#![allow(clippy::too_many_arguments)] use super::tool_prelude::*; use crate::consts::*; use crate::messages::input_mapper::utility_types::input_mouse::ViewportPosition; use crate::messages::portfolio::document::graph_operation::utility_types::TransformIn; use crate::messages::portfolio::document::overlays::utility_types::OverlayContext; use crate::messages::portfolio::document::utility_types::document_metadata::{DocumentMetadata, LayerNodeIdentifier}; use crate::messages::portfolio::document::utility_types::misc::{AlignAggregate, AlignAxis, FlipAxis, GroupFolderType}; use crate::messages::portfolio::document::utility_types::network_interface::{FlowType, NodeNetworkInterface, NodeTemplate}; use crate::messages::portfolio::document::utility_types::nodes::SelectedNodes; use crate::messages::preferences::SelectionMode; use crate::messages::tool::common_functionality::auto_panning::AutoPanning; use crate::messages::tool::common_functionality::compass_rose::{Axis, CompassRose}; use crate::messages::tool::common_functionality::graph_modification_utils::is_layer_fed_by_node_of_name; use crate::messages::tool::common_functionality::measure; use crate::messages::tool::common_functionality::pivot::Pivot; use crate::messages::tool::common_functionality::shape_editor::SelectionShapeType; use crate::messages::tool::common_functionality::snapping::{self, SnapCandidatePoint, SnapData, SnapManager}; use crate::messages::tool::common_functionality::transformation_cage::*; use crate::messages::tool::common_functionality::utility_functions::{resize_bounds, rotate_bounds, skew_bounds, text_bounding_box, transforming_transform_cage}; use bezier_rs::Subpath; use glam::DMat2; use graph_craft::document::NodeId; use graphene_std::path_bool::BooleanOperation; use graphene_std::renderer::Quad; use graphene_std::renderer::Rect; use graphene_std::transform::ReferencePoint; use std::fmt; #[derive(Default)] pub struct SelectTool { fsm_state: SelectToolFsmState, tool_data: SelectToolData, } #[allow(dead_code)] #[derive(Default)] pub struct SelectOptions { nested_selection_behavior: NestedSelectionBehavior, } #[derive(PartialEq, Eq, Clone, Debug, Hash, serde::Serialize, serde::Deserialize, specta::Type)] pub enum SelectOptionsUpdate { NestedSelectionBehavior(NestedSelectionBehavior), } #[derive(Default, PartialEq, Eq, Clone, Copy, Debug, Hash, serde::Serialize, serde::Deserialize, specta::Type)] pub enum NestedSelectionBehavior { #[default] Shallowest, Deepest, } impl fmt::Display for NestedSelectionBehavior { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { NestedSelectionBehavior::Deepest => write!(f, "Deep Select"), NestedSelectionBehavior::Shallowest => write!(f, "Shallow Select"), } } } #[derive(PartialEq, Clone, Debug, serde::Serialize, serde::Deserialize, specta::Type)] pub struct SelectToolPointerKeys { pub axis_align: Key, pub snap_angle: Key, pub center: Key, pub duplicate: Key, } #[impl_message(Message, ToolMessage, Select)] #[derive(PartialEq, Clone, Debug, serde::Serialize, serde::Deserialize, specta::Type)] pub enum SelectToolMessage { // Standard messages Abort, Overlays(OverlayContext), // Tool-specific messages DragStart { extend_selection: Key, remove_from_selection: Key, select_deepest: Key, lasso_select: Key, skew: Key, }, DragStop { remove_from_selection: Key, }, EditLayer, Enter, PointerMove(SelectToolPointerKeys), PointerOutsideViewport(SelectToolPointerKeys), SelectOptions(SelectOptionsUpdate), SetPivot { position: ReferencePoint, }, } impl ToolMetadata for SelectTool { fn icon_name(&self) -> String { "GeneralSelectTool".into() } fn tooltip(&self) -> String { "Select Tool".into() } fn tool_type(&self) -> crate::messages::tool::utility_types::ToolType { ToolType::Select } } impl SelectTool { fn deep_selection_widget(&self) -> WidgetHolder { let layer_selection_behavior_entries = [NestedSelectionBehavior::Shallowest, NestedSelectionBehavior::Deepest] .iter() .map(|mode| { MenuListEntry::new(format!("{mode:?}")) .label(mode.to_string()) .on_commit(move |_| SelectToolMessage::SelectOptions(SelectOptionsUpdate::NestedSelectionBehavior(*mode)).into()) }) .collect(); DropdownInput::new(vec![layer_selection_behavior_entries]) .selected_index(Some((self.tool_data.nested_selection_behavior == NestedSelectionBehavior::Deepest) as u32)) .tooltip("Choose if clicking nested layers directly selects the deepest, or selects the shallowest and deepens by double clicking") .widget_holder() } fn pivot_reference_point_widget(&self, disabled: bool) -> WidgetHolder { ReferencePointInput::new(self.tool_data.pivot.to_pivot_position()) .on_update(|pivot_input: &ReferencePointInput| SelectToolMessage::SetPivot { position: pivot_input.value }.into()) .disabled(disabled) .widget_holder() } fn alignment_widgets(&self, disabled: bool) -> impl Iterator + use<> { [AlignAxis::X, AlignAxis::Y] .into_iter() .flat_map(|axis| [(axis, AlignAggregate::Min), (axis, AlignAggregate::Center), (axis, AlignAggregate::Max)]) .map(move |(axis, aggregate)| { let (icon, tooltip) = match (axis, aggregate) { (AlignAxis::X, AlignAggregate::Min) => ("AlignLeft", "Align Left"), (AlignAxis::X, AlignAggregate::Center) => ("AlignHorizontalCenter", "Align Horizontal Center"), (AlignAxis::X, AlignAggregate::Max) => ("AlignRight", "Align Right"), (AlignAxis::Y, AlignAggregate::Min) => ("AlignTop", "Align Top"), (AlignAxis::Y, AlignAggregate::Center) => ("AlignVerticalCenter", "Align Vertical Center"), (AlignAxis::Y, AlignAggregate::Max) => ("AlignBottom", "Align Bottom"), }; IconButton::new(icon, 24) .tooltip(tooltip) .on_update(move |_| DocumentMessage::AlignSelectedLayers { axis, aggregate }.into()) .disabled(disabled) .widget_holder() }) } fn flip_widgets(&self, disabled: bool) -> impl Iterator + use<> { [(FlipAxis::X, "Horizontal"), (FlipAxis::Y, "Vertical")].into_iter().map(move |(flip_axis, name)| { IconButton::new("Flip".to_string() + name, 24) .tooltip("Flip ".to_string() + name) .on_update(move |_| DocumentMessage::FlipSelectedLayers { flip_axis }.into()) .disabled(disabled) .widget_holder() }) } fn turn_widgets(&self, disabled: bool) -> impl Iterator + use<> { [(-90., "TurnNegative90", "Turn -90°"), (90., "TurnPositive90", "Turn 90°")] .into_iter() .map(move |(degrees, icon, name)| { IconButton::new(icon, 24) .tooltip(name) .on_update(move |_| DocumentMessage::RotateSelectedLayers { degrees }.into()) .disabled(disabled) .widget_holder() }) } fn boolean_widgets(&self, selected_count: usize) -> impl Iterator + use<> { let list = ::list(); list.into_iter().map(|i| i.into_iter()).flatten().map(move |(operation, info)| { let mut tooltip = info.label.to_string(); if let Some(doc) = info.docstring.as_deref() { tooltip.push_str("\n\n"); tooltip.push_str(doc); } IconButton::new(info.icon.as_deref().unwrap(), 24) .tooltip(tooltip) .disabled(selected_count == 0) .on_update(move |_| { let group_folder_type = GroupFolderType::BooleanOperation(*operation); DocumentMessage::GroupSelectedLayers { group_folder_type }.into() }) .widget_holder() }) } } impl LayoutHolder for SelectTool { fn layout(&self) -> Layout { let mut widgets = Vec::new(); // Select mode (Deep/Shallow) widgets.push(self.deep_selection_widget()); // Pivot widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.push(self.pivot_reference_point_widget(self.tool_data.selected_layers_count == 0)); // Align let disabled = self.tool_data.selected_layers_count < 2; widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.extend(self.alignment_widgets(disabled)); // widgets.push( // PopoverButton::new() // .popover_layout(vec![ // LayoutGroup::Row { // widgets: vec![TextLabel::new("Align").bold(true).widget_holder()], // }, // LayoutGroup::Row { // widgets: vec![TextLabel::new("Coming soon").widget_holder()], // }, // ]) // .disabled(disabled) // .widget_holder(), // ); // Flip let disabled = self.tool_data.selected_layers_count == 0; widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.extend(self.flip_widgets(disabled)); // Turn widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.extend(self.turn_widgets(disabled)); // Boolean widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.extend(self.boolean_widgets(self.tool_data.selected_layers_count)); Layout::WidgetLayout(WidgetLayout::new(vec![LayoutGroup::Row { widgets }])) } } impl<'a> MessageHandler> for SelectTool { fn process_message(&mut self, message: ToolMessage, responses: &mut VecDeque, tool_data: &mut ToolActionHandlerData<'a>) { if let ToolMessage::Select(SelectToolMessage::SelectOptions(SelectOptionsUpdate::NestedSelectionBehavior(nested_selection_behavior))) = message { self.tool_data.nested_selection_behavior = nested_selection_behavior; responses.add(ToolMessage::UpdateHints); } self.fsm_state.process_event(message, &mut self.tool_data, tool_data, &(), responses, false); if self.tool_data.pivot.should_refresh_pivot_position() || self.tool_data.selected_layers_changed { // Send the layout containing the updated pivot position (a bit ugly to do it here not in the fsm but that doesn't have SelectTool) self.send_layout(responses, LayoutTarget::ToolOptions); self.tool_data.selected_layers_changed = false; } } fn actions(&self) -> ActionList { let mut common = actions!(SelectToolMessageDiscriminant; PointerMove, Abort, EditLayer, Enter, ); let additional = match self.fsm_state { SelectToolFsmState::Ready { .. } => actions!(SelectToolMessageDiscriminant; DragStart), _ => actions!(SelectToolMessageDiscriminant; DragStop), }; common.extend(additional); common } } impl ToolTransition for SelectTool { fn event_to_message_map(&self) -> EventToMessageMap { EventToMessageMap { tool_abort: Some(SelectToolMessage::Abort.into()), overlay_provider: Some(|overlay_context| SelectToolMessage::Overlays(overlay_context).into()), ..Default::default() } } } #[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)] enum SelectToolFsmState { Ready { selection: NestedSelectionBehavior, }, Drawing { selection_shape: SelectionShapeType, has_drawn: bool, }, Dragging { axis: Axis, using_compass: bool, has_dragged: bool, deepest: bool, remove: bool, }, ResizingBounds, SkewingBounds { skew: Key, }, RotatingBounds, DraggingPivot, } impl Default for SelectToolFsmState { fn default() -> Self { let selection = NestedSelectionBehavior::Deepest; SelectToolFsmState::Ready { selection } } } #[derive(Clone, Debug, Default)] struct SelectToolData { drag_start: ViewportPosition, drag_current: ViewportPosition, lasso_polygon: Vec, selection_mode: Option, layers_dragging: Vec, layer_selected_on_start: Option, select_single_layer: Option, axis_align: bool, non_duplicated_layers: Option>, bounding_box_manager: Option, snap_manager: SnapManager, cursor: MouseCursorIcon, pivot: Pivot, compass_rose: CompassRose, line_center: DVec2, skew_edge: EdgeBool, nested_selection_behavior: NestedSelectionBehavior, selected_layers_count: usize, selected_layers_changed: bool, snap_candidates: Vec, auto_panning: AutoPanning, } impl SelectToolData { fn get_snap_candidates(&mut self, document: &DocumentMessageHandler, input: &InputPreprocessorMessageHandler) { self.snap_candidates.clear(); for &layer in &self.layers_dragging { if (self.snap_candidates.len() as f64) < document.snapping_state.tolerance { snapping::get_layer_snap_points(layer, &SnapData::new(document, input), &mut self.snap_candidates); } if let Some(bounds) = document.metadata().bounding_box_with_transform(layer, DAffine2::IDENTITY) { let quad = document.metadata().transform_to_document(layer) * Quad::from_box(bounds); snapping::get_bbox_points(quad, &mut self.snap_candidates, snapping::BBoxSnapValues::BOUNDING_BOX, document); } } } pub fn selection_quad(&self) -> Quad { let bbox = self.selection_box(); Quad::from_box(bbox) } pub fn calculate_selection_mode_from_direction(&mut self) -> SelectionMode { let bbox: [DVec2; 2] = self.selection_box(); let above_threshold = bbox[1].distance_squared(bbox[0]) > DRAG_DIRECTION_MODE_DETERMINATION_THRESHOLD.powi(2); if self.selection_mode.is_none() && above_threshold { let mode = if bbox[1].x < bbox[0].x { SelectionMode::Touched } else { // This also covers the case where they're equal: the area is zero, so we use `Enclosed` to ensure the selection ends up empty, as nothing will be enclosed by an empty area SelectionMode::Enclosed }; self.selection_mode = Some(mode); } self.selection_mode.unwrap_or(SelectionMode::Touched) } pub fn selection_box(&self) -> [DVec2; 2] { if self.drag_current == self.drag_start { let tolerance = DVec2::splat(SELECTION_TOLERANCE); [self.drag_start - tolerance, self.drag_start + tolerance] } else { [self.drag_start, self.drag_current] } } pub fn intersect_lasso_no_artboards(&self, document: &DocumentMessageHandler, input: &InputPreprocessorMessageHandler) -> Vec { if self.lasso_polygon.len() < 2 { return Vec::new(); } let polygon = Subpath::from_anchors_linear(self.lasso_polygon.clone(), true); document.intersect_polygon_no_artboards(polygon, input).collect() } pub fn is_layer_inside_lasso_polygon(&self, layer: &LayerNodeIdentifier, document: &DocumentMessageHandler, input: &InputPreprocessorMessageHandler) -> bool { if self.lasso_polygon.len() < 2 { return false; } let polygon = Subpath::from_anchors_linear(self.lasso_polygon.clone(), true); document.is_layer_fully_inside_polygon(layer, input, polygon) } /// Duplicates the currently dragging layers. Called when Alt is pressed and the layers have not yet been duplicated. fn start_duplicates(&mut self, document: &mut DocumentMessageHandler, responses: &mut VecDeque) { self.non_duplicated_layers = Some(self.layers_dragging.clone()); let mut new_dragging = Vec::new(); // Get the shallowest unique layers and sort by their index relative to parent for ordered processing let mut layers = document.network_interface.shallowest_unique_layers(&[]).collect::>(); layers.sort_by_key(|layer| { let Some(parent) = layer.parent(document.metadata()) else { return usize::MAX }; DocumentMessageHandler::get_calculated_insert_index(document.metadata(), &SelectedNodes(vec![layer.to_node()]), parent) }); for layer in layers.into_iter().rev() { let Some(parent) = layer.parent(document.metadata()) else { continue }; // Moves the layer back to its starting position. responses.add(GraphOperationMessage::TransformChange { layer, transform: DAffine2::from_translation(self.drag_start - self.drag_current), transform_in: TransformIn::Viewport, skip_rerender: true, }); // Copy the layer let mut copy_ids = HashMap::new(); let node_id = layer.to_node(); copy_ids.insert(node_id, NodeId(0)); document .network_interface .upstream_flow_back_from_nodes(vec![layer.to_node()], &[], FlowType::LayerChildrenUpstreamFlow) .enumerate() .for_each(|(index, node_id)| { copy_ids.insert(node_id, NodeId((index + 1) as u64)); }); let nodes = document.network_interface.copy_nodes(©_ids, &[]).collect::>(); let insert_index = DocumentMessageHandler::get_calculated_insert_index(document.metadata(), &SelectedNodes(vec![layer.to_node()]), parent); let new_ids: HashMap<_, _> = nodes.iter().map(|(id, _)| (*id, NodeId::new())).collect(); let layer_id = *new_ids.get(&NodeId(0)).expect("Node Id 0 should be a layer"); let layer = LayerNodeIdentifier::new_unchecked(layer_id); new_dragging.push(layer); responses.add(NodeGraphMessage::AddNodes { nodes, new_ids }); responses.add(NodeGraphMessage::MoveLayerToStack { layer, parent, insert_index }); } let nodes = new_dragging.iter().map(|layer| layer.to_node()).collect(); responses.add(NodeGraphMessage::SelectedNodesSet { nodes }); responses.add(NodeGraphMessage::RunDocumentGraph); self.layers_dragging = new_dragging; } /// Removes the duplicated layers. Called when Alt is released and the layers have previously been duplicated. fn stop_duplicates(&mut self, document: &DocumentMessageHandler, responses: &mut VecDeque) { let Some(original) = self.non_duplicated_layers.take() else { return; }; // Delete the duplicated layers for layer in document.network_interface.shallowest_unique_layers(&[]) { responses.add(NodeGraphMessage::DeleteNodes { node_ids: vec![layer.to_node()], delete_children: true, }); } for &layer in &original { responses.add(GraphOperationMessage::TransformChange { layer, transform: DAffine2::from_translation(self.drag_current - self.drag_start), transform_in: TransformIn::Viewport, skip_rerender: true, }); } let nodes = original .iter() .filter_map(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { Some(layer.to_node()) } else { log::error!("ROOT_PARENT cannot be part of non_duplicated_layers"); None } }) .collect(); responses.add(NodeGraphMessage::SelectedNodesSet { nodes }); responses.add(NodeGraphMessage::RunDocumentGraph); responses.add(NodeGraphMessage::SelectedNodesUpdated); responses.add(NodeGraphMessage::SendGraph); self.layers_dragging = original; } } impl Fsm for SelectToolFsmState { type ToolData = SelectToolData; type ToolOptions = (); fn transition(self, event: ToolMessage, tool_data: &mut Self::ToolData, tool_action_data: &mut ToolActionHandlerData, _tool_options: &(), responses: &mut VecDeque) -> Self { let ToolActionHandlerData { document, input, font_cache, .. } = tool_action_data; let ToolMessage::Select(event) = event else { return self }; match (self, event) { (_, SelectToolMessage::Overlays(mut overlay_context)) => { tool_data.snap_manager.draw_overlays(SnapData::new(document, input), &mut overlay_context); let selected_layers_count = document.network_interface.selected_nodes().selected_unlocked_layers(&document.network_interface).count(); tool_data.selected_layers_changed = selected_layers_count != tool_data.selected_layers_count; tool_data.selected_layers_count = selected_layers_count; // Outline selected layers, but not artboards if overlay_context.visibility_settings.selection_outline() { for layer in document .network_interface .selected_nodes() .selected_visible_and_unlocked_layers(&document.network_interface) .filter(|layer| !document.network_interface.is_artboard(&layer.to_node(), &[])) { let layer_to_viewport = document.metadata().transform_to_viewport(layer); overlay_context.outline(document.metadata().layer_with_free_points_outline(layer), layer_to_viewport, None); if is_layer_fed_by_node_of_name(layer, &document.network_interface, "Text") { let transformed_quad = layer_to_viewport * text_bounding_box(layer, document, font_cache); overlay_context.dashed_quad(transformed_quad, None, None, Some(7.), Some(5.), None); } } } // Update bounds let mut transform = document .network_interface .selected_nodes() .selected_visible_and_unlocked_layers(&document.network_interface) .find(|layer| !document.network_interface.is_artboard(&layer.to_node(), &[])) .map(|layer| document.metadata().transform_to_viewport_with_first_transform_node_if_group(layer, &document.network_interface)) .unwrap_or_default(); // Check if the matrix is not invertible let mut transform_tampered = false; if transform.matrix2.determinant() == 0. { transform.matrix2 += DMat2::IDENTITY * 1e-4; // TODO: Is this the cleanest way to handle this? transform_tampered = true; } let bounds = document .network_interface .selected_nodes() .selected_visible_and_unlocked_layers(&document.network_interface) .filter(|layer| !document.network_interface.is_artboard(&layer.to_node(), &[])) .filter_map(|layer| { document .metadata() .bounding_box_with_transform(layer, transform.inverse() * document.metadata().transform_to_viewport(layer)) }) .reduce(graphene_std::renderer::Quad::combine_bounds); // When not in Drawing State // Only highlight layers if the viewport is not being panned (middle mouse button is pressed) // TODO: Don't use `Key::MouseMiddle` directly, instead take it as a variable from the input mappings list like in all other places; or find a better way than checking the key state if !matches!(self, Self::Drawing { .. }) && !input.keyboard.get(Key::MouseMiddle as usize) { // Get the layer the user is hovering over let click = document.click(input); let not_selected_click = click.filter(|&hovered_layer| !document.network_interface.selected_nodes().selected_layers_contains(hovered_layer, document.metadata())); if let Some(layer) = not_selected_click { if overlay_context.visibility_settings.hover_outline() { let layer_to_viewport = document.metadata().transform_to_viewport(layer); let mut hover_overlay_draw = |layer: LayerNodeIdentifier, color: Option<&str>| { if layer.has_children(document.metadata()) { if let Some(bounds) = document.metadata().bounding_box_viewport(layer) { overlay_context.quad(Quad::from_box(bounds), color, None); } } else { overlay_context.outline(document.metadata().layer_with_free_points_outline(layer), layer_to_viewport, color); } }; let layer = match tool_data.nested_selection_behavior { NestedSelectionBehavior::Deepest => document.find_deepest(&[layer]), NestedSelectionBehavior::Shallowest => layer_selected_shallowest(layer, document), } .unwrap_or(layer); hover_overlay_draw(layer, None); if matches!(tool_data.nested_selection_behavior, NestedSelectionBehavior::Shallowest) { let mut selected = document.network_interface.selected_nodes(); selected.add_selected_nodes(vec![layer.to_node()]); if let Some(new_selected) = click.unwrap().ancestors(document.metadata()).filter(not_artboard(document)).find(|ancestor| { ancestor .parent(document.metadata()) .is_some_and(|parent| selected.selected_layers_contains(parent, document.metadata())) }) { let mut fill_color = graphene_std::Color::from_rgb_str(COLOR_OVERLAY_BLUE.strip_prefix('#').unwrap()) .unwrap() .with_alpha(0.5) .to_rgba_hex_srgb(); fill_color.insert(0, '#'); let fill_color = Some(fill_color.as_str()); hover_overlay_draw(new_selected, fill_color); } } } // Measure with Alt held down // TODO: Don't use `Key::Alt` directly, instead take it as a variable from the input mappings list like in all other places if overlay_context.visibility_settings.quick_measurement() && !matches!(self, Self::ResizingBounds { .. }) && input.keyboard.get(Key::Alt as usize) { // Get all selected layers and compute their viewport-aligned AABB let selected_bounds_viewport = document .network_interface .selected_nodes() .selected_visible_and_unlocked_layers(&document.network_interface) .filter(|layer| !document.network_interface.is_artboard(&layer.to_node(), &[])) .filter_map(|layer| { // Get the layer's bounding box in its local space let local_bounds = document.metadata().bounding_box_with_transform(layer, DAffine2::IDENTITY)?; // Transform the bounds directly to viewport space let viewport_quad = document.metadata().transform_to_viewport(layer) * Quad::from_box(local_bounds); // Convert the quad to an AABB in viewport space Some(Rect::from_box(viewport_quad.bounding_box())) }) .reduce(Rect::combine_bounds); // Get the hovered layer's viewport-aligned AABB let hovered_bounds_viewport = document.metadata().bounding_box_with_transform(layer, DAffine2::IDENTITY).map(|bounds| { let viewport_quad = document.metadata().transform_to_viewport(layer) * Quad::from_box(bounds); Rect::from_box(viewport_quad.bounding_box()) }); // Use the viewport-aligned AABBs for measurement if let (Some(selected_bounds), Some(hovered_bounds)) = (selected_bounds_viewport, hovered_bounds_viewport) { // Since we're already in viewport space, use identity transform measure::overlay(selected_bounds, hovered_bounds, DAffine2::IDENTITY, DAffine2::IDENTITY, &mut overlay_context); } } } } if let Some(bounds) = bounds { let bounding_box_manager = tool_data.bounding_box_manager.get_or_insert(BoundingBoxManager::default()); bounding_box_manager.bounds = bounds; bounding_box_manager.transform = transform; bounding_box_manager.transform_tampered = transform_tampered; if overlay_context.visibility_settings.transform_cage() { bounding_box_manager.render_overlays(&mut overlay_context, true); } } else { tool_data.bounding_box_manager.take(); } let angle = bounds .map(|bounds| transform * Quad::from_box(bounds)) .map_or(0., |quad| (quad.top_left() - quad.top_right()).to_angle()); let mouse_position = input.mouse.position; let compass_rose_state = tool_data.compass_rose.compass_rose_state(mouse_position, angle); let show_hover_ring = if let SelectToolFsmState::Dragging { axis, using_compass, .. } = self { using_compass && !axis.is_constraint() } else { compass_rose_state.is_ring() }; let dragging_bounds = tool_data .bounding_box_manager .as_mut() .and_then(|bounding_box| bounding_box.check_selected_edges(input.mouse.position)) .is_some(); let rotating_bounds = tool_data .bounding_box_manager .as_ref() .map(|bounding_box| bounding_box.check_rotate(input.mouse.position)) .unwrap_or_default(); let is_resizing_or_rotating = matches!(self, SelectToolFsmState::ResizingBounds | SelectToolFsmState::SkewingBounds { .. } | SelectToolFsmState::RotatingBounds); if overlay_context.visibility_settings.transform_cage() { if let Some(bounds) = tool_data.bounding_box_manager.as_mut() { let edges = bounds.check_selected_edges(input.mouse.position); let is_skewing = matches!(self, SelectToolFsmState::SkewingBounds { .. }); let is_near_square = edges.is_some_and(|hover_edge| bounds.over_extended_edge_midpoint(input.mouse.position, hover_edge)); if is_skewing || (dragging_bounds && is_near_square && !is_resizing_or_rotating) { bounds.render_skew_gizmos(&mut overlay_context, tool_data.skew_edge); } if !is_skewing && dragging_bounds { if let Some(edges) = edges { tool_data.skew_edge = bounds.get_closest_edge(edges, input.mouse.position); } } } } let might_resize_or_rotate = dragging_bounds || rotating_bounds; let can_get_into_other_states = might_resize_or_rotate && !matches!(self, SelectToolFsmState::Dragging { .. }); let show_compass = !(can_get_into_other_states || is_resizing_or_rotating); let show_compass_with_ring = bounds.map(|bounds| transform * Quad::from_box(bounds)).and_then(|quad| { const MIN_ARROWS_TO_RESIZE_HANDLE_DISTANCE: f64 = 4.; (show_compass && quad.all_sides_at_least_width(COMPASS_ROSE_HOVER_RING_DIAMETER + RESIZE_HANDLE_SIZE + MIN_ARROWS_TO_RESIZE_HANDLE_DISTANCE)) .then_some( matches!(self, SelectToolFsmState::Dragging { .. }) .then_some(show_hover_ring) .or((quad.contains(mouse_position)).then_some(show_hover_ring)), ) .flatten() }); // Update pivot tool_data.pivot.update_pivot(document, &mut overlay_context, Some((angle,))); // Update compass rose if overlay_context.visibility_settings.compass_rose() { tool_data.compass_rose.refresh_position(document); let compass_center = tool_data.compass_rose.compass_rose_position(); if !matches!(self, Self::Dragging { .. }) { tool_data.line_center = compass_center; } overlay_context.compass_rose(compass_center, angle, show_compass_with_ring); let axis_state = if let SelectToolFsmState::Dragging { axis, .. } = self { Some((axis, false)) } else { compass_rose_state.axis_type().and_then(|axis| axis.is_constraint().then_some((axis, true))) }; if show_compass_with_ring.is_some() { if let Some((axis, hover)) = axis_state { if axis.is_constraint() { let e0 = tool_data .bounding_box_manager .as_ref() .map(|bounding_box_manager| bounding_box_manager.transform * Quad::from_box(bounding_box_manager.bounds)) .map_or(DVec2::X, |quad| (quad.top_left() - quad.top_right()).normalize_or(DVec2::X)); let (direction, color) = match axis { Axis::X => (e0, COLOR_OVERLAY_RED), Axis::Y => (e0.perp(), COLOR_OVERLAY_GREEN), _ => unreachable!(), }; let viewport_diagonal = input.viewport_bounds.size().length(); let color = if !hover { color } else { let color_string = &graphene_std::Color::from_rgb_str(color.strip_prefix('#').unwrap()).unwrap().with_alpha(0.25).to_rgba_hex_srgb(); &format!("#{}", color_string) }; let line_center = tool_data.line_center; overlay_context.line(line_center - direction * viewport_diagonal, line_center + direction * viewport_diagonal, Some(color), None); } } } if axis_state.is_none_or(|(axis, _)| !axis.is_constraint()) && tool_data.axis_align { let mouse_position = mouse_position - tool_data.drag_start; let snap_resolution = SELECTION_DRAG_ANGLE.to_radians(); let angle = -mouse_position.angle_to(DVec2::X); let snapped_angle = (angle / snap_resolution).round() * snap_resolution; let extension = tool_data.drag_current - tool_data.drag_start; let origin = compass_center - extension; let viewport_diagonal = input.viewport_bounds.size().length(); let edge = DVec2::from_angle(snapped_angle).normalize_or(DVec2::X) * viewport_diagonal; let perp = edge.perp(); let (edge_color, perp_color) = if edge.x.abs() > edge.y.abs() { (COLOR_OVERLAY_RED, COLOR_OVERLAY_GREEN) } else { (COLOR_OVERLAY_GREEN, COLOR_OVERLAY_RED) }; let mut perp_color = graphene_std::Color::from_rgb_str(perp_color.strip_prefix('#').unwrap()).unwrap().with_alpha(0.25).to_rgba_hex_srgb(); perp_color.insert(0, '#'); let perp_color = perp_color.as_str(); overlay_context.line(origin - edge * viewport_diagonal, origin + edge * viewport_diagonal, Some(edge_color), None); overlay_context.line(origin - perp * viewport_diagonal, origin + perp * viewport_diagonal, Some(perp_color), None); } } // Check if the tool is in selection mode if let Self::Drawing { selection_shape, .. } = self { // Get the updated selection box bounds let quad = Quad::from_box([tool_data.drag_start, tool_data.drag_current]); let current_selection_mode = match tool_action_data.preferences.get_selection_mode() { SelectionMode::Directional => tool_data.calculate_selection_mode_from_direction(), SelectionMode::Touched => SelectionMode::Touched, SelectionMode::Enclosed => SelectionMode::Enclosed, }; // Draw outline visualizations on the layers to be selected let intersected_layers = match selection_shape { SelectionShapeType::Box => document.intersect_quad_no_artboards(quad, input).collect(), SelectionShapeType::Lasso => tool_data.intersect_lasso_no_artboards(document, input), }; let layers_to_outline = intersected_layers.into_iter().filter(|layer| match current_selection_mode { SelectionMode::Enclosed => match selection_shape { SelectionShapeType::Box => document.is_layer_fully_inside(layer, quad), SelectionShapeType::Lasso => tool_data.is_layer_inside_lasso_polygon(layer, document, input), }, SelectionMode::Touched => match tool_data.nested_selection_behavior { NestedSelectionBehavior::Deepest => !layer.has_children(document.metadata()), NestedSelectionBehavior::Shallowest => true, }, SelectionMode::Directional => unreachable!(), }); if overlay_context.visibility_settings.selection_outline() { // Draws a temporary outline on the layers that will be selected by the current box/lasso area for layer in layers_to_outline { let layer_to_viewport = document.metadata().transform_to_viewport(layer); overlay_context.outline(document.metadata().layer_with_free_points_outline(layer), layer_to_viewport, None); } } // Update the selection box let mut fill_color = graphene_std::Color::from_rgb_str(COLOR_OVERLAY_BLUE.strip_prefix('#').unwrap()) .unwrap() .with_alpha(0.05) .to_rgba_hex_srgb(); fill_color.insert(0, '#'); let fill_color = Some(fill_color.as_str()); let polygon = &tool_data.lasso_polygon; match (selection_shape, current_selection_mode) { (SelectionShapeType::Box, SelectionMode::Enclosed) => overlay_context.dashed_quad(quad, None, fill_color, Some(4.), Some(4.), Some(0.5)), (SelectionShapeType::Lasso, SelectionMode::Enclosed) => overlay_context.dashed_polygon(polygon, None, fill_color, Some(4.), Some(4.), Some(0.5)), (SelectionShapeType::Box, _) => overlay_context.quad(quad, None, fill_color), (SelectionShapeType::Lasso, _) => overlay_context.polygon(polygon, None, fill_color), } } self } (_, SelectToolMessage::EditLayer) => { // Edit the clicked layer if let Some(intersect) = document.click(input) { match tool_data.nested_selection_behavior { NestedSelectionBehavior::Shallowest => edit_layer_shallowest_manipulation(document, intersect, responses), NestedSelectionBehavior::Deepest => edit_layer_deepest_manipulation(intersect, &document.network_interface, responses), } } self } ( SelectToolFsmState::Ready { .. }, SelectToolMessage::DragStart { extend_selection, remove_from_selection, select_deepest, lasso_select, .. }, ) => { tool_data.drag_start = input.mouse.position; tool_data.drag_current = input.mouse.position; tool_data.selection_mode = None; let mut selected: Vec<_> = document.network_interface.selected_nodes().selected_visible_and_unlocked_layers(&document.network_interface).collect(); let intersection_list = document.click_list(input).collect::>(); let intersection = document.find_deepest(&intersection_list); let (resize, rotate, skew) = transforming_transform_cage(document, &mut tool_data.bounding_box_manager, input, responses, &mut tool_data.layers_dragging); // If the user is dragging the bounding box bounds, go into ResizingBounds mode. // If the user is dragging the rotate trigger, go into RotatingBounds mode. // If the user clicks on a layer that is in their current selection, go into the dragging mode. // If the user clicks on new shape, make that layer their new selection. // Otherwise enter the box select mode let bounds = tool_data .bounding_box_manager .as_ref() .map(|bounding_box_manager| bounding_box_manager.transform * Quad::from_box(bounding_box_manager.bounds)); let angle = bounds.map_or(0., |quad| (quad.top_left() - quad.top_right()).to_angle()); let mouse_position = input.mouse.position; let compass_rose_state = tool_data.compass_rose.compass_rose_state(mouse_position, angle); let is_over_pivot = tool_data.pivot.is_over(mouse_position); let show_compass = bounds.is_some_and(|quad| quad.all_sides_at_least_width(COMPASS_ROSE_HOVER_RING_DIAMETER) && quad.contains(mouse_position)); let can_grab_compass_rose = compass_rose_state.can_grab() && (show_compass || bounds.is_none()); let state = if is_over_pivot // Dragging the pivot { responses.add(DocumentMessage::StartTransaction); // tool_data.snap_manager.start_snap(document, input, document.bounding_boxes(), true, true); // tool_data.snap_manager.add_all_document_handles(document, input, &[], &[], &[]); SelectToolFsmState::DraggingPivot } // Dragging one (or two, forming a corner) of the transform cage bounding box edges else if resize { tool_data.get_snap_candidates(document, input); SelectToolFsmState::ResizingBounds } else if skew { tool_data.get_snap_candidates(document, input); SelectToolFsmState::SkewingBounds { skew: Key::Control } } // Dragging the selected layers around to transform them else if can_grab_compass_rose || intersection.is_some_and(|intersection| selected.iter().any(|selected_layer| intersection.starts_with(*selected_layer, document.metadata()))) { responses.add(DocumentMessage::StartTransaction); if input.keyboard.key(select_deepest) || tool_data.nested_selection_behavior == NestedSelectionBehavior::Deepest { tool_data.select_single_layer = intersection; } else { tool_data.select_single_layer = intersection.and_then(|intersection| intersection.ancestors(document.metadata()).find(|ancestor| selected.contains(ancestor))); } tool_data.layers_dragging = selected; tool_data.get_snap_candidates(document, input); let (axis, using_compass) = { let axis_state = compass_rose_state.axis_type().filter(|_| can_grab_compass_rose); (axis_state.unwrap_or_default(), axis_state.is_some()) }; SelectToolFsmState::Dragging { axis, using_compass, has_dragged: false, deepest: input.keyboard.key(select_deepest), remove: input.keyboard.key(extend_selection), } } // Dragging near the transform cage bounding box to rotate it else if rotate { SelectToolFsmState::RotatingBounds } // Dragging a selection box else { tool_data.layers_dragging = selected; let extend = input.keyboard.key(extend_selection); if !extend && !input.keyboard.key(remove_from_selection) { responses.add(DocumentMessage::DeselectAllLayers); tool_data.layers_dragging.clear(); } if let Some(intersection) = intersection { tool_data.layer_selected_on_start = Some(intersection); selected = intersection_list; match tool_data.nested_selection_behavior { NestedSelectionBehavior::Shallowest if !input.keyboard.key(select_deepest) => drag_shallowest_manipulation(responses, selected, tool_data, document, false, extend), _ => drag_deepest_manipulation(responses, selected, tool_data, document, false), } tool_data.get_snap_candidates(document, input); responses.add(DocumentMessage::StartTransaction); SelectToolFsmState::Dragging { axis: Axis::None, using_compass: false, has_dragged: false, deepest: input.keyboard.key(select_deepest), remove: input.keyboard.key(extend_selection), } } else { let selection_shape = if input.keyboard.key(lasso_select) { SelectionShapeType::Lasso } else { SelectionShapeType::Box }; SelectToolFsmState::Drawing { selection_shape, has_drawn: false } } }; tool_data.non_duplicated_layers = None; state } (SelectToolFsmState::DraggingPivot, SelectToolMessage::Abort) => { responses.add(DocumentMessage::AbortTransaction); let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } ( SelectToolFsmState::Dragging { axis, using_compass, has_dragged, deepest, remove, }, SelectToolMessage::PointerMove(modifier_keys), ) => { if !has_dragged { responses.add(ToolMessage::UpdateHints); } if input.keyboard.key(modifier_keys.duplicate) && tool_data.non_duplicated_layers.is_none() { tool_data.start_duplicates(document, responses); } else if !input.keyboard.key(modifier_keys.duplicate) && tool_data.non_duplicated_layers.is_some() { tool_data.stop_duplicates(document, responses); } tool_data.axis_align = input.keyboard.key(modifier_keys.axis_align); // Ignore the non duplicated layers if the current layers have not spawned yet. let layers_exist = tool_data.layers_dragging.iter().all(|&layer| document.metadata().click_targets(layer).is_some()); let ignore = tool_data.non_duplicated_layers.as_ref().filter(|_| !layers_exist).unwrap_or(&tool_data.layers_dragging); let snap_data = SnapData::ignore(document, input, ignore); let (start, current) = (tool_data.drag_start, tool_data.drag_current); let e0 = tool_data .bounding_box_manager .as_ref() .map(|bounding_box_manager| bounding_box_manager.transform * Quad::from_box(bounding_box_manager.bounds)) .map_or(DVec2::X, |quad| (quad.top_left() - quad.top_right()).normalize_or(DVec2::X)); let mouse_delta = snap_drag(start, current, tool_data.axis_align, axis, snap_data, &mut tool_data.snap_manager, &tool_data.snap_candidates); let mouse_delta = match axis { Axis::X => mouse_delta.project_onto(e0), Axis::Y => mouse_delta.project_onto(e0.perp()), Axis::None => mouse_delta, }; // TODO: Cache the result of `shallowest_unique_layers` to avoid this heavy computation every frame of movement, see https://github.com/GraphiteEditor/Graphite/pull/481 for layer in document.network_interface.shallowest_unique_layers(&[]) { responses.add_front(GraphOperationMessage::TransformChange { layer, transform: DAffine2::from_translation(mouse_delta), transform_in: TransformIn::Viewport, skip_rerender: false, }); } tool_data.drag_current += mouse_delta; // Auto-panning let messages = [ SelectToolMessage::PointerOutsideViewport(modifier_keys.clone()).into(), SelectToolMessage::PointerMove(modifier_keys).into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); SelectToolFsmState::Dragging { axis, using_compass, has_dragged: true, deepest, remove, } } (SelectToolFsmState::ResizingBounds, SelectToolMessage::PointerMove(modifier_keys)) => { if let Some(bounds) = &mut tool_data.bounding_box_manager { resize_bounds( document, responses, bounds, &mut tool_data.layers_dragging, &mut tool_data.snap_manager, &mut tool_data.snap_candidates, input, input.keyboard.key(modifier_keys.center), input.keyboard.key(modifier_keys.axis_align), ToolType::Select, ); let messages = [ SelectToolMessage::PointerOutsideViewport(modifier_keys.clone()).into(), SelectToolMessage::PointerMove(modifier_keys).into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); } SelectToolFsmState::ResizingBounds } (SelectToolFsmState::SkewingBounds { skew }, SelectToolMessage::PointerMove(_)) => { if let Some(bounds) = &mut tool_data.bounding_box_manager { skew_bounds( document, responses, bounds, input.keyboard.key(skew), &mut tool_data.layers_dragging, input.mouse.position, ToolType::Select, ); } SelectToolFsmState::SkewingBounds { skew } } (SelectToolFsmState::RotatingBounds, SelectToolMessage::PointerMove(_)) => { if let Some(bounds) = &mut tool_data.bounding_box_manager { rotate_bounds( document, responses, bounds, &mut tool_data.layers_dragging, tool_data.drag_start, input.mouse.position, input.keyboard.key(Key::Shift), ToolType::Select, ); } SelectToolFsmState::RotatingBounds } (SelectToolFsmState::DraggingPivot, SelectToolMessage::PointerMove(modifier_keys)) => { let mouse_position = input.mouse.position; let snapped_mouse_position = mouse_position; tool_data.pivot.set_viewport_position(snapped_mouse_position, document, responses); // Auto-panning let messages = [ SelectToolMessage::PointerOutsideViewport(modifier_keys.clone()).into(), SelectToolMessage::PointerMove(modifier_keys).into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); SelectToolFsmState::DraggingPivot } (SelectToolFsmState::Drawing { selection_shape, has_drawn }, SelectToolMessage::PointerMove(modifier_keys)) => { if !has_drawn { responses.add(ToolMessage::UpdateHints); } tool_data.drag_current = input.mouse.position; responses.add(OverlaysMessage::Draw); if selection_shape == SelectionShapeType::Lasso { extend_lasso(&mut tool_data.lasso_polygon, tool_data.drag_current); } // Auto-panning let messages = [ SelectToolMessage::PointerOutsideViewport(modifier_keys.clone()).into(), SelectToolMessage::PointerMove(modifier_keys).into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); SelectToolFsmState::Drawing { selection_shape, has_drawn: true } } (SelectToolFsmState::Ready { .. }, SelectToolMessage::PointerMove(_)) => { let dragging_bounds = tool_data .bounding_box_manager .as_mut() .and_then(|bounding_box| bounding_box.check_selected_edges(input.mouse.position)) .is_some(); let mut cursor = tool_data .bounding_box_manager .as_ref() .map_or(MouseCursorIcon::Default, |bounds| bounds.get_cursor(input, true, dragging_bounds, Some(tool_data.skew_edge))); // Dragging the pivot overrules the other operations if tool_data.pivot.is_over(input.mouse.position) { cursor = MouseCursorIcon::Move; } // Generate the hover outline responses.add(OverlaysMessage::Draw); if tool_data.cursor != cursor { tool_data.cursor = cursor; responses.add(FrontendMessage::UpdateMouseCursor { cursor }); } let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } ( SelectToolFsmState::Dragging { axis, using_compass, has_dragged, deepest, remove, }, SelectToolMessage::PointerOutsideViewport(_), ) => { // Auto-panning if let Some(shift) = tool_data.auto_panning.shift_viewport(input, responses) { tool_data.drag_current += shift; tool_data.drag_start += shift; } SelectToolFsmState::Dragging { axis, using_compass, has_dragged, deepest, remove, } } (SelectToolFsmState::ResizingBounds | SelectToolFsmState::SkewingBounds { .. }, SelectToolMessage::PointerOutsideViewport(_)) => { // Auto-panning if let Some(shift) = tool_data.auto_panning.shift_viewport(input, responses) { if let Some(bounds) = &mut tool_data.bounding_box_manager { bounds.center_of_transformation += shift; bounds.original_bound_transform.translation += shift; } } self } (SelectToolFsmState::DraggingPivot, SelectToolMessage::PointerOutsideViewport(_)) => { // Auto-panning let _ = tool_data.auto_panning.shift_viewport(input, responses); self } (SelectToolFsmState::Drawing { .. }, SelectToolMessage::PointerOutsideViewport(_)) => { // Auto-panning if let Some(shift) = tool_data.auto_panning.shift_viewport(input, responses) { tool_data.drag_start += shift; } self } (state, SelectToolMessage::PointerOutsideViewport(modifier_keys)) => { // Auto-panning let messages = [ SelectToolMessage::PointerOutsideViewport(modifier_keys.clone()).into(), SelectToolMessage::PointerMove(modifier_keys).into(), ]; tool_data.auto_panning.stop(&messages, responses); state } (SelectToolFsmState::Dragging { has_dragged, remove, deepest, .. }, SelectToolMessage::DragStop { remove_from_selection }) => { // Deselect layer if not snap dragging responses.add(DocumentMessage::EndTransaction); tool_data.axis_align = false; if !has_dragged && input.keyboard.key(remove_from_selection) && tool_data.layer_selected_on_start.is_none() { // When you click on the layer with remove from selection key (shift) pressed, we deselect all nodes that are children. let quad = tool_data.selection_quad(); let intersection = document.intersect_quad_no_artboards(quad, input); if let Some(path) = intersection.last() { let replacement_selected_layers: Vec<_> = document .network_interface .selected_nodes() .selected_layers(document.metadata()) .filter(|&layer| !path.starts_with(layer, document.metadata())) .collect(); tool_data.layers_dragging.clear(); tool_data.layers_dragging.extend(replacement_selected_layers.iter()); responses.add(NodeGraphMessage::SelectedNodesSet { nodes: replacement_selected_layers .iter() .filter_map(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { Some(layer.to_node()) } else { log::error!("ROOT_PARENT cannot be part of replacement_selected_layers"); None } }) .collect(), }); } } else if tool_data.select_single_layer.take().is_some() { // Previously, we may have had many layers selected. If the user clicks without dragging, we should just select the one layer that has been clicked. if !has_dragged { let selected = document.click_list(input).collect::>(); let intersection = document.find_deepest(&selected); if let Some(intersection) = intersection { tool_data.layer_selected_on_start = Some(intersection); match tool_data.nested_selection_behavior { NestedSelectionBehavior::Shallowest if remove && !deepest => drag_shallowest_manipulation(responses, selected, tool_data, document, true, true), NestedSelectionBehavior::Deepest if remove => drag_deepest_manipulation(responses, selected, tool_data, document, true), NestedSelectionBehavior::Shallowest if !deepest => drag_shallowest_manipulation(responses, selected, tool_data, document, false, true), _ => { responses.add(DocumentMessage::DeselectAllLayers); tool_data.layers_dragging.clear(); drag_deepest_manipulation(responses, selected, tool_data, document, false) } } tool_data.get_snap_candidates(document, input); responses.add(DocumentMessage::StartTransaction); } } } tool_data.layer_selected_on_start = None; tool_data.snap_manager.cleanup(responses); tool_data.select_single_layer = None; let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } ( SelectToolFsmState::ResizingBounds | SelectToolFsmState::SkewingBounds { .. } | SelectToolFsmState::RotatingBounds | SelectToolFsmState::Dragging { .. } | SelectToolFsmState::DraggingPivot, SelectToolMessage::DragStop { .. } | SelectToolMessage::Enter, ) => { let drag_too_small = input.mouse.position.distance(tool_data.drag_start) < 10. * f64::EPSILON; let response = if drag_too_small { DocumentMessage::AbortTransaction } else { DocumentMessage::EndTransaction }; responses.add(response); tool_data.axis_align = false; tool_data.snap_manager.cleanup(responses); if !matches!(self, SelectToolFsmState::DraggingPivot) { if let Some(bounds) = &mut tool_data.bounding_box_manager { bounds.original_transforms.clear(); } } let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } (SelectToolFsmState::Drawing { selection_shape, .. }, SelectToolMessage::DragStop { remove_from_selection }) => { let quad = tool_data.selection_quad(); let selection_mode = match tool_action_data.preferences.get_selection_mode() { SelectionMode::Directional => tool_data.calculate_selection_mode_from_direction(), selection_mode => selection_mode, }; let intersection: Vec = match selection_shape { SelectionShapeType::Box => document.intersect_quad_no_artboards(quad, input).collect(), SelectionShapeType::Lasso => tool_data.intersect_lasso_no_artboards(document, input), }; let new_selected: HashSet<_> = if selection_mode == SelectionMode::Enclosed { let is_inside = |layer: &LayerNodeIdentifier| match selection_shape { SelectionShapeType::Box => document.is_layer_fully_inside(layer, quad), SelectionShapeType::Lasso => tool_data.is_layer_inside_lasso_polygon(layer, document, input), }; intersection.into_iter().filter(is_inside).collect() } else { intersection.into_iter().collect() }; let current_selected: HashSet<_> = document.network_interface.selected_nodes().selected_layers(document.metadata()).collect(); let negative_selection = input.keyboard.key(remove_from_selection); let selection_modified = new_selected != current_selected; // Negative selection when both Shift and Ctrl are pressed if negative_selection { let updated_selection = current_selected .into_iter() .filter(|layer| !new_selected.iter().any(|selected| layer.starts_with(*selected, document.metadata()))) .collect(); tool_data.layers_dragging = updated_selection; } else if selection_modified { match tool_data.nested_selection_behavior { NestedSelectionBehavior::Deepest => { let filtered_selections = filter_nested_selection(document.metadata(), &new_selected); tool_data.layers_dragging.extend(filtered_selections); } NestedSelectionBehavior::Shallowest => { // Find each new_selected's parent node let parent_selected: HashSet<_> = new_selected .into_iter() .map(|layer| layer.ancestors(document.metadata()).filter(not_artboard(document)).last().unwrap_or(layer)) .collect(); tool_data.layers_dragging.extend(parent_selected.iter().copied()); } } } if negative_selection || selection_modified { responses.add(NodeGraphMessage::SelectedNodesSet { nodes: tool_data .layers_dragging .iter() .filter_map(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { Some(layer.to_node()) } else { log::error!("ROOT_PARENT cannot be part of tool_data.layers_dragging"); None } }) .collect(), }); } tool_data.lasso_polygon.clear(); responses.add(OverlaysMessage::Draw); let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } (SelectToolFsmState::Ready { .. }, SelectToolMessage::Enter) => { let selected_nodes = document.network_interface.selected_nodes(); let mut selected_layers = selected_nodes.selected_layers(document.metadata()); if let Some(layer) = selected_layers.next() { // Check that only one layer is selected if selected_layers.next().is_none() && is_layer_fed_by_node_of_name(layer, &document.network_interface, "Text") { responses.add_front(ToolMessage::ActivateTool { tool_type: ToolType::Text }); responses.add(TextToolMessage::EditSelected); } } let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } (SelectToolFsmState::Dragging { .. }, SelectToolMessage::Abort) => { responses.add(DocumentMessage::AbortTransaction); tool_data.snap_manager.cleanup(responses); tool_data.axis_align = false; tool_data.lasso_polygon.clear(); responses.add(OverlaysMessage::Draw); let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } (_, SelectToolMessage::Abort) => { tool_data.layers_dragging.retain(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { document.network_interface.document_network().nodes.contains_key(&layer.to_node()) } else { false } }); if let Some(bounds) = &mut tool_data.bounding_box_manager { bounds.original_transforms.clear(); } responses.add(DocumentMessage::AbortTransaction); tool_data.snap_manager.cleanup(responses); tool_data.lasso_polygon.clear(); responses.add(OverlaysMessage::Draw); let selection = tool_data.nested_selection_behavior; SelectToolFsmState::Ready { selection } } (_, SelectToolMessage::SetPivot { position }) => { responses.add(DocumentMessage::StartTransaction); let pos: Option = position.into(); tool_data.pivot.set_normalized_position(pos.unwrap(), document, responses); self } _ => self, } } fn standard_tool_messages(&self, message: &ToolMessage, responses: &mut VecDeque) -> bool { // Check for standard hits or cursor events match message { ToolMessage::UpdateHints => { self.update_hints(responses); true } ToolMessage::UpdateCursor => { self.update_cursor(responses); true } _ => false, } } fn update_hints(&self, responses: &mut VecDeque) { match self { SelectToolFsmState::Ready { selection } => { let hint_data = HintData(vec![ HintGroup({ let mut hints = vec![HintInfo::mouse(MouseMotion::Lmb, "Select Object"), HintInfo::keys([Key::Shift], "Extend").prepend_plus()]; if *selection == NestedSelectionBehavior::Shallowest { hints.extend([HintInfo::keys([Key::Accel], "Deepest").prepend_plus(), HintInfo::mouse(MouseMotion::LmbDouble, "Deepen")]); } hints }), HintGroup(vec![ HintInfo::mouse(MouseMotion::LmbDrag, "Select Area"), HintInfo::keys([Key::Shift], "Extend").prepend_plus(), HintInfo::keys([Key::Alt], "Subtract").prepend_plus(), HintInfo::keys([Key::Control], "Lasso").prepend_plus(), ]), // TODO: Make all the following hints only appear if there is at least one selected layer HintGroup(vec![HintInfo::mouse(MouseMotion::LmbDrag, "Drag Selected")]), HintGroup(vec![HintInfo::multi_keys([[Key::KeyG], [Key::KeyR], [Key::KeyS]], "Grab/Rotate/Scale Selected")]), HintGroup(vec![ HintInfo::arrow_keys("Nudge Selected"), HintInfo::keys([Key::Shift], "10x").prepend_plus(), HintInfo::keys([Key::Alt], "Resize Corner").prepend_plus(), HintInfo::keys([Key::Control], "Other Corner").prepend_plus(), ]), HintGroup(vec![ HintInfo::keys_and_mouse([Key::Alt], MouseMotion::LmbDrag, "Move Duplicate"), HintInfo::keys([Key::Control, Key::KeyD], "Duplicate").add_mac_keys([Key::Command, Key::KeyD]), ]), ]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::Dragging { axis, using_compass, has_dragged, .. } if *has_dragged => { let mut hint_data = vec![ HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()]), HintGroup(vec![ HintInfo::keys([Key::Alt], "Move Duplicate"), HintInfo::keys([Key::Control, Key::KeyD], "Place Duplicate").add_mac_keys([Key::Command, Key::KeyD]), ]), ]; if !(*using_compass && axis.is_constraint()) { hint_data.push(HintGroup(vec![HintInfo::keys([Key::Shift], "Constrain to Axis")])); }; let hint_data = HintData(hint_data); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::Drawing { has_drawn, .. } if *has_drawn => { let hint_data = HintData(vec![ HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()]), HintGroup(vec![HintInfo::keys([Key::Shift], "Extend"), HintInfo::keys([Key::Alt], "Subtract")]), // TODO: Re-select deselected layers during drag when Shift is pressed, and re-deselect if Shift is released before drag ends. // TODO: (See https://discord.com/channels/731730685944922173/1216976541947531264/1321360311298818048) // HintGroup(vec![HintInfo::keys([Key::Shift], "Extend")]) ]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::Drawing { .. } | SelectToolFsmState::Dragging { .. } => {} SelectToolFsmState::ResizingBounds => { let hint_data = HintData(vec![ HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()]), HintGroup(vec![HintInfo::keys([Key::Alt], "From Pivot"), HintInfo::keys([Key::Shift], "Preserve Aspect Ratio")]), ]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::RotatingBounds => { let hint_data = HintData(vec![ HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()]), HintGroup(vec![HintInfo::keys([Key::Shift], "15° Increments")]), ]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::SkewingBounds { .. } => { let hint_data = HintData(vec![ HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()]), HintGroup(vec![HintInfo::keys([Key::Control], "Unlock Slide")]), ]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } SelectToolFsmState::DraggingPivot => { let hint_data = HintData(vec![HintGroup(vec![HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "Cancel").prepend_slash()])]); responses.add(FrontendMessage::UpdateInputHints { hint_data }); } } } fn update_cursor(&self, responses: &mut VecDeque) { responses.add(FrontendMessage::UpdateMouseCursor { cursor: MouseCursorIcon::Default }); } } fn not_artboard(document: &DocumentMessageHandler) -> impl Fn(&LayerNodeIdentifier) -> bool + '_ { |&layer| layer != LayerNodeIdentifier::ROOT_PARENT && !document.network_interface.is_artboard(&layer.to_node(), &[]) } fn drag_shallowest_manipulation(responses: &mut VecDeque, selected: Vec, tool_data: &mut SelectToolData, document: &DocumentMessageHandler, remove: bool, exists: bool) { if selected.is_empty() { return; } let clicked_layer = document.find_deepest(&selected).unwrap_or_else(|| { LayerNodeIdentifier::ROOT_PARENT .children(document.metadata()) .next() .expect("ROOT_PARENT should have at least one layer when clicking") }); let metadata = document.metadata(); let selected_layers = document.network_interface.selected_nodes().selected_layers(document.metadata()).collect::>(); let final_selection: Option = (!selected_layers.is_empty() && selected_layers != vec![LayerNodeIdentifier::ROOT_PARENT]).then_some(()).and_then(|_| { let mut relevant_layers = document.network_interface.selected_nodes().selected_layers(document.metadata()).collect::>(); if !relevant_layers.contains(&clicked_layer) { relevant_layers.push(clicked_layer); } clicked_layer .ancestors(metadata) .filter(not_artboard(document)) .find(|&ancestor| relevant_layers.iter().all(|layer| *layer == ancestor || ancestor.is_ancestor_of(metadata, layer))) .and_then(|least_common_ancestor| { let common_siblings: Vec<_> = least_common_ancestor.children(metadata).collect(); (clicked_layer == least_common_ancestor) .then_some(least_common_ancestor) .or_else(|| common_siblings.iter().find(|&&child| clicked_layer == child || child.is_ancestor_of(metadata, &clicked_layer)).copied()) }) }); if final_selection.is_some_and(|layer| selected_layers.iter().any(|selected| layer.is_child_of(metadata, selected))) { if exists && remove && selected_layers.len() == 1 { responses.add(DocumentMessage::DeselectAllLayers); tool_data.layers_dragging.clear(); } return; } if !exists && !remove { responses.add(DocumentMessage::DeselectAllLayers); tool_data.layers_dragging.clear(); } let new_selected = final_selection.unwrap_or_else(|| clicked_layer.ancestors(document.metadata()).filter(not_artboard(document)).last().unwrap_or(clicked_layer)); tool_data.layers_dragging.extend(vec![new_selected]); tool_data.layers_dragging.retain(|&selected_layer| !selected_layer.is_child_of(metadata, &new_selected)); if remove { tool_data.layers_dragging.retain(|&selected_layer| clicked_layer != selected_layer); if selected_layers.contains(&new_selected) { tool_data.layers_dragging.retain(|&selected_layer| new_selected != selected_layer); } } responses.add(NodeGraphMessage::SelectedNodesSet { nodes: tool_data .layers_dragging .iter() .filter_map(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { Some(layer.to_node()) } else { log::error!("ROOT_PARENT cannot be part of tool_data.layers_dragging"); None } }) .collect(), }); } fn layer_selected_shallowest(clicked_layer: LayerNodeIdentifier, document: &DocumentMessageHandler) -> Option { let metadata = document.metadata(); let selected_layers = document.network_interface.selected_nodes().selected_layers(document.metadata()).collect::>(); let final_selection: Option = (!selected_layers.is_empty() && selected_layers != vec![LayerNodeIdentifier::ROOT_PARENT]).then_some(()).and_then(|_| { let mut relevant_layers = document.network_interface.selected_nodes().selected_layers(document.metadata()).collect::>(); if !relevant_layers.contains(&clicked_layer) { relevant_layers.push(clicked_layer); } clicked_layer .ancestors(metadata) .filter(not_artboard(document)) .find(|&ancestor| relevant_layers.iter().all(|layer| *layer == ancestor || ancestor.is_ancestor_of(metadata, layer))) .and_then(|least_common_ancestor| { let common_siblings: Vec<_> = least_common_ancestor.children(metadata).collect(); (clicked_layer == least_common_ancestor) .then_some(least_common_ancestor) .or_else(|| common_siblings.iter().find(|&&child| clicked_layer == child || child.is_ancestor_of(metadata, &clicked_layer)).copied()) }) }); if final_selection.is_some_and(|layer| selected_layers.iter().any(|selected| layer.is_child_of(metadata, selected))) { return None; } let new_selected = final_selection.unwrap_or_else(|| clicked_layer.ancestors(document.metadata()).filter(not_artboard(document)).last().unwrap_or(clicked_layer)); Some(new_selected) } fn drag_deepest_manipulation(responses: &mut VecDeque, selected: Vec, tool_data: &mut SelectToolData, document: &DocumentMessageHandler, remove: bool) { let layer = document.find_deepest(&selected).unwrap_or( LayerNodeIdentifier::ROOT_PARENT .children(document.metadata()) .next() .expect("ROOT_PARENT should have a layer child when clicking"), ); if !remove { tool_data.layers_dragging.extend(vec![layer]); } else { tool_data.layers_dragging.retain(|&selected_layer| layer != selected_layer); } responses.add(NodeGraphMessage::SelectedNodesSet { nodes: tool_data .layers_dragging .iter() .filter_map(|layer| { if *layer != LayerNodeIdentifier::ROOT_PARENT { Some(layer.to_node()) } else { log::error!("ROOT_PARENT cannot be part of tool_data.layers_dragging"); None } }) .collect(), }); } /// Called when you double click on the layer of the shallowest layer. /// If possible, the direct sibling of an old selected layer is the new selected layer. /// Otherwise, the first non-parent ancestor is selected. fn edit_layer_shallowest_manipulation(document: &DocumentMessageHandler, layer: LayerNodeIdentifier, responses: &mut VecDeque) { let Some(new_selected) = layer.ancestors(document.metadata()).filter(not_artboard(document)).find(|ancestor| { ancestor .parent(document.metadata()) .is_some_and(|parent| document.network_interface.selected_nodes().selected_layers_contains(parent, document.metadata())) }) else { return; }; if new_selected == LayerNodeIdentifier::ROOT_PARENT { log::error!("new_selected cannot be ROOT_PARENT"); return; } responses.add(NodeGraphMessage::SelectedNodesSet { nodes: vec![new_selected.to_node()] }); } /// Called when a double click on a layer in deep select mode. /// If the layer is text, the text tool is selected. fn edit_layer_deepest_manipulation(layer: LayerNodeIdentifier, network_interface: &NodeNetworkInterface, responses: &mut VecDeque) { if is_layer_fed_by_node_of_name(layer, network_interface, "Text") { responses.add_front(ToolMessage::ActivateTool { tool_type: ToolType::Text }); responses.add(TextToolMessage::EditSelected); } } pub fn extend_lasso(lasso_polygon: &mut Vec, point: DVec2) { if lasso_polygon.len() < 2 { lasso_polygon.push(point); } else { let last_points = lasso_polygon.last_chunk::<2>().unwrap(); let distance = last_points[0].distance_squared(last_points[1]); if distance < SELECTION_TOLERANCE.powi(2) { lasso_polygon.pop(); } lasso_polygon.push(point); } } pub fn filter_nested_selection(metadata: &DocumentMetadata, new_selected: &HashSet) -> HashSet { // First collect childless layers let mut filtered_selection: HashSet<_> = new_selected.iter().copied().filter(|layer| !layer.has_children(metadata)).collect(); // Then process parents with all children selected for &layer in new_selected { // Skip if the layer is not a parent if !layer.has_children(metadata) { continue; } // If any ancestor is already present in the filtered selection, don't include its child if layer.ancestors(metadata).any(|ancestor| filtered_selection.contains(&ancestor)) { continue; } // Skip if any of the children are not selected if !layer.descendants(metadata).all(|descendant| new_selected.contains(&descendant)) { continue; } // Remove all descendants of the parent for child in layer.descendants(metadata) { filtered_selection.remove(&child); } // Add the parent filtered_selection.insert(layer); } filtered_selection }