const std = @import("std"); const builtin = @import("builtin"); const posix = std.posix; const Loop = @import("Loop.zig").Loop; const Parser = @import("Parser.zig"); const GraphemeCache = @import("GraphemeCache.zig"); const ctlseqs = @import("ctlseqs.zig"); const grapheme = @import("grapheme"); const log = std.log.scoped(.tty); const Tty = @This(); const Writer = std.io.Writer(posix.fd_t, posix.WriteError, posix.write); const BufferedWriter = std.io.BufferedWriter(4096, Writer); /// the original state of the terminal, prior to calling makeRaw termios: posix.termios, /// The file descriptor we are using for I/O fd: posix.fd_t, should_quit: bool = false, buffered_writer: BufferedWriter, /// initializes a Tty instance by opening /dev/tty and "making it raw" pub fn init() !Tty { // Open our tty const fd = try posix.open("/dev/tty", .{ .ACCMODE = .RDWR }, 0); // Set the termios of the tty const termios = try makeRaw(fd); return Tty{ .fd = fd, .termios = termios, .buffered_writer = std.io.bufferedWriter(Writer{ .context = fd }), }; } /// release resources associated with the Tty return it to its original state pub fn deinit(self: *Tty) void { posix.tcsetattr(self.fd, .FLUSH, self.termios) catch |err| { log.err("couldn't restore terminal: {}", .{err}); }; posix.close(self.fd); } /// stops the run loop pub fn stop(self: *Tty) void { self.should_quit = true; _ = posix.write(self.fd, ctlseqs.device_status_report) catch {}; } /// read input from the tty pub fn run( self: *Tty, comptime Event: type, loop: *Loop(Event), grapheme_data: *const grapheme.GraphemeData, ) !void { // get our initial winsize const winsize = try getWinsize(self.fd); if (@hasField(Event, "winsize")) { loop.postEvent(.{ .winsize = winsize }); } // Build a winch handler. We need build this struct to get an anonymous // function which can post the winsize event // TODO: more signals, move this outside of this function? const WinchHandler = struct { const Self = @This(); var vx_winch: *Loop(Event) = undefined; var fd: posix.fd_t = undefined; fn init(vx_arg: *Loop(Event), fd_arg: posix.fd_t) !void { vx_winch = vx_arg; fd = fd_arg; var act = posix.Sigaction{ .handler = .{ .handler = Self.handleWinch }, .mask = switch (builtin.os.tag) { .macos => 0, .linux => posix.empty_sigset, else => @compileError("os not supported"), }, .flags = 0, }; try posix.sigaction(posix.SIG.WINCH, &act, null); } fn handleWinch(_: c_int) callconv(.C) void { const ws = getWinsize(fd) catch { return; }; if (@hasField(Event, "winsize")) { vx_winch.postEvent(.{ .winsize = ws }); } } }; try WinchHandler.init(loop, self.fd); // initialize a grapheme cache var cache: GraphemeCache = .{}; var parser: Parser = .{ .grapheme_data = grapheme_data, }; // initialize the read buffer var buf: [1024]u8 = undefined; // read loop while (!self.should_quit) { const n = try posix.read(self.fd, &buf); var start: usize = 0; while (start < n) { const result = try parser.parse(buf[start..n]); start += result.n; // TODO: if we get 0 byte read, copy the remaining bytes to the // beginning of the buffer and read mmore? this should only happen // if we are in the middle of a grapheme at and filled our // buffer. Probably can happen on large pastes so needs to be // implemented but low priority const event = result.event orelse continue; switch (event) { .key_press => |key| { if (@hasField(Event, "key_press")) { // HACK: yuck. there has to be a better way var mut_key = key; if (key.text) |text| { mut_key.text = cache.put(text); } loop.postEvent(.{ .key_press = mut_key }); } }, .mouse => |mouse| { if (@hasField(Event, "mouse")) { loop.postEvent(.{ .mouse = mouse }); } }, .focus_in => { if (@hasField(Event, "focus_in")) { loop.postEvent(.focus_in); } }, .focus_out => { if (@hasField(Event, "focus_out")) { loop.postEvent(.focus_out); } }, .paste_start => { if (@hasField(Event, "paste_start")) { loop.postEvent(.paste_start); } }, .paste_end => { if (@hasField(Event, "paste_end")) { loop.postEvent(.paste_end); } }, .cap_kitty_keyboard => { log.info("kitty keyboard capability detected", .{}); loop.vaxis.caps.kitty_keyboard = true; }, .cap_kitty_graphics => { if (!loop.vaxis.caps.kitty_graphics) { log.info("kitty graphics capability detected", .{}); loop.vaxis.caps.kitty_graphics = true; } }, .cap_rgb => { log.info("rgb capability detected", .{}); loop.vaxis.caps.rgb = true; }, .cap_unicode => { log.info("unicode capability detected", .{}); loop.vaxis.caps.unicode = .unicode; loop.vaxis.screen.width_method = .unicode; }, .cap_da1 => { std.Thread.Futex.wake(&loop.vaxis.query_futex, 10); }, } } } } /// write to the tty. These writes are buffered and require calling flush to /// flush writes to the tty pub fn write(self: *Tty, bytes: []const u8) !usize { return self.buffered_writer.write(bytes); } /// flushes the write buffer to the tty pub fn flush(self: *Tty) !void { try self.buffered_writer.flush(); } /// makeRaw enters the raw state for the terminal. pub fn makeRaw(fd: posix.fd_t) !posix.termios { const state = try posix.tcgetattr(fd); var raw = state; // see termios(3) raw.iflag.IGNBRK = false; raw.iflag.BRKINT = false; raw.iflag.PARMRK = false; raw.iflag.ISTRIP = false; raw.iflag.INLCR = false; raw.iflag.IGNCR = false; raw.iflag.ICRNL = false; raw.iflag.IXON = false; raw.oflag.OPOST = false; raw.lflag.ECHO = false; raw.lflag.ECHONL = false; raw.lflag.ICANON = false; raw.lflag.ISIG = false; raw.lflag.IEXTEN = false; raw.cflag.CSIZE = .CS8; raw.cflag.PARENB = false; raw.cc[@intFromEnum(posix.V.MIN)] = 1; raw.cc[@intFromEnum(posix.V.TIME)] = 0; try posix.tcsetattr(fd, .FLUSH, raw); return state; } /// The size of the terminal screen pub const Winsize = struct { rows: usize, cols: usize, x_pixel: usize, y_pixel: usize, }; fn getWinsize(fd: posix.fd_t) !Winsize { var winsize = posix.winsize{ .ws_row = 0, .ws_col = 0, .ws_xpixel = 0, .ws_ypixel = 0, }; const err = posix.system.ioctl(fd, posix.T.IOCGWINSZ, @intFromPtr(&winsize)); if (posix.errno(err) == .SUCCESS) return Winsize{ .rows = winsize.ws_row, .cols = winsize.ws_col, .x_pixel = winsize.ws_xpixel, .y_pixel = winsize.ws_ypixel, }; return error.IoctlError; }