use std::{ cmp::{max, Ordering}, fmt::Display, num::NonZeroU16, time::Duration, }; use concat_string::concat_string; use tui::{text::Text, widgets::Row}; use super::proc_widget_column::ProcColumn; use crate::{ canvas::{ components::data_table::{DataTableColumn, DataToCell}, Painter, }, data_collection::processes::ProcessHarvest, data_conversion::{binary_byte_string, dec_bytes_per_second_string, dec_bytes_string}, utils::general::truncate_to_text, Pid, }; #[derive(Clone, Debug)] enum IdType { Name(String), Command(String), } #[derive(Clone, Debug)] pub struct Id { id_type: IdType, prefix: Option, } impl From<&'static str> for Id { fn from(s: &'static str) -> Self { Id { id_type: IdType::Name(s.to_string()), prefix: None, } } } impl Id { /// Returns the ID as a lowercase [`String`], with no prefix. This is primarily useful for /// cases like sorting where we treat everything as the same case (e.g. `Discord` comes before /// `dkms`). pub fn to_lowercase(&self) -> String { match &self.id_type { IdType::Name(name) => name.to_lowercase(), IdType::Command(cmd) => cmd.to_lowercase(), } } /// Return the ID as a borrowed [`str`] with no prefix. pub fn as_str(&self) -> &str { match &self.id_type { IdType::Name(name) => name.as_str(), IdType::Command(cmd) => cmd.as_str(), } } /// Returns the ID as a [`String`] with prefix. pub fn to_prefixed_string(&self) -> String { if let Some(prefix) = &self.prefix { concat_string!( prefix, match &self.id_type { IdType::Name(name) => name, IdType::Command(cmd) => cmd, } ) } else { match &self.id_type { IdType::Name(name) => name.to_string(), IdType::Command(cmd) => cmd.to_string(), } } } } impl Display for Id { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.write_str(self.as_str()) } } #[derive(PartialEq, Clone, Debug)] pub enum MemUsage { Percent(f32), Bytes(u64), } impl PartialOrd for MemUsage { fn partial_cmp(&self, other: &Self) -> Option { match (self, other) { (MemUsage::Percent(a), MemUsage::Percent(b)) => a.partial_cmp(b), (MemUsage::Bytes(a), MemUsage::Bytes(b)) => a.partial_cmp(b), _ => unreachable!(), } } } impl Display for MemUsage { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { MemUsage::Percent(percent) => f.write_fmt(format_args!("{percent:.1}%")), MemUsage::Bytes(bytes) => f.write_str(&binary_byte_string(*bytes)), } } } trait DurationExt { fn num_days(&self) -> u64; fn num_hours(&self) -> u64; fn num_minutes(&self) -> u64; } const SECS_PER_DAY: u64 = SECS_PER_HOUR * 24; const SECS_PER_HOUR: u64 = SECS_PER_MINUTE * 60; const SECS_PER_MINUTE: u64 = 60; impl DurationExt for Duration { /// Number of full days in this duration. #[inline] fn num_days(&self) -> u64 { self.as_secs() / SECS_PER_DAY } /// Number of full hours in this duration. #[inline] fn num_hours(&self) -> u64 { self.as_secs() / SECS_PER_HOUR } /// Number of full minutes in this duration. #[inline] fn num_minutes(&self) -> u64 { self.as_secs() / SECS_PER_MINUTE } } fn format_time(dur: Duration) -> String { if dur.num_days() > 0 { format!( "{}d {}h {}m", dur.num_days(), dur.num_hours() % 24, dur.num_minutes() % 60 ) } else if dur.num_hours() > 0 { format!( "{}h {}m {}s", dur.num_hours(), dur.num_minutes() % 60, dur.as_secs() % 60 ) } else if dur.num_minutes() > 0 { format!( "{}m {}.{:02}s", dur.num_minutes(), dur.as_secs() % 60, dur.as_millis() % 1000 / 10 ) } else { format!("{}.{:03}s", dur.as_secs(), dur.as_millis() % 1000) } } #[derive(Clone, Debug)] pub struct ProcWidgetData { pub pid: Pid, pub ppid: Option, pub id: Id, pub cpu_usage_percent: f32, pub mem_usage: MemUsage, pub rps: u64, pub wps: u64, pub total_read: u64, pub total_write: u64, pub process_state: String, pub process_char: char, pub user: String, pub num_similar: u64, pub disabled: bool, pub time: Duration, #[cfg(feature = "gpu")] pub gpu_mem_usage: MemUsage, #[cfg(feature = "gpu")] pub gpu_usage: u32, } impl ProcWidgetData { pub fn from_data(process: &ProcessHarvest, is_command: bool, is_mem_percent: bool) -> Self { let id = Id { id_type: if is_command { IdType::Command(process.command.clone()) } else { IdType::Name(process.name.clone()) }, prefix: None, }; let mem_usage = if is_mem_percent { MemUsage::Percent(process.mem_usage_percent) } else { MemUsage::Bytes(process.mem_usage_bytes) }; Self { pid: process.pid, ppid: process.parent_pid, id, cpu_usage_percent: process.cpu_usage_percent, mem_usage, rps: process.read_bytes_per_sec, wps: process.write_bytes_per_sec, total_read: process.total_read_bytes, total_write: process.total_write_bytes, process_state: process.process_state.0.clone(), process_char: process.process_state.1, user: process.user.to_string(), num_similar: 1, disabled: false, time: process.time, #[cfg(feature = "gpu")] gpu_mem_usage: if is_mem_percent { MemUsage::Percent(process.gpu_mem_percent) } else { MemUsage::Bytes(process.gpu_mem) }, #[cfg(feature = "gpu")] gpu_usage: process.gpu_util, } } pub fn num_similar(mut self, num_similar: u64) -> Self { self.num_similar = num_similar; self } pub fn disabled(mut self, disabled: bool) -> Self { self.disabled = disabled; self } pub fn prefix(mut self, prefix: Option) -> Self { self.id.prefix = prefix; self } pub fn add(&mut self, other: &Self) { self.cpu_usage_percent += other.cpu_usage_percent; self.mem_usage = match (&self.mem_usage, &other.mem_usage) { (MemUsage::Percent(a), MemUsage::Percent(b)) => MemUsage::Percent(a + b), (MemUsage::Bytes(a), MemUsage::Bytes(b)) => MemUsage::Bytes(a + b), (MemUsage::Percent(_), MemUsage::Bytes(_)) | (MemUsage::Bytes(_), MemUsage::Percent(_)) => { unreachable!("trying to add together two different memory usage types!") } }; self.rps += other.rps; self.wps += other.wps; self.total_read += other.total_read; self.total_write += other.total_write; #[cfg(feature = "gpu")] { self.gpu_mem_usage = match (&self.gpu_mem_usage, &other.gpu_mem_usage) { (MemUsage::Percent(a), MemUsage::Percent(b)) => MemUsage::Percent(a + b), (MemUsage::Bytes(a), MemUsage::Bytes(b)) => MemUsage::Bytes(a + b), (MemUsage::Percent(_), MemUsage::Bytes(_)) | (MemUsage::Bytes(_), MemUsage::Percent(_)) => { unreachable!("trying to add together two different memory usage types!") } }; self.gpu_usage += other.gpu_usage; } } fn to_string(&self, column: &ProcColumn) -> String { match column { ProcColumn::CpuPercent => format!("{:.1}%", self.cpu_usage_percent), ProcColumn::MemoryVal | ProcColumn::MemoryPercent => self.mem_usage.to_string(), ProcColumn::Pid => self.pid.to_string(), ProcColumn::Count => self.num_similar.to_string(), ProcColumn::Name | ProcColumn::Command => self.id.to_prefixed_string(), ProcColumn::ReadPerSecond => dec_bytes_per_second_string(self.rps), ProcColumn::WritePerSecond => dec_bytes_per_second_string(self.wps), ProcColumn::TotalRead => dec_bytes_string(self.total_read), ProcColumn::TotalWrite => dec_bytes_string(self.total_write), ProcColumn::State => self.process_char.to_string(), ProcColumn::User => self.user.clone(), ProcColumn::Time => format_time(self.time), #[cfg(feature = "gpu")] ProcColumn::GpuMem | ProcColumn::GpuMemPercent => self.gpu_mem_usage.to_string(), #[cfg(feature = "gpu")] ProcColumn::GpuUtilPercent => format!("{:.1}%", self.gpu_usage), } } } impl DataToCell for ProcWidgetData { fn to_cell(&self, column: &ProcColumn, calculated_width: NonZeroU16) -> Option> { let calculated_width = calculated_width.get(); // TODO: Optimize the string allocations here... // TODO: Also maybe just pull in the to_string call but add a variable for the differences. Some(truncate_to_text( &match column { ProcColumn::CpuPercent => { format!("{:.1}%", self.cpu_usage_percent) } ProcColumn::MemoryVal | ProcColumn::MemoryPercent => self.mem_usage.to_string(), ProcColumn::Pid => self.pid.to_string(), ProcColumn::Count => self.num_similar.to_string(), ProcColumn::Name | ProcColumn::Command => self.id.to_prefixed_string(), ProcColumn::ReadPerSecond => dec_bytes_per_second_string(self.rps), ProcColumn::WritePerSecond => dec_bytes_per_second_string(self.wps), ProcColumn::TotalRead => dec_bytes_string(self.total_read), ProcColumn::TotalWrite => dec_bytes_string(self.total_write), ProcColumn::State => { if calculated_width < 8 { self.process_char.to_string() } else { self.process_state.clone() } } ProcColumn::User => self.user.clone(), ProcColumn::Time => format_time(self.time), #[cfg(feature = "gpu")] ProcColumn::GpuMem | ProcColumn::GpuMemPercent => self.gpu_mem_usage.to_string(), #[cfg(feature = "gpu")] ProcColumn::GpuUtilPercent => format!("{:.1}%", self.gpu_usage), }, calculated_width, )) } #[inline(always)] fn style_row<'a>(&self, row: Row<'a>, painter: &Painter) -> Row<'a> { if self.disabled { row.style(painter.colours.disabled_text_style) } else { row } } fn column_widths>(data: &[Self], columns: &[C]) -> Vec where Self: Sized, { let mut widths = vec![0; columns.len()]; for d in data { for (w, c) in widths.iter_mut().zip(columns) { *w = max(*w, d.to_string(c.inner()).len() as u16); } } widths } } #[cfg(test)] mod test { use std::time::Duration; use crate::widgets::proc_widget_data::format_time; #[test] fn test_format_time() { const ONE_DAY: u64 = 24 * 60 * 60; assert_eq!(format_time(Duration::from_millis(500)), "0.500s"); assert_eq!(format_time(Duration::from_millis(900)), "0.900s"); assert_eq!(format_time(Duration::from_secs(1)), "1.000s"); assert_eq!(format_time(Duration::from_secs(10)), "10.000s"); assert_eq!(format_time(Duration::from_secs(60)), "1m 0.00s"); assert_eq!(format_time(Duration::from_secs(61)), "1m 1.00s"); assert_eq!(format_time(Duration::from_secs(600)), "10m 0.00s"); assert_eq!(format_time(Duration::from_secs(601)), "10m 1.00s"); assert_eq!(format_time(Duration::from_secs(3600)), "1h 0m 0s"); assert_eq!(format_time(Duration::from_secs(3601)), "1h 0m 1s"); assert_eq!(format_time(Duration::from_secs(3660)), "1h 1m 0s"); assert_eq!(format_time(Duration::from_secs(3661)), "1h 1m 1s"); assert_eq!(format_time(Duration::from_secs(ONE_DAY - 1)), "23h 59m 59s"); assert_eq!(format_time(Duration::from_secs(ONE_DAY)), "1d 0h 0m"); assert_eq!(format_time(Duration::from_secs(ONE_DAY + 1)), "1d 0h 0m"); assert_eq!(format_time(Duration::from_secs(ONE_DAY + 60)), "1d 0h 1m"); assert_eq!( format_time(Duration::from_secs(ONE_DAY + 3600 - 1)), "1d 0h 59m" ); assert_eq!(format_time(Duration::from_secs(ONE_DAY + 3600)), "1d 1h 0m"); assert_eq!( format_time(Duration::from_secs(ONE_DAY * 365 - 1)), "364d 23h 59m" ); } }