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Add Layers panel support for displaying multiple groups with instances of the same children layers (#3982) 

* Add Layers panel support for displaying multiple groups with instances of the same children layers

* Fix insert folder box drawing
This commit is contained in:
Keavon Chambers 2026-04-01 00:13:42 -07:00 committed by GitHub
parent 86e41a110a
commit d41883a942
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GPG Key ID: B5690EEEBB952194
6 changed files with 341 additions and 133 deletions
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2
editor/src/messages/portfolio/document/document_message.rs
View File

@ -197,7 +197,7 @@ pub enum DocumentMessage {
undo_count: usize,
},
ToggleLayerExpansion {
id: NodeId,
instance_path: Vec<NodeId>,
recursive: bool,
},
ToggleSelectedVisibility,

259
editor/src/messages/portfolio/document/document_message_handler.rs
View File

@ -42,6 +42,7 @@ use graphene_std::vector::click_target::{ClickTarget, ClickTargetType};
use graphene_std::vector::misc::dvec2_to_point;
use graphene_std::vector::style::RenderMode;
use kurbo::{Affine, BezPath, Line, PathSeg};
use std::collections::HashSet;
use std::path::PathBuf;
use std::sync::Arc;
use std::time::Duration;
@ -84,8 +85,8 @@ pub struct DocumentMessageHandler {
//
// Contains the NodeNetwork and acts an an interface to manipulate the NodeNetwork with custom setters in order to keep NetworkMetadata in sync
pub network_interface: NodeNetworkInterface,
/// List of the [`LayerNodeIdentifier`]s that are currently collapsed by the user in the Layers panel.
/// Collapsed means that the expansion arrow isn't set to show the children of these layers.
/// Tracks which layer instances are collapsed in the Layers panel, keyed by instance path.
#[serde(deserialize_with = "deserialize_collapsed_layers", default)]
pub collapsed: CollapsedLayers,
/// The full Git commit hash of the Graphite repository that was used to build the editor.
/// We save this to provide a hint about which version of the editor was used to create the document.
@ -317,7 +318,7 @@ impl MessageHandler<DocumentMessage, DocumentMessageContext<'_>> for DocumentMes
DocumentMessage::ClearLayersPanel => {
// Send an empty layer list
if layers_panel_open {
let layer_structure = Self::default().build_layer_structure(LayerNodeIdentifier::ROOT_PARENT);
let layer_structure = Self::default().build_layer_structure();
responses.add(FrontendMessage::UpdateDocumentLayerStructure { layer_structure });
}
@ -380,7 +381,7 @@ impl MessageHandler<DocumentMessage, DocumentMessageContext<'_>> for DocumentMes
DocumentMessage::DocumentStructureChanged => {
if layers_panel_open {
self.network_interface.load_structure();
let layer_structure = self.build_layer_structure(LayerNodeIdentifier::ROOT_PARENT);
let layer_structure = self.build_layer_structure();
self.update_layers_panel_control_bar_widgets(layers_panel_open, responses);
self.update_layers_panel_bottom_bar_widgets(layers_panel_open, responses);
@ -1167,25 +1168,27 @@ impl MessageHandler<DocumentMessage, DocumentMessageContext<'_>> for DocumentMes
responses.add(OverlaysMessage::Draw);
responses.add(PortfolioMessage::UpdateOpenDocumentsList);
}
DocumentMessage::ToggleLayerExpansion { id, recursive } => {
let layer = LayerNodeIdentifier::new(id, &self.network_interface);
let metadata = self.metadata();
let is_collapsed = self.collapsed.0.contains(&layer);
DocumentMessage::ToggleLayerExpansion { instance_path, recursive } => {
let is_collapsed = self.collapsed.0.contains(&instance_path);
if is_collapsed {
if recursive {
let children: HashSet<_> = layer.descendants(metadata).collect();
self.collapsed.0.retain(|collapsed_layer| !children.contains(collapsed_layer) && collapsed_layer != &layer);
// Remove this path and all descendant paths (paths that start with this one)
self.collapsed.0.retain(|path| !path.starts_with(&instance_path));
} else {
self.collapsed.0.retain(|collapsed_layer| collapsed_layer != &layer);
self.collapsed.0.retain(|path| *path != instance_path);
}
} else {
if recursive {
let children_to_add: Vec<_> = layer.descendants(metadata).filter(|child| !self.collapsed.0.contains(child)).collect();
self.collapsed.0.extend(children_to_add);
// Collapse all expanded descendant instances by collecting their paths from the structure tree
let descendant_paths = self.collect_descendant_instance_paths(&instance_path);
for path in descendant_paths {
if !self.collapsed.0.contains(&path) {
self.collapsed.0.push(path);
}
self.collapsed.0.push(layer);
}
}
self.collapsed.0.push(instance_path);
}
responses.add(NodeGraphMessage::SendGraph);
@ -1740,22 +1743,218 @@ impl DocumentMessageHandler {
Ok(document_message_handler)
}
/// Recursively builds the layer structure tree for a folder.
fn build_layer_structure(&self, folder: LayerNodeIdentifier) -> Vec<LayerStructureEntry> {
folder
.children(self.metadata())
.map(|layer_node| {
let children = if layer_node.has_children(self.metadata()) && !self.collapsed.0.contains(&layer_node) {
self.build_layer_structure(layer_node)
/// Builds the layer structure tree by traversing the node graph directly.
/// Unlike the canonical `structure` field of [`DocumentMetadata`] (which stores single-parent relationships), this allows
/// the same layer to appear under multiple parents when the graph feeds the same child content into separate parent layers.
fn build_layer_structure(&self) -> Vec<LayerStructureEntry> {
let network = &self.network_interface;
let Some(root_node) = network.root_node(&[]) else { return Vec::new() };
let Some(first_root_layer_id) = network
.upstream_flow_back_from_nodes(vec![root_node.node_id], &[], FlowType::PrimaryFlow)
.find(|node_id| network.is_layer(node_id, &[]))
else {
return Vec::new();
};
let selected_layers: HashSet<NodeId> = network.selected_nodes().selected_layers(self.metadata()).map(LayerNodeIdentifier::to_node).collect();
let ancestors = HashSet::new();
let instance_path = Vec::new();
let mut root_entries = Vec::new();
// The first root layer is the topmost entry
root_entries.push(self.build_layer_entry(first_root_layer_id, &ancestors, &selected_layers, &instance_path));
// Layers in the primary flow (input[0] chain) from the first root layer are root-level siblings
let mut root_ancestors = HashSet::new();
root_ancestors.insert(first_root_layer_id);
for sibling_id in network.upstream_flow_back_from_nodes(vec![first_root_layer_id], &[], FlowType::PrimaryFlow).skip(1) {
if network.is_layer(&sibling_id, &[]) && !root_ancestors.contains(&sibling_id) {
root_entries.push(self.build_layer_entry(sibling_id, &root_ancestors, &selected_layers, &instance_path));
}
}
root_entries
}
/// Builds a single `LayerStructureEntry` for the given layer, including its `children_present` flag,
/// `descendant_selected` flag, and (if expanded) its children collected from the graph.
fn build_layer_entry(&self, layer_id: NodeId, ancestors: &HashSet<NodeId>, selected_layers: &HashSet<NodeId>, parent_instance_path: &[NodeId]) -> LayerStructureEntry {
let mut instance_path = parent_instance_path.to_vec();
instance_path.push(layer_id);
let mut child_ancestors = ancestors.clone();
child_ancestors.insert(layer_id);
let children_present = self.has_layer_children_in_graph(layer_id, &child_ancestors);
let collapsed = self.collapsed.0.contains(&instance_path);
let children = if children_present && !collapsed {
self.collect_layer_children(layer_id, &child_ancestors, selected_layers, &instance_path)
} else {
Vec::new()
};
// Compute whether any descendant is selected (checking expanded children and, if collapsed, via graph traversal)
let descendant_selected = if !children.is_empty() {
children.iter().any(|child| child.descendant_selected || selected_layers.contains(&child.layer_id))
} else if children_present {
// Layer is collapsed but has children, so check via graph traversal
self.has_selected_descendant_in_graph(layer_id, &child_ancestors, selected_layers)
} else {
false
};
LayerStructureEntry {
layer_id: layer_node.to_node(),
layer_id,
children,
children_present,
descendant_selected,
}
})
.collect()
}
/// Checks whether a layer has any child layers reachable via horizontal flow in the graph.
fn has_layer_children_in_graph(&self, layer_id: NodeId, child_ancestors: &HashSet<NodeId>) -> bool {
let network = &self.network_interface;
network
.upstream_flow_back_from_nodes(vec![layer_id], &[], FlowType::HorizontalFlow)
.skip(1)
.any(|id| network.is_layer(&id, &[]) && !child_ancestors.contains(&id))
}
/// Checks whether any descendant layer in the graph (via horizontal + primary flow) is selected.
/// Used when a layer is collapsed to determine if the ancestor-of-selected indicator should show.
fn has_selected_descendant_in_graph(&self, layer_id: NodeId, ancestors: &HashSet<NodeId>, selected_layers: &HashSet<NodeId>) -> bool {
let network = &self.network_interface;
// Find child layers via horizontal flow
let mut stack: Vec<NodeId> = network
.upstream_flow_back_from_nodes(vec![layer_id], &[], FlowType::HorizontalFlow)
.skip(1)
.filter(|node_id| network.is_layer(node_id, &[]) && !ancestors.contains(node_id))
.collect();
let mut visited = ancestors.clone();
// Iteratively explore all descendant layers via a depth-first traversal
while let Some(current_id) = stack.pop() {
// Skip already-visited layers to avoid infinite loops from graph cycles
if !visited.insert(current_id) {
continue;
}
// Found a selected descendant, the ancestor indicator should be shown
if selected_layers.contains(&current_id) {
return true;
}
// Check this layer's children via horizontal flow
for node_id in network.upstream_flow_back_from_nodes(vec![current_id], &[], FlowType::HorizontalFlow).skip(1) {
if network.is_layer(&node_id, &[]) && !visited.contains(&node_id) {
stack.push(node_id);
}
}
// Check stacked siblings via primary flow
for node_id in network.upstream_flow_back_from_nodes(vec![current_id], &[], FlowType::PrimaryFlow).skip(1) {
if network.is_layer(&node_id, &[]) && !visited.contains(&node_id) {
stack.push(node_id);
}
}
}
false
}
/// Collects the child entries for a given layer by traversing its horizontal and primary flows.
/// The horizontal flow (a layer's secondary input chain) finds nested content layers, and the
/// primary flow from those (their stack's top output) finds stacked siblings at the same depth.
/// `ancestors` contains layer IDs in the current path from root, used for cycle prevention.
fn collect_layer_children(&self, layer_id: NodeId, ancestors: &HashSet<NodeId>, selected_layers: &HashSet<NodeId>, instance_path: &[NodeId]) -> Vec<LayerStructureEntry> {
let network = &self.network_interface;
// Find the first nested layer via horizontal flow (content inside this layer)
let Some(nested_id) = network
.upstream_flow_back_from_nodes(vec![layer_id], &[], FlowType::HorizontalFlow)
.skip(1)
.find(|id| network.is_layer(id, &[]))
else {
return Vec::new();
};
// Cycle detected, this layer is already an ancestor in the current branch
if ancestors.contains(&nested_id) {
return Vec::new();
}
// The nested layer is the first child at this depth level
let mut children = vec![self.build_layer_entry(nested_id, ancestors, selected_layers, instance_path)];
// Primary flow from the nested layer finds stacked siblings (more children of this layer)
for sibling_id in network.upstream_flow_back_from_nodes(vec![nested_id], &[], FlowType::PrimaryFlow).skip(1) {
if network.is_layer(&sibling_id, &[]) && !ancestors.contains(&sibling_id) {
children.push(self.build_layer_entry(sibling_id, ancestors, selected_layers, instance_path));
}
}
children
}
/// Collects instance paths for all descendant layers of the given instance path by traversing the graph.
/// Used for recursive collapse to find all expandable descendants.
fn collect_descendant_instance_paths(&self, instance_path: &[NodeId]) -> Vec<Vec<NodeId>> {
let Some(&layer_id) = instance_path.last() else { return Vec::new() };
let network = &self.network_interface;
let mut paths = Vec::new();
let mut stack: Vec<(NodeId, Vec<NodeId>)> = Vec::new();
// Seed with child layers via horizontal flow
for node_id in network.upstream_flow_back_from_nodes(vec![layer_id], &[], FlowType::HorizontalFlow).skip(1) {
if network.is_layer(&node_id, &[]) {
let mut child_path = instance_path.to_vec();
child_path.push(node_id);
stack.push((node_id, child_path));
}
}
let mut visited = HashSet::new();
// Depth-first traversal collecting all unique descendant instance paths
while let Some((current_id, current_path)) = stack.pop() {
// Skip paths we've already visited to prevent cycles
if !visited.insert(current_path.clone()) {
continue;
}
// Record this descendant's instance path for collapsing
paths.push(current_path.clone());
// Add nested content layers found via horizontal flow
for node_id in network.upstream_flow_back_from_nodes(vec![current_id], &[], FlowType::HorizontalFlow).skip(1) {
if network.is_layer(&node_id, &[]) {
let mut child_path = current_path.clone();
child_path.push(node_id);
stack.push((node_id, child_path));
}
}
// Add stacked sibling layers found via primary flow
for node_id in network.upstream_flow_back_from_nodes(vec![current_id], &[], FlowType::PrimaryFlow).skip(1) {
if network.is_layer(&node_id, &[]) {
// Siblings share the same parent path (everything up to the last element of current_path)
let mut sibling_path = current_path[..current_path.len() - 1].to_vec();
sibling_path.push(node_id);
stack.push((node_id, sibling_path));
}
}
}
paths
}
pub fn undo_with_history(&mut self, viewport: &ViewportMessageHandler, responses: &mut VecDeque<Message>) {
@ -3221,6 +3420,16 @@ impl Iterator for ClickXRayIter<'_> {
}
}
/// Deserializes `CollapsedLayers` with backwards compatibility for the old format
/// (flat list of layer node IDs) by consuming the entire value first, then attempting
/// to interpret it as the new format. Falls back to an empty default for old documents.
fn deserialize_collapsed_layers<'de, D: serde::Deserializer<'de>>(deserializer: D) -> Result<CollapsedLayers, D::Error> {
use serde::Deserialize;
// Buffer the entire value to avoid leaving the deserializer in a bad state on type mismatch
let value = serde_json::Value::deserialize(deserializer)?;
Ok(serde_json::from_value(value).unwrap_or_default())
}
#[cfg(test)]
mod document_message_handler_tests {
use super::*;

37
editor/src/messages/portfolio/document/node_graph/node_graph_message_handler.rs
View File

@ -189,7 +189,7 @@ impl<'a> MessageHandler<NodeGraphMessage, NodeGraphMessageContext<'a>> for NodeG
send: Box::new(NodeGraphMessage::SelectedNodesUpdated.into()),
});
network_interface.load_structure();
collapsed.0.retain(|&layer| network_interface.document_metadata().layer_exists(layer));
collapsed.0.retain(|path| path.iter().all(|&node_id| network_interface.document_network().nodes.contains_key(&node_id)));
}
NodeGraphMessage::SelectedNodesUpdated => {
let selected_layers = network_interface.selected_nodes().selected_layers(network_interface.document_metadata()).collect::<Vec<_>>();
@ -2047,7 +2047,7 @@ impl<'a> MessageHandler<NodeGraphMessage, NodeGraphMessageContext<'a>> for NodeG
}
NodeGraphMessage::UpdateLayerPanel => {
Self::update_layer_panel(network_interface, selection_network_path, collapsed, layers_panel_open, responses);
Self::update_layer_panel(network_interface, selection_network_path, layers_panel_open, responses);
}
NodeGraphMessage::UpdateEdges => {
// Update the import/export UI edges whenever the PTZ changes or the bounding box of all nodes changes
@ -2684,7 +2684,7 @@ impl NodeGraphMessageHandler {
Some(NodeGraphErrorDiagnostic { position, error })
}
fn update_layer_panel(network_interface: &NodeNetworkInterface, selection_network_path: &[NodeId], collapsed: &CollapsedLayers, layers_panel_open: bool, responses: &mut VecDeque<Message>) {
fn update_layer_panel(network_interface: &NodeNetworkInterface, selection_network_path: &[NodeId], layers_panel_open: bool, responses: &mut VecDeque<Message>) {
if !layers_panel_open {
return;
}
@ -2695,14 +2695,8 @@ impl NodeGraphMessageHandler {
.map(|layer| layer.to_node())
.collect::<HashSet<_>>();
let mut ancestors_of_selected = HashSet::new();
let mut descendants_of_selected = HashSet::new();
for selected_layer in &selected_layers {
for ancestor in LayerNodeIdentifier::new(*selected_layer, network_interface).ancestors(network_interface.document_metadata()) {
if ancestor != LayerNodeIdentifier::ROOT_PARENT && ancestor.to_node() != *selected_layer {
ancestors_of_selected.insert(ancestor.to_node());
}
}
for descendant in LayerNodeIdentifier::new(*selected_layer, network_interface).descendants(network_interface.document_metadata()) {
descendants_of_selected.insert(descendant.to_node());
}
@ -2727,22 +2721,6 @@ impl NodeGraphMessageHandler {
}))
);
let parents_visible = layer.ancestors(network_interface.document_metadata()).filter(|&ancestor| ancestor != layer).all(|layer| {
if layer != LayerNodeIdentifier::ROOT_PARENT {
network_interface.document_node(&layer.to_node(), &[]).map(|node| node.visible).unwrap_or_default()
} else {
true
}
});
let parents_unlocked: bool = layer.ancestors(network_interface.document_metadata()).filter(|&ancestor| ancestor != layer).all(|layer| {
if layer != LayerNodeIdentifier::ROOT_PARENT {
!network_interface.is_locked(&layer.to_node(), &[])
} else {
true
}
});
let clippable = layer.can_be_clipped(network_interface.document_metadata());
let data = LayerPanelEntry {
@ -2752,18 +2730,9 @@ impl NodeGraphMessageHandler {
alias: network_interface.display_name(&node_id, &[]),
in_selected_network: selection_network_path.is_empty(),
children_allowed,
children_present: layer.has_children(network_interface.document_metadata()),
expanded: layer.has_children(network_interface.document_metadata()) && !collapsed.0.contains(&layer),
depth: layer.ancestors(network_interface.document_metadata()).count() as u32 - 1,
visible: network_interface.is_visible(&node_id, &[]),
parents_visible,
unlocked: !network_interface.is_locked(&node_id, &[]),
parents_unlocked,
parent_id: layer
.parent(network_interface.document_metadata())
.and_then(|parent| if parent != LayerNodeIdentifier::ROOT_PARENT { Some(parent.to_node()) } else { None }),
selected: selected_layers.contains(&node_id),
ancestor_of_selected: ancestors_of_selected.contains(&node_id),
descendant_of_selected: descendants_of_selected.contains(&node_id),
clipped: get_clip_mode(layer, network_interface).unwrap_or(false) && clippable,
clippable,

25
editor/src/messages/portfolio/document/utility_types/nodes.rs
View File

@ -10,9 +10,17 @@ use graph_craft::document::{NodeId, NodeNetwork};
#[cfg_attr(feature = "wasm", derive(tsify::Tsify))]
#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, PartialEq, Eq)]
pub struct LayerStructureEntry {
/// The node ID of the layer this entry represents.
#[serde(rename = "layerId")]
pub layer_id: NodeId,
/// The expanded child entries nested within this layer. Empty when the layer is collapsed or has no children.
pub children: Vec<LayerStructureEntry>,
/// Whether this layer has children reachable in the graph, even when they are omitted from `children` because the layer is collapsed.
#[serde(rename = "childrenPresent")]
pub children_present: bool,
/// Whether any descendant layer in the graph is selected, including through collapsed subtrees not listed in `children`.
#[serde(rename = "descendantSelected")]
pub descendant_selected: bool,
}
#[cfg_attr(feature = "wasm", derive(tsify::Tsify))]
@ -28,21 +36,9 @@ pub struct LayerPanelEntry {
pub in_selected_network: bool,
#[serde(rename = "childrenAllowed")]
pub children_allowed: bool,
#[serde(rename = "childrenPresent")]
pub children_present: bool,
pub expanded: bool,
pub depth: u32,
pub visible: bool,
#[serde(rename = "parentsVisible")]
pub parents_visible: bool,
pub unlocked: bool,
#[serde(rename = "parentsUnlocked")]
pub parents_unlocked: bool,
#[serde(rename = "parentId")]
pub parent_id: Option<NodeId>,
pub selected: bool,
#[serde(rename = "ancestorOfSelected")]
pub ancestor_of_selected: bool,
#[serde(rename = "descendantOfSelected")]
pub descendant_of_selected: bool,
pub clipped: bool,
@ -163,4 +159,7 @@ impl SelectedNodes {
#[cfg_attr(feature = "wasm", derive(tsify::Tsify))]
#[derive(Debug, Clone, Default, serde::Serialize, serde::Deserialize, PartialEq, Eq)]
pub struct CollapsedLayers(pub Vec<LayerNodeIdentifier>);
/// Tracks which layer instances are collapsed in the Layers panel. Each entry is an "instance path":
/// the sequence of ancestor node IDs from the root down to the collapsed layer. This allows the same
/// layer appearing under multiple parents to have independent expand/collapse state per instance.
pub struct CollapsedLayers(pub Vec<Vec<NodeId>>);

131
frontend/src/components/panels/Layers.svelte
View File

@ -20,6 +20,14 @@
bottomLayer: boolean;
editingName: boolean;
entry: LayerPanelEntry;
depth: number;
parentId: bigint | undefined;
childrenPresent: boolean;
expanded: boolean;
ancestorOfSelected: boolean;
parentsVisible: boolean;
parentsUnlocked: boolean;
instancePath: bigint[];
};
type DraggingData = {
@ -28,6 +36,7 @@
insertDepth: number;
insertIndex: number | undefined;
highlightFolder: boolean;
highlightFolderIndex: number | undefined;
markerHeight: number;
};
@ -131,10 +140,10 @@
editor.toggleLayerLock(id);
}
function handleExpandArrowClickWithModifiers(e: MouseEvent, id: bigint) {
function handleExpandArrowClickWithModifiers(e: MouseEvent, instancePath: bigint[]) {
const accel = operatingSystem() === "Mac" ? e.metaKey : e.ctrlKey;
const collapseRecursive = e.altKey || accel;
editor.toggleLayerExpansion(id, collapseRecursive);
editor.toggleLayerExpansion(BigUint64Array.from(instancePath), collapseRecursive);
e.stopPropagation();
}
@ -271,6 +280,7 @@
// Whether you are inserting into a folder and should show the folder outline
let highlightFolder = false;
let highlightFolderIndex: number | undefined = undefined;
let markerHeight = 0;
const layerPanel = document.querySelector("[data-layer-panel]"); // Selects the element with the data-layer-panel attribute
@ -279,40 +289,41 @@
Array.from(treeChildren).forEach((treeChild) => {
const indexAttribute = treeChild.getAttribute("data-index");
if (!indexAttribute) return;
const { folderIndex, entry: layer } = layers[parseInt(indexAttribute, 10)];
const listing = layers[parseInt(indexAttribute, 10)];
const rect = treeChild.getBoundingClientRect();
if (rect.top > clientY || rect.bottom < clientY) {
return;
}
const pointerPercentage = (clientY - rect.top) / rect.height;
if (layer.childrenAllowed) {
if (listing.entry.childrenAllowed || listing.childrenPresent) {
if (pointerPercentage < 0.25) {
insertParentId = layer.parentId;
insertDepth = layer.depth - 1;
insertIndex = folderIndex;
insertParentId = listing.parentId;
insertDepth = listing.depth - 1;
insertIndex = listing.folderIndex;
markerHeight = rect.top - layerPanelTop;
} else if (pointerPercentage < 0.75 || (layer.childrenPresent && layer.expanded)) {
insertParentId = layer.id;
insertDepth = layer.depth;
} else if (pointerPercentage < 0.75 || (listing.childrenPresent && listing.expanded)) {
insertParentId = listing.entry.id;
insertDepth = listing.depth;
insertIndex = 0;
highlightFolder = true;
highlightFolderIndex = parseInt(indexAttribute, 10);
} else {
insertParentId = layer.parentId;
insertDepth = layer.depth - 1;
insertIndex = folderIndex + 1;
insertParentId = listing.parentId;
insertDepth = listing.depth - 1;
insertIndex = listing.folderIndex + 1;
markerHeight = rect.bottom - layerPanelTop;
}
} else {
if (pointerPercentage < 0.5) {
insertParentId = layer.parentId;
insertDepth = layer.depth - 1;
insertIndex = folderIndex;
insertParentId = listing.parentId;
insertDepth = listing.depth - 1;
insertIndex = listing.folderIndex;
markerHeight = rect.top - layerPanelTop;
} else {
insertParentId = layer.parentId;
insertDepth = layer.depth - 1;
insertIndex = folderIndex + 1;
insertParentId = listing.parentId;
insertDepth = listing.depth - 1;
insertIndex = listing.folderIndex + 1;
markerHeight = rect.bottom - layerPanelTop;
}
}
@ -320,7 +331,7 @@
// Dragging to the empty space below all layers
let lastLayer = treeChildren[treeChildren.length - 1];
if (lastLayer.getBoundingClientRect().bottom < clientY) {
const numberRootLayers = layers.filter((layer) => layer.entry.depth === 1).length;
const numberRootLayers = layers.filter((listing) => listing.depth === 1).length;
insertParentId = undefined;
insertDepth = 0;
insertIndex = numberRootLayers;
@ -334,6 +345,7 @@
insertDepth,
insertIndex,
highlightFolder,
highlightFolderIndex,
markerHeight,
};
}
@ -493,42 +505,57 @@
}
function rebuildLayerHierarchy(layerStructure: LayerStructureEntry[]) {
const layerWithNameBeingEdited = layers.find((layer: LayerListingInfo) => layer.editingName);
const layerIdWithNameBeingEdited = layerWithNameBeingEdited?.entry.id;
// Track the editing state by flat list index, not layer ID, since a layer can appear at multiple positions
const editingIndex = layers.findIndex((layer: LayerListingInfo) => layer.editingName);
// Clear the layer hierarchy before rebuilding it
layers = [];
// Build the new layer hierarchy
const recurse = (children: LayerStructureEntry[]) => {
const recurse = (children: LayerStructureEntry[], depth: number, parentId: bigint | undefined, parentPath: bigint[], parentsVisible: boolean, parentsUnlocked: boolean) => {
children.forEach((item, index) => {
const instancePath = [...parentPath, item.layerId];
const mapping = layerCache.get(String(item.layerId));
if (mapping) {
mapping.id = item.layerId;
layers.push({
folderIndex: index,
bottomLayer: index === children.length - 1,
entry: mapping,
editingName: layerIdWithNameBeingEdited === item.layerId,
editingName: editingIndex === layers.length,
depth,
parentId,
childrenPresent: item.childrenPresent,
expanded: item.childrenPresent && item.children.length > 0,
ancestorOfSelected: item.descendantSelected,
parentsVisible,
parentsUnlocked,
instancePath,
});
}
// Call self recursively if there are any children
if (item.children.length >= 1) recurse(item.children);
// Call self recursively, propagating this layer's visibility/lock state to its children
const childParentsVisible = parentsVisible && (mapping?.visible ?? true);
const childParentsUnlocked = parentsUnlocked && (mapping?.unlocked ?? true);
if (item.children.length >= 1) recurse(item.children, depth + 1, item.layerId, instancePath, childParentsVisible, childParentsUnlocked);
});
};
recurse(layerStructure);
recurse(layerStructure, 1, undefined, [], true, true);
layers = layers;
}
function updateLayerInTree(targetId: bigint, targetLayer: LayerPanelEntry) {
layerCache.set(String(targetId), targetLayer);
const layer = layers.find((layer: LayerListingInfo) => layer.entry.id === targetId);
if (layer) {
let changed = false;
layers.forEach((layer) => {
if (layer.entry.id === targetId) {
layer.entry = targetLayer;
layers = layers;
changed = true;
}
});
if (changed) layers = layers;
}
</script>
@ -556,29 +583,29 @@
class="layer"
classes={{
selected,
"ancestor-of-selected": listing.entry.ancestorOfSelected,
"ancestor-of-selected": listing.ancestorOfSelected,
"descendant-of-selected": listing.entry.descendantOfSelected,
"selected-but-not-in-selected-network": selected && !listing.entry.inSelectedNetwork,
"insert-folder": (draggingData?.highlightFolder || false) && draggingData?.insertParentId === listing.entry.id,
"insert-folder": (draggingData?.highlightFolder || false) && draggingData?.highlightFolderIndex === index,
}}
styles={{ "--layer-indent-levels": `${listing.entry.depth - 1}` }}
styles={{ "--layer-indent-levels": `${listing.depth - 1}` }}
data-layer
data-index={index}
on:pointerdown={(e) => layerPointerDown(e, listing)}
on:click={(e) => selectLayerWithModifiers(e, listing)}
>
{#if listing.entry.childrenAllowed}
{#if listing.entry.childrenAllowed || listing.childrenPresent}
<button
class="expand-arrow"
class:expanded={listing.entry.expanded}
disabled={!listing.entry.childrenPresent}
data-tooltip-label={listing.entry.expanded ? "Collapse (All)" : "Expand (All)"}
data-tooltip-description={(listing.entry.expanded
? "Hide the layers nested within. (To affect all open descendants, perform the shortcut shown.)"
: "Show the layers nested within. (To affect all closed descendants, perform the shortcut shown.)") +
(listing.entry.ancestorOfSelected && !listing.entry.expanded ? "\n\nA selected layer is currently contained within.\n" : "")}
class:expanded={listing.expanded}
disabled={!listing.childrenPresent}
data-tooltip-label={listing.expanded ? "Collapse (All)" : "Expand (All)"}
data-tooltip-description={(listing.expanded
? "Hide this layer's children. (To recursively collapse all descendants, perform the shortcut shown.)"
: "Show this layer's children. (To recursively expand all descendants, perform the shortcut shown.)") +
(listing.ancestorOfSelected && !listing.expanded ? "\n\nA selected layer is currently contained within.\n" : "")}
data-tooltip-shortcut={$tooltip.altClickShortcut?.shortcut ? JSON.stringify($tooltip.altClickShortcut.shortcut) : undefined}
on:click={(e) => handleExpandArrowClickWithModifiers(e, listing.entry.id)}
on:click={(e) => handleExpandArrowClickWithModifiers(e, listing.instancePath)}
tabindex="0"
></button>
{:else}
@ -628,27 +655,27 @@
on:change={(e) => onEditLayerNameChange(listing, e)}
/>
</LayoutRow>
{#if !listing.entry.unlocked || !listing.entry.parentsUnlocked}
{#if !listing.entry.unlocked || !listing.parentsUnlocked}
<IconButton
class="status-toggle"
classes={{ inherited: !listing.entry.parentsUnlocked }}
classes={{ inherited: !listing.parentsUnlocked }}
action={(e) => (toggleLayerLock(listing.entry.id), e?.stopPropagation())}
size={24}
icon={listing.entry.unlocked ? "PadlockUnlocked" : "PadlockLocked"}
hoverIcon={listing.entry.unlocked ? "PadlockLocked" : "PadlockUnlocked"}
tooltipLabel={listing.entry.unlocked ? "Lock" : "Unlock"}
tooltipDescription={!listing.entry.parentsUnlocked ? "A parent of this layer is locked and that status is being inherited." : ""}
tooltipDescription={!listing.parentsUnlocked ? "A parent of this layer is locked and that status is being inherited." : ""}
/>
{/if}
<IconButton
class="status-toggle"
classes={{ inherited: !listing.entry.parentsVisible }}
classes={{ inherited: !listing.parentsVisible }}
action={(e) => (toggleNodeVisibilityLayerPanel(listing.entry.id), e?.stopPropagation())}
size={24}
icon={listing.entry.visible ? "EyeVisible" : "EyeHidden"}
hoverIcon={listing.entry.visible ? "EyeHide" : "EyeShow"}
tooltipLabel={listing.entry.visible ? "Hide" : "Show"}
tooltipDescription={!listing.entry.parentsVisible ? "A parent of this layer is hidden and that status is being inherited." : ""}
tooltipDescription={!listing.parentsVisible ? "A parent of this layer is hidden and that status is being inherited." : ""}
/>
</LayoutRow>
{/each}
@ -737,9 +764,13 @@
background: rgba(var(--color-4-dimgray-rgb), 0.5);
}
&.insert-folder {
outline: 3px solid var(--color-e-nearwhite);
outline-offset: -3px;
&.insert-folder::after {
content: "";
position: absolute;
inset: 0;
border: 3px solid var(--color-e-nearwhite);
border-radius: 2px;
pointer-events: none;
}
.expand-arrow {

6
frontend/wrapper/src/editor_wrapper.rs
View File

@ -858,9 +858,9 @@ impl EditorWrapper {
/// Toggle expansions state of a layer from the layer list
#[wasm_bindgen(js_name = toggleLayerExpansion)]
pub fn toggle_layer_expansion(&self, id: u64, recursive: bool) {
let id = NodeId(id);
let message = DocumentMessage::ToggleLayerExpansion { id, recursive };
pub fn toggle_layer_expansion(&self, instance_path: &[u64], recursive: bool) {
let instance_path = instance_path.iter().map(|&id| NodeId(id)).collect();
let message = DocumentMessage::ToggleLayerExpansion { instance_path, recursive };
self.dispatch(message);
}