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e1418b0bb7
starship/src/modules/battery.rs
Mick Hohmann 2558c4588b
fix: update of presets and default configuration to reflect changes in Nerd Fonts 3.0 (#5162) 
* Updated nf-mdi-* to nf-md-* symbols

The following symbols where changed
- directory.read_only
- memory_usage
- meson
- nim
- os.symbols.Garuda
- os.symbols.HardenedBSD
- os.symbols.Illumos
- os.symbols.OpenBSD
- os.symbols.OracleLinux
- os.symbols.Redox
- os.symbols.Solus
- os.symbols.Windows
- package
- rlang

* Updated nf-mdi-* to nf-md-* symbols (for all other presets)

The following symbols where changed
for pastel-powerline:
- directory.substitutions.Documents
- nim
for tokyo-night
- directory.substitutions.Documents
- golang

* Updated nf-mdi-* to nf-md-* symbols for the default configuration in modules in src/configs/*.rs

The following symbols where changed
- azure
- battery.full_symbol
- battery.charging_symbol
- battery.discharging_symbol
- battery.unknown_symbol
- battery.empty_symbol

* Updated config-schema.json

* Updated src/modules/*.rs docs/config/README.md

and used `nerdfix` to check if I overlook anything

* Fixed the battery discharging symbol in the tests

---------

Co-authored-by: github-actions[bot] <41898282+github-actions[bot]@users.noreply.github.com>
Co-authored-by: jtrv <travershasemail@gmail.com>
2023-05-10 14:36:56 +02:00

417 lines
12 KiB
Rust
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use super::{Context, Module, ModuleConfig};
use crate::configs::battery::BatteryConfig;
#[cfg(test)]
use mockall::automock;
use starship_battery as battery;
use crate::formatter::StringFormatter;
/// Creates a module for the battery percentage and charging state
pub fn module<'a>(context: &'a Context) -> Option<Module<'a>> {
let battery_status = get_battery_status(context)?;
let BatteryStatus { state, percentage } = battery_status;
let mut module = context.new_module("battery");
let config: BatteryConfig = BatteryConfig::try_load(module.config);
// Parse config under `display`.
// Select the first style that match the threshold,
// if all thresholds are lower do not display battery module.
let display_style = config
.display
.iter()
.find(|display_style| percentage <= display_style.threshold as f32)?;
// Parse the format string and build the module
match StringFormatter::new(config.format) {
Ok(formatter) => {
let formatter = formatter
.map_meta(|variable, _| match variable {
"symbol" => match state {
battery::State::Full => Some(config.full_symbol),
battery::State::Charging => display_style
.charging_symbol
.or(Some(config.charging_symbol)),
battery::State::Discharging => display_style
.discharging_symbol
.or(Some(config.discharging_symbol)),
battery::State::Unknown => Some(config.unknown_symbol),
battery::State::Empty => Some(config.empty_symbol),
},
_ => None,
})
.map_style(|style| match style {
"style" => Some(Ok(display_style.style)),
_ => None,
})
.map(|variable| match variable {
"percentage" => Some(Ok(format!("{}%", percentage.round()))),
_ => None,
});
match formatter.parse(None, Some(context)) {
Ok(format_string) => {
module.set_segments(format_string);
Some(module)
}
Err(e) => {
log::warn!("Cannot parse `battery.format`: {}", e);
None
}
}
}
Err(e) => {
log::warn!("Cannot load `battery.format`: {}", e);
None
}
}
}
fn get_battery_status(context: &Context) -> Option<BatteryStatus> {
let battery_info = context.battery_info_provider.get_battery_info()?;
if battery_info.energy_full != 0.0 {
let battery = BatteryStatus {
percentage: battery_info.energy / battery_info.energy_full * 100.0,
state: battery_info.state,
};
log::debug!("Battery status: {:?}", battery);
Some(battery)
} else {
None
}
}
/// the merge returns Charging if at least one is charging
/// Discharging if at least one is Discharging
/// Full if both are Full or one is Full and the other Unknown
/// Empty if both are Empty or one is Empty and the other Unknown
/// Unknown otherwise
fn merge_battery_states(state1: battery::State, state2: battery::State) -> battery::State {
use battery::State::{Charging, Discharging, Unknown};
if state1 == Charging || state2 == Charging {
Charging
} else if state1 == Discharging || state2 == Discharging {
Discharging
} else if state1 == state2 {
state1
} else if state1 == Unknown {
state2
} else if state2 == Unknown {
state1
} else {
Unknown
}
}
pub struct BatteryInfo {
energy: f32,
energy_full: f32,
state: battery::State,
}
#[derive(Debug)]
struct BatteryStatus {
percentage: f32,
state: battery::State,
}
#[cfg_attr(test, automock)]
pub trait BatteryInfoProvider {
fn get_battery_info(&self) -> Option<BatteryInfo>;
}
pub struct BatteryInfoProviderImpl;
impl BatteryInfoProvider for BatteryInfoProviderImpl {
fn get_battery_info(&self) -> Option<BatteryInfo> {
let battery_manager = battery::Manager::new().ok()?;
let batteries = battery_manager.batteries().ok()?;
Some(
batteries
.filter_map(|battery| match battery {
Ok(battery) => {
log::debug!("Battery found: {:?}", battery);
Some(BatteryInfo {
energy: battery.energy().value,
energy_full: battery.energy_full().value,
state: battery.state(),
})
}
Err(e) => {
let level = if cfg!(target_os = "linux") {
log::Level::Info
} else {
log::Level::Warn
};
log::log!(level, "Unable to access battery information:\n{}", &e);
None
}
})
.fold(
BatteryInfo {
energy: 0.0,
energy_full: 0.0,
state: battery::State::Unknown,
},
|mut acc, x| {
acc.energy += x.energy;
acc.energy_full += x.energy_full;
acc.state = merge_battery_states(acc.state, x.state);
acc
},
),
)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::test::ModuleRenderer;
use nu_ansi_term::Color;
#[test]
fn no_battery_status() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| None);
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = None;
assert_eq!(expected, actual);
}
#[test]
fn ignores_zero_capacity_battery() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 0.0,
energy_full: 0.0,
state: battery::State::Full,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = None;
assert_eq!(expected, actual);
}
#[test]
fn battery_full() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 1000.0,
energy_full: 1000.0,
state: battery::State::Full,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰁹 100% "));
assert_eq!(expected, actual);
}
#[test]
fn battery_charging() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 800.0,
energy_full: 1000.0,
state: battery::State::Charging,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 90
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰂄 80% "));
assert_eq!(expected, actual);
}
#[test]
fn battery_discharging() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 800.0,
energy_full: 1000.0,
state: battery::State::Discharging,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰂃 80% "));
assert_eq!(expected, actual);
}
#[test]
fn battery_unknown() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 0.0,
energy_full: 1.0,
state: battery::State::Unknown,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰁽 0% "));
assert_eq!(expected, actual);
}
#[test]
fn battery_empty() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 0.0,
energy_full: 1000.0,
state: battery::State::Empty,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰂎 0% "));
assert_eq!(expected, actual);
}
#[test]
fn battery_hidden_when_percentage_above_threshold() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 600.0,
energy_full: 1000.0,
state: battery::State::Full,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 50
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = None;
assert_eq!(expected, actual);
}
#[test]
fn battery_uses_style() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 400.0,
energy_full: 1000.0,
state: battery::State::Discharging,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 50
style = "bold red"
})
.battery_info_provider(&mock)
.collect();
let expected = Some(format!("{} ", Color::Red.bold().paint("󰂃 40%")));
assert_eq!(expected, actual);
}
#[test]
fn battery_displayed_precision() {
let mut mock = MockBatteryInfoProvider::new();
mock.expect_get_battery_info().times(1).returning(|| {
Some(BatteryInfo {
energy: 129.87654,
energy_full: 1000.0,
state: battery::State::Discharging,
})
});
let actual = ModuleRenderer::new("battery")
.config(toml::toml! {
[[battery.display]]
threshold = 100
style = ""
})
.battery_info_provider(&mock)
.collect();
let expected = Some(String::from("󰂃 13% "));
assert_eq!(expected, actual);
}
}
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