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The object might still exist on both, so we need to widen it. widen_ownership(metadata, metadata); metadata.parent = parent; } return metadata.p; } } const prototype = get_prototype_of(value); if (prototype === object_prototype || prototype === array_prototype) { const proxy = new Proxy(value, state_proxy_handler); define_property(value, STATE_SYMBOL, { value: /** @type {import('#client').ProxyMetadata} */ ({ s: new Map(), v: source(0), a: is_array(value), i: immutable, p: proxy, t: value }), writable: true, enumerable: false }); if (DEV) { // @ts-expect-error value[STATE_SYMBOL].parent = parent; // @ts-expect-error value[STATE_SYMBOL].owners = parent === null ? current_component_context !== null ? // @ts-expect-error new Set([current_component_context.function]) : null : new Set(); } return proxy; } } return value; } /** * @template {import('#client').ProxyStateObject} T * @param {T} value * @param {Map<T, Record<string | symbol, any>>} already_unwrapped * @returns {Record<string | symbol, any>} */ function unwrap(value, already_unwrapped) { if (typeof value === 'object' && value != null && STATE_SYMBOL in value) { const unwrapped = already_unwrapped.get(value); if (unwrapped !== undefined) { return unwrapped; } if (is_array(value)) { /** @type {Record<string | symbol, any>} */ const array = []; already_unwrapped.set(value, array); for (const element of value) { array.push(unwrap(element, already_unwrapped)); } return array; } else { /** @type {Record<string | symbol, any>} */ const obj = {}; const keys = Reflect.ownKeys(value); const descriptors = get_descriptors(value); already_unwrapped.set(value, obj); for (const key of keys) { if (key === STATE_SYMBOL) continue; if (descriptors[key].get) { define_property(obj, key, descriptors[key]); } else { /** @type {T} */ const property = value[key]; obj[key] = unwrap(property, already_unwrapped); } } return obj; } } return value; } /** * @template T * @param {T} value * @returns {T} */ export function snapshot(value) { return /** @type {T} */ ( unwrap(/** @type {import('#client').ProxyStateObject} */ (value), new Map()) ); } /** * @param {import('#client').Source<number>} signal * @param {1 | -1} [d] */ function update_version(signal, d = 1) { set(signal, signal.v + d); } /** @type {ProxyHandler<import('#client').ProxyStateObject<any>>} */ const state_proxy_handler = { defineProperty(target, prop, descriptor) { if (descriptor.value) { /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; const s = metadata.s.get(prop); if (s !== undefined) set(s, proxy(descriptor.value, metadata.i, metadata)); } return Reflect.defineProperty(target, prop, descriptor); }, deleteProperty(target, prop) { /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; const s = metadata.s.get(prop); const is_array = metadata.a; const boolean = delete target[prop]; // If we have mutated an array directly, and the deletion // was successful we will also need to update the length // before updating the field or the version. This is to // ensure any effects observing length can execute before // effects that listen to the fields – otherwise they will // operate an an index that no longer exists. if (is_array && boolean) { const ls = metadata.s.get('length'); const length = target.length - 1; if (ls !== undefined && ls.v !== length) { set(ls, length); } } if (s !== undefined) set(s, UNINITIALIZED); if (boolean) { update_version(metadata.v); } return boolean; }, get(target, prop, receiver) { if (prop === STATE_SYMBOL) { return Reflect.get(target, STATE_SYMBOL); } /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; let s = metadata.s.get(prop); // create a source, but only if it's an own property and not a prototype property if (s === undefined && (!(prop in target) || get_descriptor(target, prop)?.writable)) { s = (metadata.i ? source : mutable_source)(proxy(target[prop], metadata.i, metadata)); metadata.s.set(prop, s); } if (s !== undefined) { const value = get(s); return value === UNINITIALIZED ? undefined : value; } if (DEV) { if (typeof target[prop] === 'function' && prop !== Symbol.iterator) { return batch_inspect(target, prop, receiver); } } return Reflect.get(target, prop, receiver); }, getOwnPropertyDescriptor(target, prop) { const descriptor = Reflect.getOwnPropertyDescriptor(target, prop); if (descriptor && 'value' in descriptor) { /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; const s = metadata.s.get(prop); if (s) { descriptor.value = get(s); } } return descriptor; }, has(target, prop) { if (prop === STATE_SYMBOL) { return true; } /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; const has = Reflect.has(target, prop); let s = metadata.s.get(prop); if ( s !== undefined || (current_effect !== null && (!has || get_descriptor(target, prop)?.writable)) ) { if (s === undefined) { s = (metadata.i ? source : mutable_source)( has ? proxy(target[prop], metadata.i, metadata) : UNINITIALIZED ); metadata.s.set(prop, s); } const value = get(s); if (value === UNINITIALIZED) { return false; } } return has; }, set(target, prop, value, receiver) { /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; let s = metadata.s.get(prop); // If we haven't yet created a source for this property, we need to ensure // we do so otherwise if we read it later, then the write won't be tracked and // the heuristics of effects will be different vs if we had read the proxied // object property before writing to that property. if (s === undefined) { // the read creates a signal untrack(() => receiver[prop]); s = metadata.s.get(prop); } if (s !== undefined) { set(s, proxy(value, metadata.i, metadata)); } const is_array = metadata.a; const not_has = !(prop in target); if (DEV) { /** @type {import('#client').ProxyMetadata | undefined} */ const prop_metadata = value?.[STATE_SYMBOL]; if (prop_metadata && prop_metadata?.parent !== metadata) { widen_ownership(metadata, prop_metadata); } check_ownership(metadata); } // variable.length = value -> clear all signals with index >= value if (is_array && prop === 'length') { for (let i = value; i < target.length; i += 1) { const s = metadata.s.get(i + ''); if (s !== undefined) set(s, UNINITIALIZED); } } // Set the new value before updating any signals so that any listeners get the new value // @ts-ignore target[prop] = value; if (not_has) { // If we have mutated an array directly, we might need to // signal that length has also changed. Do it before updating metadata // to ensure that iterating over the array as a result of a metadata update // will not cause the length to be out of sync. if (is_array) { const ls = metadata.s.get('length'); const length = target.length; if (ls !== undefined && ls.v !== length) { set(ls, length); } } update_version(metadata.v); } return true; }, ownKeys(target) { /** @type {import('#client').ProxyMetadata} */ const metadata = target[STATE_SYMBOL]; get(metadata.v); return Reflect.ownKeys(target); } }; if (DEV) { state_proxy_handler.setPrototypeOf = () => { throw new Error('Cannot set prototype of $state object'); }; } |