libvaxis/src/Tty.zig

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const std = @import("std");
const builtin = @import("builtin");
const os = std.os;
const vaxis = @import("main.zig");
const Vaxis = vaxis.Vaxis;
const Event = @import("event.zig").Event;
const parser = @import("parser.zig");
const Key = vaxis.Key;
const log = std.log.scoped(.tty);
const Tty = @This();
const Writer = std.io.Writer(os.fd_t, os.WriteError, os.write);
const BufferedWriter = std.io.BufferedWriter(4096, Writer);
/// the original state of the terminal, prior to calling makeRaw
termios: os.termios,
/// The file descriptor we are using for I/O
fd: os.fd_t,
/// the write end of a pipe to signal the tty should exit it's run loop
quit_fd: ?os.fd_t = null,
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 os.open("/dev/tty", os.system.O.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 it's original state
pub fn deinit(self: *Tty) void {
os.tcsetattr(self.fd, .FLUSH, self.termios) catch |err| {
log.err("couldn't restore terminal: {}", .{err});
};
os.close(self.fd);
}
/// stops the run loop
pub fn stop(self: *Tty) void {
if (self.quit_fd) |fd| {
_ = std.os.write(fd, "q") catch {};
}
}
/// read input from the tty
pub fn run(
self: *Tty,
comptime EventType: type,
vx: *Vaxis(EventType),
) !void {
// create a pipe so we can signal to exit the run loop
const pipe = try os.pipe();
defer os.close(pipe[0]);
defer os.close(pipe[1]);
// get our initial winsize
const winsize = try getWinsize(self.fd);
if (@hasField(EventType, "winsize")) {
vx.postEvent(.{ .winsize = winsize });
}
// assign the write end of the pipe to our quit_fd
self.quit_fd = pipe[1];
// 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: *Vaxis(EventType) = undefined;
var fd: os.fd_t = undefined;
fn init(vx_arg: *Vaxis(EventType), fd_arg: os.fd_t) !void {
vx_winch = vx_arg;
fd = fd_arg;
var act = os.Sigaction{
.handler = .{ .handler = Self.handleWinch },
.mask = switch (builtin.os.tag) {
.macos => 0,
.linux => std.os.empty_sigset,
else => @compileError("os not supported"),
},
.flags = 0,
};
try os.sigaction(os.SIG.WINCH, &act, null);
}
fn handleWinch(_: c_int) callconv(.C) void {
const ws = getWinsize(fd) catch {
return;
};
if (@hasField(EventType, "winsize")) {
vx_winch.postEvent(.{ .winsize = ws });
}
}
};
try WinchHandler.init(vx, self.fd);
// Set up fds for polling
var pollfds: [2]std.os.pollfd = .{
.{ .fd = self.fd, .events = std.os.POLL.IN, .revents = undefined },
.{ .fd = pipe[0], .events = std.os.POLL.IN, .revents = undefined },
};
// initialize the read buffer
var buf: [1024]u8 = undefined;
// read loop
while (true) {
_ = try std.os.poll(&pollfds, -1);
if (pollfds[1].revents & std.os.POLL.IN != 0) {
log.info("quitting read thread", .{});
return;
}
const n = try os.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(EventType, "key_press")) {
vx.postEvent(.{ .key_press = key });
}
},
.focus_in => {
if (@hasField(EventType, "focus_in")) {
vx.postEvent(.focus_in);
}
},
.focus_out => {
if (@hasField(EventType, "focus_out")) {
vx.postEvent(.focus_out);
}
},
.paste_start => {
if (@hasField(EventType, "paste_start")) {
vx.postEvent(.paste_start);
}
},
.paste_end => {
if (@hasField(EventType, "paste_end")) {
vx.postEvent(.paste_end);
}
},
}
}
}
}
/// 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: os.fd_t) !os.termios {
const state = try os.tcgetattr(fd);
var raw = state;
// see termios(3)
raw.iflag &= ~@as(
os.tcflag_t,
os.system.IGNBRK |
os.system.BRKINT |
os.system.PARMRK |
os.system.ISTRIP |
os.system.INLCR |
os.system.IGNCR |
os.system.ICRNL |
os.system.IXON,
);
raw.oflag &= ~@as(os.tcflag_t, os.system.OPOST);
raw.lflag &= ~@as(
os.tcflag_t,
os.system.ECHO |
os.system.ECHONL |
os.system.ICANON |
os.system.ISIG |
os.system.IEXTEN,
);
raw.cflag &= ~@as(
os.tcflag_t,
os.system.CSIZE |
os.system.PARENB,
);
raw.cflag |= @as(
os.tcflag_t,
os.system.CS8,
);
raw.cc[os.system.V.MIN] = 1;
raw.cc[os.system.V.TIME] = 0;
try os.tcsetattr(fd, .FLUSH, raw);
return state;
}
const TIOCGWINSZ = switch (builtin.os.tag) {
.linux => 0x5413,
.macos => ior(0x40000000, 't', 104, @sizeOf(os.system.winsize)),
else => @compileError("Missing termiosbits for this target, sorry."),
};
const IOCPARM_MASK = 0x1fff;
fn ior(inout: u32, group: usize, num: usize, len: usize) usize {
return (inout | ((len & IOCPARM_MASK) << 16) | ((group) << 8) | (num));
}
/// The size of the terminal screen
pub const Winsize = struct {
rows: usize,
cols: usize,
x_pixel: usize,
y_pixel: usize,
};
fn getWinsize(fd: os.fd_t) !Winsize {
var winsize = os.system.winsize{
.ws_row = 0,
.ws_col = 0,
.ws_xpixel = 0,
.ws_ypixel = 0,
};
const err = os.system.ioctl(fd, TIOCGWINSZ, @intFromPtr(&winsize));
if (os.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;
}