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main.rs
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main.rs
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extern crate clap;
extern crate glob;
extern crate regex;
use std::fs;
use std::process::Command;
use std::thread;
use std::time::Duration;
use clap::{App, Arg};
use glob::glob;
use serde::Deserialize;
use serde_json::Value;
enum Backend {
Sway,
Xorg,
}
#[derive(Deserialize)]
struct SwayOutput {
name: String,
transform: String,
}
fn get_keyboards(backend: &Backend) -> Result<Vec<String>, String> {
match backend {
Backend::Sway => {
let raw_inputs = String::from_utf8(
Command::new("swaymsg")
.arg("-t")
.arg("get_inputs")
.arg("--raw")
.output()
.expect("Swaymsg get inputs command failed")
.stdout,
)
.unwrap();
let mut keyboards = vec![];
let deserialized: Vec<Value> = serde_json::from_str(&raw_inputs)
.expect("Unable to deserialize swaymsg JSON output");
for output in deserialized {
let input_type = output["type"].as_str().unwrap();
if input_type == "keyboard" {
keyboards.push(output["identifier"].to_string());
}
}
return Ok(keyboards);
}
Backend::Xorg => {
return Ok(vec![]);
}
}
}
fn get_window_server_rotation_state(display: &str, backend: &Backend) -> Result<String, String> {
match backend {
Backend::Sway => {
let raw_rotation_state = String::from_utf8(
Command::new("swaymsg")
.arg("-t")
.arg("get_outputs")
.arg("--raw")
.output()
.expect("Swaymsg get outputs command failed to start")
.stdout,
)
.unwrap();
let deserialized: Vec<SwayOutput> = serde_json::from_str(&raw_rotation_state)
.expect("Unable to deserialize swaymsg JSON output");
for output in deserialized {
if output.name == display {
return Ok(output.transform);
}
}
return Err(format!(
"Unable to determine rotation state: display {} not found in 'swaymsg -t get_outputs'",
display
)
.to_owned());
}
Backend::Xorg => {
let raw_rotation_state = String::from_utf8(
Command::new("xrandr")
.output()
.expect("Xrandr get outputs command failed to start")
.stdout,
)
.unwrap();
let xrandr_output_pattern = regex::Regex::new(format!(
r"^{} connected .+? .+? (normal |inverted |left |right )?\(normal left inverted right x axis y axis\) .+$",
regex::escape(display),
).as_str()).unwrap();
for xrandr_output_line in raw_rotation_state.split("\n") {
if !xrandr_output_pattern.is_match(xrandr_output_line) {
continue;
}
let xrandr_output_captures =
xrandr_output_pattern.captures(xrandr_output_line).unwrap();
if let Some(transform) = xrandr_output_captures.get(1) {
return Ok(transform.as_str().to_owned());
} else {
return Ok("normal".to_owned());
}
}
return Err(format!(
"Unable to determine rotation state: display {} not found in xrandr output",
display
)
.to_owned());
}
}
}
struct Orientation {
vector: (f32, f32),
new_state: &'static str,
x_state: &'static str,
matrix: [&'static str; 9],
}
fn main() -> Result<(), String> {
let mut new_state: &str;
let mut path_x: String = "".to_string();
let mut path_y: String = "".to_string();
let mut matrix: [&str; 9];
let mut x_state: &str;
let backend = if String::from_utf8(Command::new("pidof").arg("sway").output().unwrap().stdout)
.unwrap()
.len()
>= 1
{
Backend::Sway
} else if String::from_utf8(Command::new("pidof").arg("Xorg").output().unwrap().stdout)
.unwrap()
.len()
>= 1
{
Backend::Xorg
} else {
return Err("Unable to find Sway or Xorg procceses".to_owned());
};
let mut args = vec![
Arg::with_name("sleep")
.default_value("500")
.long("sleep")
.short("s")
.value_name("SLEEP")
.help("Set sleep millis")
.takes_value(true),
Arg::with_name("display")
.default_value("eDP-1")
.long("display")
.short("d")
.value_name("DISPLAY")
.help("Set Display Device")
.takes_value(true),
Arg::with_name("touchscreen")
.default_value("ELAN0732:00 04F3:22E1")
.long("touchscreen")
.short("i")
.value_name("TOUCHSCREEN")
.help("Set Touchscreen input Device (X11 only)")
.takes_value(true),
Arg::with_name("threshold")
.default_value("0.5")
.long("threshold")
.short("t")
.value_name("THRESHOLD")
.help("Set a rotation threshold between 0 and 1")
.takes_value(true),
];
match backend {
Backend::Sway => {
args.push(
Arg::with_name("keyboard")
.long("disable-keyboard")
.short("k")
.help("Disable keyboard for tablet modes (Sway only)")
.takes_value(false),
);
}
Backend::Xorg => { /* Keyboard disabling in Xorg is not supported yet */ }
}
let cmd_lines = App::new("rot8").version("0.1.3").args(&args);
let matches = cmd_lines.get_matches();
let sleep = matches.value_of("sleep").unwrap_or("default.conf");
let display = matches.value_of("display").unwrap_or("default.conf");
let touchscreen = matches.value_of("touchscreen").unwrap_or("default.conf");
let disable_keyboard = matches.is_present("keyboard");
let threshold = matches.value_of("threshold").unwrap_or("default.conf");
let old_state_owned = get_window_server_rotation_state(display, &backend)?;
let mut old_state = old_state_owned.as_str();
let keyboards = get_keyboards(&backend)?;
for entry in glob("/sys/bus/iio/devices/iio:device*/in_accel_*_raw").unwrap() {
match entry {
Ok(path) => {
if path.to_str().unwrap().contains("x_raw") {
path_x = path.to_str().unwrap().to_owned();
} else if path.to_str().unwrap().contains("y_raw") {
path_y = path.to_str().unwrap().to_owned();
} else if path.to_str().unwrap().contains("z_raw") {
continue;
} else {
panic!("Unknown accelerometer device path {:?}", path);
}
}
Err(e) => println!("{:?}", e),
}
}
let orientations = [
Orientation {
vector: (0.0, -1.0),
new_state: "normal",
x_state: "normal",
matrix: ["1", "0", "0", "0", "1", "0", "0", "0", "1"],
},
Orientation {
vector: (0.0, 1.0),
new_state: "180",
x_state: "inverted",
matrix: ["-1", "0", "1", "0", "-1", "1", "0", "0", "1"],
},
Orientation {
vector: (-1.0, 0.0),
new_state: "90",
x_state: "right",
matrix: ["0", "1", "0", "-1", "0", "1", "0", "0", "1"],
},
Orientation {
vector: (1.0, 0.0),
new_state: "270",
x_state: "left",
matrix: ["0", "-1", "1", "1", "0", "0", "0", "0", "1"],
},
];
let mut current_orient: &Orientation = &orientations[0];
loop {
let x_raw = fs::read_to_string(path_x.as_str()).unwrap();
let y_raw = fs::read_to_string(path_y.as_str()).unwrap();
let x_clean = x_raw.trim_end_matches('\n').parse::<i32>().unwrap_or(0);
let y_clean = y_raw.trim_end_matches('\n').parse::<i32>().unwrap_or(0);
// Normalize vectors
let x: f32 = (x_clean as f32) / 1e6;
let y: f32 = (y_clean as f32) / 1e6;
for (_i, orient) in orientations.iter().enumerate() {
let d = (x - orient.vector.0).powf(2.0) + (y - orient.vector.1).powf(2.0);
if d < threshold.parse::<f32>().unwrap_or(0.5) {
current_orient = &orient;
break;
}
}
new_state = current_orient.new_state;
x_state = current_orient.x_state;
matrix = current_orient.matrix;
if new_state != old_state {
let keyboard_state = if new_state == "normal" {
"enabled"
} else {
"disabled"
};
match backend {
Backend::Sway => {
Command::new("swaymsg")
.arg("output")
.arg(display)
.arg("transform")
.arg(new_state)
.spawn()
.expect("Swaymsg rotate command failed to start")
.wait()
.expect("Swaymsg rotate command wait failed");
if disable_keyboard {
for keyboard in &keyboards {
// println!("swaymsg input {} events {}", keyboard, keyboard_state);
Command::new("swaymsg")
.arg("input")
.arg(keyboard)
.arg("events")
.arg(keyboard_state)
.spawn()
.expect("Swaymsg keyboard command failed to start")
.wait()
.expect("Swaymsg keyboard command wait failed");
}
}
}
Backend::Xorg => {
Command::new("xrandr")
.arg("-o")
.arg(x_state)
.spawn()
.expect("Xrandr rotate command failed to start")
.wait()
.expect("Xrandr rotate command wait failed");
Command::new("xinput")
.arg("set-prop")
.arg(touchscreen)
.arg("Coordinate Transformation Matrix")
.args(&matrix)
.spawn()
.expect("Xinput rotate command failed to start")
.wait()
.expect("Xinput rotate command wait failed");
}
}
old_state = new_state;
}
thread::sleep(Duration::from_millis(sleep.parse::<u64>().unwrap_or(0)));
}
}