import x11/xlib, x11/xutil, x11/x, x11/keysym import threadpool, osproc, tables, sequtils, posix, strformat, os, sugar, options, strutils var root : TWindow proc handleBadWindow(display : PDisplay, ev : PXErrorEvent) : cint {.cdecl.} = # resourceID maps to the Window's XID # ev.resourceID 0 proc handleIOError(display : PDisplay) : cint {.cdecl.} = 0 template HandleKey(key : TKeySym, body : untyped) : untyped = block: if (XLookupKeySym(cast[PXKeyEvent](ev.xkey.addr), 0) == key.cuint): body type WinPropKind = enum pkString, pkCardinal WinProp = ref object of RootObj name : string case kind: WinPropKind of pkString: strProp : string of pkCardinal: cardinalProp : seq[uint] type Window = ref object of RootObj x : cint y : cint width : cint height : cint win : TWindow screen : PScreen props : seq[WinProp] proc unpackCardinal(typeFormat : int, nItems : int, buf : ptr cuchar) : seq[uint] = # See https://www.x.org/releases/current/doc/man/man3/XGetWindowProperty.3.xhtml var byte_stride : int case typeFormat of 8: byte_stride = (ptr cuchar).sizeof.int of 16: byte_stride = (ptr cshort).sizeof.int of 32: byte_stride = (ptr clong).sizeof.int else: return @[] for i in 0..(nItems - 1): let currentItem = cast[int](buf) + cast[int](i * byte_stride) case typeFormat of 8: result &= cast[ptr cuchar](currentItem)[].uint of 16: result &= cast[ptr cshort](currentItem)[].uint of 32: result &= cast[ptr clong](currentItem)[].uint else: continue proc getPropertyValue(display : PDisplay, window : TWindow, property : TAtom) : Option[WinProp] = let longOffset : clong = 0.clong let longLength : clong = high(int) # max length of the data to be returned var actualType : TAtom var actualTypeFormat : cint var nitemsReturn : culong var bytesAfterReturn : culong var propValue : ptr cuchar var currentAtomName = display.XGetAtomName(property) var atomName = newString(currentAtomName.len) copyMem(addr(atomName[0]), currentAtomName, currentAtomName.len) discard currentAtomName.XFree discard display.XGetWindowProperty(window, property, longOffset, longLength, false.cint, AnyPropertyType.TAtom, actualType.addr, actualTypeFormat.addr, nitemsReturn.addr, bytesAfterReturn.addr, propValue.addr) let typeName = display.XGetAtomName(actualType) if typeName == "STRING": var propStrValue = newString(propValue.len) if propStrValue.len > 0: copyMem(addr(propStrValue[0]), propValue, propValue.len) result = some(WinProp(name: atomName, kind: pkString, strProp: propStrValue)) else: result = none(WinProp) elif typeName == "CARDINAL": result = some( WinProp( name: atomName, kind: pkCardinal, cardinalProp: unpackCardinal(actualTypeFormat.int, nitemsReturn.int, propValue) ) ) else: result = none(WinProp) discard propValue.XFree return iterator getProperties(display : PDisplay, window : TWindow) : Option[WinProp] = # Get property names/values of a given window on a display var nPropsReturn : cint # pointer to a list of word32 var atoms : PAtom = display.XListProperties(window, nPropsReturn.addr) var currentAtom : PAtom # Iterate over the list of atom names for i in 0..(nPropsReturn.int - 1): currentAtom = cast[PAtom]( cast[int](atoms) + cast[int](i * currentAtom[].sizeof) ) yield display.getPropertyValue(window, currentAtom[]) discard atoms.XFree proc getAttributes(display : PDisplay, window : PWindow) : Option[TXWindowAttributes] = var attrs : TXWindowAttributes if display.XGetWindowAttributes(window[], attrs.addr) == BadWindow: return none(TXWindowAttributes) return some(attrs) iterator getChildren(display : PDisplay) : Window = var currentWindow : PWindow var rootReturn : TWindow var parentReturn : TWindow var childrenReturn : PWindow var nChildrenReturn : cuint discard XQueryTree(display, root, rootReturn.addr, parentReturn.addr, childrenReturn.addr, nChildrenReturn.addr) for i in 0..(nChildrenReturn.int - 1): currentWindow = cast[PWindow]( cast[int](childrenReturn) + cast[int](i * currentWindow.sizeof) ) let attr : Option[TXWindowAttributes] = getAttributes(display, currentWindow) if attr.isNone: continue if attr.get.map_state == IsUnmapped or attr.get.map_state == IsUnviewable: continue if attr.get.override_redirect == 1: continue let props = map(toSeq(getProperties(display, currentWindow[])).filterIt(it.isSome), (p) => p.get) let win = Window( x: attr.get.x.cint, y: attr.get.y.cint, width: attr.get.width, height: attr.get.height, win: currentWindow[], screen: attr.get.screen, props: props ) for prop in props: if prop.kind == pkCardinal: if prop.name.startsWith("_NET_WM_STRUT"): echo prop.name, ": ", prop.cardinalProp elif prop.name.startsWith("_NET_WM_OPAQUE"): echo prop.name, ": ", prop.cardinalProp else: echo prop.name, prop.kind yield win discard XFree(childrenReturn) proc getDisplay : PDisplay = result = XOpenDisplay(nil) if result == nil: quit("Failed to open display") proc grabMouse(display : PDisplay, button : int) = discard XGrabButton(display, button.cuint, Mod1Mask.cuint, DefaultRootWindow(display), 1.cint, ButtonPressMask or ButtonReleaseMask or PointerMotionMask, GrabModeAsync, GrabModeAsync, None, None) proc grabKeyCombo(display : PDisplay, key : TKeySym, masks : seq[cuint] = @[]) = # The reason we have 4 XGrabKey calls here is that # the user might have num lock on # and we still want to be able to grab these key combos discard XGrabKey(display, XKeySymToKeyCode(display, key).cint, foldr(@[Mod1Mask.cuint] & masks, a or b), DefaultRootWindow(display), 1.cint, GrabModeAsync.cint, GrabModeAsync.cint) discard XGrabKey(display, XKeySymToKeyCode(display, key).cint, foldr(@[Mod1Mask.cuint, Mod2Mask.cuint] & masks, a or b), DefaultRootWindow(display), 1.cint, GrabModeAsync.cint, GrabModeAsync.cint) discard XGrabKey(display, XKeySymToKeyCode(display, key).cint, foldr(@[Mod1Mask.cuint, LockMask.cuint] & masks, a or b), DefaultRootWindow(display), 1.cint, GrabModeAsync.cint, GrabModeAsync.cint) discard XGrabKey(display, XKeySymToKeyCode(display, key).cint, foldr(@[Mod1Mask.cuint, LockMask.cuint, Mod2Mask.cuint] & masks, a or b), DefaultRootWindow(display), 1.cint, GrabModeAsync.cint, GrabModeAsync.cint) # When spawning a new process: # Create an entry in a table or set with the PID # Create a thread that simple waits for it to exit # Send a message via channel to the main thread when it's done waiting for it to exit # Check for events on the current iteration, close the process, remove it from the set of open processes # Used to signal when a process has exited # Obviously only used for processes nimwin manages var processChan : Channel[int] processChan.open(0) proc startTerminal() : Process = let terminal_path = getEnv("NIMWIN_TERMINAL", "/usr/bin/urxvt") startProcess(terminal_path, "", ["-e", "tmux"]) proc launcher() : Process = let launcher_path = getEnv("NIMWIN_LAUNCHER", "/usr/bin/dmenu_run") startProcess(launcher_path) proc handleProcess(p : Process) = discard p.waitForExit processChan.send(p.processID) proc calculateStruts(display : PDisplay) : tuple[top: uint, bottom: uint]= for win in getChildren(display): for prop in win.props: if prop.kind == pkCardinal and prop.name.startsWith("_NET_WM_STRUT"): result.top = max(result.top, prop.cardinalProp[2]) result.bottom = max(result.bottom, prop.cardinalProp[3]) when isMainModule: discard "~/.nimwin".expandTilde.existsOrCreateDir var logFile : File = expandTilde("~/.nimwin/nimwin_log").open(fmWrite) logFile.writeLine("Starting Nimwin") var start : TXButtonEvent var ev : TXEvent var attr : TXWindowAttributes let display = getDisplay() let displayNum = display.DisplayString logFile.writeLine(fmt"Opened display {displayNum}") root = DefaultRootWindow(display) display.grabKeyCombo(XK_Return, @[ShiftMask.cuint]) display.grabKeyCombo(XK_T, @[ShiftMask.cuint]) display.grabKeyCombo(XK_Tab) # Cycle through windows display.grabKeyCombo(XK_Q) # Restart window manager display.grabKeyCombo(XK_P) # Launcher display.grabKeyCombo(XK_T) # Full screen display.grabKeyCombo(XK_C, @[ShiftMask.cuint]) # CLose a window display.grabMouse(1) display.grabMouse(3) start.subWindow = None var openProcesses = initTable[int, Process]() # hashset of processes discard XSetErrorHandler(handleBadWindow) discard XSetIOErrorHandler(handleIOError) while true: let processExited = processChan.tryRecv() if processExited.dataAvailable: openProcesses[processExited.msg].close openProcesses.del(processExited.msg) # TODO refactor using XPending or XCB? discard XNextEvent(display, ev.addr) # The reason we look at the subwindow is because we grabbed the root window # and we want events in its children # For spawning, e.g. a terminal we also want events for the root window if ev.theType == KeyPress: HandleKey(XK_Return): let p = startTerminal() openProcesses[p.processID] = p spawn handleProcess(p) HandleKey(XK_C): let windowStack = toSeq(getChildren(display)) if windowStack.len > 0: discard display.XDestroyWindow(windowStack[^1].win) HandleKey(XK_Tab): if ev.xKey.subWindow != None: # Cycle through subwindows of the root window #discard XCirculateSubwindows(display, root, RaiseLowest) #discard display.XFlush() let ignored = @["_NET_WM_STRUT_PARTIAL", "_NET_WM_STRUT"] let windowStack = filter(toSeq(getChildren(display)), (w) => not w.props.anyIt(it.name.in(ignored))) if windowStack.len > 0: discard display.XSetInputFocus(windowStack[0].win, RevertToPointerRoot, CurrentTime) discard display.XRaiseWindow(windowStack[0].win) HandleKey(XK_P): let p = launcher() openProcesses[p.processID] = p spawn handleProcess(p) HandleKey(XK_Q): let currentPath = getAppDir() if fmt"{currentPath}/nimwin".existsFile: logFile.writeLine("Trying to restart Nimwin") logFile.writeLine(fmt"Restarting: executing {currentPath}/nimwin on display={displayNum}") logFile.flushFile discard display.XCloseDisplay let restartResult = execvp(fmt"{currentPath}/nimwin".cstring, nil) if restartResult == -1: quit("Failed to restart Nimwin") HandleKey(XK_T): # Get all of the struts with offsets from the top # Get all of the struts with offsets from the bottomm # and the left and the right # # then subtract the max of the offsets from the top from the screenHeight # if ev.xKey.subWindow != None: let rootAttrs = getAttributes(display, root.addr) if rootAttrs.isSome: let struts = display.calculateStruts let screenHeight = rootAttrs.get.height let screenWidth = rootAttrs.get.width let winAttrs : Option[TXWindowAttributes] = getAttributes(display, ev.xKey.subWindow.addr) let depth = winAttrs.get.borderWidth.cuint let borderWidth = winAttrs.get.depth.cuint discard XMoveResizeWindow(display, ev.xKey.subWindow, 0, struts.top.cint, screenWidth.cuint, screenHeight.cuint - struts.bottom.cuint - borderWidth.cuint) elif (ev.theType == ButtonPress) and (ev.xButton.subWindow != None): discard XGetWindowAttributes(display, ev.xButton.subWindow, attr.addr) start = ev.xButton elif (ev.theType == MotionNotify) and (start.subWindow != None): # Discard any following MotionNotify events # This avoids "movement lag" while display.XCheckTypedEvent(MotionNotify, ev.addr) != 0: continue discard display.XFlush() var xDiff : int = ev.xButton.xRoot - start.xRoot var yDiff : int = ev.xButton.yRoot - start.yRoot discard XMoveResizeWindow(display, start.subWindow, attr.x + (if start.button == 1: xDiff else: 0).cint, attr.y + (if start.button == 1: yDiff else: 0).cint, max(1, attr.width + (if start.button == 3: xDiff else: 0)).cuint, max(1, attr.height + (if start.button == 3: yDiff else: 0)).cuint) elif ev.theType == ButtonRelease: start.subWindow = None else: continue