use super::tool_prelude::*; use crate::consts::{DEFAULT_STROKE_WIDTH, HIDE_HANDLE_DISTANCE, LINE_ROTATE_SNAP_ANGLE}; use crate::messages::portfolio::document::node_graph::document_node_definitions::resolve_document_node_type; use crate::messages::portfolio::document::overlays::utility_functions::path_overlays; use crate::messages::portfolio::document::overlays::utility_types::OverlayContext; use crate::messages::portfolio::document::utility_types::document_metadata::LayerNodeIdentifier; use crate::messages::tool::common_functionality::auto_panning::AutoPanning; use crate::messages::tool::common_functionality::color_selector::{ToolColorOptions, ToolColorType}; use crate::messages::tool::common_functionality::graph_modification_utils; use crate::messages::tool::common_functionality::snapping::{SnapCandidatePoint, SnapConstraint, SnapData, SnapManager}; use crate::messages::tool::common_functionality::utility_functions::should_extend; use bezier_rs::{Bezier, BezierHandles}; use graph_craft::document::NodeId; use graphene_core::vector::{PointId, VectorModificationType}; use graphene_core::Color; use graphene_std::vector::{HandleId, SegmentId}; #[derive(Default)] pub struct PenTool { fsm_state: PenToolFsmState, tool_data: PenToolData, options: PenOptions, } pub struct PenOptions { line_weight: f64, fill: ToolColorOptions, stroke: ToolColorOptions, } impl Default for PenOptions { fn default() -> Self { Self { line_weight: DEFAULT_STROKE_WIDTH, fill: ToolColorOptions::new_secondary(), stroke: ToolColorOptions::new_primary(), } } } #[impl_message(Message, ToolMessage, Pen)] #[derive(PartialEq, Clone, Debug, serde::Serialize, serde::Deserialize, specta::Type)] pub enum PenToolMessage { // Standard messages Abort, SelectionChanged, WorkingColorChanged, Overlays(OverlayContext), // Tool-specific messages Confirm, DragStart, DragStop, PointerMove { snap_angle: Key, break_handle: Key, lock_angle: Key }, PointerOutsideViewport { snap_angle: Key, break_handle: Key, lock_angle: Key }, Redo, Undo, UpdateOptions(PenOptionsUpdate), } #[derive(Clone, Copy, Debug, Default, PartialEq, Eq)] enum PenToolFsmState { #[default] Ready, DraggingHandle, PlacingAnchor, } #[derive(PartialEq, Clone, Debug, serde::Serialize, serde::Deserialize, specta::Type)] pub enum PenOptionsUpdate { FillColor(Option), FillColorType(ToolColorType), LineWeight(f64), StrokeColor(Option), StrokeColorType(ToolColorType), WorkingColors(Option, Option), } impl ToolMetadata for PenTool { fn icon_name(&self) -> String { "VectorPenTool".into() } fn tooltip(&self) -> String { "Pen Tool".into() } fn tool_type(&self) -> crate::messages::tool::utility_types::ToolType { ToolType::Pen } } fn create_weight_widget(line_weight: f64) -> WidgetHolder { NumberInput::new(Some(line_weight)) .unit(" px") .label("Weight") .min(0.) .max((1_u64 << f64::MANTISSA_DIGITS) as f64) .on_update(|number_input: &NumberInput| PenToolMessage::UpdateOptions(PenOptionsUpdate::LineWeight(number_input.value.unwrap())).into()) .widget_holder() } impl LayoutHolder for PenTool { fn layout(&self) -> Layout { let mut widgets = self.options.fill.create_widgets( "Fill", true, |_| PenToolMessage::UpdateOptions(PenOptionsUpdate::FillColor(None)).into(), |color_type: ToolColorType| WidgetCallback::new(move |_| PenToolMessage::UpdateOptions(PenOptionsUpdate::FillColorType(color_type.clone())).into()), |color: &ColorButton| PenToolMessage::UpdateOptions(PenOptionsUpdate::FillColor(color.value.as_solid())).into(), ); widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.append(&mut self.options.stroke.create_widgets( "Stroke", true, |_| PenToolMessage::UpdateOptions(PenOptionsUpdate::StrokeColor(None)).into(), |color_type: ToolColorType| WidgetCallback::new(move |_| PenToolMessage::UpdateOptions(PenOptionsUpdate::StrokeColorType(color_type.clone())).into()), |color: &ColorButton| PenToolMessage::UpdateOptions(PenOptionsUpdate::StrokeColor(color.value.as_solid())).into(), )); widgets.push(Separator::new(SeparatorType::Unrelated).widget_holder()); widgets.push(create_weight_widget(self.options.line_weight)); Layout::WidgetLayout(WidgetLayout::new(vec![LayoutGroup::Row { widgets }])) } } impl<'a> MessageHandler> for PenTool { fn process_message(&mut self, message: ToolMessage, responses: &mut VecDeque, tool_data: &mut ToolActionHandlerData<'a>) { let ToolMessage::Pen(PenToolMessage::UpdateOptions(action)) = message else { self.fsm_state.process_event(message, &mut self.tool_data, tool_data, &self.options, responses, true); return; }; match action { PenOptionsUpdate::LineWeight(line_weight) => self.options.line_weight = line_weight, PenOptionsUpdate::FillColor(color) => { self.options.fill.custom_color = color; self.options.fill.color_type = ToolColorType::Custom; } PenOptionsUpdate::FillColorType(color_type) => self.options.fill.color_type = color_type, PenOptionsUpdate::StrokeColor(color) => { self.options.stroke.custom_color = color; self.options.stroke.color_type = ToolColorType::Custom; } PenOptionsUpdate::StrokeColorType(color_type) => self.options.stroke.color_type = color_type, PenOptionsUpdate::WorkingColors(primary, secondary) => { self.options.stroke.primary_working_color = primary; self.options.stroke.secondary_working_color = secondary; self.options.fill.primary_working_color = primary; self.options.fill.secondary_working_color = secondary; } } self.send_layout(responses, LayoutTarget::ToolOptions); } fn actions(&self) -> ActionList { match self.fsm_state { PenToolFsmState::Ready => actions!(PenToolMessageDiscriminant; Undo, DragStart, DragStop, Confirm, Abort, PointerMove, ), PenToolFsmState::DraggingHandle | PenToolFsmState::PlacingAnchor => actions!(PenToolMessageDiscriminant; DragStart, DragStop, PointerMove, Confirm, Abort, ), } } } impl ToolTransition for PenTool { fn event_to_message_map(&self) -> EventToMessageMap { EventToMessageMap { tool_abort: Some(PenToolMessage::Abort.into()), selection_changed: Some(PenToolMessage::SelectionChanged.into()), working_color_changed: Some(PenToolMessage::WorkingColorChanged.into()), overlay_provider: Some(|overlay_context| PenToolMessage::Overlays(overlay_context).into()), ..Default::default() } } } #[derive(Clone, Debug, Default)] struct ModifierState { snap_angle: bool, lock_angle: bool, break_handle: bool, } #[derive(Clone, Debug)] struct LastPoint { id: PointId, pos: DVec2, in_segment: Option, handle_start: DVec2, } #[derive(Clone, Debug, Default)] struct PenToolData { layer: Option, snap_manager: SnapManager, latest_points: Vec, point_index: usize, handle_end: Option, next_point: DVec2, next_handle_start: DVec2, g1_continuous: bool, angle: f64, auto_panning: AutoPanning, modifiers: ModifierState, } impl PenToolData { fn latest_point(&self) -> Option<&LastPoint> { self.latest_points.get(self.point_index) } fn latest_point_mut(&mut self) -> Option<&mut LastPoint> { self.latest_points.get_mut(self.point_index) } fn add_point(&mut self, point: LastPoint) { self.point_index = (self.point_index + 1).min(self.latest_points.len()); self.latest_points.truncate(self.point_index); self.latest_points.push(point); } /// If the user places the anchor on top of the previous anchor, it becomes sharp and the outgoing handle may be dragged. fn bend_from_previous_point(&mut self, snap_data: SnapData, transform: DAffine2) { self.g1_continuous = true; let document = snap_data.document; self.next_handle_start = self.next_point; // Break the control let Some(last_pos) = self.latest_point().map(|point| point.pos) else { return }; let transform = document.metadata().document_to_viewport * transform; let on_top = transform.transform_point2(self.next_point).distance_squared(transform.transform_point2(last_pos)) < crate::consts::SNAP_POINT_TOLERANCE.powi(2); if on_top { if let Some(point) = self.latest_point_mut() { point.in_segment = None; } self.handle_end = None; } } fn finish_placing_handle(&mut self, snap_data: SnapData, transform: DAffine2, responses: &mut VecDeque) -> Option { let document = snap_data.document; let next_handle_start = self.next_handle_start; let handle_start = self.latest_point()?.handle_start; let mouse = snap_data.input.mouse.position; let Some(handle_end) = self.handle_end else { self.handle_end = Some(next_handle_start); self.place_anchor(snap_data, transform, mouse, responses); self.latest_point_mut()?.handle_start = next_handle_start; return None; }; let next_point = self.next_point; self.place_anchor(snap_data, transform, mouse, responses); let handles = [handle_start - self.latest_point()?.pos, handle_end - next_point].map(Some); // Get close path let mut end = None; let layer = self.layer?; let vector_data = document.network_interface.compute_modified_vector(layer)?; let start = self.latest_point()?.id; let transform = document.metadata().document_to_viewport * transform; for id in vector_data.single_connected_points().filter(|&point| point != start) { let Some(pos) = vector_data.point_domain.position_from_id(id) else { continue }; let transformed_distance_between_squared = transform.transform_point2(pos).distance_squared(transform.transform_point2(next_point)); let snap_point_tolerance_squared = crate::consts::SNAP_POINT_TOLERANCE.powi(2); if transformed_distance_between_squared < snap_point_tolerance_squared { end = Some(id); } } let close_subpath = end.is_some(); // Generate new point if not closing let end = end.unwrap_or_else(|| { let end = PointId::generate(); let modification_type = VectorModificationType::InsertPoint { id: end, position: next_point }; responses.add(GraphOperationMessage::Vector { layer, modification_type }); end }); let points = [start, end]; let id = SegmentId::generate(); let modification_type = VectorModificationType::InsertSegment { id, points, handles }; responses.add(GraphOperationMessage::Vector { layer, modification_type }); // Mirror if let Some(last_segment) = self.latest_point().and_then(|point| point.in_segment) { responses.add(GraphOperationMessage::Vector { layer, modification_type: VectorModificationType::SetG1Continuous { handles: [HandleId::end(last_segment), HandleId::primary(id)], enabled: true, }, }); } if close_subpath { responses.add(DocumentMessage::EndTransaction); } else { self.add_point(LastPoint { id: end, pos: next_point, in_segment: self.g1_continuous.then_some(id), handle_start: next_handle_start, }); } Some(if close_subpath { PenToolFsmState::Ready } else { PenToolFsmState::PlacingAnchor }) } fn drag_handle(&mut self, snap_data: SnapData, transform: DAffine2, mouse: DVec2, responses: &mut VecDeque) -> Option { let colinear = !self.modifiers.break_handle && self.handle_end.is_some(); self.next_handle_start = self.compute_snapped_angle(snap_data, transform, colinear, mouse, Some(self.next_point), false); if let Some(handle_end) = self.handle_end.as_mut().filter(|_| colinear) { *handle_end = self.next_point * 2. - self.next_handle_start; self.g1_continuous = true; } else { self.g1_continuous = false; } responses.add(OverlaysMessage::Draw); Some(PenToolFsmState::DraggingHandle) } fn place_anchor(&mut self, snap_data: SnapData, transform: DAffine2, mouse: DVec2, responses: &mut VecDeque) -> Option { let relative = self.latest_point().map(|point| point.pos); self.next_point = self.compute_snapped_angle(snap_data, transform, false, mouse, relative, true); if let Some(handle_end) = self.handle_end.as_mut() { *handle_end = self.next_point; self.next_handle_start = self.next_point; } responses.add(OverlaysMessage::Draw); Some(PenToolFsmState::PlacingAnchor) } /// Snap the angle of the line from relative to position if the key is pressed. fn compute_snapped_angle(&mut self, snap_data: SnapData, transform: DAffine2, colinear: bool, mouse: DVec2, relative: Option, neighbor: bool) -> DVec2 { let ModifierState { snap_angle, lock_angle, .. } = self.modifiers; let document = snap_data.document; let mut document_pos = document.metadata().document_to_viewport.inverse().transform_point2(mouse); let snap = &mut self.snap_manager; let neighbors = relative.filter(|_| neighbor).map_or(Vec::new(), |neighbor| vec![neighbor]); if let Some(relative) = relative .map(|layer| transform.transform_point2(layer)) .filter(|&relative| (snap_angle || lock_angle) && (relative - document_pos).length_squared() > f64::EPSILON * 100.) { let resolution = LINE_ROTATE_SNAP_ANGLE.to_radians(); let angle = if lock_angle { self.angle } else if (relative - document_pos) != DVec2::ZERO && !lock_angle { (-(relative - document_pos).angle_to(DVec2::X) / resolution).round() * resolution } else { self.angle }; document_pos = relative - (relative - document_pos).project_onto(DVec2::new(angle.cos(), angle.sin())); let constraint = SnapConstraint::Line { origin: relative, direction: document_pos - relative, }; let near_point = SnapCandidatePoint::handle_neighbors(document_pos, neighbors.clone()); let far_point = SnapCandidatePoint::handle_neighbors(2. * relative - document_pos, neighbors); if colinear { let snapped = snap.constrained_snap(&snap_data, &near_point, constraint, None); let snapped_far = snap.constrained_snap(&snap_data, &far_point, constraint, None); document_pos = if snapped_far.other_snap_better(&snapped) { snapped.snapped_point_document } else { 2. * relative - snapped_far.snapped_point_document }; snap.update_indicator(if snapped_far.other_snap_better(&snapped) { snapped } else { snapped_far }); } else { let snapped = snap.constrained_snap(&snap_data, &near_point, constraint, None); document_pos = snapped.snapped_point_document; snap.update_indicator(snapped); } } else if let Some(relative) = relative.map(|layer| transform.transform_point2(layer)).filter(|_| colinear) { let snapped = snap.free_snap(&snap_data, &SnapCandidatePoint::handle_neighbors(document_pos, neighbors.clone()), None, false); let snapped_far = snap.free_snap(&snap_data, &SnapCandidatePoint::handle_neighbors(2. * relative - document_pos, neighbors), None, false); document_pos = if snapped_far.other_snap_better(&snapped) { snapped.snapped_point_document } else { 2. * relative - snapped_far.snapped_point_document }; snap.update_indicator(if snapped_far.other_snap_better(&snapped) { snapped } else { snapped_far }); } else { let snapped = snap.free_snap(&snap_data, &SnapCandidatePoint::handle_neighbors(document_pos, neighbors), None, false); document_pos = snapped.snapped_point_document; snap.update_indicator(snapped); } if let Some(relative) = relative.map(|layer| transform.transform_point2(layer)) { if (relative - document_pos) != DVec2::ZERO { self.angle = -(relative - document_pos).angle_to(DVec2::X) } } transform.inverse().transform_point2(document_pos) } } impl Fsm for PenToolFsmState { type ToolData = PenToolData; type ToolOptions = PenOptions; fn transition(self, event: ToolMessage, tool_data: &mut Self::ToolData, tool_action_data: &mut ToolActionHandlerData, tool_options: &Self::ToolOptions, responses: &mut VecDeque) -> Self { let ToolActionHandlerData { document, global_tool_data, input, shape_editor, .. } = tool_action_data; let mut transform = tool_data.layer.map(|layer| document.metadata().transform_to_document(layer)).unwrap_or_default(); if !transform.inverse().is_finite() { let parent_transform = tool_data .layer .and_then(|layer| layer.parent(document.metadata())) .map(|layer| document.metadata().transform_to_document(layer)); transform = parent_transform.unwrap_or(DAffine2::IDENTITY); } if !transform.inverse().is_finite() { transform = DAffine2::IDENTITY; } let ToolMessage::Pen(event) = event else { return self; }; match (self, event) { (_, PenToolMessage::SelectionChanged) => { responses.add(OverlaysMessage::Draw); self } (PenToolFsmState::Ready, PenToolMessage::Overlays(mut overlay_context)) => { path_overlays(document, shape_editor, &mut overlay_context); tool_data.snap_manager.draw_overlays(SnapData::new(document, input), &mut overlay_context); self } (_, PenToolMessage::Overlays(mut overlay_context)) => { let transform = document.metadata().document_to_viewport * transform; if let (Some((start, handle_start)), Some(handle_end)) = (tool_data.latest_point().map(|point| (point.pos, point.handle_start)), tool_data.handle_end) { let handles = BezierHandles::Cubic { handle_start, handle_end }; let bezier = Bezier { start, handles, end: tool_data.next_point, }; overlay_context.outline_bezier(bezier, transform); } let valid = |point: DVec2, handle: DVec2| point.distance_squared(handle) >= HIDE_HANDLE_DISTANCE * HIDE_HANDLE_DISTANCE; let next_point = transform.transform_point2(tool_data.next_point); let next_handle_start = transform.transform_point2(tool_data.next_handle_start); overlay_context.line(next_point, next_handle_start, None); let start = tool_data.latest_point().map(|point| transform.transform_point2(point.pos)); let handle_start = tool_data.latest_point().map(|point| transform.transform_point2(point.handle_start)); let handle_end = tool_data.handle_end.map(|point| transform.transform_point2(point)); if let (Some(start), Some(handle_start), Some(handle_end)) = (start, handle_start, handle_end) { overlay_context.line(start, handle_start, None); overlay_context.line(next_point, handle_end, None); path_overlays(document, shape_editor, &mut overlay_context); if self == PenToolFsmState::DraggingHandle && valid(next_point, handle_end) { overlay_context.manipulator_handle(handle_end, false); } if valid(start, handle_start) { overlay_context.manipulator_handle(handle_start, false); } } else { path_overlays(document, shape_editor, &mut overlay_context); } if self == PenToolFsmState::DraggingHandle && valid(next_point, next_handle_start) { overlay_context.manipulator_handle(next_handle_start, false); } overlay_context.manipulator_anchor(next_point, false, None); tool_data.snap_manager.draw_overlays(SnapData::new(document, input), &mut overlay_context); self } (_, PenToolMessage::WorkingColorChanged) => { responses.add(PenToolMessage::UpdateOptions(PenOptionsUpdate::WorkingColors( Some(global_tool_data.primary_color), Some(global_tool_data.secondary_color), ))); self } (PenToolFsmState::Ready, PenToolMessage::DragStart) => { responses.add(DocumentMessage::StartTransaction); let point = SnapCandidatePoint::handle(document.metadata().document_to_viewport.inverse().transform_point2(input.mouse.position)); let snapped = tool_data.snap_manager.free_snap(&SnapData::new(document, input), &point, None, false); let viewport = document.metadata().document_to_viewport.transform_point2(snapped.snapped_point_document); // Perform extension of an existing path if let Some((layer, point, position)) = should_extend(document, viewport, crate::consts::SNAP_POINT_TOLERANCE) { tool_data.add_point(LastPoint { id: point, pos: position, in_segment: None, handle_start: position, }); tool_data.layer = Some(layer); tool_data.next_point = position; tool_data.next_handle_start = position; } else if let Some(layer) = tool_data.layer { // Add the first point to a new layer // Generate first point let id = PointId::generate(); let pos = document.metadata().transform_to_viewport(layer).inverse().transform_point2(viewport); let modification_type = VectorModificationType::InsertPoint { id, position: pos }; responses.add(GraphOperationMessage::Vector { layer, modification_type }); tool_data.add_point(LastPoint { id, pos, in_segment: None, handle_start: pos, }); tool_data.next_point = pos; tool_data.next_handle_start = pos; } else { // New path layer let node_type = resolve_document_node_type("Path").expect("Path node does not exist"); let nodes = vec![(NodeId(0), node_type.default_node_template())]; let parent = document.new_layer_parent(true); let layer = graph_modification_utils::new_custom(NodeId::new(), nodes, parent, responses); tool_options.fill.apply_fill(layer, responses); tool_options.stroke.apply_stroke(tool_options.line_weight, layer, responses); tool_data.layer = Some(layer); responses.add(Message::StartBuffer); responses.add(PenToolMessage::DragStart); return PenToolFsmState::Ready; } tool_data.handle_end = None; // Enter the dragging handle state while the mouse is held down, allowing the user to move the mouse and position the handle PenToolFsmState::DraggingHandle } (PenToolFsmState::PlacingAnchor, PenToolMessage::DragStart) => { if tool_data.handle_end.is_some() { responses.add(DocumentMessage::StartTransaction); } tool_data.bend_from_previous_point(SnapData::new(document, input), transform); PenToolFsmState::DraggingHandle } (PenToolFsmState::DraggingHandle, PenToolMessage::DragStop) => tool_data .finish_placing_handle(SnapData::new(document, input), transform, responses) .unwrap_or(PenToolFsmState::PlacingAnchor), (PenToolFsmState::DraggingHandle, PenToolMessage::PointerMove { snap_angle, break_handle, lock_angle }) => { tool_data.modifiers = ModifierState { snap_angle: input.keyboard.key(snap_angle), lock_angle: input.keyboard.key(lock_angle), break_handle: input.keyboard.key(break_handle), }; let snap_data = SnapData::new(document, input); let state = tool_data.drag_handle(snap_data, transform, input.mouse.position, responses).unwrap_or(PenToolFsmState::Ready); // Auto-panning let messages = [ PenToolMessage::PointerOutsideViewport { snap_angle, break_handle, lock_angle }.into(), PenToolMessage::PointerMove { snap_angle, break_handle, lock_angle }.into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); state } (PenToolFsmState::PlacingAnchor, PenToolMessage::PointerMove { snap_angle, break_handle, lock_angle }) => { tool_data.modifiers = ModifierState { snap_angle: input.keyboard.key(snap_angle), lock_angle: input.keyboard.key(lock_angle), break_handle: input.keyboard.key(break_handle), }; let state = tool_data .place_anchor(SnapData::new(document, input), transform, input.mouse.position, responses) .unwrap_or(PenToolFsmState::Ready); // Auto-panning let messages = [ PenToolMessage::PointerOutsideViewport { snap_angle, break_handle, lock_angle }.into(), PenToolMessage::PointerMove { snap_angle, break_handle, lock_angle }.into(), ]; tool_data.auto_panning.setup_by_mouse_position(input, &messages, responses); state } (PenToolFsmState::Ready, PenToolMessage::PointerMove { .. }) => { tool_data.snap_manager.preview_draw(&SnapData::new(document, input), input.mouse.position); responses.add(OverlaysMessage::Draw); self } (PenToolFsmState::DraggingHandle, PenToolMessage::PointerOutsideViewport { .. }) => { // Auto-panning let _ = tool_data.auto_panning.shift_viewport(input, responses); PenToolFsmState::DraggingHandle } (PenToolFsmState::PlacingAnchor, PenToolMessage::PointerOutsideViewport { .. }) => { // Auto-panning let _ = tool_data.auto_panning.shift_viewport(input, responses); PenToolFsmState::PlacingAnchor } (state, PenToolMessage::PointerOutsideViewport { snap_angle, break_handle, lock_angle }) => { // Auto-panning let messages = [ PenToolMessage::PointerOutsideViewport { snap_angle, break_handle, lock_angle }.into(), PenToolMessage::PointerMove { snap_angle, break_handle, lock_angle }.into(), ]; tool_data.auto_panning.stop(&messages, responses); state } (PenToolFsmState::DraggingHandle | PenToolFsmState::PlacingAnchor, PenToolMessage::Abort | PenToolMessage::Confirm) => { responses.add(DocumentMessage::EndTransaction); tool_data.layer = None; tool_data.handle_end = None; tool_data.latest_points.clear(); tool_data.point_index = 0; tool_data.snap_manager.cleanup(responses); PenToolFsmState::Ready } (_, PenToolMessage::Abort) => { responses.add(DocumentMessage::AbortTransaction); responses.add(OverlaysMessage::Draw); self } (PenToolFsmState::DraggingHandle | PenToolFsmState::PlacingAnchor, PenToolMessage::Undo) => { if tool_data.point_index > 0 { tool_data.point_index -= 1; tool_data .place_anchor(SnapData::new(document, input), transform, input.mouse.position, responses) .unwrap_or(PenToolFsmState::PlacingAnchor) } else { responses.add(PenToolMessage::Abort); self } } (_, PenToolMessage::Redo) => { tool_data.point_index = (tool_data.point_index + 1).min(tool_data.latest_points.len().saturating_sub(1)); tool_data .place_anchor(SnapData::new(document, input), transform, input.mouse.position, responses) .unwrap_or(PenToolFsmState::PlacingAnchor) } _ => self, } } fn update_hints(&self, responses: &mut VecDeque) { let hint_data = match self { PenToolFsmState::Ready => HintData(vec![HintGroup(vec![HintInfo::mouse(MouseMotion::Lmb, "Draw Path")])]), PenToolFsmState::PlacingAnchor => HintData(vec![ HintGroup(vec![ HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "").prepend_slash(), HintInfo::keys([Key::Enter], "End Path").prepend_slash(), ]), HintGroup(vec![HintInfo::keys([Key::Shift], "Snap 15°"), HintInfo::keys([Key::Control], "Lock Angle")]), HintGroup(vec![HintInfo::mouse(MouseMotion::Lmb, "Add Sharp Point"), HintInfo::mouse(MouseMotion::LmbDrag, "Add Smooth Point")]), HintGroup(vec![HintInfo::mouse(MouseMotion::Lmb, ""), HintInfo::mouse(MouseMotion::LmbDrag, "Bend Prev. Point").prepend_slash()]), ]), PenToolFsmState::DraggingHandle => HintData(vec![ HintGroup(vec![ HintInfo::mouse(MouseMotion::Rmb, ""), HintInfo::keys([Key::Escape], "").prepend_slash(), HintInfo::keys([Key::Enter], "End Path").prepend_slash(), ]), HintGroup(vec![HintInfo::keys([Key::Shift], "Snap 15°"), HintInfo::keys([Key::Control], "Lock Angle")]), // TODO: Only show this if the handle being dragged is colinear, so don't show this when bending from the previous point (by clicking and dragging from the previously placed anchor) HintGroup(vec![HintInfo::keys([Key::Alt], "Bend Handle")]), ]), }; responses.add(FrontendMessage::UpdateInputHints { hint_data }); } fn update_cursor(&self, responses: &mut VecDeque) { responses.add(FrontendMessage::UpdateMouseCursor { cursor: MouseCursorIcon::Default }); } }