Comfy-Org/ComfyUI_frontend
1
0
Fork 0
mirror of https://github.com/Comfy-Org/ComfyUI_frontend.git synced 2026-03-04 12:40:00 +00:00
Code Issues Packages Projects Releases Wiki Activity

Merge remote-tracking branch 'origin/main' into bl-more-slots

Browse Source
This commit is contained in:
Benjamin Lu
2025-09-23 10:20:10 -07:00
parent 6685e004c0 c004a2b8bd
commit 0aa971bed9
75 changed files with 1896 additions and 1782 deletions
Download Patch File Download Diff File Expand all files Collapse all files

18
src/renderer/core/canvas/injectionKeys.ts
View File

@@ -1,18 +0,0 @@
import type { InjectionKey, Ref } from 'vue'
import type { NodeProgressState } from '@/schemas/apiSchema'
/**
* Injection key for providing executing node IDs to Vue node components.
* Contains a reactive Set of currently executing node IDs (as strings).
*/
export const ExecutingNodeIdsKey: InjectionKey<Ref<Set<string>>> =
Symbol('executingNodeIds')
/**
* Injection key for providing node progress states to Vue node components.
* Contains a reactive Record of node IDs to their current progress state.
*/
export const NodeProgressStatesKey: InjectionKey<
Ref<Record<string, NodeProgressState>>
> = Symbol('nodeProgressStates')

30
src/renderer/core/layout/injectionKeys.ts
View File

@@ -1,6 +1,6 @@
import type { InjectionKey } from 'vue'
import type { Point } from '@/renderer/core/layout/types'
import type { useTransformState } from '@/renderer/core/layout/transform/useTransformState'
/**
* Lightweight, injectable transform state used by layout-aware components.
@@ -21,29 +21,11 @@ import type { Point } from '@/renderer/core/layout/types'
* const state = inject(TransformStateKey)!
* const screen = state.canvasToScreen({ x: 100, y: 50 })
*/
interface TransformState {
/** Convert a screen-space point (CSS pixels) to canvas space. */
screenToCanvas: (p: Point) => Point
/** Convert a canvas-space point to screen space (CSS pixels). */
canvasToScreen: (p: Point) => Point
/** Current pan/zoom; `x`/`y` are offsets, `z` is scale. */
camera?: { x: number; y: number; z: number }
/**
* Test whether a node's rectangle intersects the (expanded) viewport.
* Handy for viewport culling and lazy work.
*
* @param nodePos Top-left in canvas space `[x, y]`
* @param nodeSize Size in canvas units `[width, height]`
* @param viewport Screen-space viewport `{ width, height }`
* @param margin Optional fractional margin (e.g. `0.2` = 20%)
*/
isNodeInViewport?: (
nodePos: ArrayLike<number>,
nodeSize: ArrayLike<number>,
viewport: { width: number; height: number },
margin?: number
) => boolean
}
interface TransformState
extends Pick<
ReturnType<typeof useTransformState>,
'screenToCanvas' | 'canvasToScreen' | 'camera' | 'isNodeInViewport'
> {}
export const TransformStateKey: InjectionKey<TransformState> =
Symbol('transformState')

1
src/renderer/core/layout/store/layoutStore.ts
View File

@@ -1379,6 +1379,7 @@ class LayoutStoreImpl implements LayoutStore {
this.spatialIndex.update(nodeId, bounds)
ynode.set('bounds', bounds)
ynode.set('position', { x: bounds.x, y: bounds.y })
ynode.set('size', { width: bounds.width, height: bounds.height })
}
}, this.currentActor)

6
src/renderer/core/layout/sync/useSlotLayoutSync.ts
View File

@@ -134,7 +134,11 @@ export function useSlotLayoutSync() {
restoreHandlers = () => {
graph.onNodeAdded = origNodeAdded || undefined
graph.onNodeRemoved = origNodeRemoved || undefined
graph.onTrigger = origTrigger || undefined
// Only restore onTrigger if Vue nodes are not active
// Vue node manager sets its own onTrigger handler
if (!LiteGraph.vueNodesMode) {
graph.onTrigger = origTrigger || undefined
}
graph.onAfterChange = origAfterChange || undefined
}

13
src/renderer/core/layout/transform/TransformPane.vue
View File

@@ -1,7 +1,12 @@
<template>
<div
class="transform-pane"
:class="{ 'transform-pane--interacting': isInteracting }"
class="absolute inset-0 w-full h-full pointer-events-none"
:class="
cn(
isInteracting ? 'transform-pane--interacting' : 'will-change-auto',
isLOD ? 'isLOD' : ''
)
"
:style="transformStyle"
@pointerdown="handlePointerDown"
>
@@ -18,6 +23,8 @@ import { TransformStateKey } from '@/renderer/core/layout/injectionKeys'
import { useCanvasTransformSync } from '@/renderer/core/layout/transform/useCanvasTransformSync'
import { useTransformSettling } from '@/renderer/core/layout/transform/useTransformSettling'
import { useTransformState } from '@/renderer/core/layout/transform/useTransformState'
import { useLOD } from '@/renderer/extensions/vueNodes/lod/useLOD'
import { cn } from '@/utils/tailwindUtil'
interface TransformPaneProps {
canvas?: LGraphCanvas
@@ -34,6 +41,8 @@ const {
isNodeInViewport
} = useTransformState()
const { isLOD } = useLOD(camera)
const canvasElement = computed(() => props.canvas?.canvas)
const { isTransforming: isInteracting } = useTransformSettling(canvasElement, {
settleDelay: 200,

27
src/renderer/extensions/vueNodes/components/ImagePreview.vue
View File

@@ -94,17 +94,20 @@
</div>
</div>
<!-- Image Dimensions -->
<div class="text-white text-xs text-center mt-2">
<span v-if="imageError" class="text-red-400">
{{ $t('g.errorLoadingImage') }}
</span>
<span v-else-if="isLoading" class="text-gray-400">
{{ $t('g.loading') }}...
</span>
<span v-else>
{{ actualDimensions || $t('g.calculatingDimensions') }}
</span>
<div class="relative">
<!-- Image Dimensions -->
<div class="text-white text-xs text-center mt-2">
<span v-if="imageError" class="text-red-400">
{{ $t('g.errorLoadingImage') }}
</span>
<span v-else-if="isLoading" class="text-gray-400">
{{ $t('g.loading') }}...
</span>
<span v-else>
{{ actualDimensions || $t('g.calculatingDimensions') }}
</span>
</div>
<LODFallback />
</div>
</div>
</template>
@@ -119,6 +122,8 @@ import { downloadFile } from '@/base/common/downloadUtil'
import { useCommandStore } from '@/stores/commandStore'
import { useNodeOutputStore } from '@/stores/imagePreviewStore'
import LODFallback from './LODFallback.vue'
interface ImagePreviewProps {
/** Array of image URLs to display */
readonly imageUrls: readonly string[]

16
src/renderer/extensions/vueNodes/components/InputSlot.vue
View File

@@ -10,12 +10,15 @@
/>
<!-- Slot Name -->
<span
v-if="!dotOnly"
class="whitespace-nowrap text-sm font-normal dark-theme:text-slate-200 text-stone-200"
>
{{ slotData.localized_name || slotData.name || `Input ${index}` }}
</span>
<div class="relative">
<span
v-if="!dotOnly"
class="whitespace-nowrap text-sm font-normal dark-theme:text-slate-200 text-stone-200 lod-toggle"
>
{{ slotData.localized_name || slotData.name || `Input ${index}` }}
</span>
<LODFallback />
</div>
</div>
</template>
@@ -38,6 +41,7 @@ import { useSlotElementTracking } from '@/renderer/extensions/vueNodes/composabl
import { useSlotLinkInteraction } from '@/renderer/extensions/vueNodes/composables/useSlotLinkInteraction'
import { cn } from '@/utils/tailwindUtil'
import LODFallback from './LODFallback.vue'
import SlotConnectionDot from './SlotConnectionDot.vue'
interface InputSlotProps {

178
src/renderer/extensions/vueNodes/components/LGraphNode.vue
View File

@@ -23,7 +23,7 @@
bypassed,
'will-change-transform': isDragging
},
lodCssClass,
shouldHandleNodePointerEvents
? 'pointer-events-auto'
: 'pointer-events-none'
@@ -31,7 +31,7 @@
"
:style="[
{
transform: `translate(${layoutPosition.x ?? position?.x ?? 0}px, ${(layoutPosition.y ?? position?.y ?? 0) - LiteGraph.NODE_TITLE_HEIGHT}px)`,
transform: `translate(${position.x ?? 0}px, ${(position.y ?? 0) - LiteGraph.NODE_TITLE_HEIGHT}px)`,
zIndex: zIndex
},
dragStyle
@@ -48,21 +48,18 @@
</template>
<!-- Header only updates on title/color changes -->
<NodeHeader
v-memo="[nodeData.title, lodLevel, isCollapsed]"
v-memo="[nodeData.title, isCollapsed]"
:node-data="nodeData"
:readonly="readonly"
:lod-level="lodLevel"
:collapsed="isCollapsed"
@collapse="handleCollapse"
@update:title="handleTitleUpdate"
@update:title="handleHeaderTitleUpdate"
@enter-subgraph="handleEnterSubgraph"
/>
</div>
<div
v-if="
(isMinimalLOD || isCollapsed) && executing && progress !== undefined
"
v-if="isCollapsed && executing && progress !== undefined"
:class="
cn(
'absolute inset-x-4 -bottom-[1px] translate-y-1/2 rounded-full',
@@ -72,7 +69,7 @@
:style="{ width: `${Math.min(progress * 100, 100)}%` }"
/>
<template v-if="!isMinimalLOD && !isCollapsed">
<template v-if="!isCollapsed">
<div class="mb-4 relative">
<div :class="separatorClasses" />
<!-- Progress bar for executing state -->
@@ -96,29 +93,24 @@
>
<!-- Slots only rendered at full detail -->
<NodeSlots
v-if="shouldRenderSlots"
v-memo="[nodeData.inputs?.length, nodeData.outputs?.length, lodLevel]"
v-memo="[nodeData.inputs?.length, nodeData.outputs?.length]"
:node-data="nodeData"
:readonly="readonly"
:lod-level="lodLevel"
@slot-click="handleSlotClick"
/>
<!-- Widgets rendered at reduced+ detail -->
<NodeWidgets
v-if="shouldShowWidgets"
v-memo="[nodeData.widgets?.length, lodLevel]"
v-if="nodeData.widgets?.length"
v-memo="[nodeData.widgets?.length]"
:node-data="nodeData"
:readonly="readonly"
:lod-level="lodLevel"
/>
<!-- Custom content at reduced+ detail -->
<NodeContent
v-if="shouldShowContent"
v-if="hasCustomContent"
:node-data="nodeData"
:readonly="readonly"
:lod-level="lodLevel"
:image-urls="nodeImageUrls"
/>
<!-- Live preview image -->
@@ -140,15 +132,7 @@
<script setup lang="ts">
import { storeToRefs } from 'pinia'
import {
computed,
inject,
onErrorCaptured,
onMounted,
ref,
toRef,
watch
} from 'vue'
import { computed, inject, onErrorCaptured, onMounted, provide, ref } from 'vue'
import type { VueNodeData } from '@/composables/graph/useGraphNodeManager'
import { useErrorHandling } from '@/composables/useErrorHandling'
@@ -156,13 +140,12 @@ import { LiteGraph } from '@/lib/litegraph/src/litegraph'
import { useCanvasStore } from '@/renderer/core/canvas/canvasStore'
import { useCanvasInteractions } from '@/renderer/core/canvas/useCanvasInteractions'
import { TransformStateKey } from '@/renderer/core/layout/injectionKeys'
import { useNodeEventHandlers } from '@/renderer/extensions/vueNodes/composables/useNodeEventHandlers'
import { useNodePointerInteractions } from '@/renderer/extensions/vueNodes/composables/useNodePointerInteractions'
import { useVueElementTracking } from '@/renderer/extensions/vueNodes/composables/useVueNodeResizeTracking'
import { useNodeExecutionState } from '@/renderer/extensions/vueNodes/execution/useNodeExecutionState'
import { useNodeLayout } from '@/renderer/extensions/vueNodes/layout/useNodeLayout'
import { LODLevel, useLOD } from '@/renderer/extensions/vueNodes/lod/useLOD'
import { useNodePreviewState } from '@/renderer/extensions/vueNodes/preview/useNodePreviewState'
import type { ExecutedWsMessage } from '@/schemas/apiSchema'
import { app } from '@/scripts/app'
import { useExecutionStore } from '@/stores/executionStore'
import { useNodeOutputStore } from '@/stores/imagePreviewStore'
@@ -181,8 +164,6 @@ import SlotConnectionDot from './SlotConnectionDot.vue'
// Extended props for main node component
interface LGraphNodeProps {
nodeData: VueNodeData
position?: { x: number; y: number }
size?: { width: number; height: number }
readonly?: boolean
error?: string | null
zoomLevel?: number
@@ -190,30 +171,14 @@ interface LGraphNodeProps {
const {
nodeData,
position = { x: 0, y: 0 },
size = { width: 100, height: 50 },
error = null,
readonly = false,
zoomLevel = 1
readonly = false
} = defineProps<LGraphNodeProps>()
const emit = defineEmits<{
'node-click': [
event: PointerEvent,
nodeData: VueNodeData,
wasDragging: boolean
]
'slot-click': [
event: PointerEvent,
nodeData: VueNodeData,
slotIndex: number,
isInput: boolean
]
'update:collapsed': [nodeId: string, collapsed: boolean]
'update:title': [nodeId: string, newTitle: string]
}>()
const { handleNodeCollapse, handleNodeTitleUpdate, handleNodeSelect } =
useNodeEventHandlers()
useVueElementTracking(nodeData.id, 'node')
useVueElementTracking(() => nodeData.id, 'node')
const { selectedNodeIds } = storeToRefs(useCanvasStore())
@@ -226,7 +191,7 @@ const isSelected = computed(() => {
})
// Use execution state composable
const { executing, progress } = useNodeExecutionState(nodeData.id)
const { executing, progress } = useNodeExecutionState(() => nodeData.id)
// Direct access to execution store for error state
const executionStore = useExecutionStore()
@@ -244,19 +209,6 @@ const bypassed = computed((): boolean => nodeData.mode === 4)
// Use canvas interactions for proper wheel event handling and pointer event capture control
const { handleWheel, shouldHandleNodePointerEvents } = useCanvasInteractions()
// LOD (Level of Detail) system based on zoom level
const zoomRef = toRef(() => zoomLevel)
const {
lodLevel,
shouldRenderWidgets,
shouldRenderSlots,
shouldRenderContent,
lodCssClass
} = useLOD(zoomRef)
// Computed properties for template usage
const isMinimalLOD = computed(() => lodLevel.value === LODLevel.MINIMAL)
// Error boundary implementation
const renderError = ref<string | null>(null)
const { toastErrorHandler } = useErrorHandling()
@@ -268,40 +220,28 @@ onErrorCaptured((error) => {
})
// Use layout system for node position and dragging
const { position: layoutPosition, zIndex, resize } = useNodeLayout(nodeData.id)
const { position, size, zIndex, resize } = useNodeLayout(() => nodeData.id)
const {
handlePointerDown,
handlePointerUp,
handlePointerMove,
isDragging,
dragStyle
} = useNodePointerInteractions(nodeData, (event, nodeData, wasDragging) => {
emit('node-click', event, nodeData, wasDragging)
})
} = useNodePointerInteractions(() => nodeData, handleNodeSelect)
onMounted(() => {
if (size && transformState?.camera) {
if (size.value && transformState?.camera) {
const scale = transformState.camera.z
const screenSize = {
width: size.width * scale,
height: size.height * scale
width: size.value.width * scale,
height: size.value.height * scale
}
resize(screenSize)
}
})
// Track collapsed state
const isCollapsed = ref(nodeData.flags?.collapsed ?? false)
// Watch for external changes to the collapsed state
watch(
() => nodeData.flags?.collapsed,
(newCollapsed: boolean | undefined) => {
if (newCollapsed !== undefined && newCollapsed !== isCollapsed.value) {
isCollapsed.value = newCollapsed
}
}
)
const isCollapsed = computed(() => nodeData.flags?.collapsed ?? false)
// Check if node has custom content (like image outputs)
const hasCustomContent = computed(() => {
@@ -311,26 +251,16 @@ const hasCustomContent = computed(() => {
// Computed classes and conditions for better reusability
const separatorClasses =
'bg-sand-100 dark-theme:bg-charcoal-600 h-px mx-0 w-full'
'bg-sand-100 dark-theme:bg-charcoal-600 h-px mx-0 w-full lod-toggle'
const progressClasses = 'h-2 bg-primary-500 transition-all duration-300'
const { latestPreviewUrl, shouldShowPreviewImg } = useNodePreviewState(
nodeData.id,
() => nodeData.id,
{
isMinimalLOD,
isCollapsed
}
)
// Common condition computations to avoid repetition
const shouldShowWidgets = computed(
() => shouldRenderWidgets.value && nodeData.widgets?.length
)
const shouldShowContent = computed(
() => shouldRenderContent.value && hasCustomContent.value
)
const borderClass = computed(() => {
if (hasAnyError.value) {
return 'border-error'
@@ -356,31 +286,11 @@ const outlineClass = computed(() => {
// Event handlers
const handleCollapse = () => {
isCollapsed.value = !isCollapsed.value
// Emit event so parent can sync with LiteGraph if needed
emit('update:collapsed', nodeData.id, isCollapsed.value)
handleNodeCollapse(nodeData.id, !isCollapsed.value)
}
const handleSlotClick = (
event: PointerEvent,
slotIndex: number,
isInput: boolean
) => {
if (!nodeData) {
console.warn('LGraphNode: nodeData is null/undefined in handleSlotClick')
return
}
// Don't handle slot clicks when canvas is in panning mode
if (!shouldHandleNodePointerEvents.value) {
return
}
emit('slot-click', event, nodeData, slotIndex, isInput)
}
const handleTitleUpdate = (newTitle: string) => {
emit('update:title', nodeData.id, newTitle)
const handleHeaderTitleUpdate = (newTitle: string) => {
handleNodeTitleUpdate(nodeData.id, newTitle)
}
const handleEnterSubgraph = () => {
@@ -410,15 +320,17 @@ const handleEnterSubgraph = () => {
const nodeOutputs = useNodeOutputStore()
const nodeImageUrls = ref<string[]>([])
const onNodeOutputsUpdate = (newOutputs: ExecutedWsMessage['output']) => {
const nodeOutputLocatorId = computed(() =>
nodeData.subgraphId ? `${nodeData.subgraphId}:${nodeData.id}` : nodeData.id
)
const nodeImageUrls = computed(() => {
const newOutputs = nodeOutputs.nodeOutputs[nodeOutputLocatorId.value]
const locatorId = getLocatorIdFromNodeData(nodeData)
// Use root graph for getNodeByLocatorId since it needs to traverse from root
const rootGraph = app.graph?.rootGraph || app.graph
if (!rootGraph) {
nodeImageUrls.value = []
return
return []
}
const node = getNodeByLocatorId(rootGraph, locatorId)
@@ -426,23 +338,13 @@ const onNodeOutputsUpdate = (newOutputs: ExecutedWsMessage['output']) => {
if (node && newOutputs?.images?.length) {
const urls = nodeOutputs.getNodeImageUrls(node)
if (urls) {
nodeImageUrls.value = urls
return urls
}
} else {
// Clear URLs if no outputs or no images
nodeImageUrls.value = []
}
}
// Clear URLs if no outputs or no images
return []
})
const nodeOutputLocatorId = computed(() =>
nodeData.subgraphId ? `${nodeData.subgraphId}:${nodeData.id}` : nodeData.id
)
watch(
() => nodeOutputs.nodeOutputs[nodeOutputLocatorId.value],
(newOutputs) => {
onNodeOutputsUpdate(newOutputs)
},
{ deep: true }
)
const nodeContainerRef = ref()
provide('tooltipContainer', nodeContainerRef)
</script>

3
src/renderer/extensions/vueNodes/components/LODFallback.vue Normal file
View File

@@ -0,0 +1,3 @@
<template>
<div class="lod-fallback absolute inset-0 w-full h-full bg-zinc-800"></div>
</template>

2
src/renderer/extensions/vueNodes/components/NodeContent.vue
View File

@@ -21,7 +21,6 @@ import { computed, onErrorCaptured, ref } from 'vue'
import type { VueNodeData } from '@/composables/graph/useGraphNodeManager'
import { useErrorHandling } from '@/composables/useErrorHandling'
import type { LGraphNode } from '@/lib/litegraph/src/litegraph'
import type { LODLevel } from '@/renderer/extensions/vueNodes/lod/useLOD'
import ImagePreview from './ImagePreview.vue'
@@ -29,7 +28,6 @@ interface NodeContentProps {
node?: LGraphNode // For backwards compatibility
nodeData?: VueNodeData // New clean data structure
readonly?: boolean
lodLevel?: LODLevel
imageUrls?: string[]
}

63
src/renderer/extensions/vueNodes/components/NodeHeader.vue
View File

@@ -4,41 +4,44 @@
</div>
<div
v-else
class="lg-node-header flex items-center justify-between p-4 rounded-t-2xl cursor-move w-full"
class="lg-node-header p-4 rounded-t-2xl cursor-move"
:data-testid="`node-header-${nodeData?.id || ''}`"
@dblclick="handleDoubleClick"
>
<!-- Collapse/Expand Button -->
<button
v-show="!readonly"
class="bg-transparent border-transparent flex items-center"
data-testid="node-collapse-button"
@click.stop="handleCollapse"
@dblclick.stop
>
<i
:class="collapsed ? 'pi pi-chevron-right' : 'pi pi-chevron-down'"
class="text-xs leading-none relative top-px text-stone-200 dark-theme:text-slate-300"
></i>
</button>
<div class="flex items-center justify-between relative">
<!-- Collapse/Expand Button -->
<button
v-show="!readonly"
class="bg-transparent border-transparent flex items-center lod-toggle"
data-testid="node-collapse-button"
@click.stop="handleCollapse"
@dblclick.stop
>
<i
:class="collapsed ? 'pi pi-chevron-right' : 'pi pi-chevron-down'"
class="text-xs leading-none relative top-px text-stone-200 dark-theme:text-slate-300"
></i>
</button>
<!-- Node Title -->
<div
v-tooltip.top="tooltipConfig"
class="text-sm font-bold truncate flex-1"
data-testid="node-title"
>
<EditableText
:model-value="displayTitle"
:is-editing="isEditing"
:input-attrs="{ 'data-testid': 'node-title-input' }"
@edit="handleTitleEdit"
@cancel="handleTitleCancel"
/>
<!-- Node Title -->
<div
v-tooltip.top="tooltipConfig"
class="text-sm font-bold truncate flex-1 lod-toggle"
data-testid="node-title"
>
<EditableText
:model-value="displayTitle"
:is-editing="isEditing"
:input-attrs="{ 'data-testid': 'node-title-input' }"
@edit="handleTitleEdit"
@cancel="handleTitleCancel"
/>
</div>
<LODFallback />
</div>
<!-- Title Buttons -->
<div v-if="!readonly" class="flex items-center">
<div v-if="!readonly" class="flex items-center lod-toggle">
<IconButton
v-if="isSubgraphNode"
size="sm"
@@ -63,17 +66,17 @@ import EditableText from '@/components/common/EditableText.vue'
import type { VueNodeData } from '@/composables/graph/useGraphNodeManager'
import { useErrorHandling } from '@/composables/useErrorHandling'
import { useNodeTooltips } from '@/renderer/extensions/vueNodes/composables/useNodeTooltips'
import type { LODLevel } from '@/renderer/extensions/vueNodes/lod/useLOD'
import { app } from '@/scripts/app'
import {
getLocatorIdFromNodeData,
getNodeByLocatorId
} from '@/utils/graphTraversalUtil'
import LODFallback from './LODFallback.vue'
interface NodeHeaderProps {
nodeData?: VueNodeData
readonly?: boolean
lodLevel?: LODLevel
collapsed?: boolean
}

2
src/renderer/extensions/vueNodes/components/NodeSlots.vue
View File

@@ -35,7 +35,6 @@ import { computed, onErrorCaptured, ref } from 'vue'
import type { VueNodeData } from '@/composables/graph/useGraphNodeManager'
import { useErrorHandling } from '@/composables/useErrorHandling'
import type { INodeSlot } from '@/lib/litegraph/src/litegraph'
import type { LODLevel } from '@/renderer/extensions/vueNodes/lod/useLOD'
import { isSlotObject } from '@/utils/typeGuardUtil'
import InputSlot from './InputSlot.vue'
@@ -44,7 +43,6 @@ import OutputSlot from './OutputSlot.vue'
interface NodeSlotsProps {
nodeData?: VueNodeData
readonly?: boolean
lodLevel?: LODLevel
}
const { nodeData = null, readonly } = defineProps<NodeSlotsProps>()

20
src/renderer/extensions/vueNodes/components/NodeWidgets.vue
View File

@@ -12,16 +12,17 @@
: 'pointer-events-none'
)
"
@pointerdown="handleWidgetPointerEvent"
@pointermove="handleWidgetPointerEvent"
@pointerup="handleWidgetPointerEvent"
@pointerdown.stop="handleWidgetPointerEvent"
@pointermove.stop="handleWidgetPointerEvent"
@pointerup.stop="handleWidgetPointerEvent"
>
<div
v-for="(widget, index) in processedWidgets"
:key="`widget-${index}-${widget.name}`"
class="lg-widget-container relative flex items-center group"
class="lg-widget-container flex items-center group"
>
<!-- Widget Input Slot Dot -->
<div
class="opacity-0 group-hover:opacity-100 transition-opacity duration-150"
>
@@ -61,12 +62,10 @@ import type {
import { useErrorHandling } from '@/composables/useErrorHandling'
import { useCanvasInteractions } from '@/renderer/core/canvas/useCanvasInteractions'
import { useNodeTooltips } from '@/renderer/extensions/vueNodes/composables/useNodeTooltips'
import { LODLevel } from '@/renderer/extensions/vueNodes/lod/useLOD'
// Import widget components directly
import WidgetInputText from '@/renderer/extensions/vueNodes/widgets/components/WidgetInputText.vue'
import {
getComponent,
isEssential,
shouldRenderAsVue
} from '@/renderer/extensions/vueNodes/widgets/registry/widgetRegistry'
import type { SimplifiedWidget, WidgetValue } from '@/types/simplifiedWidget'
@@ -77,10 +76,9 @@ import InputSlot from './InputSlot.vue'
interface NodeWidgetsProps {
nodeData?: VueNodeData
readonly?: boolean
lodLevel?: LODLevel
}
const { nodeData, readonly, lodLevel } = defineProps<NodeWidgetsProps>()
const { nodeData, readonly } = defineProps<NodeWidgetsProps>()
const { shouldHandleNodePointerEvents, forwardEventToCanvas } =
useCanvasInteractions()
@@ -125,18 +123,12 @@ const processedWidgets = computed((): ProcessedWidget[] => {
const widgets = nodeData.widgets as SafeWidgetData[]
const result: ProcessedWidget[] = []
if (lodLevel === LODLevel.MINIMAL) {
return []
}
for (const widget of widgets) {
if (widget.options?.hidden) continue
if (widget.options?.canvasOnly) continue
if (!widget.type) continue
if (!shouldRenderAsVue(widget)) continue
if (lodLevel === LODLevel.REDUCED && !isEssential(widget.type)) continue
const vueComponent = getComponent(widget.type) || WidgetInputText
const simplified: SimplifiedWidget = {

19
src/renderer/extensions/vueNodes/components/OutputSlot.vue
View File

@@ -1,14 +1,16 @@
<template>
<div v-if="renderError" class="node-error p-1 text-red-500 text-xs"></div>
<div v-else v-tooltip.right="tooltipConfig" :class="slotWrapperClass">
<!-- Slot Name -->
<span
v-if="!dotOnly"
class="whitespace-nowrap text-sm font-normal dark-theme:text-slate-200 text-stone-200"
>
{{ slotData.name || `Output ${index}` }}
</span>
<div class="relative">
<!-- Slot Name -->
<span
v-if="!dotOnly"
class="whitespace-nowrap text-sm font-normal dark-theme:text-slate-200 text-stone-200 lod-toggle"
>
{{ slotData.name || `Output ${index}` }}
</span>
<LODFallback />
</div>
<!-- Connection Dot -->
<SlotConnectionDot
ref="connectionDotRef"
@@ -38,6 +40,7 @@ import { useSlotElementTracking } from '@/renderer/extensions/vueNodes/composabl
import { useSlotLinkInteraction } from '@/renderer/extensions/vueNodes/composables/useSlotLinkInteraction'
import { cn } from '@/utils/tailwindUtil'
import LODFallback from './LODFallback.vue'
import SlotConnectionDot from './SlotConnectionDot.vue'
interface OutputSlotProps {

1
src/renderer/extensions/vueNodes/components/SlotConnectionDot.vue
View File

@@ -24,6 +24,7 @@ defineExpose({
>
<div
ref="slot-el"
class="slot-dot"
:style="{ backgroundColor: color }"
:class="
cn(

326
src/renderer/extensions/vueNodes/components/widgets/LOD_IMPLEMENTATION_GUIDE.md
View File

@@ -1,295 +1,141 @@
# Level of Detail (LOD) Implementation Guide for Widgets
# ComfyUI Widget LOD System: Architecture and Implementation
## What is Level of Detail (LOD)?
## Executive Summary
Level of Detail is a technique used to optimize performance by showing different amounts of detail based on how zoomed in the user is. Think of it like Google Maps - when you're zoomed out looking at the whole country, you only see major cities and highways. When you zoom in close, you see street names, building details, and restaurants.
The ComfyUI widget Level of Detail (LOD) system has evolved from a reactive, Vue-based approach to a CSS-driven, non-reactive implementation. This architectural shift was driven by performance requirements at scale (300-500+ nodes) and a deeper understanding of browser rendering pipelines. The current system prioritizes consistent performance over granular control, leveraging CSS visibility rules rather than component mounting/unmounting.
For ComfyUI nodes, this means:
- **Zoomed out** (viewing many nodes): Show only essential controls, hide labels and descriptions
- **Zoomed in** (focusing on specific nodes): Show all details, labels, help text, and visual polish
## The Two Approaches: Reactive vs. Static LOD
## Why LOD Matters
### Approach 1: Reactive LOD (Original Design)
Without LOD optimization:
- 1000+ nodes with full detail = browser lag and poor performance
- Text that's too small to read still gets rendered (wasted work)
- Visual effects that are invisible at distance still consume GPU
The original design envisioned a system where each widget would reactively respond to zoom level changes, controlling its own detail level through Vue's reactivity system. Widgets would import LOD utilities, compute what to show based on zoom level, and conditionally render elements using `v-if` and `v-show` directives.
With LOD optimization:
- Smooth performance even with large node graphs
- Battery life improvement on laptops
- Better user experience across different zoom levels
**The promise of this approach was compelling:** widgets could intelligently manage their complexity, progressively revealing detail as users zoomed in, much like how mapping applications work. Developers would have fine-grained control over performance optimization.
## How to Implement LOD in Your Widget
### Approach 2: Static LOD with CSS (Current Implementation)
### Step 1: Get the LOD Context
The implemented system takes a fundamentally different approach. All widget content is loaded and remains in the DOM at all times. Visual simplification happens through CSS rules, primarily using `visibility: hidden` and simplified visual representations (gray rectangles) at distant zoom levels. No reactive updates occur when zoom changes—only CSS rules apply differently.
Every widget component gets a `zoomLevel` prop. Use this to determine how much detail to show:
**This approach seems counterintuitive at first:** aren't we wasting resources by keeping everything loaded? The answer reveals a deeper truth about modern browser rendering.
```vue
<script setup lang="ts">
import { computed, toRef } from 'vue'
import { useLOD } from '@/composables/graph/useLOD'
## The GPU Texture Bottleneck
const props = defineProps<{
widget: any
zoomLevel: number
// ... other props
}>()
The key insight driving the current architecture comes from understanding how browsers handle CSS transforms:
// Get LOD information
const { lodScore, lodLevel } = useLOD(toRef(() => props.zoomLevel))
</script>
```
When you apply a CSS transform to a parent element (the "transformpane" in ComfyUI's case), the browser promotes that entire subtree to a compositor layer. This creates a single GPU texture containing all the transformed content. Here's where traditional performance intuitions break down:
**Primary API:** Use `lodScore` (0-1) for granular control and smooth transitions
**Convenience API:** Use `lodLevel` ('minimal'|'reduced'|'full') for simple on/off decisions
### Traditional Assumption
### Step 2: Choose What to Show at Different Zoom Levels
"If we render less content, we get better performance. Therefore, hiding complex widgets should improve zoom/pan performance."
#### Understanding the LOD Score
- `lodScore` is a number from 0 to 1
- 0 = completely zoomed out (show minimal detail)
- 1 = fully zoomed in (show everything)
- 0.5 = medium zoom (show some details)
### Actual Browser Behavior
#### Understanding LOD Levels
- `'minimal'` = zoom level 0.4 or below (very zoomed out)
- `'reduced'` = zoom level 0.4 to 0.8 (medium zoom)
- `'full'` = zoom level 0.8 or above (zoomed in close)
When all nodes are children of a single transformed parent:
### Step 3: Implement Your Widget's LOD Strategy
1. The browser creates one large GPU texture for the entire node graph
2. The texture dimensions are determined by the bounding box of all content
3. Whether individual pixels are simple (solid rectangles) or complex (detailed widgets) has minimal impact
4. The performance bottleneck is the texture size itself, not the complexity of rasterization
Here's a complete example of a slider widget with LOD:
This means that even if we reduce every node to a simple gray rectangle, we're still paying the cost of a massive GPU texture when viewing hundreds of nodes simultaneously. The texture dimensions remain the same whether it contains simple or complex content.
```vue
<template>
<div class="number-widget">
<!-- The main control always shows -->
<input
v-model="value"
type="range"
:min="widget.min"
:max="widget.max"
class="widget-slider"
/>
<!-- Show label only when zoomed in enough to read it -->
<label
v-if="showLabel"
class="widget-label"
>
{{ widget.name }}
</label>
<!-- Show precise value only when fully zoomed in -->
<span
v-if="showValue"
class="widget-value"
>
{{ formattedValue }}
</span>
<!-- Show description only at full detail -->
<div
v-if="showDescription && widget.description"
class="widget-description"
>
{{ widget.description }}
</div>
</div>
</template>
## Two Distinct Performance Concerns
<script setup lang="ts">
import { computed, toRef } from 'vue'
import { useLOD } from '@/composables/graph/useLOD'
The analysis reveals two often-conflated performance considerations that should be understood separately:
const props = defineProps<{
widget: any
zoomLevel: number
}>()
### 1. Rendering Performance
const { lodScore, lodLevel } = useLOD(toRef(() => props.zoomLevel))
**Question:** How fast can the browser paint and composite the node graph during interactions?
// Define when to show each element
const showLabel = computed(() => {
// Show label when user can actually read it
return lodScore.value > 0.4 // Roughly 12px+ text size
})
**Traditional thinking:** Show less content → render faster
**Reality with CSS transforms:** GPU texture size dominates performance, not content complexity
const showValue = computed(() => {
// Show precise value only when zoomed in close
return lodScore.value > 0.7 // User is focused on this specific widget
})
The CSS transform approach means that zoom, pan, and drag operations are already optimized—they're just transforming an existing GPU texture. The cost is in the initial rasterization and texture upload, which happens regardless of content complexity when texture dimensions are fixed.
const showDescription = computed(() => {
// Description only at full detail
return lodLevel.value === 'full' // Maximum zoom level
})
### 2. Memory and Lifecycle Management
// You can also use LOD for styling
const widgetClasses = computed(() => {
const classes = ['number-widget']
if (lodLevel.value === 'minimal') {
classes.push('widget--minimal')
}
return classes
})
</script>
**Question:** How much memory do widget instances consume, and what's the cost of maintaining them?
<style scoped>
/* Apply different styles based on LOD */
.widget--minimal {
/* Simplified appearance when zoomed out */
.widget-slider {
height: 4px; /* Thinner slider */
opacity: 0.9;
}
}
This is where unmounting widgets might theoretically help:
/* Normal styling */
.widget-slider {
height: 8px;
transition: height 0.2s ease;
}
- Complex widgets (3D viewers, chart renderers) might hold significant memory
- Event listeners and reactive watchers consume resources
- Some widgets might run background processes or animations
.widget-label {
font-size: 0.8rem;
color: var(--text-secondary);
}
However, the cost of mounting/unmounting hundreds of widgets on zoom changes could create worse performance problems than the memory savings provide. Vue's virtual DOM diffing for hundreds of nodes is expensive, potentially causing noticeable lag during zoom transitions.
.widget-value {
font-family: monospace;
font-size: 0.7rem;
color: var(--text-accent);
}
## Design Philosophy and Trade-offs
.widget-description {
font-size: 0.6rem;
color: var(--text-muted);
margin-top: 4px;
}
</style>
```
The current CSS-based approach makes several deliberate trade-offs:
## Common LOD Patterns
### What We Optimize For
### Pattern 1: Essential vs. Nice-to-Have
```typescript
// Always show the main functionality
const showMainControl = computed(() => true)
1. **Consistent, predictable performance** - No reactivity means no sudden performance cliffs
2. **Smooth zoom/pan interactions** - CSS transforms are hardware-accelerated
3. **Simple widget development** - Widget authors don't need to implement LOD logic
4. **Reliable state preservation** - Widgets never lose state from unmounting
// Granular control with lodScore
const showLabels = computed(() => lodScore.value > 0.4)
const labelOpacity = computed(() => Math.max(0.3, lodScore.value))
### What We Accept
// Simple control with lodLevel
const showExtras = computed(() => lodLevel.value === 'full')
```
1. **Higher baseline memory usage** - All widgets remain mounted
2. **Less granular control** - Widgets can't optimize their own LOD behavior
3. **Potential waste for exotic widgets** - A 3D renderer widget still runs when hidden
### Pattern 2: Smooth Opacity Transitions
```typescript
// Gradually fade elements based on zoom
const labelOpacity = computed(() => {
// Fade in from zoom 0.3 to 0.6
return Math.max(0, Math.min(1, (lodScore.value - 0.3) / 0.3))
})
```
## Open Questions and Future Considerations
### Pattern 3: Progressive Detail
```typescript
const detailLevel = computed(() => {
if (lodScore.value < 0.3) return 'none'
if (lodScore.value < 0.6) return 'basic'
if (lodScore.value < 0.8) return 'standard'
return 'full'
})
```
### Should widgets have any LOD control?
## LOD Guidelines by Widget Type
The current system provides a uniform gray rectangle fallback with CSS visibility hiding. This works for 99% of widgets, but raises questions:
### Text Input Widgets
- **Always show**: The input field itself
- **Medium zoom**: Show label
- **High zoom**: Show placeholder text, validation messages
- **Full zoom**: Show character count, format hints
**Scenario:** A widget renders a complex 3D scene or runs expensive computations
**Current behavior:** Hidden via CSS but still mounted
**Question:** Should such widgets be able to opt into unmounting at distance?
### Button Widgets
- **Always show**: The button
- **Medium zoom**: Show button text
- **High zoom**: Show button description
- **Full zoom**: Show keyboard shortcuts, tooltips
The challenge is that introducing selective unmounting would require:
### Selection Widgets (Dropdown, Radio)
- **Always show**: The current selection
- **Medium zoom**: Show option labels
- **High zoom**: Show all options when expanded
- **Full zoom**: Show option descriptions, icons
- Maintaining widget state across mount/unmount cycles
- Accepting the performance cost of remounting when zooming in
- Adding complexity to the widget API
### Complex Widgets (Color Picker, File Browser)
- **Always show**: Simplified representation (color swatch, filename)
- **Medium zoom**: Show basic controls
- **High zoom**: Show full interface
- **Full zoom**: Show advanced options, previews
### Could we reduce GPU texture size?
## Design Collaboration Guidelines
Since texture dimensions are the limiting factor, could we:
### For Designers
When designing widgets, consider creating variants for different zoom levels:
- Use multiple compositor layers for different regions (chunk the transformpane)?
- Render the nodes using the canvas fallback when 500+ nodes and < 30% zoom.
1. **Minimal Design** (far away view)
- Essential elements only
- Higher contrast for visibility
- Simplified shapes and fewer details
These approaches would require significant architectural changes and might introduce their own performance trade-offs.
2. **Standard Design** (normal view)
- Balanced detail and simplicity
- Clear labels and readable text
- Good for most use cases
### Is there a hybrid approach?
3. **Full Detail Design** (close-up view)
- All labels, descriptions, and help text
- Rich visual effects and polish
- Maximum information density
Could we identify specific threshold scenarios where reactive LOD makes sense?
### Design Handoff Checklist
- [ ] Specify which elements are essential vs. nice-to-have
- [ ] Define minimum readable sizes for text elements
- [ ] Provide simplified versions for distant viewing
- [ ] Consider color contrast at different opacity levels
- [ ] Test designs at multiple zoom levels
- When node count is low (< 50 nodes)
- For specifically registered "expensive" widgets
- At extreme zoom levels only
## Testing Your LOD Implementation
## Implementation Guidelines
### Manual Testing
1. Create a workflow with your widget
2. Zoom out until nodes are very small
3. Verify essential functionality still works
4. Zoom in gradually and check that details appear smoothly
5. Test performance with 50+ nodes containing your widget
Given the current architecture, here's how to work within the system:
### Performance Considerations
- Avoid complex calculations in LOD computed properties
- Use `v-if` instead of `v-show` for elements that won't render
- Consider using `v-memo` for expensive widget content
- Test on lower-end devices
### For Widget Developers
### Common Mistakes
**Don't**: Hide the main widget functionality at any zoom level
**Don't**: Use complex animations that trigger at every zoom change
**Don't**: Make LOD thresholds too sensitive (causes flickering)
**Don't**: Forget to test with real content and edge cases
1. **Build widgets assuming they're always visible** - Don't rely on mount/unmount for cleanup
2. **Use CSS classes for zoom-responsive styling** - Let CSS handle visual changes
3. **Minimize background processing** - Assume your widget is always running
4. **Consider requestAnimationFrame throttling** - For animations that won't be visible when zoomed out
**Do**: Keep essential functionality always visible
**Do**: Use smooth transitions between LOD levels
**Do**: Test with varying content lengths and types
**Do**: Consider accessibility at all zoom levels
### For System Architects
## Getting Help
1. **Monitor GPU memory usage** - The single texture approach has memory implications
2. **Consider viewport culling** - Not rendering off-screen nodes could reduce texture size
3. **Profile real-world workflows** - Theoretical performance differs from actual usage patterns
4. **Document the architecture clearly** - The non-obvious performance characteristics need explanation
- Check existing widgets in `src/components/graph/vueNodes/widgets/` for examples
- Ask in the ComfyUI frontend Discord for LOD implementation questions
- Test your changes with the LOD debug panel (top-right in GraphCanvas)
- Profile performance impact using browser dev tools
## Conclusion
The ComfyUI LOD system represents a pragmatic choice: accepting higher memory usage and less granular control in exchange for predictable performance and implementation simplicity. By understanding that GPU texture dimensions—not rasterization complexity—drive performance in a CSS-transform-based architecture, the team has chosen an approach that may seem counterintuitive but actually aligns with browser rendering realities.
The system works well for the common case of hundreds of relatively simple widgets. Edge cases involving genuinely expensive widgets may need future consideration, but the current approach provides a solid foundation that avoids the performance pitfalls of reactive LOD at scale.
The key insight—that showing less doesn't necessarily mean rendering faster when everything lives in a single GPU texture—challenges conventional web performance wisdom and demonstrates the importance of understanding the full rendering pipeline when making architectural decisions.

2
src/renderer/extensions/vueNodes/composables/useNodeEventHandlers.ts
View File

@@ -38,7 +38,7 @@ function useNodeEventHandlersIndividual() {
const node = nodeManager.value.getNode(nodeData.id)
if (!node) return
const isMultiSelect = event.ctrlKey || event.metaKey
const isMultiSelect = event.ctrlKey || event.metaKey || event.shiftKey
if (isMultiSelect) {
// Ctrl/Cmd+click -> toggle selection

4
src/renderer/extensions/vueNodes/composables/useNodeTooltips.ts
View File

@@ -93,10 +93,10 @@ export function useNodeTooltips(
pt: {
text: {
class:
'bg-charcoal-100 border border-slate-300 rounded-md px-4 py-2 text-white text-sm font-normal leading-tight max-w-75 shadow-none'
'bg-charcoal-800 border border-slate-300 rounded-md px-4 py-2 text-white text-sm font-normal leading-tight max-w-75 shadow-none'
},
arrow: {
class: 'before:border-charcoal-100'
class: 'before:border-slate-300'
}
}
}

11
src/renderer/extensions/vueNodes/composables/useVueNodeResizeTracking.ts
View File

@@ -8,7 +8,13 @@
* Supports different element types (nodes, slots, widgets, etc.) with
* customizable data attributes and update handlers.
*/
import { getCurrentInstance, onMounted, onUnmounted } from 'vue'
import {
type MaybeRefOrGetter,
getCurrentInstance,
onMounted,
onUnmounted,
toValue
} from 'vue'
import { useSharedCanvasPositionConversion } from '@/composables/element/useCanvasPositionConversion'
import { LiteGraph } from '@/lib/litegraph/src/litegraph'
@@ -154,9 +160,10 @@ const resizeObserver = new ResizeObserver((entries) => {
* ```
*/
export function useVueElementTracking(
appIdentifier: string,
appIdentifierMaybe: MaybeRefOrGetter<string>,
trackingType: string
) {
const appIdentifier = toValue(appIdentifierMaybe)
onMounted(() => {
const element = getCurrentInstance()?.proxy?.$el
if (!(element instanceof HTMLElement) || !appIdentifier) return

36
src/renderer/extensions/vueNodes/execution/useExecutionStateProvider.ts
View File

@@ -1,36 +0,0 @@
import { storeToRefs } from 'pinia'
import { computed, provide } from 'vue'
import {
ExecutingNodeIdsKey,
NodeProgressStatesKey
} from '@/renderer/core/canvas/injectionKeys'
import { useExecutionStore } from '@/stores/executionStore'
/**
* Composable for providing execution state to Vue node children
*
* This composable sets up the execution state providers that can be injected
* by child Vue nodes using useNodeExecutionState.
*
* Should be used in the parent component that manages Vue nodes (e.g., GraphCanvas).
*/
export const useExecutionStateProvider = () => {
const executionStore = useExecutionStore()
const { executingNodeIds: storeExecutingNodeIds, nodeProgressStates } =
storeToRefs(executionStore)
// Convert execution store data to the format expected by Vue nodes
const executingNodeIds = computed(
() => new Set(storeExecutingNodeIds.value.map(String))
)
// Provide the execution state to all child Vue nodes
provide(ExecutingNodeIdsKey, executingNodeIds)
provide(NodeProgressStatesKey, nodeProgressStates)
return {
executingNodeIds,
nodeProgressStates
}
}

25
src/renderer/extensions/vueNodes/execution/useNodeExecutionState.ts
View File

@@ -1,10 +1,7 @@
import { computed, inject, ref } from 'vue'
import { storeToRefs } from 'pinia'
import { type MaybeRefOrGetter, computed, toValue } from 'vue'
import {
ExecutingNodeIdsKey,
NodeProgressStatesKey
} from '@/renderer/core/canvas/injectionKeys'
import type { NodeProgressState } from '@/schemas/apiSchema'
import { useExecutionStore } from '@/stores/executionStore'
/**
* Composable for managing execution state of Vue-based nodes
@@ -12,18 +9,18 @@ import type { NodeProgressState } from '@/schemas/apiSchema'
* Provides reactive access to execution state and progress for a specific node
* by injecting execution data from the parent GraphCanvas provider.
*
* @param nodeId - The ID of the node to track execution state for
* @param nodeIdMaybe - The ID of the node to track execution state for
* @returns Object containing reactive execution state and progress
*/
export const useNodeExecutionState = (nodeId: string) => {
const executingNodeIds = inject(ExecutingNodeIdsKey, ref(new Set<string>()))
const nodeProgressStates = inject(
NodeProgressStatesKey,
ref<Record<string, NodeProgressState>>({})
)
export const useNodeExecutionState = (
nodeIdMaybe: MaybeRefOrGetter<string>
) => {
const nodeId = toValue(nodeIdMaybe)
const { uniqueExecutingNodeIdStrings, nodeProgressStates } =
storeToRefs(useExecutionStore())
const executing = computed(() => {
return executingNodeIds.value.has(nodeId)
return uniqueExecutingNodeIdStrings.value.has(nodeId)
})
const progress = computed(() => {

37
src/renderer/extensions/vueNodes/layout/useNodeLayout.ts
View File

@@ -1,11 +1,11 @@
import { storeToRefs } from 'pinia'
/**
* Composable for individual Vue node components
*
* Uses customRef for shared write access with Canvas renderer.
* Provides dragging functionality and reactive layout state.
*/
import { computed, inject } from 'vue'
import {
type CSSProperties,
type MaybeRefOrGetter,
computed,
inject,
toValue
} from 'vue'
import { useCanvasStore } from '@/renderer/core/canvas/canvasStore'
import { TransformStateKey } from '@/renderer/core/layout/injectionKeys'
@@ -17,7 +17,8 @@ import { LayoutSource, type Point } from '@/renderer/core/layout/types'
* Composable for individual Vue node components
* Uses customRef for shared write access with Canvas renderer
*/
export function useNodeLayout(nodeId: string) {
export function useNodeLayout(nodeIdMaybe: MaybeRefOrGetter<string>) {
const nodeId = toValue(nodeIdMaybe)
const mutations = useLayoutMutations()
const { selectedNodeIds } = storeToRefs(useCanvasStore())
@@ -187,14 +188,16 @@ export function useNodeLayout(nodeId: string) {
endDrag,
// Computed styles for Vue templates
nodeStyle: computed(() => ({
position: 'absolute' as const,
left: `${position.value.x}px`,
top: `${position.value.y}px`,
width: `${size.value.width}px`,
height: `${size.value.height}px`,
zIndex: zIndex.value,
cursor: isDragging ? 'grabbing' : 'grab'
}))
nodeStyle: computed(
(): CSSProperties => ({
position: 'absolute' as const,
left: `${position.value.x}px`,
top: `${position.value.y}px`,
width: `${size.value.width}px`,
height: `${size.value.height}px`,
zIndex: zIndex.value,
cursor: isDragging ? 'grabbing' : 'grab'
})
)
}
}

196
src/renderer/extensions/vueNodes/lod/useLOD.ts
View File

@@ -2,185 +2,33 @@
* Level of Detail (LOD) composable for Vue-based node rendering
*
* Provides dynamic quality adjustment based on zoom level to maintain
* performance with large node graphs. Uses zoom thresholds to determine
* how much detail to render for each node component.
*
* ## LOD Levels
*
* - **FULL** (zoom > 0.8): Complete rendering with all widgets, slots, and content
* - **REDUCED** (0.4 < zoom <= 0.8): Essential widgets only, simplified slots
* - **MINIMAL** (zoom <= 0.4): Title only, no widgets or slots
*
* ## Performance Benefits
*
* - Reduces DOM element count by up to 80% at low zoom levels
* - Minimizes layout calculations and paint operations
* - Enables smooth performance with 1000+ nodes
* - Maintains visual fidelity when detail is actually visible
*
* @example
* ```typescript
* const { lodLevel, shouldRenderWidgets, shouldRenderSlots } = useLOD(zoomRef)
*
* // In template
* <NodeWidgets v-if="shouldRenderWidgets" />
* <NodeSlots v-if="shouldRenderSlots" />
* ```
*/
import { type Ref, computed, readonly } from 'vue'
* performance with large node graphs. Uses zoom threshold based on DPR
* to determine how much detail to render for each node component.
* Default minFontSize = 8px
* Default zoomThreshold = 0.57 (On a DPR = 1 monitor)
**/
import { useDevicePixelRatio } from '@vueuse/core'
import { computed } from 'vue'
export enum LODLevel {
MINIMAL = 'minimal', // zoom <= 0.4
REDUCED = 'reduced', // 0.4 < zoom <= 0.8
FULL = 'full' // zoom > 0.8
import { useSettingStore } from '@/platform/settings/settingStore'
interface Camera {
z: number // zoom level
}
interface LODConfig {
renderWidgets: boolean
renderSlots: boolean
renderContent: boolean
renderSlotLabels: boolean
renderWidgetLabels: boolean
cssClass: string
}
export function useLOD(camera: Camera) {
const isLOD = computed(() => {
const { pixelRatio } = useDevicePixelRatio()
const baseFontSize = 14
const dprAdjustment = Math.sqrt(pixelRatio.value)
// LOD configuration for each level
const LOD_CONFIGS: Record<LODLevel, LODConfig> = {
[LODLevel.FULL]: {
renderWidgets: true,
renderSlots: true,
renderContent: true,
renderSlotLabels: true,
renderWidgetLabels: true,
cssClass: 'lg-node--lod-full'
},
[LODLevel.REDUCED]: {
renderWidgets: true,
renderSlots: true,
renderContent: false,
renderSlotLabels: false,
renderWidgetLabels: false,
cssClass: 'lg-node--lod-reduced'
},
[LODLevel.MINIMAL]: {
renderWidgets: false,
renderSlots: false,
renderContent: false,
renderSlotLabels: false,
renderWidgetLabels: false,
cssClass: 'lg-node--lod-minimal'
}
}
const settingStore = useSettingStore()
const minFontSize = settingStore.get('LiteGraph.Canvas.MinFontSizeForLOD') //default 8
const threshold =
Math.round((minFontSize / (baseFontSize * dprAdjustment)) * 100) / 100 //round to 2 decimal places i.e 0.86
/**
* Create LOD (Level of Detail) state based on zoom level
*
* @param zoomRef - Reactive reference to current zoom level (camera.z)
* @returns LOD state and configuration
*/
export function useLOD(zoomRef: Ref<number>) {
// Continuous LOD score (0-1) for smooth transitions
const lodScore = computed(() => {
const zoom = zoomRef.value
return Math.max(0, Math.min(1, zoom))
return camera.z < threshold
})
// Determine current LOD level based on zoom
const lodLevel = computed<LODLevel>(() => {
const zoom = zoomRef.value
if (zoom > 0.8) return LODLevel.FULL
if (zoom > 0.4) return LODLevel.REDUCED
return LODLevel.MINIMAL
})
// Get configuration for current LOD level
const lodConfig = computed<LODConfig>(() => LOD_CONFIGS[lodLevel.value])
// Convenience computed properties for common rendering decisions
const shouldRenderWidgets = computed(() => lodConfig.value.renderWidgets)
const shouldRenderSlots = computed(() => lodConfig.value.renderSlots)
const shouldRenderContent = computed(() => lodConfig.value.renderContent)
const shouldRenderSlotLabels = computed(
() => lodConfig.value.renderSlotLabels
)
const shouldRenderWidgetLabels = computed(
() => lodConfig.value.renderWidgetLabels
)
// CSS class for styling based on LOD level
const lodCssClass = computed(() => lodConfig.value.cssClass)
// Get essential widgets for reduced LOD (only interactive controls)
const getEssentialWidgets = (widgets: unknown[]): unknown[] => {
if (lodLevel.value === LODLevel.FULL) return widgets
if (lodLevel.value === LODLevel.MINIMAL) return []
// For reduced LOD, filter to essential widget types only
return widgets.filter((widget: any) => {
const type = widget?.type?.toLowerCase()
return [
'combo',
'select',
'toggle',
'boolean',
'slider',
'number'
].includes(type)
})
}
// Performance metrics for debugging
const lodMetrics = computed(() => ({
level: lodLevel.value,
zoom: zoomRef.value,
widgetCount: shouldRenderWidgets.value ? 'full' : 'none',
slotCount: shouldRenderSlots.value ? 'full' : 'none'
}))
return {
// Core LOD state
lodLevel: readonly(lodLevel),
lodConfig: readonly(lodConfig),
lodScore: readonly(lodScore),
// Rendering decisions
shouldRenderWidgets,
shouldRenderSlots,
shouldRenderContent,
shouldRenderSlotLabels,
shouldRenderWidgetLabels,
// Styling
lodCssClass,
// Utilities
getEssentialWidgets,
lodMetrics
}
}
/**
* Get LOD level thresholds for configuration or debugging
*/
export const LOD_THRESHOLDS = {
FULL_THRESHOLD: 0.8,
REDUCED_THRESHOLD: 0.4,
MINIMAL_THRESHOLD: 0.0
} as const
/**
* Check if zoom level supports a specific feature
*/
export function supportsFeatureAtZoom(
zoom: number,
feature: keyof LODConfig
): boolean {
const level =
zoom > 0.8
? LODLevel.FULL
: zoom > 0.4
? LODLevel.REDUCED
: LODLevel.MINIMAL
return LOD_CONFIGS[level][feature] as boolean
return { isLOD }
}

14
src/renderer/extensions/vueNodes/preview/useNodePreviewState.ts
View File

@@ -1,16 +1,16 @@
import { storeToRefs } from 'pinia'
import { type Ref, computed } from 'vue'
import { type MaybeRefOrGetter, type Ref, computed, toValue } from 'vue'
import { useWorkflowStore } from '@/platform/workflow/management/stores/workflowStore'
import { useNodeOutputStore } from '@/stores/imagePreviewStore'
export const useNodePreviewState = (
nodeId: string,
nodeIdMaybe: MaybeRefOrGetter<string>,
options?: {
isMinimalLOD?: Ref<boolean>
isCollapsed?: Ref<boolean>
}
) => {
const nodeId = toValue(nodeIdMaybe)
const workflowStore = useWorkflowStore()
const { nodePreviewImages } = storeToRefs(useNodeOutputStore())
@@ -31,14 +31,10 @@ export const useNodePreviewState = (
})
const shouldShowPreviewImg = computed(() => {
if (!options?.isMinimalLOD || !options?.isCollapsed) {
if (!options?.isCollapsed) {
return hasPreview.value
}
return (
!options.isMinimalLOD.value &&
!options.isCollapsed.value &&
hasPreview.value
)
return !options.isCollapsed.value && hasPreview.value
})
return {

24
src/renderer/extensions/vueNodes/widgets/components/WidgetTextarea.vue
View File

@@ -1,14 +1,17 @@
<template>
<Textarea
v-model="localValue"
v-bind="filteredProps"
:disabled="readonly"
:class="cn(WidgetInputBaseClass, 'w-full text-xs')"
:placeholder="placeholder || widget.name || ''"
size="small"
rows="3"
@update:model-value="onChange"
/>
<div class="relative">
<Textarea
v-model="localValue"
v-bind="filteredProps"
:disabled="readonly"
:class="cn(WidgetInputBaseClass, 'w-full text-xs lod-toggle')"
:placeholder="placeholder || widget.name || ''"
size="small"
rows="3"
@update:model-value="onChange"
/>
<LODFallback />
</div>
</template>
<script setup lang="ts">
@@ -23,6 +26,7 @@ import {
filterWidgetProps
} from '@/utils/widgetPropFilter'
import LODFallback from '../../components/LODFallback.vue'
import { WidgetInputBaseClass } from './layout'
const props = defineProps<{

34
src/renderer/extensions/vueNodes/widgets/components/layout/WidgetLayoutField.vue
View File

@@ -3,6 +3,8 @@ import { noop } from 'es-toolkit'
import type { SimplifiedWidget } from '@/types/simplifiedWidget'
import LODFallback from '../../../components/LODFallback.vue'
defineProps<{
widget: Pick<SimplifiedWidget<string | number | undefined>, 'name'>
}>()
@@ -12,19 +14,25 @@ defineProps<{
<div
class="flex items-center justify-between gap-2 h-[30px] overscroll-contain"
>
<p
v-if="widget.name"
class="text-sm text-stone-200 dark-theme:text-slate-200 font-normal flex-1 truncate w-20"
>
{{ widget.name }}
</p>
<div
class="w-75 cursor-default"
@pointerdown.stop="noop"
@pointermove.stop="noop"
@pointerup.stop="noop"
>
<slot />
<div class="relative h-6 flex items-center mr-4">
<p
v-if="widget.name"
class="text-sm text-stone-200 dark-theme:text-slate-200 font-normal flex-1 truncate w-20 lod-toggle"
>
{{ widget.name }}
</p>
<LODFallback />
</div>
<div class="relative">
<div
class="w-75 cursor-default lod-toggle"
@pointerdown.stop="noop"
@pointermove.stop="noop"
@pointerup.stop="noop"
>
<slot />
</div>
<LODFallback />
</div>
</div>
</template>