void gp2x_init(void) { printf("KEYBOARD = %d\n", OpenKeyboard()); printf("GRAPHICS = %d\n", EnterGraphicsMode()); printf("entering init()\n"); fflush(stdout); gp2x_screen = malloc(320*240*2 + 320*2); memset(gp2x_screen, 0, 320*240*2 + 320*2); struct fb_var_screeninfo vinfo; struct fb_fix_screeninfo finfo; // Open the file for reading and writing fbfd = open("/dev/fb0", O_RDWR); if (!fbfd) { printf("Error: cannot open framebuffer device.\n"); exit(1); } printf("The framebuffer device was opened successfully.\n"); // Get fixed screen information if (ioctl(fbfd, FBIOGET_FSCREENINFO, &finfo)) { printf("Error reading fixed information.\n"); exit(2); } // Get variable screen information if (ioctl(fbfd, FBIOGET_VSCREENINFO, &vinfo)) { printf("Error reading variable information.\n"); exit(3); } printf("%dx%d, %dbpp\n", vinfo.xres, vinfo.yres, vinfo.bits_per_pixel ); // Figure out the size of the screen in bytes screensize = vinfo.xres * vinfo.yres * vinfo.bits_per_pixel / 8; // Map the device to memory fbp = (unsigned short *)mmap(0, screensize, PROT_READ | PROT_WRITE, MAP_SHARED, fbfd, 0); if ((int)fbp == -1) { printf("Error: failed to map framebuffer device to memory.\n"); exit(4); } printf("The framebuffer device was mapped to memory successfully.\n"); memset(fbp, 0, screensize); inputfd = open("/dev/event0", O_RDWR | O_NONBLOCK); // snd ao_initialize(); //while(jz_lcdregl[0xa8>>2] & 1); //jz_lcdregl[0xa4>>2] = 0; //printf("PGIOD = %x\n", jz_gpioregl[0x300>>2]); }
int PBLineEdit::MainHandler(int type, int par1, int par2) { int fcX1, fcX2, fcY1, fcY2; int flags; int result = 0; if (IsVisible() && type == EVT_POINTERUP) { PBPoint clientPoint = m_pParent->ScreenToClient(PBPoint(par1, par2)); fcX1 = GetClientLeft() + PBEDIT_BORDER; fcX2 = fcX1 + GetClientWidth() - (PBEDIT_BORDER << 1); fcY1 = GetClientTop() + PBEDIT_BORDER; fcY2 = fcY1 + GetClientHeight() - (PBEDIT_BORDER << 1); if (clientPoint.GetX() > fcX1 && clientPoint.GetX() < fcX2 && clientPoint.GetY() > fcY1 && clientPoint.GetY() < fcY2) { switch(m_enterstyle) { case PBES_PHONE: flags = KBD_PHONE; break; case PBES_NUMERIC: flags = KBD_NUMERIC; break; case PBES_IPADDR: flags = KBD_IPADDR; break; case PBES_URL: flags = KBD_URL; break; case PBES_DATETIME: flags = KBD_DATETIME; break; case PBES_TEXT: default: flags = KBD_ENTEXT; break; } s_pThis = this; m_pParent->OnChildFocusChanged(this); OpenKeyboard("VK", m_text, PBEDIT_MAXENTER, flags, enttext_handler); result = 1; } else result = PBWindow::MainHandler(type, par1, par2); } return result; }
BOOLEAN NTAPI InitializeWrapper( ) { // KdPrint(("Initializing wrapper.\n")); if (bWrapperInitialized) { KdPrint(("Already initialized.\n")); return TRUE; } // KdPrint(("Creating heap\n")); heap = RtlCreateHeap (HEAP_GROWABLE|HEAP_NO_SERIALIZE, 0, 0, 0, 0, 0); if (heap == NULL) { KdPrint(("RtlCreateHeap failed!\n")); return FALSE; } SetProcessHeap (heap); // KdPrint(("heap = %08x\n", heap)); for (int i=0; i<10; i++) { if (hKeyboard = OpenKeyboard (i)) { // KdPrint(("Found keyboard class N%u\n", i)); break; } } // KdPrint(("hKeyboard = %08x\n", hKeyboard)); if (hKeyboard == NULL) { KdPrint(("Could not open keyboard.\n")); return FALSE; } // KdPrint(("Initialization successful\n")); bWrapperInitialized = TRUE; return TRUE; }
static int pwd_query_handler(int type, int par1, int par2) { if (type == EVT_INIT) OpenKeyboard("@Password", kbdbuffer, 63, KBD_PASSWORD, pwd_query_kbdhandler); return 0; }