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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:22:09 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 09:22:09 +0000 |
commit | 43a97878ce14b72f0981164f87f2e35e14151312 (patch) | |
tree | 620249daf56c0258faa40cbdcf9cfba06de2a846 /gfx/wr/webrender/src/space.rs | |
parent | Initial commit. (diff) | |
download | firefox-upstream.tar.xz firefox-upstream.zip |
Adding upstream version 110.0.1.upstream/110.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | gfx/wr/webrender/src/space.rs | 269 |
1 files changed, 269 insertions, 0 deletions
diff --git a/gfx/wr/webrender/src/space.rs b/gfx/wr/webrender/src/space.rs new file mode 100644 index 0000000000..518bee6a67 --- /dev/null +++ b/gfx/wr/webrender/src/space.rs @@ -0,0 +1,269 @@ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + + +//! Utilities to deal with coordinate spaces. + +use std::fmt; + +use euclid::{Transform3D, Box2D, Point2D, Vector2D}; + +use api::units::*; +use crate::spatial_tree::{SpatialTree, CoordinateSpaceMapping, SpatialNodeIndex, VisibleFace, SpatialNodeContainer}; +use crate::util::project_rect; +use crate::util::{MatrixHelpers, ScaleOffset, RectHelpers, PointHelpers}; + + +#[derive(Debug, Clone)] +pub struct SpaceMapper<F, T> { + kind: CoordinateSpaceMapping<F, T>, + pub ref_spatial_node_index: SpatialNodeIndex, + pub current_target_spatial_node_index: SpatialNodeIndex, + pub bounds: Box2D<f32, T>, + visible_face: VisibleFace, +} + +impl<F, T> SpaceMapper<F, T> where F: fmt::Debug { + pub fn new( + ref_spatial_node_index: SpatialNodeIndex, + bounds: Box2D<f32, T>, + ) -> Self { + SpaceMapper { + kind: CoordinateSpaceMapping::Local, + ref_spatial_node_index, + current_target_spatial_node_index: ref_spatial_node_index, + bounds, + visible_face: VisibleFace::Front, + } + } + + pub fn new_with_target( + ref_spatial_node_index: SpatialNodeIndex, + target_node_index: SpatialNodeIndex, + bounds: Box2D<f32, T>, + spatial_tree: &SpatialTree, + ) -> Self { + let mut mapper = Self::new(ref_spatial_node_index, bounds); + mapper.set_target_spatial_node(target_node_index, spatial_tree); + mapper + } + + pub fn set_target_spatial_node( + &mut self, + target_node_index: SpatialNodeIndex, + spatial_tree: &SpatialTree, + ) { + if target_node_index == self.current_target_spatial_node_index { + return + } + + let ref_spatial_node = spatial_tree.get_spatial_node(self.ref_spatial_node_index); + let target_spatial_node = spatial_tree.get_spatial_node(target_node_index); + self.visible_face = VisibleFace::Front; + + self.kind = if self.ref_spatial_node_index == target_node_index { + CoordinateSpaceMapping::Local + } else if ref_spatial_node.coordinate_system_id == target_spatial_node.coordinate_system_id { + let scale_offset = ref_spatial_node.content_transform + .inverse() + .accumulate(&target_spatial_node.content_transform); + CoordinateSpaceMapping::ScaleOffset(scale_offset) + } else { + let transform = spatial_tree + .get_relative_transform_with_face( + target_node_index, + self.ref_spatial_node_index, + Some(&mut self.visible_face), + ) + .into_transform() + .with_source::<F>() + .with_destination::<T>(); + CoordinateSpaceMapping::Transform(transform) + }; + + self.current_target_spatial_node_index = target_node_index; + } + + pub fn get_transform(&self) -> Transform3D<f32, F, T> { + match self.kind { + CoordinateSpaceMapping::Local => { + Transform3D::identity() + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + scale_offset.to_transform() + } + CoordinateSpaceMapping::Transform(transform) => { + transform + } + } + } + + pub fn unmap(&self, rect: &Box2D<f32, T>) -> Option<Box2D<f32, F>> { + match self.kind { + CoordinateSpaceMapping::Local => { + Some(rect.cast_unit()) + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + Some(scale_offset.unmap_rect(rect)) + } + CoordinateSpaceMapping::Transform(ref transform) => { + transform.inverse_rect_footprint(rect) + } + } + } + + pub fn map(&self, rect: &Box2D<f32, F>) -> Option<Box2D<f32, T>> { + match self.kind { + CoordinateSpaceMapping::Local => { + Some(rect.cast_unit()) + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + Some(scale_offset.map_rect(rect)) + } + CoordinateSpaceMapping::Transform(ref transform) => { + match project_rect(transform, rect, &self.bounds) { + Some(bounds) => { + Some(bounds) + } + None => { + warn!("parent relative transform can't transform the primitive rect for {:?}", rect); + None + } + } + } + } + } + + // Attempt to return a rect that is contained in the mapped rect. + pub fn map_inner_bounds(&self, rect: &Box2D<f32, F>) -> Option<Box2D<f32, T>> { + match self.kind { + CoordinateSpaceMapping::Local => { + Some(rect.cast_unit()) + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + Some(scale_offset.map_rect(rect)) + } + CoordinateSpaceMapping::Transform(..) => { + // We could figure out a rect that is contained in the transformed rect but + // for now we do the simple thing here and bail out. + return None; + } + } + } + + // Map a local space point to the target coordinate space + pub fn map_point(&self, p: Point2D<f32, F>) -> Option<Point2D<f32, T>> { + match self.kind { + CoordinateSpaceMapping::Local => { + Some(p.cast_unit()) + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + Some(scale_offset.map_point(&p)) + } + CoordinateSpaceMapping::Transform(ref transform) => { + transform.transform_point2d(p) + } + } + } + + pub fn map_vector(&self, v: Vector2D<f32, F>) -> Vector2D<f32, T> { + match self.kind { + CoordinateSpaceMapping::Local => { + v.cast_unit() + } + CoordinateSpaceMapping::ScaleOffset(ref scale_offset) => { + scale_offset.map_vector(&v) + } + CoordinateSpaceMapping::Transform(ref transform) => { + transform.transform_vector2d(v) + } + } + } +} + + +#[derive(Clone, Debug)] +pub struct SpaceSnapper { + ref_spatial_node_index: SpatialNodeIndex, + current_target_spatial_node_index: SpatialNodeIndex, + snapping_transform: Option<ScaleOffset>, + raster_pixel_scale: RasterPixelScale, +} + +impl SpaceSnapper { + pub fn new( + ref_spatial_node_index: SpatialNodeIndex, + raster_pixel_scale: RasterPixelScale, + ) -> Self { + SpaceSnapper { + ref_spatial_node_index, + current_target_spatial_node_index: SpatialNodeIndex::INVALID, + snapping_transform: None, + raster_pixel_scale, + } + } + + pub fn new_with_target<S: SpatialNodeContainer>( + ref_spatial_node_index: SpatialNodeIndex, + target_node_index: SpatialNodeIndex, + raster_pixel_scale: RasterPixelScale, + spatial_tree: &S, + ) -> Self { + let mut snapper = SpaceSnapper { + ref_spatial_node_index, + current_target_spatial_node_index: SpatialNodeIndex::INVALID, + snapping_transform: None, + raster_pixel_scale, + }; + + snapper.set_target_spatial_node(target_node_index, spatial_tree); + snapper + } + + pub fn set_target_spatial_node<S: SpatialNodeContainer>( + &mut self, + target_node_index: SpatialNodeIndex, + spatial_tree: &S, + ) { + if target_node_index == self.current_target_spatial_node_index { + return + } + + let ref_snap = spatial_tree.get_node_info(self.ref_spatial_node_index).snapping_transform; + let target_snap = spatial_tree.get_node_info(target_node_index).snapping_transform; + + self.current_target_spatial_node_index = target_node_index; + self.snapping_transform = match (ref_snap, target_snap) { + (Some(ref ref_scale_offset), Some(ref target_scale_offset)) => { + Some(ref_scale_offset + .inverse() + .accumulate(target_scale_offset) + .scale(self.raster_pixel_scale.0)) + } + _ => None, + }; + } + + pub fn snap_rect<F>(&self, rect: &Box2D<f32, F>) -> Box2D<f32, F> where F: fmt::Debug { + debug_assert!(self.current_target_spatial_node_index != SpatialNodeIndex::INVALID); + match self.snapping_transform { + Some(ref scale_offset) => { + let snapped_device_rect: DeviceRect = scale_offset.map_rect(rect).snap(); + scale_offset.unmap_rect(&snapped_device_rect) + } + None => *rect, + } + } + + pub fn snap_point<F>(&self, point: &Point2D<f32, F>) -> Point2D<f32, F> where F: fmt::Debug { + debug_assert!(self.current_target_spatial_node_index != SpatialNodeIndex::INVALID); + match self.snapping_transform { + Some(ref scale_offset) => { + let snapped_device_vector : DevicePoint = scale_offset.map_point(point).snap(); + scale_offset.unmap_point(&snapped_device_vector) + } + None => *point, + } + } +} |