMove() { if (!mHideCursorPermanent) { hideCursor(); mHideCursorPermanent = FALSE; } } BOOL LLWindowWin32::isCursorHidden() { return mCursorHidden; } HCURSOR LLWindowWin32::loadColorCursor(LPCTSTR name) { return (HCURSOR)LoadImage(mhInstance, name, IMAGE_CURSOR, 0, // default width 0, // default height LR_DEFAULTCOLOR); } void LLWindowWin32::initCursors() { mCursor[ UI_CURSOR_ARROW ] = LoadCursor(NULL, IDC_ARROW); mCursor[ UI_CURSOR_WAIT ] = LoadCursor(NULL, IDC_WAIT); mCursor[ UI_CURSOR_HAND ] = LoadCursor(NULL, IDC_HAND); mCursor[ UI_CURSOR_IBEAM ] = LoadCursor(NULL, IDC_IBEAM); mCursor[ UI_CURSOR_CROSS ] = LoadCursor(NULL, IDC_CROSS); mCursor[ UI_CURSOR_SIZENWSE ] = LoadCursor(NULL, IDC_SIZENWSE); mCursor[ UI_CURSOR_SIZENESW ] = LoadCursor(NULL, IDC_SIZENESW); mCursor[ UI_CURSOR_SIZEWE ] = LoadCursor(NULL, IDC_SIZEWE); mCursor[ UI_CURSOR_SIZENS ] = LoadCursor(NULL, IDC_SIZENS); mCursor[ UI_CURSOR_NO ] = LoadCursor(NULL, IDC_NO); mCursor[ UI_CURSOR_WORKING ] = LoadCursor(NULL, IDC_APPSTARTING); HMODULE module = GetModuleHandle(NULL); mCursor[ UI_CURSOR_TOOLGRAB ] = LoadCursor(module, TEXT("TOOLGRAB")); mCursor[ UI_CURSOR_TOOLLAND ] = LoadCursor(module, TEXT("TOOLLAND")); mCursor[ UI_CURSOR_TOOLFOCUS ] = LoadCursor(module, TEXT("TOOLFOCUS")); mCursor[ UI_CURSOR_TOOLCREATE ] = LoadCursor(module, TEXT("TOOLCREATE")); mCursor[ UI_CURSOR_ARROWDRAG ] = LoadCursor(module, TEXT("ARROWDRAG")); mCursor[ UI_CURSOR_ARROWCOPY ] = LoadCursor(module, TEXT("ARROWCOPY")); mCursor[ UI_CURSOR_ARROWDRAGMULTI ] = LoadCursor(module, TEXT("ARROWDRAGMULTI")); mCursor[ UI_CURSOR_ARROWCOPYMULTI ] = LoadCursor(module, TEXT("ARROWCOPYMULTI")); mCursor[ UI_CURSOR_NOLOCKED ] = LoadCursor(module, TEXT("NOLOCKED")); mCursor[ UI_CURSOR_ARROWLOCKED ]= LoadCursor(module, TEXT("ARROWLOCKED")); mCursor[ UI_CURSOR_GRABLOCKED ] = LoadCursor(module, TEXT("GRABLOCKED")); mCursor[ UI_CURSOR_TOOLTRANSLATE ] = LoadCursor(module, TEXT("TOOLTRANSLATE")); mCursor[ UI_CURSOR_TOOLROTATE ] = LoadCursor(module, TEXT("TOOLROTATE")); mCursor[ UI_CURSOR_TOOLSCALE ] = LoadCursor(module, TEXT("TOOLSCALE")); mCursor[ UI_CURSOR_TOOLCAMERA ] = LoadCursor(module, TEXT("TOOLCAMERA")); mCursor[ UI_CURSOR_TOOLPAN ] = LoadCursor(module, TEXT("TOOLPAN")); mCursor[ UI_CURSOR_TOOLZOOMIN ] = LoadCursor(module, TEXT("TOOLZOOMIN")); mCursor[ UI_CURSOR_TOOLPICKOBJECT3 ] = LoadCursor(module, TEXT("TOOLPICKOBJECT3")); mCursor[ UI_CURSOR_PIPETTE ] = LoadCursor(module, TEXT("TOOLPIPETTE")); // Color cursors mCursor[UI_CURSOR_TOOLSIT] = loadColorCursor(TEXT("TOOLSIT")); mCursor[UI_CURSOR_TOOLBUY] = loadColorCursor(TEXT("TOOLBUY")); mCursor[UI_CURSOR_TOOLPAY] = loadColorCursor(TEXT("TOOLPAY")); mCursor[UI_CURSOR_TOOLOPEN] = loadColorCursor(TEXT("TOOLOPEN")); mCursor[UI_CURSOR_TOOLPLAY] = loadColorCursor(TEXT("TOOLPLAY")); mCursor[UI_CURSOR_TOOLPAUSE] = loadColorCursor(TEXT("TOOLPAUSE")); mCursor[UI_CURSOR_TOOLMEDIAOPEN] = loadColorCursor(TEXT("TOOLMEDIAOPEN")); // Note: custom cursors that are not found make LoadCursor() return NULL. for( S32 i = 0; i < UI_CURSOR_COUNT; i++ ) { if( !mCursor[i] ) { mCursor[i] = LoadCursor(NULL, IDC_ARROW); } } } void LLWindowWin32::setCursor(ECursorType cursor) { if (cursor == UI_CURSOR_ARROW && mBusyCount > 0) { cursor = UI_CURSOR_WORKING; } if( mCurrentCursor != cursor ) { mCurrentCursor = cursor; SetCursor( mCursor[cursor] ); } } ECursorType LLWindowWin32::getCursor() const { return mCurrentCursor; } void LLWindowWin32::captureMouse() { SetCapture(mWindowHandle); } void LLWindowWin32::releaseMouse() { ReleaseCapture(); } void LLWindowWin32::delayInputProcessing() { mInputProcessingPaused = TRUE; } void LLWindowWin32::gatherInput() { MSG msg; int msg_count = 0; while (PeekMessage(&msg, NULL, 0, 0, PM_REMOVE) && msg_count < MAX_MESSAGE_PER_UPDATE) { TranslateMessage(&msg); DispatchMessage(&msg); msg_count++; if ( mInputProcessingPaused ) { break; } /* Attempted workaround for problem where typing fast and hitting return would result in only part of the text being sent. JC BOOL key_posted = TranslateMessage(&msg); DispatchMessage(&msg); msg_count++; // If a key was translated, a WM_CHAR might have been posted to the end // of the event queue. We need it immediately. if (key_posted && msg.message == WM_KEYDOWN) { if (PeekMessage(&msg, NULL, WM_CHAR, WM_CHAR, PM_REMOVE)) { TranslateMessage(&msg); DispatchMessage(&msg); msg_count++; } } */ // For async host by name support. Really hacky. if (gAsyncMsgCallback && (LL_WM_HOST_RESOLVED == msg.message)) { gAsyncMsgCallback(msg); } } mInputProcessingPaused = FALSE; // clear this once we've processed all mouse messages that might have occurred after // we slammed the mouse position mMousePositionModified = FALSE; } LRESULT CALLBACK LLWindowWin32::mainWindowProc(HWND h_wnd, UINT u_msg, WPARAM w_param, LPARAM l_param) { LLWindowWin32 *window_imp = (LLWindowWin32 *)GetWindowLong(h_wnd, GWL_USERDATA); if (NULL != window_imp) { // Has user provided their own window callback? if (NULL != window_imp->mWndProc) { if (!window_imp->mWndProc(h_wnd, u_msg, w_param, l_param)) { // user has handled window message return 0; } } // Juggle to make sure we can get negative positions for when // mouse is outside window. LLCoordWindow window_coord((S32)(S16)LOWORD(l_param), (S32)(S16)HIWORD(l_param)); // This doesn't work, as LOWORD returns unsigned short. //LLCoordWindow window_coord(LOWORD(l_param), HIWORD(l_param)); LLCoordGL gl_coord; // pass along extended flag in mask MASK mask = (l_param>>16 & KF_EXTENDED) ? MASK_EXTENDED : 0x0; BOOL eat_keystroke = TRUE; switch(u_msg) { RECT update_rect; S32 update_width; S32 update_height; case WM_TIMER: window_imp->updateJoystick( ); break; case WM_PAINT: GetUpdateRect(window_imp->mWindowHandle, &update_rect, FALSE); update_width = update_rect.right - update_rect.left + 1; update_height = update_rect.bottom - update_rect.top + 1; window_imp->mCallbacks->handlePaint(window_imp, update_rect.left, update_rect.top, update_width, update_height); break; case WM_PARENTNOTIFY: u_msg = u_msg; break; case WM_SETCURSOR: // This message is sent whenever the cursor is moved in a window. // You need to set the appropriate cursor appearance. // Only take control of cursor over client region of window // This allows Windows(tm) to handle resize cursors, etc. if (LOWORD(l_param) == HTCLIENT) { SetCursor(window_imp->mCursor[ window_imp->mCurrentCursor] ); return 0; } break; case WM_ENTERMENULOOP: window_imp->mCallbacks->handleWindowBlock(window_imp); break; case WM_EXITMENULOOP: window_imp->mCallbacks->handleWindowUnblock(window_imp); break; case WM_ACTIVATEAPP: { // This message should be sent whenever the app gains or loses focus. BOOL activating = (BOOL) w_param; BOOL minimized = window_imp->getMinimized(); if (gDebugWindowProc) { llinfos << "WINDOWPROC ActivateApp " << " activating " << S32(activating) << " minimized " << S32(minimized) << " fullscreen " << S32(window_imp->mFullscreen) << llendl; } if (window_imp->mFullscreen) { // When we run fullscreen, restoring or minimizing the app needs // to switch the screen resolution if (activating) { window_imp->setFullscreenResolution(); window_imp->restore(); } else { window_imp->minimize(); window_imp->resetDisplayResolution(); } } break; } case WM_ACTIVATE: { // Can be one of WA_ACTIVE, WA_CLICKACTIVE, or WA_INACTIVE BOOL activating = (LOWORD(w_param) != WA_INACTIVE); BOOL minimized = BOOL(HIWORD(w_param)); if (!activating && LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->interruptLanguageTextInput(); } // JC - I'm not sure why, but if we don't report that we handled the // WM_ACTIVATE message, the WM_ACTIVATEAPP messages don't work // properly when we run fullscreen. if (gDebugWindowProc) { llinfos << "WINDOWPROC Activate " << " activating " << S32(activating) << " minimized " << S32(minimized) << llendl; } // Don't handle this. break; } case WM_QUERYOPEN: // TODO: use this to return a nice icon break; case WM_SYSCOMMAND: switch(w_param) { case SC_KEYMENU: // Disallow the ALT key from triggering the default system menu. return 0; case SC_SCREENSAVE: case SC_MONITORPOWER: // eat screen save messages and prevent them! return 0; } break; case WM_CLOSE: // Will the app allow the window to close? if (window_imp->mCallbacks->handleCloseRequest(window_imp)) { // Get the app to initiate cleanup. window_imp->mCallbacks->handleQuit(window_imp); // The app is responsible for calling destroyWindow when done with GL } return 0; case WM_DESTROY: if (window_imp->shouldPostQuit()) { PostQuitMessage(0); // Posts WM_QUIT with an exit code of 0 } return 0; case WM_COMMAND: if (!HIWORD(w_param)) // this message is from a menu { window_imp->mCallbacks->handleMenuSelect(window_imp, LOWORD(w_param)); } break; case WM_SYSKEYDOWN: // allow system keys, such as ALT-F4 to be processed by Windows eat_keystroke = FALSE; case WM_KEYDOWN: { if (gDebugWindowProc) { llinfos << "Debug WindowProc WM_KEYDOWN " << " key " << S32(w_param) << llendl; } if(gKeyboard->handleKeyDown(w_param, mask) && eat_keystroke) { return 0; } // pass on to windows if we didn't handle it break; } case WM_SYSKEYUP: eat_keystroke = FALSE; case WM_KEYUP: { LLFastTimer t2(LLFastTimer::FTM_KEYHANDLER); if (gDebugWindowProc) { llinfos << "Debug WindowProc WM_KEYUP " << " key " << S32(w_param) << llendl; } if (gKeyboard->handleKeyUp(w_param, mask) && eat_keystroke) { return 0; } // pass on to windows break; } case WM_IME_SETCONTEXT: if (LLWinImm::isAvailable() && window_imp->mPreeditor) { l_param &= ~ISC_SHOWUICOMPOSITIONWINDOW; // Invoke DefWinProc with the modified LPARAM. } break; case WM_IME_STARTCOMPOSITION: if (LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->handleStartCompositionMessage(); return 0; } break; case WM_IME_ENDCOMPOSITION: if (LLWinImm::isAvailable() && window_imp->mPreeditor) { return 0; } break; case WM_IME_COMPOSITION: if (LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->handleCompositionMessage(l_param); return 0; } break; case WM_IME_REQUEST: if (LLWinImm::isAvailable() && window_imp->mPreeditor) { LRESULT result = 0; if (window_imp->handleImeRequests(w_param, l_param, &result)) { return result; } } break; case WM_CHAR: // Should really use WM_UNICHAR eventually, but it requires a specific Windows version and I need // to figure out how that works. - Doug // // ... Well, I don't think so. // How it works is explained in Win32 API document, but WM_UNICHAR didn't work // as specified at least on Windows XP SP1 Japanese version. I have never used // it since then, and I'm not sure whether it has been fixed now, but I don't think // it is worth trying. The good old WM_CHAR works just fine even for supplementary // characters. We just need to take care of surrogate pairs sent as two WM_CHAR's // by ourselves. It is not that tough. -- Alissa Sabre @ SL // // llinfos << "WM_CHAR: " << w_param << llendl; if (gDebugWindowProc) { llinfos << "Debug WindowProc WM_CHAR " << " key " << S32(w_param) << llendl; } // Even if LLWindowCallbacks::handleUnicodeChar(llwchar, BOOL) returned FALSE, // we *did* processed the event, so I believe we should not pass it to DefWindowProc... window_imp->handleUnicodeUTF16((U16)w_param, gKeyboard->currentMask(FALSE)); return 0; case WM_LBUTTONDOWN: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); if (LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->interruptLanguageTextInput(); } // Because we move the cursor position in the app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleMouseDown(window_imp, gl_coord, mask)) { return 0; } } break; case WM_LBUTTONDBLCLK: //RN: ignore right button double clicks for now //case WM_RBUTTONDBLCLK: { // Because we move the cursor position in the app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleDoubleClick(window_imp, gl_coord, mask) ) { return 0; } } break; case WM_LBUTTONUP: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); //if (gDebugClicks) //{ // llinfos << "WndProc left button up" << llendl; //} // Because we move the cursor position in the app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleMouseUp(window_imp, gl_coord, mask)) { return 0; } } break; case WM_RBUTTONDBLCLK: case WM_RBUTTONDOWN: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); if (LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->interruptLanguageTextInput(); } // Because we move the cursor position in tllviewerhe app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleRightMouseDown(window_imp, gl_coord, mask)) { return 0; } } break; case WM_RBUTTONUP: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); // Because we move the cursor position in the app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleRightMouseUp(window_imp, gl_coord, mask)) { return 0; } } break; case WM_MBUTTONDOWN: // case WM_MBUTTONDBLCLK: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); if (LLWinImm::isAvailable() && window_imp->mPreeditor) { window_imp->interruptLanguageTextInput(); } // Because we move the cursor position in tllviewerhe app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleMiddleMouseDown(window_imp, gl_coord, mask)) { return 0; } } break; case WM_MBUTTONUP: { LLFastTimer t2(LLFastTimer::FTM_MOUSEHANDLER); // Because we move the cursor position in tllviewerhe app, we need to query // to find out where the cursor at the time the event is handled. // If we don't do this, many clicks could get buffered up, and if the // first click changes the cursor position, all subsequent clicks // will occur at the wrong location. JC LLCoordWindow cursor_coord_window; if (window_imp->mMousePositionModified) { window_imp->getCursorPosition(&cursor_coord_window); window_imp->convertCoords(cursor_coord_window, &gl_coord); } else { window_imp->convertCoords(window_coord, &gl_coord); } MASK mask = gKeyboard->currentMask(TRUE); if (window_imp->mCallbacks->handleMiddleMouseUp(window_imp, gl_coord, mask)) { return 0; } } break; case WM_MOUSEWHEEL: { static short z_delta = 0; z_delta += HIWORD(w_param); // cout << "z_delta " << z_delta << endl; // current mouse wheels report changes in increments of zDelta (+120, -120) // Future, higher resolution mouse wheels may report smaller deltas. // So we sum the deltas and only act when we've exceeded WHEEL_DELTA // // If the user rapidly spins the wheel, we can get messages with // large deltas, like 480 or so. Thus we need to scroll more quickly. if (z_delta <= -WHEEL_DELTA || WHEEL_DELTA <= z_delta) { window_imp->mCallbacks->handleScrollWheel(window_imp, -z_delta / WHEEL_DELTA); z_delta = 0; } return 0; } /* // TODO: add this after resolving _WIN32_WINNT issue case WM_MOUSELEAVE: { window_imp->mCallbacks->handleMouseLeave(window_imp); // TRACKMOUSEEVENT track_mouse_event; // track_mouse_event.cbSize = sizeof( TRACKMOUSEEVENT ); // track_mouse_event.dwFlags = TME_LEAVE; // track_mouse_event.hwndTrack = h_wnd; // track_mouse_event.dwHoverTime = HOVER_DEFAULT; // TrackMouseEvent( &track_mouse_event ); return 0; } */ // Handle mouse movement within the window case WM_MOUSEMOVE: { window_imp->convertCoords(window_coord, &gl_coord); MASK mask = gKeyboard->currentMask(TRUE); window_imp->mCallbacks->handleMouseMove(window_imp, gl_coord, mask); return 0; } case WM_SIZE: { S32 width = S32( LOWORD(l_param) ); S32 height = S32( HIWORD(l_param) ); if (gDebugWindowProc) { BOOL maximized = ( w_param == SIZE_MAXIMIZED ); BOOL restored = ( w_param == SIZE_RESTORED ); BOOL minimized = ( w_param == SIZE_MINIMIZED ); llinfos << "WINDOWPROC Size " << width << "x" << height << " max " << S32(maximized) << " min " << S32(minimized) << " rest " << S32(restored) << llendl; } // There's an odd behavior with WM_SIZE that I would call a bug. If // the window is maximized, and you call MoveWindow() with a size smaller // than a maximized window, it ends up sending WM_SIZE with w_param set // to SIZE_MAXIMIZED -- which isn't true. So the logic below doesn't work. // (SL-44655). Fixed it by calling ShowWindow(SW_RESTORE) first (see // LLWindowWin32::moveWindow in this file). // If we are now restored, but we weren't before, this // means that the window was un-minimized. if (w_param == SIZE_RESTORED && window_imp->mLastSizeWParam != SIZE_RESTORED) { window_imp->mCallbacks->handleActivate(window_imp, TRUE); } // handle case of window being maximized from fully minimized state if (w_param == SIZE_MAXIMIZED && window_imp->mLastSizeWParam != SIZE_MAXIMIZED) { window_imp->mCallbacks->handleActivate(window_imp, TRUE); } // Also handle the minimization case if (w_param == SIZE_MINIMIZED && window_imp->mLastSizeWParam != SIZE_MINIMIZED) { window_imp->mCallbacks->handleActivate(window_imp, FALSE); } // Actually resize all of our views if (w_param != SIZE_MINIMIZED) { // Ignore updates for minimizing and minimized "windows" window_imp->mCallbacks->handleResize( window_imp, LOWORD(l_param), HIWORD(l_param) ); } window_imp->mLastSizeWParam = w_param; return 0; } case WM_SETFOCUS: if (gDebugWindowProc) { llinfos << "WINDOWPROC SetFocus" << llendl; } window_imp->mCallbacks->handleFocus(window_imp); return 0; case WM_KILLFOCUS: if (gDebugWindowProc) { llinfos << "WINDOWPROC KillFocus" << llendl; } window_imp->mCallbacks->handleFocusLost(window_imp); return 0; case WM_COPYDATA: // received a URL PCOPYDATASTRUCT myCDS = (PCOPYDATASTRUCT) l_param; window_imp->mCallbacks->handleDataCopy(window_imp, myCDS->dwData, myCDS->lpData); return 0; } } // pass unhandled messages down to Windows return DefWindowProc(h_wnd, u_msg, w_param, l_param); } BOOL LLWindowWin32::convertCoords(LLCoordGL from, LLCoordWindow *to) { S32 client_height; RECT client_rect; LLCoordWindow window_position; if (!mWindowHandle || !GetClientRect(mWindowHandle, &client_rect) || NULL == to) { return FALSE; } to->mX = from.mX; client_height = client_rect.bottom - client_rect.top; to->mY = client_height - from.mY - 1; return TRUE; } BOOL LLWindowWin32::convertCoords(LLCoordWindow from, LLCoordGL* to) { S32 client_height; RECT client_rect; if (!mWindowHandle || !GetClientRect(mWindowHandle, &client_rect) || NULL == to) { return FALSE; } to->mX = from.mX; client_height = client_rect.bottom - client_rect.top; to->mY = client_height - from.mY - 1; return TRUE; } BOOL LLWindowWin32::convertCoords(LLCoordScreen from, LLCoordWindow* to) { POINT mouse_point; mouse_point.x = from.mX; mouse_point.y = from.mY; BOOL result = ScreenToClient(mWindowHandle, &mouse_point); if (result) { to->mX = mouse_point.x; to->mY = mouse_point.y; } return result; } BOOL LLWindowWin32::convertCoords(LLCoordWindow from, LLCoordScreen *to) { POINT mouse_point; mouse_point.x = from.mX; mouse_point.y = from.mY; BOOL result = ClientToScreen(mWindowHandle, &mouse_point); if (result) { to->mX = mouse_point.x; to->mY = mouse_point.y; } return result; } BOOL LLWindowWin32::convertCoords(LLCoordScreen from, LLCoordGL *to) { LLCoordWindow window_coord; if (!mWindowHandle || (NULL == to)) { return FALSE; } convertCoords(from, &window_coord); convertCoords(window_coord, to); return TRUE; } BOOL LLWindowWin32::convertCoords(LLCoordGL from, LLCoordScreen *to) { LLCoordWindow window_coord; if (!mWindowHandle || (NULL == to)) { return FALSE; } convertCoords(from, &window_coord); convertCoords(window_coord, to); return TRUE; } BOOL LLWindowWin32::isClipboardTextAvailable() { return IsClipboardFormatAvailable(CF_UNICODETEXT); } BOOL LLWindowWin32::pasteTextFromClipboard(LLWString &dst) { BOOL success = FALSE; if (IsClipboardFormatAvailable(CF_UNICODETEXT)) { if (OpenClipboard(mWindowHandle)) { HGLOBAL h_data = GetClipboardData(CF_UNICODETEXT); if (h_data) { WCHAR *utf16str = (WCHAR*) GlobalLock(h_data); if (utf16str) { dst = utf16str_to_wstring(utf16str); LLWString::removeCRLF(dst); GlobalUnlock(h_data); success = TRUE; } } CloseClipboard(); } } return success; } BOOL LLWindowWin32::copyTextToClipboard(const LLWString& wstr) { BOOL success = FALSE; if (OpenClipboard(mWindowHandle)) { EmptyClipboard(); // Provide a copy of the data in Unicode format. LLWString sanitized_string(wstr); LLWString::addCRLF(sanitized_string); llutf16string out_utf16 = wstring_to_utf16str(sanitized_string); const size_t size_utf16 = (out_utf16.length() + 1) * sizeof(WCHAR); // Memory is allocated and then ownership of it is transfered to the system. HGLOBAL hglobal_copy_utf16 = GlobalAlloc(GMEM_MOVEABLE, size_utf16); if (hglobal_copy_utf16) { WCHAR* copy_utf16 = (WCHAR*) GlobalLock(hglobal_copy_utf16); if (copy_utf16) { memcpy(copy_utf16, out_utf16.c_str(), size_utf16); /* Flawfinder: ignore */ GlobalUnlock(hglobal_copy_utf16); if (SetClipboardData(CF_UNICODETEXT, hglobal_copy_utf16)) { success = TRUE; } } } CloseClipboard(); } return success; } // Constrains the mouse to the window. void LLWindowWin32::setMouseClipping( BOOL b ) { if( b != mIsMouseClipping ) { BOOL success = FALSE; if( b ) { GetClipCursor( &mOldMouseClip ); RECT client_rect_in_screen_space; if( getClientRectInScreenSpace( &client_rect_in_screen_space ) ) { success = ClipCursor( &client_rect_in_screen_space ); } } else { // Must restore the old mouse clip, which may be set by another window. success = ClipCursor( &mOldMouseClip ); SetRect( &mOldMouseClip, 0, 0, 0, 0 ); } if( success ) { mIsMouseClipping = b; } } } BOOL LLWindowWin32::getClientRectInScreenSpace( RECT* rectp ) { BOOL success = FALSE; RECT client_rect; if( mWindowHandle && GetClientRect(mWindowHandle, &client_rect) ) { POINT top_left; top_left.x = client_rect.left; top_left.y = client_rect.top; ClientToScreen(mWindowHandle, &top_left); POINT bottom_right; bottom_right.x = client_rect.right; bottom_right.y = client_rect.bottom; ClientToScreen(mWindowHandle, &bottom_right); SetRect( rectp, top_left.x, top_left.y, bottom_right.x, bottom_right.y ); success = TRUE; } return success; } BOOL LLWindowWin32::sendEmail(const char* address, const char* subject, const char* body_text, const char* attachment, const char* attachment_displayed_name ) { // Based on "A SendMail() DLL" by Greg Turner, Windows Developer Magazine, Nov. 1997. // See article for use of GetProcAddress // No restrictions on use. enum SendResult { LL_EMAIL_SUCCESS, LL_EMAIL_MAPI_NOT_INSTALLED, // No MAPI Server (eg Microsoft Exchange) installed LL_EMAIL_MAPILOAD_FAILED, // Load of MAPI32.DLL failed LL_EMAIL_SEND_FAILED // The message send itself failed }; SendResult result = LL_EMAIL_SUCCESS; U32 mapi_installed = GetProfileInt(L"Mail", L"MAPI", 0); if( !mapi_installed) { result = LL_EMAIL_MAPI_NOT_INSTALLED; } else { HINSTANCE hMAPIInst = LoadLibrary(L"MAPI32.DLL"); /* Flawfinder: ignore */ if(!hMAPIInst) { result = LL_EMAIL_MAPILOAD_FAILED; } else { LPMAPISENDMAIL pMAPISendMail = (LPMAPISENDMAIL) GetProcAddress(hMAPIInst, "MAPISendMail"); // Send the message MapiRecipDesc recipients[1]; recipients[0].ulReserved = 0; recipients[0].ulRecipClass = MAPI_TO; recipients[0].lpszName = (char*)address; recipients[0].lpszAddress = (char*)address; recipients[0].ulEIDSize = 0; recipients[0].lpEntryID = 0; MapiFileDesc files[1]; files[0].ulReserved = 0; files[0].flFlags = 0; // non-OLE file files[0].nPosition = -1; // Leave file location in email unspecified. files[0].lpszPathName = (char*)attachment; // Must be fully qualified name, including drive letter. files[0].lpszFileName = (char*)attachment_displayed_name; // If NULL, uses attachment as displayed name. files[0].lpFileType = NULL; // Recipient will have to figure out what kind of file this is. MapiMessage msg; memset(&msg, 0, sizeof(msg)); msg.lpszSubject = (char*)subject; // may be NULL msg.lpszNoteText = (char*)body_text; msg.nRecipCount = address ? 1 : 0; msg.lpRecips = address ? recipients : NULL; msg.nFileCount = attachment ? 1 : 0; msg.lpFiles = attachment ? files : NULL; U32 success = pMAPISendMail(0, (U32) mWindowHandle, &msg, MAPI_DIALOG|MAPI_LOGON_UI|MAPI_NEW_SESSION, 0); if(success != SUCCESS_SUCCESS) { result = LL_EMAIL_SEND_FAILED; } FreeLibrary(hMAPIInst); } } return result == LL_EMAIL_SUCCESS; } S32 LLWindowWin32::stat(const char* file_name, struct stat* stat_info) { llassert( sizeof(struct stat) == sizeof(struct _stat) ); // They are defined identically in sys/stat.h, but I'm paranoid. return LLFile::stat( file_name, (struct _stat*) stat_info ); } void LLWindowWin32::flashIcon(F32 seconds) { FLASHWINFO flash_info; flash_info.cbSize = sizeof(FLASHWINFO); flash_info.hwnd = mWindowHandle; flash_info.dwFlags = FLASHW_TRAY; flash_info.uCount = UINT(seconds / ICON_FLASH_TIME); flash_info.dwTimeout = DWORD(1000.f * ICON_FLASH_TIME); // milliseconds FlashWindowEx(&flash_info); } F32 LLWindowWin32::getGamma() { return mCurrentGamma; } BOOL LLWindowWin32::restoreGamma() { return SetDeviceGammaRamp(mhDC, mPrevGammaRamp); } BOOL LLWindowWin32::setGamma(const F32 gamma) { mCurrentGamma = gamma; llinfos << "Setting gamma to " << gamma << llendl; for ( int i = 0; i < 256; ++i ) { int mult = 256 - ( int ) ( ( gamma - 1.0f ) * 128.0f ); int value = mult * i; if ( value > 0xffff ) value = 0xffff; mCurrentGammaRamp [ 0 * 256 + i ] = mCurrentGammaRamp [ 1 * 256 + i ] = mCurrentGammaRamp [ 2 * 256 + i ] = ( WORD )value; }; return SetDeviceGammaRamp ( mhDC, mCurrentGammaRamp ); } LLWindow::LLWindowResolution* LLWindowWin32::getSupportedResolutions(S32 &num_resolutions) { if (!mSupportedResolutions) { mSupportedResolutions = new LLWindowResolution[MAX_NUM_RESOLUTIONS]; DEVMODE dev_mode; mNumSupportedResolutions = 0; for (S32 mode_num = 0; mNumSupportedResolutions < MAX_NUM_RESOLUTIONS; mode_num++) { if (!EnumDisplaySettings(NULL, mode_num, &dev_mode)) { break; } if (dev_mode.dmBitsPerPel == BITS_PER_PIXEL && dev_mode.dmPelsWidth >= 800 && dev_mode.dmPelsHeight >= 600) { BOOL resolution_exists = FALSE; for(S32 i = 0; i < mNumSupportedResolutions; i++) { if (mSupportedResolutions[i].mWidth == dev_mode.dmPelsWidth && mSupportedResolutions[i].mHeight == dev_mode.dmPelsHeight) { resolution_exists = TRUE; } } if (!resolution_exists) { mSupportedResolutions[mNumSupportedResolutions].mWidth = dev_mode.dmPelsWidth; mSupportedResolutions[mNumSupportedResolutions].mHeight = dev_mode.dmPelsHeight; mNumSupportedResolutions++; } } } } num_resolutions = mNumSupportedResolutions; return mSupportedResolutions; } F32 LLWindowWin32::getNativeAspectRatio() { if (mOverrideAspectRatio > 0.f) { return mOverrideAspectRatio; } else if (mNativeAspectRatio > 0.f) { // we grabbed this value at startup, based on the user's desktop settings return mNativeAspectRatio; } // RN: this hack presumes that the largest supported resolution is monitor-limited // and that pixels in that mode are square, therefore defining the native aspect ratio // of the monitor...this seems to work to a close approximation for most CRTs/LCDs S32 num_resolutions; LLWindowResolution* resolutions = getSupportedResolutions(num_resolutions); return ((F32)resolutions[num_resolutions - 1].mWidth / (F32)resolutions[num_resolutions - 1].mHeight); } F32 LLWindowWin32::getPixelAspectRatio() { F32 pixel_aspect = 1.f; if (getFullscreen()) { LLCoordScreen screen_size; getSize(&screen_size); pixel_aspect = getNativeAspectRatio() * (F32)screen_size.mY / (F32)screen_size.mX; } return pixel_aspect; } // Change display resolution. Returns true if successful. // protected BOOL LLWindowWin32::setDisplayResolution(S32 width, S32 height, S32 bits, S32 refresh) { DEVMODE dev_mode; dev_mode.dmSize = sizeof(dev_mode); BOOL success = FALSE; // Don't change anything if we don't have to if (EnumDisplaySettings(NULL, ENUM_CURRENT_SETTINGS, &dev_mode)) { if (dev_mode.dmPelsWidth == width && dev_mode.dmPelsHeight == height && dev_mode.dmBitsPerPel == bits && dev_mode.dmDisplayFrequency == refresh ) { // ...display mode identical, do nothing return TRUE; } } memset(&dev_mode, 0, sizeof(dev_mode)); dev_mode.dmSize = sizeof(dev_mode); dev_mode.dmPelsWidth = width; dev_mode.dmPelsHeight = height; dev_mode.dmBitsPerPel = bits; dev_mode.dmDisplayFrequency = refresh; dev_mode.dmFields = DM_BITSPERPEL | DM_PELSWIDTH | DM_PELSHEIGHT | DM_DISPLAYFREQUENCY; // CDS_FULLSCREEN indicates that this is a temporary change to the device mode. LONG cds_result = ChangeDisplaySettings(&dev_mode, CDS_FULLSCREEN); success = (DISP_CHANGE_SUCCESSFUL == cds_result); if (!success) { llwarns << "setDisplayResolution failed, " << width << "x" << height << "x" << bits << " @ " << refresh << llendl; } return success; } // protected BOOL LLWindowWin32::setFullscreenResolution() { if (mFullscreen) { return setDisplayResolution( mFullscreenWidth, mFullscreenHeight, mFullscreenBits, mFullscreenRefresh); } else { return FALSE; } } // protected BOOL LLWindowWin32::resetDisplayResolution() { llinfos << "resetDisplayResolution START" << llendl; LONG cds_result = ChangeDisplaySettings(NULL, 0); BOOL success = (DISP_CHANGE_SUCCESSFUL == cds_result); if (!success) { llwarns << "resetDisplayResolution failed" << llendl; } llinfos << "resetDisplayResolution END" << llendl; return success; } void LLWindowWin32::swapBuffers() { SwapBuffers(mhDC); } BOOL CALLBACK EnumJoysticksCallback( const DIDEVICEINSTANCE* pdidInstance, VOID* pContext ) { HRESULT hr; // Obtain an interface to the enumerated joystick. hr = g_pDI->CreateDevice( pdidInstance->guidInstance, &g_pJoystick, NULL ); // If it failed, then we can't use this joystick. (Maybe the user unplugged // it while we were in the middle of enumerating it.) if( FAILED(hr) ) return DIENUM_CONTINUE; // Stop enumeration. Note: we're just taking the first joystick we get. You // could store all the enumerated joysticks and let the user pick. return DIENUM_STOP; } BOOL CALLBACK EnumObjectsCallback( const DIDEVICEOBJECTINSTANCE* pdidoi, VOID* pContext ) { if( pdidoi->dwType & DIDFT_AXIS ) { DIPROPRANGE diprg; diprg.diph.dwSize = sizeof(DIPROPRANGE); diprg.diph.dwHeaderSize = sizeof(DIPROPHEADER); diprg.diph.dwHow = DIPH_BYID; diprg.diph.dwObj = pdidoi->dwType; // Specify the enumerated axis diprg.lMin = -1000; diprg.lMax = +1000; // Set the range for the axis if( FAILED( g_pJoystick->SetProperty( DIPROP_RANGE, &diprg.diph ) ) ) return DIENUM_STOP; } return DIENUM_CONTINUE; } void LLWindowWin32::updateJoystick( ) { HRESULT hr; DIJOYSTATE js; // DInput joystick state if (!g_pJoystick) return; hr = g_pJoystick->Poll(); if ( hr == DIERR_INPUTLOST ) { hr = g_pJoystick->Acquire(); return; } else if ( FAILED(hr) ) return; // Get the input's device state if( FAILED( hr = g_pJoystick->GetDeviceState( sizeof(DIJOYSTATE), &js ) ) ) return; // The device should have been acquired during the Poll() mJoyAxis[0] = js.lX/1000.f; mJoyAxis[1] = js.lY/1000.f; mJoyAxis[2] = js.lZ/1000.f; mJoyAxis[3] = js.lRx/1000.f; mJoyAxis[4] = js.lRy/1000.f; mJoyAxis[5] = js.lRz/1000.f; mJoyAxis[6] = js.rglSlider[0]/1000.f; mJoyAxis[7] = js.rglSlider[1]/1000.f; for (U32 i = 0; i < 16; i++) { mJoyButtonState[i] = js.rgbButtons[i]; } } // // LLSplashScreenImp // LLSplashScreenWin32::LLSplashScreenWin32() : mWindow(NULL) { } LLSplashScreenWin32::~LLSplashScreenWin32() { } void LLSplashScreenWin32::showImpl() { // This appears to work. ??? HINSTANCE hinst = GetModuleHandle(NULL); mWindow = CreateDialog(hinst, TEXT("SPLASHSCREEN"), NULL, // no parent (DLGPROC) LLSplashScreenWin32::windowProc); ShowWindow(mWindow, SW_SHOW); } void LLSplashScreenWin32::updateImpl(const char *mesg) { if (!mWindow) return; WCHAR w_mesg[1024]; mbstowcs(w_mesg, mesg, 1024); SendDlgItemMessage(mWindow, 666, // HACK: text id WM_SETTEXT, FALSE, (LPARAM)w_mesg); } void LLSplashScreenWin32::hideImpl() { if (mWindow) { DestroyWindow(mWindow); mWindow = NULL; } } // static LRESULT CALLBACK LLSplashScreenWin32::windowProc(HWND h_wnd, UINT u_msg, WPARAM w_param, LPARAM l_param) { // Just give it to windows return DefWindowProc(h_wnd, u_msg, w_param, l_param); } // // Helper Funcs // S32 OSMessageBoxWin32(const char* text, const char* caption, U32 type) { UINT uType; switch(type) { case OSMB_OK: uType = MB_OK; break; case OSMB_OKCANCEL: uType = MB_OKCANCEL; break; case OSMB_YESNO: uType = MB_YESNO; break; default: uType = MB_OK; break; } // HACK! Doesn't properly handle wide strings! int retval_win = MessageBoxA(NULL, text, caption, uType); S32 retval; switch(retval_win) { case IDYES: retval = OSBTN_YES; break; case IDNO: retval = OSBTN_NO; break; case IDOK: retval = OSBTN_OK; break; case IDCANCEL: retval = OSBTN_CANCEL; break; default: retval = OSBTN_CANCEL; break; } return retval; } void spawn_web_browser(const char* escaped_url ) { bool found = false; S32 i; for (i = 0; i < gURLProtocolWhitelistCount; i++) { S32 len = strlen(gURLProtocolWhitelist[i]); /* Flawfinder: ignore */ if (!strncmp(escaped_url, gURLProtocolWhitelist[i], len) && escaped_url[len] == ':') { found = true; break; } } if (!found) { llwarns << "spawn_web_browser() called for url with protocol not on whitelist: " << escaped_url << llendl; return; } llinfos << "Opening URL " << escaped_url << llendl; // Figure out the user's default web browser // HKEY_CLASSES_ROOT\http\shell\open\command char reg_path_str[256]; /* Flawfinder: ignore */ snprintf(reg_path_str, sizeof(reg_path_str), "%s\\shell\\open\\command", gURLProtocolWhitelistHandler[i]); /* Flawfinder: ignore */ WCHAR reg_path_wstr[256]; mbstowcs(reg_path_wstr, reg_path_str, sizeof(reg_path_wstr)/sizeof(reg_path_wstr[0])); HKEY key; WCHAR browser_open_wstr[1024]; DWORD buffer_length = 1024; RegOpenKeyEx(HKEY_CLASSES_ROOT, reg_path_wstr, 0, KEY_QUERY_VALUE, &key); RegQueryValueEx(key, NULL, NULL, NULL, (LPBYTE)browser_open_wstr, &buffer_length); RegCloseKey(key); // Convert to STL string LLWString browser_open_wstring = utf16str_to_wstring(browser_open_wstr); if (browser_open_wstring.length() < 2) { llwarns << "Invalid browser executable in registry " << browser_open_wstring << llendl; return; } // Extract the process that's supposed to be launched LLWString browser_executable; if (browser_open_wstring[0] == '"') { // executable is quoted, find the matching quote size_t quote_pos = browser_open_wstring.find('"', 1); // copy out the string including both quotes browser_executable = browser_open_wstring.substr(0, quote_pos+1); } else { // executable not quoted, find a space size_t space_pos = browser_open_wstring.find(' ', 1); browser_executable = browser_open_wstring.substr(0, space_pos); } llinfos << "Browser reg key: " << wstring_to_utf8str(browser_open_wstring) << llendl; llinfos << "Browser executable: " << wstring_to_utf8str(browser_executable) << llendl; // Convert URL to wide string for Windows API // Assume URL is UTF8, as can come from scripts LLWString url_wstring = utf8str_to_wstring(escaped_url); llutf16string url_utf16 = wstring_to_utf16str(url_wstring); // Convert executable and path to wide string for Windows API llutf16string browser_exec_utf16 = wstring_to_utf16str(browser_executable); // ShellExecute returns HINSTANCE for backwards compatiblity. // MS docs say to cast to int and compare to 32. HWND our_window = NULL; LPCWSTR directory_wstr = NULL; int retval = (int) ShellExecute(our_window, /* Flawfinder: ignore */ L"open", browser_exec_utf16.c_str(), url_utf16.c_str(), directory_wstr, SW_SHOWNORMAL); if (retval > 32) { llinfos << "load_url success with " << retval << llendl; } else { llinfos << "load_url failure with " << retval << llendl; } } BOOL LLWindowWin32::dialog_color_picker ( F32 *r, F32 *g, F32 *b ) { BOOL retval = FALSE; static CHOOSECOLOR cc; static COLORREF crCustColors[16]; cc.lStructSize = sizeof(CHOOSECOLOR); cc.hwndOwner = mWindowHandle; cc.hInstance = NULL; cc.rgbResult = RGB ((*r * 255.f),(*g *255.f),(*b * 255.f)); //cc.rgbResult = RGB (0x80,0x80,0x80); cc.lpCustColors = crCustColors; cc.Flags = CC_RGBINIT | CC_FULLOPEN; cc.lCustData = 0; cc.lpfnHook = NULL; cc.lpTemplateName = NULL; // This call is modal, so pause agent //send_agent_pause(); // this is in newview and we don't want to set up a dependency { retval = ChooseColor(&cc); } //send_agent_resume(); // this is in newview and we don't want to set up a dependency *b = ((F32)((cc.rgbResult >> 16) & 0xff)) / 255.f; *g = ((F32)((cc.rgbResult >> 8) & 0xff)) / 255.f; *r = ((F32)(cc.rgbResult & 0xff)) / 255.f; return (retval); } void *LLWindowWin32::getPlatformWindow() { return (void*)mWindowHandle; } void LLWindowWin32::bringToFront() { BringWindowToTop(mWindowHandle); } // set (OS) window focus back to the client void LLWindowWin32::focusClient() { SetFocus ( mWindowHandle ); } void LLWindowWin32::allowLanguageTextInput(LLPreeditor *preeditor, BOOL b) { if (b == sLanguageTextInputAllowed || !LLWinImm::isAvailable()) { return; } if (preeditor != mPreeditor && !b) { // This condition may occur with a call to // setEnabled(BOOL) from LLTextEditor or LLLineEditor // when the control is not focused. // We need to silently ignore the case so that // the language input status of the focused control // is not disturbed. return; } // Take care of old and new preeditors. if (preeditor != mPreeditor || !b) { if (sLanguageTextInputAllowed) { interruptLanguageTextInput(); } mPreeditor = (b ? preeditor : NULL); } sLanguageTextInputAllowed = b; if ( sLanguageTextInputAllowed ) { // Allowing: Restore the previous IME status, so that the user has a feeling that the previous // text input continues naturally. Be careful, however, the IME status is meaningful only during the user keeps // using same Input Locale (aka Keyboard Layout). if (sWinIMEOpened && GetKeyboardLayout(0) == sWinInputLocale) { HIMC himc = LLWinImm::getContext(mWindowHandle); LLWinImm::setOpenStatus(himc, TRUE); LLWinImm::setConversionStatus(himc, sWinIMEConversionMode, sWinIMESentenceMode); LLWinImm::releaseContext(mWindowHandle, himc); } } else { // Disallowing: Turn off the IME so that succeeding key events bypass IME and come to us directly. // However, do it after saving the current IME status. We need to restore the status when // allowing language text input again. sWinInputLocale = GetKeyboardLayout(0); sWinIMEOpened = LLWinImm::isIME(sWinInputLocale); if (sWinIMEOpened) { HIMC himc = LLWinImm::getContext(mWindowHandle); sWinIMEOpened = LLWinImm::getOpenStatus(himc); if (sWinIMEOpened) { LLWinImm::getConversionStatus(himc, &sWinIMEConversionMode, &sWinIMESentenceMode); // We need both ImmSetConversionStatus and ImmSetOpenStatus here to surely disable IME's // keyboard hooking, because Some IME reacts only on the former and some other on the latter... LLWinImm::setConversionStatus(himc, IME_CMODE_NOCONVERSION, sWinIMESentenceMode); LLWinImm::setOpenStatus(himc, FALSE); } LLWinImm::releaseContext(mWindowHandle, himc); } } } void LLWindowWin32::fillCandidateForm(const LLCoordGL& caret, const LLRect& bounds, CANDIDATEFORM *form) { LLCoordWindow caret_coord, top_left, bottom_right; convertCoords(caret, &caret_coord); convertCoords(LLCoordGL(bounds.mLeft, bounds.mTop), &top_left); convertCoords(LLCoordGL(bounds.mRight, bounds.mBottom), &bottom_right); memset(form, 0, sizeof(CANDIDATEFORM)); form->dwStyle = CFS_EXCLUDE; form->ptCurrentPos.x = caret_coord.mX; form->ptCurrentPos.y = caret_coord.mY; form->rcArea.left = top_left.mX; form->rcArea.top = top_left.mY; form->rcArea.right = bottom_right.mX; form->rcArea.bottom = bottom_right.mY; } // Put the IME window at the right place (near current text input). Point coordinates should be the top of the current text line. void LLWindowWin32::setLanguageTextInput( const LLCoordGL & position ) { if (sLanguageTextInputAllowed && LLWinImm::isAvailable()) { HIMC himc = LLWinImm::getContext(mWindowHandle); LLCoordWindow win_pos; convertCoords( position, &win_pos ); if ( win_pos.mX >= 0 && win_pos.mY >= 0 && (win_pos.mX != sWinIMEWindowPosition.mX) || (win_pos.mY != sWinIMEWindowPosition.mY) ) { COMPOSITIONFORM ime_form; memset( &ime_form, 0, sizeof(ime_form) ); ime_form.dwStyle = CFS_POINT; ime_form.ptCurrentPos.x = win_pos.mX; ime_form.ptCurrentPos.y = win_pos.mY; LLWinImm::setCompositionWindow( himc, &ime_form ); sWinIMEWindowPosition.set( win_pos.mX, win_pos.mY ); } LLWinImm::releaseContext(mWindowHandle, himc); } } void LLWindowWin32::fillCharPosition(const LLCoordGL& caret, const LLRect& bounds, const LLRect& control, IMECHARPOSITION *char_position) { LLCoordScreen caret_coord, top_left, bottom_right; convertCoords(caret, &caret_coord); convertCoords(LLCoordGL(bounds.mLeft, bounds.mTop), &top_left); convertCoords(LLCoordGL(bounds.mRight, bounds.mBottom), &bottom_right); char_position->pt.x = caret_coord.mX; char_position->pt.y = top_left.mY; // Windows wants the coordinate of upper left corner of a character... char_position->cLineHeight = bottom_right.mY - top_left.mY; char_position->rcDocument.left = top_left.mX; char_position->rcDocument.top = top_left.mY; char_position->rcDocument.right = bottom_right.mX; char_position->rcDocument.bottom = bottom_right.mY; } void LLWindowWin32::fillCompositionLogfont(LOGFONT *logfont) { // Our font is a list of FreeType recognized font files that may // not have a corresponding ones in Windows' fonts. Hence, we // can't simply tell Windows which font we are using. We will // notify a _standard_ font for a current input locale instead. // We use a hard-coded knowledge about the Windows' standard // configuration to do so... memset(logfont, 0, sizeof(LOGFONT)); const WORD lang_id = LOWORD(GetKeyboardLayout(0)); switch (PRIMARYLANGID(lang_id)) { case LANG_CHINESE: // We need to identify one of two Chinese fonts. switch (SUBLANGID(lang_id)) { case SUBLANG_CHINESE_SIMPLIFIED: case SUBLANG_CHINESE_SINGAPORE: logfont->lfCharSet = GB2312_CHARSET; lstrcpy(logfont->lfFaceName, TEXT("SimHei")); break; case SUBLANG_CHINESE_TRADITIONAL: case SUBLANG_CHINESE_HONGKONG: case SUBLANG_CHINESE_MACAU: default: logfont->lfCharSet = CHINESEBIG5_CHARSET; lstrcpy(logfont->lfFaceName, TEXT("MingLiU")); break; } break; case LANG_JAPANESE: logfont->lfCharSet = SHIFTJIS_CHARSET; lstrcpy(logfont->lfFaceName, TEXT("MS Gothic")); break; case LANG_KOREAN: logfont->lfCharSet = HANGUL_CHARSET; lstrcpy(logfont->lfFaceName, TEXT("Gulim")); break; default: logfont->lfCharSet = ANSI_CHARSET; lstrcpy(logfont->lfFaceName, TEXT("Tahoma")); break; } logfont->lfHeight = mPreeditor->getPreeditFontSize(); logfont->lfWeight = FW_NORMAL; } U32 LLWindowWin32::fillReconvertString(const LLWString &text, S32 focus, S32 focus_length, RECONVERTSTRING *reconvert_string) { const llutf16string text_utf16 = wstring_to_utf16str(text); const DWORD required_size = sizeof(RECONVERTSTRING) + (text_utf16.length() + 1) * sizeof(WCHAR); if (reconvert_string && reconvert_string->dwSize >= required_size) { const DWORD focus_utf16_at = wstring_utf16_length(text, 0, focus); const DWORD focus_utf16_length = wstring_utf16_length(text, focus, focus_length); reconvert_string->dwVersion = 0; reconvert_string->dwStrLen = text_utf16.length(); reconvert_string->dwStrOffset = sizeof(RECONVERTSTRING); reconvert_string->dwCompStrLen = focus_utf16_length; reconvert_string->dwCompStrOffset = focus_utf16_at * sizeof(WCHAR); reconvert_string->dwTargetStrLen = 0; reconvert_string->dwTargetStrOffset = focus_utf16_at * sizeof(WCHAR); const LPWSTR text = (LPWSTR)((BYTE *)reconvert_string + sizeof(RECONVERTSTRING)); memcpy(text, text_utf16.c_str(), (text_utf16.length() + 1) * sizeof(WCHAR)); } return required_size; } void LLWindowWin32::updateLanguageTextInputArea() { if (!mPreeditor || !LLWinImm::isAvailable()) { return; } LLCoordGL caret_coord; LLRect preedit_bounds; if (mPreeditor->getPreeditLocation(-1, &caret_coord, &preedit_bounds, NULL)) { mLanguageTextInputPointGL = caret_coord; mLanguageTextInputAreaGL = preedit_bounds; CANDIDATEFORM candidate_form; fillCandidateForm(caret_coord, preedit_bounds, &candidate_form); HIMC himc = LLWinImm::getContext(mWindowHandle); // Win32 document says there may be up to 4 candidate windows. // This magic number 4 appears only in the document, and // there are no constant/macro for the value... for (int i = 3; i >= 0; --i) { candidate_form.dwIndex = i; LLWinImm::setCandidateWindow(himc, &candidate_form); } LLWinImm::releaseContext(mWindowHandle, himc); } } void LLWindowWin32::interruptLanguageTextInput() { if (mPreeditor) { if (LLWinImm::isAvailable()) { HIMC himc = LLWinImm::getContext(mWindowHandle); LLWinImm::notifyIME(himc, NI_COMPOSITIONSTR, CPS_COMPLETE, 0); LLWinImm::releaseContext(mWindowHandle, himc); } // Win32 document says there will be no composition string // after NI_COMPOSITIONSTR returns. The following call to // resetPreedit should be a NOP unless IME goes mad... mPreeditor->resetPreedit(); } } void LLWindowWin32::handleStartCompositionMessage() { // Let IME know the font to use in feedback UI. LOGFONT logfont; fillCompositionLogfont(&logfont); HIMC himc = LLWinImm::getContext(mWindowHandle); LLWinImm::setCompositionFont(himc, &logfont); LLWinImm::releaseContext(mWindowHandle, himc); } // Handle WM_IME_COMPOSITION message. void LLWindowWin32::handleCompositionMessage(const U32 indexes) { BOOL needs_update = FALSE; LLWString result_string; LLWString preedit_string; S32 preedit_string_utf16_length = 0; LLPreeditor::segment_lengths_t preedit_segment_lengths; LLPreeditor::standouts_t preedit_standouts; // Step I: Receive details of preedits from IME. HIMC himc = LLWinImm::getContext(mWindowHandle); if (indexes & GCS_RESULTSTR) { LONG size = LLWinImm::getCompositionString(himc, GCS_RESULTSTR, NULL, 0); if (size >= 0) { const LPWSTR data = new WCHAR[size / sizeof(WCHAR) + 1]; size = LLWinImm::getCompositionString(himc, GCS_RESULTSTR, data, size); if (size > 0) { result_string = utf16str_to_wstring(llutf16string(data, size / sizeof(WCHAR))); } delete[] data; needs_update = TRUE; } } if (indexes & GCS_COMPSTR) { LONG size = LLWinImm::getCompositionString(himc, GCS_COMPSTR, NULL, 0); if (size >= 0) { const LPWSTR data = new WCHAR[size / sizeof(WCHAR) + 1]; size = LLWinImm::getCompositionString(himc, GCS_COMPSTR, data, size); if (size > 0) { preedit_string_utf16_length = size / sizeof(WCHAR); preedit_string = utf16str_to_wstring(llutf16string(data, size / sizeof(WCHAR))); } delete[] data; needs_update = TRUE; } } if ((indexes & GCS_COMPCLAUSE) && preedit_string.length() > 0) { LONG size = LLWinImm::getCompositionString(himc, GCS_COMPCLAUSE, NULL, 0); if (size > 0) { const LPDWORD data = new DWORD[size / sizeof(DWORD)]; size = LLWinImm::getCompositionString(himc, GCS_COMPCLAUSE, data, size); if (size >= sizeof(DWORD) * 2 && data[0] == 0 && data[size / sizeof(DWORD) - 1] == preedit_string_utf16_length) { preedit_segment_lengths.resize(size / sizeof(DWORD) - 1); S32 offset = 0; for (U32 i = 0; i < preedit_segment_lengths.size(); i++) { const S32 length = wstring_wstring_length_from_utf16_length(preedit_string, offset, data[i + 1] - data[i]); preedit_segment_lengths[i] = length; offset += length; } } delete[] data; } } if ((indexes & GCS_COMPATTR) && preedit_segment_lengths.size() > 1) { LONG size = LLWinImm::getCompositionString(himc, GCS_COMPATTR, NULL, 0); if (size > 0) { const LPBYTE data = new BYTE[size / sizeof(BYTE)]; size = LLWinImm::getCompositionString(himc, GCS_COMPATTR, data, size); if (size == preedit_string_utf16_length) { preedit_standouts.assign(preedit_segment_lengths.size(), FALSE); S32 offset = 0; for (U32 i = 0; i < preedit_segment_lengths.size(); i++) { if (ATTR_TARGET_CONVERTED == data[offset] || ATTR_TARGET_NOTCONVERTED == data[offset]) { preedit_standouts[i] = TRUE; } offset += wstring_utf16_length(preedit_string, offset, preedit_segment_lengths[i]); } } delete[] data; } } S32 caret_position = preedit_string.length(); if (indexes & GCS_CURSORPOS) { const S32 caret_position_utf16 = LLWinImm::getCompositionString(himc, GCS_CURSORPOS, NULL, 0); if (caret_position_utf16 >= 0 && caret_position <= preedit_string_utf16_length) { caret_position = wstring_wstring_length_from_utf16_length(preedit_string, 0, caret_position_utf16); } } if (indexes == 0) { // I'm not sure this condition really happens, but // Windows SDK document says it is an indication // of "reset everything." needs_update = TRUE; } LLWinImm::releaseContext(mWindowHandle, himc); // Step II: Update the active preeditor. if (needs_update) { mPreeditor->resetPreedit(); if (result_string.length() > 0) { for (LLWString::const_iterator i = result_string.begin(); i != result_string.end(); i++) { mPreeditor->handleUnicodeCharHere(*i, FALSE); } } if (preedit_string.length() == 0) { preedit_segment_lengths.clear(); preedit_standouts.clear(); } else { if (preedit_segment_lengths.size() == 0) { preedit_segment_lengths.assign(1, preedit_string.length()); } if (preedit_standouts.size() == 0) { preedit_standouts.assign(preedit_segment_lengths.size(), FALSE); } } mPreeditor->updatePreedit(preedit_string, preedit_segment_lengths, preedit_standouts, caret_position); // Some IME doesn't query char position after WM_IME_COMPOSITION, // so we need to update them actively. updateLanguageTextInputArea(); } } // Given a text and a focus range, find_context finds and returns a // surrounding context of the focused subtext. A variable pointed // to by offset receives the offset in llwchars of the beginning of // the returned context string in the given wtext. static LLWString find_context(const LLWString & wtext, S32 focus, S32 focus_length, S32 *offset) { static const S32 CONTEXT_EXCESS = 30; // This value is by experiences. const S32 e = llmin((S32) wtext.length(), focus + focus_length + CONTEXT_EXCESS); S32 end = focus + focus_length; while (end < e && '\n' != wtext[end]) { end++; } const S32 s = llmax(0, focus - CONTEXT_EXCESS); S32 start = focus; while (start > s && '\n' != wtext[start - 1]) { --start; } *offset = start; return wtext.substr(start, end - start); } // Handle WM_IME_REQUEST message. // If it handled the message, returns TRUE. Otherwise, FALSE. // When it handled the message, the value to be returned from // the Window Procedure is set to *result. BOOL LLWindowWin32::handleImeRequests(U32 request, U32 param, LRESULT *result) { if ( mPreeditor ) { switch (request) { case IMR_CANDIDATEWINDOW: // http://msdn2.microsoft.com/en-us/library/ms776080.aspx { LLCoordGL caret_coord; LLRect preedit_bounds; mPreeditor->getPreeditLocation(-1, &caret_coord, &preedit_bounds, NULL); CANDIDATEFORM *const form = (CANDIDATEFORM *)param; DWORD const dwIndex = form->dwIndex; fillCandidateForm(caret_coord, preedit_bounds, form); form->dwIndex = dwIndex; *result = 1; return TRUE; } case IMR_QUERYCHARPOSITION: { IMECHARPOSITION *const char_position = (IMECHARPOSITION *)param; // char_position->dwCharPos counts in number of // WCHARs, i.e., UTF-16 encoding units, so we can't simply pass the // number to getPreeditLocation. const LLWString & wtext = mPreeditor->getWText(); S32 preedit, preedit_length; mPreeditor->getPreeditRange(&preedit, &preedit_length); LLCoordGL caret_coord; LLRect preedit_bounds, text_control; const S32 position = wstring_wstring_length_from_utf16_length(wtext, preedit, char_position->dwCharPos); if (!mPreeditor->getPreeditLocation(position, &caret_coord, &preedit_bounds, &text_control)) { llwarns << "*** IMR_QUERYCHARPOSITON called but getPreeditLocation failed." << llendl; return FALSE; } fillCharPosition(caret_coord, preedit_bounds, text_control, char_position); *result = 1; return TRUE; } case IMR_COMPOSITIONFONT: { fillCompositionLogfont((LOGFONT *)param); *result = 1; return TRUE; } case IMR_RECONVERTSTRING: { mPreeditor->resetPreedit(); const LLWString & wtext = mPreeditor->getWText(); S32 select, select_length; mPreeditor->getSelectionRange(&select, &select_length); S32 context_offset; const LLWString context = find_context(wtext, select, select_length, &context_offset); RECONVERTSTRING * const reconvert_string = (RECONVERTSTRING *)param; const U32 size = fillReconvertString(context, select - context_offset, select_length, reconvert_string); if (reconvert_string) { if (select_length == 0) { // Let the IME to decide the reconversion range, and // adjust the reconvert_string structure accordingly. HIMC himc = LLWinImm::getContext(mWindowHandle); const BOOL adjusted = LLWinImm::setCompositionString(himc, SCS_QUERYRECONVERTSTRING, reconvert_string, size, NULL, 0); LLWinImm::releaseContext(mWindowHandle, himc); if (adjusted) { const llutf16string & text_utf16 = wstring_to_utf16str(context); const S32 new_preedit_start = reconvert_string->dwCompStrOffset / sizeof(WCHAR); const S32 new_preedit_end = new_preedit_start + reconvert_string->dwCompStrLen; select = utf16str_wstring_length(text_utf16, new_preedit_start); select_length = utf16str_wstring_length(text_utf16, new_preedit_end) - select; select += context_offset; } } mPreeditor->markAsPreedit(select, select_length); } *result = size; return TRUE; } case IMR_CONFIRMRECONVERTSTRING: { *result = FALSE; return TRUE; } case IMR_DOCUMENTFEED: { const LLWString & wtext = mPreeditor->getWText(); S32 preedit, preedit_length; mPreeditor->getPreeditRange(&preedit, &preedit_length); S32 context_offset; LLWString context = find_context(wtext, preedit, preedit_length, &context_offset); preedit -= context_offset; if (preedit_length) { // IMR_DOCUMENTFEED may be called when we have an active preedit. // We should pass the context string *excluding* the preedit string. // Otherwise, some IME are confused. context.erase(preedit, preedit_length); } RECONVERTSTRING *reconvert_string = (RECONVERTSTRING *)param; *result = fillReconvertString(context, preedit, 0, reconvert_string); return TRUE; } default: return FALSE; } } return FALSE; } #endif // LL_WINDOWS