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Lightningbeam
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Lightningbeam/src/main.js

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const { invoke } = window.__TAURI__.core;
import * as fitCurve from "/fit-curve.js";
import { Bezier } from "/bezier.js";
import { Quadtree } from "./quadtree.js";
import {
createNewFileDialog,
showNewFileDialog,
closeDialog,
} from "./newfile.js";
import {
titleCase,
getMousePositionFraction,
getKeyframesSurrounding,
lerpColor,
lerp,
camelToWords,
generateWaveform,
floodFillRegion,
getShapeAtPoint,
hslToRgb,
drawCheckerboardBackground,
hexToHsl,
hsvToRgb,
hexToHsv,
rgbToHex,
clamp,
drawBorderedRect,
drawCenteredText,
drawHorizontallyCenteredText,
deepMerge,
getPointNearBox,
arraysAreEqual,
drawRegularPolygon,
getFileExtension,
createModal,
deeploop,
signedAngleBetweenVectors,
rotateAroundPoint,
getRotatedBoundingBox,
rotateAroundPointIncremental,
rgbToHsv,
} from "./utils.js";
import {
backgroundColor,
darkMode,
foregroundColor,
frameWidth,
gutterHeight,
highlight,
iconSize,
triangleSize,
labelColor,
layerHeight,
layerWidth,
scrubberColor,
shade,
shadow,
} from "./styles.js";
import { Icon } from "./icon.js";
import { AlphaSelectionBar, ColorSelectorWidget, ColorWidget, HueSelectionBar, SaturationValueSelectionGradient } from "./widgets.js";
const {
writeTextFile: writeTextFile,
readTextFile: readTextFile,
writeFile: writeFile,
readFile: readFile,
} = window.__TAURI__.fs;
const {
open: openFileDialog,
save: saveFileDialog,
message: messageDialog,
confirm: confirmDialog,
} = window.__TAURI__.dialog;
const { documentDir, join, basename, appLocalDataDir } = window.__TAURI__.path;
const { Menu, MenuItem, PredefinedMenuItem, Submenu } = window.__TAURI__.menu;
const { getCurrentWindow } = window.__TAURI__.window;
const { getVersion } = window.__TAURI__.app;
window.onerror = (message, source, lineno, colno, error) => {
invoke("error", { msg: `${message} at ${source}:${lineno}:${colno}\n${error?.stack || ''}` });
};
window.addEventListener('unhandledrejection', (event) => {
invoke("error", { msg: `Unhandled Promise Rejection: ${event.reason?.stack || event.reason}` });
});
function forwardConsole(fnName, dest) {
const original = console[fnName];
console[fnName] = (message) => {
const error = new Error();
const stackLines = error.stack.split("\n");
if (fnName === "error") {
// Send the full stack trace for errors
invoke(dest, { msg: `${message}\nStack trace:\n${stackLines.slice(1).join("\n")}` });
} else {
// For other log levels, just extract the file and line number
const location = stackLines[stackLines.length - 1].match(/([a-zA-Z0-9_-]+\.js:\d+)/);
invoke(dest, { msg: `${location ? location[0] : 'unknown'}: ${message}` });
}
original(message);
};
}
forwardConsole('trace', "trace");
forwardConsole('log', "trace");
forwardConsole('debug', "debug");
forwardConsole('info', "info");
forwardConsole('warn', "warn");
forwardConsole('error', "error");
console.log("*** Starting Lightningbeam ***")
// Debug flags
const debugQuadtree = false;
const debugPaintbucket = false;
const macOS = navigator.userAgent.includes("Macintosh");
let simplifyPolyline = simplify;
let greetInputEl;
let greetMsgEl;
let rootPane;
let canvases = [];
let debugCurves = [];
let debugPoints = [];
let mode = "select";
let minSegmentSize = 5;
let maxSmoothAngle = 0.6;
let undoStack = [];
let redoStack = [];
let lastSaveIndex = 0;
let layoutElements = [];
// Version changes:
// 1.4: addShape uses frame as a reference instead of object
// 1.6: object coordinates are created relative to their location
let minFileVersion = "1.3";
let maxFileVersion = "2.0";
let filePath = undefined;
let fileExportPath = undefined;
let state = "normal";
let playing = false;
let lastFrameTime;
let uiDirty = false;
let layersDirty = false;
let menuDirty = false;
let outlinerDirty = false;
let infopanelDirty = false;
let clipboard = [];
const CONFIG_FILE_PATH = "config.json";
const defaultConfig = {};
let tools = {
select: {
icon: "/assets/select.svg",
properties: {
selectedObjects: {
type: "text",
label: "Selected Object",
enabled: () => context.selection.length == 1,
value: {
get: () => {
if (context.selection.length == 1) {
return context.selection[0].name;
} else if (context.selection.length == 0) {
return "";
} else {
return "<multiple>";
}
},
set: (val) => {
if (context.selection.length == 1) {
actions.setName.create(context.selection[0], val);
}
},
},
},
goToFrame: {
type: "number",
label: "Go To Frame",
enabled: () => context.selection.length == 1,
value: {
get: () => {
if (context.selection.length != 1) return undefined;
const selectedObject = context.selection[0];
if (! (selectedObject.idx in context.activeObject.currentFrame.keys)) return undefined;
return context.activeObject.currentFrame.keys[selectedObject.idx]
.goToFrame;
},
set: (val) => {
if (context.selection.length != 1) return undefined;
const selectedObject = context.selection[0];
context.activeObject.currentFrame.keys[
selectedObject.idx
].goToFrame = val;
selectedObject.setFrameNum(val - 1);
updateUI();
},
},
},
playFromFrame: {
type: "boolean",
label: "Play From Frame",
enabled: () => context.selection.length == 1,
value: {
get: () => {
if (context.selection.length != 1) return undefined;
const selectedObject = context.selection[0];
if (!(selectedObject.idx in context.activeObject.currentFrame.keys)) return;
return context.activeObject.currentFrame.keys[selectedObject.idx]
.playFromFrame;
},
set: (val) => {
if (context.selection.length != 1) return undefined;
const selectedObject = context.selection[0];
context.activeObject.currentFrame.keys[
selectedObject.idx
].playFromFrame = val;
selectedObject.playing = true;
updateUI();
},
},
},
},
},
transform: {
icon: "/assets/transform.svg",
properties: {},
},
draw: {
icon: "/assets/draw.svg",
properties: {
lineWidth: {
type: "number",
label: "Line Width",
},
simplifyMode: {
type: "enum",
options: ["corners", "smooth", "verbatim"], // "auto"],
label: "Line Mode",
},
fillShape: {
type: "boolean",
label: "Fill Shape",
},
},
},
rectangle: {
icon: "/assets/rectangle.svg",
properties: {
lineWidth: {
type: "number",
label: "Line Width",
},
fillShape: {
type: "boolean",
label: "Fill Shape",
},
},
},
ellipse: {
icon: "assets/ellipse.svg",
properties: {
lineWidth: {
type: "number",
label: "Line Width",
},
fillShape: {
type: "boolean",
label: "Fill Shape",
},
},
},
paint_bucket: {
icon: "/assets/paint_bucket.svg",
properties: {
fillGaps: {
type: "number",
label: "Fill Gaps",
min: 1,
},
},
},
eyedropper: {
icon: "/assets/eyedropper.svg",
properties: {
dropperColor: {
type: "enum",
options: ["Fill color", "Stroke color"],
label: "Color"
}
}
}
};
let mouseEvent;
let context = {
mouseDown: false,
mousePos: { x: 0, y: 0 },
swatches: [
"#000000",
"#FFFFFF",
"#FF0000",
"#FFFF00",
"#00FF00",
"#00FFFF",
"#0000FF",
"#FF00FF",
],
lineWidth: 5,
simplifyMode: "smooth",
fillShape: false,
strokeShape: true,
fillGaps: 5,
dropperColor: "Fill color",
dragging: false,
selectionRect: undefined,
selection: [],
shapeselection: [],
oldselection: [],
oldshapeselection: [],
selectedFrames: [],
dragDirection: undefined,
zoomLevel: 1,
};
let config = {
shortcuts: {
playAnimation: " ",
// undo: "<ctrl>+z"
undo: "<mod>z",
redo: "<mod>Z",
new: "<mod>n",
save: "<mod>s",
saveAs: "<mod>S",
open: "<mod>o",
import: "<mod>i",
export: "<mod>e",
quit: "<mod>q",
copy: "<mod>c",
paste: "<mod>v",
delete: "Backspace",
selectAll: "<mod>a",
group: "<mod>g",
addLayer: "<mod>l",
zoomIn: "<mod>+",
zoomOut: "<mod>-",
resetZoom: "<mod>0",
},
fileWidth: 800,
fileHeight: 600,
framerate: 24,
recentFiles: [],
scrollSpeed: 1,
debug: false,
};
function getShortcut(shortcut) {
if (!(shortcut in config.shortcuts)) return undefined;
let shortcutValue = config.shortcuts[shortcut].replace("<mod>", "CmdOrCtrl+");
const key = shortcutValue.slice(-1);
// If the last character is uppercase, prepend "Shift+" to it
return key === key.toUpperCase() && key !== key.toLowerCase()
? shortcutValue.replace(key, `Shift+${key}`)
: shortcutValue.replace("++", "+Shift+="); // Hardcode uppercase from = to +
}
// Load the configuration from the file system
async function loadConfig() {
try {
// const configPath = await join(await appLocalDataDir(), CONFIG_FILE_PATH);
// const configData = await readTextFile(configPath);
const configData = localStorage.getItem("lightningbeamConfig") || "{}";
config = deepMerge({ ...config }, JSON.parse(configData));
updateUI();
} catch (error) {
console.log("Error loading config, returning default config:", error);
}
}
// Save the configuration to a file
async function saveConfig() {
try {
// const configPath = await join(await appLocalDataDir(), CONFIG_FILE_PATH);
// await writeTextFile(configPath, JSON.stringify(config, null, 2));
localStorage.setItem(
"lightningbeamConfig",
JSON.stringify(config, null, 2),
);
} catch (error) {
console.error("Error saving config:", error);
}
}
async function addRecentFile(filePath) {
if (!config.recentFiles.includes(filePath)) {
config.recentFiles.unshift(filePath);
if (config.recentFiles.length > 10) {
config.recentFiles = config.recentFiles.slice(0, 10);
}
await saveConfig(config);
}
}
// Pointers to all objects
let pointerList = {};
// Keeping track of initial values of variables when we edit them continuously
let startProps = {};
let actions = {
addShape: {
create: (parent, shape, ctx) => {
if (!parent.currentFrame?.exists) return;
if (shape.curves.length == 0) return;
redoStack.length = 0; // Clear redo stack
let serializableCurves = [];
for (let curve of shape.curves) {
serializableCurves.push({ points: curve.points, color: curve.color });
}
let c = {
...context,
...ctx,
};
let action = {
parent: parent.idx,
curves: serializableCurves,
startx: shape.startx,
starty: shape.starty,
context: {
fillShape: c.fillShape,
strokeShape: c.strokeShape,
fillStyle: c.fillStyle,
sendToBack: c.sendToBack,
lineWidth: c.lineWidth,
},
uuid: uuidv4(),
frame: parent.currentFrame.idx,
};
undoStack.push({ name: "addShape", action: action });
actions.addShape.execute(action);
updateMenu();
},
execute: (action) => {
let object = pointerList[action.parent];
let frame = action.frame
? pointerList[action.frame]
: object.currentFrame;
let curvesList = action.curves;
let cxt = {
...context,
...action.context,
};
let shape = new Shape(action.startx, action.starty, cxt, action.uuid);
for (let curve of curvesList) {
shape.addCurve(
new Bezier(
curve.points[0].x,
curve.points[0].y,
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
).setColor(curve.color),
);
}
let shapes = shape.update();
for (let newShape of shapes) {
frame.addShape(newShape, cxt.sendToBack, frame);
}
},
rollback: (action) => {
let object = pointerList[action.parent];
let frame = action.frame
? pointerList[action.frame]
: object.currentFrame;
let shape = pointerList[action.uuid];
frame.removeShape(shape);
delete pointerList[action.uuid];
},
},
editShape: {
create: (shape, newCurves) => {
redoStack.length = 0; // Clear redo stack
let serializableNewCurves = [];
for (let curve of newCurves) {
serializableNewCurves.push({
points: curve.points,
color: curve.color,
});
}
let serializableOldCurves = [];
for (let curve of shape.curves) {
serializableOldCurves.push({ points: curve.points });
}
let action = {
shape: shape.idx,
oldCurves: serializableOldCurves,
newCurves: serializableNewCurves,
};
undoStack.push({ name: "editShape", action: action });
actions.editShape.execute(action);
},
execute: (action) => {
let shape = pointerList[action.shape];
let curvesList = action.newCurves;
shape.curves = [];
for (let curve of curvesList) {
shape.addCurve(
new Bezier(
curve.points[0].x,
curve.points[0].y,
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
).setColor(curve.color),
);
}
shape.update();
updateUI();
},
rollback: (action) => {
let shape = pointerList[action.shape];
let curvesList = action.oldCurves;
shape.curves = [];
for (let curve of curvesList) {
shape.addCurve(
new Bezier(
curve.points[0].x,
curve.points[0].y,
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
).setColor(curve.color),
);
}
shape.update();
},
},
colorShape: {
create: (shape, color) => {
redoStack.length = 0; // Clear redo stack
let action = {
shape: shape.idx,
oldColor: shape.fillStyle,
newColor: color,
};
undoStack.push({ name: "colorShape", action: action });
actions.colorShape.execute(action);
updateMenu();
},
execute: (action) => {
let shape = pointerList[action.shape];
shape.fillStyle = action.newColor;
},
rollback: (action) => {
let shape = pointerList[action.shape];
shape.fillStyle = action.oldColor;
},
},
addImageObject: {
create: (x, y, imgsrc, ix, parent) => {
redoStack.length = 0; // Clear redo stack
let action = {
shapeUuid: uuidv4(),
objectUuid: uuidv4(),
x: x,
y: y,
src: imgsrc,
ix: ix,
parent: parent.idx,
};
undoStack.push({ name: "addImageObject", action: action });
actions.addImageObject.execute(action);
updateMenu();
},
execute: async (action) => {
let imageObject = new GraphicsObject(action.objectUuid);
function loadImage(src) {
return new Promise((resolve, reject) => {
let img = new Image();
img.onload = () => resolve(img); // Resolve the promise with the image once loaded
img.onerror = (err) => reject(err); // Reject the promise if there's an error loading the image
img.src = src; // Start loading the image
});
}
let img = await loadImage(action.src);
// img.onload = function() {
let ct = {
...context,
fillImage: img,
strokeShape: false,
};
let imageShape = new Shape(0, 0, ct, action.shapeUuid);
imageShape.addLine(img.width, 0);
imageShape.addLine(img.width, img.height);
imageShape.addLine(0, img.height);
imageShape.addLine(0, 0);
imageShape.update();
imageShape.fillImage = img;
imageShape.filled = true;
imageObject.currentFrame.addShape(imageShape);
let parent = pointerList[action.parent];
parent.addObject(
imageObject,
action.x - img.width / 2 + 20 * action.ix,
action.y - img.height / 2 + 20 * action.ix,
);
updateUI();
// }
// img.src = action.src
},
rollback: (action) => {
let shape = pointerList[action.shapeUuid];
let object = pointerList[action.objectUuid];
let parent = pointerList[action.parent];
object.getFrame(0).removeShape(shape);
delete pointerList[action.shapeUuid];
parent.removeChild(object);
delete pointerList[action.objectUuid];
let selectIndex = context.selection.indexOf(object);
if (selectIndex >= 0) {
context.selection.splice(selectIndex, 1);
}
},
},
addAudio: {
create: (audiosrc, object, audioname) => {
redoStack.length = 0;
let action = {
audiosrc: audiosrc,
audioname: audioname,
uuid: uuidv4(),
layeruuid: uuidv4(),
frameNum: object.currentFrameNum,
object: object.idx,
};
undoStack.push({ name: "addAudio", action: action });
actions.addAudio.execute(action);
updateMenu();
},
execute: async (action) => {
const player = new Tone.Player().toDestination();
await player.load(action.audiosrc);
// player.autostart = true;
let newAudioLayer = new AudioLayer(action.layeruuid, action.audioname);
let object = pointerList[action.object];
const img = new Image();
img.className = "audioWaveform";
let soundObj = {
player: player,
start: action.frameNum,
img: img,
};
pointerList[action.uuid] = soundObj;
newAudioLayer.sounds[action.uuid] = soundObj;
// TODO: change start time
newAudioLayer.track.add(0, action.uuid);
object.audioLayers.push(newAudioLayer);
// TODO: compute image height better
generateWaveform(img, player.buffer, 50, 25, config.framerate);
updateLayers();
},
rollback: (action) => {
let object = pointerList[action.object];
let layer = pointerList[action.layeruuid];
object.audioLayers.splice(object.audioLayers.indexOf(layer), 1);
updateLayers();
},
},
duplicateObject: {
create: (items) => {
redoStack.length = 0;
let action = {
items: items,
object: context.activeObject.idx,
frame: context.activeObject.currentFrame.idx,
uuid: uuidv4(),
};
undoStack.push({ name: "duplicateObject", action: action });
actions.duplicateObject.execute(action);
updateMenu();
},
execute: (action) => {
const object = pointerList[action.object];
const frame = pointerList[action.frame];
for (let item of action.items) {
if (item.type == "shape") {
frame.addShape(Shape.fromJSON(item));
} else if (item.type == "GraphicsObject") {
const newObj = GraphicsObject.fromJSON(item);
object.addObject(newObj);
}
}
// newObj.idx = action.uuid
// context.activeObject.addObject(newObj);
updateUI();
},
rollback: (action) => {
const object = pointerList[action.object];
const frame = pointerList[action.frame];
for (let item of action.items) {
if (item.type == "shape") {
frame.removeShape(pointerList[item.idx]);
} else if (item.type == "GraphicsObject") {
object.removeChild(pointerList[item.idx]);
}
}
updateUI();
},
},
deleteObjects: {
create: (objects, shapes) => {
redoStack.length = 0;
let serializableObjects = [];
let serializableShapes = [];
for (let object of objects) {
serializableObjects.push(object.idx);
}
for (let shape of shapes) {
serializableShapes.push(shape.idx);
}
let action = {
objects: serializableObjects,
shapes: serializableShapes,
frame: context.activeObject.currentFrame.idx,
oldState: structuredClone(context.activeObject.currentFrame.keys),
};
undoStack.push({ name: "deleteObjects", action: action });
actions.deleteObjects.execute(action);
updateMenu();
},
execute: (action) => {
let frame = pointerList[action.frame];
for (let object of action.objects) {
delete frame.keys[object];
}
for (let shape of action.shapes) {
frame.shapes.splice(frame.shapes.indexOf(pointerList[shape]), 1);
}
updateUI();
},
rollback: (action) => {
let frame = pointerList[action.frame];
for (let object of action.objects) {
frame.keys[object] = action.oldState[object];
}
for (let shape of action.shapes) {
frame.shapes.push(pointerList[shape]);
}
updateUI();
},
},
addLayer: {
create: () => {
redoStack.length = 0;
let action = {
object: context.activeObject.idx,
uuid: uuidv4(),
};
undoStack.push({ name: "addLayer", action: action });
actions.addLayer.execute(action);
updateMenu();
},
execute: (action) => {
let object = pointerList[action.object];
let layer = new Layer(action.uuid);
layer.name = `Layer ${object.layers.length + 1}`;
object.layers.push(layer);
object.currentLayer = object.layers.indexOf(layer);
updateLayers();
},
rollback: (action) => {
let object = pointerList[action.object];
let layer = pointerList[action.uuid];
object.layers.splice(object.layers.indexOf(layer), 1);
object.currentLayer = Math.min(
object.currentLayer,
object.layers.length - 1,
);
updateLayers();
},
},
deleteLayer: {
create: (layer) => {
redoStack.length = 0;
// Don't allow deleting the only layer
if (context.activeObject.layers.length == 1) return;
if (!(layer instanceof Layer)) {
layer = context.activeObject.activeLayer;
}
let action = {
object: context.activeObject.idx,
layer: layer.idx,
index: context.activeObject.layers.indexOf(layer),
};
undoStack.push({ name: "deleteLayer", action: action });
actions.deleteLayer.execute(action);
updateMenu();
},
execute: (action) => {
let object = pointerList[action.object];
let layer = pointerList[action.layer];
let changelayer = false;
if (object.activeLayer == layer) {
changelayer = true;
}
object.layers.splice(object.layers.indexOf(layer), 1);
if (changelayer) {
object.currentLayer = 0;
}
updateUI();
updateLayers();
},
rollback: (action) => {
let object = pointerList[action.object];
let layer = pointerList[action.layer];
object.layers.splice(action.index, 0, layer);
updateUI();
updateLayers();
},
},
changeLayerName: {
create: (layer, newName) => {
redoStack.length = 0;
let action = {
layer: layer.idx,
newName: newName,
oldName: layer.name,
};
undoStack.push({ name: "changeLayerName", action: action });
actions.changeLayerName.execute(action);
updateMenu();
},
execute: (action) => {
let layer = pointerList[action.layer];
layer.name = action.newName;
updateLayers();
},
rollback: (action) => {
let layer = pointerList[action.layer];
layer.name = action.oldName;
updateLayers();
},
},
importObject: {
create: (object) => {
redoStack.length = 0;
let action = {
object: object,
activeObject: context.activeObject.idx,
};
undoStack.push({ name: "importObject", action: action });
actions.importObject.execute(action);
updateMenu();
},
execute: (action) => {
const activeObject = pointerList[action.activeObject];
switch (action.object.type) {
case "GraphicsObject":
let object = GraphicsObject.fromJSON(action.object);
activeObject.addObject(object);
break;
case "Layer":
let layer = Layer.fromJSON(action.object);
activeObject.addLayer(layer);
}
updateUI();
updateLayers();
},
rollback: (action) => {
const activeObject = pointerList[action.activeObject];
switch (action.object.type) {
case "GraphicsObject":
let object = pointerList[action.object.idx];
activeObject.removeChild(object);
break;
case "Layer":
let layer = pointerList[action.object.idx];
activeObject.removeLayer(layer);
}
updateUI();
updateLayers();
},
},
transformObjects: {
initialize: (
frame,
_selection,
direction,
mouse,
transform = undefined,
) => {
let bbox = undefined;
const selection = {};
for (let item of _selection) {
if (bbox == undefined) {
bbox = getRotatedBoundingBox(item);
} else {
growBoundingBox(bbox, getRotatedBoundingBox(item));
}
selection[item.idx] = {
x: item.x,
y: item.y,
scale_x: item.scale_x,
scale_y: item.scale_y,
rotation: item.rotation,
};
}
let action = {
type: "transformObjects",
oldState: structuredClone(frame.keys),
frame: frame.idx,
transform: {
initial: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
rotation: 0,
mouse: { x: mouse.x, y: mouse.y },
selection: selection,
},
current: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
scale_x: 1,
scale_y: 1,
rotation: 0,
mouse: { x: mouse.x, y: mouse.y },
selection: structuredClone(selection),
},
},
selection: selection,
direction: direction,
};
if (transform) {
action.transform = transform;
}
return action;
},
update: (action, mouse) => {
const initial = action.transform.initial;
const current = action.transform.current;
if (action.direction.indexOf("n") != -1) {
current.y.min = mouse.y;
} else if (action.direction.indexOf("s") != -1) {
current.y.max = mouse.y;
}
if (action.direction.indexOf("w") != -1) {
current.x.min = mouse.x;
} else if (action.direction.indexOf("e") != -1) {
current.x.max = mouse.x;
}
if (context.dragDirection == "r") {
const pivot = {
x: (initial.x.min + initial.x.max) / 2,
y: (initial.y.min + initial.y.max) / 2,
};
current.rotation = signedAngleBetweenVectors(
pivot,
initial.mouse,
mouse,
);
const { dx, dy } = rotateAroundPointIncremental(
current.x.min,
current.y.min,
pivot,
current.rotation,
);
}
// Calculate the scaling factor based on the difference between current and initial values
action.transform.current.scale_x =
(current.x.max - current.x.min) / (initial.x.max - initial.x.min);
action.transform.current.scale_y =
(current.y.max - current.y.min) / (initial.y.max - initial.y.min);
return action;
},
render: (action, ctx) => {
const initial = action.transform.initial;
const current = action.transform.current;
ctx.save();
ctx.translate(
(current.x.max + current.x.min) / 2,
(current.y.max - current.y.min) / 2,
);
ctx.rotate(current.rotation);
ctx.translate(
-(current.x.max + current.x.min) / 2,
-(current.y.max - current.y.min) / 2,
);
const cxt = {
ctx: ctx,
selection: [],
shapeselection: [],
};
for (let obj in action.selection) {
const object = pointerList[obj];
object.draw(cxt);
}
ctx.strokeStyle = "#00ffff";
ctx.lineWidth = 1;
ctx.beginPath();
ctx.rect(
current.x.min,
current.y.min,
current.x.max - current.x.min,
current.y.max - current.y.min,
);
ctx.stroke();
ctx.fillStyle = "#000000";
const rectRadius = 5;
const xdiff = current.x.max - current.x.min;
const ydiff = current.y.max - current.y.min;
for (let i of [
[0, 0],
[0.5, 0],
[1, 0],
[1, 0.5],
[1, 1],
[0.5, 1],
[0, 1],
[0, 0.5],
]) {
ctx.beginPath();
ctx.rect(
current.x.min + xdiff * i[0] - rectRadius,
current.y.min + ydiff * i[1] - rectRadius,
rectRadius * 2,
rectRadius * 2,
);
ctx.fill();
}
ctx.restore();
},
finalize: (action) => {
undoStack.push({ name: "transformObjects", action: action });
actions.transformObjects.execute(action);
context.activeAction = undefined;
updateMenu();
},
execute: (action) => {
const frame = pointerList[action.frame];
const initial = action.transform.initial;
const current = action.transform.current;
const delta_x = current.x.min - initial.x.min;
const delta_y = current.y.min - initial.y.min;
const delta_rot = current.rotation - initial.rotation;
// frame.keys = structuredClone(action.newState)
for (let idx in action.selection) {
const item = frame.keys[idx];
const xoffset = action.selection[idx].x - initial.x.min;
const yoffset = action.selection[idx].y - initial.y.min;
item.x = initial.x.min + delta_x + xoffset * current.scale_x;
item.y = initial.y.min + delta_y + yoffset * current.scale_y;
item.scale_x = action.selection[idx].scale_x * current.scale_x;
item.scale_y = action.selection[idx].scale_y * current.scale_y;
item.rotation = action.selection[idx].rotation + delta_rot;
}
updateUI();
},
rollback: (action) => {
let frame = pointerList[action.frame];
frame.keys = structuredClone(action.oldState);
updateUI();
},
},
editFrame: {
initialize: (frame) => {
let action = {
type: "editFrame",
oldState: structuredClone(frame.keys),
frame: frame.idx,
};
return action;
},
finalize: (action, frame) => {
action.newState = structuredClone(frame.keys);
undoStack.push({ name: "editFrame", action: action });
actions.editFrame.execute(action);
context.activeAction = undefined;
updateMenu();
},
render: (action, ctx) => {},
create: (frame) => {
redoStack.length = 0; // Clear redo stack
if (!(frame.idx in startProps)) return;
let action = {
newState: structuredClone(frame.keys),
oldState: startProps[frame.idx],
frame: frame.idx,
};
undoStack.push({ name: "editFrame", action: action });
actions.editFrame.execute(action);
updateMenu();
},
execute: (action) => {
let frame = pointerList[action.frame];
if (frame == undefined) return;
frame.keys = structuredClone(action.newState);
updateUI();
},
rollback: (action) => {
let frame = pointerList[action.frame];
frame.keys = structuredClone(action.oldState);
updateUI();
},
},
addFrame: {
create: () => {
redoStack.length = 0;
let frames = [];
for (
let i = context.activeObject.activeLayer.frames.length;
i <= context.activeObject.currentFrameNum;
i++
) {
frames.push(uuidv4());
}
let action = {
frames: frames,
layer: context.activeObject.activeLayer.idx,
};
undoStack.push({ name: "addFrame", action: action });
actions.addFrame.execute(action);
updateMenu();
},
execute: (action) => {
let layer = pointerList[action.layer];
for (let frame of action.frames) {
layer.frames.push(new Frame("normal", frame));
}
updateLayers();
},
rollback: (action) => {
let layer = pointerList[action.layer];
for (let _frame of action.frames) {
layer.frames.pop();
}
updateLayers();
},
},
addKeyframe: {
create: () => {
let frameNum = context.activeObject.currentFrameNum;
let layer = context.activeObject.activeLayer;
let formerType;
let addedFrames = {};
if (frameNum >= layer.frames.length) {
formerType = "none";
for (let i = layer.frames.length; i <= frameNum; i++) {
addedFrames[i] = uuidv4();
}
} else if (layer.frames[frameNum].frameType != "keyframe") {
formerType = layer.frames[frameNum].frameType;
} else {
return; // Already a keyframe, nothing to do
}
redoStack.length = 0;
let action = {
frameNum: frameNum,
object: context.activeObject.idx,
layer: layer.idx,
formerType: formerType,
addedFrames: addedFrames,
uuid: uuidv4(),
};
undoStack.push({ name: "addKeyframe", action: action });
actions.addKeyframe.execute(action);
updateMenu();
},
execute: (action) => {
let object = pointerList[action.object];
let layer = pointerList[action.layer];
layer.addOrChangeFrame(
action.frameNum,
"keyframe",
action.uuid,
action.addedFrames,
);
updateLayers();
updateUI();
},
rollback: (action) => {
let layer = pointerList[action.layer];
if (action.formerType == "none") {
for (let i in action.addedFrames) {
layer.frames.pop();
}
} else {
let layer = pointerList[action.layer];
layer.frames[action.frameNum].frameType = action.formerType;
}
updateLayers();
updateUI();
},
},
deleteFrame: {
create: (frame, layer) => {
redoStack.length = 0;
let action = {
frame: frame.idx,
layer: layer.idx,
replacementUuid: uuidv4(),
};
undoStack.push({ name: "deleteFrame", action: action });
actions.deleteFrame.execute(action);
updateMenu();
},
execute: (action) => {
let layer = pointerList[action.layer];
layer.deleteFrame(
action.frame,
undefined,
action.replacementUuid ? action.replacementUuid : uuidv4(),
);
updateLayers();
updateUI();
},
rollback: (action) => {
let layer = pointerList[action.layer];
let frame = pointerList[action.frame];
layer.addFrame(action.frameNum, frame, {});
updateLayers();
updateUI();
},
},
moveFrames: {
create: (offset) => {
redoStack.length = 0;
const selectedFrames = structuredClone(context.selectedFrames);
for (let frame of selectedFrames) {
frame.replacementUuid = uuidv4();
}
// const fillFrames = []
// for (let i=0; i<context.activeObject.layers.length;i++) {
// const fillLayer = []
// for (let j=0; j<Math.abs(offset.frames); j++) {
// fillLayer.push(uuidv4())
// }
// fillFrames.push(fillLayer)
// }
let action = {
selectedFrames: selectedFrames,
offset: offset,
object: context.activeObject.idx,
// fillFrames: fillFrames
};
undoStack.push({ name: "moveFrames", action: action });
actions.moveFrames.execute(action);
updateMenu();
},
execute: (action) => {
const object = pointerList[action.object];
const frameBuffer = [];
for (let frameObj of action.selectedFrames) {
let layer = object.layers[frameObj.layer];
let frame = layer.frames[frameObj.frameNum];
frameBuffer.push({
frame: frame,
frameNum: frameObj.frameNum,
layer: frameObj.layer,
});
layer.deleteFrame(frame.idx, undefined, frameObj.replacementUuid);
}
for (let frameObj of frameBuffer) {
const layer_idx = frameObj.layer + action.offset.layers;
let layer = object.layers[layer_idx];
let frame = frameObj.frame;
layer.addFrame(frameObj.frameNum + action.offset.frames, frame, []); //fillFrames[layer_idx])
}
updateLayers();
updateUI();
},
rollback: (action) => {
// your code here
},
},
addMotionTween: {
create: () => {
redoStack.length = 0;
let frameNum = context.activeObject.currentFrameNum;
let layer = context.activeObject.activeLayer;
let frames = layer.frames;
let { lastKeyframeBefore, firstKeyframeAfter } = getKeyframesSurrounding(
frames,
frameNum,
);
let action = {
frameNum: frameNum,
layer: layer.idx,
lastBefore: lastKeyframeBefore,
firstAfter: firstKeyframeAfter,
};
undoStack.push({ name: "addMotionTween", action: action });
actions.addMotionTween.execute(action);
updateMenu();
},
execute: (action) => {
let layer = pointerList[action.layer];
let frames = layer.frames;
if (action.lastBefore != undefined && action.firstAfter != undefined) {
layer.updateFrameNextAndPrev(
action.frameNum,
"motion",
action.lastBefore,
action.firstAfter,
);
}
updateLayers();
updateUI();
},
rollback: (action) => {
let layer = pointerList[action.layer];
let frames = layer.frames;
if (action.lastBefore != undefined && action.firstAfter != undefined) {
layer.updateFrameNextAndPrev(
action.frameNum,
"normal",
action.lastBefore,
action.firstAfter,
);
}
updateLayers();
updateUI();
},
},
addShapeTween: {
create: () => {
redoStack.length = 0;
let frameNum = context.activeObject.currentFrameNum;
let layer = context.activeObject.activeLayer;
let frames = layer.frames;
let { lastKeyframeBefore, firstKeyframeAfter } = getKeyframesSurrounding(
frames,
frameNum,
);
let action = {
frameNum: frameNum,
layer: layer.idx,
lastBefore: lastKeyframeBefore,
firstAfter: firstKeyframeAfter,
};
undoStack.push({ name: "addShapeTween", action: action });
actions.addShapeTween.execute(action);
updateMenu();
},
execute: (action) => {
let layer = pointerList[action.layer];
let frames = layer.frames;
if (action.lastBefore != undefined && action.firstAfter != undefined) {
for (let i = action.lastBefore + 1; i < action.firstAfter; i++) {
frames[i].frameType = "shape";
frames[i].prev = frames[action.lastBefore];
frames[i].next = frames[action.firstAfter];
frames[i].prevIndex = action.lastBefore;
frames[i].nextIndex = action.firstAfter;
}
}
updateLayers();
updateUI();
},
rollback: (action) => {
let layer = pointerList[action.layer];
let frames = layer.frames;
for (let i = action.lastBefore + 1; i < action.firstAfter; i++) {
frames[i].frameType = "normal";
}
updateLayers();
updateUI();
},
},
group: {
create: () => {
redoStack.length = 0;
let serializableShapes = [];
let serializableObjects = [];
let bbox;
for (let shape of context.shapeselection) {
serializableShapes.push(shape.idx);
if (bbox == undefined) {
bbox = shape.bbox();
} else {
growBoundingBox(bbox, shape.bbox());
}
}
for (let object of context.selection) {
serializableObjects.push(object.idx);
// TODO: rotated bbox
if (bbox == undefined) {
bbox = object.bbox();
} else {
growBoundingBox(bbox, object.bbox());
}
}
context.shapeselection = [];
context.selection = [];
let action = {
shapes: serializableShapes,
objects: serializableObjects,
groupUuid: uuidv4(),
parent: context.activeObject.idx,
frame: context.activeObject.currentFrame.idx,
position: {
x: (bbox.x.min + bbox.x.max) / 2,
y: (bbox.y.min + bbox.y.max) / 2,
},
};
undoStack.push({ name: "group", action: action });
actions.group.execute(action);
updateMenu();
},
execute: (action) => {
let group = new GraphicsObject(action.groupUuid);
let parent = pointerList[action.parent];
let frame = action.frame
? pointerList[action.frame]
: parent.currentFrame;
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
shape.translate(-action.position.x, -action.position.y);
group.currentFrame.addShape(shape);
frame.removeShape(shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
group.addObject(
object,
frame.keys[objectIdx].x - action.position.x,
frame.keys[objectIdx].y - action.position.y,
);
parent.removeChild(object);
}
parent.addObject(group, action.position.x, action.position.y, frame);
context.selection = [group];
updateUI();
updateInfopanel();
},
rollback: (action) => {
let group = pointerList[action.groupUuid];
let parent = pointerList[action.parent];
let frame = action.frame
? pointerList[action.frame]
: parent.currentFrame;
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
frame.addShape(shape);
group.getFrame(0).removeShape(shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
parent.addObject(object, object.x, object.y);
group.removeChild(object);
}
parent.removeChild(group);
updateUI();
updateInfopanel();
},
},
sendToBack: {
create: () => {
redoStack.length = 0;
let serializableShapes = [];
let serializableObjects = [];
let formerIndices = {};
for (let shape of context.shapeselection) {
serializableShapes.push(shape.idx);
formerIndices[shape.idx] =
context.activeObject.currentFrame.shapes.indexOf(shape);
}
for (let object of context.selection) {
serializableObjects.push(object.idx);
formerIndices[object.idx] =
context.activeObject.activeLayer.children.indexOf(object);
}
let action = {
shapes: serializableShapes,
objects: serializableObjects,
layer: context.activeObject.activeLayer.idx,
frame: context.activeObject.currentFrame.idx,
formerIndices: formerIndices,
};
undoStack.push({ name: "sendToBack", action: action });
actions.sendToBack.execute(action);
updateMenu();
},
execute: (action) => {
let frame = pointerList[action.frame];
let layer = pointerList[action.layer];
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
frame.shapes.splice(frame.shapes.indexOf(shape), 1);
frame.shapes.unshift(shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
layer.children.splice(layer.children.indexOf(object), 1);
layer.children.unshift(object);
}
updateUI();
},
rollback: (action) => {
let frame = pointerList[action.frame];
let layer = pointerList[action.layer];
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
frame.shapes.splice(frame.shapes.indexOf(shape), 1);
frame.shapes.splice(action.formerIndices[shapeIdx], 0, shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
layer.children.splice(layer.children.indexOf(object), 1);
layer.children.splice(action.formerIndices[objectIdx], 0, object);
}
updateUI();
},
},
bringToFront: {
create: () => {
redoStack.length = 0;
let serializableShapes = [];
let serializableObjects = [];
let formerIndices = {};
for (let shape of context.shapeselection) {
serializableShapes.push(shape.idx);
formerIndices[shape.idx] =
context.activeObject.currentFrame.shapes.indexOf(shape);
}
for (let object of context.selection) {
serializableObjects.push(object.idx);
formerIndices[object.idx] =
context.activeObject.activeLayer.children.indexOf(object);
}
let action = {
shapes: serializableShapes,
objects: serializableObjects,
layer: context.activeObject.activeLayer.idx,
frame: context.activeObject.currentFrame.idx,
formerIndices: formerIndices,
};
undoStack.push({ name: "bringToFront", action: action });
actions.bringToFront.execute(action);
updateMenu();
},
execute: (action) => {
let frame = pointerList[action.frame];
let layer = pointerList[action.layer];
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
frame.shapes.splice(frame.shapes.indexOf(shape), 1);
frame.shapes.push(shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
layer.children.splice(layer.children.indexOf(object), 1);
layer.children.push(object);
}
updateUI();
},
rollback: (action) => {
let frame = pointerList[action.frame];
let layer = pointerList[action.layer];
for (let shapeIdx of action.shapes) {
let shape = pointerList[shapeIdx];
frame.shapes.splice(frame.shapes.indexOf(shape), 1);
frame.shapes.splice(action.formerIndices[shapeIdx], 0, shape);
}
for (let objectIdx of action.objects) {
let object = pointerList[objectIdx];
layer.children.splice(layer.children.indexOf(object), 1);
layer.children.splice(action.formerIndices[objectIdx], 0, object);
}
updateUI();
},
},
setName: {
create: (object, name) => {
redoStack.length = 0;
let action = {
object: object.idx,
newName: name,
oldName: object.name,
};
undoStack.push({ name: "setName", action: action });
actions.setName.execute(action);
updateMenu();
},
execute: (action) => {
let object = pointerList[action.object];
object.name = action.newName;
updateInfopanel();
},
rollback: (action) => {
let object = pointerList[action.object];
object.name = action.oldName;
updateInfopanel();
},
},
selectAll: {
create: () => {
redoStack.length = 0;
let selection = [];
let shapeselection = [];
for (let child of context.activeObject.activeLayer.children) {
let idx = child.idx;
if (idx in context.activeObject.currentFrame.keys) {
selection.push(child.idx);
}
}
for (let shape of context.activeObject.currentFrame.shapes) {
shapeselection.push(shape.idx);
}
let action = {
selection: selection,
shapeselection: shapeselection,
};
undoStack.push({ name: "selectAll", action: action });
actions.selectAll.execute(action);
updateMenu();
},
execute: (action) => {
context.selection = [];
context.shapeselection = [];
for (let item of action.selection) {
context.selection.push(pointerList[item]);
}
for (let shape of action.shapeselection) {
context.shapeselection.push(pointerList[shape]);
}
updateUI();
updateMenu();
},
rollback: (action) => {
context.selection = [];
context.shapeselection = [];
updateUI();
updateMenu();
},
},
selectNone: {
create: () => {
redoStack.length = 0;
let selection = [];
let shapeselection = [];
for (let item of context.selection) {
selection.push(item.idx);
}
for (let shape of context.shapeselection) {
shapeselection.push(shape.idx);
}
let action = {
selection: selection,
shapeselection: shapeselection,
};
undoStack.push({ name: "selectNone", action: action });
actions.selectNone.execute(action);
updateMenu();
},
execute: (action) => {
context.selection = [];
context.shapeselection = [];
updateUI();
updateMenu();
},
rollback: (action) => {
context.selection = [];
context.shapeselection = [];
for (let item of action.selection) {
context.selection.push(pointerList[item]);
}
for (let shape of action.shapeselection) {
context.shapeselection.push(pointerList[shape]);
}
updateUI();
updateMenu();
},
},
select: {
create: () => {
redoStack.length = 0;
if (
arraysAreEqual(context.oldselection, context.selection) &&
arraysAreEqual(context.oldshapeselection, context.shapeselection)
)
return;
let oldselection = [];
let oldshapeselection = [];
for (let item of context.oldselection) {
oldselection.push(item.idx);
}
for (let shape of context.oldshapeselection) {
oldshapeselection.push(shape.idx);
}
let selection = [];
let shapeselection = [];
for (let item of context.selection) {
selection.push(item.idx);
}
for (let shape of context.shapeselection) {
shapeselection.push(shape.idx);
}
let action = {
selection: selection,
shapeselection: shapeselection,
oldselection: oldselection,
oldshapeselection: oldshapeselection,
};
undoStack.push({ name: "select", action: action });
actions.select.execute(action);
updateMenu();
},
execute: (action) => {
context.selection = [];
context.shapeselection = [];
for (let item of action.selection) {
context.selection.push(pointerList[item]);
}
for (let shape of action.shapeselection) {
context.shapeselection.push(pointerList[shape]);
}
updateUI();
updateMenu();
},
rollback: (action) => {
context.selection = [];
context.shapeselection = [];
for (let item of action.oldselection) {
context.selection.push(pointerList[item]);
}
for (let shape of action.oldshapeselection) {
context.shapeselection.push(pointerList[shape]);
}
updateUI();
updateMenu();
},
},
};
function uuidv4() {
return "10000000-1000-4000-8000-100000000000".replace(/[018]/g, (c) =>
(
+c ^
(crypto.getRandomValues(new Uint8Array(1))[0] & (15 >> (+c / 4)))
).toString(16),
);
}
function vectorDist(a, b) {
return Math.sqrt((a.x - b.x) * (a.x - b.x) + (a.y - b.y) * (a.y - b.y));
}
function getMousePos(canvas, evt, skipOffsets = false, skipZoom = false) {
var rect = canvas.getBoundingClientRect();
let offsetX = canvas.offsetX || 0;
let offsetY = canvas.offsetY || 0;
if (skipOffsets) {
offsetX = 0;
offsetY = 0;
}
return {
x: (evt.clientX + offsetX - rect.left) / (skipZoom ? 1 : context.zoomLevel),
y: (evt.clientY + offsetY - rect.top) / (skipZoom ? 1 : context.zoomLevel),
};
}
function getProperty(context, path) {
let pointer = context;
let pathComponents = path.split(".");
for (let component of pathComponents) {
pointer = pointer[component];
}
return pointer;
}
function setProperty(context, path, value) {
let pointer = context;
let pathComponents = path.split(".");
let finalComponent = pathComponents.pop();
for (let component of pathComponents) {
pointer = pointer[component];
}
pointer[finalComponent] = value;
}
function selectCurve(context, mouse) {
let mouseTolerance = 15;
let closestDist = mouseTolerance;
let closestCurve = undefined;
let closestShape = undefined;
for (let shape of context.activeObject.currentFrame.shapes) {
if (shape instanceof TempShape) continue;
if (
mouse.x > shape.boundingBox.x.min - mouseTolerance &&
mouse.x < shape.boundingBox.x.max + mouseTolerance &&
mouse.y > shape.boundingBox.y.min - mouseTolerance &&
mouse.y < shape.boundingBox.y.max + mouseTolerance
) {
for (let curve of shape.curves) {
let dist = vectorDist(mouse, curve.project(mouse));
if (dist <= closestDist) {
closestDist = dist;
closestCurve = curve;
closestShape = shape;
}
}
}
}
if (closestCurve) {
return { curve: closestCurve, shape: closestShape };
} else {
return undefined;
}
}
function selectVertex(context, mouse) {
let mouseTolerance = 15;
let closestDist = mouseTolerance;
let closestVertex = undefined;
let closestShape = undefined;
for (let shape of context.activeObject.currentFrame.shapes) {
if (shape instanceof TempShape) continue;
if (
mouse.x > shape.boundingBox.x.min - mouseTolerance &&
mouse.x < shape.boundingBox.x.max + mouseTolerance &&
mouse.y > shape.boundingBox.y.min - mouseTolerance &&
mouse.y < shape.boundingBox.y.max + mouseTolerance
) {
for (let vertex of shape.vertices) {
let dist = vectorDist(mouse, vertex.point);
if (dist <= closestDist) {
closestDist = dist;
closestVertex = vertex;
closestShape = shape;
}
}
}
}
if (closestVertex) {
return { vertex: closestVertex, shape: closestShape };
} else {
return undefined;
}
}
function moldCurve(curve, mouse, oldMouse, epsilon = 0.01) {
// Step 1: Find the closest point on the curve to the old mouse position
const projection = curve.project(oldMouse);
let t = projection.t;
const P1 = curve.points[1];
const P2 = curve.points[2];
// Make copies of the control points to avoid editing the original curve
const newP1 = { ...P1 };
const newP2 = { ...P2 };
// Step 2: Create new Bezier curves with the control points slightly offset
const offsetP1 = { x: P1.x + epsilon, y: P1.y + epsilon };
const offsetP2 = { x: P2.x + epsilon, y: P2.y + epsilon };
const offsetCurveP1 = new Bezier(
curve.points[0],
offsetP1,
curve.points[2],
curve.points[3],
);
const offsetCurveP2 = new Bezier(
curve.points[0],
curve.points[1],
offsetP2,
curve.points[3],
);
// Step 3: See where the same point lands on the offset curves
const offset1 = offsetCurveP1.compute(t);
const offset2 = offsetCurveP2.compute(t);
// Step 4: Calculate derivatives with respect to control points
const derivativeP1 = {
x: (offset1.x - projection.x) / epsilon,
y: (offset1.y - projection.y) / epsilon,
};
const derivativeP2 = {
x: (offset2.x - projection.x) / epsilon,
y: (offset2.y - projection.y) / epsilon,
};
// Step 5: Use the derivatives to move the projected point to the mouse
const deltaX = mouse.x - projection.x;
const deltaY = mouse.y - projection.y;
newP1.x = newP1.x + (deltaX / derivativeP1.x) * (1 - t * t);
newP1.y = newP1.y + (deltaY / derivativeP1.y) * (1 - t * t);
newP2.x = newP2.x + (deltaX / derivativeP2.x) * t * t;
newP2.y = newP2.y + (deltaY / derivativeP2.y) * t * t;
// Return the updated Bezier curve
return new Bezier(curve.points[0], newP1, newP2, curve.points[3]);
}
function deriveControlPoints(S, A, E, e1, e2, t) {
// Deriving the control points is effectively "doing what
// we talk about in the section", in code:
const v1 = {
x: A.x - (A.x - e1.x) / (1 - t),
y: A.y - (A.y - e1.y) / (1 - t),
};
const v2 = {
x: A.x - (A.x - e2.x) / t,
y: A.y - (A.y - e2.y) / t,
};
const C1 = {
x: S.x + (v1.x - S.x) / t,
y: S.y + (v1.y - S.y) / t,
};
const C2 = {
x: E.x + (v2.x - E.x) / (1 - t),
y: E.y + (v2.y - E.y) / (1 - t),
};
return { v1, v2, C1, C2 };
}
function growBoundingBox(bboxa, bboxb) {
bboxa.x.min = Math.min(bboxa.x.min, bboxb.x.min);
bboxa.y.min = Math.min(bboxa.y.min, bboxb.y.min);
bboxa.x.max = Math.max(bboxa.x.max, bboxb.x.max);
bboxa.y.max = Math.max(bboxa.y.max, bboxb.y.max);
}
function regionToBbox(region) {
return {
x: {
min: Math.min(region.x1, region.x2),
max: Math.max(region.x1, region.x2),
},
y: {
min: Math.min(region.y1, region.y2),
max: Math.max(region.y1, region.y2),
},
};
}
function hitTest(candidate, object) {
let bbox = object.bbox();
if (candidate.x.min) {
// We're checking a bounding box
if (
candidate.x.min < bbox.x.max &&
candidate.x.max > bbox.x.min &&
candidate.y.min < bbox.y.max &&
candidate.y.max > bbox.y.min
) {
return true;
} else {
return false;
}
} else {
// We're checking a point
if (
candidate.x > bbox.x.min &&
candidate.x < bbox.x.max &&
candidate.y > bbox.y.min &&
candidate.y < bbox.y.max
) {
return true;
} else {
return false;
}
}
}
function undo() {
let action = undoStack.pop();
if (action) {
actions[action.name].rollback(action.action);
redoStack.push(action);
updateUI();
updateMenu();
} else {
console.log("No actions to undo");
updateMenu();
}
}
function redo() {
let action = redoStack.pop();
if (action) {
actions[action.name].execute(action.action);
undoStack.push(action);
updateUI();
updateMenu();
} else {
console.log("No actions to redo");
updateMenu();
}
}
class Frame {
constructor(frameType = "normal", uuid = undefined) {
this.keys = {};
this.shapes = [];
this.frameType = frameType;
if (!uuid) {
this.idx = uuidv4();
} else {
this.idx = uuid;
}
pointerList[this.idx] = this;
}
get exists() {
return true;
}
saveState() {
startProps[this.idx] = structuredClone(this.keys);
}
copy(idx) {
let newFrame = new Frame(
this.frameType,
idx.slice(0, 8) + this.idx.slice(8),
);
newFrame.keys = structuredClone(this.keys);
newFrame.shapes = [];
for (let shape of this.shapes) {
newFrame.shapes.push(shape.copy(idx));
}
return newFrame;
}
static fromJSON(json) {
if (!json) {
return undefined
}
const frame = new Frame(json.frameType, json.idx);
frame.keys = json.keys;
for (let i in json.shapes) {
const shape = json.shapes[i];
frame.shapes.push(Shape.fromJSON(shape));
}
return frame;
}
toJSON(randomizeUuid = false) {
const json = {};
json.type = "Frame";
json.frameType = this.frameType;
if (randomizeUuid) {
json.idx = uuidv4();
} else {
json.idx = this.idx;
}
json.keys = structuredClone(this.keys);
json.shapes = [];
for (let shape of this.shapes) {
json.shapes.push(shape.toJSON(randomizeUuid));
}
return json;
}
addShape(shape, sendToBack) {
if (sendToBack) {
this.shapes.unshift(shape);
} else {
this.shapes.push(shape);
}
}
removeShape(shape) {
let shapeIndex = this.shapes.indexOf(shape);
if (shapeIndex >= 0) {
this.shapes.splice(shapeIndex, 1);
}
}
}
class TempFrame {
constructor() {}
get exists() {
return false;
}
get idx() {
return "tempFrame";
}
get keys() {
return {};
}
get shapes() {
return [];
}
get frameType() {
return "temp";
}
copy() {
return this;
}
addShape() {}
removeShape() {}
}
const tempFrame = new TempFrame();
class Layer {
constructor(uuid) {
this.children = [];
if (!uuid) {
this.idx = uuidv4();
} else {
this.idx = uuid;
}
this.name = "Layer";
this.frames = [new Frame("keyframe", this.idx + "-F1")];
this.visible = true;
this.audible = true;
pointerList[this.idx] = this;
}
static fromJSON(json) {
const layer = new Layer(json.idx);
for (let i in json.children) {
const child = json.children[i];
layer.children.push(GraphicsObject.fromJSON(child));
}
layer.name = json.name;
layer.frames = [];
for (let i in json.frames) {
const frame = json.frames[i];
layer.frames.push(Frame.fromJSON(frame));
}
for (let frame in layer.frames) {
if (layer.frames[frame]) {
if (["motion", "shape"].indexOf(layer.frames[frame].frameType) != -1) {
layer.updateFrameNextAndPrev(frame, layer.frames[frame].frameType);
}
}
}
layer.visible = json.visible;
layer.audible = json.audible;
return layer;
}
toJSON(randomizeUuid = false) {
const json = {};
json.type = "Layer";
if (randomizeUuid) {
json.idx = uuidv4();
json.name = this.name + " copy";
} else {
json.idx = this.idx;
json.name = this.name;
}
json.children = [];
let idMap = {}
for (let child of this.children) {
let childJson = child.toJSON(randomizeUuid)
idMap[child.idx] = childJson.idx
json.children.push(childJson);
}
json.frames = [];
for (let frame of this.frames) {
if (frame) {
let frameJson = frame.toJSON(randomizeUuid)
for (let key in frameJson.keys) {
if (key in idMap) {
frameJson.keys[idMap[key]] = frameJson.keys[key]
delete frameJson.keys[key]
}
}
json.frames.push(frameJson);
} else {
json.frames.push(undefined)
}
}
json.visible = this.visible;
json.audible = this.audible;
return json;
}
getFrame(num) {
if (this.frames[num]) {
if (this.frames[num].frameType == "keyframe") {
return this.frames[num];
} else if (this.frames[num].frameType == "motion") {
let frameKeys = {};
let prevFrame = this.frames[num].prev;
let nextFrame = this.frames[num].next;
const t =
(num - this.frames[num].prevIndex) /
(this.frames[num].nextIndex - this.frames[num].prevIndex);
for (let key in prevFrame?.keys) {
frameKeys[key] = {};
let prevKeyDict = prevFrame.keys[key];
let nextKeyDict = nextFrame.keys[key];
for (let prop in prevKeyDict) {
frameKeys[key][prop] =
(1 - t) * prevKeyDict[prop] + t * nextKeyDict[prop];
}
}
let frame = new Frame("motion", "temp");
frame.keys = frameKeys;
return frame;
} else if (this.frames[num].frameType == "shape") {
let prevFrame = this.frames[num].prev;
let nextFrame = this.frames[num].next;
const t =
(num - this.frames[num].prevIndex) /
(this.frames[num].nextIndex - this.frames[num].prevIndex);
let shapes = [];
for (let shape1 of prevFrame?.shapes) {
if (shape1.curves.length == 0) continue;
let shape2 = undefined;
for (let i of nextFrame.shapes) {
if (shape1.shapeId == i.shapeId) {
shape2 = i;
}
}
if (shape2 != undefined) {
let path1 = [
{
type: "M",
x: shape1.curves[0].points[0].x,
y: shape1.curves[0].points[0].y,
},
];
for (let curve of shape1.curves) {
path1.push({
type: "C",
x1: curve.points[1].x,
y1: curve.points[1].y,
x2: curve.points[2].x,
y2: curve.points[2].y,
x: curve.points[3].x,
y: curve.points[3].y,
});
}
let path2 = [];
if (shape2.curves.length > 0) {
path2.push({
type: "M",
x: shape2.curves[0].points[0].x,
y: shape2.curves[0].points[0].y,
});
for (let curve of shape2.curves) {
path2.push({
type: "C",
x1: curve.points[1].x,
y1: curve.points[1].y,
x2: curve.points[2].x,
y2: curve.points[2].y,
x: curve.points[3].x,
y: curve.points[3].y,
});
}
}
const interpolator = d3.interpolatePathCommands(path1, path2);
let current = interpolator(t);
let curves = [];
let start = current.shift();
let { x, y } = start;
for (let curve of current) {
curves.push(
new Bezier(
x,
y,
curve.x1,
curve.y1,
curve.x2,
curve.y2,
curve.x,
curve.y,
),
);
x = curve.x;
y = curve.y;
}
let lineWidth = lerp(shape1.lineWidth, shape2.lineWidth, t);
let strokeStyle = lerpColor(
shape1.strokeStyle,
shape2.strokeStyle,
t,
);
let fillStyle;
if (!shape1.fillImage) {
fillStyle = lerpColor(shape1.fillStyle, shape2.fillStyle, t);
}
shapes.push(
new TempShape(
start.x,
start.y,
curves,
shape1.lineWidth,
shape1.stroked,
shape1.filled,
strokeStyle,
fillStyle,
),
);
}
}
let frame = new Frame("shape", "temp");
frame.shapes = shapes;
return frame;
} else {
for (let i = Math.min(num, this.frames.length - 1); i >= 0; i--) {
if (this.frames[i]?.frameType == "keyframe") {
let tempFrame = this.frames[i].copy("tempFrame");
tempFrame.frameType = "normal";
return tempFrame;
}
}
}
} else {
for (let i = Math.min(num, this.frames.length - 1); i >= 0; i--) {
// if (this.frames[i].frameType == "keyframe") {
// let tempFrame = this.frames[i].copy("tempFrame")
// tempFrame.frameType = "normal"
return tempFrame;
// }
}
}
}
getLatestFrame(num) {
for (let i = num; i >= 0; i--) {
if (this.frames[i]?.exists) {
return this.getFrame(i);
}
}
}
copy(idx) {
let newLayer = new Layer(idx.slice(0, 8) + this.idx.slice(8));
let idxMapping = {};
for (let child of this.children) {
let newChild = child.copy(idx);
idxMapping[child.idx] = newChild.idx;
newLayer.children.push(newChild);
}
newLayer.frames = [];
for (let frame of this.frames) {
let newFrame = frame.copy(idx);
newFrame.keys = {};
for (let key in frame.keys) {
newFrame.keys[idxMapping[key]] = structuredClone(frame.keys[key]);
}
newLayer.frames.push(newFrame);
}
return newLayer;
}
addFrame(num, frame, addedFrames) {
let updateDest = undefined;
if (!this.frames[num]) {
for (const [index, idx] of Object.entries(addedFrames)) {
if (!this.frames[index]) {
this.frames[index] = new Frame("normal", idx);
}
}
} else {
if (this.frames[num].frameType == "motion") {
updateDest = "motion";
} else if (this.frames[num].frameType == "shape") {
updateDest = "shape";
}
}
this.frames[num] = frame;
if (updateDest) {
this.updateFrameNextAndPrev(num - 1, updateDest);
this.updateFrameNextAndPrev(num + 1, updateDest);
}
}
addOrChangeFrame(num, frameType, uuid, addedFrames) {
let latestFrame = this.getLatestFrame(num);
let newKeyframe = new Frame(frameType, uuid);
for (let key in latestFrame.keys) {
newKeyframe.keys[key] = structuredClone(latestFrame.keys[key]);
}
for (let shape of latestFrame.shapes) {
newKeyframe.shapes.push(shape.copy(uuid));
}
this.addFrame(num, newKeyframe, addedFrames);
}
deleteFrame(uuid, destinationType, replacementUuid) {
let frame = pointerList[uuid];
let i = this.frames.indexOf(frame);
if (i != -1) {
if (destinationType == undefined) {
// Determine destination type from surrounding frames
const prevFrame = this.frames[i - 1];
const nextFrame = this.frames[i + 1];
const prevType = prevFrame ? prevFrame.frameType : null;
const nextType = nextFrame ? nextFrame.frameType : null;
if (prevType === "motion" || nextType === "motion") {
destinationType = "motion";
} else if (prevType === "shape" || nextType === "shape") {
destinationType = "shape";
} else if (prevType !== null && nextType !== null) {
destinationType = "normal";
} else {
destinationType = "none";
}
}
if (destinationType == "none") {
delete this.frames[i];
} else {
this.frames[i] = this.frames[i].copy(replacementUuid);
this.frames[i].frameType = destinationType;
this.updateFrameNextAndPrev(i, destinationType);
}
}
}
updateFrameNextAndPrev(num, frameType, lastBefore, firstAfter) {
if (!this.frames[num] || this.frames[num].frameType == "keyframe") return;
if (lastBefore == undefined || firstAfter == undefined) {
let { lastKeyframeBefore, firstKeyframeAfter } = getKeyframesSurrounding(
this.frames,
num,
);
lastBefore = lastKeyframeBefore;
firstAfter = firstKeyframeAfter;
}
for (let i = lastBefore + 1; i < firstAfter; i++) {
this.frames[i].frameType = frameType;
this.frames[i].prev = this.frames[lastBefore];
this.frames[i].next = this.frames[firstAfter];
this.frames[i].prevIndex = lastBefore;
this.frames[i].nextIndex = firstAfter;
}
}
toggleVisibility() {
this.visible = !this.visible;
updateUI();
updateMenu();
updateLayers();
}
}
class AudioLayer {
constructor(uuid, name) {
this.sounds = {};
this.track = new Tone.Part((time, sound) => {
console.log(this.sounds[sound]);
this.sounds[sound].player.start(time);
});
if (!uuid) {
this.idx = uuidv4();
} else {
this.idx = uuid;
}
if (!name) {
this.name = "Audio";
} else {
this.name = name;
}
this.audible = true;
}
static fromJSON(json) {
const audioLayer = new AudioLayer(json.idx, json.name);
// TODO: load audiolayer from json
audioLayer.sounds = {};
audioLayer.audible = json.audible;
return audioLayer;
}
toJSON(randomizeUuid = false) {
const json = {};
json.type = "AudioLayer";
// TODO: build json from audiolayer
json.sounds = {};
json.audible = this.audible;
if (randomizeUuid) {
json.idx = uuidv4();
json.name = this.name + " copy";
} else {
json.idx = this.idx;
json.name = this.name;
}
return json;
}
copy(idx) {
let newAudioLayer = new AudioLayer(
idx.slice(0, 8) + this.idx.slice(8),
this.name,
);
for (let soundIdx in this.sounds) {
let sound = this.sounds[soundIdx];
let newPlayer = new Tone.Player(sound.buffer()).toDestination();
let idx = this.idx.slice(0, 8) + soundIdx.slice(8);
let soundObj = {
player: newPlayer,
start: sound.start,
};
pointerList[idx] = soundObj;
newAudioLayer.sounds[idx] = soundObj;
}
}
}
class BaseShape {
constructor(startx, starty) {
this.startx = startx;
this.starty = starty;
this.curves = [];
this.regions = [];
this.boundingBox = {
x: { min: startx, max: starty },
y: { min: starty, max: starty },
};
}
recalculateBoundingBox() {
this.boundingBox = undefined;
for (let curve of this.curves) {
if (!this.boundingBox) {
this.boundingBox = curve.bbox();
}
growBoundingBox(this.boundingBox, curve.bbox());
}
}
draw(context) {
let ctx = context.ctx;
ctx.lineWidth = this.lineWidth;
ctx.lineCap = "round";
// Create a repeating pattern for indicating selected shapes
let patternCanvas = document.createElement('canvas');
patternCanvas.width = 2;
patternCanvas.height = 2;
let patternCtx = patternCanvas.getContext('2d');
// Draw the pattern:
// black, transparent,
// transparent, white
patternCtx.fillStyle = 'black';
patternCtx.fillRect(0, 0, 1, 1);
patternCtx.clearRect(1, 0, 1, 1);
patternCtx.clearRect(0, 1, 1, 1);
patternCtx.fillStyle = 'white';
patternCtx.fillRect(1, 1, 1, 1);
let pattern = ctx.createPattern(patternCanvas, 'repeat'); // repeat the pattern across the canvas
// for (let region of this.regions) {
// // if (region.filled) continue;
// if ((region.fillStyle || region.fillImage) && region.filled) {
// // ctx.fillStyle = region.fill
// if (region.fillImage) {
// let pat = ctx.createPattern(region.fillImage, "no-repeat")
// ctx.fillStyle = pat
// } else {
// ctx.fillStyle = region.fillStyle
// }
// ctx.beginPath()
// for (let curve of region.curves) {
// ctx.lineTo(curve.points[0].x, curve.points[0].y)
// ctx.bezierCurveTo(curve.points[1].x, curve.points[1].y,
// curve.points[2].x, curve.points[2].y,
// curve.points[3].x, curve.points[3].y)
// }
// ctx.fill()
// }
// }
if (this.filled) {
ctx.beginPath();
if (this.fillImage) {
let pat = ctx.createPattern(this.fillImage, "no-repeat");
ctx.fillStyle = pat;
} else {
ctx.fillStyle = this.fillStyle;
}
if (context.debugColor) {
ctx.fillStyle = context.debugColor;
}
if (this.curves.length > 0) {
ctx.moveTo(this.curves[0].points[0].x, this.curves[0].points[0].y);
for (let curve of this.curves) {
ctx.bezierCurveTo(
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
);
}
}
ctx.fill();
if (context.selected) {
ctx.fillStyle = pattern
ctx.fill()
}
}
if (this.stroked && !context.debugColor) {
for (let curve of this.curves) {
ctx.strokeStyle = curve.color;
ctx.beginPath();
ctx.moveTo(curve.points[0].x, curve.points[0].y);
ctx.bezierCurveTo(
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
);
ctx.stroke();
if (context.selected) {
ctx.strokeStyle = pattern
ctx.stroke()
}
// // Debug, show curve control points
// ctx.beginPath()
// ctx.arc(curve.points[1].x,curve.points[1].y, 5, 0, 2*Math.PI)
// ctx.arc(curve.points[2].x,curve.points[2].y, 5, 0, 2*Math.PI)
// ctx.arc(curve.points[3].x,curve.points[3].y, 5, 0, 2*Math.PI)
// ctx.fill()
}
}
// Debug, show quadtree
if (debugQuadtree && this.quadtree && !context.debugColor) {
this.quadtree.draw(ctx);
}
}
}
class TempShape extends BaseShape {
constructor(
startx,
starty,
curves,
lineWidth,
stroked,
filled,
strokeStyle,
fillStyle,
) {
super(startx, starty);
this.curves = curves;
this.lineWidth = lineWidth;
this.stroked = stroked;
this.filled = filled;
this.strokeStyle = strokeStyle;
this.fillStyle = fillStyle;
this.inProgress = false;
this.recalculateBoundingBox();
}
}
class Shape extends BaseShape {
constructor(startx, starty, context, uuid = undefined, shapeId = undefined) {
super(startx, starty);
this.vertices = [];
this.triangles = [];
this.fillStyle = context.fillStyle;
this.fillImage = context.fillImage;
this.strokeStyle = context.strokeStyle;
this.lineWidth = context.lineWidth;
this.filled = context.fillShape;
this.stroked = context.strokeShape;
this.quadtree = new Quadtree(
{ x: { min: 0, max: 500 }, y: { min: 0, max: 500 } },
4,
);
if (!uuid) {
this.idx = uuidv4();
} else {
this.idx = uuid;
}
if (!shapeId) {
this.shapeId = uuidv4();
} else {
this.shapeId = shapeId;
}
pointerList[this.idx] = this;
this.regionIdx = 0;
this.inProgress = true;
}
static fromJSON(json) {
const shape = new Shape(
json.startx,
json.starty,
{
fillStyle: json.fillStyle,
fillImage: json.fillImage,
strokeStyle: json.strokeStyle,
lineWidth: json.lineWidth,
fillShape: json.filled,
strokeShape: json.stroked,
},
json.idx,
json.shapeId,
);
for (let curve of json.curves) {
shape.addCurve(Bezier.fromJSON(curve));
}
for (let region of json.regions) {
const curves = [];
for (let curve of region.curves) {
curves.push(Bezier.fromJSON(curve));
}
shape.regions.push({
idx: region.idx,
curves: curves,
fillStyle: region.fillStyle,
filled: region.filled,
});
}
return shape;
}
toJSON(randomizeUuid = false) {
const json = {};
json.type = "Shape";
json.startx = this.startx;
json.starty = this.starty;
json.fillStyle = this.fillStyle;
json.fillImage = this.fillImage;
json.strokeStyle = this.fillStyle;
json.lineWidth = this.lineWidth;
json.filled = this.filled;
json.stroked = this.stroked;
if (randomizeUuid) {
json.idx = uuidv4();
} else {
json.idx = this.idx;
}
json.shapeId = this.shapeId;
json.curves = [];
for (let curve of this.curves) {
json.curves.push(curve.toJSON(randomizeUuid));
}
json.regions = [];
for (let region of this.regions) {
const curves = [];
for (let curve of region.curves) {
curves.push(curve.toJSON(randomizeUuid));
}
json.regions.push({
idx: region.idx,
curves: curves,
fillStyle: region.fillStyle,
filled: region.filled,
});
}
return json;
}
addCurve(curve) {
if (curve.color == undefined) {
curve.color = context.strokeStyle;
}
this.curves.push(curve);
this.quadtree.insert(curve, this.curves.length - 1);
growBoundingBox(this.boundingBox, curve.bbox());
}
addLine(x, y) {
let lastpoint;
if (this.curves.length) {
lastpoint = this.curves[this.curves.length - 1].points[3];
} else {
lastpoint = { x: this.startx, y: this.starty };
}
let midpoint = { x: (x + lastpoint.x) / 2, y: (y + lastpoint.y) / 2 };
let curve = new Bezier(
lastpoint.x,
lastpoint.y,
midpoint.x,
midpoint.y,
midpoint.x,
midpoint.y,
x,
y,
);
curve.color = context.strokeStyle;
this.quadtree.insert(curve, this.curves.length - 1);
this.curves.push(curve);
}
bbox() {
return this.boundingBox;
}
clear() {
this.curves = [];
this.quadtree.clear();
}
copy(idx) {
let newShape = new Shape(
this.startx,
this.starty,
{},
idx.slice(0, 8) + this.idx.slice(8),
this.shapeId,
);
newShape.startx = this.startx;
newShape.starty = this.starty;
for (let curve of this.curves) {
let newCurve = new Bezier(
curve.points[0].x,
curve.points[0].y,
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
);
newCurve.color = curve.color;
newShape.addCurve(newCurve);
}
// TODO
// for (let vertex of this.vertices) {
// }
newShape.updateVertices();
newShape.fillStyle = this.fillStyle;
newShape.fillImage = this.fillImage;
newShape.strokeStyle = this.strokeStyle;
newShape.lineWidth = this.lineWidth;
newShape.filled = this.filled;
newShape.stroked = this.stroked;
return newShape;
}
fromPoints(points, error = 30) {
console.log(error);
this.curves = [];
let curves = fitCurve.fitCurve(points, error);
for (let curve of curves) {
let bezier = new Bezier(
curve[0][0],
curve[0][1],
curve[1][0],
curve[1][1],
curve[2][0],
curve[2][1],
curve[3][0],
curve[3][1],
);
this.curves.push(bezier);
this.quadtree.insert(bezier, this.curves.length - 1);
}
return this;
}
simplify(mode = "corners") {
this.quadtree.clear();
this.inProgress = false;
// Mode can be corners, smooth or auto
if (mode == "corners") {
let points = [{ x: this.startx, y: this.starty }];
for (let curve of this.curves) {
points.push(curve.points[3]);
}
// points = points.concat(this.curves)
let newpoints = simplifyPolyline(points, 10, false);
this.curves = [];
let lastpoint = newpoints.shift();
let midpoint;
for (let point of newpoints) {
midpoint = {
x: (lastpoint.x + point.x) / 2,
y: (lastpoint.y + point.y) / 2,
};
let bezier = new Bezier(
lastpoint.x,
lastpoint.y,
midpoint.x,
midpoint.y,
midpoint.x,
midpoint.y,
point.x,
point.y,
);
this.curves.push(bezier);
this.quadtree.insert(bezier, this.curves.length - 1);
lastpoint = point;
}
} else if (mode == "smooth") {
let error = 30;
let points = [[this.startx, this.starty]];
for (let curve of this.curves) {
points.push([curve.points[3].x, curve.points[3].y]);
}
this.fromPoints(points, error);
} else if (mode == "verbatim") {
// Just keep existing shape
}
let epsilon = 0.01;
let newCurves = [];
let intersectMap = {};
for (let i = 0; i < this.curves.length - 1; i++) {
// for (let j=i+1; j<this.curves.length; j++) {
for (let j of this.quadtree.query(this.curves[i].bbox())) {
if (i >= j) continue;
let intersects = this.curves[i].intersects(this.curves[j]);
if (intersects.length) {
intersectMap[i] ||= [];
intersectMap[j] ||= [];
for (let intersect of intersects) {
let [t1, t2] = intersect.split("/");
intersectMap[i].push(parseFloat(t1));
intersectMap[j].push(parseFloat(t2));
}
}
}
}
for (let lst in intersectMap) {
for (let i = 1; i < intersectMap[lst].length; i++) {
if (
Math.abs(intersectMap[lst][i] - intersectMap[lst][i - 1]) < epsilon
) {
intersectMap[lst].splice(i, 1);
i--;
}
}
}
for (let i = this.curves.length - 1; i >= 0; i--) {
if (i in intersectMap) {
intersectMap[i].sort().reverse();
let remainingFraction = 1;
let remainingCurve = this.curves[i];
for (let t of intersectMap[i]) {
let split = remainingCurve.split(t / remainingFraction);
remainingFraction = t;
newCurves.push(split.right);
remainingCurve = split.left;
}
newCurves.push(remainingCurve);
} else {
newCurves.push(this.curves[i]);
}
}
for (let curve of newCurves) {
curve.color = context.strokeStyle;
}
newCurves.reverse();
this.curves = newCurves;
}
update() {
this.recalculateBoundingBox();
this.updateVertices();
if (this.curves.length) {
this.startx = this.curves[0].points[0].x;
this.starty = this.curves[0].points[0].y;
}
return [this];
}
getClockwiseCurves(point, otherPoints) {
// Returns array of {x, y, idx, angle}
let points = [];
for (let point of otherPoints) {
points.push({ ...this.vertices[point].point, idx: point });
}
// Add an angle property to each point using tan(angle) = y/x
const angles = points.map(({ x, y, idx }) => {
return {
x,
y,
idx,
angle: (Math.atan2(y - point.y, x - point.x) * 180) / Math.PI,
};
});
// Sort your points by angle
const pointsSorted = angles.sort((a, b) => a.angle - b.angle);
return pointsSorted;
}
translate(x, y) {
this.quadtree.clear()
let j=0;
for (let curve of this.curves) {
for (let i in curve.points) {
const point = curve.points[i];
curve.points[i] = { x: point.x + x, y: point.y + y };
}
this.quadtree.insert(curve, j)
j++;
}
this.update();
}
updateVertices() {
this.vertices = [];
let utils = Bezier.getUtils();
let epsilon = 1.5; // big epsilon whoa
let tooClose;
let i = 0;
let region = {
idx: `${this.idx}-r${this.regionIdx++}`,
curves: [],
fillStyle: context.fillStyle,
filled: context.fillShape,
};
pointerList[region.idx] = region;
this.regions = [region];
for (let curve of this.curves) {
this.regions[0].curves.push(curve);
}
if (this.regions[0].curves.length) {
if (
utils.dist(
this.regions[0].curves[0].points[0],
this.regions[0].curves[this.regions[0].curves.length - 1].points[3],
) < epsilon
) {
this.regions[0].filled = true;
}
}
// Generate vertices
for (let curve of this.curves) {
for (let index of [0, 3]) {
tooClose = false;
for (let vertex of this.vertices) {
if (utils.dist(curve.points[index], vertex.point) < epsilon) {
tooClose = true;
vertex[["startCurves", , , "endCurves"][index]][i] = curve;
break;
}
}
if (!tooClose) {
if (index == 0) {
this.vertices.push({
point: curve.points[index],
startCurves: { [i]: curve },
endCurves: {},
});
} else {
this.vertices.push({
point: curve.points[index],
startCurves: {},
endCurves: { [i]: curve },
});
}
}
}
i++;
}
let shapes = [this];
this.vertices.forEach((vertex, i) => {
for (let i = 0; i < Math.min(10, this.regions.length); i++) {
let region = this.regions[i];
let regionVertexCurves = [];
let vertexCurves = { ...vertex.startCurves, ...vertex.endCurves };
if (Object.keys(vertexCurves).length == 1) {
// endpoint
continue;
} else if (Object.keys(vertexCurves).length == 2) {
// path vertex, don't need to do anything
continue;
} else if (Object.keys(vertexCurves).length == 3) {
// T junction. Region doesn't change but might need to update curves?
// Skip for now.
continue;
} else if (Object.keys(vertexCurves).length == 4) {
// Intersection, split region in 2
for (let i in vertexCurves) {
let curve = vertexCurves[i];
if (region.curves.includes(curve)) {
regionVertexCurves.push(curve);
}
}
let start = region.curves.indexOf(regionVertexCurves[1]);
let end = region.curves.indexOf(regionVertexCurves[3]);
if (end > start) {
let newRegion = {
idx: `${this.idx}-r${this.regionIdx++}`, // TODO: generate this deterministically so that undo/redo works
curves: region.curves.splice(start, end - start),
fillStyle: region.fillStyle,
filled: true,
};
pointerList[newRegion.idx] = newRegion;
this.regions.push(newRegion);
}
} else {
// not sure how to handle vertices with more than 4 curves
console.log(
`Unexpected vertex with ${Object.keys(vertexCurves).length} curves!`,
);
}
}
});
}
}
class GraphicsObject {
constructor(uuid) {
this.x = 0;
this.y = 0;
this.rotation = 0; // in radians
this.scale_x = 1;
this.scale_y = 1;
if (!uuid) {
this.idx = uuidv4();
} else {
this.idx = uuid;
}
pointerList[this.idx] = this;
this.name = this.idx;
this.currentFrameNum = 0;
this.currentLayer = 0;
this.layers = [new Layer(uuid + "-L1")];
this.audioLayers = [];
// this.children = []
this.shapes = [];
}
static fromJSON(json) {
const graphicsObject = new GraphicsObject(json.idx);
graphicsObject.x = json.x;
graphicsObject.y = json.y;
graphicsObject.rotation = json.rotation;
graphicsObject.scale_x = json.scale_x;
graphicsObject.scale_y = json.scale_y;
graphicsObject.name = json.name;
graphicsObject.currentFrameNum = json.currentFrameNum;
graphicsObject.currentLayer = json.currentLayer;
graphicsObject.layers = [];
for (let layer of json.layers) {
graphicsObject.layers.push(Layer.fromJSON(layer));
}
for (let audioLayer of json.audioLayers) {
graphicsObject.audioLayers.push(AudioLayer.fromJSON(audioLayer));
}
return graphicsObject;
}
toJSON(randomizeUuid = false) {
const json = {};
json.type = "GraphicsObject";
json.x = this.x;
json.y = this.y;
json.rotation = this.rotation;
json.scale_x = this.scale_x;
json.scale_y = this.scale_y;
if (randomizeUuid) {
json.idx = uuidv4();
json.name = this.name + " copy";
} else {
json.idx = this.idx;
json.name = this.name;
}
json.currentFrameNum = this.currentFrameNum;
json.currentLayer = this.currentLayer;
json.layers = [];
for (let layer of this.layers) {
json.layers.push(layer.toJSON(randomizeUuid));
}
json.audioLayers = [];
for (let audioLayer of this.audioLayers) {
json.audioLayers.push(audioLayer.toJSON(randomizeUuid));
}
return json;
}
get activeLayer() {
return this.layers[this.currentLayer];
}
get children() {
return this.activeLayer.children;
}
get allLayers() {
return [...this.audioLayers, ...this.layers];
}
get currentFrame() {
return this.getFrame(this.currentFrameNum);
}
get maxFrame() {
return (
Math.max(
...this.layers.map((layer) => {
return (
layer.frames.findLastIndex((frame) => frame !== undefined) || -1
);
}),
) + 1
);
}
advanceFrame() {
this.setFrameNum(this.currentFrameNum + 1);
}
decrementFrame() {
this.setFrameNum(this.currentFrameNum - 1);
}
getFrame(num) {
return this.activeLayer.getFrame(num);
}
setFrameNum(num) {
num = Math.max(0, num);
for (let layer of this.layers) {
this.currentFrameNum = num;
let frame = layer.getFrame(num);
for (let child of this.children) {
let idx = child.idx;
if (idx in frame.keys) {
child.x = frame.keys[idx].x;
child.y = frame.keys[idx].y;
child.rotation = frame.keys[idx].rotation;
child.scale_x = frame.keys[idx].scale_x;
child.scale_y = frame.keys[idx].scale_y;
child.playFromFrame = frame.keys[idx].playFromFrame;
if (
frame.frameType == "keyframe" &&
frame.keys[idx].goToFrame != undefined
) {
// Frames are 1-indexed
child.setFrameNum(frame.keys[idx].goToFrame - 1);
if (child.playFromFrame) {
child.playing = true;
} else {
child.playing = false;
}
} else if (child.playing) {
let lastFrame = 0;
for (let i = num; i >= 0; i--) {
if (
layer.frames[i].frameType == "keyframe" &&
layer.frames[i].keys[idx].playFromFrame
) {
lastFrame = i;
break;
}
}
child.setFrameNum(num - lastFrame);
}
}
}
}
}
bbox() {
let bbox;
for (let layer of this.layers) {
let frame = layer.getFrame(this.currentFrameNum);
if (frame.shapes.length > 0 && bbox == undefined) {
bbox = structuredClone(frame.shapes[0].boundingBox);
}
for (let shape of frame.shapes) {
growBoundingBox(bbox, shape.boundingBox);
}
}
if (this.children.length > 0) {
if (!bbox) {
bbox = structuredClone(this.children[0].bbox());
}
for (let child of this.children) {
growBoundingBox(bbox, child.bbox());
}
}
if (bbox == undefined) {
bbox = { x: { min: 0, max: 0 }, y: { min: 0, max: 0 } };
}
bbox.x.max *= this.scale_x;
bbox.y.max *= this.scale_y;
bbox.x.min += this.x;
bbox.x.max += this.x;
bbox.y.min += this.y;
bbox.y.max += this.y;
return bbox;
}
draw(context, calculateTransform=false) {
let ctx = context.ctx;
ctx.save();
if (calculateTransform) {
this.transformCanvas(ctx)
} else {
ctx.translate(this.x, this.y);
ctx.rotate(this.rotation);
ctx.scale(this.scale_x, this.scale_y);
}
// if (this.currentFrameNum>=this.maxFrame) {
// this.currentFrameNum = 0;
// }
if (
context.activeAction &&
context.activeAction.selection &&
this.idx in context.activeAction.selection
)
return;
for (let layer of this.layers) {
if (context.activeObject == this && !layer.visible) continue;
let frame = layer.getFrame(this.currentFrameNum);
for (let shape of frame.shapes) {
let cxt = {...context}
if (context.shapeselection.indexOf(shape) >= 0) {
cxt.selected = true
}
shape.draw(cxt);
}
for (let child of layer.children) {
if (child == context.activeObject) continue;
let idx = child.idx;
if (idx in frame.keys) {
child.x = frame.keys[idx].x;
child.y = frame.keys[idx].y;
child.rotation = frame.keys[idx].rotation;
child.scale_x = frame.keys[idx].scale_x;
child.scale_y = frame.keys[idx].scale_y;
ctx.save();
child.draw(context);
if (true) {
}
ctx.restore();
}
}
}
if (this == context.activeObject) {
if (context.activeCurve) {
ctx.strokeStyle = "magenta";
ctx.beginPath();
ctx.moveTo(
context.activeCurve.current.points[0].x,
context.activeCurve.current.points[0].y,
);
ctx.bezierCurveTo(
context.activeCurve.current.points[1].x,
context.activeCurve.current.points[1].y,
context.activeCurve.current.points[2].x,
context.activeCurve.current.points[2].y,
context.activeCurve.current.points[3].x,
context.activeCurve.current.points[3].y,
);
ctx.stroke();
}
if (context.activeVertex) {
ctx.save();
ctx.strokeStyle = "#00ffff";
let curves = {
...context.activeVertex.current.startCurves,
...context.activeVertex.current.endCurves,
};
// I don't understand why I can't use a for...of loop here
for (let idx in curves) {
let curve = curves[idx];
ctx.beginPath();
ctx.moveTo(curve.points[0].x, curve.points[0].y);
ctx.bezierCurveTo(
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
);
ctx.stroke();
}
ctx.fillStyle = "#000000aa";
ctx.beginPath();
let vertexSize = 15 / context.zoomLevel;
ctx.rect(
context.activeVertex.current.point.x - vertexSize / 2,
context.activeVertex.current.point.y - vertexSize / 2,
vertexSize,
vertexSize,
);
ctx.fill();
ctx.restore();
}
if (mode == "select") {
for (let item of context.selection) {
if (!item) continue;
if (item.idx in this.currentFrame.keys) {
ctx.save();
ctx.strokeStyle = "#00ffff";
ctx.lineWidth = 1;
ctx.beginPath();
let bbox = getRotatedBoundingBox(item);
ctx.rect(
bbox.x.min,
bbox.y.min,
bbox.x.max - bbox.x.min,
bbox.y.max - bbox.y.min,
);
ctx.stroke();
ctx.restore();
}
}
if (context.selectionRect) {
ctx.save();
ctx.strokeStyle = "#00ffff";
ctx.lineWidth = 1;
ctx.beginPath();
ctx.rect(
context.selectionRect.x1,
context.selectionRect.y1,
context.selectionRect.x2 - context.selectionRect.x1,
context.selectionRect.y2 - context.selectionRect.y1,
);
ctx.stroke();
ctx.restore();
}
} else if (mode == "transform") {
let bbox = undefined;
for (let item of context.selection) {
if (bbox == undefined) {
bbox = getRotatedBoundingBox(item);
} else {
growBoundingBox(bbox, getRotatedBoundingBox(item));
}
}
if (bbox != undefined) {
ctx.save();
ctx.strokeStyle = "#00ffff";
ctx.lineWidth = 1;
ctx.beginPath();
let xdiff = bbox.x.max - bbox.x.min;
let ydiff = bbox.y.max - bbox.y.min;
ctx.rect(bbox.x.min, bbox.y.min, xdiff, ydiff);
ctx.stroke();
ctx.fillStyle = "#000000";
let rectRadius = 5;
for (let i of [
[0, 0],
[0.5, 0],
[1, 0],
[1, 0.5],
[1, 1],
[0.5, 1],
[0, 1],
[0, 0.5],
]) {
ctx.beginPath();
ctx.rect(
bbox.x.min + xdiff * i[0] - rectRadius,
bbox.y.min + ydiff * i[1] - rectRadius,
rectRadius * 2,
rectRadius * 2,
);
ctx.fill();
}
ctx.restore();
}
}
}
ctx.restore();
}
transformCanvas(ctx) {
if (this.parent) {
this.parent.transformCanvas(ctx)
}
ctx.translate(this.x, this.y);
ctx.rotate(this.rotation);
ctx.scale(this.scale_x, this.scale_y);
}
transformMouse(mouse) {
if (this.parent) {
mouse = this.parent.transformMouse(mouse);
}
mouse.x -= this.x;
mouse.y -= this.y;
return mouse;
}
addObject(object, x = 0, y = 0, frame = undefined) {
if (frame == undefined) {
frame = this.currentFrame;
}
this.children.push(object);
object.parent = this;
object.x = x;
object.y = y;
let idx = object.idx;
frame.keys[idx] = {
x: x,
y: y,
rotation: 0,
scale_x: 1,
scale_y: 1,
goToFrame: 1,
};
}
removeChild(childObject) {
let idx = childObject.idx;
for (let layer of this.layers) {
for (let frame of layer.frames) {
delete frame[idx];
}
}
this.children.splice(this.children.indexOf(childObject), 1);
}
addLayer(layer) {
this.layers.push(layer);
}
removeLayer(layer) {
this.layers.splice(this.layers.indexOf(layer), 1);
}
saveState() {
startProps[this.idx] = {
x: this.x,
y: this.y,
rotation: this.rotation,
scale_x: this.scale_x,
scale_y: this.scale_y,
};
}
copy(idx) {
let newGO = new GraphicsObject(idx.slice(0, 8) + this.idx.slice(8));
newGO.x = this.x;
newGO.y = this.y;
newGO.rotation = this.rotation;
newGO.scale_x = this.scale_x;
newGO.scale_y = this.scale_y;
newGO.parent = this.parent;
pointerList[this.idx] = this;
newGO.layers = [];
for (let layer of this.layers) {
newGO.layers.push(layer.copy(idx));
}
for (let audioLayer of this.audioLayers) {
newGO.audioLayers.push(audioLayer.copy(idx));
}
return newGO;
}
}
let root = new GraphicsObject("root");
Object.defineProperty(context, "activeObject", {
get: function () {
return this.objectStack.at(-1);
},
});
context.objectStack = [root];
async function greet() {
// Learn more about Tauri commands at https://tauri.app/develop/calling-rust/
greetMsgEl.textContent = await invoke("greet", { name: greetInputEl.value });
}
window.addEventListener("DOMContentLoaded", () => {
rootPane = document.querySelector("#root");
rootPane.appendChild(createPane(panes.toolbar));
rootPane.addEventListener("mousemove", (e) => {
mouseEvent = e;
});
let [_toolbar, panel] = splitPane(
rootPane,
10,
true,
createPane(panes.timeline),
);
let [stageAndTimeline, _infopanel] = splitPane(
panel,
70,
false,
createPane(panes.infopanel),
);
let [_timeline, _stage] = splitPane(
stageAndTimeline,
30,
false,
createPane(panes.stage),
);
});
window.addEventListener("resize", () => {
updateAll();
});
window.addEventListener("click", function (event) {
const popupMenu = document.getElementById("popupMenu");
// If the menu exists and the click is outside the menu and any button with the class 'paneButton', remove the menu
if (
popupMenu &&
!popupMenu.contains(event.target) &&
!event.target.classList.contains("paneButton")
) {
popupMenu.remove(); // Remove the menu from the DOM
}
});
window.addEventListener("keydown", (e) => {
// let shortcuts = {}
// for (let shortcut of config.shortcuts) {
// shortcut = shortcut.split("+")
// TODO
// }
if (
e.target.tagName === "INPUT" ||
e.target.tagName === "TEXTAREA" ||
e.target.isContentEditable
) {
return; // Do nothing if the event target is an input field, textarea, or contenteditable element
}
// console.log(e);
let mod = macOS ? e.metaKey : e.ctrlKey;
let key = (mod ? "<mod>" : "") + e.key;
switch (key) {
case config.shortcuts.playAnimation:
console.log("Spacebar pressed");
playPause();
break;
case config.shortcuts.selectAll:
e.preventDefault();
break;
// TODO: put these in shortcuts
case "<mod>ArrowRight":
advanceFrame();
e.preventDefault();
break;
case "ArrowRight":
if (context.selection) {
context.activeObject.currentFrame.saveState();
for (let item of context.selection) {
context.activeObject.currentFrame.keys[item.idx].x += 1;
}
actions.editFrame.create(context.activeObject.currentFrame);
updateUI();
}
e.preventDefault();
break;
case "<mod>ArrowLeft":
decrementFrame();
break;
case "ArrowLeft":
if (context.selection) {
context.activeObject.currentFrame.saveState();
for (let item of context.selection) {
context.activeObject.currentFrame.keys[item.idx].x -= 1;
}
actions.editFrame.create(context.activeObject.currentFrame);
updateUI();
}
e.preventDefault();
break;
case "ArrowUp":
if (context.selection) {
context.activeObject.currentFrame.saveState();
for (let item of context.selection) {
context.activeObject.currentFrame.keys[item.idx].y -= 1;
}
actions.editFrame.create(context.activeObject.currentFrame);
updateUI();
}
e.preventDefault();
break;
case "ArrowDown":
if (context.selection) {
context.activeObject.currentFrame.saveState();
for (let item of context.selection) {
context.activeObject.currentFrame.keys[item.idx].y += 1;
}
actions.editFrame.create(context.activeObject.currentFrame);
updateUI();
}
e.preventDefault();
break;
default:
break;
}
});
function playPause() {
playing = !playing;
if (playing) {
for (let audioLayer of context.activeObject.audioLayers) {
if (audioLayer.audible) {
for (let i in audioLayer.sounds) {
let sound = audioLayer.sounds[i];
sound.player.start(
0,
context.activeObject.currentFrameNum / config.framerate,
);
}
}
}
lastFrameTime = performance.now();
advanceFrame();
} else {
for (let audioLayer of context.activeObject.audioLayers) {
for (let i in audioLayer.sounds) {
let sound = audioLayer.sounds[i];
sound.player.stop();
}
}
}
}
function advanceFrame() {
context.activeObject.advanceFrame();
updateLayers();
updateUI();
if (playing) {
if (
context.activeObject.currentFrameNum <
context.activeObject.maxFrame - 1
) {
const now = performance.now();
const elapsedTime = now - lastFrameTime;
// Calculate the time remaining for the next frame
const targetTimePerFrame = 1000 / config.framerate;
const timeToWait = Math.max(0, targetTimePerFrame - elapsedTime);
lastFrameTime = now + timeToWait;
setTimeout(advanceFrame, timeToWait);
} else {
playing = false;
for (let audioLayer of context.activeObject.audioLayers) {
for (let i in audioLayer.sounds) {
let sound = audioLayer.sounds[i];
sound.player.stop();
}
}
}
} else {
updateMenu();
}
}
function decrementFrame() {
context.activeObject.decrementFrame();
updateLayers();
updateMenu();
updateUI();
}
function _newFile(width, height, fps) {
root = new GraphicsObject("root");
context.objectStack = [root];
context.selection = [];
context.shapeselection = [];
config.fileWidth = width;
config.fileHeight = height;
config.framerate = fps;
filePath = undefined;
saveConfig();
undoStack = [];
redoStack = [];
updateUI();
updateLayers();
updateMenu();
}
async function newFile() {
if (
await confirmDialog("Create a new file? Unsaved work will be lost.", {
title: "New file",
kind: "warning",
})
) {
showNewFileDialog(config);
}
}
async function _save(path) {
try {
function replacer(key, value) {
if (key === "parent") {
return undefined; // Avoid circular references
}
return value;
}
for (let action of undoStack) {
console.log(action.name);
}
const fileData = {
version: "1.7",
width: config.fileWidth,
height: config.fileHeight,
fps: config.framerate,
actions: undoStack,
json: root.toJSON(),
};
if (config.debug) {
// Pretty print file structure when debugging
const contents = JSON.stringify(fileData, null, 2);
await writeTextFile(path, contents);
} else {
const contents = JSON.stringify(fileData);
await writeTextFile(path, contents);
}
filePath = path;
addRecentFile(path);
lastSaveIndex = undoStack.length;
updateMenu();
console.log(`${path} saved successfully!`);
} catch (error) {
console.error("Error saving text file:", error);
}
}
async function save() {
if (filePath) {
_save(filePath);
} else {
saveAs();
}
}
async function saveAs() {
const filename = filePath ? await basename(filePath) : "untitled.beam";
const path = await saveFileDialog({
filters: [
{
name: "Lightningbeam files (.beam)",
extensions: ["beam"],
},
],
defaultPath: await join(await documentDir(), filename),
});
if (path != undefined) _save(path);
}
async function _open(path, returnJson = false) {
closeDialog();
try {
const contents = await readTextFile(path);
let file = JSON.parse(contents);
if (file.version == undefined) {
await messageDialog("Could not read file version!", {
title: "Load error",
kind: "error",
});
return;
}
if (file.version >= minFileVersion) {
if (file.version < maxFileVersion) {
if (returnJson) {
if (file.json == undefined) {
await messageDialog(
"Could not import from this file. Re-save it with a current version of Lightningbeam.",
);
}
return file.json;
} else {
_newFile(file.width, file.height, file.fps);
if (file.actions == undefined) {
await messageDialog("File has no content!", {
title: "Parse error",
kind: "error",
});
return;
}
const objectOffsets = {};
const frameIDs = []
for (let action of file.actions) {
if (!(action.name in actions)) {
await messageDialog(
`Invalid action ${action.name}. File may be corrupt.`,
{ title: "Error", kind: "error" },
);
return;
}
console.log(action.name);
// Data fixes
if (file.version <= "1.5") {
// Fix coordinates of objects
if (action.name == "group") {
let bbox;
for (let i of action.action.shapes) {
const shape = pointerList[i];
if (bbox == undefined) {
bbox = shape.bbox();
} else {
growBoundingBox(bbox, shape.bbox());
}
}
for (let i of action.action.objects) {
const object = pointerList[i]; // TODO: rotated bbox
if (bbox == undefined) {
bbox = object.bbox();
} else {
growBoundingBox(bbox, object.bbox());
}
}
const position = {
x: (bbox.x.min + bbox.x.max) / 2,
y: (bbox.y.min + bbox.y.max) / 2,
};
action.action.position = position;
objectOffsets[action.action.groupUuid] = position;
for (let shape of action.action.shapes) {
objectOffsets[shape] = position
}
} else if (action.name == "editFrame") {
for (let key in action.action.newState) {
if (key in objectOffsets) {
action.action.newState[key].x += objectOffsets[key].x;
action.action.newState[key].y += objectOffsets[key].y;
}
}
for (let key in action.action.oldState) {
if (key in objectOffsets) {
action.action.oldState[key].x += objectOffsets[key].x;
action.action.oldState[key].y += objectOffsets[key].y;
}
}
} else if (action.name == "addKeyframe") {
for (let id in objectOffsets) {
objectOffsets[action.action.uuid.slice(0,8) + id.slice(8)] = objectOffsets[id]
}
} else if (action.name == "editShape") {
if (action.action.shape in objectOffsets) {
console.log("editing shape")
for (let curve of action.action.newCurves) {
for (let point of curve.points) {
point.x -= objectOffsets[action.action.shape].x
point.y -= objectOffsets[action.action.shape].y
}
}
for (let curve of action.action.oldCurves) {
for (let point of curve.points) {
point.x -= objectOffsets[action.action.shape].x
point.y -= objectOffsets[action.action.shape].y
}
}
}
}
}
if (file.version <= "1.6") {
// Fix copy-paste
if (action.name == "duplicateObject") {
const obj = pointerList[action.action.object];
const objJson = obj.toJSON(true);
objJson.idx =
action.action.uuid.slice(0, 8) +
action.action.object.slice(8);
action.action.items = [objJson];
action.action.object = "root";
action.action.frame = root.currentFrame.idx;
}
}
await actions[action.name].execute(action.action);
undoStack.push(action);
}
lastSaveIndex = undoStack.length;
filePath = path;
// Tauri thinks it is setting the title here, but it isn't getting updated
await getCurrentWindow().setTitle(await basename(filePath));
addRecentFile(path);
updateUI();
}
} else {
await messageDialog(
`File ${path} was created in a newer version of Lightningbeam and cannot be opened in this version.`,
{ title: "File version mismatch", kind: "error" },
);
}
} else {
await messageDialog(
`File ${path} is too old to be opened in this version of Lightningbeam.`,
{ title: "File version mismatch", kind: "error" },
);
}
} catch (e) {
console.log(e);
if (e instanceof SyntaxError) {
await messageDialog(`Could not parse ${path}, ${e.message}`, {
title: "Error",
kind: "error",
});
} else if (
e instanceof String &&
e.startsWith("failed to read file as text")
) {
await messageDialog(
`Could not parse ${path}, is it actually a Lightningbeam file?`,
{ title: "Error", kind: "error" },
);
} else {
console.error(e);
}
}
}
async function open() {
const path = await openFileDialog({
multiple: false,
directory: false,
filters: [
{
name: "Lightningbeam files (.beam)",
extensions: ["beam"],
},
],
defaultPath: await documentDir(),
});
console.log(path);
if (path) {
_open(path);
}
}
function revert() {
for (let _ = 0; undoStack.length > lastSaveIndex; _++) {
undo();
}
}
async function importFile() {
const path = await openFileDialog({
multiple: false,
directory: false,
filters: [
{
name: "Image files",
extensions: ["png", "gif", "avif", "jpg", "jpeg"],
},
{
name: "Audio files",
extensions: ["mp3"],
},
{
name: "Lightningbeam files",
extensions: ["beam"],
},
],
defaultPath: await documentDir(),
title: "Import File",
});
const imageMimeTypes = [
"image/jpeg", // JPEG
"image/png", // PNG
"image/gif", // GIF
"image/webp", // WebP
// "image/svg+xml",// SVG
"image/bmp", // BMP
// "image/tiff", // TIFF
// "image/x-icon", // ICO
// "image/heif", // HEIF
// "image/avif" // AVIF
];
const audioMimeTypes = [
"audio/mpeg", // MP3
// "audio/wav", // WAV
// "audio/ogg", // OGG
// "audio/webm", // WebM
// "audio/aac", // AAC
// "audio/flac", // FLAC
// "audio/midi", // MIDI
// "audio/x-wav", // X-WAV (older WAV files)
// "audio/opus" // Opus
];
if (path) {
const filename = await basename(path);
if (getFileExtension(filename) == "beam") {
function reassignIdxs(json) {
if (json.idx in pointerList) {
json.idx = uuidv4();
}
deeploop(json, (key, item) => {
if (item.idx in pointerList) {
item.idx = uuidv4();
}
});
}
function assignUUIDs(obj, existing) {
const uuidCache = {}; // Cache to store UUIDs for existing values
function deepAssign(obj) {
for (const [key, value] of Object.entries(obj)) {
if (typeof value === "object" && value !== null) {
// Recurse for nested objects
deepAssign(value);
} else if (value in existing && key != "name") {
// If the value is in the "existing" list, assign a UUID
if (!uuidCache[value]) {
uuidCache[value] = uuidv4(); // Store the generated UUID for the value
}
obj[key] = uuidCache[value]; // Assign the UUID to the object property
} else if (key in existing) {
// If the value is in the "existing" list, assign a UUID
if (!uuidCache[key]) {
uuidCache[key] = uuidv4(); // Store the generated UUID for the value
}
obj[key] = uuidCache[key]; // Assign the UUID to the object property
}
}
}
// Start the recursion with the provided object
deepAssign(obj);
return obj; // Return the updated object
}
const json = await _open(path, true);
if (json == undefined) return;
assignUUIDs(json, pointerList);
createModal(outliner, json, (object) => {
actions.importObject.create(object);
});
updateOutliner();
} else {
const { dataURL, mimeType } = await convertToDataURL(
path,
imageMimeTypes.concat(audioMimeTypes),
);
if (imageMimeTypes.indexOf(mimeType) != -1) {
actions.addImageObject.create(50, 50, dataURL, 0, context.activeObject);
} else {
actions.addAudio.create(dataURL, context.activeObject, filename);
}
}
}
}
async function quit() {
if (undoStack.length > lastSaveIndex) {
if (
await confirmDialog("Are you sure you want to quit?", {
title: "Really quit?",
kind: "warning",
})
) {
getCurrentWindow().close();
}
} else {
getCurrentWindow().close();
}
}
function copy() {
clipboard = [];
for (let object of context.selection) {
clipboard.push(object.toJSON(true));
}
for (let shape of context.shapeselection) {
clipboard.push(shape.toJSON(true));
}
}
function paste() {
// for (let item of clipboard) {
// if (item instanceof GraphicsObject) {
// console.log(item);
// // context.activeObject.addObject(item.copy())
// actions.duplicateObject.create(item);
// }
// }
actions.duplicateObject.create(clipboard);
updateUI();
}
function delete_action() {
if (context.selection.length || context.shapeselection.length) {
actions.deleteObjects.create(context.selection, context.shapeselection);
context.selection = [];
}
updateUI();
}
function addFrame() {
if (
context.activeObject.currentFrameNum >=
context.activeObject.activeLayer.frames.length
) {
actions.addFrame.create();
}
}
function addKeyframe() {
actions.addKeyframe.create();
}
function deleteFrame() {
let frame = context.activeObject.currentFrame;
let layer = context.activeObject.activeLayer;
if (frame) {
actions.deleteFrame.create(frame, layer);
}
}
async function about() {
messageDialog(
`Lightningbeam version ${await getVersion()}\nDeveloped by Skyler Lehmkuhl`,
{ title: "About", kind: "info" },
);
}
async function render() {
document.querySelector("body").style.cursor = "wait";
const path = await saveFileDialog({
filters: [
{
name: "APNG files (.png)",
extensions: ["png"],
},
{
name: "Packed HTML player (.html)",
extensions: ["html"],
},
],
defaultPath: await join(await documentDir(), "untitled.png"),
});
if (path != undefined) {
// SVG balks on images
// let ctx = new C2S(fileWidth, fileHeight)
// context.ctx = ctx
// root.draw(context)
// let serializedSVG = ctx.getSerializedSvg()
// await writeTextFile(path, serializedSVG)
// fileExportPath = path
// console.log("wrote SVG")
const ext = path.split(".").pop().toLowerCase();
switch (ext) {
case "html":
fetch("/player.html")
.then((response) => {
if (!response.ok) {
throw new Error("Network response was not ok");
}
return response.text(); // Read the response body as a string
})
.then((data) => {
// TODO: strip out the stuff tauri injects
let json = JSON.stringify({
fileWidth: config.fileWidth,
fileHeight: config.fileHeight,
root: root.toJSON(),
});
data = data.replace('"${file}"', json);
console.log(data); // The content of the file as a string
})
.catch((error) => {
// TODO: alert
console.error(
"There was a problem with the fetch operation:",
error,
);
});
break;
case "png":
const frames = [];
const canvas = document.createElement("canvas");
canvas.width = config.fileWidth; // Set desired width
canvas.height = config.fileHeight; // Set desired height
let exportContext = {
...context,
ctx: canvas.getContext("2d"),
selectionRect: undefined,
selection: [],
shapeselection: [],
};
for (let i = 0; i < root.maxFrame; i++) {
root.currentFrameNum = i;
exportContext.ctx.fillStyle = "white";
exportContext.ctx.rect(0, 0, config.fileWidth, config.fileHeight);
exportContext.ctx.fill();
await root.draw(exportContext);
// Convert the canvas content to a PNG image (this is the "frame" we add to the APNG)
const imageData = exportContext.ctx.getImageData(
0,
0,
canvas.width,
canvas.height,
);
// Step 2: Create a frame buffer (Uint8Array) from the image data
const frameBuffer = new Uint8Array(imageData.data.buffer);
frames.push(frameBuffer); // Add the frame buffer to the frames array
}
// Step 3: Use UPNG.js to create the animated PNG
const apng = UPNG.encode(
frames,
canvas.width,
canvas.height,
0,
parseInt(100 / config.framerate),
);
// Step 4: Save the APNG file (in Tauri, use writeFile or in the browser, download it)
const apngBlob = new Blob([apng], { type: "image/png" });
// If you're using Tauri:
await writeFile(
path, // The destination file path for saving
new Uint8Array(await apngBlob.arrayBuffer()),
);
break;
}
}
document.querySelector("body").style.cursor = "default";
}
function updateScrollPosition(zoomFactor) {
if (context.mousePos) {
for (let canvas of canvases) {
canvas.offsetX =
(canvas.offsetX + context.mousePos.x) * zoomFactor - context.mousePos.x;
canvas.offsetY =
(canvas.offsetY + context.mousePos.y) * zoomFactor - context.mousePos.y;
}
}
}
function zoomIn() {
let zoomFactor = 2;
if (context.zoomLevel < 8) {
context.zoomLevel *= zoomFactor;
updateScrollPosition(zoomFactor);
updateUI();
updateMenu();
}
}
function zoomOut() {
let zoomFactor = 0.5;
if (context.zoomLevel > 1 / 8) {
context.zoomLevel *= zoomFactor;
updateScrollPosition(zoomFactor);
updateUI();
updateMenu();
}
}
function resetZoom() {
context.zoomLevel = 1;
for (let canvas of canvases) {
canvas.offsetX = canvas.offsetY = 0;
}
updateUI();
updateMenu();
}
function stage() {
let stage = document.createElement("canvas");
// let scroller = document.createElement("div")
// let stageWrapper = document.createElement("div")
stage.className = "stage";
// stage.width = config.fileWidth
// stage.height = config.fileHeight
stage.offsetX = 0;
stage.offsetY = 0;
let lastResizeTime = 0;
const throttleIntervalMs = 20;
function updateStageCanvasSize() {
const canvasStyles = window.getComputedStyle(stage);
stage.width = parseInt(canvasStyles.width);
stage.height = parseInt(canvasStyles.height);
updateUI();
renderAll();
}
const resizeObserver = new ResizeObserver(() => {
const currentTime = Date.now();
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateStageCanvasSize();
}
});
resizeObserver.observe(stage);
updateStageCanvasSize();
stage.addEventListener("wheel", (event) => {
event.preventDefault();
const deltaX = event.deltaX * config.scrollSpeed;
const deltaY = event.deltaY * config.scrollSpeed;
stage.offsetX += deltaX;
stage.offsetY += deltaY;
const currentTime = Date.now();
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateUI();
}
});
// scroller.className = "scroll"
// stageWrapper.className = "stageWrapper"
// let selectionRect = document.createElement("div")
// selectionRect.className = "selectionRect"
// for (let i of ["nw", "ne", "se", "sw"]) {
// let cornerRotateRect = document.createElement("div")
// cornerRotateRect.classList.add("cornerRotateRect")
// cornerRotateRect.classList.add(i)
// cornerRotateRect.addEventListener('mouseup', (e) => {
// const newEvent = new MouseEvent(e.type, e);
// stage.dispatchEvent(newEvent)
// })
// cornerRotateRect.addEventListener('mousemove', (e) => {
// const newEvent = new MouseEvent(e.type, e);
// stage.dispatchEvent(newEvent)
// })
// selectionRect.appendChild(cornerRotateRect)
// }
// for (let i of ["nw", "n", "ne", "e", "se", "s", "sw", "w"]) {
// let cornerRect = document.createElement("div")
// cornerRect.classList.add("cornerRect")
// cornerRect.classList.add(i)
// cornerRect.addEventListener('mousedown', (e) => {
// let bbox = undefined;
// let selection = {}
// for (let item of context.selection) {
// if (bbox==undefined) {
// bbox = structuredClone(item.bbox())
// } else {
// growBoundingBox(bbox, item.bbox())
// }
// selection[item.idx] = {x: item.x, y: item.y, scale_x: item.scale_x, scale_y: item.scale_y}
// }
// if (bbox != undefined) {
// context.dragDirection = i
// context.activeTransform = {
// initial: {
// x: {min: bbox.x.min, max: bbox.x.max},
// y: {min: bbox.y.min, max: bbox.y.max},
// selection: selection
// },
// current: {
// x: {min: bbox.x.min, max: bbox.x.max},
// y: {min: bbox.y.min, max: bbox.y.max},
// selection: structuredClone(selection)
// }
// }
// context.activeObject.currentFrame.saveState()
// }
// })
// cornerRect.addEventListener('mouseup', (e) => {
// const newEvent = new MouseEvent(e.type, e);
// stage.dispatchEvent(newEvent)
// })
// cornerRect.addEventListener('mousemove', (e) => {
// const newEvent = new MouseEvent(e.type, e);
// stage.dispatchEvent(newEvent)
// })
// selectionRect.appendChild(cornerRect)
// }
stage.addEventListener("drop", (e) => {
e.preventDefault();
let mouse = getMousePos(stage, e);
const imageTypes = [
"image/png",
"image/gif",
"image/avif",
"image/jpeg",
"image/webp", //'image/svg+xml' // Disabling SVG until we can export them nicely
];
const audioTypes = ["audio/mpeg"]; // TODO: figure out what other audio formats Tone.js accepts
if (e.dataTransfer.items) {
let i = 0;
for (let item of e.dataTransfer.items) {
if (item.kind == "file") {
let file = item.getAsFile();
if (imageTypes.includes(file.type)) {
let img = new Image();
let reader = new FileReader();
// Read the file as a data URL
reader.readAsDataURL(file);
reader.ix = i;
reader.onload = function (event) {
let imgsrc = event.target.result; // This is the data URL
actions.addImageObject.create(
mouse.x,
mouse.y,
imgsrc,
reader.ix,
context.activeObject,
);
};
reader.onerror = function (error) {
console.error("Error reading file as data URL", error);
};
} else if (audioTypes.includes(file.type)) {
let reader = new FileReader();
// Read the file as a data URL
reader.readAsDataURL(file);
reader.onload = function (event) {
let audiosrc = event.target.result;
actions.addAudio.create(
audiosrc,
context.activeObject,
file.name,
);
};
}
i++;
}
}
} else {
}
});
stage.addEventListener("dragover", (e) => {
e.preventDefault();
});
canvases.push(stage);
// stageWrapper.appendChild(stage)
// stageWrapper.appendChild(selectionRect)
// scroller.appendChild(stageWrapper)
stage.addEventListener("mousedown", (e) => {
let mouse = getMousePos(stage, e);
mouse = context.activeObject.transformMouse(mouse);
let selection;
if (!context.activeObject.currentFrame?.exists) return;
switch (mode) {
case "rectangle":
case "ellipse":
case "draw":
context.mouseDown = true;
context.activeShape = new Shape(mouse.x, mouse.y, context, uuidv4());
context.lastMouse = mouse;
break;
case "select":
if (context.activeObject.currentFrame.frameType != "keyframe") break;
selection = selectVertex(context, mouse);
if (selection) {
context.dragging = true;
context.activeCurve = undefined;
context.activeVertex = {
current: {
point: {
x: selection.vertex.point.x,
y: selection.vertex.point.y,
},
startCurves: structuredClone(selection.vertex.startCurves),
endCurves: structuredClone(selection.vertex.endCurves),
},
initial: selection.vertex,
shape: selection.shape,
startmouse: { x: mouse.x, y: mouse.y },
};
} else {
selection = selectCurve(context, mouse);
if (selection) {
context.dragging = true;
context.activeVertex = undefined;
context.activeCurve = {
initial: selection.curve,
current: new Bezier(selection.curve.points).setColor(
selection.curve.color,
),
shape: selection.shape,
startmouse: { x: mouse.x, y: mouse.y },
};
} else {
let selected = false;
let child;
if (context.selection.length) {
for (child of context.selection) {
if (hitTest(mouse, child)) {
context.dragging = true;
context.lastMouse = mouse;
context.activeAction = actions.editFrame.initialize(
context.activeObject.currentFrame,
);
break;
}
}
}
if (!context.dragging) {
// Have to iterate in reverse order to grab the frontmost object when two overlap
for (
let i = context.activeObject.children.length - 1;
i >= 0;
i--
) {
child = context.activeObject.children[i];
if (!(child.idx in context.activeObject.currentFrame.keys))
continue;
// let bbox = child.bbox()
if (hitTest(mouse, child)) {
if (context.selection.indexOf(child) != -1) {
// dragging = true
}
child.saveState();
if (e.shiftKey) {
context.selection.push(child);
} else {
context.selection = [child];
}
context.dragging = true;
selected = true;
context.activeAction = actions.editFrame.initialize(
context.activeObject.currentFrame,
);
break;
}
}
if (!selected) {
context.oldselection = context.selection;
context.oldshapeselection = context.shapeselection;
context.selection = [];
context.shapeselection = [];
if (
context.oldselection.length ||
context.oldshapeselection.length
) {
actions.select.create();
}
context.oldselection = context.selection;
context.oldshapeselection = context.selection;
context.selectionRect = {
x1: mouse.x,
x2: mouse.x,
y1: mouse.y,
y2: mouse.y,
};
}
}
}
}
break;
case "transform":
let bbox = undefined;
selection = {};
for (let item of context.selection) {
if (bbox == undefined) {
bbox = getRotatedBoundingBox(item);
} else {
growBoundingBox(bbox, getRotatedBoundingBox(item));
}
selection[item.idx] = {
x: item.x,
y: item.y,
scale_x: item.scale_x,
scale_y: item.scale_y,
rotation: item.rotation,
};
}
let transformPoint = getPointNearBox(bbox, mouse, 10);
if (transformPoint) {
context.dragDirection = transformPoint;
context.activeTransform = {
initial: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
rotation: 0,
selection: selection,
},
current: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
rotation: 0,
selection: structuredClone(selection),
},
};
context.activeAction = actions.transformObjects.initialize(
context.activeObject.currentFrame,
context.selection,
transformPoint,
mouse,
);
} else {
transformPoint = getPointNearBox(bbox, mouse, 30, false);
if (transformPoint) {
stage.style.cursor = `url("data:image/svg+xml,%3Csvg xmlns='http://www.w3.org/2000/svg' width='24' height='24' fill='currentColor' class='bi bi-arrow-counterclockwise' viewBox='0 0 16 16'%3E%3Cpath fill-rule='evenodd' d='M8 3a5 5 0 1 1-4.546 2.914.5.5 0 0 0-.908-.417A6 6 0 1 0 8 2z'/%3E%3Cpath d='M8 4.466V.534a.25.25 0 0 0-.41-.192L5.23 2.308a.25.25 0 0 0 0 .384l2.36 1.966A.25.25 0 0 0 8 4.466'/%3E%3C/svg%3E") 12 12, auto`;
context.dragDirection = "r";
context.activeTransform = {
initial: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
rotation: 0,
mouse: { x: mouse.x, y: mouse.y },
selection: selection,
},
current: {
x: { min: bbox.x.min, max: bbox.x.max },
y: { min: bbox.y.min, max: bbox.y.max },
rotation: 0,
mouse: { x: mouse.x, y: mouse.y },
selection: structuredClone(selection),
},
};
context.activeAction = actions.transformObjects.initialize(
context.activeObject.currentFrame,
context.selection,
"r",
mouse,
);
} else {
stage.style.cursor = "default";
}
}
break;
case "paint_bucket":
let line = { p1: mouse, p2: { x: mouse.x + 3000, y: mouse.y } };
debugCurves = [];
debugPoints = [];
let epsilon = context.fillGaps;
let min_x = Infinity;
let curveB = undefined;
let point = undefined;
let regionPoints;
// First, see if there's an existing shape to change the color of
const startTime = performance.now();
let pointShape = getShapeAtPoint(
mouse,
context.activeObject.currentFrame.shapes,
);
const endTime = performance.now();
console.log(
`getShapeAtPoint took ${endTime - startTime} milliseconds.`,
);
if (pointShape) {
actions.colorShape.create(pointShape, context.fillStyle);
break;
}
// We didn't find an existing region to paintbucket, see if we can make one
const offset = context.activeObject.transformMouse({x:0, y:0})
try {
regionPoints = floodFillRegion(
mouse,
epsilon,
offset,
config.fileWidth,
config.fileHeight,
context,
debugPoints,
debugPaintbucket,
);
} catch (e) {
updateUI();
throw e;
}
if (regionPoints.length > 0 && regionPoints.length < 10) {
// probably a very small area, rerun with minimum epsilon
regionPoints = floodFillRegion(
mouse,
1,
offset,
config.fileWidth,
config.fileHeight,
context,
debugPoints,
);
}
let points = [];
for (let point of regionPoints) {
points.push([point.x, point.y]);
}
let cxt = {
...context,
fillShape: true,
strokeShape: false,
sendToBack: true,
};
let shape = new Shape(regionPoints[0].x, regionPoints[0].y, cxt);
shape.fromPoints(points, 1);
actions.addShape.create(context.activeObject, shape, cxt);
break;
// Loop labels in JS!
// Iterate in reverse so we paintbucket the frontmost shape
shapeLoop: for (
let i = context.activeObject.currentFrame.shapes.length - 1;
i >= 0;
i--
) {
let shape = context.activeObject.currentFrame.shapes[i];
// for (let region of shape.regions) {
let intersect_count = 0;
for (let curve of shape.curves) {
intersect_count += curve.intersects(line).length;
}
if (intersect_count % 2 == 1) {
actions.colorShape.create(shape, context.fillStyle);
break shapeLoop;
}
// }
}
break;
case "eyedropper":
const ctx = stage.getContext("2d")
const imageData = ctx.getImageData(mouse.x, mouse.y, 1, 1); // Get pixel at (x, y)
const data = imageData.data; // The pixel data is in the `data` array
const hsv = rgbToHsv(...data)
if (context.dropperColor == "Fill color") {
for (let el of document.querySelectorAll(".color-field.fill")) {
el.setColor(hsv, 'ff')
}
} else {
for (let el of document.querySelectorAll(".color-field.stroke")) {
el.setColor(hsv, 'ff')
}
}
break;
default:
break;
}
context.lastMouse = mouse;
updateUI();
updateInfopanel();
});
stage.mouseup = (e) => {
context.mouseDown = false;
context.dragging = false;
context.dragDirection = undefined;
context.selectionRect = undefined;
if (!context.activeObject.currentFrame?.exists) return;
let mouse = getMousePos(stage, e);
mouse = context.activeObject.transformMouse(mouse);
switch (mode) {
case "draw":
if (context.activeShape) {
context.activeShape.addLine(mouse.x, mouse.y);
context.activeShape.simplify(context.simplifyMode);
actions.addShape.create(context.activeObject, context.activeShape);
context.activeShape = undefined;
}
break;
case "rectangle":
case "ellipse":
actions.addShape.create(context.activeObject, context.activeShape);
context.activeShape = undefined;
break;
case "select":
if (context.activeAction) {
actions[context.activeAction.type].finalize(
context.activeAction,
context.activeObject.currentFrame,
);
} else if (context.activeVertex) {
let newCurves = [];
for (let i in context.activeVertex.shape.curves) {
if (i in context.activeVertex.current.startCurves) {
newCurves.push(context.activeVertex.current.startCurves[i]);
} else if (i in context.activeVertex.current.endCurves) {
newCurves.push(context.activeVertex.current.endCurves[i]);
} else {
newCurves.push(context.activeVertex.shape.curves[i]);
}
}
actions.editShape.create(context.activeVertex.shape, newCurves);
} else if (context.activeCurve) {
let newCurves = [];
for (let curve of context.activeCurve.shape.curves) {
if (curve == context.activeCurve.initial) {
newCurves.push(context.activeCurve.current);
} else {
newCurves.push(curve);
}
}
actions.editShape.create(context.activeCurve.shape, newCurves);
} else if (context.selection.length) {
actions.select.create();
// actions.editFrame.create(context.activeObject.currentFrame)
} else if (context.shapeselection.length) {
actions.select.create();
}
break;
case "transform":
if (context.activeAction) {
actions[context.activeAction.type].finalize(
context.activeAction,
context.activeObject.currentFrame,
);
}
// actions.editFrame.create(context.activeObject.currentFrame)
break;
default:
break;
}
context.lastMouse = mouse;
context.activeCurve = undefined;
updateUI();
updateMenu();
updateInfopanel();
};
stage.addEventListener("mouseup", stage.mouseup);
stage.addEventListener("mousemove", (e) => {
let mouse = getMousePos(stage, e);
mouse = context.activeObject.transformMouse(mouse);
context.mousePos = mouse;
// if mouse is released, even if it happened outside the stage
if (
e.buttons == 0 &&
(context.mouseDown ||
context.dragging ||
context.dragDirection ||
context.selectionRect)
) {
stage.mouseup(e);
return;
}
if (!context.activeObject.currentFrame?.exists) return;
switch (mode) {
case "draw":
stage.style.cursor = "default";
context.activeCurve = undefined;
if (context.activeShape) {
if (vectorDist(mouse, context.lastMouse) > minSegmentSize) {
context.activeShape.addLine(mouse.x, mouse.y);
context.lastMouse = mouse;
}
}
break;
case "rectangle":
stage.style.cursor = "default";
context.activeCurve = undefined;
if (context.activeShape) {
context.activeShape.clear();
context.activeShape.addLine(mouse.x, context.activeShape.starty);
context.activeShape.addLine(mouse.x, mouse.y);
context.activeShape.addLine(context.activeShape.startx, mouse.y);
context.activeShape.addLine(
context.activeShape.startx,
context.activeShape.starty,
);
context.activeShape.update();
}
break;
case "ellipse":
stage.style.cursor = "default";
context.activeCurve = undefined;
if (context.activeShape) {
let midX = (mouse.x + context.activeShape.startx) / 2;
let midY = (mouse.y + context.activeShape.starty) / 2;
let xDiff = (mouse.x - context.activeShape.startx) / 2;
let yDiff = (mouse.y - context.activeShape.starty) / 2;
let ellipseConst = 0.552284749831; // (4/3)*tan(pi/(2n)) where n=4
context.activeShape.clear();
context.activeShape.addCurve(
new Bezier(
midX,
context.activeShape.starty,
midX + ellipseConst * xDiff,
context.activeShape.starty,
mouse.x,
midY - ellipseConst * yDiff,
mouse.x,
midY,
),
);
context.activeShape.addCurve(
new Bezier(
mouse.x,
midY,
mouse.x,
midY + ellipseConst * yDiff,
midX + ellipseConst * xDiff,
mouse.y,
midX,
mouse.y,
),
);
context.activeShape.addCurve(
new Bezier(
midX,
mouse.y,
midX - ellipseConst * xDiff,
mouse.y,
context.activeShape.startx,
midY + ellipseConst * yDiff,
context.activeShape.startx,
midY,
),
);
context.activeShape.addCurve(
new Bezier(
context.activeShape.startx,
midY,
context.activeShape.startx,
midY - ellipseConst * yDiff,
midX - ellipseConst * xDiff,
context.activeShape.starty,
midX,
context.activeShape.starty,
),
);
}
break;
case "select":
stage.style.cursor = "default";
if (context.dragging) {
if (context.activeVertex) {
let vert = context.activeVertex;
let mouseDelta = {
x: mouse.x - vert.startmouse.x,
y: mouse.y - vert.startmouse.y,
};
vert.current.point.x = vert.initial.point.x + mouseDelta.x;
vert.current.point.y = vert.initial.point.y + mouseDelta.y;
for (let i in vert.current.startCurves) {
let curve = vert.current.startCurves[i];
let oldCurve = vert.initial.startCurves[i];
curve.points[0] = vert.current.point;
curve.points[1] = {
x: oldCurve.points[1].x + mouseDelta.x,
y: oldCurve.points[1].y + mouseDelta.y,
};
}
for (let i in vert.current.endCurves) {
let curve = vert.current.endCurves[i];
let oldCurve = vert.initial.endCurves[i];
curve.points[3] = {
x: vert.current.point.x,
y: vert.current.point.y,
};
curve.points[2] = {
x: oldCurve.points[2].x + mouseDelta.x,
y: oldCurve.points[2].y + mouseDelta.y,
};
}
} else if (context.activeCurve) {
context.activeCurve.current.points = moldCurve(
context.activeCurve.initial,
mouse,
context.activeCurve.startmouse,
).points;
} else {
for (let child of context.selection) {
context.activeObject.currentFrame.keys[child.idx].x +=
mouse.x - context.lastMouse.x;
context.activeObject.currentFrame.keys[child.idx].y +=
mouse.y - context.lastMouse.y;
}
}
} else if (context.selectionRect) {
context.selectionRect.x2 = mouse.x;
context.selectionRect.y2 = mouse.y;
context.selection = [];
context.shapeselection = [];
for (let child of context.activeObject.children) {
if (hitTest(regionToBbox(context.selectionRect), child)) {
context.selection.push(child);
}
}
for (let shape of context.activeObject.currentFrame.shapes) {
if (hitTest(regionToBbox(context.selectionRect), shape)) {
context.shapeselection.push(shape);
}
}
} else {
let selection = selectVertex(context, mouse);
if (selection) {
context.activeCurve = undefined;
context.activeVertex = {
current: selection.vertex,
initial: {
point: {
x: selection.vertex.point.x,
y: selection.vertex.point.y,
},
startCurves: structuredClone(selection.vertex.startCurves),
endCurves: structuredClone(selection.vertex.endCurves),
},
shape: selection.shape,
startmouse: { x: mouse.x, y: mouse.y },
};
} else {
context.activeVertex = undefined;
selection = selectCurve(context, mouse);
if (selection) {
context.activeCurve = {
current: selection.curve,
initial: new Bezier(selection.curve.points).setColor(
selection.curve.color,
),
shape: selection.shape,
startmouse: mouse,
};
} else {
context.activeCurve = undefined;
}
}
}
context.lastMouse = mouse;
break;
case "transform":
// stage.style.cursor = "nw-resize"
let bbox = undefined;
for (let item of context.selection) {
if (bbox == undefined) {
bbox = getRotatedBoundingBox(item);
} else {
growBoundingBox(bbox, getRotatedBoundingBox(item));
}
}
if (bbox == undefined) break;
let point = getPointNearBox(bbox, mouse, 10);
if (point) {
stage.style.cursor = `${point}-resize`;
} else {
point = getPointNearBox(bbox, mouse, 30, false);
if (point) {
stage.style.cursor = `url("data:image/svg+xml,%3Csvg xmlns='http://www.w3.org/2000/svg' width='24' height='24' fill='currentColor' class='bi bi-arrow-counterclockwise' viewBox='0 0 16 16'%3E%3Cpath fill-rule='evenodd' d='M8 3a5 5 0 1 1-4.546 2.914.5.5 0 0 0-.908-.417A6 6 0 1 0 8 2z'/%3E%3Cpath d='M8 4.466V.534a.25.25 0 0 0-.41-.192L5.23 2.308a.25.25 0 0 0 0 .384l2.36 1.966A.25.25 0 0 0 8 4.466'/%3E%3C/svg%3E") 12 12, auto`;
} else {
stage.style.cursor = "default";
}
}
// if (context.dragDirection) {
// let initial = context.activeTransform.initial
// let current = context.activeTransform.current
// let initialSelection = context.activeTransform.initial.selection
// if (context.dragDirection.indexOf('n') != -1) {
// current.y.min = mouse.y
// } else if (context.dragDirection.indexOf('s') != -1) {
// current.y.max = mouse.y
// }
// if (context.dragDirection.indexOf('w') != -1) {
// current.x.min = mouse.x
// } else if (context.dragDirection.indexOf('e') != -1) {
// current.x.max = mouse.x
// }
// // Calculate the translation difference between current and initial values
// let delta_x = current.x.min - initial.x.min;
// let delta_y = current.y.min - initial.y.min;
// if (context.dragDirection == 'r') {
// let pivot = {
// x: (initial.x.min+initial.x.max)/2,
// y: (initial.y.min+initial.y.max)/2,
// }
// current.rotation = signedAngleBetweenVectors(pivot, initial.mouse, mouse)
// const {dx, dy} = rotateAroundPointIncremental(current.x.min, current.y.min, pivot, current.rotation)
// // delta_x -= dx
// // delta_y -= dy
// // console.log(dx, dy)
// }
// // This is probably unnecessary since initial rotation is 0
// const delta_rot = current.rotation - initial.rotation
// // Calculate the scaling factor based on the difference between current and initial values
// const scale_x_ratio = (current.x.max - current.x.min) / (initial.x.max - initial.x.min);
// const scale_y_ratio = (current.y.max - current.y.min) / (initial.y.max - initial.y.min);
// for (let idx in initialSelection) {
// let item = context.activeObject.currentFrame.keys[idx]
// let xoffset = initialSelection[idx].x - initial.x.min
// let yoffset = initialSelection[idx].y - initial.y.min
// item.x = initial.x.min + delta_x + xoffset * scale_x_ratio
// item.y = initial.y.min + delta_y + yoffset * scale_y_ratio
// item.scale_x = initialSelection[idx].scale_x * scale_x_ratio
// item.scale_y = initialSelection[idx].scale_y * scale_y_ratio
// item.rotation = initialSelection[idx].rotation + delta_rot
// }
// }
if (context.activeAction) {
actions[context.activeAction.type].update(
context.activeAction,
mouse,
);
}
break;
default:
break;
}
updateUI();
});
stage.addEventListener("dblclick", (e) => {
context.mouseDown = false;
context.dragging = false;
context.dragDirection = undefined;
context.selectionRect = undefined;
let mouse = getMousePos(stage, e);
mouse = context.activeObject.transformMouse(mouse);
modeswitcher: switch (mode) {
case "select":
for (let i = context.activeObject.children.length - 1; i >= 0; i--) {
let child = context.activeObject.children[i];
if (!(child.idx in context.activeObject.currentFrame.keys)) continue;
if (hitTest(mouse, child)) {
context.objectStack.push(child);
context.selection = [];
context.shapeselection = [];
updateUI();
updateLayers();
updateMenu();
updateInfopanel();
break modeswitcher;
}
}
// we didn't click on a child, go up a level
if (context.activeObject.parent) {
context.selection = [context.activeObject];
context.activeObject.currentFrameNum = 0;
context.shapeselection = [];
context.objectStack.pop();
updateUI();
updateLayers();
updateMenu();
updateInfopanel();
}
break;
default:
break;
}
});
return stage;
}
function toolbar() {
let tools_scroller = document.createElement("div");
tools_scroller.className = "toolbar";
for (let tool in tools) {
let toolbtn = document.createElement("button");
toolbtn.className = "toolbtn";
let icon = document.createElement("img");
icon.className = "icon";
icon.src = tools[tool].icon;
toolbtn.appendChild(icon);
tools_scroller.appendChild(toolbtn);
toolbtn.addEventListener("click", () => {
mode = tool;
updateInfopanel();
updateUI();
console.log(`Switched tool to ${tool}`);
});
}
let tools_break = document.createElement("div");
tools_break.className = "horiz_break";
tools_scroller.appendChild(tools_break);
let fillColor = document.createElement("div");
let strokeColor = document.createElement("div");
fillColor.className = "color-field";
strokeColor.className = "color-field";
fillColor.classList.add("fill")
strokeColor.classList.add("stroke")
fillColor.setColor = (hsv, alpha) => {
const rgb = hsvToRgb(...hsv)
const color = rgbToHex(rgb.r, rgb.g, rgb.b) + alpha
fillColor.style.setProperty("--color", color);
fillColor.color = color;
fillColor.hsv = hsv
fillColor.alpha = alpha
context.fillStyle = color;
};
strokeColor.setColor = (hsv, alpha) => {
const rgb = hsvToRgb(...hsv)
const color = rgbToHex(rgb.r, rgb.g, rgb.b) + alpha
strokeColor.style.setProperty("--color", color);
strokeColor.color = color;
strokeColor.hsv = hsv
strokeColor.alpha = alpha
context.strokeStyle = color;
};
fillColor.setColor([0, 1, 1], 'ff');
strokeColor.setColor([0,0,0], 'ff');
fillColor.style.setProperty("--label-text", `"Fill color:"`);
strokeColor.style.setProperty("--label-text", `"Stroke color:"`);
fillColor.type = "color";
fillColor.value = "#ff0000";
strokeColor.value = "#000000";
let evtListener;
let padding = 10;
let gradwidth = 25;
let ccwidth = 300;
let mainSize = ccwidth - (3 * padding + gradwidth);
let colorClickHandler = (e) => {
let colorCvs = document.querySelector("#color-cvs");
if (colorCvs == null) {
console.log("creating new one");
colorCvs = document.createElement("canvas");
colorCvs.id = "color-cvs";
document.body.appendChild(colorCvs);
colorCvs.width = ccwidth;
colorCvs.height = 500;
colorCvs.style.width = "300px";
colorCvs.style.height = "500px";
colorCvs.style.position = "absolute";
colorCvs.style.left = "500px";
colorCvs.style.top = "500px";
colorCvs.style.boxShadow = "0 2px 2px rgba(0,0,0,0.2)";
colorCvs.style.cursor = "crosshair";
colorCvs.currentColor = "#00ffba88";
colorCvs.currentHSV = [0,0,0]
colorCvs.currentAlpha = 1
colorCvs.colorSelectorWidget = new ColorSelectorWidget(0, 0, colorCvs)
colorCvs.draw = function () {
let ctx = colorCvs.getContext("2d");
colorCvs.colorSelectorWidget.draw(ctx)
};
colorCvs.addEventListener("mousedown", (e) => {
colorCvs.clickedMainGradient = false;
colorCvs.clickedHueGradient = false;
colorCvs.clickedAlphaGradient = false;
let mouse = getMousePos(colorCvs, e);
colorCvs.colorSelectorWidget.handleMouseEvent("mousedown", mouse.x, mouse.y)
colorCvs.colorEl.setColor(colorCvs.currentHSV, colorCvs.currentAlpha);
colorCvs.draw();
});
window.addEventListener("mouseup", (e) => {
let mouse = getMousePos(colorCvs, e);
colorCvs.clickedMainGradient = false;
colorCvs.clickedHueGradient = false;
colorCvs.clickedAlphaGradient = false;
colorCvs.colorSelectorWidget.handleMouseEvent("mouseup", mouse.x, mouse.y)
if (e.target != colorCvs) {
colorCvs.style.display = "none";
window.removeEventListener("mousemove", evtListener);
}
});
} else {
colorCvs.style.display = "block";
}
evtListener = window.addEventListener("mousemove", (e) => {
let mouse = getMousePos(colorCvs, e);
colorCvs.colorSelectorWidget.handleMouseEvent("mousemove", mouse.x, mouse.y)
colorCvs.draw()
colorCvs.colorEl.setColor(colorCvs.currentHSV, colorCvs.currentAlpha);
});
// Get mouse coordinates relative to the viewport
const mouseX = e.clientX + window.scrollX;
const mouseY = e.clientY + window.scrollY;
const divWidth = colorCvs.offsetWidth;
const divHeight = colorCvs.offsetHeight;
const windowWidth = window.innerWidth;
const windowHeight = window.innerHeight;
// Default position to the mouse cursor
let left = mouseX;
let top = mouseY;
// If the window is narrower than twice the width, center horizontally
if (windowWidth < divWidth * 2) {
left = (windowWidth - divWidth) / 2;
} else {
// If it would overflow on the right side, position it to the left of the cursor
if (left + divWidth > windowWidth) {
left = mouseX - divWidth;
}
}
// If the window is shorter than twice the height, center vertically
if (windowHeight < divHeight * 2) {
top = (windowHeight - divHeight) / 2;
} else {
// If it would overflow at the bottom, position it above the cursor
if (top + divHeight > windowHeight) {
top = mouseY - divHeight;
}
}
colorCvs.style.left = `${left}px`;
colorCvs.style.top = `${top}px`;
colorCvs.colorEl = e.target;
colorCvs.currentColor = e.target.color;
colorCvs.currentHSV = e.target.hsv;
colorCvs.currentAlpha = e.target.alpha
colorCvs.draw();
e.preventDefault();
};
fillColor.addEventListener("click", colorClickHandler);
strokeColor.addEventListener("click", colorClickHandler);
// Fill and stroke colors use the same set of swatches
fillColor.addEventListener("change", (e) => {
context.swatches.unshift(fillColor.value);
if (context.swatches.length > 12) context.swatches.pop();
});
strokeColor.addEventListener("change", (e) => {
context.swatches.unshift(strokeColor.value);
if (context.swatches.length > 12) context.swatches.pop();
});
tools_scroller.appendChild(fillColor);
tools_scroller.appendChild(strokeColor);
return tools_scroller;
}
function timeline() {
let timeline_cvs = document.createElement("canvas");
timeline_cvs.className = "timeline";
// Load icons for show/hide layer
timeline_cvs.icons = {};
timeline_cvs.icons.volume_up_fill = new Icon("assets/volume-up-fill.svg");
timeline_cvs.icons.volume_mute = new Icon("assets/volume-mute.svg");
timeline_cvs.icons.eye_fill = new Icon("assets/eye-fill.svg");
timeline_cvs.icons.eye_slash = new Icon("assets/eye-slash.svg");
// Variable to store the last time updateTimelineCanvasSize was called
let lastResizeTime = 0;
const throttleIntervalMs = 20;
function updateTimelineCanvasSize() {
const canvasStyles = window.getComputedStyle(timeline_cvs);
timeline_cvs.width = parseInt(canvasStyles.width);
timeline_cvs.height = parseInt(canvasStyles.height);
updateLayers();
renderAll();
}
// Set up ResizeObserver to watch for changes in the canvas size
const resizeObserver = new ResizeObserver(() => {
const currentTime = Date.now();
// Only call updateTimelineCanvasSize if enough time has passed since the last call
// This prevents error messages about a ResizeObserver loop
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateTimelineCanvasSize();
}
});
resizeObserver.observe(timeline_cvs);
timeline_cvs.frameDragOffset = {
frames: 0,
layers: 0,
};
timeline_cvs.addEventListener("dragstart", (event) => {
event.preventDefault();
});
timeline_cvs.addEventListener("wheel", (event) => {
event.preventDefault();
const deltaX = event.deltaX * config.scrollSpeed;
const deltaY = event.deltaY * config.scrollSpeed;
let maxScroll =
context.activeObject.layers.length * layerHeight +
gutterHeight -
timeline_cvs.height;
timeline_cvs.offsetX = Math.max(0, timeline_cvs.offsetX + deltaX);
timeline_cvs.offsetY = Math.max(
0,
Math.min(maxScroll, timeline_cvs.offsetY + deltaY),
);
const currentTime = Date.now();
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateLayers();
}
});
timeline_cvs.addEventListener("mousedown", (e) => {
let mouse = getMousePos(timeline_cvs, e, true, true);
mouse.y += timeline_cvs.offsetY;
if (mouse.x > layerWidth) {
mouse.x -= layerWidth;
mouse.x += timeline_cvs.offsetX;
mouse.y -= gutterHeight;
timeline_cvs.clicked_frame = Math.floor(mouse.x / frameWidth);
context.activeObject.setFrameNum(timeline_cvs.clicked_frame);
const layerIdx = Math.floor(mouse.y / layerHeight);
if (layerIdx < context.activeObject.layers.length && layerIdx >= 0) {
const layer =
context.activeObject.layers[
context.activeObject.layers.length - layerIdx - 1
];
const frame = layer.getFrame(timeline_cvs.clicked_frame);
if (frame.exists) {
if (!e.shiftKey) {
// Check if the clicked frame is already in the selection
const existingIndex = context.selectedFrames.findIndex(
(selected) =>
selected.frameNum === timeline_cvs.clicked_frame &&
selected.layer === layerIdx,
);
if (existingIndex !== -1) {
if (!e.ctrlKey) {
// Do nothing
} else {
// Remove the clicked frame from the selection
context.selectedFrames.splice(existingIndex, 1);
}
} else {
if (!e.ctrlKey) {
context.selectedFrames = []; // Reset selection
}
// Add the clicked frame to the selection
context.selectedFrames.push({
layer: layerIdx,
frameNum: timeline_cvs.clicked_frame,
});
}
} else {
const currentSelection =
context.selectedFrames[context.selectedFrames.length - 1];
const startFrame = Math.min(
currentSelection.frameNum,
timeline_cvs.clicked_frame,
);
const endFrame = Math.max(
currentSelection.frameNum,
timeline_cvs.clicked_frame,
);
const startLayer = Math.min(currentSelection.layer, layerIdx);
const endLayer = Math.max(currentSelection.layer, layerIdx);
for (let l = startLayer; l <= endLayer; l++) {
const layerToAdd =
context.activeObject.layers[
context.activeObject.layers.length - l - 1
];
for (let f = startFrame; f <= endFrame; f++) {
const frameToAdd = layerToAdd.getFrame(f);
if (
frameToAdd.exists &&
!context.selectedFrames.some(
(selected) =>
selected.frameNum === f && selected.layer === l,
)
) {
context.selectedFrames.push({
layer: l,
frameNum: f,
});
}
}
}
}
timeline_cvs.draggingFrames = true;
timeline_cvs.dragFrameStart = {
frame: timeline_cvs.clicked_frame,
layer: layerIdx,
};
timeline_cvs.frameDragOffset = {
frames: 0,
layers: 0,
};
} else {
context.selectedFrames = [];
}
} else {
context.selectedFrames = [];
}
updateUI();
} else {
mouse.y -= gutterHeight;
let l = Math.floor(mouse.y / layerHeight);
if (l < context.activeObject.allLayers.length) {
let i = context.activeObject.allLayers.length - (l + 1);
mouse.y -= l * layerHeight;
if (
mouse.x > layerWidth - iconSize - 5 &&
mouse.x < layerWidth - 5 &&
mouse.y > 0.5 * (layerHeight - iconSize) &&
mouse.y < 0.5 * (layerHeight + iconSize)
) {
context.activeObject.allLayers[i].visible =
!context.activeObject.allLayers[i].visible;
updateUI();
updateMenu();
} else if (
mouse.x > layerWidth - iconSize * 2 - 10 &&
mouse.x < layerWidth - iconSize - 5 &&
mouse.y > 0.5 * (layerHeight - iconSize) &&
mouse.y < 0.5 * (layerHeight + iconSize)
) {
context.activeObject.allLayers[i].audible =
!context.activeObject.allLayers[i].audible;
updateUI();
updateMenu();
} else {
context.activeObject.currentLayer = i;
}
}
}
updateLayers();
});
timeline_cvs.addEventListener("mouseup", (e) => {
let mouse = getMousePos(timeline_cvs, e);
mouse.y += timeline_cvs.offsetY;
if (mouse.x > layerWidth || timeline_cvs.draggingFrames) {
mouse.x += timeline_cvs.offsetX - layerWidth;
if (timeline_cvs.draggingFrames) {
if (
timeline_cvs.frameDragOffset.frames != 0 ||
timeline_cvs.frameDragOffset.layers != 0
) {
actions.moveFrames.create(timeline_cvs.frameDragOffset);
context.selectedFrames = [];
}
}
timeline_cvs.draggingFrames = false;
updateLayers();
updateMenu();
}
});
timeline_cvs.addEventListener("mousemove", (e) => {
let mouse = getMousePos(timeline_cvs, e);
mouse.y += timeline_cvs.offsetY;
if (mouse.x > layerWidth || timeline_cvs.draggingFrames) {
mouse.x += timeline_cvs.offsetX - layerWidth;
if (timeline_cvs.draggingFrames) {
const minFrameNum = -Math.min(
...context.selectedFrames.map((selection) => selection.frameNum),
);
const minLayer = -Math.min(
...context.selectedFrames.map((selection) => selection.layer),
);
const maxLayer =
context.activeObject.layers.length -
1 -
Math.max(
...context.selectedFrames.map((selection) => selection.layer),
);
timeline_cvs.frameDragOffset = {
frames: Math.max(
Math.floor(mouse.x / frameWidth) -
timeline_cvs.dragFrameStart.frame,
minFrameNum,
),
layers: Math.min(
Math.max(
Math.floor(mouse.y / layerHeight) -
timeline_cvs.dragFrameStart.layer,
minLayer,
),
maxLayer,
),
};
updateLayers();
}
}
});
timeline_cvs.offsetX = 0;
timeline_cvs.offsetY = 0;
updateTimelineCanvasSize();
return timeline_cvs;
}
function infopanel() {
let panel = document.createElement("div");
panel.className = "infopanel";
updateInfopanel();
return panel;
}
function outliner(object = undefined) {
let outliner = document.createElement("canvas");
outliner.className = "outliner";
if (object == undefined) {
outliner.object = root;
} else {
outliner.object = object;
}
outliner.style.cursor = "pointer";
let lastResizeTime = 0;
const throttleIntervalMs = 20;
function updateTimelineCanvasSize() {
const canvasStyles = window.getComputedStyle(outliner);
outliner.width = parseInt(canvasStyles.width);
outliner.height = parseInt(canvasStyles.height);
updateOutliner();
renderAll();
}
// Set up ResizeObserver to watch for changes in the canvas size
const resizeObserver = new ResizeObserver(() => {
const currentTime = Date.now();
// Only call updateTimelineCanvasSize if enough time has passed since the last call
// This prevents error messages about a ResizeObserver loop
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateTimelineCanvasSize();
}
});
resizeObserver.observe(outliner);
outliner.collapsed = {};
outliner.offsetX = 0;
outliner.offsetY = 0;
outliner.addEventListener("click", function (e) {
const mouse = getMousePos(outliner, e);
const mouseY = mouse.y; // Get the Y position of the click
const mouseX = mouse.x; // Get the X position (not used here, but can be used to check clicked area)
// Iterate again to check which object was clicked
let currentY = 20; // Starting y position
const stack = [{ object: outliner.object, indent: 0 }];
while (stack.length > 0) {
const { object, indent } = stack.pop();
// Check if the click was on this object
if (mouseY >= currentY - 20 && mouseY <= currentY) {
if (mouseX >= 0 && mouseX <= indent + 2 * triangleSize) {
// Toggle the collapsed state of the object
outliner.collapsed[object.idx] = !outliner.collapsed[object.idx];
} else {
outliner.active = object;
// Only do selection when this is pointing at the actual file
if (outliner.object==root) {
context.objectStack = []
let parent = object;
while (true) {
if (parent.parent) {
parent = parent.parent
context.objectStack.unshift(parent)
} else {
break
}
}
if (context.objectStack.length==0) {
context.objectStack.push(root)
}
context.oldselection = context.selection
context.oldshapeselection = context.shapeselection
context.selection = [object]
context.shapeselection = []
actions.select.create()
}
}
updateOutliner(); // Re-render the outliner
return;
}
// Update the Y position for the next object
currentY += 20;
// If the object is collapsed, skip it
if (outliner.collapsed[object.idx]) {
continue;
}
// If the object has layers, add them to the stack
if (object.layers) {
for (let i = object.layers.length - 1; i >= 0; i--) {
const layer = object.layers[i];
stack.push({ object: layer, indent: indent + 20 });
}
} else if (object.children) {
for (let i = object.children.length - 1; i >= 0; i--) {
const child = object.children[i];
stack.push({ object: child, indent: indent + 40 });
}
}
}
});
outliner.addEventListener("wheel", (event) => {
event.preventDefault();
const deltaY = event.deltaY * config.scrollSpeed;
outliner.offsetY = Math.max(0, outliner.offsetY + deltaY);
const currentTime = Date.now();
if (currentTime - lastResizeTime > throttleIntervalMs) {
lastResizeTime = currentTime;
updateOutliner();
}
});
return outliner;
}
async function startup() {
await loadConfig();
createNewFileDialog(_newFile, _open, config);
showNewFileDialog(config);
}
startup();
function createPaneMenu(div) {
const menuItems = ["Item 1", "Item 2", "Item 3"]; // The items for the menu
// Get the menu container (create a new div for the menu)
const popupMenu = document.createElement("div");
popupMenu.id = "popupMenu"; // Set the ID to ensure we can target it later
// Create a <ul> element to hold the list items
const ul = document.createElement("ul");
// Loop through the menuItems array and create a <li> for each item
for (let pane in panes) {
const li = document.createElement("li");
// Create the <img> element for the icon
const img = document.createElement("img");
img.src = `assets/${panes[pane].name}.svg`; // Use the appropriate SVG as the source
// img.style.width = "20px"; // Set the icon size
// img.style.height = "20px"; // Set the icon size
// img.style.marginRight = "10px"; // Add space between the icon and text
// Append the image to the <li> element
li.appendChild(img);
// Set the text of the item
li.appendChild(document.createTextNode(titleCase(panes[pane].name)));
li.addEventListener("click", () => {
createPane(panes[pane], div);
updateUI();
updateLayers();
updateAll();
popupMenu.remove();
});
ul.appendChild(li); // Append the <li> to the <ul>
}
popupMenu.appendChild(ul); // Append the <ul> to the popupMenu div
document.body.appendChild(popupMenu); // Append the menu to the body
return popupMenu; // Return the created menu element
}
function createPane(paneType = undefined, div = undefined) {
if (!div) {
div = document.createElement("div");
} else {
div.textContent = "";
}
let header = document.createElement("div");
if (!paneType) {
paneType = panes.stage; // TODO: change based on type
}
let content = paneType.func();
header.className = "header";
let button = document.createElement("button");
header.appendChild(button);
let icon = document.createElement("img");
icon.className = "icon";
icon.src = `/assets/${paneType.name}.svg`;
button.appendChild(icon);
button.addEventListener("click", () => {
let popupMenu = document.getElementById("popupMenu");
// If the menu is already in the DOM, remove it
if (popupMenu) {
popupMenu.remove(); // Remove the menu from the DOM
} else {
// Create and append the new menu to the DOM
popupMenu = createPaneMenu(div);
// Position the menu below the button
const buttonRect = event.target.getBoundingClientRect();
popupMenu.style.left = `${buttonRect.left}px`;
popupMenu.style.top = `${buttonRect.bottom + window.scrollY}px`;
}
// Prevent the click event from propagating to the window click listener
event.stopPropagation();
});
div.className = "vertical-grid";
header.style.height = "calc( 2 * var(--lineheight))";
content.style.height = "calc( 100% - 2 * var(--lineheight) )";
div.appendChild(header);
div.appendChild(content);
return div;
}
function splitPane(div, percent, horiz, newPane = undefined) {
let content = div.firstElementChild;
let div1 = document.createElement("div");
let div2 = document.createElement("div");
div1.className = "panecontainer";
div2.className = "panecontainer";
div1.appendChild(content);
if (newPane) {
div2.appendChild(newPane);
} else {
div2.appendChild(createPane());
}
div.appendChild(div1);
div.appendChild(div2);
if (horiz) {
div.className = "horizontal-grid";
} else {
div.className = "vertical-grid";
}
div.setAttribute("lb-percent", percent); // TODO: better attribute name
div.addEventListener("mousedown", function (event) {
// Check if the clicked element is the parent itself and not a child element
if (event.target === event.currentTarget) {
if (event.button === 0) {
// Left click
event.currentTarget.setAttribute("dragging", true);
event.currentTarget.style.userSelect = "none";
rootPane.style.userSelect = "none";
}
} else {
event.currentTarget.setAttribute("dragging", false);
}
});
div.addEventListener("contextmenu", async function (event) {
if (event.target === event.currentTarget) {
event.preventDefault(); // Prevent the default context menu from appearing
event.stopPropagation();
function createSplit(direction) {
let splitIndicator = document.createElement("div");
splitIndicator.className = "splitIndicator";
splitIndicator.style.flexDirection =
direction == "vertical" ? "column" : "row";
document.body.appendChild(splitIndicator);
splitIndicator.addEventListener("mousemove", (e) => {
const { clientX: mouseX, clientY: mouseY } = e;
const rect = splitIndicator.getBoundingClientRect();
// Create child elements and divider if not already present
let firstHalf = splitIndicator.querySelector(".first-half");
let secondHalf = splitIndicator.querySelector(".second-half");
let divider = splitIndicator.querySelector(".divider");
if (!firstHalf || !secondHalf || !divider) {
firstHalf = document.createElement("div");
secondHalf = document.createElement("div");
divider = document.createElement("div");
firstHalf.classList.add("first-half");
secondHalf.classList.add("second-half");
divider.classList.add("divider");
splitIndicator.innerHTML = ""; // Clear previous children
splitIndicator.append(firstHalf, divider, secondHalf);
}
const isVertical = direction === "vertical";
// Calculate dimensions for halves
const [first, second] = isVertical
? [mouseY - rect.top, rect.bottom - mouseY]
: [mouseX - rect.left, rect.right - mouseX];
const firstSize = `${first}px`;
const secondSize = `${second}px`;
splitIndicator.percent = isVertical
? ((mouseY - rect.top) / (rect.bottom - rect.top)) * 100
: ((mouseX - rect.left) / (rect.right - rect.left)) * 100;
// Apply styles for first and second halves
firstHalf.style[isVertical ? "height" : "width"] = firstSize;
secondHalf.style[isVertical ? "height" : "width"] = secondSize;
firstHalf.style[isVertical ? "width" : "height"] = "100%";
secondHalf.style[isVertical ? "width" : "height"] = "100%";
// Apply divider styles
divider.style.backgroundColor = "#000";
if (isVertical) {
divider.style.height = "2px";
divider.style.width = "100%";
divider.style.left = `${mouseX - rect.left}px`;
} else {
divider.style.width = "2px";
divider.style.height = "100%";
divider.style.top = `${mouseY - rect.top}px`;
}
});
splitIndicator.addEventListener("click", (e) => {
if (splitIndicator.percent) {
splitPane(
splitIndicator.targetElement,
splitIndicator.percent,
direction == "horizontal",
createPane(panes.timeline),
);
document.body.removeChild(splitIndicator);
document.removeEventListener("mousemove", splitListener);
setTimeout(updateUI, 20);
}
});
const splitListener = document.addEventListener("mousemove", (e) => {
const mouseX = e.clientX;
const mouseY = e.clientY;
// Get all elements under the mouse pointer
const elementsUnderMouse = document.querySelectorAll(":hover");
let targetElement = null;
for (let element of elementsUnderMouse) {
if (
element.matches(
".horizontal-grid > .panecontainer, .vertical-grid > .panecontainer",
)
) {
targetElement = element;
}
}
if (targetElement) {
const rect = targetElement.getBoundingClientRect();
splitIndicator.style.left = `${rect.left}px`;
splitIndicator.style.top = `${rect.top}px`;
splitIndicator.style.width = `${rect.width}px`;
splitIndicator.style.height = `${rect.height}px`;
splitIndicator.targetElement = targetElement;
}
});
}
// TODO: use icon menu items
// See https://github.com/tauri-apps/tauri/blob/dev/packages/api/src/menu/iconMenuItem.ts
const menu = await Menu.new({
items: [
{ id: "ctx_option0", text: "Area options", enabled: false },
{
id: "ctx_option1",
text: "Vertical Split",
action: () => createSplit("vertical"),
},
{
id: "ctx_option2",
text: "Horizontal Split",
action: () => createSplit("horizontal"),
},
new PredefinedMenuItem("Separator"),
{ id: "ctx_option3", text: horiz ? "Join Left" : "Join Up" },
{ id: "ctx_option4", text: horiz ? "Join Right" : "Join Down" },
],
});
menu.popup({ x: event.clientX, y: event.clientY });
}
console.log("Right-click on the element");
// Your custom logic here
});
div.addEventListener("mousemove", function (event) {
// Check if the clicked element is the parent itself and not a child element
if (event.currentTarget.getAttribute("dragging") == "true") {
const frac = getMousePositionFraction(event, event.currentTarget);
div.setAttribute("lb-percent", frac * 100);
updateAll();
}
});
div.addEventListener("mouseup", (event) => {
event.currentTarget.setAttribute("dragging", false);
// event.currentTarget.style.userSelect = 'auto';
});
updateAll();
updateUI();
updateLayers();
return [div1, div2];
}
function updateAll() {
updateLayout(rootPane);
for (let element of layoutElements) {
updateLayout(element);
}
}
function updateLayout(element) {
let rect = element.getBoundingClientRect();
let percent = element.getAttribute("lb-percent");
percent ||= 50;
let children = element.children;
if (children.length != 2) return;
if (element.classList.contains("horizontal-grid")) {
children[0].style.width = `${(rect.width * percent) / 100}px`;
children[1].style.width = `${(rect.width * (100 - percent)) / 100}px`;
children[0].style.height = `${rect.height}px`;
children[1].style.height = `${rect.height}px`;
} else if (element.classList.contains("vertical-grid")) {
children[0].style.height = `${(rect.height * percent) / 100}px`;
children[1].style.height = `${(rect.height * (100 - percent)) / 100}px`;
children[0].style.width = `${rect.width}px`;
children[1].style.width = `${rect.width}px`;
}
if (children[0].getAttribute("lb-percent")) {
updateLayout(children[0]);
}
if (children[1].getAttribute("lb-percent")) {
updateLayout(children[1]);
}
}
function updateUI() {
uiDirty = true;
}
function renderUI() {
for (let canvas of canvases) {
let ctx = canvas.getContext("2d");
ctx.resetTransform();
ctx.beginPath();
ctx.fillStyle = backgroundColor;
ctx.fillRect(0, 0, canvas.width, canvas.height);
ctx.translate(-canvas.offsetX, -canvas.offsetY);
ctx.scale(context.zoomLevel, context.zoomLevel);
ctx.fillStyle = "white";
ctx.fillRect(0, 0, config.fileWidth, config.fileHeight);
context.ctx = ctx;
root.draw(context);
if (context.activeObject != root) {
ctx.fillStyle = "rgba(255,255,255,0.5)";
ctx.fillRect(0, 0, config.fileWidth, config.fileHeight);
context.activeObject.draw(context, true);
}
if (context.activeShape) {
context.activeShape.draw(context);
}
ctx.save()
context.activeObject.transformCanvas(ctx)
// Debug rendering
if (debugQuadtree) {
ctx.fillStyle = "rgba(255,255,255,0.5)";
ctx.fillRect(0, 0, config.fileWidth, config.fileHeight);
const ep = 2.5;
const bbox = {
x: { min: context.mousePos.x - ep, max: context.mousePos.x + ep },
y: { min: context.mousePos.y - ep, max: context.mousePos.y + ep },
};
debugCurves = [];
for (let shape of context.activeObject.currentFrame.shapes) {
for (let i of shape.quadtree.query(bbox)) {
debugCurves.push(shape.curves[i]);
}
}
}
// let i=4;
for (let curve of debugCurves) {
ctx.beginPath();
// ctx.strokeStyle = `#ff${i}${i}${i}${i}`
// i = (i+3)%10
ctx.strokeStyle = "#" + ((Math.random() * 0xffffff) << 0).toString(16);
ctx.moveTo(curve.points[0].x, curve.points[0].y);
ctx.bezierCurveTo(
curve.points[1].x,
curve.points[1].y,
curve.points[2].x,
curve.points[2].y,
curve.points[3].x,
curve.points[3].y,
);
ctx.stroke();
ctx.beginPath();
let bbox = curve.bbox();
ctx.rect(
bbox.x.min,
bbox.y.min,
bbox.x.max - bbox.x.min,
bbox.y.max - bbox.y.min,
);
ctx.stroke();
}
let i = 0;
for (let point of debugPoints) {
ctx.beginPath();
let j = i.toString(16).padStart(2, "0");
ctx.fillStyle = `#${j}ff${j}`;
i += 1;
i %= 255;
ctx.arc(point.x, point.y, 3, 0, 2 * Math.PI);
ctx.fill();
}
ctx.restore()
if (context.activeAction) {
actions[context.activeAction.type].render(context.activeAction, ctx);
}
}
for (let selectionRect of document.querySelectorAll(".selectionRect")) {
selectionRect.style.display = "none";
}
if (mode == "transform") {
if (context.selection.length > 0) {
for (let selectionRect of document.querySelectorAll(".selectionRect")) {
let bbox = undefined;
for (let item of context.selection) {
if (bbox == undefined) {
bbox = structuredClone(item.bbox());
} else {
growBoundingBox(bbox, item.bbox());
}
}
if (bbox != undefined) {
selectionRect.style.display = "block";
selectionRect.style.left = `${bbox.x.min}px`;
selectionRect.style.top = `${bbox.y.min}px`;
selectionRect.style.width = `${bbox.x.max - bbox.x.min}px`;
selectionRect.style.height = `${bbox.y.max - bbox.y.min}px`;
}
}
}
}
}
function updateLayers() {
layersDirty = true;
}
function renderLayers() {
for (let canvas of document.querySelectorAll(".timeline")) {
const width = canvas.width;
const height = canvas.height;
const ctx = canvas.getContext("2d");
const offsetX = canvas.offsetX;
const offsetY = canvas.offsetY;
const frameCount = (width + offsetX - layerWidth) / frameWidth;
ctx.fillStyle = backgroundColor;
ctx.fillRect(0, 0, width, height);
ctx.lineWidth = 1;
// Draw timeline top
ctx.save();
ctx.save();
ctx.beginPath();
ctx.rect(layerWidth, 0, width - layerWidth, height);
ctx.clip();
ctx.translate(layerWidth - offsetX, 0);
ctx.fillStyle = labelColor;
for (
let j = Math.floor(offsetX / (5 * frameWidth)) * 5;
j < frameCount + 1;
j += 5
) {
drawCenteredText(
ctx,
j.toString(),
(j - 0.5) * frameWidth,
gutterHeight / 2,
gutterHeight,
);
}
ctx.restore();
ctx.translate(0, gutterHeight);
ctx.strokeStyle = shadow;
ctx.beginPath();
ctx.moveTo(layerWidth, 0);
ctx.lineTo(layerWidth, height);
ctx.stroke();
ctx.save();
ctx.rect(0, 0, width, height);
ctx.clip();
ctx.translate(0, -offsetY);
// Draw layer headers
let i = 0;
for (let k = context.activeObject.allLayers.length - 1; k >= 0; k--) {
let layer = context.activeObject.allLayers[k];
if (context.activeObject.activeLayer == layer) {
ctx.fillStyle = darkMode ? "#444" : "#ccc";
} else {
ctx.fillStyle = darkMode ? "#222" : "#aaa";
}
drawBorderedRect(
ctx,
0,
i * layerHeight,
layerWidth,
layerHeight,
highlight,
shadow,
);
ctx.fillStyle = darkMode ? "white" : "black";
drawHorizontallyCenteredText(
ctx,
layer.name,
5,
(i + 0.5) * layerHeight,
layerHeight * 0.4,
);
ctx.save();
const visibilityIcon = layer.visible
? canvas.icons.eye_fill
: canvas.icons.eye_slash;
visibilityIcon.render(
ctx,
layerWidth - iconSize - 5,
(i + 0.5) * layerHeight - iconSize * 0.5,
iconSize,
iconSize,
labelColor,
);
const audibilityIcon = layer.audible
? canvas.icons.volume_up_fill
: canvas.icons.volume_mute;
audibilityIcon.render(
ctx,
layerWidth - iconSize * 2 - 10,
(i + 0.5) * layerHeight - iconSize * 0.5,
iconSize,
iconSize,
labelColor,
);
ctx.restore();
ctx.save();
ctx.beginPath();
ctx.rect(layerWidth, i * layerHeight, width, layerHeight);
ctx.clip();
ctx.translate(layerWidth - offsetX, i * layerHeight);
// Draw empty frames
for (let j = Math.floor(offsetX / frameWidth); j < frameCount; j++) {
ctx.fillStyle = (j + 1) % 5 == 0 ? shade : backgroundColor;
drawBorderedRect(
ctx,
j * frameWidth,
0,
frameWidth,
layerHeight,
shadow,
highlight,
shadow,
shadow,
);
}
// Draw existing frames
if (layer instanceof Layer) {
layer.frames.forEach((frame, j) => {
if (!frame) return;
switch (frame.frameType) {
case "keyframe":
ctx.fillStyle = foregroundColor;
drawBorderedRect(
ctx,
j * frameWidth,
0,
frameWidth,
layerHeight,
highlight,
shadow,
shadow,
shadow,
);
ctx.fillStyle = "#111";
ctx.beginPath();
ctx.arc(
(j + 0.5) * frameWidth,
layerHeight * 0.75,
frameWidth * 0.25,
0,
2 * Math.PI,
);
ctx.fill();
break;
case "normal":
ctx.fillStyle = foregroundColor;
drawBorderedRect(
ctx,
j * frameWidth,
0,
frameWidth,
layerHeight,
highlight,
shadow,
backgroundColor,
backgroundColor,
);
break;
case "motion":
ctx.fillStyle = "#7a00b3";
ctx.fillRect(j * frameWidth, 0, frameWidth, layerHeight);
break;
case "shape":
ctx.fillStyle = "#9bff9b";
ctx.fillRect(j * frameWidth, 0, frameWidth, layerHeight);
break;
}
});
} else if (layer instanceof AudioLayer) {
// TODO: split waveform into chunks
for (let i in layer.sounds) {
let sound = layer.sounds[i];
// layerTrack.appendChild(sound.img)
ctx.drawImage(sound.img, 0, 0);
}
}
// if (context.activeObject.currentFrameNum)
ctx.restore();
i++;
}
ctx.restore();
// Draw highlighted frame
ctx.save();
ctx.translate(layerWidth - offsetX, -offsetY);
ctx.translate(
canvas.frameDragOffset.frames * frameWidth,
canvas.frameDragOffset.layers * layerHeight,
);
ctx.globalCompositeOperation = "difference";
for (let frame of context.selectedFrames) {
ctx.fillStyle = "grey";
ctx.fillRect(
frame.frameNum * frameWidth,
frame.layer * layerHeight,
frameWidth,
layerHeight,
);
}
ctx.globalCompositeOperation = "source-over";
ctx.restore();
// Draw scrubber bar
ctx.save();
ctx.beginPath();
ctx.rect(layerWidth, -gutterHeight, width, height);
ctx.clip();
ctx.translate(layerWidth - offsetX, 0);
let frameNum = context.activeObject.currentFrameNum;
ctx.strokeStyle = scrubberColor;
ctx.beginPath();
ctx.moveTo((frameNum + 0.5) * frameWidth, 0);
ctx.lineTo((frameNum + 0.5) * frameWidth, height);
ctx.stroke();
ctx.beginPath();
ctx.fillStyle = scrubberColor;
ctx.fillRect(
frameNum * frameWidth,
-gutterHeight,
frameWidth,
gutterHeight,
);
ctx.fillStyle = "white";
drawCenteredText(
ctx,
(frameNum + 1).toString(),
(frameNum + 0.5) * frameWidth,
-gutterHeight / 2,
gutterHeight,
);
ctx.restore();
ctx.restore();
}
return;
for (let container of document.querySelectorAll(".layers-container")) {
let layerspanel = container.querySelectorAll(".layers")[0];
let framescontainer = container.querySelectorAll(".frames-container")[0];
layerspanel.textContent = "";
framescontainer.textContent = "";
for (let layer of context.activeObject.layers) {
let layerHeader = document.createElement("div");
layerHeader.className = "layer-header";
if (context.activeObject.activeLayer == layer) {
layerHeader.classList.add("active");
}
layerspanel.appendChild(layerHeader);
let layerName = document.createElement("div");
layerName.className = "layer-name";
layerName.contentEditable = "plaintext-only";
layerName.addEventListener("click", (e) => {
e.stopPropagation();
});
layerName.addEventListener("blur", (e) => {
actions.changeLayerName.create(layer, layerName.innerText);
});
layerName.innerText = layer.name;
layerHeader.appendChild(layerName);
// Visibility icon element
let visibilityIcon = document.createElement("img");
visibilityIcon.className = "visibility-icon";
visibilityIcon.src = layer.visible
? "assets/eye-fill.svg"
: "assets/eye-slash.svg";
// Toggle visibility on click
visibilityIcon.addEventListener("click", (e) => {
e.stopPropagation(); // Prevent click from bubbling to the layerHeader click listener
layer.visible = !layer.visible;
// visibilityIcon.src = layer.visible ? "assets/eye-fill.svg" : "assets/eye-slash.svg"
updateUI();
updateMenu();
updateLayers();
});
layerHeader.appendChild(visibilityIcon);
layerHeader.addEventListener("click", (e) => {
context.activeObject.currentLayer =
context.activeObject.layers.indexOf(layer);
updateLayers();
updateUI();
});
let layerTrack = document.createElement("div");
layerTrack.className = "layer-track";
if (!layer.visible) {
layerTrack.classList.add("invisible");
}
framescontainer.appendChild(layerTrack);
layerTrack.addEventListener("click", (e) => {
let mouse = getMousePos(layerTrack, e);
let frameNum = parseInt(mouse.x / 25);
context.activeObject.setFrameNum(frameNum);
updateLayers();
updateMenu();
updateUI();
updateInfopanel();
});
let highlightedFrame = false;
layer.frames.forEach((frame, i) => {
let frameEl = document.createElement("div");
frameEl.className = "frame";
frameEl.setAttribute("frameNum", i);
if (i == context.activeObject.currentFrameNum) {
frameEl.classList.add("active");
highlightedFrame = true;
}
frameEl.classList.add(frame.frameType);
layerTrack.appendChild(frameEl);
});
if (!highlightedFrame) {
let highlightObj = document.createElement("div");
let frameCount = layer.frames.length;
highlightObj.className = "frame-highlight";
highlightObj.style.left = `${(context.activeObject.currentFrameNum - frameCount) * 25}px`;
layerTrack.appendChild(highlightObj);
}
}
for (let audioLayer of context.activeObject.audioLayers) {
let layerHeader = document.createElement("div");
layerHeader.className = "layer-header";
layerHeader.classList.add("audio");
layerspanel.appendChild(layerHeader);
let layerTrack = document.createElement("div");
layerTrack.className = "layer-track";
layerTrack.classList.add("audio");
framescontainer.appendChild(layerTrack);
for (let i in audioLayer.sounds) {
let sound = audioLayer.sounds[i];
layerTrack.appendChild(sound.img);
}
let layerName = document.createElement("div");
layerName.className = "layer-name";
layerName.contentEditable = "plaintext-only";
layerName.addEventListener("click", (e) => {
e.stopPropagation();
});
layerName.addEventListener("blur", (e) => {
actions.changeLayerName.create(audioLayer, layerName.innerText);
});
layerName.innerText = audioLayer.name;
layerHeader.appendChild(layerName);
}
}
}
function updateInfopanel() {
infopanelDirty = true;
}
function renderInfopanel() {
for (let panel of document.querySelectorAll(".infopanel")) {
panel.innerText = "";
let input;
let label;
let span;
let breadcrumbs = document.createElement("div");
const bctitle = document.createElement("span");
bctitle.style.cursor = "default";
bctitle.textContent = "Context: ";
breadcrumbs.appendChild(bctitle);
let crumbs = [];
for (let object of context.objectStack) {
crumbs.push({ name: object.name, object: object });
}
crumbs.forEach((crumb, index) => {
const crumbText = document.createElement("span");
crumbText.textContent = crumb.name;
breadcrumbs.appendChild(crumbText);
if (index < crumbs.length - 1) {
const separator = document.createElement("span");
separator.textContent = " > ";
separator.style.cursor = "default";
crumbText.style.cursor = "pointer";
breadcrumbs.appendChild(separator);
} else {
crumbText.style.cursor = "default";
}
});
breadcrumbs.addEventListener("click", function (event) {
const span = event.target;
// Only handle clicks on the breadcrumb text segments (not the separators)
if (span.tagName === "SPAN" && span.textContent !== " > ") {
const clickedText = span.textContent;
// Find the crumb associated with the clicked text
const crumb = crumbs.find((c) => c.name === clickedText);
if (crumb) {
const index = context.objectStack.indexOf(crumb.object);
if (index !== -1) {
// Keep only the objects up to the clicked one and add the clicked one as the last item
context.objectStack = context.objectStack.slice(0, index + 1);
updateUI();
updateLayers();
updateMenu();
updateInfopanel();
}
}
}
});
panel.appendChild(breadcrumbs);
for (let property in tools[mode].properties) {
let prop = tools[mode].properties[property];
label = document.createElement("label");
label.className = "infopanel-field";
span = document.createElement("span");
span.className = "infopanel-label";
span.innerText = prop.label;
switch (prop.type) {
case "number":
input = document.createElement("input");
input.className = "infopanel-input";
input.type = "number";
input.disabled = prop.enabled == undefined ? false : !prop.enabled();
if (prop.value) {
input.value = prop.value.get();
} else {
input.value = getProperty(context, property);
}
if (prop.min) {
input.min = prop.min;
}
if (prop.max) {
input.max = prop.max;
}
break;
case "enum":
input = document.createElement("select");
input.className = "infopanel-input";
input.disabled = prop.enabled == undefined ? false : !prop.enabled();
let optionEl;
for (let option of prop.options) {
optionEl = document.createElement("option");
optionEl.value = option;
optionEl.innerText = option;
input.appendChild(optionEl);
}
if (prop.value) {
input.value = prop.value.get();
} else {
input.value = getProperty(context, property);
}
break;
case "boolean":
input = document.createElement("input");
input.className = "infopanel-input";
input.type = "checkbox";
input.disabled = prop.enabled == undefined ? false : !prop.enabled();
if (prop.value) {
input.checked = prop.value.get();
} else {
input.checked = getProperty(context, property);
}
break;
case "text":
input = document.createElement("input");
input.className = "infopanel-input";
input.disabled = prop.enabled == undefined ? false : !prop.enabled();
if (prop.value) {
input.value = prop.value.get();
} else {
input.value = getProperty(context, property);
}
break;
}
input.addEventListener("input", (e) => {
switch (prop.type) {
case "number":
if (!isNaN(e.target.value) && e.target.value > 0) {
if (prop.value) {
prop.value.set(parseInt(e.target.value));
} else {
setProperty(context, property, parseInt(e.target.value));
}
}
break;
case "enum":
if (prop.options.indexOf(e.target.value) >= 0) {
setProperty(context, property, e.target.value);
}
break;
case "boolean":
if (prop.value) {
prop.value.set(e.target.value);
} else {
setProperty(context, property, e.target.checked);
}
break;
case "text":
// Do nothing because this event fires for every character typed
break;
}
});
input.addEventListener("blur", (e) => {
switch (prop.type) {
case "text":
if (prop.value) {
prop.value.set(e.target.value);
} else {
setProperty(context, property, parseInt(e.target.value));
}
break;
}
});
input.addEventListener("keydown", (e) => {
if (e.key === "Enter") {
e.target.blur();
}
});
label.appendChild(span);
label.appendChild(input);
panel.appendChild(label);
}
}
}
function updateOutliner() {
outlinerDirty = true;
}
function renderOutliner() {
const padding = 20; // pixels
for (let outliner of document.querySelectorAll(".outliner")) {
const x = 0;
let y = padding;
const ctx = outliner.getContext("2d");
ctx.fillStyle = "white";
ctx.fillRect(0, 0, outliner.width, outliner.height);
const stack = [{ object: outliner.object, indent: 0 }];
ctx.save();
ctx.translate(0, -outliner.offsetY);
// Iterate as long as there are items in the stack
while (stack.length > 0) {
const { object, indent } = stack.pop();
// Determine if the object is collapsed and draw the corresponding triangle
const triangleX = x + indent + triangleSize; // X position for the triangle
const triangleY = y - padding / 2; // Y position for the triangle (centered vertically)
if (outliner.active === object) {
ctx.fillStyle = "red";
ctx.fillRect(0, y - padding, outliner.width, padding);
}
if (outliner.collapsed[object.idx]) {
drawRegularPolygon(ctx, triangleX, triangleY, triangleSize, 3, "black");
} else {
drawRegularPolygon(
ctx,
triangleX,
triangleY,
triangleSize,
3,
"black",
Math.PI / 2,
);
}
// Draw the current object (GraphicsObject or Layer)
const label = `(${object.constructor.name}) ${object.name}`;
ctx.fillStyle = "black";
// ctx.fillText(label, x + indent + 2*triangleSize, y);
drawHorizontallyCenteredText(
ctx,
label,
x + indent + 2 * triangleSize,
y - padding / 2,
padding * 0.75,
);
// Update the Y position for the next line
y += padding; // Space between lines (adjust as necessary)
if (outliner.collapsed[object.idx]) {
continue;
}
// If the object has layers, add them to the stack
if (object.layers) {
for (let i = object.layers.length - 1; i >= 0; i--) {
const layer = object.layers[i];
stack.push({ object: layer, indent: indent + padding });
}
} else if (object.children) {
for (let i = object.children.length - 1; i >= 0; i--) {
const child = object.children[i];
stack.push({ object: child, indent: indent + 2 * padding });
}
}
}
ctx.restore();
}
}
function updateMenu() {
menuDirty = true;
}
async function renderMenu() {
let activeFrame;
let activeKeyframe;
let newFrameMenuItem;
let newKeyframeMenuItem;
let deleteFrameMenuItem;
// Move this
updateOutliner();
let recentFilesList = [];
config.recentFiles.forEach((file) => {
recentFilesList.push({
text: file,
enabled: true,
action: () => {
_open(file);
},
});
});
activeKeyframe = false;
if (
context.activeObject.activeLayer.frames[
context.activeObject.currentFrameNum
]
) {
activeFrame = true;
if (
context.activeObject.activeLayer.frames[
context.activeObject.currentFrameNum
].frameType == "keyframe"
) {
activeKeyframe = true;
}
} else {
activeFrame = false;
}
const appSubmenu = await Submenu.new({
text: "Lightningbeam",
items: [
{
text: "About Lightningbeam",
enabled: true,
action: about,
},
{
text: "Settings",
enabled: false,
action: () => {},
},
{
text: "Quit Lightningbeam",
enabled: true,
action: quit,
},
],
});
const fileSubmenu = await Submenu.new({
text: "File",
items: [
{
text: "New file...",
enabled: true,
action: newFile,
accelerator: getShortcut("new"),
},
{
text: "Save",
enabled: true,
action: save,
accelerator: getShortcut("save"),
},
{
text: "Save As...",
enabled: true,
action: saveAs,
accelerator: getShortcut("saveAs"),
},
await Submenu.new({
text: "Open Recent",
items: recentFilesList,
}),
{
text: "Open File...",
enabled: true,
action: open,
accelerator: getShortcut("open"),
},
{
text: "Revert",
enabled: undoStack.length > lastSaveIndex,
action: revert,
},
{
text: "Import...",
enabled: true,
action: importFile,
accelerator: getShortcut("import"),
},
{
text: "Export...",
enabled: true,
action: render,
accelerator: getShortcut("export"),
},
{
text: "Quit",
enabled: true,
action: quit,
accelerator: getShortcut("quit"),
},
],
});
const editSubmenu = await Submenu.new({
text: "Edit",
items: [
{
text:
"Undo " +
(undoStack.length > 0
? camelToWords(undoStack[undoStack.length - 1].name)
: ""),
enabled: undoStack.length > 0,
action: undo,
accelerator: getShortcut("undo"),
},
{
text:
"Redo " +
(redoStack.length > 0
? camelToWords(redoStack[redoStack.length - 1].name)
: ""),
enabled: redoStack.length > 0,
action: redo,
accelerator: getShortcut("redo"),
},
{
text: "Cut",
enabled: false,
action: () => {},
},
{
text: "Copy",
enabled:
context.selection.length > 0 || context.shapeselection.length > 0,
action: copy,
accelerator: getShortcut("copy"),
},
{
text: "Paste",
enabled: true,
action: paste,
accelerator: getShortcut("paste"),
},
{
text: "Delete",
enabled:
context.selection.length > 0 || context.shapeselection.length > 0,
action: delete_action,
accelerator: getShortcut("delete"),
},
{
text: "Select All",
enabled: true,
action: actions.selectAll.create,
accelerator: getShortcut("selectAll"),
},
{
text: "Select None",
enabled: true,
action: actions.selectNone.create,
accelerator: getShortcut("selectNone"),
},
],
});
const modifySubmenu = await Submenu.new({
text: "Modify",
items: [
{
text: "Group",
enabled:
context.selection.length != 0 || context.shapeselection.length != 0,
action: actions.group.create,
accelerator: getShortcut("group"),
},
{
text: "Send to back",
enabled:
context.selection.length != 0 || context.shapeselection.length != 0,
action: actions.sendToBack.create,
},
{
text: "Bring to front",
enabled:
context.selection.length != 0 || context.shapeselection.length != 0,
action: actions.bringToFront.create,
},
],
});
const layerSubmenu = await Submenu.new({
text: "Layer",
items: [
{
text: "Add Layer",
enabled: true,
action: actions.addLayer.create,
accelerator: getShortcut("addLayer"),
},
{
text: "Delete Layer",
enabled: context.activeObject.layers.length > 1,
action: actions.deleteLayer.create,
},
{
text: context.activeObject.activeLayer.visible
? "Hide Layer"
: "Show Layer",
enabled: true,
action: () => {
context.activeObject.activeLayer.toggleVisibility();
},
},
],
});
newFrameMenuItem = {
text: "New Frame",
enabled: !activeFrame,
action: addFrame,
};
newKeyframeMenuItem = {
text: "New Keyframe",
enabled: !activeKeyframe,
action: addKeyframe,
};
deleteFrameMenuItem = {
text: "Delete Frame",
enabled: activeFrame,
action: deleteFrame,
};
const timelineSubmenu = await Submenu.new({
text: "Timeline",
items: [
newFrameMenuItem,
newKeyframeMenuItem,
deleteFrameMenuItem,
{
text: "Add Motion Tween",
enabled: activeFrame && !activeKeyframe,
action: actions.addMotionTween.create,
},
{
text: "Add Shape Tween",
enabled: activeFrame && !activeKeyframe,
action: actions.addShapeTween.create,
},
{
text: "Return to start",
enabled: false,
action: () => {},
},
{
text: "Play",
enabled: !playing,
action: playPause,
accelerator: getShortcut("playAnimation"),
},
],
});
const viewSubmenu = await Submenu.new({
text: "View",
items: [
{
text: "Zoom In",
enabled: true,
action: zoomIn,
accelerator: getShortcut("zoomIn"),
},
{
text: "Zoom Out",
enabled: true,
action: zoomOut,
accelerator: getShortcut("zoomOut"),
},
{
text: "Actual Size",
enabled: context.zoomLevel != 1,
action: resetZoom,
accelerator: getShortcut("resetZoom"),
},
],
});
const helpSubmenu = await Submenu.new({
text: "Help",
items: [
{
text: "About...",
enabled: true,
action: about,
},
],
});
let items = [
fileSubmenu,
editSubmenu,
modifySubmenu,
layerSubmenu,
timelineSubmenu,
viewSubmenu,
helpSubmenu,
];
if (macOS) {
items.unshift(appSubmenu);
}
const menu = await Menu.new({
items: items,
});
await (macOS ? menu.setAsAppMenu() : menu.setAsWindowMenu());
}
updateMenu();
const panes = {
stage: {
name: "stage",
func: stage,
},
toolbar: {
name: "toolbar",
func: toolbar,
},
timeline: {
name: "timeline",
func: timeline,
},
infopanel: {
name: "infopanel",
func: infopanel,
},
outlineer: {
name: "outliner",
func: outliner,
},
};
function _arrayBufferToBase64(buffer) {
var binary = "";
var bytes = new Uint8Array(buffer);
var len = bytes.byteLength;
for (var i = 0; i < len; i++) {
binary += String.fromCharCode(bytes[i]);
}
return window.btoa(binary);
}
async function convertToDataURL(filePath, allowedMimeTypes) {
try {
// Read the image file as a binary file (buffer)
const binaryData = await readFile(filePath);
const mimeType = getMimeType(filePath);
if (!mimeType) {
throw new Error("Unsupported file type");
}
if (allowedMimeTypes.indexOf(mimeType) == -1) {
throw new Error(`Unsupported MIME type ${mimeType}`);
}
const base64Data = _arrayBufferToBase64(binaryData);
const dataURL = `data:${mimeType};base64,${base64Data}`;
return { dataURL, mimeType };
} catch (error) {
console.log(error);
console.error("Error reading the file:", error);
return null;
}
}
// Determine the MIME type based on the file extension
function getMimeType(filePath) {
const ext = filePath.split(".").pop().toLowerCase();
switch (ext) {
case "jpg":
case "jpeg":
return "image/jpeg";
case "png":
return "image/png";
case "gif":
return "image/gif";
case "bmp":
return "image/bmp";
case "webp":
return "image/webp";
case "mp3":
return "audio/mpeg";
default:
return null; // Unsupported file type
}
}
function startToneOnUserInteraction() {
// Function to handle the first interaction (click or key press)
const startTone = () => {
Tone.start()
.then(() => {
console.log("Tone.js started!");
})
.catch((err) => {
console.error("Error starting Tone.js:", err);
});
// Remove the event listeners to prevent them from firing again
document.removeEventListener("click", startTone);
document.removeEventListener("keydown", startTone);
};
// Add event listeners for mouse click and key press
document.addEventListener("click", startTone);
document.addEventListener("keydown", startTone);
}
startToneOnUserInteraction();
function renderAll() {
try {
if (uiDirty) {
renderUI();
uiDirty = false;
}
if (layersDirty) {
renderLayers();
layersDirty = false;
}
if (outlinerDirty) {
renderOutliner();
outlinerDirty = false;
}
if (menuDirty) {
renderMenu();
menuDirty = false;
}
if (infopanelDirty) {
renderInfopanel();
infopanelDirty = false;
}
} catch (error) {
console.error("Error during rendering:", error);
} finally {
requestAnimationFrame(renderAll);
}
}
renderAll();
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