separate to bin and lib

2024-12-30 03:26:20 +00:00
parent ce5bb9f4af
commit b8c38da85b
2 changed files with 321 additions and 321 deletions
--- a/src/lib.rs
+++ b/src/lib.rs
@@ -0,0 +1,319 @@
 use kdl::KdlDocument;
 use serde_json::{from_str, Value};
 use std::collections::HashMap;
 use std::process::Command;
 use std::{fs, str};
 /// Configuration for swayout.
 struct Config {
    /// Monitor name is independent of output name. It can be anything.
    monitors: HashMap<String, Monitor>,
    /// Definition of layouts: a map of the layout name to the outputs.
    /// The outputs is a map of the monitor name (in `monitors`) to the configuration
    /// of that monitor for this layout.
    /// Available outputs that do not match a monitor in the map are disabled.
    layouts: HashMap<String, HashMap<String, OutputConfig>>,
 }
 /// Defines a monitor by make, model, and serial.
 struct Monitor {
    make: String,
    model: String,
    serial: String,
 }
 /// Configuration for an enabled output.
 struct OutputConfig {
    /// mode. See man 5 sway-output
    mode: String,
    /// scale. See man 5 sway-output
    scale: String,
    /// x value for position. See man 5 sway-output
    x: u16,
    /// y value for position. See man 5 sway-output
    y: u16,
    /// transform. See man 5 sway-output
    transform: String,
 }
 /// An output, as returned by `swaymsg -t get_outputs`.
 struct Output {
    /// output name, according to sway
    name: String,
    make: String,
    model: String,
    serial: String,
    output_config: OutputConfig,
 }
 /// Get all outputs currently available, according to `swaymsg -t get_outputs`.
 fn get_outputs() -> Vec<Output> {
    let output = Command::new("swaymsg")
        .arg("-t")
        .arg("get_outputs")
        .output()
        .expect("swaymsg -t get_outputs failed");
    let json_string = str::from_utf8(&output.stdout).unwrap();
    let json = from_str(json_string).unwrap();
    if let Value::Array(outputs) = json {
        outputs
            .iter()
            .map(|output_json| Output {
                name: String::from(output_json["name"].as_str().unwrap()),
                make: String::from(output_json["make"].as_str().unwrap()),
                model: String::from(output_json["model"].as_str().unwrap()),
                serial: String::from(output_json["serial"].as_str().unwrap()),
                output_config: OutputConfig {
                    mode: get_mode(output_json),
                    scale: String::from("1.0"),
                    x: 0,
                    y: 0,
                    transform: String::from("normal"),
                },
            })
            .collect()
    } else {
        panic!("outputs json was not an array");
    }
 }
 /// Parse the mode from the output JSON into a string suitable for the mode param for sway-output.
 /// This will go into `OutputConfig.mode`.
 fn get_mode(output: &Value) -> String {
    if let Value::Array(modes) = &output["modes"] {
        if let Some(mode) = modes.first() {
            let width = mode["width"].as_i64().unwrap().to_string();
            let height = mode["height"].as_i64().unwrap().to_string();
            let mut out: String = String::new();
            out.push_str(&width);
            out.push_str("x");
            out.push_str(&height);
            out
        } else {
            panic!("no modes")
        }
    } else {
        panic!("modes not an array")
    }
 }
 /// Get a `Config` from ~/.config/swayout/config.kdl.
 /// (It really uses XDG config dirs.)
 fn get_config() -> Config {
    let xdg_dirs = xdg::BaseDirectories::with_prefix("swayout").unwrap();
    if let Some(path) = xdg_dirs.find_config_file("config.kdl") {
        let kdl = fs::read_to_string(path).expect("error reading file");
        parse_config(kdl)
    } else {
        // no config files, use an empty rules
        Config {
            monitors: HashMap::new(),
            layouts: HashMap::new(),
        }
    }
 }
 fn parse_config(kdl:String) -> Config {
    let doc:KdlDocument = kdl.parse().expect("failed to parse config KDL");
    let monitors:HashMap<String,Monitor> = doc.nodes().iter()
        .filter(|node| node.name().value() == "monitor")
        .map(|monitor_node| {
            let name = String::from(monitor_node[0].as_string().unwrap());
            let monitor = Monitor {
                make : String::from(monitor_node["make"].as_string().unwrap()),
                model : String::from(monitor_node["model"].as_string().unwrap()),
                serial : String::from(monitor_node["serial"].as_string().unwrap()),
            };
            (name, monitor)
        })
        .collect();
    let layouts:HashMap<String,HashMap<String,OutputConfig>> = doc.nodes().iter()
        .filter(|node| node.name().value() == "layout")
        .map(|layout_node| {
            let layout_name = String::from(layout_node[0].as_string().unwrap());
            let monitor_name_to_output_config:HashMap<String,OutputConfig> = layout_node
                .children().unwrap().nodes().iter()
                .map(|output_node| {
                    let output = String::from(output_node[0].as_string().unwrap());
                    let output_config = OutputConfig {
                        mode : String::from(output_node["mode"].as_string().unwrap()),
                        scale : String::from(output_node["scale"].as_string().unwrap()),
                        transform : String::from(output_node["transform"].as_string().unwrap()),
                        x : output_node["x"].as_i64().unwrap() as u16,
                        y : output_node["y"].as_i64().unwrap() as u16,
                    };
                    (output, output_config)
                })
                .collect();
            (layout_name,monitor_name_to_output_config)
        })
        .collect();
    Config { monitors, layouts }
 }
 /// Determine the available layout names.
 /// Return one layout for each layout defined in the configuration file
 /// for which all outputs are available,
 /// one for each monitor defined in the configuration file (for using just that monitor),
 /// and one for each available output that is not a configured monitor (for using just that output).
 fn get_layouts() -> Vec<String> {
    let available_outputs = get_outputs();
    let config = get_config();
    // Get the names of monitors that are available (that match an available output)
    let available_monitor_names:Vec<&String> = config.monitors.iter()
        .filter(|(_monitor_name,monitor)|
            available_outputs.iter().any(|output|
                monitor.make == output.make
                    && monitor.model == output.model
                    && output.serial == monitor.serial
            )
        )
        .map(|(monitor_name,_monitor)| monitor_name)
        .collect();
    let mut layout_names: Vec<String> = Vec::new();
    // Add each layout defined in the config file for which all outputs are available
    config.layouts.iter().for_each(|(layout_name, layout)| {
        if layout
            .iter()
            .all(|(output_name, _output)| available_monitor_names.contains(&output_name))
        {
            layout_names.push(String::from(layout_name))
        }
    });
    // add each individual output (by monitor name if the monitor is defined, else by output name)
    available_outputs.iter().for_each(|output| {
        // if there is a monitor for the output, use the monitor name, else use the output name
        let monitor_opt = config.monitors.iter()
            .find(|(_monitor_name, monitor)| {
                monitor.make == output.make
                    && monitor.model == output.model
                    && monitor.serial == output.serial
            });
        if let Some((monitor_name, _monitor)) = monitor_opt {
            layout_names.push(String::from(monitor_name));
        } else {
            layout_names.push(String::from(&output.name));
        }
    });
    layout_names
 }
 /// Print the name of each layout to standard out, one per line
 pub fn print_layout_names() {
    get_layouts().iter().for_each(|layout| println!("{layout}"))
 }
 /// Apply the specified layout.
 /// layout_name may be the name of a layout in the config, the name of a monitor,
 /// or the name of an output.
 pub fn apply_layout(layout_name: &String) {
    let rules = get_config();
    let outputs = get_outputs();
    // Map of output name to config for all outputs to enable.
    // (All outputs not in this map will be disabled.)
    let mut output_config_map: HashMap<&String, &OutputConfig> = HashMap::new();
    // First check if the layout is defined in the rules
    let opt_layout = rules.layouts.get(layout_name);
    if let Some(layout) = opt_layout {
        // The layout is defined in the rules.
        layout.iter().for_each(|(monitor_name, output_config)| {
            let monitor = &rules.monitors[monitor_name];
            // find the output for the monitor to get the output name.
            let output_opt = outputs.iter().find(|output| {
                output.make == monitor.make
                    && output.model == monitor.model
                    && output.serial == monitor.serial
            });
            if let Some(output) = output_opt {
                output_config_map.insert(&output.name, &output_config);
            } else {
                panic!("Missing output for monitor {monitor_name}");
            }
        });
    } else {
        // The layout is not defined in the rules.
        // See if it is a monitor name...
        if let Some(monitor) = rules.monitors.get(layout_name) {
            // It is a monitor name. Find the matching output...
            if let Some(output) = outputs.iter().find(|output| {
                output.make == monitor.make && output.model == monitor.model
                    && output.serial == monitor.serial
            }) {
                output_config_map.insert(&output.name, &output.output_config);
            } else {
                panic!("could not find output for monitor {layout_name}")
            }
        } else {
            // See if it is an output name...
            if let Some(output) = outputs.iter()
                .find(|output| &output.name == layout_name) {
                output_config_map.insert(&output.name, &output.output_config);
            } else {
                panic!("could not find layout, monitor, or output {layout_name}")
            }
        }
    }
    apply_outputs(&outputs, &output_config_map);
 }
 /// Apply the specified outputs. Enable all outputs in [outputs], disable others.
 fn apply_outputs(all_outputs: &Vec<Output>, outputs: &HashMap<&String, &OutputConfig>) {
    // set enabled outputs first, then set disabled outputs.
    // That way if some work before an error, you have at least one output enabled.
    // for outputs to be enabled: map of output name to config
    let mut enabled: HashMap<&String,&OutputConfig> = HashMap::new();
    // for outputs to be disabled: output names
    let mut disabled: Vec<&String> = Vec::new();
    all_outputs.iter().for_each(|output| {
        if let Some(output_config) = outputs.get(&output.name) {
            enabled.insert(&output.name, &output_config);
        } else {
            disabled.push(&output.name);
        }
    });
    let mut cmd = Command::new("swaymsg");
    enabled.iter().for_each(|(output_name,output_config)| {
        cmd.arg("output");
        cmd.arg(&output_name);
        cmd.arg("enable");
        cmd.arg("mode");
        cmd.arg(&output_config.mode);
        cmd.arg("scale");
        cmd.arg(&output_config.scale);
        cmd.arg("pos");
        cmd.arg(&output_config.x.to_string());
        cmd.arg(&output_config.y.to_string());
        cmd.arg("transform");
        cmd.arg(&output_config.transform);
        cmd.arg(",");
    });
    disabled.iter().for_each(|output_name| {
        cmd.arg("output");
        cmd.arg(&output_name);
        cmd.arg("disable");
        cmd.arg(",");
    });
    // print what we are about to do.
    cmd.get_args()
        .for_each(|arg| print!("{} ", arg.to_str().unwrap()));
    cmd.output().expect("swaymsg output failed");
 }
--- a/src/main.rs
+++ b/src/main.rs
@@ -1,332 +1,13 @@
 use kdl::KdlDocument;
 use serde_json::{from_str, Value};
 use std::collections::HashMap;
 use std::env;
 use std::process::Command;
 use std::{fs, str};
 /// Configuration for swayout.
 struct Config {
    /// Monitor name is independent of output name. It can be anything.
    monitors: HashMap<String, Monitor>,
    /// Definition of layouts: a map of the layout name to the outputs.
    /// The outputs is a map of the monitor name (in `monitors`) to the configuration
    /// of that monitor for this layout.
    /// Available outputs that do not match a monitor in the map are disabled.
    layouts: HashMap<String, HashMap<String, OutputConfig>>,
 }
 /// Defines a monitor by make, model, and serial.
 struct Monitor {
    make: String,
    model: String,
    serial: String,
 }
 /// Configuration for an enabled output.
 struct OutputConfig {
    /// mode. See man 5 sway-output
    mode: String,
    /// scale. See man 5 sway-output
    scale: String,
    /// x value for position. See man 5 sway-output
    x: u16,
    /// y value for position. See man 5 sway-output
    y: u16,
    /// transform. See man 5 sway-output
    transform: String,
 }
 /// An output, as returned by `swaymsg -t get_outputs`.
 struct Output {
    /// output name, according to sway
    name: String,
    make: String,
    model: String,
    serial: String,
    output_config: OutputConfig,
 }
 fn main() {
    let args: Vec<String> = env::args().collect();
    if args.len() == 1 {
        // first arg is executable
-        print_layout_names();
+        swayout::print_layout_names();
    } else if args.len() == 2 {
-        apply_layout(&args[1]);
+        swayout::apply_layout(&args[1]);
    } else {
        panic!("Usage: {} [layout]", args[0].as_str());
    }
 }
 /// Get all outputs currently available, according to `swaymsg -t get_outputs`.
 fn get_outputs() -> Vec<Output> {
    let output = Command::new("swaymsg")
        .arg("-t")
        .arg("get_outputs")
        .output()
        .expect("swaymsg -t get_outputs failed");
    let json_string = str::from_utf8(&output.stdout).unwrap();
    let json = from_str(json_string).unwrap();
    if let Value::Array(outputs) = json {
        outputs
            .iter()
            .map(|output_json| Output {
                name: String::from(output_json["name"].as_str().unwrap()),
                make: String::from(output_json["make"].as_str().unwrap()),
                model: String::from(output_json["model"].as_str().unwrap()),
                serial: String::from(output_json["serial"].as_str().unwrap()),
                output_config: OutputConfig {
                    mode: get_mode(output_json),
                    scale: String::from("1.0"),
                    x: 0,
                    y: 0,
                    transform: String::from("normal"),
                },
            })
            .collect()
    } else {
        panic!("outputs json was not an array");
    }
 }
 /// Parse the mode from the output JSON into a string suitable for the mode param for sway-output.
 /// This will go into `OutputConfig.mode`.
 fn get_mode(output: &Value) -> String {
    if let Value::Array(modes) = &output["modes"] {
        if let Some(mode) = modes.first() {
            let width = mode["width"].as_i64().unwrap().to_string();
            let height = mode["height"].as_i64().unwrap().to_string();
            let mut out: String = String::new();
            out.push_str(&width);
            out.push_str("x");
            out.push_str(&height);
            out
        } else {
            panic!("no modes")
        }
    } else {
        panic!("modes not an array")
    }
 }
 /// Get a `Config` from ~/.config/swayout/config.kdl.
 /// (It really uses XDG config dirs.)
 fn get_config() -> Config {
    let xdg_dirs = xdg::BaseDirectories::with_prefix("swayout").unwrap();
    if let Some(path) = xdg_dirs.find_config_file("config.kdl") {
        let kdl = fs::read_to_string(path).expect("error reading file");
        parse_config(kdl)
    } else {
        // no config files, use an empty rules
        Config {
            monitors: HashMap::new(),
            layouts: HashMap::new(),
        }
    }
 }
 fn parse_config(kdl:String) -> Config {
    let doc:KdlDocument = kdl.parse().expect("failed to parse config KDL");
    let monitors:HashMap<String,Monitor> = doc.nodes().iter()
        .filter(|node| node.name().value() == "monitor")
        .map(|monitor_node| {
            let name = String::from(monitor_node[0].as_string().unwrap());
            let monitor = Monitor {
                make : String::from(monitor_node["make"].as_string().unwrap()),
                model : String::from(monitor_node["model"].as_string().unwrap()),
                serial : String::from(monitor_node["serial"].as_string().unwrap()),
            };
            (name, monitor)
        })
        .collect();
    let layouts:HashMap<String,HashMap<String,OutputConfig>> = doc.nodes().iter()
        .filter(|node| node.name().value() == "layout")
        .map(|layout_node| {
            let layout_name = String::from(layout_node[0].as_string().unwrap());
            let monitor_name_to_output_config:HashMap<String,OutputConfig> = layout_node
                .children().unwrap().nodes().iter()
                .map(|output_node| {
                    let output = String::from(output_node[0].as_string().unwrap());
                    let output_config = OutputConfig {
                        mode : String::from(output_node["mode"].as_string().unwrap()),
                        scale : String::from(output_node["scale"].as_string().unwrap()),
                        transform : String::from(output_node["transform"].as_string().unwrap()),
                        x : output_node["x"].as_i64().unwrap() as u16,
                        y : output_node["y"].as_i64().unwrap() as u16,
                    };
                    (output, output_config)
                })
                .collect();
            (layout_name,monitor_name_to_output_config)
        })
        .collect();
    Config { monitors, layouts }
 }
 /// Determine the available layout names.
 /// Return one layout for each layout defined in the configuration file
 /// for which all outputs are available,
 /// one for each monitor defined in the configuration file (for using just that monitor),
 /// and one for each available output that is not a configured monitor (for using just that output).
 fn get_layouts() -> Vec<String> {
    let available_outputs = get_outputs();
    let config = get_config();
    // Get the names of monitors that are available (that match an available output)
    let available_monitor_names:Vec<&String> = config.monitors.iter()
        .filter(|(_monitor_name,monitor)|
            available_outputs.iter().any(|output|
                monitor.make == output.make
                    && monitor.model == output.model
                    && output.serial == monitor.serial
            )
        )
        .map(|(monitor_name,_monitor)| monitor_name)
        .collect();
    let mut layout_names: Vec<String> = Vec::new();
    // Add each layout defined in the config file for which all outputs are available
    config.layouts.iter().for_each(|(layout_name, layout)| {
        if layout
            .iter()
            .all(|(output_name, _output)| available_monitor_names.contains(&output_name))
        {
            layout_names.push(String::from(layout_name))
        }
    });
    // add each individual output (by monitor name if the monitor is defined, else by output name)
    available_outputs.iter().for_each(|output| {
        // if there is a monitor for the output, use the monitor name, else use the output name
        let monitor_opt = config.monitors.iter()
            .find(|(_monitor_name, monitor)| {
                monitor.make == output.make
                    && monitor.model == output.model
                    && monitor.serial == output.serial
            });
        if let Some((monitor_name, _monitor)) = monitor_opt {
            layout_names.push(String::from(monitor_name));
        } else {
            layout_names.push(String::from(&output.name));
        }
    });
    layout_names
 }
 /// Print the name of each layout to standard out, one per line
 fn print_layout_names() {
    get_layouts().iter().for_each(|layout| println!("{layout}"))
 }
 /// Apply the specified layout.
 /// layout_name may be the name of a layout in the config, the name of a monitor,
 /// or the name of an output.
 fn apply_layout(layout_name: &String) {
    let rules = get_config();
    let outputs = get_outputs();
    // Map of output name to config for all outputs to enable.
    // (All outputs not in this map will be disabled.)
    let mut output_config_map: HashMap<&String, &OutputConfig> = HashMap::new();
    // First check if the layout is defined in the rules
    let opt_layout = rules.layouts.get(layout_name);
    if let Some(layout) = opt_layout {
        // The layout is defined in the rules.
        layout.iter().for_each(|(monitor_name, output_config)| {
            let monitor = &rules.monitors[monitor_name];
            // find the output for the monitor to get the output name.
            let output_opt = outputs.iter().find(|output| {
                output.make == monitor.make
                    && output.model == monitor.model
                    && output.serial == monitor.serial
            });
            if let Some(output) = output_opt {
                output_config_map.insert(&output.name, &output_config);
            } else {
                panic!("Missing output for monitor {monitor_name}");
            }
        });
    } else {
        // The layout is not defined in the rules.
        // See if it is a monitor name...
        if let Some(monitor) = rules.monitors.get(layout_name) {
            // It is a monitor name. Find the matching output...
            if let Some(output) = outputs.iter().find(|output| {
                output.make == monitor.make && output.model == monitor.model
                    && output.serial == monitor.serial
            }) {
                output_config_map.insert(&output.name, &output.output_config);
            } else {
                panic!("could not find output for monitor {layout_name}")
            }
        } else {
            // See if it is an output name...
            if let Some(output) = outputs.iter()
                .find(|output| &output.name == layout_name) {
                output_config_map.insert(&output.name, &output.output_config);
            } else {
                panic!("could not find layout, monitor, or output {layout_name}")
            }
        }
    }
    apply_outputs(&outputs, &output_config_map);
 }
 /// Apply the specified outputs. Enable all outputs in [outputs], disable others.
 fn apply_outputs(all_outputs: &Vec<Output>, outputs: &HashMap<&String, &OutputConfig>) {
    // set enabled outputs first, then set disabled outputs.
    // That way if some work before an error, you have at least one output enabled.
    // for outputs to be enabled: map of output name to config
    let mut enabled: HashMap<&String,&OutputConfig> = HashMap::new();
    // for outputs to be disabled: output names
    let mut disabled: Vec<&String> = Vec::new();
    all_outputs.iter().for_each(|output| {
        if let Some(output_config) = outputs.get(&output.name) {
            enabled.insert(&output.name, &output_config);
        } else {
            disabled.push(&output.name);
        }
    });
    let mut cmd = Command::new("swaymsg");
    enabled.iter().for_each(|(output_name,output_config)| {
        cmd.arg("output");
        cmd.arg(&output_name);
        cmd.arg("enable");
        cmd.arg("mode");
        cmd.arg(&output_config.mode);
        cmd.arg("scale");
        cmd.arg(&output_config.scale);
        cmd.arg("pos");
        cmd.arg(&output_config.x.to_string());
        cmd.arg(&output_config.y.to_string());
        cmd.arg("transform");
        cmd.arg(&output_config.transform);
        cmd.arg(",");
    });
    disabled.iter().for_each(|output_name| {
        cmd.arg("output");
        cmd.arg(&output_name);
        cmd.arg("disable");
        cmd.arg(",");
    });
    // print what we are about to do.
    cmd.get_args()
        .for_each(|arg| print!("{} ", arg.to_str().unwrap()));
    cmd.output().expect("swaymsg output failed");
 }