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Refactor layer rendering into reusable methods

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Moved layer drawing logic into CanvasLayers._drawLayer and _drawLayers methods, replacing repeated rendering code in CanvasIO and CanvasLayers. This improves maintainability and ensures consistent handling of layer properties such as blend mode, opacity, rotation, and flipping. Also, fixed layer serialization to only generate imageId when missing, and ensured new layers have flipH/flipV set when created from matted images.
This commit is contained in:
Dariusz L
2025-07-21 23:03:52 +02:00
parent 57bd1e1499
commit 20d52b632a
8 changed files with 117 additions and 262 deletions
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39
js/CanvasIO.js
View File

@@ -62,25 +62,9 @@ export class CanvasIO {
maskCtx.fillStyle = '#ffffff';
maskCtx.fillRect(0, 0, this.canvas.width, this.canvas.height);
log.debug(`Canvas contexts created, starting layer rendering`);
const sortedLayers = this.canvas.layers.sort((a, b) => a.zIndex - b.zIndex);
log.debug(`Processing ${sortedLayers.length} layers in order`);
sortedLayers.forEach((layer, index) => {
log.debug(`Processing layer ${index}: zIndex=${layer.zIndex}, size=${layer.width}x${layer.height}, pos=(${layer.x},${layer.y})`);
log.debug(`Layer ${index}: blendMode=${layer.blendMode || 'normal'}, opacity=${layer.opacity !== undefined ? layer.opacity : 1}`);
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
tempCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
log.debug(`Layer ${index} rendered successfully`);
visibilityCtx.save();
visibilityCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
visibilityCtx.rotate(layer.rotation * Math.PI / 180);
visibilityCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
visibilityCtx.restore();
});
this.canvas.canvasLayers.drawLayersToContext(tempCtx, this.canvas.layers);
this.canvas.canvasLayers.drawLayersToContext(visibilityCtx, this.canvas.layers);
log.debug(`Finished rendering layers`);
const visibilityData = visibilityCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
const maskData = maskCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
for (let i = 0; i < visibilityData.data.length; i += 4) {
@@ -232,21 +216,8 @@ export class CanvasIO {
throw new Error("Could not create temp context");
maskCtx.fillStyle = '#ffffff'; // Start with a white mask (nothing masked)
maskCtx.fillRect(0, 0, this.canvas.width, this.canvas.height);
const sortedLayers = this.canvas.layers.sort((a, b) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer) => {
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
tempCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
visibilityCtx.save();
visibilityCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
visibilityCtx.rotate(layer.rotation * Math.PI / 180);
visibilityCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
visibilityCtx.restore();
});
this.canvas.canvasLayers.drawLayersToContext(tempCtx, this.canvas.layers);
this.canvas.canvasLayers.drawLayersToContext(visibilityCtx, this.canvas.layers);
const visibilityData = visibilityCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
const maskData = maskCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
for (let i = 0; i < visibilityData.data.length; i += 4) {

114
js/CanvasLayers.js
View File

@@ -303,6 +303,34 @@ export class CanvasLayers {
}
return null;
}
_drawLayer(ctx, layer, options = {}) {
if (!layer.image)
return;
const { offsetX = 0, offsetY = 0 } = options;
ctx.save();
ctx.globalCompositeOperation = layer.blendMode || 'normal';
ctx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2 - offsetX;
const centerY = layer.y + layer.height / 2 - offsetY;
ctx.translate(centerX, centerY);
ctx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
ctx.scale(scaleH, scaleV);
}
ctx.imageSmoothingEnabled = true;
ctx.imageSmoothingQuality = 'high';
ctx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
ctx.restore();
}
_drawLayers(ctx, layers, options = {}) {
const sortedLayers = [...layers].sort((a, b) => a.zIndex - b.zIndex);
sortedLayers.forEach(layer => this._drawLayer(ctx, layer, options));
}
drawLayersToContext(ctx, layers, options = {}) {
this._drawLayers(ctx, layers, options);
}
async mirrorHorizontal() {
if (this.canvas.canvasSelection.selectedLayers.length === 0)
return;
@@ -329,12 +357,14 @@ export class CanvasLayers {
throw new Error("Could not create canvas context");
tempCanvas.width = layer.width;
tempCanvas.height = layer.height;
tempCtx.clearRect(0, 0, tempCanvas.width, tempCanvas.height);
tempCtx.save();
tempCtx.translate(layer.width / 2, layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
// We need to draw the layer relative to the new canvas, so we "move" it to 0,0
// by creating a temporary layer object for drawing.
const layerToDraw = {
...layer,
x: 0,
y: 0,
};
this._drawLayer(tempCtx, layerToDraw);
const dataUrl = tempCanvas.toDataURL('image/png');
if (!dataUrl.startsWith('data:image/png;base64,')) {
throw new Error("Invalid image data format");
@@ -568,20 +598,7 @@ export class CanvasLayers {
reject(new Error("Could not create canvas context"));
return;
}
const sortedLayers = [...this.canvas.layers].sort((a, b) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer) => {
if (!layer.image)
return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.layers);
const imageData = tempCtx.getImageData(0, 0, tempCanvas.width, tempCanvas.height);
const data = imageData.data;
const toolMaskCanvas = this.canvas.maskTool.getMask();
@@ -643,20 +660,7 @@ export class CanvasLayers {
reject(new Error("Could not create canvas context"));
return;
}
const sortedLayers = [...this.canvas.layers].sort((a, b) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer) => {
if (!layer.image)
return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.layers);
tempCanvas.toBlob((blob) => {
if (blob) {
resolve(blob);
@@ -714,25 +718,7 @@ export class CanvasLayers {
return;
}
tempCtx.translate(-minX, -minY);
const sortedSelection = [...this.canvas.canvasSelection.selectedLayers].sort((a, b) => a.zIndex - b.zIndex);
sortedSelection.forEach((layer) => {
if (!layer.image)
return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
tempCtx.scale(scaleH, scaleV);
}
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.canvasSelection.selectedLayers);
tempCanvas.toBlob((blob) => {
resolve(blob);
}, 'image/png');
@@ -784,25 +770,7 @@ export class CanvasLayers {
if (!tempCtx)
throw new Error("Could not create canvas context");
tempCtx.translate(-minX, -minY);
const sortedSelection = [...this.canvas.canvasSelection.selectedLayers].sort((a, b) => a.zIndex - b.zIndex);
sortedSelection.forEach((layer) => {
if (!layer.image)
return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
tempCtx.scale(scaleH, scaleV);
}
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.canvasSelection.selectedLayers);
const fusedImage = new Image();
fusedImage.src = tempCanvas.toDataURL();
await new Promise((resolve, reject) => {
@@ -842,7 +810,7 @@ export class CanvasLayers {
this.canvas.canvasLayersPanel.onLayersChanged();
}
log.info("Layers fused successfully", {
originalLayerCount: sortedSelection.length,
originalLayerCount: this.canvas.canvasSelection.selectedLayers.length,
fusedDimensions: { width: fusedWidth, height: fusedHeight },
fusedPosition: { x: minX, y: minY }
});

8
js/CanvasState.js
View File

@@ -259,13 +259,15 @@ export class CanvasState {
const newLayer = { ...layer, imageId: layer.imageId || '' };
delete newLayer.image;
if (layer.image instanceof HTMLImageElement) {
log.debug(`Layer ${index}: Using imageId instead of serializing image.`);
if (!layer.imageId) {
if (layer.imageId) {
newLayer.imageId = layer.imageId;
}
else {
log.debug(`Layer ${index}: No imageId found, generating new one and saving image.`);
newLayer.imageId = generateUUID();
const imageBitmap = await createImageBitmap(layer.image);
await saveImage(newLayer.imageId, imageBitmap);
}
newLayer.imageId = layer.imageId;
}
else if (!layer.imageId) {
log.error(`Layer ${index}: No image or imageId found, skipping layer.`);

2
js/CanvasView.js
View File

@@ -330,7 +330,7 @@ async function createCanvasWidget(node, widget, app) {
const mattedImage = new Image();
mattedImage.src = result.matted_image;
await mattedImage.decode();
const newLayer = { ...selectedLayer, image: mattedImage };
const newLayer = { ...selectedLayer, image: mattedImage, flipH: false, flipV: false };
delete newLayer.imageId;
canvas.layers[selectedLayerIndex] = newLayer;
canvas.canvasSelection.updateSelection([newLayer]);

45
src/CanvasIO.ts
View File

@@ -72,27 +72,11 @@ export class CanvasIO {
maskCtx.fillRect(0, 0, this.canvas.width, this.canvas.height);
log.debug(`Canvas contexts created, starting layer rendering`);
const sortedLayers = this.canvas.layers.sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
log.debug(`Processing ${sortedLayers.length} layers in order`);
sortedLayers.forEach((layer: Layer, index: number) => {
log.debug(`Processing layer ${index}: zIndex=${layer.zIndex}, size=${layer.width}x${layer.height}, pos=(${layer.x},${layer.y})`);
log.debug(`Layer ${index}: blendMode=${layer.blendMode || 'normal'}, opacity=${layer.opacity !== undefined ? layer.opacity : 1}`);
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
tempCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
log.debug(`Layer ${index} rendered successfully`);
visibilityCtx.save();
visibilityCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
visibilityCtx.rotate(layer.rotation * Math.PI / 180);
visibilityCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
visibilityCtx.restore();
});
this.canvas.canvasLayers.drawLayersToContext(tempCtx, this.canvas.layers);
this.canvas.canvasLayers.drawLayersToContext(visibilityCtx, this.canvas.layers);
log.debug(`Finished rendering layers`);
const visibilityData = visibilityCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
const maskData = maskCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
for (let i = 0; i < visibilityData.data.length; i += 4) {
@@ -259,23 +243,8 @@ export class CanvasIO {
maskCtx.fillStyle = '#ffffff'; // Start with a white mask (nothing masked)
maskCtx.fillRect(0, 0, this.canvas.width, this.canvas.height);
const sortedLayers = this.canvas.layers.sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer: Layer) => {
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
tempCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
tempCtx.restore();
visibilityCtx.save();
visibilityCtx.translate(layer.x + layer.width / 2, layer.y + layer.height / 2);
visibilityCtx.rotate(layer.rotation * Math.PI / 180);
visibilityCtx.drawImage(layer.image, -layer.width / 2, -layer.height / 2, layer.width, layer.height);
visibilityCtx.restore();
});
this.canvas.canvasLayers.drawLayersToContext(tempCtx, this.canvas.layers);
this.canvas.canvasLayers.drawLayersToContext(visibilityCtx, this.canvas.layers);
const visibilityData = visibilityCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);
const maskData = maskCtx.getImageData(0, 0, this.canvas.width, this.canvas.height);

162
src/CanvasLayers.ts
View File

@@ -349,6 +349,46 @@ export class CanvasLayers {
return null;
}
private _drawLayer(ctx: CanvasRenderingContext2D, layer: Layer, options: { offsetX?: number, offsetY?: number } = {}): void {
if (!layer.image) return;
const { offsetX = 0, offsetY = 0 } = options;
ctx.save();
ctx.globalCompositeOperation = layer.blendMode as any || 'normal';
ctx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2 - offsetX;
const centerY = layer.y + layer.height / 2 - offsetY;
ctx.translate(centerX, centerY);
ctx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
ctx.scale(scaleH, scaleV);
}
ctx.imageSmoothingEnabled = true;
ctx.imageSmoothingQuality = 'high';
ctx.drawImage(
layer.image,
-layer.width / 2, -layer.height / 2,
layer.width, layer.height
);
ctx.restore();
}
private _drawLayers(ctx: CanvasRenderingContext2D, layers: Layer[], options: { offsetX?: number, offsetY?: number } = {}): void {
const sortedLayers = [...layers].sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedLayers.forEach(layer => this._drawLayer(ctx, layer, options));
}
public drawLayersToContext(ctx: CanvasRenderingContext2D, layers: Layer[], options: { offsetX?: number, offsetY?: number } = {}): void {
this._drawLayers(ctx, layers, options);
}
async mirrorHorizontal(): Promise<void> {
if (this.canvas.canvasSelection.selectedLayers.length === 0) return;
this.canvas.canvasSelection.selectedLayers.forEach((layer: Layer) => {
@@ -376,19 +416,15 @@ export class CanvasLayers {
tempCanvas.width = layer.width;
tempCanvas.height = layer.height;
tempCtx.clearRect(0, 0, tempCanvas.width, tempCanvas.height);
// We need to draw the layer relative to the new canvas, so we "move" it to 0,0
// by creating a temporary layer object for drawing.
const layerToDraw = {
...layer,
x: 0,
y: 0,
};
tempCtx.save();
tempCtx.translate(layer.width / 2, layer.height / 2);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(
layer.image,
-layer.width / 2,
-layer.height / 2,
layer.width,
layer.height
);
tempCtx.restore();
this._drawLayer(tempCtx, layerToDraw);
const dataUrl = tempCanvas.toDataURL('image/png');
if (!dataUrl.startsWith('data:image/png;base64,')) {
@@ -657,27 +693,7 @@ export class CanvasLayers {
return;
}
const sortedLayers = [...this.canvas.layers].sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer: Layer) => {
if (!layer.image) return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(
layer.image,
-layer.width / 2,
-layer.height / 2,
layer.width,
layer.height
);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.layers);
const imageData = tempCtx.getImageData(0, 0, tempCanvas.width, tempCanvas.height);
const data = imageData.data;
@@ -754,27 +770,7 @@ export class CanvasLayers {
return;
}
const sortedLayers = [...this.canvas.layers].sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedLayers.forEach((layer: Layer) => {
if (!layer.image) return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
tempCtx.drawImage(
layer.image,
-layer.width / 2,
-layer.height / 2,
layer.width,
layer.height
);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.layers);
tempCanvas.toBlob((blob) => {
if (blob) {
@@ -843,33 +839,7 @@ export class CanvasLayers {
tempCtx.translate(-minX, -minY);
const sortedSelection = [...this.canvas.canvasSelection.selectedLayers].sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedSelection.forEach((layer: Layer) => {
if (!layer.image) return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
tempCtx.scale(scaleH, scaleV);
}
tempCtx.drawImage(
layer.image,
-layer.width / 2, -layer.height / 2,
layer.width, layer.height
);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.canvasSelection.selectedLayers);
tempCanvas.toBlob((blob) => {
resolve(blob);
@@ -933,33 +903,7 @@ export class CanvasLayers {
tempCtx.translate(-minX, -minY);
const sortedSelection = [...this.canvas.canvasSelection.selectedLayers].sort((a: Layer, b: Layer) => a.zIndex - b.zIndex);
sortedSelection.forEach((layer: Layer) => {
if (!layer.image) return;
tempCtx.save();
tempCtx.globalCompositeOperation = layer.blendMode as any || 'normal';
tempCtx.globalAlpha = layer.opacity !== undefined ? layer.opacity : 1;
const centerX = layer.x + layer.width / 2;
const centerY = layer.y + layer.height / 2;
tempCtx.translate(centerX, centerY);
tempCtx.rotate(layer.rotation * Math.PI / 180);
const scaleH = layer.flipH ? -1 : 1;
const scaleV = layer.flipV ? -1 : 1;
if (layer.flipH || layer.flipV) {
tempCtx.scale(scaleH, scaleV);
}
tempCtx.drawImage(
layer.image,
-layer.width / 2, -layer.height / 2,
layer.width, layer.height
);
tempCtx.restore();
});
this._drawLayers(tempCtx, this.canvas.canvasSelection.selectedLayers);
const fusedImage = new Image();
fusedImage.src = tempCanvas.toDataURL();
@@ -1006,7 +950,7 @@ export class CanvasLayers {
}
log.info("Layers fused successfully", {
originalLayerCount: sortedSelection.length,
originalLayerCount: this.canvas.canvasSelection.selectedLayers.length,
fusedDimensions: { width: fusedWidth, height: fusedHeight },
fusedPosition: { x: minX, y: minY }
});

7
src/CanvasState.ts
View File

@@ -297,13 +297,14 @@ export class CanvasState {
delete (newLayer as any).image;
if (layer.image instanceof HTMLImageElement) {
log.debug(`Layer ${index}: Using imageId instead of serializing image.`);
if (!layer.imageId) {
if (layer.imageId) {
newLayer.imageId = layer.imageId;
} else {
log.debug(`Layer ${index}: No imageId found, generating new one and saving image.`);
newLayer.imageId = generateUUID();
const imageBitmap = await createImageBitmap(layer.image);
await saveImage(newLayer.imageId, imageBitmap);
}
newLayer.imageId = layer.imageId;
} else if (!layer.imageId) {
log.error(`Layer ${index}: No image or imageId found, skipping layer.`);
return null;

2
src/CanvasView.ts
View File

@@ -363,7 +363,7 @@ async function createCanvasWidget(node: ComfyNode, widget: any, app: ComfyApp):
const mattedImage = new Image();
mattedImage.src = result.matted_image;
await mattedImage.decode();
const newLayer = {...selectedLayer, image: mattedImage} as Layer;
const newLayer = {...selectedLayer, image: mattedImage, flipH: false, flipV: false} as Layer;
delete (newLayer as any).imageId;
canvas.layers[selectedLayerIndex] = newLayer;
canvas.canvasSelection.updateSelection([newLayer]);