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e.props_rest_readonly(`${target.name}.${String(key)}`); } return false; }, getOwnPropertyDescriptor(target, key) { if (target.exclude.includes(key)) return; if (key in target.props) { return { enumerable: true, configurable: true, value: target.props[key] }; } }, has(target, key) { if (target.exclude.includes(key)) return false; return key in target.props; }, ownKeys(target) { return Reflect.ownKeys(target.props).filter((key) => !target.exclude.includes(key)); } }; /** * @param {Record<string, unknown>} props * @param {string[]} exclude * @param {string} [name] * @returns {Record<string, unknown>} */ /*#__NO_SIDE_EFFECTS__*/ export function rest_props(props, exclude, name) { return new Proxy( DEV ? { props, exclude, name, other: {}, to_proxy: [] } : { props, exclude }, rest_props_handler ); } /** * The proxy handler for legacy $$restProps and $$props * @type {ProxyHandler<{ props: Record<string | symbol, unknown>, exclude: Array<string | symbol>, special: Record<string | symbol, (v?: unknown) => unknown>, version: Source<number> }>}} */ const legacy_rest_props_handler = { get(target, key) { if (target.exclude.includes(key)) return; get(target.version); return key in target.special ? target.special[key]() : target.props[key]; }, set(target, key, value) { if (!(key in target.special)) { // Handle props that can temporarily get out of sync with the parent /** @type {Record<string, (v?: unknown) => unknown>} */ target.special[key] = prop( { get [key]() { return target.props[key]; } }, /** @type {string} */ (key), PROPS_IS_UPDATED ); } target.special[key](value); update(target.version); // $$props is coarse-grained: when $$props.x is updated, usages of $$props.y etc are also rerun return true; }, getOwnPropertyDescriptor(target, key) { if (target.exclude.includes(key)) return; if (key in target.props) { return { enumerable: true, configurable: true, value: target.props[key] }; } }, deleteProperty(target, key) { // Svelte 4 allowed for deletions on $$restProps if (target.exclude.includes(key)) return true; target.exclude.push(key); update(target.version); return true; }, has(target, key) { if (target.exclude.includes(key)) return false; return key in target.props; }, ownKeys(target) { return Reflect.ownKeys(target.props).filter((key) => !target.exclude.includes(key)); } }; /** * @param {Record<string, unknown>} props * @param {string[]} exclude * @returns {Record<string, unknown>} */ export function legacy_rest_props(props, exclude) { return new Proxy({ props, exclude, special: {}, version: source(0) }, legacy_rest_props_handler); } /** * The proxy handler for spread props. Handles the incoming array of props * that looks like `() => { dynamic: props }, { static: prop }, ..` and wraps * them so that the whole thing is passed to the component as the `$$props` argument. * @template {Record<string | symbol, unknown>} T * @type {ProxyHandler<{ props: Array<T | (() => T)> }>}} */ const spread_props_handler = { get(target, key) { let i = target.props.length; while (i--) { let p = target.props[i]; if (is_function(p)) p = p(); if (typeof p === 'object' && p !== null && key in p) return p[key]; } }, getOwnPropertyDescriptor(target, key) { let i = target.props.length; while (i--) { let p = target.props[i]; if (is_function(p)) p = p(); if (typeof p === 'object' && p !== null && key in p) { const descriptor = get_descriptor(p, key); if (descriptor && !descriptor.configurable) { // Prevent a "Non-configurability Report Error": The target is an array, it does // not actually contain this property. If it is now described as non-configurable, // the proxy throws a validation error. Setting it to true avoids that. descriptor.configurable = true; } return descriptor; } } }, has(target, key) { for (let p of target.props) { if (is_function(p)) p = p(); if (p != null && key in p) return true; } return false; }, ownKeys(target) { /** @type {Array<string | symbol>} */ const keys = []; for (let p of target.props) { if (is_function(p)) p = p(); for (const key in p) { if (!keys.includes(key)) keys.push(key); } } return keys; } }; /** * @param {Array<Record<string, unknown> | (() => Record<string, unknown>)>} props * @returns {any} */ export function spread_props(...props) { return new Proxy({ props }, spread_props_handler); } /** * @template T * @param {() => T} fn * @returns {T} */ function with_parent_branch(fn) { var effect = active_effect; var previous_effect = active_effect; while (effect !== null && (effect.f & (BRANCH_EFFECT | ROOT_EFFECT)) === 0) { effect = effect.parent; } try { set_active_effect(effect); return fn(); } finally { set_active_effect(previous_effect); } } /** * This function is responsible for synchronizing a possibly bound prop with the inner component state. * It is used whenever the compiler sees that the component writes to the prop, or when it has a default prop_value. * @template V * @param {Record<string, unknown>} props * @param {string} key * @param {number} flags * @param {V | (() => V)} [fallback] * @returns {(() => V | ((arg: V) => V) | ((arg: V, mutation: boolean) => V))} */ export function prop(props, key, flags, fallback) { var immutable = (flags & PROPS_IS_IMMUTABLE) !== 0; var runes = (flags & PROPS_IS_RUNES) !== 0; var bindable = (flags & PROPS_IS_BINDABLE) !== 0; var lazy = (flags & PROPS_IS_LAZY_INITIAL) !== 0; var prop_value = /** @type {V} */ (props[key]); var setter = get_descriptor(props, key)?.set; var fallback_value = /** @type {V} */ (fallback); var fallback_dirty = true; var fallback_used = false; var get_fallback = () => { fallback_used = true; if (fallback_dirty) { fallback_dirty = false; if (lazy) { fallback_value = untrack(/** @type {() => V} */ (fallback)); } else { fallback_value = /** @type {V} */ (fallback); } } return fallback_value; }; if (prop_value === undefined && fallback !== undefined) { if (setter && runes) { e.props_invalid_value(key); } prop_value = get_fallback(); if (setter) setter(prop_value); } /** @type {() => V} */ var getter; if (runes) { getter = () => { var value = /** @type {V} */ (props[key]); if (value === undefined) return get_fallback(); fallback_dirty = true; fallback_used = false; return value; }; } else { // Svelte 4 did not trigger updates when a primitive value was updated to the same value. // Replicate that behavior through using a derived var derived_getter = with_parent_branch(() => (immutable ? derived : derived_safe_equal)(() => /** @type {V} */ (props[key])) ); derived_getter.f |= LEGACY_DERIVED_PROP; getter = () => { var value = get(derived_getter); if (value !== undefined) fallback_value = /** @type {V} */ (undefined); return value === undefined ? fallback_value : value; }; } // easy mode — prop is never written to if ((flags & PROPS_IS_UPDATED) === 0) { return getter; } // intermediate mode — prop is written to, but the parent component had // `bind:foo` which means we can just call `$$props.foo = value` directly if (setter) { var legacy_parent = props.$$legacy; return function (/** @type {any} */ value, /** @type {boolean} */ mutation) { if (arguments.length > 0) { // We don't want to notify if the value was mutated and the parent is in runes mode. // In that case the state proxy (if it exists) should take care of the notification. // If the parent is not in runes mode, we need to notify on mutation, too, that the prop // has changed because the parent will not be able to detect the change otherwise. if (!runes || !mutation || legacy_parent) { /** @type {Function} */ (setter)(mutation ? getter() : value); } return value; } else { return getter(); } }; } // hard mode. this is where it gets ugly — the value in the child should // synchronize with the parent, but it should also be possible to temporarily // set the value to something else locally. var from_child = false; var was_from_child = false; // The derived returns the current value. The underlying mutable // source is written to from various places to persist this value. var inner_current_value = mutable_source(prop_value); var current_value = with_parent_branch(() => derived(() => { var parent_value = getter(); var child_value = get(inner_current_value); var current_derived = /** @type {Derived} */ (active_reaction); // If the getter from the parent returns undefined, switch // to using the local value from inner_current_value instead, // as the parent value might have been torn down if (from_child || (parent_value === undefined && (current_derived.f & DESTROYED) !== 0)) { from_child = false; was_from_child = true; return child_value; } was_from_child = false; return (inner_current_value.v = parent_value); }) ); if (!immutable) current_value.equals = safe_equals; return function (/** @type {any} */ value, /** @type {boolean} */ mutation) { var current = get(current_value); // legacy nonsense — need to ensure the source is invalidated when necessary // also needed for when handling inspect logic so we can inspect the correct source signal if (is_signals_recorded) { // set this so that we don't reset to the parent value if `d` // is invalidated because of `invalidate_inner_signals` (rather // than because the parent or child value changed) from_child = was_from_child; // invoke getters so that signals are picked up by `invalidate_inner_signals` getter(); get(inner_current_value); } if (arguments.length > 0) { const new_value = mutation ? get(current_value) : runes && bindable ? proxy(value) : value; if (!current_value.equals(new_value)) { from_child = true; set(inner_current_value, new_value); // To ensure the fallback value is consistent when used with proxies, we // update the local fallback_value, but only if the fallback is actively used if (fallback_used && fallback_value !== undefined) { fallback_value = new_value; } get(current_value); // force a synchronisation immediately } return value; } return current; }; } |