cosmic-comp/src/shell/layout/floating/mod.rs

// SPDX-License-Identifier: GPL-3.0-only

use smithay::{
    backend::renderer::{element::RenderElement, ImportAll, ImportMem, Renderer},
    desktop::{layer_map_for_output, space::SpaceElement, Space},
    input::{pointer::GrabStartData as PointerGrabStartData, Seat},
    output::Output,
    utils::{Logical, Point, Rectangle, Size},
};
use std::collections::HashMap;

use crate::{
    backend::render::element::AsGlowRenderer,
    shell::{
        element::{CosmicMapped, CosmicMappedRenderElement},
        grabs::ResizeEdge,
        CosmicSurface, OutputNotMapped,
    },
    state::State,
    utils::prelude::*,
    wayland::protocols::toplevel_info::ToplevelInfoState,
};

mod grabs;
pub use self::grabs::*;

#[derive(Debug, Default)]
pub struct FloatingLayout {
    pub(in crate::shell) space: Space<CosmicMapped>,
}

impl FloatingLayout {
    pub fn new() -> FloatingLayout {
        Default::default()
    }

    pub fn map_output(&mut self, output: &Output, location: Point<i32, Logical>) {
        self.space.map_output(output, location)
    }

    pub fn unmap_output(
        &mut self,
        output: &Output,
        toplevel_info: &mut ToplevelInfoState<State, CosmicSurface>,
    ) {
        let windows = self
            .space
            .elements_for_output(output)
            .cloned()
            .collect::<Vec<_>>();
        for window in &windows {
            for (toplevel, _) in window.windows() {
                toplevel_info.toplevel_leave_output(&toplevel, output);
            }
        }
        self.space.unmap_output(output);
        self.refresh();
        for window in &windows {
            for output in self.space.outputs_for_element(&window) {
                for (toplevel, _) in window.windows() {
                    toplevel_info.toplevel_enter_output(&toplevel, &output);
                }
            }
        }
    }

    pub fn map(
        &mut self,
        mapped: impl Into<CosmicMapped>,
        seat: &Seat<State>,
        position: impl Into<Option<Point<i32, Logical>>>,
    ) {
        let mapped = mapped.into();
        let output = seat.active_output();
        let position = position.into();

        self.map_internal(mapped, &output, position)
    }

    pub(in crate::shell) fn map_internal(
        &mut self,
        mapped: CosmicMapped,
        output: &Output,
        position: Option<Point<i32, Logical>>,
    ) {
        let mut win_geo = mapped.geometry();

        let layers = layer_map_for_output(&output);
        let geometry = layers.non_exclusive_zone();
        let last_geometry = mapped.last_geometry.lock().unwrap().clone();

        if let Some(size) = last_geometry.map(|g| g.size) {
            win_geo.size = size;
        }
        {
            let (min_size, max_size) = (
                mapped.min_size().unwrap_or((0, 0).into()),
                mapped.max_size().unwrap_or((0, 0).into()),
            );
            if win_geo.size.w > geometry.size.w / 3 * 2 {
                // try a more reasonable size
                let mut width = geometry.size.w / 3 * 2;
                if max_size.w != 0 {
                    // don't go larger then the max_size ...
                    width = std::cmp::min(max_size.w, width);
                }
                if min_size.w != 0 {
                    // ... but also don't go smaller than the min_size
                    width = std::cmp::max(min_size.w, width);
                }
                // but no matter the supported sizes, don't be larger than our non-exclusive-zone
                win_geo.size.w = std::cmp::min(width, geometry.size.w);
            }
            if win_geo.size.h > geometry.size.h / 3 * 2 {
                // try a more reasonable size
                let mut height = geometry.size.h / 3 * 2;
                if max_size.h != 0 {
                    // don't go larger then the max_size ...
                    height = std::cmp::min(max_size.h, height);
                }
                if min_size.h != 0 {
                    // ... but also don't go smaller than the min_size
                    height = std::cmp::max(min_size.h, height);
                }
                // but no matter the supported sizes, don't be larger than our non-exclusive-zone
                win_geo.size.h = std::cmp::min(height, geometry.size.h);
            }
        }

        let position = position
            .or_else(|| last_geometry.map(|g| g.loc))
            .unwrap_or_else(|| {
                (
                    geometry.loc.x + (geometry.size.w / 2) - (win_geo.size.w / 2) + win_geo.loc.x,
                    geometry.loc.y + (geometry.size.h / 2) - (win_geo.size.h / 2) + win_geo.loc.y,
                )
                    .into()
            });

        mapped.set_tiled(false);
        let offset = output.geometry().loc
            - self
                .space
                .output_geometry(output)
                .map(|g| g.loc)
                .unwrap_or_default();
        mapped.set_geometry(Rectangle::from_loc_and_size(
            position + offset,
            win_geo.size,
        ));
        mapped.configure();
        self.space.map_element(mapped, position, false);
    }

    pub fn unmap(&mut self, window: &CosmicMapped) -> bool {
        #[allow(irrefutable_let_patterns)]
        let is_maximized = window.is_maximized();

        if !is_maximized {
            if let Some(location) = self.space.element_location(window) {
                *window.last_geometry.lock().unwrap() = Some(Rectangle::from_loc_and_size(
                    location,
                    window.geometry().size,
                ));
            }
        }

        let was_unmaped = self.space.elements().any(|e| e == window);
        self.space.unmap_elem(&window);
        was_unmaped
    }

    pub fn element_geometry(&self, elem: &CosmicMapped) -> Option<Rectangle<i32, Logical>> {
        self.space.element_geometry(elem)
    }

    pub fn maximize_request(&mut self, window: &CosmicSurface) {
        if let Some(mapped) = self
            .space
            .elements()
            .find(|m| m.windows().any(|(w, _)| &w == window))
        {
            if let Some(location) = self.space.element_location(mapped) {
                *mapped.last_geometry.lock().unwrap() = Some(Rectangle::from_loc_and_size(
                    location,
                    mapped.geometry().size,
                ));
            }
        }
    }

    pub fn unmaximize_request(&mut self, window: &CosmicSurface) -> Option<Size<i32, Logical>> {
        let maybe_mapped = self
            .space
            .elements()
            .find(|m| m.windows().any(|(w, _)| &w == window))
            .cloned();

        if let Some(mapped) = maybe_mapped {
            let last_geometry = mapped.last_geometry.lock().unwrap().clone();
            let last_size = last_geometry.map(|g| g.size).expect("No previous size?");
            let last_location = last_geometry.map(|g| g.loc).expect("No previous location?");
            let output = self
                .space
                .output_under(last_location.to_f64())
                .next()
                .unwrap_or(self.space.outputs().next().unwrap());
            let offset = output.geometry().loc
                - self
                    .space
                    .output_geometry(output)
                    .map(|g| g.loc)
                    .unwrap_or_default();
            mapped.set_geometry(Rectangle::from_loc_and_size(
                last_location + offset,
                last_size,
            ));
            self.space.map_element(mapped, last_location, true);
            Some(last_size)
        } else {
            None
        }
    }

    pub fn resize_request(
        &mut self,
        mapped: &CosmicMapped,
        seat: &Seat<State>,
        start_data: PointerGrabStartData<State>,
        edges: ResizeEdge,
    ) -> Option<ResizeSurfaceGrab> {
        if seat.get_pointer().is_some() {
            let location = self.space.element_location(&mapped).unwrap();
            let size = mapped.geometry().size;

            Some(grabs::ResizeSurfaceGrab::new(
                start_data,
                mapped.clone(),
                edges,
                location,
                size,
            ))
        } else {
            None
        }
    }

    pub fn mapped(&self) -> impl Iterator<Item = &CosmicMapped> {
        self.space.elements().rev()
    }

    pub fn windows(&self) -> impl Iterator<Item = CosmicSurface> + '_ {
        self.mapped().flat_map(|e| e.windows().map(|(w, _)| w))
    }

    pub fn refresh(&mut self) {
        self.space.refresh();
        for element in self
            .space
            .elements()
            .filter(|e| self.space.outputs_for_element(e).is_empty())
            .cloned()
            .collect::<Vec<_>>()
            .into_iter()
        {
            // TODO what about windows leaving to the top with no headerbar to drag? can that happen? (Probably if the user is moving outputs down)
            *element.last_geometry.lock().unwrap() = None;
            let output = self.space.outputs().next().unwrap().clone();
            self.map_internal(element, &output, None);
        }
    }

    pub fn most_overlapped_output_for_element(&self, elem: &CosmicMapped) -> Option<Output> {
        let elem_geo = self.space.element_geometry(elem)?;

        if self.space.outputs().nth(1).is_none() {
            return self.space.outputs().next().cloned();
        }

        Some(
            self.space
                .outputs_for_element(elem)
                .into_iter()
                .max_by_key(|o| {
                    let output_geo = self.space.output_geometry(o).unwrap();
                    if let Some(intersection) = output_geo.intersection(elem_geo) {
                        intersection.size.w * intersection.size.h
                    } else {
                        0
                    }
                })
                .unwrap_or(self.space.outputs().next().unwrap().clone()),
        )
    }

    pub fn merge(&mut self, other: FloatingLayout) {
        let mut output_pos_map = HashMap::new();
        for output in self.space.outputs() {
            output_pos_map.insert(
                output.clone(),
                self.space.output_geometry(output).unwrap().loc
                    - other
                        .space
                        .output_geometry(output)
                        .map(|geo| geo.loc)
                        .unwrap_or_else(|| (0, 0).into()),
            );
        }
        for element in other.space.elements() {
            let mut elem_geo = other.space.element_geometry(element).unwrap();
            let output = other
                .space
                .outputs_for_element(element)
                .into_iter()
                .filter(|o| self.space.outputs().any(|o2| o == o2))
                .max_by_key(|o| {
                    let output_geo = other.space.output_geometry(o).unwrap();
                    let intersection = output_geo.intersection(elem_geo).unwrap();
                    intersection.size.w * intersection.size.h
                })
                .unwrap_or(self.space.outputs().next().unwrap().clone());
            elem_geo.loc += output_pos_map
                .get(&output)
                .copied()
                .unwrap_or_else(|| (0, 0).into());
            let offset = output.geometry().loc
                - self
                    .space
                    .output_geometry(&output)
                    .map(|g| g.loc)
                    .unwrap_or_default();
            element.set_geometry(Rectangle::from_loc_and_size(
                elem_geo.loc + offset,
                elem_geo.size,
            ));
            self.space.map_element(element.clone(), elem_geo.loc, false);
        }
        self.refresh(); //fixup any out of bounds elements
    }

    pub fn render_output<R>(
        &self,
        renderer: &mut R,
        output: &Output,
    ) -> Result<Vec<CosmicMappedRenderElement<R>>, OutputNotMapped>
    where
        R: Renderer + ImportAll + ImportMem + AsGlowRenderer,
        <R as Renderer>::TextureId: 'static,
        CosmicMappedRenderElement<R>: RenderElement<R>,
    {
        let output_scale = output.current_scale().fractional_scale();
        let output_geo = self.space.output_geometry(output).ok_or(OutputNotMapped)?;
        Ok(self
            .space
            .render_elements_for_region(renderer, &output_geo, output_scale))
    }
}
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`// SPDX-License-Identifier: GPL-3.0-only`

			`use smithay::{`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`backend::renderer::{element::RenderElement, ImportAll, ImportMem, Renderer},`
			`desktop::{layer_map_for_output, space::SpaceElement, Space},`
shell/floating: Reintroduce resizing 2022-10-25 14:43:50 +02:00			`input::{pointer::GrabStartData as PointerGrabStartData, Seat},`
Update smithay and wayland-rs Includes updates for split between `smithay::wayland::output` and `smithay::output`. 2022-09-09 20:00:00 -07:00			`output::Output,`
xwayland: Add initial support 2023-01-18 20:23:41 +01:00			`utils::{Logical, Point, Rectangle, Size},`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`};`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`use std::collections::HashMap;`
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00
wip: New shell logic 2022-09-28 12:01:29 +02:00			`use crate::{`
deps: Update smithay - Use new GAT frame - Bugfixes - Finish window debug overlay 2022-11-28 17:48:50 +01:00			`backend::render::element::AsGlowRenderer,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`shell::{`
			`element::{CosmicMapped, CosmicMappedRenderElement},`
shell/tiling: Allow tiled windows to be resized 2022-10-27 20:40:55 +02:00			`grabs::ResizeEdge,`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`CosmicSurface, OutputNotMapped,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`},`
			`state::State,`
			`utils::prelude::*,`
shell: Handle removed output state better 2023-01-24 21:01:11 +01:00			`wayland::protocols::toplevel_info::ToplevelInfoState,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`};`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00
			`mod grabs;`
			`pub use self::grabs::*;`

chore: update smithay + switch to tracing 2023-02-24 17:41:52 +01:00			`#[derive(Debug, Default)]`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`pub struct FloatingLayout {`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`pub(in crate::shell) space: Space<CosmicMapped>,`
shell: load/update output configuration 2022-04-05 16:35:58 +02:00			`}`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00			`impl FloatingLayout {`
			`pub fn new() -> FloatingLayout {`
			`Default::default()`
			`}`

wip: New shell logic 2022-09-28 12:01:29 +02:00			`pub fn map_output(&mut self, output: &Output, location: Point<i32, Logical>) {`
			`self.space.map_output(output, location)`
			`}`

shell: Handle removed output state better 2023-01-24 21:01:11 +01:00			`pub fn unmap_output(`
			`&mut self,`
			`output: &Output,`
			`toplevel_info: &mut ToplevelInfoState<State, CosmicSurface>,`
			`) {`
			`let windows = self`
			`.space`
			`.elements_for_output(output)`
			`.cloned()`
			`.collect::<Vec<_>>();`
			`for window in &windows {`
			`for (toplevel, _) in window.windows() {`
			`toplevel_info.toplevel_leave_output(&toplevel, output);`
			`}`
			`}`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`self.space.unmap_output(output);`
			`self.refresh();`
shell: Handle removed output state better 2023-01-24 21:01:11 +01:00			`for window in &windows {`
			`for output in self.space.outputs_for_element(&window) {`
			`for (toplevel, _) in window.windows() {`
			`toplevel_info.toplevel_enter_output(&toplevel, &output);`
			`}`
			`}`
			`}`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`}`

			`pub fn map(`
fmt commit 2022-08-30 13:28:36 +02:00			`&mut self,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`mapped: impl Into<CosmicMapped>,`
fmt commit 2022-08-30 13:28:36 +02:00			`seat: &Seat<State>,`
			`position: impl Into<Option<Point<i32, Logical>>>,`
			`) {`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`let mapped = mapped.into();`
			`let output = seat.active_output();`
			`let position = position.into();`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00
wip: New shell logic 2022-09-28 12:01:29 +02:00			`self.map_internal(mapped, &output, position)`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`}`

wip: New shell logic 2022-09-28 12:01:29 +02:00			`pub(in crate::shell) fn map_internal(`
fmt commit 2022-08-30 13:28:36 +02:00			`&mut self,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`mapped: CosmicMapped,`
fmt commit 2022-08-30 13:28:36 +02:00			`output: &Output,`
			`position: Option<Point<i32, Logical>>,`
			`) {`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`let mut win_geo = mapped.geometry();`
floating: Remember window sizes and locations 2022-07-07 22:41:02 +02:00
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00			`let layers = layer_map_for_output(&output);`
			`let geometry = layers.non_exclusive_zone();`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`let last_geometry = mapped.last_geometry.lock().unwrap().clone();`
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00
wip: New shell logic 2022-09-28 12:01:29 +02:00			`if let Some(size) = last_geometry.map(\|g\| g.size) {`
floating: Remember window sizes and locations 2022-07-07 22:41:02 +02:00			`win_geo.size = size;`
			`}`
shell: Properly center and resize new floating windows 2022-07-06 23:41:11 +02:00			`{`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`let (min_size, max_size) = (`
			`mapped.min_size().unwrap_or((0, 0).into()),`
			`mapped.max_size().unwrap_or((0, 0).into()),`
			`);`
shell: Properly center and resize new floating windows 2022-07-06 23:41:11 +02:00			`if win_geo.size.w > geometry.size.w / 3 * 2 {`
			`// try a more reasonable size`
			`let mut width = geometry.size.w / 3 * 2;`
			`if max_size.w != 0 {`
			`// don't go larger then the max_size ...`
			`width = std::cmp::min(max_size.w, width);`
			`}`
			`if min_size.w != 0 {`
			`// ... but also don't go smaller than the min_size`
			`width = std::cmp::max(min_size.w, width);`
			`}`
			`// but no matter the supported sizes, don't be larger than our non-exclusive-zone`
			`win_geo.size.w = std::cmp::min(width, geometry.size.w);`
			`}`
			`if win_geo.size.h > geometry.size.h / 3 * 2 {`
			`// try a more reasonable size`
			`let mut height = geometry.size.h / 3 * 2;`
			`if max_size.h != 0 {`
			`// don't go larger then the max_size ...`
			`height = std::cmp::min(max_size.h, height);`
			`}`
			`if min_size.h != 0 {`
			`// ... but also don't go smaller than the min_size`
			`height = std::cmp::max(min_size.h, height);`
			`}`
			`// but no matter the supported sizes, don't be larger than our non-exclusive-zone`
			`win_geo.size.h = std::cmp::min(height, geometry.size.h);`
			`}`
			`}`

fmt commit 2022-08-30 13:28:36 +02:00			`let position = position`
			`.or_else(\|\| last_geometry.map(\|g\| g.loc))`
			`.unwrap_or_else(\|\| {`
			`(`
			`geometry.loc.x + (geometry.size.w / 2) - (win_geo.size.w / 2) + win_geo.loc.x,`
			`geometry.loc.y + (geometry.size.h / 2) - (win_geo.size.h / 2) + win_geo.loc.y,`
			`)`
			`.into()`
			`});`
shell: Properly center and resize new floating windows 2022-07-06 23:41:11 +02:00
wip: New shell logic 2022-09-28 12:01:29 +02:00			`mapped.set_tiled(false);`
shell: Don't use output-relative coords for windwo geometry 2023-01-25 14:09:44 +01:00			`let offset = output.geometry().loc`
			`- self`
			`.space`
			`.output_geometry(output)`
			`.map(\|g\| g.loc)`
			`.unwrap_or_default();`
			`mapped.set_geometry(Rectangle::from_loc_and_size(`
			`position + offset,`
			`win_geo.size,`
			`));`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`mapped.configure();`
			`self.space.map_element(mapped, position, false);`
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00			`}`

wip: New shell logic 2022-09-28 12:01:29 +02:00			`pub fn unmap(&mut self, window: &CosmicMapped) -> bool {`
floating: restore size and loc on unmaximize 2022-07-08 15:20:29 +02:00			`#[allow(irrefutable_let_patterns)]`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`let is_maximized = window.is_maximized();`
floating: restore size and loc on unmaximize 2022-07-08 15:20:29 +02:00
			`if !is_maximized {`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`if let Some(location) = self.space.element_location(window) {`
			`*window.last_geometry.lock().unwrap() = Some(Rectangle::from_loc_and_size(`
			`location,`
			`window.geometry().size,`
			`));`
floating: restore size and loc on unmaximize 2022-07-08 15:20:29 +02:00			`}`
floating: Remember window sizes and locations 2022-07-07 22:41:02 +02:00			`}`

wip: New shell logic 2022-09-28 12:01:29 +02:00			`let was_unmaped = self.space.elements().any(\|e\| e == window);`
			`self.space.unmap_elem(&window);`
			`was_unmaped`
			`}`

			`pub fn element_geometry(&self, elem: &CosmicMapped) -> Option<Rectangle<i32, Logical>> {`
			`self.space.element_geometry(elem)`
input: Move windows between workspaces 2022-03-30 22:11:29 +02:00			`}`

update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`pub fn maximize_request(&mut self, window: &CosmicSurface) {`
shell: Support maximize and fullscreen requests 2022-10-24 18:32:53 +02:00			`if let Some(mapped) = self`
			`.space`
			`.elements()`
			`.find(\|m\| m.windows().any(\|(w, _)\| &w == window))`
			`{`
			`if let Some(location) = self.space.element_location(mapped) {`
			`*mapped.last_geometry.lock().unwrap() = Some(Rectangle::from_loc_and_size(`
			`location,`
			`mapped.geometry().size,`
			`));`
			`}`
floating: restore size and loc on unmaximize 2022-07-08 15:20:29 +02:00			`}`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`}`

update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`pub fn unmaximize_request(&mut self, window: &CosmicSurface) -> Option<Size<i32, Logical>> {`
shell: Support maximize and fullscreen requests 2022-10-24 18:32:53 +02:00			`let maybe_mapped = self`
			`.space`
			`.elements()`
			`.find(\|m\| m.windows().any(\|(w, _)\| &w == window))`
			`.cloned();`

			`if let Some(mapped) = maybe_mapped {`
			`let last_geometry = mapped.last_geometry.lock().unwrap().clone();`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`let last_size = last_geometry.map(\|g\| g.size).expect("No previous size?");`
shell: Support maximize and fullscreen requests 2022-10-24 18:32:53 +02:00			`let last_location = last_geometry.map(\|g\| g.loc).expect("No previous location?");`
shell: Don't use output-relative coords for windwo geometry 2023-01-25 14:09:44 +01:00			`let output = self`
			`.space`
			`.output_under(last_location.to_f64())`
			`.next()`
			`.unwrap_or(self.space.outputs().next().unwrap());`
			`let offset = output.geometry().loc`
			`- self`
			`.space`
			`.output_geometry(output)`
			`.map(\|g\| g.loc)`
			`.unwrap_or_default();`
			`mapped.set_geometry(Rectangle::from_loc_and_size(`
			`last_location + offset,`
			`last_size,`
			`));`
shell: Support maximize and fullscreen requests 2022-10-24 18:32:53 +02:00			`self.space.map_element(mapped, last_location, true);`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`Some(last_size)`
			`} else {`
			`None`
shell: Support maximize and fullscreen requests 2022-10-24 18:32:53 +02:00			`}`
floating: restore size and loc on unmaximize 2022-07-08 15:20:29 +02:00			`}`

shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00			`pub fn resize_request(`
shell/floating: Reintroduce resizing 2022-10-25 14:43:50 +02:00			`&mut self,`
			`mapped: &CosmicMapped,`
shell: Cleanup and don't abstract over layouts anymore 2022-07-04 15:28:03 +02:00			`seat: &Seat<State>,`
deps: Update smithay 2022-08-31 13:01:23 +02:00			`start_data: PointerGrabStartData<State>,`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`edges: ResizeEdge,`
shell/floating: Reintroduce resizing 2022-10-25 14:43:50 +02:00			`) -> Option<ResizeSurfaceGrab> {`
wip: screencopy 2022-11-03 18:51:27 +01:00			`if seat.get_pointer().is_some() {`
shell/floating: Reintroduce resizing 2022-10-25 14:43:50 +02:00			`let location = self.space.element_location(&mapped).unwrap();`
			`let size = mapped.geometry().size;`

			`Some(grabs::ResizeSurfaceGrab::new(`
			`start_data,`
			`mapped.clone(),`
			`edges,`
			`location,`
			`size,`
			`))`
			`} else {`
			`None`
Groundwork for tiling layout 2022-03-24 20:32:31 +01:00			`}`
			`}`
wip: New shell logic 2022-09-28 12:01:29 +02:00
			`pub fn mapped(&self) -> impl Iterator<Item = &CosmicMapped> {`
xwayland: Add input handling for override redirect windows 2023-01-23 20:32:37 +01:00			`self.space.elements().rev()`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`}`

update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`pub fn windows(&self) -> impl Iterator<Item = CosmicSurface> + '_ {`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`self.mapped().flat_map(\|e\| e.windows().map(\|(w, _)\| w))`
			`}`

			`pub fn refresh(&mut self) {`
shell/floating: Fix window size restore on toggle 2022-10-25 16:36:25 +02:00			`self.space.refresh();`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`for element in self`
			`.space`
			`.elements()`
			`.filter(\|e\| self.space.outputs_for_element(e).is_empty())`
			`.cloned()`
			`.collect::<Vec<_>>()`
			`.into_iter()`
			`{`
			`// TODO what about windows leaving to the top with no headerbar to drag? can that happen? (Probably if the user is moving outputs down)`
			`*element.last_geometry.lock().unwrap() = None;`
			`let output = self.space.outputs().next().unwrap().clone();`
			`self.map_internal(element, &output, None);`
			`}`
			`}`

			`pub fn most_overlapped_output_for_element(&self, elem: &CosmicMapped) -> Option<Output> {`
			`let elem_geo = self.space.element_geometry(elem)?;`

			`if self.space.outputs().nth(1).is_none() {`
			`return self.space.outputs().next().cloned();`
			`}`

			`Some(`
			`self.space`
			`.outputs_for_element(elem)`
			`.into_iter()`
			`.max_by_key(\|o\| {`
			`let output_geo = self.space.output_geometry(o).unwrap();`
			`if let Some(intersection) = output_geo.intersection(elem_geo) {`
			`intersection.size.w * intersection.size.h`
			`} else {`
			`0`
			`}`
			`})`
			`.unwrap_or(self.space.outputs().next().unwrap().clone()),`
			`)`
			`}`

			`pub fn merge(&mut self, other: FloatingLayout) {`
			`let mut output_pos_map = HashMap::new();`
			`for output in self.space.outputs() {`
			`output_pos_map.insert(`
			`output.clone(),`
			`self.space.output_geometry(output).unwrap().loc`
			`- other`
			`.space`
			`.output_geometry(output)`
			`.map(\|geo\| geo.loc)`
			`.unwrap_or_else(\|\| (0, 0).into()),`
			`);`
			`}`
			`for element in other.space.elements() {`
			`let mut elem_geo = other.space.element_geometry(element).unwrap();`
			`let output = other`
			`.space`
			`.outputs_for_element(element)`
			`.into_iter()`
			`.filter(\|o\| self.space.outputs().any(\|o2\| o == o2))`
			`.max_by_key(\|o\| {`
			`let output_geo = other.space.output_geometry(o).unwrap();`
			`let intersection = output_geo.intersection(elem_geo).unwrap();`
			`intersection.size.w * intersection.size.h`
			`})`
			`.unwrap_or(self.space.outputs().next().unwrap().clone());`
			`elem_geo.loc += output_pos_map`
			`.get(&output)`
			`.copied()`
			`.unwrap_or_else(\|\| (0, 0).into());`
shell: Don't use output-relative coords for windwo geometry 2023-01-25 14:09:44 +01:00			`let offset = output.geometry().loc`
			`- self`
			`.space`
			`.output_geometry(&output)`
			`.map(\|g\| g.loc)`
			`.unwrap_or_default();`
			`element.set_geometry(Rectangle::from_loc_and_size(`
			`elem_geo.loc + offset,`
			`elem_geo.size,`
			`));`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`self.space.map_element(element.clone(), elem_geo.loc, false);`
			`}`
			`self.refresh(); //fixup any out of bounds elements`
			`}`

			`pub fn render_output<R>(`
			`&self,`
deps: Update smithay - Use new GAT frame - Bugfixes - Finish window debug overlay 2022-11-28 17:48:50 +01:00			`renderer: &mut R,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`output: &Output,`
window: Add window-specific debug overlay (not enabled) 2022-11-22 10:28:30 +01:00			`) -> Result<Vec<CosmicMappedRenderElement<R>>, OutputNotMapped>`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`where`
update smithay, iced; reworked window for xwayland 2023-01-16 15:12:25 +01:00			`R: Renderer + ImportAll + ImportMem + AsGlowRenderer,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`<R as Renderer>::TextureId: 'static,`
window: Add window-specific debug overlay (not enabled) 2022-11-22 10:28:30 +01:00			`CosmicMappedRenderElement<R>: RenderElement<R>,`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`{`
			`let output_scale = output.current_scale().fractional_scale();`
			`let output_geo = self.space.output_geometry(output).ok_or(OutputNotMapped)?;`
			`Ok(self`
			`.space`
deps: Update smithay - Use new GAT frame - Bugfixes - Finish window debug overlay 2022-11-28 17:48:50 +01:00			`.render_elements_for_region(renderer, &output_geo, output_scale))`
wip: New shell logic 2022-09-28 12:01:29 +02:00			`}`
			`}`