# # # Nim's Runtime Library # (c) Copyright 2012 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # ## This module contains a few procedures to control the *terminal* ## (also called *console*). On UNIX, the implementation simply uses ANSI escape ## sequences and does not depend on any other module, on Windows it uses the ## Windows API. ## Changing the style is permanent even after program termination! Use the ## code `exitprocs.addExitProc(resetAttributes)` to restore the defaults. ## Similarly, if you hide the cursor, make sure to unhide it with ## `showCursor` before quitting. ## ## Progress bar ## ============ ## ## Basic progress bar example: runnableExamples("-r:off"): import std/[os, strutils] for i in 0..100: stdout.styledWriteLine(fgRed, "0% ", fgWhite, '#'.repeat i, if i > 50: fgGreen else: fgYellow, "\t", $i , "%") sleep 42 cursorUp 1 eraseLine() stdout.resetAttributes() ##[ ## Playing with colorful and styled text ]## ## Procs like `styledWriteLine`, `styledEcho` etc. have a temporary effect on ## text parameters. Style parameters only affect the text parameter right after them. ## After being called, these procs will reset the default style of the terminal. ## While `setBackGroundColor`, `setForeGroundColor` etc. have a lasting ## influence on the terminal, you can use `resetAttributes` to ## reset the default style of the terminal. runnableExamples("-r:off"): stdout.styledWriteLine({styleBright, styleBlink, styleUnderscore}, "styled text ") stdout.styledWriteLine(fgRed, "red text ") stdout.styledWriteLine(fgWhite, bgRed, "white text in red background") stdout.styledWriteLine(" ordinary text without style ") stdout.setBackGroundColor(bgCyan, true) stdout.setForeGroundColor(fgBlue) stdout.write("blue text in cyan background") stdout.resetAttributes() # You can specify multiple text parameters. Style parameters # only affect the text parameter right after them. styledEcho styleBright, fgGreen, "[PASS]", resetStyle, fgGreen, " Yay!" stdout.styledWriteLine(fgRed, "red text ", styleBright, "bold red", fgDefault, " bold text") import macros import strformat from strutils import toLowerAscii, `%` import colors when defined(windows): import winlean type PTerminal = ref object trueColorIsSupported: bool trueColorIsEnabled: bool fgSetColor: bool when defined(windows): hStdout: Handle hStderr: Handle oldStdoutAttr: int16 oldStderrAttr: int16 var gTerm {.threadvar.}: owned(PTerminal) when defined(windows) and defined(consoleapp): proc newTerminal(): owned(PTerminal) {.gcsafe, raises: [OSError].} else: proc newTerminal(): owned(PTerminal) {.gcsafe, raises: [].} proc getTerminal(): PTerminal {.inline.} = if isNil(gTerm): gTerm = newTerminal() result = gTerm const fgPrefix = "\e[38;2;" bgPrefix = "\e[48;2;" ansiResetCode* = "\e[0m" stylePrefix = "\e[" when defined(windows): import winlean, os const DUPLICATE_SAME_ACCESS = 2 FOREGROUND_BLUE = 1 FOREGROUND_GREEN = 2 FOREGROUND_RED = 4 FOREGROUND_INTENSITY = 8 BACKGROUND_BLUE = 16 BACKGROUND_GREEN = 32 BACKGROUND_RED = 64 BACKGROUND_INTENSITY = 128 FOREGROUND_RGB = FOREGROUND_RED or FOREGROUND_GREEN or FOREGROUND_BLUE BACKGROUND_RGB = BACKGROUND_RED or BACKGROUND_GREEN or BACKGROUND_BLUE ENABLE_VIRTUAL_TERMINAL_PROCESSING = 0x0004 type SHORT = int16 COORD = object x: SHORT y: SHORT SMALL_RECT = object left: SHORT top: SHORT right: SHORT bottom: SHORT CONSOLE_SCREEN_BUFFER_INFO = object dwSize: COORD dwCursorPosition: COORD wAttributes: int16 srWindow: SMALL_RECT dwMaximumWindowSize: COORD CONSOLE_CURSOR_INFO = object dwSize: DWORD bVisible: WINBOOL proc duplicateHandle(hSourceProcessHandle: Handle, hSourceHandle: Handle, hTargetProcessHandle: Handle, lpTargetHandle: ptr Handle, dwDesiredAccess: DWORD, bInheritHandle: WINBOOL, dwOptions: DWORD): WINBOOL{.stdcall, dynlib: "kernel32", importc: "DuplicateHandle".} proc getCurrentProcess(): Handle{.stdcall, dynlib: "kernel32", importc: "GetCurrentProcess".} proc getConsoleScreenBufferInfo(hConsoleOutput: Handle, lpConsoleScreenBufferInfo: ptr CONSOLE_SCREEN_BUFFER_INFO): WINBOOL{.stdcall, dynlib: "kernel32", importc: "GetConsoleScreenBufferInfo".} proc getConsoleCursorInfo(hConsoleOutput: Handle, lpConsoleCursorInfo: ptr CONSOLE_CURSOR_INFO): WINBOOL{. stdcall, dynlib: "kernel32", importc: "GetConsoleCursorInfo".} proc setConsoleCursorInfo(hConsoleOutput: Handle, lpConsoleCursorInfo: ptr CONSOLE_CURSOR_INFO): WINBOOL{. stdcall, dynlib: "kernel32", importc: "SetConsoleCursorInfo".} proc terminalWidthIoctl*(handles: openArray[Handle]): int = var csbi: CONSOLE_SCREEN_BUFFER_INFO for h in handles: if getConsoleScreenBufferInfo(h, addr csbi) != 0: return int(csbi.srWindow.right - csbi.srWindow.left + 1) return 0 proc terminalHeightIoctl*(handles: openArray[Handle]): int = var csbi: CONSOLE_SCREEN_BUFFER_INFO for h in handles: if getConsoleScreenBufferInfo(h, addr csbi) != 0: return int(csbi.srWindow.bottom - csbi.srWindow.top + 1) return 0 proc terminalWidth*(): int = var w: int = 0 w = terminalWidthIoctl([getStdHandle(STD_INPUT_HANDLE), getStdHandle(STD_OUTPUT_HANDLE), getStdHandle(STD_ERROR_HANDLE)]) if w > 0: return w return 80 proc terminalHeight*(): int = var h: int = 0 h = terminalHeightIoctl([getStdHandle(STD_INPUT_HANDLE), getStdHandle(STD_OUTPUT_HANDLE), getStdHandle(STD_ERROR_HANDLE)]) if h > 0: return h return 0 proc setConsoleCursorPosition(hConsoleOutput: Handle, dwCursorPosition: COORD): WINBOOL{. stdcall, dynlib: "kernel32", importc: "SetConsoleCursorPosition".} proc fillConsoleOutputCharacter(hConsoleOutput: Handle, cCharacter: char, nLength: DWORD, dwWriteCoord: COORD, lpNumberOfCharsWritten: ptr DWORD): WINBOOL{. stdcall, dynlib: "kernel32", importc: "FillConsoleOutputCharacterA".} proc fillConsoleOutputAttribute(hConsoleOutput: Handle, wAttribute: int16, nLength: DWORD, dwWriteCoord: COORD, lpNumberOfAttrsWritten: ptr DWORD): WINBOOL{. stdcall, dynlib: "kernel32", importc: "FillConsoleOutputAttribute".} proc setConsoleTextAttribute(hConsoleOutput: Handle, wAttributes: int16): WINBOOL{. stdcall, dynlib: "kernel32", importc: "SetConsoleTextAttribute".} proc getConsoleMode(hConsoleHandle: Handle, dwMode: ptr DWORD): WINBOOL{. stdcall, dynlib: "kernel32", importc: "GetConsoleMode".} proc setConsoleMode(hConsoleHandle: Handle, dwMode: DWORD): WINBOOL{. stdcall, dynlib: "kernel32", importc: "SetConsoleMode".} proc getCursorPos(h: Handle): tuple [x, y: int] = var c: CONSOLE_SCREEN_BUFFER_INFO if getConsoleScreenBufferInfo(h, addr(c)) == 0: raiseOSError(osLastError()) return (int(c.dwCursorPosition.x), int(c.dwCursorPosition.y)) proc setCursorPos(h: Handle, x, y: int) = var c: COORD c.x = int16(x) c.y = int16(y) if setConsoleCursorPosition(h, c) == 0: raiseOSError(osLastError()) proc getAttributes(h: Handle): int16 = var c: CONSOLE_SCREEN_BUFFER_INFO # workaround Windows bugs: try several times if getConsoleScreenBufferInfo(h, addr(c)) != 0: return c.wAttributes return 0x70'i16 # ERROR: return white background, black text proc initTerminal(term: PTerminal) = var hStdoutTemp = getStdHandle(STD_OUTPUT_HANDLE) if duplicateHandle(getCurrentProcess(), hStdoutTemp, getCurrentProcess(), addr(term.hStdout), 0, 1, DUPLICATE_SAME_ACCESS) == 0: when defined(consoleapp): raiseOSError(osLastError()) var hStderrTemp = getStdHandle(STD_ERROR_HANDLE) if duplicateHandle(getCurrentProcess(), hStderrTemp, getCurrentProcess(), addr(term.hStderr), 0, 1, DUPLICATE_SAME_ACCESS) == 0: when defined(consoleapp): raiseOSError(osLastError()) term.oldStdoutAttr = getAttributes(term.hStdout) term.oldStderrAttr = getAttributes(term.hStderr) template conHandle(f: File): Handle = let term = getTerminal() if f == stderr: term.hStderr else: term.hStdout else: import termios, posix, os, parseutils proc setRaw(fd: FileHandle, time: cint = TCSAFLUSH) = var mode: Termios discard fd.tcGetAttr(addr mode) mode.c_iflag = mode.c_iflag and not Cflag(BRKINT or ICRNL or INPCK or ISTRIP or IXON) mode.c_oflag = mode.c_oflag and not Cflag(OPOST) mode.c_cflag = (mode.c_cflag and not Cflag(CSIZE or PARENB)) or CS8 mode.c_lflag = mode.c_lflag and not Cflag(ECHO or ICANON or IEXTEN or ISIG) mode.c_cc[VMIN] = 1.cuchar mode.c_cc[VTIME] = 0.cuchar discard fd.tcSetAttr(time, addr mode) proc terminalWidthIoctl*(fds: openArray[int]): int = ## Returns terminal width from first fd that supports the ioctl. var win: IOctl_WinSize for fd in fds: if ioctl(cint(fd), TIOCGWINSZ, addr win) != -1: return int(win.ws_col) return 0 proc terminalHeightIoctl*(fds: openArray[int]): int = ## Returns terminal height from first fd that supports the ioctl. var win: IOctl_WinSize for fd in fds: if ioctl(cint(fd), TIOCGWINSZ, addr win) != -1: return int(win.ws_row) return 0 var L_ctermid{.importc, header: "".}: cint proc terminalWidth*(): int = ## Returns some reasonable terminal width from either standard file ## descriptors, controlling terminal, environment variables or tradition. var w = terminalWidthIoctl([0, 1, 2]) #Try standard file descriptors if w > 0: return w var cterm = newString(L_ctermid) #Try controlling tty var fd = open(ctermid(cstring(cterm)), O_RDONLY) if fd != -1: w = terminalWidthIoctl([int(fd)]) discard close(fd) if w > 0: return w var s = getEnv("COLUMNS") #Try standard env var if len(s) > 0 and parseInt(s, w) > 0 and w > 0: return w return 80 #Finally default to venerable value proc terminalHeight*(): int = ## Returns some reasonable terminal height from either standard file ## descriptors, controlling terminal, environment variables or tradition. ## Zero is returned if the height could not be determined. var h = terminalHeightIoctl([0, 1, 2]) # Try standard file descriptors if h > 0: return h var cterm = newString(L_ctermid) # Try controlling tty var fd = open(ctermid(cstring(cterm)), O_RDONLY) if fd != -1: h = terminalHeightIoctl([int(fd)]) discard close(fd) if h > 0: return h var s = getEnv("LINES") # Try standard env var if len(s) > 0 and parseInt(s, h) > 0 and h > 0: return h return 0 # Could not determine height proc terminalSize*(): tuple[w, h: int] = ## Returns the terminal width and height as a tuple. Internally calls ## `terminalWidth` and `terminalHeight`, so the same assumptions apply. result = (terminalWidth(), terminalHeight()) when defined(windows): proc setCursorVisibility(f: File, visible: bool) = var ccsi: CONSOLE_CURSOR_INFO let h = conHandle(f) if getConsoleCursorInfo(h, addr(ccsi)) == 0: raiseOSError(osLastError()) ccsi.bVisible = if visible: 1 else: 0 if setConsoleCursorInfo(h, addr(ccsi)) == 0: raiseOSError(osLastError()) proc hideCursor*(f: File) = ## Hides the cursor. when defined(windows): setCursorVisibility(f, false) else: f.write("\e[?25l") proc showCursor*(f: File) = ## Shows the cursor. when defined(windows): setCursorVisibility(f, true) else: f.write("\e[?25h") proc setCursorPos*(f: File, x, y: int) = ## Sets the terminal's cursor to the (x,y) position. ## (0,0) is the upper left of the screen. when defined(windows): let h = conHandle(f) setCursorPos(h, x, y) else: f.write(fmt"{stylePrefix}{y+1};{x+1}f") proc setCursorXPos*(f: File, x: int) = ## Sets the terminal's cursor to the x position. ## The y position is not changed. when defined(windows): let h = conHandle(f) var scrbuf: CONSOLE_SCREEN_BUFFER_INFO if getConsoleScreenBufferInfo(h, addr(scrbuf)) == 0: raiseOSError(osLastError()) var origin = scrbuf.dwCursorPosition origin.x = int16(x) if setConsoleCursorPosition(h, origin) == 0: raiseOSError(osLastError()) else: f.write(fmt"{stylePrefix}{x+1}G") when defined(windows): proc setCursorYPos*(f: File, y: int) = ## Sets the terminal's cursor to the y position. ## The x position is not changed. ## .. warning:: This is not supported on UNIX! when defined(windows): let h = conHandle(f) var scrbuf: CONSOLE_SCREEN_BUFFER_INFO if getConsoleScreenBufferInfo(h, addr(scrbuf)) == 0: raiseOSError(osLastError()) var origin = scrbuf.dwCursorPosition origin.y = int16(y) if setConsoleCursorPosition(h, origin) == 0: raiseOSError(osLastError()) else: discard proc cursorUp*(f: File, count = 1) = ## Moves the cursor up by `count` rows. when defined(windows): let h = conHandle(f) var p = getCursorPos(h) dec(p.y, count) setCursorPos(h, p.x, p.y) else: f.write("\e[" & $count & 'A') proc cursorDown*(f: File, count = 1) = ## Moves the cursor down by `count` rows. when defined(windows): let h = conHandle(f) var p = getCursorPos(h) inc(p.y, count) setCursorPos(h, p.x, p.y) else: f.write(fmt"{stylePrefix}{count}B") proc cursorForward*(f: File, count = 1) = ## Moves the cursor forward by `count` columns. when defined(windows): let h = conHandle(f) var p = getCursorPos(h) inc(p.x, count) setCursorPos(h, p.x, p.y) else: f.write(fmt"{stylePrefix}{count}C") proc cursorBackward*(f: File, count = 1) = ## Moves the cursor backward by `count` columns. when defined(windows): let h = conHandle(f) var p = getCursorPos(h) dec(p.x, count) setCursorPos(h, p.x, p.y) else: f.write(fmt"{stylePrefix}{count}D") when true: discard else: proc eraseLineEnd*(f: File) = ## Erases from the current cursor position to the end of the current line. when defined(windows): discard else: f.write("\e[K") proc eraseLineStart*(f: File) = ## Erases from the current cursor position to the start of the current line. when defined(windows): discard else: f.write("\e[1K") proc eraseDown*(f: File) = ## Erases the screen from the current line down to the bottom of the screen. when defined(windows): discard else: f.write("\e[J") proc eraseUp*(f: File) = ## Erases the screen from the current line up to the top of the screen. when defined(windows): discard else: f.write("\e[1J") proc eraseLine*(f: File) = ## Erases the entire current line. runnableExamples("-r:off"): write(stdout, "never mind") stdout.eraseLine() # nothing will be printed on the screen when defined(windows): let h = conHandle(f) var scrbuf: CONSOLE_SCREEN_BUFFER_INFO var numwrote: DWORD if getConsoleScreenBufferInfo(h, addr(scrbuf)) == 0: raiseOSError(osLastError()) var origin = scrbuf.dwCursorPosition origin.x = 0'i16 if setConsoleCursorPosition(h, origin) == 0: raiseOSError(osLastError()) var wt: DWORD = scrbuf.dwSize.x - origin.x if fillConsoleOutputCharacter(h, ' ', wt, origin, addr(numwrote)) == 0: raiseOSError(osLastError()) if fillConsoleOutputAttribute(h, scrbuf.wAttributes, wt, scrbuf.dwCursorPosition, addr(numwrote)) == 0: raiseOSError(osLastError()) else: f.write("\e[2K") setCursorXPos(f, 0) proc eraseScreen*(f: File) = ## Erases the screen with the background colour and moves the cursor to home. when defined(windows): let h = conHandle(f) var scrbuf: CONSOLE_SCREEN_BUFFER_INFO var numwrote: DWORD var origin: COORD # is inititalized to 0, 0 if getConsoleScreenBufferInfo(h, addr(scrbuf)) == 0: raiseOSError(osLastError()) let numChars = int32(scrbuf.dwSize.x)*int32(scrbuf.dwSize.y) if fillConsoleOutputCharacter(h, ' ', numChars, origin, addr(numwrote)) == 0: raiseOSError(osLastError()) if fillConsoleOutputAttribute(h, scrbuf.wAttributes, numChars, origin, addr(numwrote)) == 0: raiseOSError(osLastError()) setCursorXPos(f, 0) else: f.write("\e[2J") when not defined(windows): var gFG {.threadvar.}: int gBG {.threadvar.}: int proc resetAttributes*(f: File) = ## Resets all attributes. when defined(windows): let term = getTerminal() if f == stderr: discard setConsoleTextAttribute(term.hStderr, term.oldStderrAttr) else: discard setConsoleTextAttribute(term.hStdout, term.oldStdoutAttr) else: f.write(ansiResetCode) gFG = 0 gBG = 0 type Style* = enum ## Different styles for text output. styleBright = 1, ## bright text styleDim, ## dim text styleItalic, ## italic (or reverse on terminals not supporting) styleUnderscore, ## underscored text styleBlink, ## blinking/bold text styleBlinkRapid, ## rapid blinking/bold text (not widely supported) styleReverse, ## reverse styleHidden, ## hidden text styleStrikethrough ## strikethrough proc ansiStyleCode*(style: int): string = result = fmt"{stylePrefix}{style}m" template ansiStyleCode*(style: Style): string = ansiStyleCode(style.int) # The styleCache can be skipped when `style` is known at compile-time template ansiStyleCode*(style: static[Style]): string = (static(stylePrefix & $style.int & "m")) proc setStyle*(f: File, style: set[Style]) = ## Sets the terminal style. when defined(windows): let h = conHandle(f) var old = getAttributes(h) and (FOREGROUND_RGB or BACKGROUND_RGB) var a = 0'i16 if styleBright in style: a = a or int16(FOREGROUND_INTENSITY) if styleBlink in style: a = a or int16(BACKGROUND_INTENSITY) if styleReverse in style: a = a or 0x4000'i16 # COMMON_LVB_REVERSE_VIDEO if styleUnderscore in style: a = a or 0x8000'i16 # COMMON_LVB_UNDERSCORE discard setConsoleTextAttribute(h, old or a) else: for s in items(style): f.write(ansiStyleCode(s)) proc writeStyled*(txt: string, style: set[Style] = {styleBright}) = ## Writes the text `txt` in a given `style` to stdout. when defined(windows): let term = getTerminal() var old = getAttributes(term.hStdout) stdout.setStyle(style) stdout.write(txt) discard setConsoleTextAttribute(term.hStdout, old) else: stdout.setStyle(style) stdout.write(txt) stdout.resetAttributes() if gFG != 0: stdout.write(ansiStyleCode(gFG)) if gBG != 0: stdout.write(ansiStyleCode(gBG)) type ForegroundColor* = enum ## Terminal's foreground colors. fgBlack = 30, ## black fgRed, ## red fgGreen, ## green fgYellow, ## yellow fgBlue, ## blue fgMagenta, ## magenta fgCyan, ## cyan fgWhite, ## white fg8Bit, ## 256-color (not supported, see `enableTrueColors` instead.) fgDefault ## default terminal foreground color BackgroundColor* = enum ## Terminal's background colors. bgBlack = 40, ## black bgRed, ## red bgGreen, ## green bgYellow, ## yellow bgBlue, ## blue bgMagenta, ## magenta bgCyan, ## cyan bgWhite, ## white bg8Bit, ## 256-color (not supported, see `enableTrueColors` instead.) bgDefault ## default terminal background color when defined(windows): var defaultForegroundColor, defaultBackgroundColor: int16 = 0xFFFF'i16 # Default to an invalid value 0xFFFF proc setForegroundColor*(f: File, fg: ForegroundColor, bright = false) = ## Sets the terminal's foreground color. when defined(windows): let h = conHandle(f) var old = getAttributes(h) and not FOREGROUND_RGB if defaultForegroundColor == 0xFFFF'i16: defaultForegroundColor = old old = if bright: old or FOREGROUND_INTENSITY else: old and not(FOREGROUND_INTENSITY) const lookup: array[ForegroundColor, int] = [ 0, # ForegroundColor enum with ordinal 30 (FOREGROUND_RED), (FOREGROUND_GREEN), (FOREGROUND_RED or FOREGROUND_GREEN), (FOREGROUND_BLUE), (FOREGROUND_RED or FOREGROUND_BLUE), (FOREGROUND_BLUE or FOREGROUND_GREEN), (FOREGROUND_BLUE or FOREGROUND_GREEN or FOREGROUND_RED), 0, # fg8Bit not supported, see `enableTrueColors` instead. 0] # unused if fg == fgDefault: discard setConsoleTextAttribute(h, toU16(old or defaultForegroundColor)) else: discard setConsoleTextAttribute(h, toU16(old or lookup[fg])) else: gFG = ord(fg) if bright: inc(gFG, 60) f.write(ansiStyleCode(gFG)) proc setBackgroundColor*(f: File, bg: BackgroundColor, bright = false) = ## Sets the terminal's background color. when defined(windows): let h = conHandle(f) var old = getAttributes(h) and not BACKGROUND_RGB if defaultBackgroundColor == 0xFFFF'i16: defaultBackgroundColor = old old = if bright: old or BACKGROUND_INTENSITY else: old and not(BACKGROUND_INTENSITY) const lookup: array[BackgroundColor, int] = [ 0, # BackgroundColor enum with ordinal 40 (BACKGROUND_RED), (BACKGROUND_GREEN), (BACKGROUND_RED or BACKGROUND_GREEN), (BACKGROUND_BLUE), (BACKGROUND_RED or BACKGROUND_BLUE), (BACKGROUND_BLUE or BACKGROUND_GREEN), (BACKGROUND_BLUE or BACKGROUND_GREEN or BACKGROUND_RED), 0, # bg8Bit not supported, see `enableTrueColors` instead. 0] # unused if bg == bgDefault: discard setConsoleTextAttribute(h, toU16(old or defaultBackgroundColor)) else: discard setConsoleTextAttribute(h, toU16(old or lookup[bg])) else: gBG = ord(bg) if bright: inc(gBG, 60) f.write(ansiStyleCode(gBG)) proc ansiForegroundColorCode*(fg: ForegroundColor, bright = false): string = var style = ord(fg) if bright: inc(style, 60) return ansiStyleCode(style) template ansiForegroundColorCode*(fg: static[ForegroundColor], bright: static[bool] = false): string = ansiStyleCode(fg.int + bright.int * 60) proc ansiForegroundColorCode*(color: Color): string = let rgb = extractRGB(color) result = fmt"{fgPrefix}{rgb.r};{rgb.g};{rgb.b}m" template ansiForegroundColorCode*(color: static[Color]): string = const rgb = extractRGB(color) # no usage of `fmt`, see issue #7632 (static("$1$2;$3;$4m" % [$fgPrefix, $(rgb.r), $(rgb.g), $(rgb.b)])) proc ansiBackgroundColorCode*(color: Color): string = let rgb = extractRGB(color) result = fmt"{bgPrefix}{rgb.r};{rgb.g};{rgb.b}m" template ansiBackgroundColorCode*(color: static[Color]): string = const rgb = extractRGB(color) # no usage of `fmt`, see issue #7632 (static("$1$2;$3;$4m" % [$bgPrefix, $(rgb.r), $(rgb.g), $(rgb.b)])) proc setForegroundColor*(f: File, color: Color) = ## Sets the terminal's foreground true color. if getTerminal().trueColorIsEnabled: f.write(ansiForegroundColorCode(color)) proc setBackgroundColor*(f: File, color: Color) = ## Sets the terminal's background true color. if getTerminal().trueColorIsEnabled: f.write(ansiBackgroundColorCode(color)) proc setTrueColor(f: File, color: Color) = let term = getTerminal() if term.fgSetColor: setForegroundColor(f, color) else: setBackgroundColor(f, color) proc isatty*(f: File): bool = ## Returns true if `f` is associated with a terminal device. when defined(posix): proc isatty(fildes: FileHandle): cint {. importc: "isatty", header: "".} else: proc isatty(fildes: FileHandle): cint {. importc: "_isatty", header: "".} result = isatty(getFileHandle(f)) != 0'i32 type TerminalCmd* = enum ## commands that can be expressed as arguments resetStyle, ## reset attributes fgColor, ## set foreground's true color bgColor ## set background's true color template styledEchoProcessArg(f: File, s: string) = write f, s template styledEchoProcessArg(f: File, style: Style) = setStyle(f, {style}) template styledEchoProcessArg(f: File, style: set[Style]) = setStyle f, style template styledEchoProcessArg(f: File, color: ForegroundColor) = setForegroundColor f, color template styledEchoProcessArg(f: File, color: BackgroundColor) = setBackgroundColor f, color template styledEchoProcessArg(f: File, color: Color) = setTrueColor f, color template styledEchoProcessArg(f: File, cmd: TerminalCmd) = when cmd == resetStyle: resetAttributes(f) elif cmd in {fgColor, bgColor}: let term = getTerminal() term.fgSetColor = cmd == fgColor macro styledWrite*(f: File, m: varargs[typed]): untyped = ## Similar to `write`, but treating terminal style arguments specially. ## When some argument is `Style`, `set[Style]`, `ForegroundColor`, ## `BackgroundColor` or `TerminalCmd` then it is not sent directly to ## `f`, but instead corresponding terminal style proc is called. runnableExamples("-r:off"): stdout.styledWrite(fgRed, "red text ") stdout.styledWrite(fgGreen, "green text") var reset = false result = newNimNode(nnkStmtList) for i in countup(0, m.len - 1): let item = m[i] case item.kind of nnkStrLit..nnkTripleStrLit: if i == m.len - 1: # optimize if string literal is last, just call write result.add(newCall(bindSym"write", f, item)) if reset: result.add(newCall(bindSym"resetAttributes", f)) return else: # if it is string literal just call write, do not enable reset result.add(newCall(bindSym"write", f, item)) else: result.add(newCall(bindSym"styledEchoProcessArg", f, item)) reset = true if reset: result.add(newCall(bindSym"resetAttributes", f)) template styledWriteLine*(f: File, args: varargs[untyped]) = ## Calls `styledWrite` and appends a newline at the end. runnableExamples: proc error(msg: string) = styledWriteLine(stderr, fgRed, "Error: ", resetStyle, msg) styledWrite(f, args) write(f, "\n") template styledEcho*(args: varargs[untyped]) = ## Echoes styles arguments to stdout using `styledWriteLine`. stdout.styledWriteLine(args) proc getch*(): char = ## Reads a single character from the terminal, blocking until it is entered. ## The character is not printed to the terminal. when defined(windows): let fd = getStdHandle(STD_INPUT_HANDLE) var keyEvent = KEY_EVENT_RECORD() var numRead: cint while true: # Block until character is entered doAssert(waitForSingleObject(fd, INFINITE) == WAIT_OBJECT_0) doAssert(readConsoleInput(fd, addr(keyEvent), 1, addr(numRead)) != 0) if numRead == 0 or keyEvent.eventType != 1 or keyEvent.bKeyDown == 0: continue return char(keyEvent.uChar) else: let fd = getFileHandle(stdin) var oldMode: Termios discard fd.tcGetAttr(addr oldMode) fd.setRaw() result = stdin.readChar() discard fd.tcSetAttr(TCSADRAIN, addr oldMode) when defined(windows): proc readPasswordFromStdin*(prompt: string, password: var string): bool {.tags: [ReadIOEffect, WriteIOEffect].} = ## Reads a `password` from stdin without printing it. `password` must not ## be `nil`! Returns `false` if the end of the file has been reached, ## `true` otherwise. password.setLen(0) stdout.write(prompt) let hi = createFileA("CONIN$", GENERIC_READ or GENERIC_WRITE, 0, nil, OPEN_EXISTING, 0, 0) var mode = DWORD 0 discard getConsoleMode(hi, addr mode) let origMode = mode const ENABLE_PROCESSED_INPUT = 1 ENABLE_ECHO_INPUT = 4 mode = (mode or ENABLE_PROCESSED_INPUT) and not ENABLE_ECHO_INPUT discard setConsoleMode(hi, mode) result = readLine(stdin, password) discard setConsoleMode(hi, origMode) discard closeHandle(hi) stdout.write "\n" else: import termios proc readPasswordFromStdin*(prompt: string, password: var string): bool {.tags: [ReadIOEffect, WriteIOEffect].} = password.setLen(0) let fd = stdin.getFileHandle() var cur, old: Termios discard fd.tcGetAttr(cur.addr) old = cur cur.c_lflag = cur.c_lflag and not Cflag(ECHO) discard fd.tcSetAttr(TCSADRAIN, cur.addr) stdout.write prompt result = stdin.readLine(password) stdout.write "\n" discard fd.tcSetAttr(TCSADRAIN, old.addr) proc readPasswordFromStdin*(prompt = "password: "): string = ## Reads a password from stdin without printing it. result = "" discard readPasswordFromStdin(prompt, result) # Wrappers assuming output to stdout: template hideCursor*() = hideCursor(stdout) template showCursor*() = showCursor(stdout) template setCursorPos*(x, y: int) = setCursorPos(stdout, x, y) template setCursorXPos*(x: int) = setCursorXPos(stdout, x) when defined(windows): template setCursorYPos*(x: int) = setCursorYPos(stdout, x) template cursorUp*(count = 1) = cursorUp(stdout, count) template cursorDown*(count = 1) = cursorDown(stdout, count) template cursorForward*(count = 1) = cursorForward(stdout, count) template cursorBackward*(count = 1) = cursorBackward(stdout, count) template eraseLine*() = eraseLine(stdout) template eraseScreen*() = eraseScreen(stdout) template setStyle*(style: set[Style]) = setStyle(stdout, style) template setForegroundColor*(fg: ForegroundColor, bright = false) = setForegroundColor(stdout, fg, bright) template setBackgroundColor*(bg: BackgroundColor, bright = false) = setBackgroundColor(stdout, bg, bright) template setForegroundColor*(color: Color) = setForegroundColor(stdout, color) template setBackgroundColor*(color: Color) = setBackgroundColor(stdout, color) proc resetAttributes*() {.noconv.} = ## Resets all attributes on stdout. ## It is advisable to register this as a quit proc with ## `exitprocs.addExitProc(resetAttributes)`. resetAttributes(stdout) proc isTrueColorSupported*(): bool = ## Returns true if a terminal supports true color. return getTerminal().trueColorIsSupported when defined(windows): import os proc enableTrueColors*() = ## Enables true color. var term = getTerminal() when defined(windows): var ver: OSVERSIONINFO ver.dwOSVersionInfoSize = sizeof(ver).DWORD let res = getVersionExW(addr ver) if res == 0: term.trueColorIsSupported = false else: term.trueColorIsSupported = ver.dwMajorVersion > 10 or (ver.dwMajorVersion == 10 and (ver.dwMinorVersion > 0 or (ver.dwMinorVersion == 0 and ver.dwBuildNumber >= 10586))) if not term.trueColorIsSupported: term.trueColorIsSupported = getEnv("ANSICON_DEF").len > 0 if term.trueColorIsSupported: if getEnv("ANSICON_DEF").len == 0: var mode: DWORD = 0 if getConsoleMode(getStdHandle(STD_OUTPUT_HANDLE), addr(mode)) != 0: mode = mode or ENABLE_VIRTUAL_TERMINAL_PROCESSING if setConsoleMode(getStdHandle(STD_OUTPUT_HANDLE), mode) != 0: term.trueColorIsEnabled = true else: term.trueColorIsEnabled = false else: term.trueColorIsEnabled = true else: term.trueColorIsSupported = getEnv("COLORTERM").toLowerAscii() in [ "truecolor", "24bit"] term.trueColorIsEnabled = term.trueColorIsSupported proc disableTrueColors*() = ## Disables true color. var term = getTerminal() when defined(windows): if term.trueColorIsSupported: if getEnv("ANSICON_DEF").len == 0: var mode: DWORD = 0 if getConsoleMode(getStdHandle(STD_OUTPUT_HANDLE), addr(mode)) != 0: mode = mode and not ENABLE_VIRTUAL_TERMINAL_PROCESSING discard setConsoleMode(getStdHandle(STD_OUTPUT_HANDLE), mode) term.trueColorIsEnabled = false else: term.trueColorIsEnabled = false proc newTerminal(): owned(PTerminal) = new result when defined(windows): initTerminal(result)