/* AppleWin : An Apple //e emulator for Windows Copyright (C) 1994-1996, Michael O'Brien Copyright (C) 1999-2001, Oliver Schmidt Copyright (C) 2002-2005, Tom Charlesworth Copyright (C) 2006-2014, Tom Charlesworth, Michael Pohoreski AppleWin is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. AppleWin is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with AppleWin; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Description: Frame * * Author: Various */ #include "StdAfx.h" #include "Windows/Win32Frame.h" #include "Windows/AppleWin.h" #include "Interface.h" #include "Keyboard.h" #include "Log.h" #include "Memory.h" #include "Mockingboard.h" #include "MouseInterface.h" #include "Windows/DirectInput.h" #include "NTSC.h" #include "ParallelPrinter.h" #include "Pravets.h" #include "Registry.h" #include "SaveState.h" #include "SerialComms.h" #include "SoundCore.h" #include "Speaker.h" #include "Utilities.h" #include "../resource/resource.h" #include "Configuration/PropertySheet.h" #include "Debugger/Debug.h" #if _MSC_VER < 1900 // VS2013 or before (cl.exe v18.x or before) #include #endif //#define ENABLE_MENU 0 #define DEBUG_KEY_MESSAGES 0 static bool FileExists(std::string strFilename); // Must keep in sync with Disk_Status_e g_aDiskFullScreenColors static const DWORD g_aDiskFullScreenColorsLED[ NUM_DISK_STATUS ] = { RGB( 0, 0, 0), // DISK_STATUS_OFF BLACK RGB( 0,255, 0), // DISK_STATUS_READ GREEN RGB(255, 0, 0), // DISK_STATUS_WRITE RED RGB(255,128, 0) // DISK_STATUS_PROT ORANGE // RGB( 0, 0,255) // DISK_STATUS_PROT -blue- }; void Win32Frame::SetAltEnterToggleFullScreen(bool mode) { g_bAltEnter_ToggleFullScreen = mode; } // ========================================================================== // Display construction: // . Apple II video gets rendered to the framebuffer (maybe with some preliminary/final NTSC data in the border areas) // . The *borderless* framebuffer is stretchblt() copied to the frame DC, in VideoRefreshScreen() // . Draw cross-hairs (if using mouse as either a mouse or joystick) to frame DC // . In Windowed mode: // - Draw 3D border, 8x buttons, status area (disk LEDs, caps) to frame DC // . In Fullscreen mode: // - Optional: Draw status area to frame DC // UINT Win32Frame::Get3DBorderWidth(void) { return IsFullScreen() ? 0 : VIEWPORTX; } UINT Win32Frame::Get3DBorderHeight(void) { return IsFullScreen() ? 0 : VIEWPORTY; } //=========================================================================== void Win32Frame::FrameShowCursor(BOOL bShow) { int nCount; if (bShow) { do { nCount = ShowCursor(bShow); } while(nCount < 0); g_bShowingCursor = true; } else { do { nCount = ShowCursor(bShow); } while(nCount >= 0); g_bShowingCursor = false; } } // Called when: // . Ctrl-Left mouse button // . PAUSE pressed (when MODE_RUNNING) // . AppleWin's main window is activated/deactivated void Win32Frame::RevealCursor() { CMouseInterface* pMouseCard = GetCardMgr().GetMouseCard(); if (!pMouseCard || !pMouseCard->IsActiveAndEnabled()) return; pMouseCard->SetEnabled(false); FrameShowCursor(TRUE); if (GetPropertySheet().GetMouseShowCrosshair()) // Erase crosshairs if they are being drawn DrawCrosshairs(0,0); if (GetPropertySheet().GetMouseRestrictToWindow()) SetUsingCursor(FALSE); g_bLastCursorInAppleViewport = false; } // Called when: // . WM_MOUSEMOVE event // . Switch from full-screen to normal (windowed) mode // . AppleWin's main window is activated/deactivated void Win32Frame::FullScreenRevealCursor(void) { if (!g_bIsFullScreen) return; if (GetCardMgr().IsMouseCardInstalled()) return; if (!g_bUsingCursor && !g_bShowingCursor) { FrameShowCursor(TRUE); g_uCount100msec = 0; } } //=========================================================================== #define LOADBUTTONBITMAP(bitmapname) LoadImage(g_hInstance,bitmapname, \ IMAGE_BITMAP,0,0, \ LR_CREATEDIBSECTION | \ LR_LOADMAP3DCOLORS | \ LR_LOADTRANSPARENT); void Win32Frame::CreateGdiObjects(void) { memset(buttonbitmap, 0, BUTTONS*sizeof(HBITMAP)); buttonbitmap[BTN_HELP] = (HBITMAP)LOADBUTTONBITMAP(TEXT("HELP_BUTTON")); switch (g_Apple2Type) { case A2TYPE_PRAVETS82: case A2TYPE_PRAVETS8M: case A2TYPE_PRAVETS8A: buttonbitmap[BTN_RUN] = (HBITMAP)LOADBUTTONBITMAP(TEXT("RUNP_BUTTON")); break; case A2TYPE_TK30002E: buttonbitmap[BTN_RUN] = (HBITMAP)LOADBUTTONBITMAP(TEXT("RUN3000E_BUTTON")); break; case A2TYPE_BASE64A: buttonbitmap[BTN_RUN] = (HBITMAP)LOADBUTTONBITMAP(TEXT("RUNBASE64A_BUTTON")); break; default: buttonbitmap[BTN_RUN] = (HBITMAP)LOADBUTTONBITMAP(TEXT("RUN_BUTTON")); break; } buttonbitmap[BTN_DRIVE1 ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DRIVE1_BUTTON")); buttonbitmap[BTN_DRIVE2 ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DRIVE2_BUTTON")); buttonbitmap[BTN_DRIVESWAP] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DRIVESWAP_BUTTON")); buttonbitmap[BTN_FULLSCR ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("FULLSCR_BUTTON")); buttonbitmap[BTN_DEBUG ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DEBUG_BUTTON")); buttonbitmap[BTN_SETUP ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("SETUP_BUTTON")); // g_hCapsLockBitmap[0] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_CAPSOFF_BITMAP")); g_hCapsLockBitmap[1] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_CAPSON_BITMAP")); //Pravets8 only g_hCapsBitmapP8[0] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_CAPSOFF_P8_BITMAP")); g_hCapsBitmapP8[1] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_CAPSON_P8_BITMAP")); g_hCapsBitmapLat[0] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_LATOFF_BITMAP")); g_hCapsBitmapLat[1] = (HBITMAP)LOADBUTTONBITMAP(TEXT("LED_LATON_BITMAP")); /*charsetbitmap[0] = (HBITMAP)LOADBUTTONBITMAP(TEXT("CHARSET_APPLE_BITMAP")); charsetbitmap[1] = (HBITMAP)LOADBUTTONBITMAP(TEXT("CHARSET_82_BITMAP")); charsetbitmap[2] = (HBITMAP)LOADBUTTONBITMAP(TEXT("CHARSET_8A_BITMAP")); charsetbitmap[3] = (HBITMAP)LOADBUTTONBITMAP(TEXT("CHARSET_8M_BITMAP")); */ //=========================== g_hDiskWindowedLED[ DISK_STATUS_OFF ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DISKOFF_BITMAP")); g_hDiskWindowedLED[ DISK_STATUS_READ ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DISKREAD_BITMAP")); g_hDiskWindowedLED[ DISK_STATUS_WRITE] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DISKWRITE_BITMAP")); g_hDiskWindowedLED[ DISK_STATUS_PROT ] = (HBITMAP)LOADBUTTONBITMAP(TEXT("DISKPROT_BITMAP")); btnfacebrush = CreateSolidBrush(GetSysColor(COLOR_BTNFACE)); btnfacepen = CreatePen(PS_SOLID,1,GetSysColor(COLOR_BTNFACE)); btnhighlightpen = CreatePen(PS_SOLID,1,GetSysColor(COLOR_BTNHIGHLIGHT)); btnshadowpen = CreatePen(PS_SOLID,1,GetSysColor(COLOR_BTNSHADOW)); smallfont = CreateFont(11,6,0,0,FW_NORMAL,0,0,0,ANSI_CHARSET, OUT_DEFAULT_PRECIS,CLIP_DEFAULT_PRECIS, DEFAULT_QUALITY,VARIABLE_PITCH | FF_SWISS, TEXT("Small Fonts")); } //=========================================================================== void Win32Frame::DeleteGdiObjects(void) { for (int loop = 0; loop < BUTTONS; loop++) _ASSERT(DeleteObject(buttonbitmap[loop])); for (int loop = 0; loop < 2; loop++) { _ASSERT(DeleteObject(g_hCapsLockBitmap[loop])); _ASSERT(DeleteObject(g_hCapsBitmapP8[loop])); _ASSERT(DeleteObject(g_hCapsBitmapLat[loop])); } for (int loop = 0; loop < NUM_DISK_STATUS; loop++) { _ASSERT(DeleteObject(g_hDiskWindowedLED[loop])); } _ASSERT(DeleteObject(btnfacebrush)); _ASSERT(DeleteObject(btnfacepen)); _ASSERT(DeleteObject(btnhighlightpen)); _ASSERT(DeleteObject(btnshadowpen)); _ASSERT(DeleteObject(smallfont)); } // Draws an 3D box around the main apple screen //=========================================================================== void Win32Frame::Draw3dRect(HDC dc, int x1, int y1, int x2, int y2, BOOL out) { SelectObject(dc,GetStockObject(NULL_BRUSH)); SelectObject(dc,out ? btnshadowpen : btnhighlightpen); POINT pt[3]; pt[0].x = x1; pt[0].y = y2-1; pt[1].x = x2-1; pt[1].y = y2-1; pt[2].x = x2-1; pt[2].y = y1; Polyline(dc,(LPPOINT)&pt,3); SelectObject(dc,(out == 1) ? btnhighlightpen : btnshadowpen); pt[1].x = x1; pt[1].y = y1; pt[2].x = x2; pt[2].y = y1; Polyline(dc,(LPPOINT)&pt,3); } //=========================================================================== void Win32Frame::DrawBitmapRect (HDC dc, int x, int y, LPRECT rect, HBITMAP bitmap) { HDC memdc = CreateCompatibleDC(dc); SelectObject(memdc,bitmap); BitBlt(dc,x,y, rect->right + 1 - rect->left, rect->bottom + 1 - rect->top, memdc, rect->left, rect->top, SRCCOPY); DeleteDC(memdc); } //=========================================================================== void Win32Frame::DrawButton (HDC passdc, int number) { FrameReleaseDC(); HDC dc = (passdc ? passdc : GetDC(g_hFrameWindow)); int x = buttonx; int y = buttony+number*BUTTONCY; if (number == buttondown) { int loop = 0; while (loop++ < 3) Draw3dRect(dc,x+loop,y+loop,x+BUTTONCX,y+BUTTONCY,0); RECT rect = {0,0,39,39}; DrawBitmapRect(dc,x+4,y+4,&rect,buttonbitmap[number]); } else { Draw3dRect(dc,x+1,y+1,x+BUTTONCX,y+BUTTONCY,1); Draw3dRect(dc,x+2,y+2,x+BUTTONCX-1,y+BUTTONCY-1,1); RECT rect = {1,1,40,40}; DrawBitmapRect(dc,x+3,y+3,&rect,buttonbitmap[number]); } if ((number == BTN_DRIVE1) || (number == BTN_DRIVE2)) { int offset = (number == buttondown) << 1; RECT rect = {x+offset+3, y+offset+31, x+offset+42, y+offset+42}; SelectObject(dc,smallfont); SetTextColor(dc,RGB(0,0,0)); SetTextAlign(dc,TA_CENTER | TA_TOP); SetBkMode(dc,TRANSPARENT); LPCTSTR pszBaseName = (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) ? dynamic_cast(GetCardMgr().GetRef(SLOT6)).GetBaseName(number-BTN_DRIVE1).c_str() : ""; ExtTextOut(dc,x+offset+22,rect.top,ETO_CLIPPED,&rect, pszBaseName, MIN(8,_tcslen(pszBaseName)), NULL); } if (!passdc) ReleaseDC(g_hFrameWindow,dc); } //=========================================================================== // NB. x=y=0 means erase only void Win32Frame::DrawCrosshairs (int x, int y) { static int lastx = 0; static int lasty = 0; FrameReleaseDC(); HDC dc = GetDC(g_hFrameWindow); #define LINE(x1,y1,x2,y2) MoveToEx(dc,x1,y1,NULL); LineTo(dc,x2,y2); // ERASE THE OLD CROSSHAIRS if (lastx && lasty) if (g_bIsFullScreen) { int loop = 4; while (loop--) { RECT rect = {0,0,5,5}; switch (loop) { case 0: OffsetRect(&rect, GetFullScreenOffsetX()+lastx-2, GetFullScreenOffsetY()+viewporty-5); break; case 1: OffsetRect(&rect, GetFullScreenOffsetX()+lastx-2, GetFullScreenOffsetY()+viewporty+g_nViewportCY); break; case 2: OffsetRect(&rect, GetFullScreenOffsetX()+viewportx-5, GetFullScreenOffsetY()+lasty-2); break; case 3: OffsetRect(&rect, GetFullScreenOffsetX()+viewportx+g_nViewportCX, GetFullScreenOffsetY()+lasty-2); break; } FillRect(dc, &rect, (HBRUSH)GetStockObject(BLACK_BRUSH)); } } else { int loop = 5; while (loop--) { switch (loop) { case 0: SelectObject(dc,GetStockObject(BLACK_PEN)); break; case 1: // fall through case 2: SelectObject(dc,btnshadowpen); break; case 3: // fall through case 4: SelectObject(dc,btnfacepen); break; } LINE(lastx-2,VIEWPORTY-loop-1, lastx+3,VIEWPORTY-loop-1); LINE(VIEWPORTX-loop-1,lasty-2, VIEWPORTX-loop-1,lasty+3); if ((loop == 1) || (loop == 2)) SelectObject(dc,btnhighlightpen); LINE(lastx-2,VIEWPORTY+g_nViewportCY+loop, lastx+3,VIEWPORTY+g_nViewportCY+loop); LINE(VIEWPORTX+g_nViewportCX+loop,lasty-2, VIEWPORTX+g_nViewportCX+loop,lasty+3); } } // DRAW THE NEW CROSSHAIRS if (x && y) { if (g_bIsFullScreen) { int loop = 4; while (loop--) { if ((loop == 1) || (loop == 2)) SelectObject(dc,GetStockObject(WHITE_PEN)); else SelectObject(dc,GetStockObject(BLACK_PEN)); LINE(GetFullScreenOffsetX()+x+loop-2, GetFullScreenOffsetY()+viewporty-5, GetFullScreenOffsetX()+x+loop-2, GetFullScreenOffsetY()+viewporty); LINE(GetFullScreenOffsetX()+x+loop-2, GetFullScreenOffsetY()+viewporty+g_nViewportCY+4, GetFullScreenOffsetX()+x+loop-2, GetFullScreenOffsetY()+viewporty+g_nViewportCY-1); LINE(GetFullScreenOffsetX()+viewportx-5, GetFullScreenOffsetY()+y+loop-2, GetFullScreenOffsetX()+viewportx, GetFullScreenOffsetY()+y+loop-2); LINE(GetFullScreenOffsetX()+viewportx+g_nViewportCX+4, GetFullScreenOffsetY()+y+loop-2, GetFullScreenOffsetX()+viewportx+g_nViewportCX-1, GetFullScreenOffsetY()+y+loop-2); } } else { int loop = 4; while (loop--) { if ((loop == 1) || (loop == 2)) SelectObject(dc,GetStockObject(WHITE_PEN)); else SelectObject(dc,GetStockObject(BLACK_PEN)); LINE(x+loop-2,viewporty-5, x+loop-2,viewporty); LINE(x+loop-2,viewporty+g_nViewportCY+4, x+loop-2,viewporty+g_nViewportCY-1); LINE(viewportx-5, y+loop-2, viewportx, y+loop-2); LINE(viewportx+g_nViewportCX+4,y+loop-2, viewportx+g_nViewportCX-1,y+loop-2); } } } #undef LINE lastx = x; lasty = y; ReleaseDC(g_hFrameWindow,dc); } //=========================================================================== void Win32Frame::DrawFrameWindow (bool bPaintingWindow/*=false*/) { FrameReleaseDC(); PAINTSTRUCT ps; HDC dc = bPaintingWindow ? BeginPaint(g_hFrameWindow,&ps) : GetDC(g_hFrameWindow); if (!g_bIsFullScreen) { // DRAW THE 3D BORDER AROUND THE EMULATED SCREEN Draw3dRect(dc, VIEWPORTX-2,VIEWPORTY-2, VIEWPORTX+g_nViewportCX+2,VIEWPORTY+g_nViewportCY+2, 0); Draw3dRect(dc, VIEWPORTX-3,VIEWPORTY-3, VIEWPORTX+g_nViewportCX+3,VIEWPORTY+g_nViewportCY+3, 0); SelectObject(dc,btnfacepen); Rectangle(dc, VIEWPORTX-4,VIEWPORTY-4, VIEWPORTX+g_nViewportCX+4,VIEWPORTY+g_nViewportCY+4); Rectangle(dc, VIEWPORTX-5,VIEWPORTY-5, VIEWPORTX+g_nViewportCX+5,VIEWPORTY+g_nViewportCY+5); // DRAW THE TOOLBAR BUTTONS int iButton = BUTTONS; while (iButton--) { DrawButton(dc,iButton); } if (g_nViewportScale == 2 || GetVideo().HasVidHD()) { const int x = buttonx + 1; const int y = buttony + BUTTONS * BUTTONCY + 36; // 36 = height of StatusArea RECT rect = { x, y, x + BUTTONCX, y + BUTTONS * BUTTONCY + 22 }; if (GetVideo().HasVidHD()) { if (g_nViewportScale == 1) rect.bottom += 14; else rect.bottom += 32; } int res = FillRect(dc, &rect, btnfacebrush); } } // DRAW THE STATUS AREA DrawStatusArea(dc,DRAW_BACKGROUND | DRAW_LEDS | DRAW_DISK_STATUS); // DRAW THE CONTENTS OF THE EMULATED SCREEN if (g_nAppMode == MODE_LOGO) DisplayLogo(); else if (g_nAppMode == MODE_DEBUG) DebugDisplay(); else VideoRedrawScreen(); if (bPaintingWindow) EndPaint(g_hFrameWindow,&ps); else ReleaseDC(g_hFrameWindow,dc); } //=========================================================================== bool Win32Frame::IsFullScreen(void) { return g_bIsFullScreen; } bool Win32Frame::GetFullScreenShowSubunitStatus(void) { return g_bFullScreen_ShowSubunitStatus; } void Win32Frame::SetFullScreenShowSubunitStatus(bool bShow) { g_bFullScreen_ShowSubunitStatus = bShow; } void Win32Frame::FrameDrawDiskLEDS() { FrameDrawDiskLEDS((HDC)0); } //=========================================================================== void Win32Frame::FrameDrawDiskLEDS( HDC passdc ) { g_eStatusDrive1 = DISK_STATUS_OFF; g_eStatusDrive2 = DISK_STATUS_OFF; // Slot6 drive takes priority unless it's off: if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) dynamic_cast(GetCardMgr().GetRef(SLOT6)).GetLightStatus(&g_eStatusDrive1, &g_eStatusDrive2); // Slot5: { Disk_Status_e eDrive1StatusSlot5 = DISK_STATUS_OFF; Disk_Status_e eDrive2StatusSlot5 = DISK_STATUS_OFF; if (GetCardMgr().QuerySlot(SLOT5) == CT_Disk2) dynamic_cast(GetCardMgr().GetRef(SLOT5)).GetLightStatus(&eDrive1StatusSlot5, &eDrive2StatusSlot5); if (g_eStatusDrive1 == DISK_STATUS_OFF) g_eStatusDrive1 = eDrive1StatusSlot5; if (g_eStatusDrive2 == DISK_STATUS_OFF) g_eStatusDrive2 = eDrive2StatusSlot5; } // Draw Track/Sector FrameReleaseDC(); HDC dc = (passdc ? passdc : GetDC(g_hFrameWindow)); int x = buttonx; int y = buttony+BUTTONS*BUTTONCY+1; if (g_bIsFullScreen) { if (!g_bFullScreen_ShowSubunitStatus) return; SelectObject(dc,smallfont); SetBkMode(dc,OPAQUE); SetBkColor(dc,RGB(0,0,0)); SetTextAlign(dc,TA_LEFT | TA_TOP); SetTextColor(dc, g_aDiskFullScreenColorsLED[g_eStatusDrive1] ); TextOut(dc,x+ 3,y+2,TEXT("1"),1); SetTextColor(dc, g_aDiskFullScreenColorsLED[g_eStatusDrive2] ); TextOut(dc,x+13,y+2,TEXT("2"),1); } else { RECT rDiskLed = {0,0,8,8}; DrawBitmapRect(dc,x+12,y+6,&rDiskLed,g_hDiskWindowedLED[g_eStatusDrive1]); DrawBitmapRect(dc,x+31,y+6,&rDiskLed,g_hDiskWindowedLED[g_eStatusDrive2]); } } void Win32Frame::FrameDrawDiskStatus() { FrameDrawDiskStatus((HDC)0); } // Feature Request #201 Show track status // https://github.com/AppleWin/AppleWin/issues/201 //=========================================================================== void Win32Frame::FrameDrawDiskStatus( HDC passdc ) { if (mem == NULL) return; if (g_nAppMode == MODE_LOGO) return; if (g_windowMinimized) // Prevent DC leaks when app window is minimised (GH#820) return; // We use the actual drive since probing from memory doesn't tell us anything we don't already know. // DOS3.3 ProDOS // Drive $B7EA $BE3D // Track $B7EC LC1 $D356 // Sector $B7ED LC1 $D357 // RWTS LC1 $D300 if (GetCardMgr().QuerySlot(SLOT6) != CT_Disk2) return; Disk2InterfaceCard& disk2Card = dynamic_cast(GetCardMgr().GetRef(SLOT6)); int nActiveFloppy = disk2Card.GetCurrentDrive(); int nDisk1Track = disk2Card.GetTrack(DRIVE_1); int nDisk2Track = disk2Card.GetTrack(DRIVE_2); // Probe known OS's for Track/Sector int isProDOS = mem[ 0xBF00 ] == 0x4C; bool isValid = true; // Try DOS3.3 Sector if ( !isProDOS ) { int nDOS33track = mem[ 0xB7EC ]; int nDOS33sector = mem[ 0xB7ED ]; if ((nDOS33track >= 0 && nDOS33track < 40) && (nDOS33sector >= 0 && nDOS33sector < 16)) { #if _DEBUG && 0 if (nDOS33track != nDisk1Track) { LogOutput( "\n\n\nWARNING: DOS33Track: %d (%02X) != nDisk1Track: %d (%02X)\n\n\n", nDOS33track, nDOS33track, nDisk1Track, nDisk1Track ); } #endif // _DEBUG /**/ if (nActiveFloppy == 0) g_nSectorDrive1 = nDOS33sector; else if (nActiveFloppy == 1) g_nSectorDrive2 = nDOS33sector; } else isValid = false; } else // isProDOS { // we can't just read from mem[ 0xD357 ] since it might be bank-switched from ROM // and we need the Language Card RAM // memrom[ 0xD350 ] = " ERROR\x07\x00" Applesoft error message // T S int nProDOStrack = *MemGetMainPtr( 0xC356 ); // LC1 $D356 int nProDOSsector = *MemGetMainPtr( 0xC357 ); // LC1 $D357 if ((nProDOStrack >= 0 && nProDOStrack < 40) && (nProDOSsector >= 0 && nProDOSsector < 16)) { /**/ if (nActiveFloppy == 0) g_nSectorDrive1 = nProDOSsector; else if (nActiveFloppy == 1) g_nSectorDrive2 = nProDOSsector; } else isValid = false; } g_nTrackDrive1 = nDisk1Track; g_nTrackDrive2 = nDisk2Track; if( !isValid ) { if (nActiveFloppy == 0) g_nSectorDrive1 = -1; else g_nSectorDrive2 = -1; } g_strTrackDrive1 = StrFormat( "%2d", g_nTrackDrive1 ); g_strSectorDrive1 = (g_nSectorDrive1 < 0) ? "??" : StrFormat( "%2d", g_nSectorDrive1 ); g_strTrackDrive2 = StrFormat( "%2d", g_nTrackDrive2 ); g_strSectorDrive2 = (g_nSectorDrive2 < 0) ? "??" : StrFormat( "%2d", g_nSectorDrive2 ); // Draw Track/Sector FrameReleaseDC(); HDC dc = (passdc ? passdc : GetDC(g_hFrameWindow)); int x = buttonx; int y = buttony+BUTTONS*BUTTONCY+4; SelectObject(dc,smallfont); SetBkMode(dc,OPAQUE); SetBkColor(dc,RGB(0,0,0)); SetTextAlign(dc,TA_LEFT | TA_TOP); if (g_bIsFullScreen) { // GH#57 - drive lights in full screen mode if (!g_bFullScreen_ShowSubunitStatus) return; SetTextColor(dc, g_aDiskFullScreenColorsLED[ g_eStatusDrive1 ]); TextOut(dc, x+ 3, y+2, TEXT("1"), 1); SetTextColor(dc, g_aDiskFullScreenColorsLED[ g_eStatusDrive2 ]); TextOut(dc, x+13, y+2, TEXT("2"), 1); int dx = 0; std::string text = ( nActiveFloppy == 0 ) ? StrFormat( "%s/%s ", g_strTrackDrive1.c_str(), g_strSectorDrive1.c_str() ) : StrFormat( "%s/%s ", g_strTrackDrive2.c_str(), g_strSectorDrive2.c_str() ); SetTextColor(dc, g_aDiskFullScreenColorsLED[ DISK_STATUS_READ ] ); TextOut(dc, x+dx, y-12, text.c_str(), text.length()); // original: y+2; y-12 puts status in the Configuration Button Icon } else { // NB. Only draw Track/Sector if 2x windowed if (g_nViewportScale == 1) return; // Erase background SelectObject(dc, GetStockObject(NULL_PEN)); SelectObject(dc, btnfacebrush); Rectangle(dc, x+4, y+32, x+BUTTONCX+1, y+56); // y+35 -> 44 -> 56 SetTextColor(dc, RGB(0,0,0)); SetBkMode(dc, TRANSPARENT); std::string text; text = "T" + g_strTrackDrive1; TextOut(dc, x+6, y+32, text.c_str(), text.length()); text = "S" + g_strSectorDrive1; TextOut(dc, x+6, y+42, text.c_str(), text.length()); text = "T" + g_strTrackDrive2; TextOut(dc, x+26, y+32, text.c_str(), text.length()); text = "S" + g_strSectorDrive2; TextOut(dc, x+26, y+42, text.c_str(), text.length()); } } //=========================================================================== void Win32Frame::DrawStatusArea (HDC passdc, int drawflags) { if (g_hFrameWindow == NULL) { // TC: Fix drawing of drive buttons before frame created: // . Main init loop: LoadConfiguration() called before FrameCreateWindow(), eg: // LoadConfiguration() -> Disk_LoadLastDiskImage() -> DiskInsert() -> GetFrame().FrameRefreshStatus() return; } FrameReleaseDC(); HDC dc = (passdc ? passdc : GetDC(g_hFrameWindow)); int x = buttonx; int y = buttony+BUTTONS*BUTTONCY+1; const bool bCaps = KeybGetCapsStatus(); Disk_Status_e eHardDriveStatus = DISK_STATUS_OFF; if (GetCardMgr().QuerySlot(SLOT7) == CT_GenericHDD) dynamic_cast(GetCardMgr().GetRef(SLOT7)).GetLightStatus(&eHardDriveStatus); if (g_bIsFullScreen) { if (!g_bFullScreen_ShowSubunitStatus) { // Erase Config button icon too, as trk/sec is written here - see FrameDrawDiskStatus() RECT rect = {x-2,y-BUTTONCY,x+BUTTONCX+2,y+BUTTONCY}; // Extend rect's width by +/-2 as the TITLE_PAUSED text is wider than an icon button FillRect(dc, &rect, (HBRUSH)GetStockObject(BLACK_BRUSH)); } else { SelectObject(dc,smallfont); if (drawflags & DRAW_DISK_STATUS) { FrameDrawDiskStatus(dc); } SetTextAlign(dc, TA_RIGHT | TA_TOP); SetTextColor(dc, g_aDiskFullScreenColorsLED[ eHardDriveStatus ] ); TextOut(dc,x+23,y+2,TEXT("H"),1); if (!IS_APPLE2) { SetTextAlign(dc,TA_RIGHT | TA_TOP); SetTextColor(dc,(bCaps ? RGB(128,128,128) : RGB( 0, 0, 0) )); TextOut(dc,x+BUTTONCX,y+2,TEXT("A"),1); // NB. Caps Lock indicator is already flush right! } // static const char* pCurrentAppModeText = NULL; const char* const pNewAppModeText = (g_nAppMode == MODE_PAUSED) ? TITLE_PAUSED : (g_nAppMode == MODE_STEPPING) ? TITLE_STEPPING : NULL; SetTextAlign(dc, TA_CENTER | TA_TOP); if (pCurrentAppModeText && pNewAppModeText != pCurrentAppModeText) { SetTextColor(dc, RGB(0,0,0)); TextOut(dc, x+BUTTONCX/2, y+13, pCurrentAppModeText, strlen(pCurrentAppModeText)); pCurrentAppModeText = NULL; } if (pNewAppModeText) { SetTextColor(dc, RGB(255,255,255)); TextOut(dc, x+BUTTONCX/2, y+13, pNewAppModeText, strlen(pNewAppModeText)); pCurrentAppModeText = pNewAppModeText; } } } else // !g_bIsFullScreen { if (drawflags & DRAW_BACKGROUND) { SelectObject(dc,GetStockObject(NULL_PEN)); SelectObject(dc,btnfacebrush); Rectangle(dc,x,y,x+BUTTONCX+2,y+34); Draw3dRect(dc,x+1,y+3,x+BUTTONCX,y+30,0); SelectObject(dc,smallfont); SetTextAlign(dc,TA_CENTER | TA_TOP); SetTextColor(dc,RGB(0,0,0)); SetBkMode(dc,TRANSPARENT); TextOut(dc,x+ 7,y+5,TEXT("1"),1); TextOut(dc,x+27,y+5,TEXT("2"),1); // 1.19.0.0 Hard Disk Status/Indicator Light TextOut(dc,x+ 7,y+17,TEXT("H"),1); } if (drawflags & DRAW_LEDS) { FrameDrawDiskLEDS( dc ); if (drawflags & DRAW_DISK_STATUS) FrameDrawDiskStatus( dc ); if (!IS_APPLE2) { RECT rCapsLed = {0,0,10,12}; // HACK: HARD-CODED bitmaps size switch (g_Apple2Type) { case A2TYPE_APPLE2 : case A2TYPE_APPLE2PLUS : case A2TYPE_APPLE2E : case A2TYPE_APPLE2EENHANCED: default : DrawBitmapRect(dc,x+31,y+17,&rCapsLed,g_hCapsLockBitmap[bCaps != 0]); break; case A2TYPE_PRAVETS82 : case A2TYPE_PRAVETS8M : DrawBitmapRect(dc,x+31,y+17,&rCapsLed,g_hCapsBitmapP8 [bCaps != 0]); break; // TODO: FIXME: Shouldn't one of these use g_hCapsBitmapLat ?? case A2TYPE_PRAVETS8A : DrawBitmapRect(dc,x+31,y+17,&rCapsLed,g_hCapsBitmapP8 [bCaps != 0]); break; } RECT rDiskLed = {0,0,8,8}; DrawBitmapRect(dc,x+12,y+18,&rDiskLed,g_hDiskWindowedLED[eHardDriveStatus]); } } if (drawflags & DRAW_TITLE) { GetAppleWindowTitle(); // SetWindowText() // WindowTitle SendMessage(g_hFrameWindow,WM_SETTEXT,0,(LPARAM)g_pAppTitle.c_str()); } if (drawflags & DRAW_BUTTON_DRIVES) { DrawButton(dc, BTN_DRIVE1); DrawButton(dc, BTN_DRIVE2); } } if (!passdc) ReleaseDC(g_hFrameWindow,dc); } //=========================================================================== void Win32Frame::EraseButton (int number) { RECT rect; rect.left = buttonx; rect.right = rect.left+BUTTONCX; rect.top = buttony+number*BUTTONCY; rect.bottom = rect.top+BUTTONCY; InvalidateRect(g_hFrameWindow,&rect,1); } //=========================================================================== LRESULT CALLBACK Win32Frame::FrameWndProc( HWND window, UINT message, WPARAM wparam, LPARAM lparam) { Win32Frame& win32Frame = Win32Frame::GetWin32Frame(); return win32Frame.WndProc(window, message, wparam, lparam); } LRESULT Win32Frame::WndProc( HWND window, UINT message, WPARAM wparam, LPARAM lparam) { switch (message) { case WM_ACTIVATE: // Sent when window is activated/deactivated. wParam indicates WA_ACTIVE, WA_INACTIVE, etc // Eg. Deactivate when Config dialog is active, AppleWin app loses focus, etc JoyReset(); SetUsingCursor(FALSE); RevealCursor(); FullScreenRevealCursor(); g_bFrameActive = (wparam != WA_INACTIVE); break; case WM_ACTIVATEAPP: // Sent when different app's window is activated/deactivated. // Eg. Deactivate when AppleWin app loses focus g_bAppActive = (wparam ? TRUE : FALSE); break; case WM_SIZE: switch(wparam) { case SIZE_RESTORED: case SIZE_MAXIMIZED: g_windowMinimized = false; break; case SIZE_MINIMIZED: g_windowMinimized = true; break; default: // SIZE_MAXSHOW, SIZE_MAXHIDE break; } break; case WM_CLOSE: LogFileOutput("WM_CLOSE\n"); if (g_bIsFullScreen && g_bRestart) g_bRestartFullScreen = true; if (g_bIsFullScreen) SetNormalMode(); if (!IsIconic(window)) GetWindowRect(window,&framerect); RegSaveValue(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_WINDOW_X_POS), 1, framerect.left); RegSaveValue(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_WINDOW_Y_POS), 1, framerect.top); FrameReleaseDC(); SetUsingCursor(FALSE); if (helpquit) { helpquit = 0; HtmlHelp(NULL,NULL,HH_CLOSE_ALL,0); } if (g_TimerIDEvent_100msec) { BOOL bRes = KillTimer(g_hFrameWindow, g_TimerIDEvent_100msec); LogFileOutput("KillTimer(g_TimerIDEvent_100msec), res=%d\n", bRes ? 1 : 0); g_TimerIDEvent_100msec = 0; } LogFileOutput("WM_CLOSE (done)\n"); // Exit via DefWindowProc(), which does the default action for WM_CLOSE, which is to call DestroyWindow(), posting WM_DESTROY break; case WM_DESTROY: LogFileOutput("WM_DESTROY\n"); DragAcceptFiles(window,0); if (!g_bRestart) // GH#564: Only save-state on shutdown (not on a restart) Snapshot_Shutdown(); DebugDestroy(); if (!g_bRestart) { GetCardMgr().GetDisk2CardMgr().Destroy(); if (GetCardMgr().QuerySlot(SLOT7) == CT_GenericHDD) dynamic_cast(GetCardMgr().GetRef(SLOT7)).Destroy(); } PrintDestroy(); if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommDestroy(); CpuDestroy(); MemDestroy(); SpkrDestroy(); Destroy(); MB_Destroy(); DeleteGdiObjects(); DIMouse::DirectInputUninit(window); // NB. do before window is destroyed PostQuitMessage(0); // Post WM_QUIT message to the thread's message queue g_hFrameWindow = (HWND)0; LogFileOutput("WM_DESTROY (done)\n"); break; case WM_CREATE: LogFileOutput("WM_CREATE\n"); g_hFrameWindow = window; // NB. g_hFrameWindow by CreateWindow() CreateGdiObjects(); LogFileOutput("WM_CREATE: CreateGdiObjects()\n"); DSInit(); LogFileOutput("WM_CREATE: DSInit()\n"); DIMouse::DirectInputInit(window); LogFileOutput("WM_CREATE: DIMouse::DirectInputInit()\n"); MB_Initialize(); LogFileOutput("WM_CREATE: MB_Initialize()\n"); SpkrInitialize(); LogFileOutput("WM_CREATE: SpkrInitialize()\n"); DragAcceptFiles(window,1); LogFileOutput("WM_CREATE: DragAcceptFiles()\n"); LogFileOutput("WM_CREATE (done)\n"); break; case WM_DDE_INITIATE: { LogFileOutput("WM_DDE_INITIATE\n"); ATOM application = GlobalAddAtom(TEXT("applewin")); ATOM topic = GlobalAddAtom(TEXT("system")); if(LOWORD(lparam) == application && HIWORD(lparam) == topic) SendMessage((HWND)wparam,WM_DDE_ACK,(WPARAM)window,MAKELPARAM(application,topic)); GlobalDeleteAtom(application); GlobalDeleteAtom(topic); LogFileOutput("WM_DDE_INITIATE (done)\n"); break; } case WM_DDE_EXECUTE: { LogFileOutput("WM_DDE_EXECUTE\n"); if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) { Disk2InterfaceCard& disk2Card = dynamic_cast(GetCardMgr().GetRef(SLOT6)); LPTSTR filename = (LPTSTR)GlobalLock((HGLOBAL)lparam); ImageError_e Error = disk2Card.InsertDisk(DRIVE_1, filename, IMAGE_USE_FILES_WRITE_PROTECT_STATUS, IMAGE_DONT_CREATE); if (Error == eIMAGE_ERROR_NONE) { if (!g_bIsFullScreen) DrawButton((HDC)0,BTN_DRIVE1); PostMessage(window, WM_USER_BOOT, 0, 0); } else { disk2Card.NotifyInvalidImage(DRIVE_1, filename, Error); } } GlobalUnlock((HGLOBAL)lparam); LogFileOutput("WM_DDE_EXECUTE (done)\n"); break; } case WM_DISPLAYCHANGE: GetVideo().VideoReinitialize(false); break; case WM_DROPFILES: { if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) { Disk2InterfaceCard& disk2Card = dynamic_cast(GetCardMgr().GetRef(SLOT6)); TCHAR filename[MAX_PATH]; DragQueryFile((HDROP)wparam,0,filename,sizeof(filename)); POINT point; DragQueryPoint((HDROP)wparam,&point); RECT rect; rect.left = buttonx; rect.right = rect.left+BUTTONCX+1; rect.top = buttony+BTN_DRIVE2*BUTTONCY+1; rect.bottom = rect.top+BUTTONCY; const int iDrive = PtInRect(&rect,point) ? DRIVE_2 : DRIVE_1; ImageError_e Error = disk2Card.InsertDisk(iDrive, filename, IMAGE_USE_FILES_WRITE_PROTECT_STATUS, IMAGE_DONT_CREATE); if (Error == eIMAGE_ERROR_NONE) { if (!g_bIsFullScreen) DrawButton((HDC)0,PtInRect(&rect,point) ? BTN_DRIVE2 : BTN_DRIVE1); rect.top = buttony+BTN_DRIVE1*BUTTONCY+1; if (!PtInRect(&rect,point)) { SetForegroundWindow(window); ProcessButtonClick(BTN_RUN); } } else { disk2Card.NotifyInvalidImage(iDrive, filename, Error); } } DragFinish((HDROP)wparam); break; } // @see: http://answers.google.com/answers/threadview?id=133059 // Win32 doesn't pass the PrintScreen key via WM_CHAR // else if (wparam == VK_SNAPSHOT) // Solution: 2 choices: // 1) register hotkey, or // 2) Use low level Keyboard hooks // We use the 1st one since it is compatible with Win95 case WM_HOTKEY: // wparam = user id // lparam = modifiers: shift, ctrl, alt, win if (wparam == VK_SNAPSHOT_560) { Video_TakeScreenShot( Video::SCREENSHOT_560x384 ); } else if (wparam == VK_SNAPSHOT_280) // ( lparam & MOD_SHIFT ) { Video_TakeScreenShot( Video::SCREENSHOT_280x192 ); } else if (wparam == VK_SNAPSHOT_TEXT) // ( lparam & MOD_CONTROL ) { char *pText; size_t nSize = 0; // if viewing the debugger, get the last virtual debugger screen if ((g_nAppMode == MODE_DEBUG) && !DebugGetVideoMode(NULL)) nSize = Util_GetDebuggerText( pText ); else nSize = Util_GetTextScreen( pText ); Util_CopyTextToClipboard( nSize, pText ); } break; case WM_KEYDOWN: KeybUpdateCtrlShiftStatus(); // Processing is done in WM_KEYUP for: VK_F1 VK_F2 VK_F3 VK_F4 VK_F5 VK_F6 VK_F7 VK_F8 if ((wparam >= VK_F1) && (wparam <= VK_F8) && (buttondown == -1)) { SetUsingCursor(FALSE); buttondown = wparam-VK_F1; if (g_bIsFullScreen && (buttonover != -1)) { if (buttonover != buttondown) EraseButton(buttonover); buttonover = -1; } DrawButton((HDC)0,buttondown); } else if (wparam == VK_F9) { // F9 Next Video Mode // SHIFT+F9 Prev Video Mode // CTRL+SHIFT+F9 Toggle 50% Scan Lines // ALT+F9 Can't use Alt-F9 as Alt is Open-Apple = Joystick Button #1 if ( !KeybGetCtrlStatus() && !KeybGetShiftStatus() ) // F9 { GetVideo().IncVideoType(); } else if ( !KeybGetCtrlStatus() && KeybGetShiftStatus() ) // SHIFT+F9 { GetVideo().DecVideoType(); } else if ( KeybGetCtrlStatus() && KeybGetShiftStatus() ) // CTRL+SHIFT+F9 { GetVideo().SetVideoStyle( (VideoStyle_e) (GetVideo().GetVideoStyle() ^ VS_HALF_SCANLINES) ); } // TODO: Clean up code:FrameRefreshStatus(DRAW_TITLE) DrawStatusArea((HDC)0,DRAW_TITLE) DrawStatusArea( (HDC)0, DRAW_TITLE ); ApplyVideoModeChange(); } else if (wparam == VK_F10) { if (g_Apple2Type == A2TYPE_APPLE2E || g_Apple2Type == A2TYPE_APPLE2EENHANCED || g_Apple2Type == A2TYPE_BASE64A) { GetVideo().SetVideoRomRockerSwitch( !GetVideo().GetVideoRomRockerSwitch() ); // F10: toggle rocker switch NTSC_VideoInitAppleType(); } else if (g_Apple2Type == A2TYPE_PRAVETS8A) { GetPravets().ToggleP8ACapsLock(); // F10: Toggles Pravets8A Capslock } } else if (wparam == VK_F11 && !KeybGetCtrlStatus()) // Save state (F11) { SoundCore_SetFade(FADE_OUT); if(GetPropertySheet().SaveStateSelectImage(window, true)) { Snapshot_SaveState(); } SoundCore_SetFade(FADE_IN); } else if (wparam == VK_F12) // Load state (F12 or Ctrl+F12) { SoundCore_SetFade(FADE_OUT); if(GetPropertySheet().SaveStateSelectImage(window, false)) { Snapshot_LoadState(); } SoundCore_SetFade(FADE_IN); } else if (wparam == VK_CAPITAL) { KeybToggleCapsLock(); } else if (wparam == VK_PAUSE) { SetUsingCursor(FALSE); switch (g_nAppMode) { case MODE_RUNNING: g_nAppMode = MODE_PAUSED; SoundCore_SetFade(FADE_OUT); RevealCursor(); break; case MODE_PAUSED: g_nAppMode = MODE_RUNNING; SoundCore_SetFade(FADE_IN); // Don't call FrameShowCursor(FALSE) else ClipCursor() won't be called break; case MODE_STEPPING: SoundCore_SetFade(FADE_OUT); DebugStopStepping(); break; } DrawStatusArea((HDC)0,DRAW_TITLE); if ((g_nAppMode != MODE_LOGO) && (g_nAppMode != MODE_DEBUG)) VideoRedrawScreen(); } else if ((wparam == VK_SCROLL) && GetPropertySheet().GetScrollLockToggle()) { g_bScrollLock_FullSpeed = !g_bScrollLock_FullSpeed; } else if ((g_nAppMode == MODE_RUNNING) || (g_nAppMode == MODE_LOGO) || (g_nAppMode == MODE_STEPPING)) { // NB. Alt Gr (Right-Alt): this normally send 2 WM_KEYDOWN messages for: VK_LCONTROL, then VK_RMENU // . NB. The keyboard hook filter will suppress VK_LCONTROL (if -hook-altgr-control is passed on the cmd-line) bool extended = (HIWORD(lparam) & KF_EXTENDED) != 0; bool down = true; bool autorep = (HIWORD(lparam) & KF_REPEAT) != 0; BOOL IsJoyKey = JoyProcessKey((int)wparam, extended, down, autorep); #if DEBUG_KEY_MESSAGES LogOutput("WM_KEYDOWN: %08X (scanCode=%04X)\n", wparam, (lparam>>16)&0xfff); #endif if (!IsJoyKey && (g_nAppMode != MODE_LOGO)) // !MODE_LOGO - not emulating so don't pass to the VM's keyboard { // GH#678 Alternate key(s) to toggle max speed // . Ctrl-0: Toggle speed: custom speed / Full-Speed // . Ctrl-1: Speed = 1 MHz // . Ctrl-3: Speed = Full-Speed bool keyHandled = false; if( KeybGetCtrlStatus() && !KeybGetAltStatus() && // GH#749 - AltGr also fakes CTRL being pressed! wparam >= '0' && wparam <= '9' ) { switch (wparam) { case '0': // Toggle speed: custom speed / Full-Speed if (g_dwSpeed == SPEED_MAX) REGLOAD_DEFAULT(TEXT(REGVALUE_EMULATION_SPEED), &g_dwSpeed, SPEED_NORMAL); else g_dwSpeed = SPEED_MAX; keyHandled = true; break; case '1': // Speed = 1 MHz g_dwSpeed = SPEED_NORMAL; REGSAVE(TEXT(REGVALUE_EMULATION_SPEED), g_dwSpeed); keyHandled = true; break; case '3': // Speed = Full-Speed g_dwSpeed = SPEED_MAX; keyHandled = true; break; default: break; } if (keyHandled) SetCurrentCLK6502(); } if (!keyHandled) KeybQueueKeypress(wparam, NOT_ASCII); if (!autorep) KeybAnyKeyDown(WM_KEYDOWN, wparam, extended); } } else if (g_nAppMode == MODE_DEBUG) { DebuggerProcessKey(wparam); // Debugger already active, re-direct key to debugger } break; case WM_CHAR: if ((g_nAppMode == MODE_RUNNING) || (g_nAppMode == MODE_STEPPING) || (g_nAppMode == MODE_LOGO)) { if (!g_bDebuggerEatKey) { #if DEBUG_KEY_MESSAGES LogOutput("WM_CHAR: %08X\n", wparam); #endif if (g_nAppMode != MODE_LOGO) // !MODE_LOGO - not emulating so don't pass to the VM's keyboard KeybQueueKeypress(wparam, ASCII); } g_bDebuggerEatKey = false; } else if (g_nAppMode == MODE_DEBUG) { DebuggerInputConsoleChar((TCHAR)wparam); } break; case WM_KEYUP: if ((wparam >= VK_F1) && (wparam <= VK_F8) && (buttondown == (int)wparam-VK_F1)) { buttondown = -1; if (g_bIsFullScreen) EraseButton(wparam-VK_F1); else DrawButton((HDC)0,wparam-VK_F1); const int iButton = wparam-VK_F1; if (KeybGetCtrlStatus() && (wparam == VK_F3 || wparam == VK_F4)) // Ctrl+F3/F4 for drive pop-up menu (GH#817) { POINT pt; // location of mouse click pt.x = buttonx + BUTTONCX/2; pt.y = buttony + BUTTONCY/2 + iButton * BUTTONCY; const int iDrive = wparam - VK_F3; ProcessDiskPopupMenu( window, pt, iDrive ); FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES | DRAW_DISK_STATUS); DrawButton((HDC)0, iButton); } else { ProcessButtonClick(iButton, true); } } else { bool extended = (HIWORD(lparam) & KF_EXTENDED) != 0; bool down = false; bool autorep = false; BOOL bIsJoyKey = JoyProcessKey((int)wparam, extended, down, autorep); #if DEBUG_KEY_MESSAGES LogOutput("WM_KEYUP: %08X\n", wparam); #endif if (!bIsJoyKey) KeybAnyKeyDown(WM_KEYUP, wparam, extended); } break; case WM_LBUTTONDOWN: KeybUpdateCtrlShiftStatus(); if (buttondown == -1) { int x = LOWORD(lparam); int y = HIWORD(lparam); if ((x >= buttonx) && (y >= buttony) && (y <= buttony+BUTTONS*BUTTONCY)) { buttonactive = buttondown = (y-buttony-1)/BUTTONCY; DrawButton((HDC)0,buttonactive); SetCapture(window); } else if (g_bUsingCursor && !GetCardMgr().IsMouseCardInstalled()) { if (wparam & (MK_CONTROL | MK_SHIFT)) { SetUsingCursor(FALSE); } else { JoySetButton(BUTTON0, BUTTON_DOWN); } } else if ( ((x < buttonx) && JoyUsingMouse() && ((g_nAppMode == MODE_RUNNING) || (g_nAppMode == MODE_STEPPING))) ) { SetUsingCursor(TRUE); } else if (GetCardMgr().IsMouseCardInstalled()) { if (wparam & (MK_CONTROL | MK_SHIFT)) { RevealCursor(); } else if (g_nAppMode == MODE_RUNNING || g_nAppMode == MODE_STEPPING) { CMouseInterface* pMouseCard = GetCardMgr().GetMouseCard(); if (pMouseCard) { if (!pMouseCard->IsEnabled()) { pMouseCard->SetEnabled(true); POINT Point; GetCursorPos(&Point); ScreenToClient(g_hFrameWindow, &Point); const int iOutOfBoundsX=0, iOutOfBoundsY=0; UpdateMouseInAppleViewport(iOutOfBoundsX, iOutOfBoundsY, Point.x, Point.y); // Don't call SetButton() when 1st enabled (else get the confusing action of both enabling & an Apple mouse click) } else { pMouseCard->SetButton(BUTTON0, BUTTON_DOWN); } } } } DebuggerMouseClick( x, y ); } RelayEvent(WM_LBUTTONDOWN,wparam,lparam); break; case WM_LBUTTONUP: if (buttonactive != -1) { ReleaseCapture(); if (buttondown == buttonactive) { buttondown = -1; if (g_bIsFullScreen) EraseButton(buttonactive); else DrawButton((HDC)0,buttonactive); ProcessButtonClick(buttonactive, true); } buttonactive = -1; } else if (g_bUsingCursor && !GetCardMgr().IsMouseCardInstalled()) { JoySetButton(BUTTON0, BUTTON_UP); } else if (GetCardMgr().IsMouseCardInstalled()) { GetCardMgr().GetMouseCard()->SetButton(BUTTON0, BUTTON_UP); } RelayEvent(WM_LBUTTONUP,wparam,lparam); break; case WM_MOUSEMOVE: { // MSDN: "WM_MOUSEMOVE message" : Do not use the LOWORD or HIWORD macros to extract the x- and y- coordinates... int x = GET_X_LPARAM(lparam); int y = GET_Y_LPARAM(lparam); int newover = (((x >= buttonx) && (x <= buttonx+BUTTONCX) && (y >= buttony) && (y <= buttony+BUTTONS*BUTTONCY)) ? (y-buttony-1)/BUTTONCY : -1); if (buttonactive != -1) { int newdown = (newover == buttonactive) ? buttonactive : -1; if (newdown != buttondown) { buttondown = newdown; DrawButton((HDC)0,buttonactive); } } else if (g_bIsFullScreen && (newover != buttonover) && (buttondown == -1)) { if (buttonover != -1) EraseButton(buttonover); buttonover = newover; if (buttonover != -1) DrawButton((HDC)0,buttonover); } else if (g_bUsingCursor && !GetCardMgr().IsMouseCardInstalled()) { DrawCrosshairs(x,y); JoySetPosition(x-viewportx-2, g_nViewportCX-4, y-viewporty-2, g_nViewportCY-4); } else if (GetCardMgr().IsMouseCardInstalled() && GetCardMgr().GetMouseCard()->IsActiveAndEnabled() && (g_nAppMode == MODE_RUNNING || g_nAppMode == MODE_STEPPING)) { if (g_bLastCursorInAppleViewport) break; // Outside Apple viewport const int iAppleScreenMaxX = g_nViewportCX-1; const int iAppleScreenMaxY = g_nViewportCY-1; const int iBoundMinX = viewportx; const int iBoundMaxX = iAppleScreenMaxX; const int iBoundMinY = viewporty; const int iBoundMaxY = iAppleScreenMaxY; int iOutOfBoundsX=0, iOutOfBoundsY=0; if (x < iBoundMinX) iOutOfBoundsX=-1; if (x > iBoundMaxX) iOutOfBoundsX=1; if (y < iBoundMinY) iOutOfBoundsY=-1; if (y > iBoundMaxY) iOutOfBoundsY=1; UpdateMouseInAppleViewport(iOutOfBoundsX, iOutOfBoundsY, x, y); } FullScreenRevealCursor(); RelayEvent(WM_MOUSEMOVE,wparam,lparam); break; } case WM_TIMER: if (wparam == IDEVENT_TIMER_MOUSE) { // NB. Need to check /g_bAppActive/ since WM_TIMER events still occur after AppleWin app has lost focus if (g_bAppActive && GetCardMgr().IsMouseCardInstalled() && GetCardMgr().GetMouseCard()->IsActiveAndEnabled() && (g_nAppMode == MODE_RUNNING || g_nAppMode == MODE_STEPPING)) { if (!g_bLastCursorInAppleViewport) break; // Inside Apple viewport int iOutOfBoundsX=0, iOutOfBoundsY=0; long dX,dY; if (DIMouse::ReadImmediateData(&dX, &dY) == S_OK) GetCardMgr().GetMouseCard()->SetPositionRel(dX, dY, &iOutOfBoundsX, &iOutOfBoundsY); UpdateMouseInAppleViewport(iOutOfBoundsX, iOutOfBoundsY); } } else if (wparam == IDEVENT_TIMER_100MSEC) // GH#504 { if (g_bIsFullScreen && !GetCardMgr().IsMouseCardInstalled() // Don't interfere if there's a mousecard present! && !g_bUsingCursor // Using mouse for joystick emulation (or mousecard restricted to window) && g_bShowingCursor && g_bFrameActive) // Frame inactive when eg. Config or 'Select Disk Image' dialogs are opened { g_uCount100msec++; if (g_uCount100msec > 20) // Hide every 2sec of mouse inactivity { FrameShowCursor(FALSE); } } } break; // VSCROLL // SB_LINEUP // Line Scrolling // SB_PAGEUP // Page Scrolling case WM_MOUSEWHEEL: if (g_nAppMode == MODE_DEBUG) { KeybUpdateCtrlShiftStatus(); int zDelta = (short) HIWORD( wparam ); if (zDelta > 0) { DebuggerProcessKey( VK_UP ); } else { DebuggerProcessKey( VK_DOWN ); } } break; case WM_NOTIFY: // Tooltips for Drive buttons if (((LPNMTTDISPINFO)lparam)->hdr.hwndFrom == tooltipwindow && ((LPNMTTDISPINFO)lparam)->hdr.code == TTN_GETDISPINFO) { LPNMTTDISPINFO pInfo = (LPNMTTDISPINFO)lparam; SendMessage(pInfo->hdr.hwndFrom, TTM_SETMAXTIPWIDTH, 0, 150); Disk2InterfaceCard *pDisk2Slot5 = NULL, *pDisk2Slot6 = NULL; if (GetCardMgr().QuerySlot(SLOT5) == CT_Disk2) pDisk2Slot5 = dynamic_cast(GetCardMgr().GetObj(SLOT5)); if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) pDisk2Slot6 = dynamic_cast(GetCardMgr().GetObj(SLOT6)); std::string slot5 = pDisk2Slot5 ? pDisk2Slot5->GetFullDiskFilename(((LPNMTTDISPINFO)lparam)->hdr.idFrom) : ""; std::string slot6 = pDisk2Slot6 ? pDisk2Slot6->GetFullDiskFilename(((LPNMTTDISPINFO)lparam)->hdr.idFrom) : ""; if (pDisk2Slot5) { if (slot6.empty()) slot6 = ""; if (slot5.empty()) slot5 = ""; slot6 = std::string("Slot6: ") + slot6; slot5 = std::string("Slot5: ") + slot5; } std::string join = (!slot6.empty() && !slot5.empty()) ? "\r\n" : ""; driveTooltip = slot6 + join + slot5; ((LPNMTTDISPINFO)lparam)->lpszText = (LPTSTR)driveTooltip.c_str(); } break; case WM_PAINT: if (GetUpdateRect(window,NULL,0)){ DrawFrameWindow(true); } break; case WM_PALETTECHANGED: // To avoid creating an infinite loop, a window that receives this // message must not realize its palette, unless it determines that // wParam does not contain its own window handle. if ((HWND)wparam == window) break; // else fall through case WM_QUERYNEWPALETTE: DrawFrameWindow(); break; case WM_RBUTTONDOWN: case WM_RBUTTONUP: if ((buttonover == -1) && (message == WM_RBUTTONUP)) // HACK: BUTTON_NONE { int x = LOWORD(lparam); int y = HIWORD(lparam); if ((x >= buttonx) && (y >= buttony) && (y <= buttony+BUTTONS*BUTTONCY)) { const int iButton = (y-buttony-1)/BUTTONCY; const int iDrive = iButton - BTN_DRIVE1; if ((iButton == BTN_DRIVE1) || (iButton == BTN_DRIVE2)) { { RECT rect; // client area POINT pt; // location of mouse click // Get the bounding rectangle of the client area. GetClientRect(window, (LPRECT) &rect); // Get the client coordinates for the mouse click. pt.x = GET_X_LPARAM(lparam); pt.y = GET_Y_LPARAM(lparam); // If the mouse click took place inside the client // area, execute the application-defined function // that displays the shortcut menu. if (PtInRect((LPRECT) &rect, pt)) ProcessDiskPopupMenu( window, pt, iDrive ); } FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES | DRAW_DISK_STATUS); DrawButton((HDC)0, iButton); } } } if (g_bUsingCursor && !GetCardMgr().IsMouseCardInstalled()) JoySetButton(BUTTON1, (message == WM_RBUTTONDOWN) ? BUTTON_DOWN : BUTTON_UP); else if (GetCardMgr().IsMouseCardInstalled()) GetCardMgr().GetMouseCard()->SetButton(BUTTON1, (message == WM_RBUTTONDOWN) ? BUTTON_DOWN : BUTTON_UP); RelayEvent(message,wparam,lparam); break; case WM_SYSCOLORCHANGE: #if DEBUG_DD_PALETTE if( g_bIsFullScreen ) OutputDebugString( "WM_SYSCOLORCHANGE: Full Screen\n" ); else OutputDebugString( "WM_SYSCOLORCHANGE: Windowed\n" ); #endif DeleteGdiObjects(); CreateGdiObjects(); break; case WM_SYSCOMMAND: switch (wparam & 0xFFF0) { case SC_KEYMENU: if (g_bIsFullScreen && g_bAppActive) return 0; break; case SC_MINIMIZE: GetWindowRect(window,&framerect); break; } break; case WM_SYSKEYDOWN: // ALT + any key; or F10 KeybUpdateCtrlShiftStatus(); // http://msdn.microsoft.com/en-us/library/windows/desktop/gg153546(v=vs.85).aspx if (g_bAltEnter_ToggleFullScreen && KeybGetAltStatus() && (wparam == VK_RETURN)) // NB. VK_RETURN = 0x0D; Normally WM_CHAR will be 0x0A but ALT key triggers as WM_SYSKEYDOWN and VK_MENU return 0; // NOP -- eat key PostMessage(window,WM_KEYDOWN,wparam,lparam); if ((wparam == VK_F10) || (wparam == VK_MENU)) // VK_MENU == ALT Key return 0; break; case WM_SYSKEYUP: KeybUpdateCtrlShiftStatus(); // F10: no WM_KEYUP handler for VK_F10. Don't allow WM_KEYUP to pass to default handler which will show the app window's "menu" (and lose focus) if (wparam == VK_F10) return 0; if (g_bAltEnter_ToggleFullScreen && KeybGetAltStatus() && (wparam == VK_RETURN)) // NB. VK_RETURN = 0x0D; Normally WM_CHAR will be 0x0A but ALT key triggers as WM_SYSKEYDOWN and VK_MENU ScreenWindowResize(false); else PostMessage(window,WM_KEYUP,wparam,lparam); break; case WM_MENUCHAR: // GH#556 - Suppress the Windows Default Beep (ie. Ding) whenever ALT+ is pressed return (MNC_CLOSE << 16) | (wparam & 0xffff); case WM_USER_BENCHMARK: { UpdateWindow(window); ResetMachineState(); DrawStatusArea((HDC)0,DRAW_TITLE); HCURSOR oldcursor = SetCursor(LoadCursor(0,IDC_WAIT)); g_nAppMode = MODE_BENCHMARK; Win32Frame::GetWin32Frame().Benchmark(); g_nAppMode = MODE_LOGO; ResetMachineState(); SetCursor(oldcursor); break; } case WM_USER_SAVESTATE: // Save state Snapshot_SaveState(); break; case WM_USER_LOADSTATE: // Load state Snapshot_LoadState(); break; case WM_USER_TCP_SERIAL: // TCP serial events { WORD error = WSAGETSELECTERROR(lparam); if (error != 0) { LogOutput("TCP Serial Winsock error 0x%X (%d)\r", error, error); switch (error) { case WSAENETRESET: case WSAECONNABORTED: case WSAECONNRESET: case WSAENOTCONN: case WSAETIMEDOUT: if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommTcpSerialClose(); break; default: if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommTcpSerialCleanup(); break; } } else { WORD wSelectEvent = WSAGETSELECTEVENT(lparam); switch(wSelectEvent) { case FD_ACCEPT: if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommTcpSerialAccept(); break; case FD_CLOSE: if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommTcpSerialClose(); break; case FD_READ: if (GetCardMgr().IsSSCInstalled()) GetCardMgr().GetSSC()->CommTcpSerialReceive(); break; } } break; } // Message posted by: WM_DDE_EXECUTE & Cmd-line boot case WM_USER_BOOT: { SetForegroundWindow(window); Sleep(500); // Wait for SetForegroundWindow() to take affect (400ms seems OK, so use 500ms to be sure) SoundCore_TweakVolumes(); ProcessButtonClick(BTN_RUN); break; } // Message posted by: Cmd-line boot case WM_USER_FULLSCREEN: { ScreenWindowResize(false); break; } } // switch(message) return DefWindowProc(window,message,wparam,lparam); } //=========================================================================== // Process: VK_F6 void Win32Frame::ScreenWindowResize(const bool bCtrlKey) { static int nOldViewportScale = kDEFAULT_VIEWPORT_SCALE; if (g_bIsFullScreen) // if full screen: then switch back to normal { SetNormalMode(); FrameResizeWindow(nOldViewportScale); } else if (bCtrlKey) // if normal screen && CTRL: then toggle scaling { FrameResizeWindow( (g_nViewportScale == 1) ? 2 : 1 ); // Toggle between 1x and 2x REGSAVE(TEXT(REGVALUE_WINDOW_SCALE), g_nViewportScale); } else { nOldViewportScale = g_nViewportScale; FrameResizeWindow(1); // reset to 1x SetFullScreenMode(); } } bool Win32Frame::ConfirmReboot(bool bFromButtonUI) { if (!bFromButtonUI || !g_bConfirmReboot) return true; int res = FrameMessageBox( "Are you sure you want to reboot?\n" "(All data will be lost!)\n" "\n" "You can skip this dialog from displaying\n" "in the future by unchecking:\n" "\n" " [ ] Confirm reboot\n" "\n" "in the Configuration dialog.\n" , "Reboot", MB_ICONWARNING|MB_YESNO); return res == IDYES; } void Win32Frame::ProcessButtonClick(int button, bool bFromButtonUI /*=false*/) { SoundCore_SetFade(FADE_OUT); bool bAllowFadeIn = true; #if DEBUG_DD_PALETTE LogOutput( "Button: F%d Full Screen: %d\n", button+1, g_bIsFullScreen ); #endif switch (button) { case BTN_HELP: { const std::string filename = g_sProgramDir + TEXT("APPLEWIN.CHM"); // (GH#437) For any internet downloaded AppleWin.chm files (stored on an NTFS drive) there may be an Alt Data Stream containing a Zone Identifier // - try to delete it, otherwise the content won't be displayed unless it's unblock (via File Properties) { const std::string filename_with_zone_identifier = filename + TEXT(":Zone.Identifier"); DeleteFile(filename_with_zone_identifier.c_str()); } HtmlHelp(g_hFrameWindow,filename.c_str(),HH_DISPLAY_TOC,0); helpquit = 1; } break; case BTN_RUN: KeybUpdateCtrlShiftStatus(); if( KeybGetCtrlStatus() ) { CtrlReset(); if (g_nAppMode == MODE_DEBUG) DebugDisplay(TRUE); return; } if (g_nAppMode == MODE_LOGO) { if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) dynamic_cast(GetCardMgr().GetRef(SLOT6)).Boot(); LogFileTimeUntilFirstKeyReadReset(); g_nAppMode = MODE_RUNNING; } else if ((g_nAppMode == MODE_RUNNING) || (g_nAppMode == MODE_DEBUG) || (g_nAppMode == MODE_STEPPING) || (g_nAppMode == MODE_PAUSED)) { if (ConfirmReboot(bFromButtonUI)) { ResetMachineState(); // NB. Don't exit debugger or stepping if (g_nAppMode == MODE_DEBUG) DebugDisplay(TRUE); } } DrawStatusArea((HDC)0,DRAW_TITLE); VideoRedrawScreen(); break; case BTN_DRIVE1: case BTN_DRIVE2: if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) { dynamic_cast(GetCardMgr().GetRef(SLOT6)).UserSelectNewDiskImage(button-BTN_DRIVE1); if (!g_bIsFullScreen) DrawButton((HDC)0,button); } break; case BTN_DRIVESWAP: if (GetCardMgr().QuerySlot(SLOT6) == CT_Disk2) { dynamic_cast(GetCardMgr().GetRef(SLOT6)).DriveSwap(); } break; case BTN_FULLSCR: KeybUpdateCtrlShiftStatus(); ScreenWindowResize( KeybGetCtrlStatus() ); break; case BTN_DEBUG: if (g_nAppMode == MODE_LOGO && !GetLoadedSaveStateFlag()) { // FIXME: Why is this needed? Surely when state is MODE_LOGO, then AppleII system will have been reset! // - Transition to MODE_LOGO when: (a) AppleWin starts, (b) there's a Config change to the AppleII h/w ResetMachineState(); } if (g_nAppMode == MODE_STEPPING) { // Allow F7 to enter debugger even when not MODE_RUNNING DebugStopStepping(); bAllowFadeIn = false; } else if (g_nAppMode == MODE_DEBUG) { DebugExitDebugger(); // Exit debugger, switch to MODE_RUNNING or MODE_STEPPING g_bDebuggerEatKey = false; // Don't "eat" the next keypress when leaving the debugger via F7 (or clicking the Debugger button) } else // MODE_RUNNING, MODE_LOGO, MODE_PAUSED { GetVideo().ClearSHRResidue(); // Clear the framebuffer to remove any SHR residue in the borders DebugBegin(); } break; case BTN_SETUP: { GetPropertySheet().Init(); } break; } if((g_nAppMode != MODE_DEBUG) && (g_nAppMode != MODE_PAUSED) && bAllowFadeIn) { SoundCore_SetFade(FADE_IN); } } //=========================================================================== // http://msdn.microsoft.com/library/default.asp?url=/library/en-us/winui/winui/windowsuserinterface/resources/menus/usingmenus.asp // http://www.codeproject.com/menu/MenusForBeginners.asp?df=100&forumid=67645&exp=0&select=903061 void Win32Frame::ProcessDiskPopupMenu(HWND hwnd, POINT pt, const int iDrive) { if (GetCardMgr().QuerySlot(SLOT6) != CT_Disk2) return; Disk2InterfaceCard& disk2Card = dynamic_cast(GetCardMgr().GetRef(SLOT6)); // This is the default installation path of CiderPress. // It shall not be left blank, otherwise an explorer window will be open. TCHAR PathToCiderPress[MAX_PATH]; RegLoadString( TEXT("Configuration"), REGVALUE_CIDERPRESSLOC, 1, PathToCiderPress, MAX_PATH, TEXT("C:\\Program Files\\faddenSoft\\CiderPress\\CiderPress.exe")); //TODO: A directory is open if an empty path to CiderPress is set. This has to be fixed. std::string filename1= "\""; filename1.append( disk2Card.GetFullName(iDrive) ); filename1.append("\""); std::string sFileNameEmpty = "\""; sFileNameEmpty.append("\""); // Load the menu template containing the shortcut menu from the // application's resources. HMENU hmenu = LoadMenu(g_hInstance, MAKEINTRESOURCE(IDR_MENU_DISK_POPUP)); // menu template if (hmenu == NULL) return; // Get the first shortcut menu in the menu template. // This is the menu that TrackPopupMenu displays. HMENU hmenuTrackPopup = GetSubMenu(hmenu, 0); // shortcut menu // TrackPopup uses screen coordinates, so convert the // coordinates of the mouse click to screen coordinates. ClientToScreen(hwnd, (LPPOINT) &pt); // Check menu depending on current floppy protection { int iMenuItem = ID_DISKMENU_WRITEPROTECTION_OFF; if (disk2Card.GetProtect(iDrive)) iMenuItem = ID_DISKMENU_WRITEPROTECTION_ON; CheckMenuItem(hmenu, iMenuItem, MF_CHECKED); } if (disk2Card.IsDriveEmpty(iDrive)) EnableMenuItem(hmenu, ID_DISKMENU_EJECT, MF_GRAYED); if (disk2Card.GetProtect(iDrive)) { // If image-file is read-only (or a gzip) then disable these menu items EnableMenuItem(hmenu, ID_DISKMENU_WRITEPROTECTION_ON, MF_GRAYED); EnableMenuItem(hmenu, ID_DISKMENU_WRITEPROTECTION_OFF, MF_GRAYED); } // Draw and track the shortcut menu. int iCommand = TrackPopupMenu( hmenuTrackPopup , TPM_LEFTALIGN | TPM_LEFTBUTTON | TPM_RETURNCMD , pt.x, pt.y , 0 , hwnd, NULL ); if (iCommand == ID_DISKMENU_EJECT) disk2Card.EjectDisk( iDrive ); else if (iCommand == ID_DISKMENU_WRITEPROTECTION_ON) disk2Card.SetProtect( iDrive, true ); else if (iCommand == ID_DISKMENU_WRITEPROTECTION_OFF) disk2Card.SetProtect( iDrive, false ); else if (iCommand == ID_DISKMENU_SENDTO_CIDERPRESS) { static char szCiderpressNotFoundCaption[] = "CiderPress not found"; static char szCiderpressNotFoundText[] = "CiderPress not found!\n" "Please install CiderPress.\n" "Otherwise set the path to CiderPress from Configuration->Disk."; disk2Card.FlushCurrentTrack(iDrive); //if(!filename1.compare("\"\"") == false) //Do not use this, for some reason it does not work!!! if(!filename1.compare(sFileNameEmpty) ) { int MB_Result = FrameMessageBox("No disk image loaded. Do you want to run CiderPress anyway?" ,"No disk image.", MB_ICONINFORMATION|MB_YESNO); if (MB_Result == IDYES) { if (FileExists (PathToCiderPress )) { HINSTANCE nResult = ShellExecute(NULL, "open", PathToCiderPress, "" , NULL, SW_SHOWNORMAL); } else { FrameMessageBox(szCiderpressNotFoundText, szCiderpressNotFoundCaption, MB_ICONINFORMATION|MB_OK); } } } else { if (FileExists (PathToCiderPress )) { HINSTANCE nResult = ShellExecute(NULL, "open", PathToCiderPress, filename1.c_str() , NULL, SW_SHOWNORMAL); } else { FrameMessageBox(szCiderpressNotFoundText, szCiderpressNotFoundCaption, MB_ICONINFORMATION|MB_OK); } } } // Destroy the menu. BOOL bRes = DestroyMenu(hmenu); _ASSERT(bRes); } //=========================================================================== void Win32Frame::RelayEvent (UINT message, WPARAM wparam, LPARAM lparam) { if (g_bIsFullScreen) return; MSG msg; msg.hwnd = g_hFrameWindow; msg.message = message; msg.wParam = wparam; msg.lParam = lparam; SendMessage(tooltipwindow,TTM_RELAYEVENT,0,(LPARAM)&msg); } //=========================================================================== int Win32Frame::GetFullScreenOffsetX(void) { return g_win_fullscreen_offsetx; } int Win32Frame::GetFullScreenOffsetY(void) { return g_win_fullscreen_offsety; } void Win32Frame::SetFullScreenMode(void) { #ifdef NO_DIRECT_X return; #else // NO_DIRECT_X if (m_bestWidthForFullScreen && m_bestHeightForFullScreen) { DEVMODE devMode; memset(&devMode, 0, sizeof(devMode)); devMode.dmSize = sizeof(devMode); devMode.dmPelsWidth = m_bestWidthForFullScreen; devMode.dmPelsHeight = m_bestHeightForFullScreen; devMode.dmFields = DM_PELSWIDTH | DM_PELSHEIGHT; DWORD dwFlags = 0; LONG res = ChangeDisplaySettings(&devMode, dwFlags); m_changedDisplaySettings = true; } // MONITORINFO monitor_info; FULLSCREEN_SCALE_TYPE width, height, scalex, scaley; int top, left; buttonover = -1; g_main_window_saved_style = GetWindowLong(g_hFrameWindow, GWL_STYLE); g_main_window_saved_exstyle = GetWindowLong(g_hFrameWindow, GWL_EXSTYLE); GetWindowRect(g_hFrameWindow, &g_main_window_saved_rect); SetWindowLong(g_hFrameWindow, GWL_STYLE , g_main_window_saved_style & ~(WS_CAPTION | WS_THICKFRAME)); SetWindowLong(g_hFrameWindow, GWL_EXSTYLE, g_main_window_saved_exstyle & ~(WS_EX_DLGMODALFRAME | WS_EX_WINDOWEDGE | WS_EX_CLIENTEDGE | WS_EX_STATICEDGE)); monitor_info.cbSize = sizeof(monitor_info); GetMonitorInfo(MonitorFromWindow(g_hFrameWindow, MONITOR_DEFAULTTONEAREST), &monitor_info); left = monitor_info.rcMonitor.left; top = monitor_info.rcMonitor.top; width = (FULLSCREEN_SCALE_TYPE)(monitor_info.rcMonitor.right - monitor_info.rcMonitor.left); height = (FULLSCREEN_SCALE_TYPE)(monitor_info.rcMonitor.bottom - monitor_info.rcMonitor.top ); scalex = width / GetVideo().GetFrameBufferBorderlessWidth(); scaley = height / GetVideo().GetFrameBufferBorderlessHeight(); // NB. Separate x,y scaling is OK in full-screen mode // . eg. SHR 640x400 (scalex=2, scaley=3) => 1280x1200, which roughly gives a 4:3 aspect ratio for a resolution of 1600x1200 g_win_fullscreen_offsetx = ((int)width - (int)(scalex * GetVideo().GetFrameBufferBorderlessWidth())) / 2; g_win_fullscreen_offsety = ((int)height - (int)(scaley * GetVideo().GetFrameBufferBorderlessHeight())) / 2; SetWindowPos(g_hFrameWindow, NULL, left, top, (int)width, (int)height, SWP_NOZORDER | SWP_NOACTIVATE | SWP_FRAMECHANGED); g_bIsFullScreen = true; SetFullScreenViewportScale(scalex, scaley); buttonx = GetFullScreenOffsetX() + g_nViewportCX + VIEWPORTX*2; buttony = GetFullScreenOffsetY(); viewportx = VIEWPORTX; // TC-TODO: Should be zero too? (Since there's no 3D border in full-screen) viewporty = 0; // GH#464 InvalidateRect(g_hFrameWindow,NULL,1); #endif // NO_DIRECT_X } //=========================================================================== void Win32Frame::SetNormalMode(void) { if (m_changedDisplaySettings) { // Only call ChangeDisplaySettings() if resolution has changed, otherwise there'll be a display flicker (GH#965) ChangeDisplaySettings(NULL, 0); // restore default resolution m_changedDisplaySettings = false; } FullScreenRevealCursor(); // Do before clearing g_bIsFullScreen flag buttonover = -1; buttonx = BUTTONX; buttony = BUTTONY; viewportx = VIEWPORTX; viewporty = VIEWPORTY; g_win_fullscreen_offsetx = 0; g_win_fullscreen_offsety = 0; SetWindowLong(g_hFrameWindow, GWL_STYLE, g_main_window_saved_style); SetWindowLong(g_hFrameWindow, GWL_EXSTYLE, g_main_window_saved_exstyle); SetWindowPos(g_hFrameWindow, NULL, g_main_window_saved_rect.left, g_main_window_saved_rect.top, g_main_window_saved_rect.right - g_main_window_saved_rect.left, g_main_window_saved_rect.bottom - g_main_window_saved_rect.top, SWP_SHOWWINDOW); g_bIsFullScreen = false; } //=========================================================================== void Win32Frame::SetUsingCursor (BOOL bNewValue) { if (bNewValue == g_bUsingCursor) return; g_bUsingCursor = bNewValue; if (g_bUsingCursor) { // Set TRUE when: // . Using mouse for joystick emulation // . Using mousecard and mouse is restricted to window SetCapture(g_hFrameWindow); RECT rect = { viewportx+2, // left viewporty+2, // top viewportx+g_nViewportCX-1, // right viewporty+g_nViewportCY-1}; // bottom ClientToScreen(g_hFrameWindow,(LPPOINT)&rect.left); ClientToScreen(g_hFrameWindow,(LPPOINT)&rect.right); ClipCursor(&rect); FrameShowCursor(FALSE); POINT pt; GetCursorPos(&pt); ScreenToClient(g_hFrameWindow,&pt); DrawCrosshairs(pt.x,pt.y); } else { DrawCrosshairs(0,0); FrameShowCursor(TRUE); ClipCursor(NULL); ReleaseCapture(); } } int Win32Frame::GetViewportScale(void) { return g_nViewportScale; } int Win32Frame::SetViewportScale(int nNewScale, bool bForce /*=false*/) { if (!bForce && nNewScale > g_nMaxViewportScale) nNewScale = g_nMaxViewportScale; g_nViewportScale = nNewScale; g_nViewportCX = g_nViewportScale * GetVideo().GetFrameBufferBorderlessWidth(); g_nViewportCY = g_nViewportScale * GetVideo().GetFrameBufferBorderlessHeight(); buttonx = BUTTONX; // NB. macro uses g_nViewportCX buttony = BUTTONY; return nNewScale; } void Win32Frame::SetFullScreenViewportScale(int nNewXScale, int nNewYScale) { g_nViewportScale = MIN(nNewXScale, nNewYScale); // Not needed in FS mode g_nViewportCX = nNewXScale * GetVideo().GetFrameBufferBorderlessWidth(); g_nViewportCY = nNewYScale * GetVideo().GetFrameBufferBorderlessHeight(); buttonx = BUTTONX; // NB. macro uses g_nViewportCX buttony = BUTTONY; } void Win32Frame::SetupTooltipControls(void) { TOOLINFO toolinfo; toolinfo.cbSize = sizeof(toolinfo); toolinfo.uFlags = TTF_CENTERTIP; toolinfo.hwnd = g_hFrameWindow; toolinfo.hinst = g_hInstance; toolinfo.lpszText = LPSTR_TEXTCALLBACK; toolinfo.rect.left = BUTTONX; toolinfo.rect.right = toolinfo.rect.left+BUTTONCX+1; toolinfo.uId = 0; toolinfo.rect.top = BUTTONY+BTN_DRIVE1*BUTTONCY+1; toolinfo.rect.bottom = toolinfo.rect.top+BUTTONCY; SendMessage(tooltipwindow, TTM_ADDTOOL, 0, (LPARAM)&toolinfo); toolinfo.uId = 1; toolinfo.rect.top = BUTTONY+BTN_DRIVE2*BUTTONCY+1; toolinfo.rect.bottom = toolinfo.rect.top+BUTTONCY; SendMessage(tooltipwindow, TTM_ADDTOOL, 0, (LPARAM)&toolinfo); } // SM_CXPADDEDBORDER is not supported on 2000 & XP, but GetSystemMetrics() returns 0 for unknown values, so this use of SM_CXPADDEDBORDER works on 2000 & XP too: // http://msdn.microsoft.com/en-nz/library/windows/desktop/ms724385(v=vs.85).aspx // NB. GetSystemMetrics(SM_CXPADDEDBORDER) returns 0 for Win7, when built with VS2008 (see GH#571) void Win32Frame::GetWidthHeight(int& nWidth, int& nHeight) { nWidth = g_nViewportCX + VIEWPORTX*2 + BUTTONCX + (GetSystemMetrics(SM_CXFIXEDFRAME) + GetSystemMetrics(SM_CXPADDEDBORDER)) * 2; nHeight = g_nViewportCY + VIEWPORTY*2 + (GetSystemMetrics(SM_CYFIXEDFRAME) + GetSystemMetrics(SM_CXPADDEDBORDER)) * 2 // NB. No SM_CYPADDEDBORDER + GetSystemMetrics(SM_CYCAPTION); #if 0 // GH#571 LogOutput("g_nViewportCX = %d\n", g_nViewportCX); LogOutput("VIEWPORTX = %d (const)\n", VIEWPORTX); LogOutput("BUTTONCX = %d (const)\n", BUTTONCX); LogOutput("GetSystemMetrics(SM_CXFRAME) = %d (unused)\n", GetSystemMetrics(SM_CXFRAME)); LogOutput("GetSystemMetrics(SM_CXFIXEDFRAME) = %d\n", GetSystemMetrics(SM_CXFIXEDFRAME)); LogOutput("GetSystemMetrics(SM_CXBORDER) = %d (unused)\n", GetSystemMetrics(SM_CXBORDER)); LogOutput("GetSystemMetrics(SM_CXPADDEDBORDER) = %d\n", GetSystemMetrics(SM_CXPADDEDBORDER)); LogOutput("nWidth = %d\n", nWidth); LogOutput("g_nViewportCY = %d\n", g_nViewportCY); LogOutput("VIEWPORTY = %d (const)\n", VIEWPORTY); LogOutput("GetSystemMetrics(SM_CYFRAME) = %d (unused)\n", GetSystemMetrics(SM_CYFRAME)); LogOutput("GetSystemMetrics(SM_CYFIXEDFRAME) = %d\n", GetSystemMetrics(SM_CYFIXEDFRAME)); LogOutput("GetSystemMetrics(SM_CYBORDER) = %d (unused)\n", GetSystemMetrics(SM_CYBORDER)); LogOutput("GetSystemMetrics(SM_CYCAPTION) = %d\n", GetSystemMetrics(SM_CYCAPTION)); LogOutput("nHeight = %d\n\n", nHeight); #endif } // Window frame's border size has changed (eg. VidHD added/removed) void Win32Frame::ResizeWindow(void) { FrameResizeWindow(GetViewportScale()); } void Win32Frame::FrameResizeWindow(int nNewScale) { int nOldWidth, nOldHeight; GetWidthHeight(nOldWidth, nOldHeight); nNewScale = SetViewportScale(nNewScale); GetWindowRect(g_hFrameWindow, &framerect); int nXPos = framerect.left; int nYPos = framerect.top; // Invalidate old rect region { RECT irect; irect.left = irect.top = 0; irect.right = nOldWidth; irect.bottom = nOldHeight; InvalidateRect(g_hFrameWindow, &irect, TRUE); } // Resize the window int nNewWidth, nNewHeight; GetWidthHeight(nNewWidth, nNewHeight); MoveWindow(g_hFrameWindow, nXPos, nYPos, nNewWidth, nNewHeight, TRUE); UpdateWindow(g_hFrameWindow); // Remove the tooltips for the old window size TOOLINFO toolinfo = {0}; toolinfo.cbSize = sizeof(toolinfo); toolinfo.hwnd = g_hFrameWindow; toolinfo.uId = 0; SendMessage(tooltipwindow, TTM_DELTOOL, 0, (LPARAM)&toolinfo); toolinfo.uId = 1; SendMessage(tooltipwindow, TTM_DELTOOL, 0, (LPARAM)&toolinfo); // Setup the tooltips for the new window size SetupTooltipControls(); } // // ----- ALL GLOBALLY ACCESSIBLE FUNCTIONS ARE BELOW THIS LINE ----- // //=========================================================================== void Win32Frame::FrameCreateWindow(void) { int nWidth, nHeight; // Set g_nMaxViewportScale { int nOldViewportCX = g_nViewportCX; int nOldViewportCY = g_nViewportCY; g_nViewportCX = GetVideo().GetFrameBufferBorderlessWidth() * 2; g_nViewportCY = GetVideo().GetFrameBufferBorderlessHeight() * 2; GetWidthHeight(nWidth, nHeight); // Probe with 2x dimensions g_nViewportCX = nOldViewportCX; g_nViewportCY = nOldViewportCY; if (nWidth > GetSystemMetrics(SM_CXSCREEN) || nHeight > GetSystemMetrics(SM_CYSCREEN)) g_nMaxViewportScale = 1; } GetWidthHeight(nWidth, nHeight); // If screen is too small for 2x, then revert to 1x if (g_nViewportScale == 2 && (nWidth > GetSystemMetrics(SM_CXSCREEN) || nHeight > GetSystemMetrics(SM_CYSCREEN))) { g_nMaxViewportScale = 1; SetViewportScale(1); GetWidthHeight(nWidth, nHeight); } // Restore Window X Position int nXPos = -1; { const int nXScreen = GetSystemMetrics(SM_CXSCREEN) - nWidth; if (RegLoadValue(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_WINDOW_X_POS), 1, (DWORD*)&nXPos)) { if ((nXPos > nXScreen) && !g_bMultiMon) nXPos = -1; // Not fully visible, so default to centre position } if ((nXPos == -1) && !g_bMultiMon) nXPos = nXScreen / 2; } // Restore Window Y Position int nYPos = -1; { const int nYScreen = GetSystemMetrics(SM_CYSCREEN) - nHeight; if (RegLoadValue(TEXT(REG_PREFS), TEXT(REGVALUE_PREF_WINDOW_Y_POS), 1, (DWORD*)&nYPos)) { if ((nYPos > nYScreen) && !g_bMultiMon) nYPos = -1; // Not fully visible, so default to centre position } if ((nYPos == -1) && !g_bMultiMon) nYPos = nYScreen / 2; } // buttonx = (g_nViewportCX + VIEWPORTX*2); buttony = 0; GetAppleWindowTitle(); // NB. g_hFrameWindow also set by WM_CREATE - NB. CreateWindow() must synchronously send WM_CREATE g_hFrameWindow = CreateWindow( TEXT("APPLE2FRAME"), g_pAppTitle.c_str(), WS_OVERLAPPED | WS_CAPTION | WS_SYSMENU | WS_MINIMIZEBOX | WS_VISIBLE, nXPos, nYPos, nWidth, nHeight, HWND_DESKTOP, (HMENU)0, g_hInstance, NULL ); InitCommonControls(); tooltipwindow = CreateWindow( TOOLTIPS_CLASS,NULL,TTS_ALWAYSTIP, CW_USEDEFAULT,CW_USEDEFAULT,CW_USEDEFAULT,CW_USEDEFAULT, g_hFrameWindow, (HMENU)0, g_hInstance,NULL ); SetupTooltipControls(); _ASSERT(g_TimerIDEvent_100msec == 0); g_TimerIDEvent_100msec = SetTimer(g_hFrameWindow, IDEVENT_TIMER_100MSEC, 100, NULL); LogFileOutput("FrameCreateWindow: SetTimer(), id=0x%08X\n", g_TimerIDEvent_100msec); } //=========================================================================== HDC Win32Frame::FrameGetDC () { if (!g_hFrameDC) { g_hFrameDC = GetDC(g_hFrameWindow); SetViewportOrgEx(g_hFrameDC,viewportx,viewporty,NULL); } return g_hFrameDC; } //=========================================================================== void Win32Frame::FrameReleaseDC () { if (g_hFrameDC) { SetViewportOrgEx(g_hFrameDC,0,0,NULL); ReleaseDC(g_hFrameWindow,g_hFrameDC); g_hFrameDC = (HDC)0; } } //=========================================================================== void Win32Frame::FrameRefreshStatus (int drawflags) { DrawStatusArea((HDC)0,drawflags); } //=========================================================================== void Win32Frame::FrameRegisterClass () { WNDCLASSEX wndclass; memset(&wndclass, 0, sizeof(WNDCLASSEX)); wndclass.cbSize = sizeof(WNDCLASSEX); wndclass.style = CS_OWNDC | CS_BYTEALIGNCLIENT; wndclass.lpfnWndProc = FrameWndProc; wndclass.hInstance = g_hInstance; wndclass.hIcon = LoadIcon(g_hInstance,TEXT("APPLEWIN_ICON")); wndclass.hCursor = LoadCursor(0,IDC_ARROW); wndclass.hbrBackground = (HBRUSH)GetStockObject(BLACK_BRUSH); #if ENABLE_MENU wndclass.lpszMenuName = (LPCSTR)IDR_MENU1; #endif wndclass.lpszClassName = TEXT("APPLE2FRAME"); wndclass.hIconSm = (HICON)LoadImage(g_hInstance,TEXT("APPLEWIN_ICON"), IMAGE_ICON,16,16,LR_DEFAULTCOLOR); RegisterClassEx(&wndclass); } //=========================================================================== // TODO: FIXME: Util_TestFileExists() static bool FileExists(std::string strFilename) { struct _stat64 stFileInfo; int intStat = _stat64(strFilename.c_str(), &stFileInfo); return (intStat == 0); } //=========================================================================== // Called when: // . Mouse f/w sets abs position // . UpdateMouseInAppleViewport() is called and inside Apple screen void Win32Frame::FrameSetCursorPosByMousePos() { // _ASSERT(GetCardMgr().IsMouseCardInstalled()); // CMouseInterface::ctor calls this function, ie. before GetCardMgr()::m_pMouseCard is setup if (!GetCardMgr().IsMouseCardInstalled()) return; if (!g_hFrameWindow || g_bShowingCursor) return; int iX, iMinX, iMaxX; int iY, iMinY, iMaxY; GetCardMgr().GetMouseCard()->GetXY(iX, iMinX, iMaxX, iY, iMinY, iMaxY); float fScaleX = (float)(iX-iMinX) / ((float)(iMaxX-iMinX)); float fScaleY = (float)(iY-iMinY) / ((float)(iMaxY-iMinY)); int iWindowX = (int)(fScaleX * (float)g_nViewportCX); int iWindowY = (int)(fScaleY * (float)g_nViewportCY); POINT Point = {viewportx+2, viewporty+2}; // top-left ClientToScreen(g_hFrameWindow, &Point); SetCursorPos(Point.x+iWindowX-VIEWPORTX, Point.y+iWindowY-VIEWPORTY); #if defined(_DEBUG) && 0 // OutputDebugString() when cursor position changes since last time static int OldX = 0, OldY = 0; int X = Point.x + iWindowX - VIEWPORTX; int Y = Point.y + iWindowY - VIEWPORTY; if (X != OldX || Y != OldY) { LogOutput("[FrameSetCursorPosByMousePos] x,y=%d,%d (MaxX,Y=%d,%d)\n", X, Y, iMaxX, iMaxY); OldX = X; OldY = Y; } #endif } // Called when: // . UpdateMouseInAppleViewport() is called and mouse leaving/entering Apple screen area // . NB. Not called when leaving & mouse clipped to Apple screen area void Win32Frame::FrameSetCursorPosByMousePos(int x, int y, int dx, int dy, bool bLeavingAppleScreen) { _ASSERT(GetCardMgr().IsMouseCardInstalled()); if (!GetCardMgr().IsMouseCardInstalled()) return; if (!g_hFrameWindow || (g_bShowingCursor && bLeavingAppleScreen) || (!g_bShowingCursor && !bLeavingAppleScreen)) return; int iX, iMinX, iMaxX; int iY, iMinY, iMaxY; GetCardMgr().GetMouseCard()->GetXY(iX, iMinX, iMaxX, iY, iMinY, iMaxY); if (bLeavingAppleScreen) { // Set mouse x/y pos to edge of mouse's window if (dx < 0) iX = iMinX; if (dx > 0) iX = iMaxX; if (dy < 0) iY = iMinY; if (dy > 0) iY = iMaxY; float fScaleX = (float)(iX-iMinX) / ((float)(iMaxX-iMinX)); float fScaleY = (float)(iY-iMinY) / ((float)(iMaxY-iMinY)); int iWindowX = (int)(fScaleX * (float)g_nViewportCX) + dx; int iWindowY = (int)(fScaleY * (float)g_nViewportCY) + dy; POINT Point = {viewportx+2, viewporty+2}; // top-left ClientToScreen(g_hFrameWindow, &Point); SetCursorPos(Point.x+iWindowX-VIEWPORTX, Point.y+iWindowY-VIEWPORTY); //LogOutput("[MOUSE_LEAVING ] x=%d, y=%d (Scale: x,y=%f,%f; iX,iY=%d,%d)\n", iWindowX, iWindowY, fScaleX, fScaleY, iX, iY); } else // Mouse entering Apple screen area { //LogOutput("[MOUSE_ENTERING] x=%d, y=%d\n", x, y); if (!g_bIsFullScreen) // GH#464 { x -= (viewportx+2-VIEWPORTX); if (x < 0) x = 0; y -= (viewporty+2-VIEWPORTY); if (y < 0) y = 0; } _ASSERT(x <= g_nViewportCX); _ASSERT(y <= g_nViewportCY); float fScaleX = (float)x / (float)g_nViewportCX; float fScaleY = (float)y / (float)g_nViewportCY; int iAppleX = iMinX + (int)(fScaleX * (float)(iMaxX-iMinX)); int iAppleY = iMinY + (int)(fScaleY * (float)(iMaxY-iMinY)); GetCardMgr().GetMouseCard()->SetCursorPos(iAppleX, iAppleY); // Set new entry position // Dump initial deltas (otherwise can get big deltas since last read when entering Apple screen area) DIMouse::ReadImmediateData(); } } void Win32Frame::DrawCrosshairsMouse() { _ASSERT(GetCardMgr().IsMouseCardInstalled()); if (!GetCardMgr().IsMouseCardInstalled()) return; if (!GetPropertySheet().GetMouseShowCrosshair()) return; int iX, iMinX, iMaxX; int iY, iMinY, iMaxY; GetCardMgr().GetMouseCard()->GetXY(iX, iMinX, iMaxX, iY, iMinY, iMaxY); _ASSERT(iMinX == 0 && iMinY == 0); float fScaleX = (float)(iX-iMinX) / ((float)(iMaxX-iMinX)); float fScaleY = (float)(iY-iMinY) / ((float)(iMaxY-iMinY)); int iWindowX = (int)(fScaleX * (float)g_nViewportCX); int iWindowY = (int)(fScaleY * (float)g_nViewportCY); DrawCrosshairs(iWindowX,iWindowY); } #ifdef _DEBUG //#define _DEBUG_SHOW_CURSOR // NB. Get an ASSERT on LMB (after Ctrl+LMB) #endif void Win32Frame::UpdateMouseInAppleViewport(int iOutOfBoundsX, int iOutOfBoundsY, int x, int y) { const bool bOutsideAppleViewport = iOutOfBoundsX || iOutOfBoundsY; if (bOutsideAppleViewport) { if (GetPropertySheet().GetMouseRestrictToWindow()) return; g_bLastCursorInAppleViewport = false; if (!g_bShowingCursor) { // Mouse leaving Apple screen area FrameSetCursorPosByMousePos(0, 0, iOutOfBoundsX, iOutOfBoundsY, true); #ifdef _DEBUG_SHOW_CURSOR g_bShowingCursor = true; #else FrameShowCursor(TRUE); #endif } } else { g_bLastCursorInAppleViewport = true; if (g_bShowingCursor) { // Mouse entering Apple screen area FrameSetCursorPosByMousePos(x, y, 0, 0, false); #ifdef _DEBUG_SHOW_CURSOR g_bShowingCursor = false; #else FrameShowCursor(FALSE); #endif // if (GetPropertySheet().GetMouseRestrictToWindow()) SetUsingCursor(TRUE); } else { FrameSetCursorPosByMousePos(); // Set cursor to Apple position each time } DrawCrosshairsMouse(); } } void Win32Frame::GetViewportCXCY(int& nViewportCX, int& nViewportCY) { nViewportCX = g_nViewportCX; nViewportCY = g_nViewportCY; } // Call all funcs with dependency on g_Apple2Type void Win32Frame::FrameUpdateApple2Type(void) { DeleteGdiObjects(); CreateGdiObjects(); // DRAW_TITLE : calls GetAppleWindowTitle() // DRAW_LEDS : update LEDs (eg. CapsLock varies on Apple2 type) DrawStatusArea( (HDC)0, DRAW_TITLE|DRAW_LEDS ); // Draw buttons & call DrawStatusArea(DRAW_BACKGROUND | DRAW_LEDS | DRAW_DISK_STATUS) DrawFrameWindow(); } bool Win32Frame::GetBestDisplayResolutionForFullScreen(UINT& bestWidth, UINT& bestHeight, UINT userSpecifiedWidth/*=0*/, UINT userSpecifiedHeight/*=0*/) { m_bestWidthForFullScreen = 0; m_bestHeightForFullScreen = 0; typedef std::vector< std::pair > VEC_PAIR; VEC_PAIR vecDisplayResolutions; for (UINT iModeNum = 0; ; iModeNum++) { DEVMODE devMode; devMode.dmSize = sizeof(DEVMODE); devMode.dmDriverExtra = 0; BOOL bValid = EnumDisplaySettings(NULL, iModeNum, &devMode); if (!bValid) break; if (iModeNum == 0) // 0 is the initial "cache info about display device" operation continue; if (devMode.dmBitsPerPel != 32) continue; if (userSpecifiedHeight == 0 || userSpecifiedHeight == devMode.dmPelsHeight) { if (vecDisplayResolutions.size() == 0 || vecDisplayResolutions.back() != std::pair(devMode.dmPelsWidth, devMode.dmPelsHeight) ) // Skip duplicate resolutions { vecDisplayResolutions.push_back( std::pair(devMode.dmPelsWidth, devMode.dmPelsHeight) ); LogFileOutput("EnumDisplaySettings(%d) - %d x %d\n", iModeNum, devMode.dmPelsWidth, devMode.dmPelsHeight); } } } if (userSpecifiedHeight) { if (vecDisplayResolutions.size() == 0) return false; // Pick user-specific width if it exists // Else pick least width (such that it's wide enough to scale) UINT width = (UINT)-1; for (VEC_PAIR::iterator it = vecDisplayResolutions.begin(); it!= vecDisplayResolutions.end(); ++it) { if (it->first == userSpecifiedWidth) { width = userSpecifiedWidth; break; } if (width > it->first) { UINT scaleFactor = it->second / GetVideo().GetFrameBufferBorderlessHeight(); if (it->first >= (GetVideo().GetFrameBufferBorderlessWidth() * scaleFactor)) { width = it->first; } } } if (width == (UINT)-1) return false; bestWidth = width; bestHeight = userSpecifiedHeight; m_bestWidthForFullScreen = bestWidth; m_bestHeightForFullScreen = bestHeight; return true; } // Pick max height that's an exact multiple of GetFrameBufferBorderlessHeight() UINT tmpBestWidth = 0; UINT tmpBestHeight = 0; for (VEC_PAIR::iterator it = vecDisplayResolutions.begin(); it!= vecDisplayResolutions.end(); ++it) { if ((it->second % GetVideo().GetFrameBufferBorderlessHeight()) == 0) { if (it->second > tmpBestHeight) { UINT scaleFactor = it->second / GetVideo().GetFrameBufferBorderlessHeight(); if (it->first >= (GetVideo().GetFrameBufferBorderlessWidth() * scaleFactor)) { tmpBestWidth = it->first; tmpBestHeight = it->second; } } } } if (tmpBestWidth == 0) return false; bestWidth = tmpBestWidth; bestHeight = tmpBestHeight; m_bestWidthForFullScreen = bestWidth; m_bestHeightForFullScreen = bestHeight; return true; }