Begin porting the PaneAxis element

This commit is contained in:
Mikayla 2023-12-07 17:16:19 -08:00
parent c7e19c0bcd
commit 25df11dd26
No known key found for this signature in database
8 changed files with 564 additions and 407 deletions

View file

@ -57,8 +57,12 @@ where
T: 'static,
E: 'static + Debug,
{
#[track_caller]
pub fn detach_and_log_err(self, cx: &mut AppContext) {
cx.foreground_executor().spawn(self.log_err()).detach();
let location = core::panic::Location::caller();
cx.foreground_executor()
.spawn(self.log_tracked_err(*location))
.detach();
}
}

View file

@ -8,6 +8,54 @@ use std::{
ops::{Add, Div, Mul, MulAssign, Sub},
};
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum Axis {
Vertical,
Horizontal,
}
impl Axis {
pub fn invert(&self) -> Self {
match self {
Axis::Vertical => Axis::Horizontal,
Axis::Horizontal => Axis::Vertical,
}
}
}
impl sqlez::bindable::StaticColumnCount for Axis {}
impl sqlez::bindable::Bind for Axis {
fn bind(
&self,
statement: &sqlez::statement::Statement,
start_index: i32,
) -> anyhow::Result<i32> {
match self {
Axis::Horizontal => "Horizontal",
Axis::Vertical => "Vertical",
}
.bind(statement, start_index)
}
}
impl sqlez::bindable::Column for Axis {
fn column(
statement: &mut sqlez::statement::Statement,
start_index: i32,
) -> anyhow::Result<(Self, i32)> {
String::column(statement, start_index).and_then(|(axis_text, next_index)| {
Ok((
match axis_text.as_str() {
"Horizontal" => Axis::Horizontal,
"Vertical" => Axis::Vertical,
_ => anyhow::bail!("Stored serialized item kind is incorrect"),
},
next_index,
))
})
}
}
/// Describes a location in a 2D cartesian coordinate space.
///
/// It holds two public fields, `x` and `y`, which represent the coordinates in the space.
@ -94,6 +142,19 @@ impl<T: Clone + Debug + Default> Point<T> {
y: f(self.y.clone()),
}
}
pub fn apply_along(&self, axis: Axis, f: impl FnOnce(T) -> T) -> Point<T> {
match axis {
Axis::Horizontal => Point {
x: f(self.x.clone()),
y: self.y.clone(),
},
Axis::Vertical => Point {
x: self.x.clone(),
y: f(self.y.clone()),
},
}
}
}
impl Point<Pixels> {
@ -373,6 +434,32 @@ impl Size<Pixels> {
}
}
impl<T> Size<T>
where
T: Clone + Default + Debug,
{
pub fn along(&self, axis: Axis) -> T {
match axis {
Axis::Horizontal => self.width.clone(),
Axis::Vertical => self.height.clone(),
}
}
/// Returns the value of this size along the given axis.
pub fn apply_along(&self, axis: Axis, f: impl FnOnce(T) -> T) -> Self {
match axis {
Axis::Horizontal => Size {
width: f(self.width.clone()),
height: self.height.clone(),
},
Axis::Vertical => Size {
width: self.width.clone(),
height: f(self.height.clone()),
},
}
}
}
impl<T> Size<T>
where
T: PartialOrd + Clone + Default + Debug,

View file

@ -477,3 +477,12 @@ impl From<Pixels> for AvailableSpace {
AvailableSpace::Definite(pixels)
}
}
impl From<Size<Pixels>> for Size<AvailableSpace> {
fn from(size: Size<Pixels>) -> Self {
Size {
width: AvailableSpace::Definite(size.width),
height: AvailableSpace::Definite(size.height),
}
}
}

View file

@ -184,6 +184,11 @@ pub trait TryFutureExt {
fn log_err(self) -> LogErrorFuture<Self>
where
Self: Sized;
fn log_tracked_err(self, location: core::panic::Location<'static>) -> LogErrorFuture<Self>
where
Self: Sized;
fn warn_on_err(self) -> LogErrorFuture<Self>
where
Self: Sized;
@ -197,18 +202,29 @@ where
F: Future<Output = Result<T, E>>,
E: std::fmt::Debug,
{
#[track_caller]
fn log_err(self) -> LogErrorFuture<Self>
where
Self: Sized,
{
LogErrorFuture(self, log::Level::Error)
let location = Location::caller();
LogErrorFuture(self, log::Level::Error, *location)
}
fn log_tracked_err(self, location: core::panic::Location<'static>) -> LogErrorFuture<Self>
where
Self: Sized,
{
LogErrorFuture(self, log::Level::Error, location)
}
#[track_caller]
fn warn_on_err(self) -> LogErrorFuture<Self>
where
Self: Sized,
{
LogErrorFuture(self, log::Level::Warn)
let location = Location::caller();
LogErrorFuture(self, log::Level::Warn, *location)
}
fn unwrap(self) -> UnwrapFuture<Self>
@ -219,7 +235,7 @@ where
}
}
pub struct LogErrorFuture<F>(F, log::Level);
pub struct LogErrorFuture<F>(F, log::Level, core::panic::Location<'static>);
impl<F, T, E> Future for LogErrorFuture<F>
where
@ -230,12 +246,19 @@ where
fn poll(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
let level = self.1;
let location = self.2;
let inner = unsafe { Pin::new_unchecked(&mut self.get_unchecked_mut().0) };
match inner.poll(cx) {
Poll::Ready(output) => Poll::Ready(match output {
Ok(output) => Some(output),
Err(error) => {
log::log!(level, "{:?}", error);
log::log!(
level,
"{}:{}: {:?}",
location.file(),
location.line(),
error
);
None
}
}),

View file

@ -1,6 +1,6 @@
use crate::{status_bar::StatusItemView, Axis, Workspace};
use crate::{status_bar::StatusItemView, Workspace};
use gpui::{
div, px, Action, AnchorCorner, AnyView, AppContext, Div, Entity, EntityId, EventEmitter,
div, px, Action, AnchorCorner, AnyView, AppContext, Axis, Div, Entity, EntityId, EventEmitter,
FocusHandle, FocusableView, IntoElement, ParentElement, Render, SharedString, Styled,
Subscription, View, ViewContext, VisualContext, WeakView, WindowContext,
};

View file

@ -1,13 +1,9 @@
use crate::{AppState, FollowerState, Pane, Workspace};
use anyhow::{anyhow, bail, Result};
use crate::{pane_group::element::pane_axis, AppState, FollowerState, Pane, Workspace};
use anyhow::{anyhow, Result};
use call::{ActiveCall, ParticipantLocation};
use collections::HashMap;
use db::sqlez::{
bindable::{Bind, Column, StaticColumnCount},
statement::Statement,
};
use gpui::{
point, size, AnyWeakView, Bounds, Div, Entity as _, IntoElement, Model, Pixels, Point, View,
point, size, AnyWeakView, Axis, Bounds, Entity as _, IntoElement, Model, Pixels, Point, View,
ViewContext,
};
use parking_lot::Mutex;
@ -20,38 +16,6 @@ const HANDLE_HITBOX_SIZE: f32 = 4.0;
const HORIZONTAL_MIN_SIZE: f32 = 80.;
const VERTICAL_MIN_SIZE: f32 = 100.;
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum Axis {
Vertical,
Horizontal,
}
impl StaticColumnCount for Axis {}
impl Bind for Axis {
fn bind(&self, statement: &Statement, start_index: i32) -> anyhow::Result<i32> {
match self {
Axis::Horizontal => "Horizontal",
Axis::Vertical => "Vertical",
}
.bind(statement, start_index)
}
}
impl Column for Axis {
fn column(statement: &mut Statement, start_index: i32) -> anyhow::Result<(Self, i32)> {
String::column(statement, start_index).and_then(|(axis_text, next_index)| {
Ok((
match axis_text.as_str() {
"Horizontal" => Axis::Horizontal,
"Vertical" => Axis::Vertical,
_ => bail!("Stored serialized item kind is incorrect"),
},
next_index,
))
})
}
}
#[derive(Clone, PartialEq)]
pub struct PaneGroup {
pub(crate) root: Member,
@ -632,16 +596,10 @@ impl PaneAxis {
zoomed: Option<&AnyWeakView>,
app_state: &Arc<AppState>,
cx: &mut ViewContext<Workspace>,
) -> Div {
) -> gpui::AnyElement {
debug_assert!(self.members.len() == self.flexes.lock().len());
div()
.flex()
.flex_auto()
.map(|s| match self.axis {
Axis::Vertical => s.flex_col(),
Axis::Horizontal => s.flex_row(),
})
pane_axis(self.axis, basis, self.flexes.clone())
.children(self.members.iter().enumerate().map(|(ix, member)| {
match member {
Member::Axis(axis) => axis
@ -658,6 +616,7 @@ impl PaneAxis {
Member::Pane(pane) => pane.clone().into_any_element(),
}
}))
.into_any_element()
// let mut pane_axis = PaneAxisElement::new(
// self.axis,
@ -767,403 +726,480 @@ impl SplitDirection {
}
}
// mod element {
// // use std::{cell::RefCell, iter::from_fn, ops::Range, rc::Rc};
mod element {
use std::sync::Arc;
// // use gpui::{
// // geometry::{
// // rect::Bounds<Pixels>,
// // vector::{vec2f, Vector2F},
// // },
// // json::{self, ToJson},
// // platform::{CursorStyle, MouseButton},
// // scene::MouseDrag,
// // AnyElement, Axis, CursorRegion, Element, EventContext, MouseRegion, Bounds<Pixels>Ext,
// // SizeConstraint, Vector2FExt, ViewContext,
// // };
use gpui::{relative, AnyElement, Axis, Element, IntoElement, ParentElement, Style};
use parking_lot::Mutex;
use smallvec::SmallVec;
// use crate::{
// pane_group::{HANDLE_HITBOX_SIZE, HORIZONTAL_MIN_SIZE, VERTICAL_MIN_SIZE},
// Workspace, WorkspaceSettings,
// };
pub fn pane_axis(axis: Axis, basis: usize, flexes: Arc<Mutex<Vec<f32>>>) -> PaneAxisElement {
PaneAxisElement {
axis,
basis,
flexes,
children: SmallVec::new(),
}
}
// pub struct PaneAxisElement {
// axis: Axis,
// basis: usize,
// active_pane_ix: Option<usize>,
// flexes: Rc<RefCell<Vec<f32>>>,
// children: Vec<AnyElement<Workspace>>,
// bounding_boxes: Rc<RefCell<Vec<Option<Bounds<Pixels>>>>>,
// }
pub struct PaneAxisElement {
axis: Axis,
basis: usize,
flexes: Arc<Mutex<Vec<f32>>>,
children: SmallVec<[AnyElement; 2]>,
}
// impl PaneAxisElement {
// pub fn new(
// axis: Axis,
// basis: usize,
// flexes: Rc<RefCell<Vec<f32>>>,
// bounding_boxes: Rc<RefCell<Vec<Option<Bounds<Pixels>>>>>,
// ) -> Self {
// Self {
// axis,
// basis,
// flexes,
// bounding_boxes,
// active_pane_ix: None,
// children: Default::default(),
// }
// }
impl IntoElement for PaneAxisElement {
type Element = Self;
// pub fn set_active_pane(&mut self, active_pane_ix: Option<usize>) {
// self.active_pane_ix = active_pane_ix;
// }
fn element_id(&self) -> Option<ui::prelude::ElementId> {
Some("pane axis".into())
}
// fn layout_children(
// &mut self,
// active_pane_magnification: f32,
// constraint: SizeConstraint,
// remaining_space: &mut f32,
// remaining_flex: &mut f32,
// cross_axis_max: &mut f32,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) {
// let flexes = self.flexes.borrow();
// let cross_axis = self.axis.invert();
// for (ix, child) in self.children.iter_mut().enumerate() {
// let flex = if active_pane_magnification != 1. {
// if let Some(active_pane_ix) = self.active_pane_ix {
// if ix == active_pane_ix {
// active_pane_magnification
// } else {
// 1.
// }
// } else {
// 1.
// }
// } else {
// flexes[ix]
// };
fn into_element(self) -> Self::Element {
self
}
}
// let child_size = if *remaining_flex == 0.0 {
// *remaining_space
// } else {
// let space_per_flex = *remaining_space / *remaining_flex;
// space_per_flex * flex
// };
impl Element for PaneAxisElement {
type State = ();
// let child_constraint = match self.axis {
// Axis::Horizontal => SizeConstraint::new(
// vec2f(child_size, constraint.min.y()),
// vec2f(child_size, constraint.max.y()),
// ),
// Axis::Vertical => SizeConstraint::new(
// vec2f(constraint.min.x(), child_size),
// vec2f(constraint.max.x(), child_size),
// ),
// };
// let child_size = child.layout(child_constraint, view, cx);
// *remaining_space -= child_size.along(self.axis);
// *remaining_flex -= flex;
// *cross_axis_max = cross_axis_max.max(child_size.along(cross_axis));
// }
// }
fn layout(
&mut self,
state: Option<Self::State>,
cx: &mut ui::prelude::WindowContext,
) -> (gpui::LayoutId, Self::State) {
let mut style = Style::default();
style.size.width = relative(1.).into();
style.size.height = relative(1.).into();
let layout_id = cx.request_layout(&style, None);
// fn handle_resize(
// flexes: Rc<RefCell<Vec<f32>>>,
// axis: Axis,
// preceding_ix: usize,
// child_start: Vector2F,
// drag_bounds: Bounds<Pixels>,
// ) -> impl Fn(MouseDrag, &mut Workspace, &mut EventContext<Workspace>) {
// let size = move |ix, flexes: &[f32]| {
// drag_bounds.length_along(axis) * (flexes[ix] / flexes.len() as f32)
// };
(layout_id, ())
}
// move |drag, workspace: &mut Workspace, cx| {
// if drag.end {
// // TODO: Clear cascading resize state
// return;
// }
// let min_size = match axis {
// Axis::Horizontal => HORIZONTAL_MIN_SIZE,
// Axis::Vertical => VERTICAL_MIN_SIZE,
// };
// let mut flexes = flexes.borrow_mut();
fn paint(
self,
bounds: gpui::Bounds<ui::prelude::Pixels>,
state: &mut Self::State,
cx: &mut ui::prelude::WindowContext,
) {
let flexes = self.flexes.lock().clone();
debug_assert!(flexes.len() == self.children.len());
// // Don't allow resizing to less than the minimum size, if elements are already too small
// if min_size - 1. > size(preceding_ix, flexes.as_slice()) {
// return;
// }
let origin = bounds.origin;
let size = bounds.size;
let len = self.children.len();
let child_size = size.apply_along(self.axis, |val| val / len as f32);
for (ix, child) in self.children.into_iter().enumerate() {
let origin =
origin.apply_along(self.axis, |val| val + child_size.along(self.axis) * ix);
child.draw(origin, child_size.into(), cx);
}
}
}
// let mut proposed_current_pixel_change = (drag.position - child_start).along(axis)
// - size(preceding_ix, flexes.as_slice());
impl ParentElement for PaneAxisElement {
fn children_mut(&mut self) -> &mut smallvec::SmallVec<[AnyElement; 2]> {
&mut self.children
}
}
// let flex_changes = |pixel_dx, target_ix, next: isize, flexes: &[f32]| {
// let flex_change = pixel_dx / drag_bounds.length_along(axis);
// let current_target_flex = flexes[target_ix] + flex_change;
// let next_target_flex =
// flexes[(target_ix as isize + next) as usize] - flex_change;
// (current_target_flex, next_target_flex)
// };
// // use std::{cell::RefCell, iter::from_fn, ops::Range, rc::Rc};
// let mut successors = from_fn({
// let forward = proposed_current_pixel_change > 0.;
// let mut ix_offset = 0;
// let len = flexes.len();
// move || {
// let result = if forward {
// (preceding_ix + 1 + ix_offset < len).then(|| preceding_ix + ix_offset)
// } else {
// (preceding_ix as isize - ix_offset as isize >= 0)
// .then(|| preceding_ix - ix_offset)
// };
// // use gpui::{
// // geometry::{
// // rect::Bounds<Pixels>,
// // vector::{vec2f, Vector2F},
// // },
// // json::{self, ToJson},
// // platform::{CursorStyle, MouseButton},
// // scene::MouseDrag,
// // AnyElement, Axis, CursorRegion, Element, EventContext, MouseRegion, Bounds<Pixels>Ext,
// // SizeConstraint, Vector2FExt, ViewContext,
// // };
// ix_offset += 1;
// use crate::{
// pane_group::{HANDLE_HITBOX_SIZE, HORIZONTAL_MIN_SIZE, VERTICAL_MIN_SIZE},
// Workspace, WorkspaceSettings,
// };
// result
// }
// });
// pub struct PaneAxisElement {
// axis: Axis,
// basis: usize,
// active_pane_ix: Option<usize>,
// flexes: Rc<RefCell<Vec<f32>>>,
// children: Vec<AnyElement<Workspace>>,
// bounding_boxes: Rc<RefCell<Vec<Option<Bounds<Pixels>>>>>,
// }
// while proposed_current_pixel_change.abs() > 0. {
// let Some(current_ix) = successors.next() else {
// break;
// };
// impl PaneAxisElement {
// pub fn new(
// axis: Axis,
// basis: usize,
// flexes: Rc<RefCell<Vec<f32>>>,
// bounding_boxes: Rc<RefCell<Vec<Option<Bounds<Pixels>>>>>,
// ) -> Self {
// Self {
// axis,
// basis,
// flexes,
// bounding_boxes,
// active_pane_ix: None,
// children: Default::default(),
// }
// }
// let next_target_size = f32::max(
// size(current_ix + 1, flexes.as_slice()) - proposed_current_pixel_change,
// min_size,
// );
// pub fn set_active_pane(&mut self, active_pane_ix: Option<usize>) {
// self.active_pane_ix = active_pane_ix;
// }
// let current_target_size = f32::max(
// size(current_ix, flexes.as_slice())
// + size(current_ix + 1, flexes.as_slice())
// - next_target_size,
// min_size,
// );
// fn layout_children(
// &mut self,
// active_pane_magnification: f32,
// constraint: SizeConstraint,
// remaining_space: &mut f32,
// remaining_flex: &mut f32,
// cross_axis_max: &mut f32,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) {
// let flexes = self.flexes.borrow();
// let cross_axis = self.axis.invert();
// for (ix, child) in self.children.iter_mut().enumerate() {
// let flex = if active_pane_magnification != 1. {
// if let Some(active_pane_ix) = self.active_pane_ix {
// if ix == active_pane_ix {
// active_pane_magnification
// } else {
// 1.
// }
// } else {
// 1.
// }
// } else {
// flexes[ix]
// };
// let current_pixel_change =
// current_target_size - size(current_ix, flexes.as_slice());
// let child_size = if *remaining_flex == 0.0 {
// *remaining_space
// } else {
// let space_per_flex = *remaining_space / *remaining_flex;
// space_per_flex * flex
// };
// let (current_target_flex, next_target_flex) =
// flex_changes(current_pixel_change, current_ix, 1, flexes.as_slice());
// let child_constraint = match self.axis {
// Axis::Horizontal => SizeConstraint::new(
// vec2f(child_size, constraint.min.y()),
// vec2f(child_size, constraint.max.y()),
// ),
// Axis::Vertical => SizeConstraint::new(
// vec2f(constraint.min.x(), child_size),
// vec2f(constraint.max.x(), child_size),
// ),
// };
// let child_size = child.layout(child_constraint, view, cx);
// *remaining_space -= child_size.along(self.axis);
// *remaining_flex -= flex;
// *cross_axis_max = cross_axis_max.max(child_size.along(cross_axis));
// }
// }
// flexes[current_ix] = current_target_flex;
// flexes[current_ix + 1] = next_target_flex;
// fn handle_resize(
// flexes: Rc<RefCell<Vec<f32>>>,
// axis: Axis,
// preceding_ix: usize,
// child_start: Vector2F,
// drag_bounds: Bounds<Pixels>,
// ) -> impl Fn(MouseDrag, &mut Workspace, &mut EventContext<Workspace>) {
// let size = move |ix, flexes: &[f32]| {
// drag_bounds.length_along(axis) * (flexes[ix] / flexes.len() as f32)
// };
// proposed_current_pixel_change -= current_pixel_change;
// }
// move |drag, workspace: &mut Workspace, cx| {
// if drag.end {
// // TODO: Clear cascading resize state
// return;
// }
// let min_size = match axis {
// Axis::Horizontal => HORIZONTAL_MIN_SIZE,
// Axis::Vertical => VERTICAL_MIN_SIZE,
// };
// let mut flexes = flexes.borrow_mut();
// workspace.schedule_serialize(cx);
// cx.notify();
// }
// }
// }
// // Don't allow resizing to less than the minimum size, if elements are already too small
// if min_size - 1. > size(preceding_ix, flexes.as_slice()) {
// return;
// }
// impl Extend<AnyElement<Workspace>> for PaneAxisElement {
// fn extend<T: IntoIterator<Item = AnyElement<Workspace>>>(&mut self, children: T) {
// self.children.extend(children);
// }
// }
// let mut proposed_current_pixel_change = (drag.position - child_start).along(axis)
// - size(preceding_ix, flexes.as_slice());
// impl Element<Workspace> for PaneAxisElement {
// type LayoutState = f32;
// type PaintState = ();
// let flex_changes = |pixel_dx, target_ix, next: isize, flexes: &[f32]| {
// let flex_change = pixel_dx / drag_bounds.length_along(axis);
// let current_target_flex = flexes[target_ix] + flex_change;
// let next_target_flex =
// flexes[(target_ix as isize + next) as usize] - flex_change;
// (current_target_flex, next_target_flex)
// };
// fn layout(
// &mut self,
// constraint: SizeConstraint,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) -> (Vector2F, Self::LayoutState) {
// debug_assert!(self.children.len() == self.flexes.borrow().len());
// let mut successors = from_fn({
// let forward = proposed_current_pixel_change > 0.;
// let mut ix_offset = 0;
// let len = flexes.len();
// move || {
// let result = if forward {
// (preceding_ix + 1 + ix_offset < len).then(|| preceding_ix + ix_offset)
// } else {
// (preceding_ix as isize - ix_offset as isize >= 0)
// .then(|| preceding_ix - ix_offset)
// };
// let active_pane_magnification =
// settings::get::<WorkspaceSettings>(cx).active_pane_magnification;
// ix_offset += 1;
// let mut remaining_flex = 0.;
// result
// }
// });
// if active_pane_magnification != 1. {
// let active_pane_flex = self
// .active_pane_ix
// .map(|_| active_pane_magnification)
// .unwrap_or(1.);
// remaining_flex += self.children.len() as f32 - 1. + active_pane_flex;
// } else {
// for flex in self.flexes.borrow().iter() {
// remaining_flex += flex;
// }
// }
// while proposed_current_pixel_change.abs() > 0. {
// let Some(current_ix) = successors.next() else {
// break;
// };
// let mut cross_axis_max: f32 = 0.0;
// let mut remaining_space = constraint.max_along(self.axis);
// let next_target_size = f32::max(
// size(current_ix + 1, flexes.as_slice()) - proposed_current_pixel_change,
// min_size,
// );
// if remaining_space.is_infinite() {
// panic!("flex contains flexible children but has an infinite constraint along the flex axis");
// }
// let current_target_size = f32::max(
// size(current_ix, flexes.as_slice())
// + size(current_ix + 1, flexes.as_slice())
// - next_target_size,
// min_size,
// );
// self.layout_children(
// active_pane_magnification,
// constraint,
// &mut remaining_space,
// &mut remaining_flex,
// &mut cross_axis_max,
// view,
// cx,
// );
// let current_pixel_change =
// current_target_size - size(current_ix, flexes.as_slice());
// let mut size = match self.axis {
// Axis::Horizontal => vec2f(constraint.max.x() - remaining_space, cross_axis_max),
// Axis::Vertical => vec2f(cross_axis_max, constraint.max.y() - remaining_space),
// };
// let (current_target_flex, next_target_flex) =
// flex_changes(current_pixel_change, current_ix, 1, flexes.as_slice());
// if constraint.min.x().is_finite() {
// size.set_x(size.x().max(constraint.min.x()));
// }
// if constraint.min.y().is_finite() {
// size.set_y(size.y().max(constraint.min.y()));
// }
// flexes[current_ix] = current_target_flex;
// flexes[current_ix + 1] = next_target_flex;
// if size.x() > constraint.max.x() {
// size.set_x(constraint.max.x());
// }
// if size.y() > constraint.max.y() {
// size.set_y(constraint.max.y());
// }
// proposed_current_pixel_change -= current_pixel_change;
// }
// (size, remaining_space)
// }
// workspace.schedule_serialize(cx);
// cx.notify();
// }
// }
// }
// fn paint(
// &mut self,
// bounds: Bounds<Pixels>,
// visible_bounds: Bounds<Pixels>,
// remaining_space: &mut Self::LayoutState,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) -> Self::PaintState {
// let can_resize = settings::get::<WorkspaceSettings>(cx).active_pane_magnification == 1.;
// let visible_bounds = bounds.intersection(visible_bounds).unwrap_or_default();
// impl Extend<AnyElement<Workspace>> for PaneAxisElement {
// fn extend<T: IntoIterator<Item = AnyElement<Workspace>>>(&mut self, children: T) {
// self.children.extend(children);
// }
// }
// let overflowing = *remaining_space < 0.;
// if overflowing {
// cx.scene().push_layer(Some(visible_bounds));
// }
// impl Element<Workspace> for PaneAxisElement {
// type LayoutState = f32;
// type PaintState = ();
// let mut child_origin = bounds.origin();
// fn layout(
// &mut self,
// constraint: SizeConstraint,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) -> (Vector2F, Self::LayoutState) {
// debug_assert!(self.children.len() == self.flexes.borrow().len());
// let mut bounding_boxes = self.bounding_boxes.borrow_mut();
// bounding_boxes.clear();
// let active_pane_magnification =
// settings::get::<WorkspaceSettings>(cx).active_pane_magnification;
// let mut children_iter = self.children.iter_mut().enumerate().peekable();
// while let Some((ix, child)) = children_iter.next() {
// let child_start = child_origin.clone();
// child.paint(child_origin, visible_bounds, view, cx);
// let mut remaining_flex = 0.;
// bounding_boxes.push(Some(Bounds<Pixels>::new(child_origin, child.size())));
// if active_pane_magnification != 1. {
// let active_pane_flex = self
// .active_pane_ix
// .map(|_| active_pane_magnification)
// .unwrap_or(1.);
// remaining_flex += self.children.len() as f32 - 1. + active_pane_flex;
// } else {
// for flex in self.flexes.borrow().iter() {
// remaining_flex += flex;
// }
// }
// match self.axis {
// Axis::Horizontal => child_origin += vec2f(child.size().x(), 0.0),
// Axis::Vertical => child_origin += vec2f(0.0, child.size().y()),
// }
// let mut cross_axis_max: f32 = 0.0;
// let mut remaining_space = constraint.max_along(self.axis);
// if can_resize && children_iter.peek().is_some() {
// cx.scene().push_stacking_context(None, None);
// if remaining_space.is_infinite() {
// panic!("flex contains flexible children but has an infinite constraint along the flex axis");
// }
// let handle_origin = match self.axis {
// Axis::Horizontal => child_origin - vec2f(HANDLE_HITBOX_SIZE / 2., 0.0),
// Axis::Vertical => child_origin - vec2f(0.0, HANDLE_HITBOX_SIZE / 2.),
// };
// self.layout_children(
// active_pane_magnification,
// constraint,
// &mut remaining_space,
// &mut remaining_flex,
// &mut cross_axis_max,
// view,
// cx,
// );
// let handle_bounds = match self.axis {
// Axis::Horizontal => Bounds<Pixels>::new(
// handle_origin,
// vec2f(HANDLE_HITBOX_SIZE, visible_bounds.height()),
// ),
// Axis::Vertical => Bounds<Pixels>::new(
// handle_origin,
// vec2f(visible_bounds.width(), HANDLE_HITBOX_SIZE),
// ),
// };
// let mut size = match self.axis {
// Axis::Horizontal => vec2f(constraint.max.x() - remaining_space, cross_axis_max),
// Axis::Vertical => vec2f(cross_axis_max, constraint.max.y() - remaining_space),
// };
// let style = match self.axis {
// Axis::Horizontal => CursorStyle::ResizeLeftRight,
// Axis::Vertical => CursorStyle::ResizeUpDown,
// };
// if constraint.min.x().is_finite() {
// size.set_x(size.x().max(constraint.min.x()));
// }
// if constraint.min.y().is_finite() {
// size.set_y(size.y().max(constraint.min.y()));
// }
// cx.scene().push_cursor_region(CursorRegion {
// bounds: handle_bounds,
// style,
// });
// if size.x() > constraint.max.x() {
// size.set_x(constraint.max.x());
// }
// if size.y() > constraint.max.y() {
// size.set_y(constraint.max.y());
// }
// enum ResizeHandle {}
// let mut mouse_region = MouseRegion::new::<ResizeHandle>(
// cx.view_id(),
// self.basis + ix,
// handle_bounds,
// );
// mouse_region = mouse_region
// .on_drag(
// MouseButton::Left,
// Self::handle_resize(
// self.flexes.clone(),
// self.axis,
// ix,
// child_start,
// visible_bounds.clone(),
// ),
// )
// .on_click(MouseButton::Left, {
// let flexes = self.flexes.clone();
// move |e, v: &mut Workspace, cx| {
// if e.click_count >= 2 {
// let mut borrow = flexes.borrow_mut();
// *borrow = vec![1.; borrow.len()];
// v.schedule_serialize(cx);
// cx.notify();
// }
// }
// });
// cx.scene().push_mouse_region(mouse_region);
// (size, remaining_space)
// }
// cx.scene().pop_stacking_context();
// }
// }
// fn paint(
// &mut self,
// bounds: Bounds<Pixels>,
// visible_bounds: Bounds<Pixels>,
// remaining_space: &mut Self::LayoutState,
// view: &mut Workspace,
// cx: &mut ViewContext<Workspace>,
// ) -> Self::PaintState {
// let can_resize = settings::get::<WorkspaceSettings>(cx).active_pane_magnification == 1.;
// let visible_bounds = bounds.intersection(visible_bounds).unwrap_or_default();
// if overflowing {
// cx.scene().pop_layer();
// }
// }
// let overflowing = *remaining_space < 0.;
// if overflowing {
// cx.scene().push_layer(Some(visible_bounds));
// }
// fn rect_for_text_range(
// &self,
// range_utf16: Range<usize>,
// _: Bounds<Pixels>,
// _: Bounds<Pixels>,
// _: &Self::LayoutState,
// _: &Self::PaintState,
// view: &Workspace,
// cx: &ViewContext<Workspace>,
// ) -> Option<Bounds<Pixels>> {
// self.children
// .iter()
// .find_map(|child| child.rect_for_text_range(range_utf16.clone(), view, cx))
// }
// let mut child_origin = bounds.origin();
// fn debug(
// &self,
// bounds: Bounds<Pixels>,
// _: &Self::LayoutState,
// _: &Self::PaintState,
// view: &Workspace,
// cx: &ViewContext<Workspace>,
// ) -> json::Value {
// serde_json::json!({
// "type": "PaneAxis",
// "bounds": bounds.to_json(),
// "axis": self.axis.to_json(),
// "flexes": *self.flexes.borrow(),
// "children": self.children.iter().map(|child| child.debug(view, cx)).collect::<Vec<json::Value>>()
// })
// }
// }
// }
// let mut bounding_boxes = self.bounding_boxes.borrow_mut();
// bounding_boxes.clear();
// let mut children_iter = self.children.iter_mut().enumerate().peekable();
// while let Some((ix, child)) = children_iter.next() {
// let child_start = child_origin.clone();
// child.paint(child_origin, visible_bounds, view, cx);
// bounding_boxes.push(Some(Bounds<Pixels>::new(child_origin, child.size())));
// match self.axis {
// Axis::Horizontal => child_origin += vec2f(child.size().x(), 0.0),
// Axis::Vertical => child_origin += vec2f(0.0, child.size().y()),
// }
// if can_resize && children_iter.peek().is_some() {
// cx.scene().push_stacking_context(None, None);
// let handle_origin = match self.axis {
// Axis::Horizontal => child_origin - vec2f(HANDLE_HITBOX_SIZE / 2., 0.0),
// Axis::Vertical => child_origin - vec2f(0.0, HANDLE_HITBOX_SIZE / 2.),
// };
// let handle_bounds = match self.axis {
// Axis::Horizontal => Bounds<Pixels>::new(
// handle_origin,
// vec2f(HANDLE_HITBOX_SIZE, visible_bounds.height()),
// ),
// Axis::Vertical => Bounds<Pixels>::new(
// handle_origin,
// vec2f(visible_bounds.width(), HANDLE_HITBOX_SIZE),
// ),
// };
// let style = match self.axis {
// Axis::Horizontal => CursorStyle::ResizeLeftRight,
// Axis::Vertical => CursorStyle::ResizeUpDown,
// };
// cx.scene().push_cursor_region(CursorRegion {
// bounds: handle_bounds,
// style,
// });
// enum ResizeHandle {}
// let mut mouse_region = MouseRegion::new::<ResizeHandle>(
// cx.view_id(),
// self.basis + ix,
// handle_bounds,
// );
// mouse_region = mouse_region
// .on_drag(
// MouseButton::Left,
// Self::handle_resize(
// self.flexes.clone(),
// self.axis,
// ix,
// child_start,
// visible_bounds.clone(),
// ),
// )
// .on_click(MouseButton::Left, {
// let flexes = self.flexes.clone();
// move |e, v: &mut Workspace, cx| {
// if e.click_count >= 2 {
// let mut borrow = flexes.borrow_mut();
// *borrow = vec![1.; borrow.len()];
// v.schedule_serialize(cx);
// cx.notify();
// }
// }
// });
// cx.scene().push_mouse_region(mouse_region);
// cx.scene().pop_stacking_context();
// }
// }
// if overflowing {
// cx.scene().pop_layer();
// }
// }
// fn rect_for_text_range(
// &self,
// range_utf16: Range<usize>,
// _: Bounds<Pixels>,
// _: Bounds<Pixels>,
// _: &Self::LayoutState,
// _: &Self::PaintState,
// view: &Workspace,
// cx: &ViewContext<Workspace>,
// ) -> Option<Bounds<Pixels>> {
// self.children
// .iter()
// .find_map(|child| child.rect_for_text_range(range_utf16.clone(), view, cx))
// }
// fn debug(
// &self,
// bounds: Bounds<Pixels>,
// _: &Self::LayoutState,
// _: &Self::PaintState,
// view: &Workspace,
// cx: &ViewContext<Workspace>,
// ) -> json::Value {
// serde_json::json!({
// "type": "PaneAxis",
// "bounds": bounds.to_json(),
// "axis": self.axis.to_json(),
// "flexes": *self.flexes.borrow(),
// "children": self.children.iter().map(|child| child.debug(view, cx)).collect::<Vec<json::Value>>()
// })
// }
// }
}

View file

@ -6,12 +6,12 @@ use std::path::Path;
use anyhow::{anyhow, bail, Context, Result};
use db::{define_connection, query, sqlez::connection::Connection, sqlez_macros::sql};
use gpui::WindowBounds;
use gpui::{Axis, WindowBounds};
use util::{unzip_option, ResultExt};
use uuid::Uuid;
use crate::{Axis, WorkspaceId};
use crate::WorkspaceId;
use model::{
GroupId, PaneId, SerializedItem, SerializedPane, SerializedPaneGroup, SerializedWorkspace,
@ -403,7 +403,7 @@ impl WorkspaceDb {
.map(|(group_id, axis, pane_id, active, flexes)| {
if let Some((group_id, axis)) = group_id.zip(axis) {
let flexes = flexes
.map(|flexes| serde_json::from_str::<Vec<f32>>(&flexes))
.map(|flexes: String| serde_json::from_str::<Vec<f32>>(&flexes))
.transpose()?;
Ok(SerializedPaneGroup::Group {

View file

@ -1,13 +1,11 @@
use crate::{
item::ItemHandle, Axis, ItemDeserializers, Member, Pane, PaneAxis, Workspace, WorkspaceId,
};
use crate::{item::ItemHandle, ItemDeserializers, Member, Pane, PaneAxis, Workspace, WorkspaceId};
use anyhow::{Context, Result};
use async_recursion::async_recursion;
use db::sqlez::{
bindable::{Bind, Column, StaticColumnCount},
statement::Statement,
};
use gpui::{AsyncWindowContext, Model, Task, View, WeakView, WindowBounds};
use gpui::{AsyncWindowContext, Axis, Model, Task, View, WeakView, WindowBounds};
use project::Project;
use std::{
path::{Path, PathBuf},