use std::fmt::{Debug, Formatter}; use std::io; use std::sync::{Arc, RwLock}; use std::thread::panicking; #[cfg(not(target_arch = "wasm32"))] use std::time::Instant; use crate::draw_target::{DrawState, DrawStateWrapper, LineAdjust, ProgressDrawTarget}; use crate::progress_bar::ProgressBar; #[cfg(target_arch = "wasm32")] use instant::Instant; /// Manages multiple progress bars from different threads #[derive(Debug, Clone)] pub struct MultiProgress { pub(crate) state: Arc>, } impl Default for MultiProgress { fn default() -> Self { Self::with_draw_target(ProgressDrawTarget::stderr()) } } impl MultiProgress { /// Creates a new multi progress object. /// /// Progress bars added to this object by default draw directly to stderr, and refresh /// a maximum of 15 times a second. To change the refresh rate set the draw target to /// one with a different refresh rate. pub fn new() -> Self { Self::default() } /// Creates a new multi progress object with the given draw target. pub fn with_draw_target(draw_target: ProgressDrawTarget) -> Self { Self { state: Arc::new(RwLock::new(MultiState::new(draw_target))), } } /// Sets a different draw target for the multiprogress bar. pub fn set_draw_target(&self, target: ProgressDrawTarget) { let mut state = self.state.write().unwrap(); state.draw_target.disconnect(Instant::now()); state.draw_target = target; } /// Set whether we should try to move the cursor when possible instead of clearing lines. /// /// This can reduce flickering, but do not enable it if you intend to change the number of /// progress bars. pub fn set_move_cursor(&self, move_cursor: bool) { self.state.write().unwrap().move_cursor = move_cursor; } /// Set alignment flag pub fn set_alignment(&self, alignment: MultiProgressAlignment) { self.state.write().unwrap().alignment = alignment; } /// Adds a progress bar. /// /// The progress bar added will have the draw target changed to a /// remote draw target that is intercepted by the multi progress /// object overriding custom `ProgressDrawTarget` settings. /// /// Adding a progress bar that is already a member of the `MultiProgress` /// will have no effect. pub fn add(&self, pb: ProgressBar) -> ProgressBar { self.internalize(InsertLocation::End, pb) } /// Inserts a progress bar. /// /// The progress bar inserted at position `index` will have the draw /// target changed to a remote draw target that is intercepted by the /// multi progress object overriding custom `ProgressDrawTarget` settings. /// /// If `index >= MultiProgressState::objects.len()`, the progress bar /// is added to the end of the list. /// /// Inserting a progress bar that is already a member of the `MultiProgress` /// will have no effect. pub fn insert(&self, index: usize, pb: ProgressBar) -> ProgressBar { self.internalize(InsertLocation::Index(index), pb) } /// Inserts a progress bar from the back. /// /// The progress bar inserted at position `MultiProgressState::objects.len() - index` /// will have the draw target changed to a remote draw target that is /// intercepted by the multi progress object overriding custom /// `ProgressDrawTarget` settings. /// /// If `index >= MultiProgressState::objects.len()`, the progress bar /// is added to the start of the list. /// /// Inserting a progress bar that is already a member of the `MultiProgress` /// will have no effect. pub fn insert_from_back(&self, index: usize, pb: ProgressBar) -> ProgressBar { self.internalize(InsertLocation::IndexFromBack(index), pb) } /// Inserts a progress bar before an existing one. /// /// The progress bar added will have the draw target changed to a /// remote draw target that is intercepted by the multi progress /// object overriding custom `ProgressDrawTarget` settings. /// /// Inserting a progress bar that is already a member of the `MultiProgress` /// will have no effect. pub fn insert_before(&self, before: &ProgressBar, pb: ProgressBar) -> ProgressBar { self.internalize(InsertLocation::Before(before.index().unwrap()), pb) } /// Inserts a progress bar after an existing one. /// /// The progress bar added will have the draw target changed to a /// remote draw target that is intercepted by the multi progress /// object overriding custom `ProgressDrawTarget` settings. /// /// Inserting a progress bar that is already a member of the `MultiProgress` /// will have no effect. pub fn insert_after(&self, after: &ProgressBar, pb: ProgressBar) -> ProgressBar { self.internalize(InsertLocation::After(after.index().unwrap()), pb) } /// Removes a progress bar. /// /// The progress bar is removed only if it was previously inserted or added /// by the methods `MultiProgress::insert` or `MultiProgress::add`. /// If the passed progress bar does not satisfy the condition above, /// the `remove` method does nothing. pub fn remove(&self, pb: &ProgressBar) { let mut state = pb.state(); let idx = match &state.draw_target.remote() { Some((state, idx)) => { // Check that this progress bar is owned by the current MultiProgress. assert!(Arc::ptr_eq(&self.state, state)); *idx } _ => return, }; state.draw_target = ProgressDrawTarget::hidden(); self.state.write().unwrap().remove_idx(idx); } fn internalize(&self, location: InsertLocation, pb: ProgressBar) -> ProgressBar { let mut state = self.state.write().unwrap(); let idx = state.insert(location); drop(state); pb.set_draw_target(ProgressDrawTarget::new_remote(self.state.clone(), idx)); pb } /// Print a log line above all progress bars in the [`MultiProgress`] /// /// If the draw target is hidden (e.g. when standard output is not a terminal), `println()` /// will not do anything. pub fn println>(&self, msg: I) -> io::Result<()> { let mut state = self.state.write().unwrap(); state.println(msg, Instant::now()) } /// Hide all progress bars temporarily, execute `f`, then redraw the [`MultiProgress`] /// /// Executes 'f' even if the draw target is hidden. /// /// Useful for external code that writes to the standard output. /// /// **Note:** The internal lock is held while `f` is executed. Other threads trying to print /// anything on the progress bar will be blocked until `f` finishes. /// Therefore, it is recommended to avoid long-running operations in `f`. pub fn suspend R, R>(&self, f: F) -> R { let mut state = self.state.write().unwrap(); state.suspend(f, Instant::now()) } pub fn clear(&self) -> io::Result<()> { self.state.write().unwrap().clear(Instant::now()) } pub fn is_hidden(&self) -> bool { self.state.read().unwrap().is_hidden() } } #[derive(Debug)] pub(crate) struct MultiState { /// The collection of states corresponding to progress bars members: Vec, /// Set of removed bars, should have corresponding members in the `members` vector with a /// `draw_state` of `None`. free_set: Vec, /// Indices to the `draw_states` to maintain correct visual order ordering: Vec, /// Target for draw operation for MultiProgress draw_target: ProgressDrawTarget, /// Whether or not to just move cursor instead of clearing lines move_cursor: bool, /// Controls how the multi progress is aligned if some of its progress bars get removed, default is `Top` alignment: MultiProgressAlignment, /// Lines to be drawn above everything else in the MultiProgress. These specifically come from /// calling `ProgressBar::println` on a pb that is connected to a `MultiProgress`. orphan_lines: Vec, /// The count of currently visible zombie lines. zombie_lines_count: usize, } impl MultiState { fn new(draw_target: ProgressDrawTarget) -> Self { Self { members: vec![], free_set: vec![], ordering: vec![], draw_target, move_cursor: false, alignment: MultiProgressAlignment::default(), orphan_lines: Vec::new(), zombie_lines_count: 0, } } pub(crate) fn mark_zombie(&mut self, index: usize) { let member = &mut self.members[index]; // If the zombie is the first visual bar then we can reap it right now instead of // deferring it to the next draw. if index != self.ordering.first().copied().unwrap() { member.is_zombie = true; return; } let line_count = member .draw_state .as_ref() .map(|d| d.lines.len()) .unwrap_or_default(); // Track the total number of zombie lines on the screen self.zombie_lines_count += line_count; // Make `DrawTarget` forget about the zombie lines so that they aren't cleared on next draw. self.draw_target .adjust_last_line_count(LineAdjust::Keep(line_count)); self.remove_idx(index); } pub(crate) fn draw( &mut self, mut force_draw: bool, extra_lines: Option>, now: Instant, ) -> io::Result<()> { if panicking() { return Ok(()); } let width = self.width() as f64; // Calculate real length based on terminal width // This take in account linewrap from terminal fn real_len(lines: &[String], width: f64) -> usize { lines.iter().fold(0, |sum, val| { sum + (console::measure_text_width(val) as f64 / width).ceil() as usize }) } // Assumption: if extra_lines is not None, then it has at least one line debug_assert_eq!( extra_lines.is_some(), extra_lines.as_ref().map(Vec::len).unwrap_or_default() > 0 ); let mut reap_indices = vec![]; // Reap all consecutive 'zombie' progress bars from head of the list. let mut adjust = 0; for &index in &self.ordering { let member = &self.members[index]; if !member.is_zombie { break; } let line_count = member .draw_state .as_ref() .map(|d| real_len(&d.lines, width)) .unwrap_or_default(); // Track the total number of zombie lines on the screen. self.zombie_lines_count += line_count; // Track the number of zombie lines that will be drawn by this call to draw. adjust += line_count; reap_indices.push(index); } // If this draw is due to a `println`, then we need to erase all the zombie lines. // This is because `println` is supposed to appear above all other elements in the // `MultiProgress`. if extra_lines.is_some() { self.draw_target .adjust_last_line_count(LineAdjust::Clear(self.zombie_lines_count)); self.zombie_lines_count = 0; } let orphan_lines_count = real_len(&self.orphan_lines, width); force_draw |= orphan_lines_count > 0; let mut drawable = match self.draw_target.drawable(force_draw, now) { Some(drawable) => drawable, None => return Ok(()), }; let mut draw_state = drawable.state(); draw_state.orphan_lines_count = orphan_lines_count; draw_state.alignment = self.alignment; if let Some(extra_lines) = &extra_lines { draw_state.lines.extend_from_slice(extra_lines.as_slice()); draw_state.orphan_lines_count += real_len(extra_lines, width); } // Add lines from `ProgressBar::println` call. draw_state.lines.append(&mut self.orphan_lines); for index in &self.ordering { let member = &self.members[*index]; if let Some(state) = &member.draw_state { draw_state.lines.extend_from_slice(&state.lines[..]); } } drop(draw_state); let drawable = drawable.draw(); for index in reap_indices { self.remove_idx(index); } // The zombie lines were drawn for the last time, so make `DrawTarget` forget about them // so they aren't cleared on next draw. if extra_lines.is_none() { self.draw_target .adjust_last_line_count(LineAdjust::Keep(adjust)); } drawable } pub(crate) fn println>(&mut self, msg: I, now: Instant) -> io::Result<()> { let msg = msg.as_ref(); // If msg is "", make sure a line is still printed let lines: Vec = match msg.is_empty() { false => msg.lines().map(Into::into).collect(), true => vec![String::new()], }; self.draw(true, Some(lines), now) } pub(crate) fn draw_state(&mut self, idx: usize) -> DrawStateWrapper<'_> { let member = self.members.get_mut(idx).unwrap(); // alignment is handled by the `MultiProgress`'s underlying draw target, so there is no // point in propagating it here. let state = member.draw_state.get_or_insert(DrawState { move_cursor: self.move_cursor, ..Default::default() }); DrawStateWrapper::for_multi(state, &mut self.orphan_lines) } pub(crate) fn is_hidden(&self) -> bool { self.draw_target.is_hidden() } pub(crate) fn suspend R, R>(&mut self, f: F, now: Instant) -> R { self.clear(now).unwrap(); let ret = f(); self.draw(true, None, Instant::now()).unwrap(); ret } pub(crate) fn width(&self) -> u16 { self.draw_target.width() } fn insert(&mut self, location: InsertLocation) -> usize { let idx = if let Some(idx) = self.free_set.pop() { self.members[idx] = MultiStateMember::default(); idx } else { self.members.push(MultiStateMember::default()); self.members.len() - 1 }; match location { InsertLocation::End => self.ordering.push(idx), InsertLocation::Index(pos) => { let pos = Ord::min(pos, self.ordering.len()); self.ordering.insert(pos, idx); } InsertLocation::IndexFromBack(pos) => { let pos = self.ordering.len().saturating_sub(pos); self.ordering.insert(pos, idx); } InsertLocation::After(after_idx) => { let pos = self.ordering.iter().position(|i| *i == after_idx).unwrap(); self.ordering.insert(pos + 1, idx); } InsertLocation::Before(before_idx) => { let pos = self.ordering.iter().position(|i| *i == before_idx).unwrap(); self.ordering.insert(pos, idx); } } assert_eq!( self.len(), self.ordering.len(), "Draw state is inconsistent" ); idx } fn clear(&mut self, now: Instant) -> io::Result<()> { match self.draw_target.drawable(true, now) { Some(mut drawable) => { // Make the clear operation also wipe out zombie lines drawable.adjust_last_line_count(LineAdjust::Clear(self.zombie_lines_count)); self.zombie_lines_count = 0; drawable.clear() } None => Ok(()), } } fn remove_idx(&mut self, idx: usize) { if self.free_set.contains(&idx) { return; } self.members[idx] = MultiStateMember::default(); self.free_set.push(idx); self.ordering.retain(|&x| x != idx); assert_eq!( self.len(), self.ordering.len(), "Draw state is inconsistent" ); } fn len(&self) -> usize { self.members.len() - self.free_set.len() } } #[derive(Default)] struct MultiStateMember { /// Draw state will be `None` for members that haven't been drawn before, or for entries that /// correspond to something in the free set. draw_state: Option, /// Whether the corresponding progress bar (more precisely, `BarState`) has been dropped. is_zombie: bool, } impl Debug for MultiStateMember { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.debug_struct("MultiStateElement") .field("draw_state", &self.draw_state) .field("is_zombie", &self.is_zombie) .finish_non_exhaustive() } } /// Vertical alignment of a multi progress. /// /// The alignment controls how the multi progress is aligned if some of its progress bars get removed. /// E.g. `Top` alignment (default), when _progress bar 2_ is removed: /// ```ignore /// [0/100] progress bar 1 [0/100] progress bar 1 /// [0/100] progress bar 2 => [0/100] progress bar 3 /// [0/100] progress bar 3 /// ``` /// /// `Bottom` alignment /// ```ignore /// [0/100] progress bar 1 /// [0/100] progress bar 2 => [0/100] progress bar 1 /// [0/100] progress bar 3 [0/100] progress bar 3 /// ``` #[derive(Debug, Copy, Clone)] pub enum MultiProgressAlignment { Top, Bottom, } impl Default for MultiProgressAlignment { fn default() -> Self { Self::Top } } enum InsertLocation { End, Index(usize), IndexFromBack(usize), After(usize), Before(usize), } #[cfg(test)] mod tests { use crate::{MultiProgress, ProgressBar, ProgressDrawTarget}; #[test] fn late_pb_drop() { let pb = ProgressBar::new(10); let mpb = MultiProgress::new(); // This clone call is required to trigger a now fixed bug. // See for context #[allow(clippy::redundant_clone)] mpb.add(pb.clone()); } #[test] fn progress_bar_sync_send() { let _: Box = Box::new(ProgressBar::new(1)); let _: Box = Box::new(ProgressBar::new(1)); let _: Box = Box::new(MultiProgress::new()); let _: Box = Box::new(MultiProgress::new()); } #[test] fn multi_progress_hidden() { let mpb = MultiProgress::with_draw_target(ProgressDrawTarget::hidden()); let pb = mpb.add(ProgressBar::new(123)); pb.finish(); } #[test] fn multi_progress_modifications() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); let p2 = mp.add(ProgressBar::new(1)); let p3 = mp.add(ProgressBar::new(1)); mp.remove(&p2); mp.remove(&p1); let p4 = mp.insert(1, ProgressBar::new(1)); let state = mp.state.read().unwrap(); // the removed place for p1 is reused assert_eq!(state.members.len(), 4); assert_eq!(state.len(), 3); // free_set may contain 1 or 2 match state.free_set.last() { Some(1) => { assert_eq!(state.ordering, vec![0, 2, 3]); assert!(state.members[1].draw_state.is_none()); assert_eq!(p4.index().unwrap(), 2); } Some(2) => { assert_eq!(state.ordering, vec![0, 1, 3]); assert!(state.members[2].draw_state.is_none()); assert_eq!(p4.index().unwrap(), 1); } _ => unreachable!(), } assert_eq!(p0.index().unwrap(), 0); assert_eq!(p1.index(), None); assert_eq!(p2.index(), None); assert_eq!(p3.index().unwrap(), 3); } #[test] fn multi_progress_insert_from_back() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); let p2 = mp.add(ProgressBar::new(1)); let p3 = mp.insert_from_back(1, ProgressBar::new(1)); let p4 = mp.insert_from_back(10, ProgressBar::new(1)); let state = mp.state.read().unwrap(); assert_eq!(state.ordering, vec![4, 0, 1, 3, 2]); assert_eq!(p0.index().unwrap(), 0); assert_eq!(p1.index().unwrap(), 1); assert_eq!(p2.index().unwrap(), 2); assert_eq!(p3.index().unwrap(), 3); assert_eq!(p4.index().unwrap(), 4); } #[test] fn multi_progress_insert_after() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); let p2 = mp.add(ProgressBar::new(1)); let p3 = mp.insert_after(&p2, ProgressBar::new(1)); let p4 = mp.insert_after(&p0, ProgressBar::new(1)); let state = mp.state.read().unwrap(); assert_eq!(state.ordering, vec![0, 4, 1, 2, 3]); assert_eq!(p0.index().unwrap(), 0); assert_eq!(p1.index().unwrap(), 1); assert_eq!(p2.index().unwrap(), 2); assert_eq!(p3.index().unwrap(), 3); assert_eq!(p4.index().unwrap(), 4); } #[test] fn multi_progress_insert_before() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); let p2 = mp.add(ProgressBar::new(1)); let p3 = mp.insert_before(&p0, ProgressBar::new(1)); let p4 = mp.insert_before(&p2, ProgressBar::new(1)); let state = mp.state.read().unwrap(); assert_eq!(state.ordering, vec![3, 0, 1, 4, 2]); assert_eq!(p0.index().unwrap(), 0); assert_eq!(p1.index().unwrap(), 1); assert_eq!(p2.index().unwrap(), 2); assert_eq!(p3.index().unwrap(), 3); assert_eq!(p4.index().unwrap(), 4); } #[test] fn multi_progress_insert_before_and_after() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); let p2 = mp.add(ProgressBar::new(1)); let p3 = mp.insert_before(&p0, ProgressBar::new(1)); let p4 = mp.insert_after(&p3, ProgressBar::new(1)); let p5 = mp.insert_after(&p3, ProgressBar::new(1)); let p6 = mp.insert_before(&p1, ProgressBar::new(1)); let state = mp.state.read().unwrap(); assert_eq!(state.ordering, vec![3, 5, 4, 0, 6, 1, 2]); assert_eq!(p0.index().unwrap(), 0); assert_eq!(p1.index().unwrap(), 1); assert_eq!(p2.index().unwrap(), 2); assert_eq!(p3.index().unwrap(), 3); assert_eq!(p4.index().unwrap(), 4); assert_eq!(p5.index().unwrap(), 5); assert_eq!(p6.index().unwrap(), 6); } #[test] fn multi_progress_multiple_remove() { let mp = MultiProgress::new(); let p0 = mp.add(ProgressBar::new(1)); let p1 = mp.add(ProgressBar::new(1)); // double remove beyond the first one have no effect mp.remove(&p0); mp.remove(&p0); mp.remove(&p0); let state = mp.state.read().unwrap(); // the removed place for p1 is reused assert_eq!(state.members.len(), 2); assert_eq!(state.free_set.len(), 1); assert_eq!(state.len(), 1); assert!(state.members[0].draw_state.is_none()); assert_eq!(state.free_set.last(), Some(&0)); assert_eq!(state.ordering, vec![1]); assert_eq!(p0.index(), None); assert_eq!(p1.index().unwrap(), 1); } #[test] fn mp_no_crash_double_add() { let mp = MultiProgress::new(); let pb = mp.add(ProgressBar::new(10)); mp.add(pb); } }