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viewer_sgos / tooltips.js

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Update tooltips.js

9531b00 verified 9 months ago

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	// tooltips.js

	/**
	* initializeTooltips(options)
	*
	* - options.app: the PlayCanvas AppBase instance
	* - options.cameraEntity: PlayCanvas camera Entity
	* - options.modelEntity: the main model entity (for relative positioning, optional)
	* - options.tooltipsUrl: URL to fetch JSON array of tooltip definitions
	* - options.defaultVisible: boolean: whether tooltips are visible initially
	* - options.moveDuration: number (seconds) for smooth camera move to selected tooltip
	*/
	export async function initializeTooltips(options) {
	const {
	app,
	cameraEntity,
	modelEntity,
	tooltipsUrl,
	defaultVisible,
	moveDuration = 0.6
	} = options;

	if (!app \|\| !cameraEntity \|\| !tooltipsUrl) return;

	let tooltipsData;
	try {
	const resp = await fetch(tooltipsUrl);
	tooltipsData = await resp.json();
	} catch (e) { return; }
	if (!Array.isArray(tooltipsData)) return;

	const tooltipEntities = [];

	// Create a material for tooltip spheres (still use StandardMaterial, works fine)
	const mat = new pc.StandardMaterial();
	mat.diffuse = new pc.Color(1, 0.8, 0);
	mat.specular = new pc.Color(1, 1, 1);
	mat.shininess = 20;
	mat.emissive = new pc.Color(0.85, 0.85, 0.85);
	mat.emissiveIntensity = 1;
	mat.useLighting = false;
	mat.update();

	// Build each tooltip sphere + attach custom data
	for (let i = 0; i < tooltipsData.length; i++) {
	const tt = tooltipsData[i];
	const { x, y, z, title, description, imgUrl } = tt;

	const sphere = new pc.Entity("tooltip-" + i);
	sphere.addComponent("model", { type: "sphere" });
	sphere.model.material = mat;

	sphere.setLocalScale(0.05, 0.05, 0.05);
	sphere.setLocalPosition(x, y, z);
	sphere.tooltipData = { title, description, imgUrl };
	app.root.addChild(sphere);
	tooltipEntities.push(sphere);
	}

	function setTooltipsVisibility(visible) {
	tooltipEntities.forEach(ent => { ent.enabled = visible; });
	}
	setTooltipsVisibility(!!defaultVisible);

	document.addEventListener("toggle-tooltips", (evt) => {
	const { visible } = evt.detail;
	setTooltipsVisibility(!!visible);
	});

	let currentTween = null;

	app.mouse.on(pc.EVENT_MOUSEDOWN, (event) => {
	if (currentTween) {
	app.off("update", currentTween);
	currentTween = null;
	}

	const x = event.x, y = event.y;
	const from = new pc.Vec3(), to = new pc.Vec3();
	const camera = cameraEntity.camera;

	camera.screenToWorld(x, y, camera.nearClip, from);
	camera.screenToWorld(x, y, camera.farClip, to);

	const dir = new pc.Vec3().sub2(to, from).normalize();

	let closestT = Infinity;
	let pickedEntity = null;

	for (const ent of tooltipEntities) {
	if (!ent.enabled) continue;

	const center = ent.getPosition();
	const worldRadius = 0.5 * ent.getLocalScale().x;

	const oc = new pc.Vec3().sub2(center, from);
	const tca = oc.dot(dir);
	if (tca < 0) continue;

	const d2 = oc.lengthSq() - (tca * tca);
	if (d2 > worldRadius * worldRadius) continue;

	const thc = Math.sqrt(worldRadius * worldRadius - d2);
	const t0 = tca - thc;
	if (t0 < closestT && t0 >= 0) {
	closestT = t0;
	pickedEntity = ent;
	}
	}

	if (pickedEntity) {
	const { title, description, imgUrl } = pickedEntity.tooltipData;
	document.dispatchEvent(new CustomEvent("tooltip-selected", {
	detail: { title, description, imgUrl }
	}));
	tweenCameraToTooltip(pickedEntity, moveDuration);
	}
	});

	// Camera animation
	function shortestAngleDiff(target, current) {
	let delta = target - current;
	delta = ((delta + 180) % 360 + 360) % 360 - 180;
	return delta;
	}

	function tweenCameraToTooltip(tooltipEnt, duration) {
	const orbitCam = cameraEntity.script.orbitCamera;
	if (!orbitCam) return;

	const targetPos = tooltipEnt.getPosition().clone();
	const startPivot = orbitCam.pivotPoint.clone();
	const startYaw = orbitCam._yaw;
	const startPitch = orbitCam._pitch;
	const startDist = orbitCam._distance;

	const worldRadius = 0.5 * tooltipEnt.getLocalScale().x;
	const minZoom = orbitCam.distanceMin;
	const desiredDistance = Math.max(minZoom * 1.2, worldRadius * 4);

	const camWorldPos = cameraEntity.getPosition().clone();
	const tempEnt = new pc.Entity();
	tempEnt.setPosition(camWorldPos);
	tempEnt.lookAt(targetPos);
	const rotation = tempEnt.getRotation();
	const forward = new pc.Vec3();
	rotation.transformVector(pc.Vec3.FORWARD, forward);
	const rawTgtYaw = Math.atan2(-forward.x, -forward.z) * pc.math.RAD_TO_DEG;
	const yawDelta = shortestAngleDiff(rawTgtYaw, startYaw);
	const endYaw = startYaw + yawDelta;

	const yawQuat = new pc.Quat().setFromEulerAngles(0, -rawTgtYaw, 0);
	const rotNoYaw = new pc.Quat().mul2(yawQuat, rotation);
	const fNoYaw = new pc.Vec3();
	rotNoYaw.transformVector(pc.Vec3.FORWARD, fNoYaw);
	const rawTgtPitch = Math.atan2(fNoYaw.y, -fNoYaw.z) * pc.math.RAD_TO_DEG;
	const pitchDelta = shortestAngleDiff(rawTgtPitch, startPitch);
	const endPitch = startPitch + pitchDelta;

	tempEnt.destroy();

	const endPivot = targetPos.clone();
	const endDist = desiredDistance;

	let elapsed = 0;
	const orgPivot = startPivot.clone();
	const orgYaw = startYaw;
	const orgPitch = startPitch;
	const orgDist = startDist;

	if (currentTween) {
	app.off("update", currentTween);
	currentTween = null;
	}

	function lerpUpdate(dt) {
	elapsed += dt;
	const t = Math.min(elapsed / duration, 1);

	const newPivot = new pc.Vec3().lerp(orgPivot, endPivot, t);
	orbitCam.pivotPoint.copy(newPivot);

	const newYaw = pc.math.lerp(orgYaw, endYaw, t);
	const newPitch = pc.math.lerp(orgPitch, endPitch, t);
	const newDist = pc.math.lerp(orgDist, endDist, t);

	orbitCam._targetYaw = newYaw;
	orbitCam._yaw = newYaw;
	orbitCam._targetPitch = newPitch;
	orbitCam._pitch = newPitch;
	orbitCam._targetDistance = newDist;
	orbitCam._distance = newDist;

	orbitCam._updatePosition();

	if (t >= 1) {
	app.off("update", lerpUpdate);
	currentTween = null;
	}
	}

	currentTween = lerpUpdate;
	app.on("update", lerpUpdate);
	}
	}