func main() { stdscr, err := goncurses.Init() if err != nil { log.Fatal("init", err) } defer goncurses.End() goncurses.Raw(true) // turn on raw "uncooked" input goncurses.Echo(false) // turn echoing of typed characters off goncurses.Cursor(0) // hide cursor stdscr.Keypad(true) // allow keypad input stdscr.Print("Press a key...") stdscr.Refresh() if ch := stdscr.GetChar(); ch == goncurses.KEY_F2 { stdscr.Print("The F2 key was pressed.") } else { stdscr.Print("The key pressed is: ") stdscr.AttrOn(goncurses.A_BOLD) stdscr.AddChar(goncurses.Char(ch)) stdscr.AttrOff(goncurses.A_BOLD) } stdscr.Refresh() stdscr.GetChar() }
func main() { _, err := gc.Init() if err != nil { log.Fatal(err) } defer gc.End() // create a new pad of 50 rows and 200 columns... var pad *gc.Pad pad, err = gc.NewPad(50, 200) if err != nil { log.Fatal(err) } // ...and fill it with some characters for x := 0; x < 50; x++ { pad.MovePrint(x, x, "This is a pad.") } // Refresh the pad to show only a portion of the pad. Understanding // what these coordinates mean can be a bit tricky. The first two // coordinates are the position in the pad, in this case 0,5 (remember // the coordinates in ncurses are y,x). The second set of numbers are the // coordinates on the screen on which to display the content, so row 5, // column 10. The last set of numbers tell how high and how wide the // rectangle to displayed should be, in this case 15 rows long and 25 // columns wide. pad.Refresh(0, 5, 5, 10, 15, 25) pad.GetChar() }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal("init:", err) } defer gc.End() msg := "Enter a string: " row, col := stdscr.MaxYX() row, col = (row/2)-1, (col-len(msg))/2 stdscr.MovePrint(row, col, msg) /* GetString will only retieve the specified number of characters. Any attempts by the user to enter more characters will elicit an audiable beep */ var str string str, err = stdscr.GetString(10) if err != nil { stdscr.MovePrint(row+1, col, "GetString Error:", err) } else { stdscr.MovePrintf(row+1, col, "You entered: %s", str) } stdscr.Refresh() stdscr.GetChar() }
func main() { stdscr, _ := gc.Init() defer gc.End() gc.Echo(false) gc.CBreak(true) gc.StartColor() stdscr.Keypad(true) gc.InitPair(1, gc.C_WHITE, gc.C_BLUE) gc.InitPair(2, gc.C_YELLOW, gc.C_BLUE) fields := make([]*gc.Field, 2) fields[0], _ = gc.NewField(1, 10, 4, 18, 0, 0) defer fields[0].Free() fields[0].SetForeground(gc.ColorPair(1)) fields[0].SetBackground(gc.ColorPair(2) | gc.A_UNDERLINE | gc.A_BOLD) fields[0].SetOptionsOff(gc.FO_AUTOSKIP) fields[1], _ = gc.NewField(1, 10, 6, 18, 0, 0) defer fields[1].Free() fields[1].SetForeground(gc.ColorPair(1)) fields[1].SetBackground(gc.A_UNDERLINE) fields[1].SetOptionsOff(gc.FO_AUTOSKIP) fields[1].SetPad('*') form, _ := gc.NewForm(fields) form.Post() defer form.UnPost() defer form.Free() stdscr.Refresh() stdscr.AttrOn(gc.ColorPair(2) | gc.A_BOLD) stdscr.MovePrint(4, 10, "Value 1:") stdscr.AttrOff(gc.ColorPair(2) | gc.A_BOLD) stdscr.MovePrint(6, 10, "Value 2:") stdscr.Refresh() ch := stdscr.GetChar() for ch != 'q' { switch ch { case gc.KEY_DOWN: form.Driver(gc.REQ_NEXT_FIELD) form.Driver(gc.REQ_END_LINE) case gc.KEY_UP: form.Driver(gc.REQ_PREV_FIELD) form.Driver(gc.REQ_END_LINE) default: form.Driver(ch) } ch = stdscr.GetChar() } }
func main() { stdscr, _ := gc.Init() defer gc.End() gc.StartColor() gc.CBreak(true) gc.Echo(true) stdscr.Keypad(true) stdscr.Print("Hit 'tab' to cycle through windows, 'q' to quit") gc.InitPair(1, gc.C_RED, gc.C_BLACK) gc.InitPair(2, gc.C_GREEN, gc.C_BLACK) gc.InitPair(3, gc.C_BLUE, gc.C_BLACK) gc.InitPair(4, gc.C_CYAN, gc.C_BLACK) var panels [3]*gc.Panel y, x := 4, 10 for i := 0; i < 3; i++ { h, w := 10, 40 title := "Window Number %d" window, _ := gc.NewWindow(h, w, y+(i*4), x+(i*10)) window.Box(0, 0) window.MoveAddChar(2, 0, gc.ACS_LTEE) window.HLine(2, 1, gc.ACS_HLINE, w-2) window.MoveAddChar(2, w-1, gc.ACS_RTEE) window.ColorOn(int16(i + 1)) window.MovePrintf(1, (w/2)-(len(title)/2), title, i+1) window.ColorOff(int16(i + 1)) panels[i] = gc.NewPanel(window) } active := 2 for { gc.UpdatePanels() gc.Update() switch stdscr.GetChar() { case 'q': return case gc.KEY_TAB: active += 1 if active > 2 { active = 0 } panels[active].Top() } } }
func ExampleInit() { // You should always test to make sure ncurses has initialized properly. // In order for your error messages to be visible on the terminal you will // need to either log error messages or output them to to stderr. stdscr, err := goncurses.Init() if err != nil { fmt.Fprintln(os.Stderr, err) os.Exit(1) } defer goncurses.End() stdscr.Print("Press enter to continue...") stdscr.Refresh() }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal("init:", err) } defer gc.End() // HasColors can be used to determine whether the current terminal // has the capability of using colours. You could then chose whether or // not to use some other mechanism, like using A_REVERSE, instead if !gc.HasColors() { log.Fatal("Example requires a colour capable terminal") } // Must be called after Init but before using any colour related functions if err := gc.StartColor(); err != nil { log.Fatal(err) } gc.Echo(false) // Initialize a colour pair. Should only fail if an improper pair value // is given if err := gc.InitPair(1, gc.C_RED, gc.C_WHITE); err != nil { log.Fatal("InitPair failed: ", err) } gc.InitPair(2, gc.C_BLACK, gc.C_CYAN) stdscr.Println("Type any key to proceed and again to exit") // An example of trying to set an invalid color pair err = gc.InitPair(-1, gc.C_BLACK, gc.C_CYAN) stdscr.Println("An intentional error:", err) stdscr.Keypad(true) stdscr.MovePrint(12, 30, "Hello, World!!!") stdscr.Refresh() stdscr.GetChar() // Note that background doesn't just accept colours but will fill // any blank positions with the supplied character too. Note that newly // added text with spaces in it will have the blanks converted to the fill // character, if given stdscr.SetBackground(gc.Char('*') | gc.ColorPair(2)) // ColorOn/Off is a shortcut to calling AttrOn/Off(gc.ColorPair(pair)) stdscr.ColorOn(1) stdscr.MovePrint(13, 30, "Hello, World in Color!!!") stdscr.ColorOff(1) stdscr.Refresh() stdscr.GetChar() }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal(err) } defer gc.End() gc.Cursor(0) gc.Echo(false) stdscr.Print("A reversed plus-minus symbol: ") stdscr.AddChar(gc.ACS_PLMINUS | gc.A_REVERSE) stdscr.Refresh() stdscr.GetChar() }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal(err) } defer gc.End() gc.StartColor() gc.Echo(false) gc.Raw(true) var colours = []int16{gc.C_BLACK, gc.C_BLUE, gc.C_CYAN, gc.C_GREEN, gc.C_MAGENTA, gc.C_RED, gc.C_WHITE, gc.C_YELLOW} var attributes = []struct { attr gc.Char text string }{ {gc.A_NORMAL, "normal"}, {gc.A_STANDOUT, "standout"}, {gc.A_UNDERLINE | gc.A_BOLD, "underline"}, {gc.A_REVERSE, "reverse"}, {gc.A_BLINK, "blink"}, {gc.A_DIM, "dim"}, {gc.A_BOLD, "bold"}, } stdscr.MovePrint(0, 0, "Normal terminal colors: ") for i, c := range colours { gc.InitPair(int16(i), c, c) stdscr.ColorOn(int16(i)) stdscr.AddChar(' ') stdscr.ColorOff(int16(i)) } stdscr.MovePrint(1, 0, "Bold terminal colors: ") stdscr.AttrOn(gc.A_BLINK) for i, _ := range colours { stdscr.ColorOn(int16(i)) stdscr.AddChar(' ') stdscr.ColorOff(int16(i)) } stdscr.AttrOff(gc.A_BLINK) stdscr.Move(2, 0) for _, a := range attributes { stdscr.AttrOn(a.attr) stdscr.Println(a.text) stdscr.AttrOff(a.attr) } stdscr.GetChar() }
func main() { stdscr, _ := gc.Init() defer gc.End() row, col := stdscr.MaxYX() msg := "Just a string " stdscr.MovePrint(row/2, (col-len(msg))/2, msg) stdscr.MovePrintf(row-3, 0, "This screen has %d rows and %d columns. ", row, col) stdscr.Println() stdscr.Print("Try resizing your terminal window and then " + "run this program again.") stdscr.Refresh() stdscr.GetChar() }
func main() { stdscr, err := goncurses.Init() if err != nil { log.Fatal("init:", err) } defer goncurses.End() goncurses.Raw(true) goncurses.Echo(false) goncurses.Cursor(0) stdscr.Clear() stdscr.Keypad(true) menu_items := []string{"Choice 1", "Choice 2", "Choice 3", "Choice 4", "Exit"} items := make([]*goncurses.MenuItem, len(menu_items)) for i, val := range menu_items { items[i], _ = goncurses.NewItem(val, "") defer items[i].Free() } menu, err := goncurses.NewMenu(items) if err != nil { stdscr.Print(err) return } defer menu.Free() menu.Post() stdscr.MovePrint(20, 0, "'q' to exit") stdscr.Refresh() for { goncurses.Update() ch := stdscr.GetChar() switch goncurses.KeyString(ch) { case "q": return case "down": menu.Driver(goncurses.REQ_DOWN) case "up": menu.Driver(goncurses.REQ_UP) } } }
func main() { scr, err := gc.Init() if err != nil { log.Fatal("init:", err) } defer gc.End() gc.Echo(false) scr.Println("Type characters to have them appear on the screen.") scr.Println("Press 'q' to exit.") scr.Println() // Accept input concurrently via a goroutine and connect a channel in := make(chan gc.Char) ready := make(chan bool) go func(w *gc.Window, ch chan<- gc.Char) { for { // Block until all write operations are complete <-ready // Send typed character down the channel (which is blocking // in the main loop) ch <- gc.Char(w.GetChar()) } }(scr, in) // Once a character has been received on the 'in' channel the // 'ready' channel will block until it recieves another piece of data. // This happens only once the received character has been written to // the screen. The 'in' channel then blocks on the next loop until // another 'true' is sent down the 'ready' channel signalling to the // input goroutine that it's okay to receive input for { var c gc.Char select { case c = <-in: // blocks while waiting for input from goroutine scr.Print(string(c)) scr.Refresh() case ready <- true: // sends once above block completes } // Exit when 'q' is pressed if c == gc.Char('q') { break } } }
func main() { stdscr, _ := gc.Init() defer gc.End() var panels [3]*gc.Panel y, x := 2, 4 for i := 0; i < 3; i++ { window, _ := gc.NewWindow(10, 40, y+i, x+(i*5)) window.Box(0, 0) panels[i] = gc.NewPanel(window) } gc.UpdatePanels() gc.Update() stdscr.GetChar() }
func main() { gc.SlkInit(gc.SLK_323) scr, err := gc.Init() if err != nil { log.Fatal("INIT:", err) } defer gc.End() gc.StartColor() gc.InitPair(SOFTKEYS, gc.C_YELLOW, gc.C_BLUE) scr.Print("Type any key to exit...") labels := [...]string{"ONE", "TWO", "THREE", "FOUR", "FIVE", "SIX", "SEVEN", "EIGHT"} for i := range labels { gc.SlkSet(i+1, labels[i], gc.SLK_CENTER) } gc.SlkColor(SOFTKEYS) gc.SlkNoutRefresh() scr.Refresh() scr.GetChar() }
func main() { filename := flag.String("outputFilename", "output file", "File to output selected contents to") rf := flag.String("regexp", "(?m)\\S{10,}", "Regular expression to tokenize on") flag.Parse() stats, err := os.Stdin.Stat() if err != nil { fmt.Println("file.Stat()", err) return } if stats.Size() < 0 { fmt.Println("Nothing on STDIN") return } b, err := ioutil.ReadAll(os.Stdin) runes := "" bc := b for len(bc) > 0 { r, size := utf8.DecodeLastRune(bc) runes = string(r) + runes bc = bc[:len(bc)-size] } if err != nil { fmt.Println("STDIO error", err) return } f, err := os.Open("/dev/tty") if err != nil { fmt.Println("Error reopening /dev/tty", err) return } err = syscall.Dup2(int(f.Fd()), 0) if err != nil { fmt.Println("Error Dup2", err) return } stdscr, _ := gc.Init() defer gc.End() s := state{ content: string(runes), selected: "", matches: map[int]*section{}, index: map[rune]*section{}, } r := regexp.MustCompile(*rf) indexes := r.FindAllStringIndex(string(runes), -1) ascii := 'A' for index := range indexes { sc := section{begin: indexes[index][0], end: indexes[index][1]} s.matches[sc.begin] = &sc s.index[ascii] = &sc ascii++ } UpdateScreen(&s, stdscr) for { ch := stdscr.GetChar() if ch == 27 { return } if ch == gc.KEY_RETURN { gc.End() b := "" for _, c := range s.selected { b += s.content[s.index[c].begin:s.index[c].end] + " " } fmt.Println(b) ioutil.WriteFile(*filename, []byte(b), 0644) return } if strings.Contains(s.selected, string(ch)) { // Remove s.selected = strings.Replace(s.selected, string(ch), "", -1) } else { // Add s.selected += string(ch) } UpdateScreen(&s, stdscr) } }
func main() { stdscr, _ := gc.Init() defer gc.End() gc.StartColor() gc.Raw(true) gc.Echo(false) gc.Cursor(0) stdscr.Keypad(true) gc.InitPair(1, gc.C_RED, gc.C_BLACK) // build the menu items menu_items := []string{"Choice 1", "Choice 2", "Choice 3", "Choice 4", "Exit"} items := make([]*gc.MenuItem, len(menu_items)) for i, val := range menu_items { items[i], _ = gc.NewItem(val, "") defer items[i].Free() } // create the menu menu, _ := gc.NewMenu(items) defer menu.Free() menuwin, _ := gc.NewWindow(10, 40, 4, 14) menuwin.Keypad(true) menu.SetWindow(menuwin) dwin := menuwin.Derived(6, 38, 3, 1) menu.SubWindow(dwin) menu.Mark(" * ") // Print centered menu title y, x := menuwin.MaxYX() title := "My Menu" menuwin.Box(0, 0) menuwin.ColorOn(1) menuwin.MovePrint(1, (x/2)-(len(title)/2), title) menuwin.ColorOff(1) menuwin.MoveAddChar(2, 0, gc.ACS_LTEE) menuwin.HLine(2, 1, gc.ACS_HLINE, x-3) menuwin.MoveAddChar(2, x-2, gc.ACS_RTEE) y, x = stdscr.MaxYX() stdscr.MovePrint(y-2, 1, "'q' to exit") stdscr.Refresh() menu.Post() defer menu.UnPost() menuwin.Refresh() for { gc.Update() ch := menuwin.GetChar() switch ch { case 'q': return case gc.KEY_DOWN: menu.Driver(gc.REQ_DOWN) case gc.KEY_UP: menu.Driver(gc.REQ_UP) } } }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal("init:", err) } defer gc.End() gc.StartColor() gc.Raw(true) gc.Echo(false) gc.Cursor(0) stdscr.Keypad(true) gc.InitPair(1, gc.C_RED, gc.C_BLACK) gc.InitPair(2, gc.C_GREEN, gc.C_BLACK) gc.InitPair(3, gc.C_MAGENTA, gc.C_BLACK) // build the menu items menu_items := []string{ "Choice 1", "Choice 2", "Choice 3", "Choice 4", "Choice 5", "Exit"} items := make([]*gc.MenuItem, len(menu_items)) for i, val := range menu_items { items[i], _ = gc.NewItem(val, "") defer items[i].Free() if i == 2 || i == 4 { items[i].Selectable(false) } } // create the menu menu, _ := gc.NewMenu(items) defer menu.Free() y, _ := stdscr.MaxYX() stdscr.MovePrint(y-3, 0, "Use up/down arrows to move; 'q' to exit") stdscr.Refresh() menu.SetForeground(gc.ColorPair(1) | gc.A_REVERSE) menu.SetBackground(gc.ColorPair(2) | gc.A_BOLD) menu.Grey(gc.ColorPair(3) | gc.A_BOLD) menu.Post() defer menu.UnPost() for { gc.Update() ch := stdscr.GetChar() switch ch { case ' ': menu.Driver(gc.REQ_TOGGLE) case 'q': return case gc.KEY_RETURN: stdscr.Move(20, 0) stdscr.ClearToEOL() stdscr.Printf("Item selected is: %s", menu.Current(nil).Name()) menu.PositionCursor() default: menu.Driver(gc.DriverActions[ch]) } } }
func main() { stdscr, _ := gc.Init() defer gc.End() gc.StartColor() gc.Raw(true) gc.Echo(false) gc.Cursor(0) stdscr.Keypad(true) gc.InitPair(1, gc.C_RED, gc.C_BLACK) gc.InitPair(2, gc.C_CYAN, gc.C_BLACK) // build the menu items menu_items := []string{ "Choice 1", "Choice 2", "Choice 3", "Choice 4", "Choice 5", "Choice 6", "Choice 7", "Choice 8", "Choice 9", "Choice 10", "Exit"} items := make([]*gc.MenuItem, len(menu_items)) for i, val := range menu_items { items[i], _ = gc.NewItem(val, "") defer items[i].Free() } // create the menu menu, _ := gc.NewMenu(items) defer menu.Free() menuwin, _ := gc.NewWindow(HEIGHT, WIDTH, 4, 14) menuwin.Keypad(true) menu.SetWindow(menuwin) dwin := menuwin.Derived(6, 38, 3, 1) menu.SubWindow(dwin) menu.Format(5, 1) menu.Mark(" * ") // Print centered menu title title := "My Menu" menuwin.Box(0, 0) menuwin.ColorOn(1) menuwin.MovePrint(1, (WIDTH/2)-(len(title)/2), title) menuwin.ColorOff(1) menuwin.MoveAddChar(2, 0, gc.ACS_LTEE) menuwin.HLine(2, 1, gc.ACS_HLINE, WIDTH-2) menuwin.MoveAddChar(2, WIDTH-1, gc.ACS_RTEE) y, _ := stdscr.MaxYX() stdscr.ColorOn(2) stdscr.MovePrint(y-3, 1, "Use up/down arrows or page up/down to navigate. 'q' to exit") stdscr.ColorOff(2) stdscr.Refresh() menu.Post() defer menu.UnPost() menuwin.Refresh() for { gc.Update() if ch := menuwin.GetChar(); ch == 'q' { return } else { menu.Driver(gc.DriverActions[ch]) } } }
func main() { var active int menu := []string{"Choice 1", "Choice 2", "Choice 3", "Choice 4", "Exit"} stdscr, err := gc.Init() if err != nil { log.Fatal("init:", err) } defer gc.End() gc.Raw(true) gc.Echo(false) gc.Cursor(0) stdscr.Keypad(true) y, x := 5, 2 win, err := gc.NewWindow(HEIGHT, WIDTH, y, x) if err != nil { log.Fatal("new_window:", err) } stdscr.MovePrint(0, 0, "Use up/down arrow keys, enter to "+ "select or 'q' to quit") stdscr.MovePrint(1, 0, "You may also left mouse click on an entry to select") stdscr.Refresh() printmenu(win, menu, active) // Check to see if the Mouse is available. This function was not available // in older versions of ncurses (5.7 and older) and may return false even // if the mouse is in fact avaiable for use. if gc.MouseOk() { stdscr.MovePrint(3, 0, "WARN: Mouse support not detected.") } // Adjust the default mouse-click sensitivity to make it more responsive gc.MouseInterval(50) // If, for example, you are temporarily disabling the mouse or are // otherwise altering mouse button detection temporarily, you could // pass a pointer to a MouseButton object as the 2nd argument to // record that information. Invocation may look something like: var prev gc.MouseButton gc.MouseMask(gc.M_B1_PRESSED, nil) // only detect left mouse clicks gc.MouseMask(gc.M_ALL, &prev) // temporarily enable all mouse clicks gc.MouseMask(prev, nil) // change it back for { ch := stdscr.GetChar() switch ch { case 'q': return case gc.KEY_UP: if active == 0 { active = len(menu) - 1 } else { active -= 1 } case gc.KEY_DOWN: if active == len(menu)-1 { active = 0 } else { active += 1 } case gc.KEY_MOUSE: /* pull the mouse event off the queue */ md := gc.GetMouse() new := getactive(x, y, md.X, md.Y, menu) if new != -1 { active = new } stdscr.MovePrintf(23, 0, "Choice #%d: %s selected", active+1, menu[active]) stdscr.ClearToEOL() stdscr.Refresh() case gc.KEY_RETURN, gc.KEY_ENTER, gc.Key('\r'): stdscr.MovePrintf(23, 0, "Choice #%d: %s selected", active+1, menu[active]) stdscr.ClearToEOL() stdscr.Refresh() default: stdscr.MovePrintf(23, 0, "Character pressed = %3d/%c", ch, ch) stdscr.ClearToEOL() stdscr.Refresh() } printmenu(win, menu, active) } }
func main() { stdscr, err := gc.Init() if err != nil { log.Fatal(err) } defer gc.End() // Turn off character echo, hide the cursor and disable input buffering gc.Echo(false) gc.CBreak(true) gc.Cursor(0) stdscr.Print("Use arrow keys to move the window. Press 'q' to exit") stdscr.NoutRefresh() // Determine the center of the screen and offset those coordinates by // half of the window size we are about to create. These coordinates will // be used to move our window around the screen rows, cols := stdscr.MaxYX() height, width := 5, 10 y, x := (rows-height)/2, (cols-width)/2 // Create a new window centered on the screen and enable the use of the // keypad on it so the arrow keys are available var win *gc.Window win, err = gc.NewWindow(height, width, y, x) if err != nil { log.Fatal(err) } win.Keypad(true) main: for { // Clear the section of screen where the box is currently located so // that it is blanked by calling Erase on the window and refreshing it // so that the chances are sent to the virtual screen but not actually // output to the terminal win.Erase() win.NoutRefresh() // Move the window to it's new location (if any) and redraw it win.MoveWindow(y, x) win.Box(0, 0) win.NoutRefresh() // Update will flush only the characters which have changed between the // physical screen and the virtual screen, minimizing the number of // characters which must be sent gc.Update() // In order for the window to display correctly, we must call GetChar() // on it rather than stdscr switch win.GetChar() { case 'q': break main case gc.KEY_LEFT: if x > 0 { x-- } case gc.KEY_RIGHT: if x < cols-width { x++ } case gc.KEY_UP: if y > 1 { y-- } case gc.KEY_DOWN: if y < rows-height { y++ } } } win.Delete() }
func terminateWindow() { log.Println("TERMINATE") goncurses.CBreak(false) goncurses.NewLines(false) goncurses.End() }
func main() { f, err := os.Create("err.log") if err != nil { log.Fatal(err) } defer f.Close() log.SetOutput(f) var stdscr *gc.Window stdscr, err = gc.Init() if err != nil { log.Println("Init:", err) } defer gc.End() rand.Seed(time.Now().Unix()) gc.StartColor() gc.Cursor(0) gc.Echo(false) gc.HalfDelay(1) gc.InitPair(1, gc.C_WHITE, gc.C_BLACK) gc.InitPair(2, gc.C_YELLOW, gc.C_BLACK) gc.InitPair(3, gc.C_MAGENTA, gc.C_BLACK) gc.InitPair(4, gc.C_RED, gc.C_BLACK) gc.InitPair(5, gc.C_BLUE, gc.C_BLACK) gc.InitPair(6, gc.C_GREEN, gc.C_BLACK) lines, cols := stdscr.MaxYX() pl, pc := lines, cols*3 ship := newShip(lines/2, 5) objects = append(objects, ship) field := genStarfield(pl, pc) text := stdscr.Duplicate() c := time.NewTicker(time.Second / 2) c2 := time.NewTicker(time.Second / 16) px := 0 loop: for { text.MovePrintf(0, 0, "Life: [%-5s]", lifeToText(ship.life)) stdscr.Erase() stdscr.Copy(field.Window, 0, px, 0, 0, lines-1, cols-1, true) drawObjects(stdscr) stdscr.Overlay(text) stdscr.Refresh() select { case <-c.C: spawnAsteroid(stdscr.MaxYX()) if px+cols >= pc { break loop } px++ case <-c2.C: updateObjects(stdscr.MaxYX()) drawObjects(stdscr) default: if !handleInput(stdscr, ship) || ship.Expired(-1, -1) { break loop } } } msg := "Game Over" end, err := gc.NewWindow(5, len(msg)+4, (lines/2)-2, (cols-len(msg))/2) if err != nil { log.Fatal("game over:", err) } end.MovePrint(2, 2, msg) end.Box(gc.ACS_VLINE, gc.ACS_HLINE) end.Refresh() gc.Nap(2000) }
func main() { filename := flag.String("outputFilename", "output file", "File to output selected contents to") flag.Parse() //in := bufio.NewReader(os.Stdin) stats, err := os.Stdin.Stat() if err != nil { fmt.Println("file.Stat()", err) return } if stats.Size() < 0 { fmt.Println("Nothing on STDIN") return } b, err := ioutil.ReadAll(os.Stdin) if err != nil { fmt.Println("STDIO error", err) return } f, err := os.Open("/dev/tty") if err != nil { fmt.Println("Error reopening /dev/tty", err) return } syscall.Dup2(int(f.Fd()), 0) stdscr, _ := gc.Init() defer gc.End() // Read text, if regex match replace first character (which is highlighted) // write to screen // have an input to type 'a-z' // fully highlight match // enter prints all matches to term // fmt.Println(string(b)) if !utf8.Valid(b) { fmt.Println("NOT UTF8 VALID: " + string(b)) return } s := state{ content: string(b), selected: "", matches: map[int]*section{}, index: map[rune]*section{}, } r := regexp.MustCompile(`(?m)\S{10,}`) indexes := r.FindAllStringIndex(string(b), -1) ascii := 'A' for index := range indexes { sc := section{begin: indexes[index][0], end: indexes[index][1]} s.matches[sc.begin] = &sc s.index[ascii] = &sc ascii++ } update(&s, stdscr) for { ch := stdscr.GetChar() if ch == gc.KEY_EXIT { return } if ch == gc.KEY_RETURN { gc.End() b := "" for _, c := range s.selected { b += s.content[s.index[c].begin:s.index[c].end] + " " } fmt.Println(b) ioutil.WriteFile(*filename, []byte(b), 0644) return } if strings.Contains(s.selected, string(ch)) { // Remove s.selected = strings.Replace(s.selected, string(ch), "", -1) } else { // Add s.selected += string(ch) } update(&s, stdscr) } }