import { H as HYDRATION_ERROR, C as COMMENT_NODE, a as HYDRATION_END, b as HYDRATION_START, c as HYDRATION_START_ELSE, B as BOUNDARY_EFFECT, E as ERROR_VALUE, d as EFFECT_RAN, e as CLEAN, I as INERT, f as EFFECT, g as BLOCK_EFFECT, D as DIRTY, h as DERIVED, W as WAS_MARKED, i as BRANCH_EFFECT, R as ROOT_EFFECT, M as MAYBE_DIRTY, j as DESTROYED, A as ASYNC, k as HEAD_EFFECT, l as EFFECT_TRANSPARENT, m as EFFECT_PRESERVED, n as CONNECTED, o as EAGER_EFFECT, S as STATE_SYMBOL, U as UNINITIALIZED, p as STALE_REACTION, q as RENDER_EFFECT, r as USER_EFFECT, s as REACTION_IS_UPDATING, t as is_passive_event, L as LEGACY_PROPS, u as render } from "./index.js"; import { D as DEV } from "./environment.js"; import { r as run_all, d as deferred, o as object_prototype, a as array_prototype, g as get_descriptor, b as get_prototype_of, i as is_array, c as is_extensible, e as index_of, f as define_property, h as array_from } from "./utils2.js"; import { s as safe_equals, e as equals } from "./equality.js"; import "clsx"; import { s as setContext } from "./context.js"; let public_env = {}; function set_private_env(environment) { } function set_public_env(environment) { public_env = environment; } function effect_update_depth_exceeded() { { throw new Error(`https://svelte.dev/e/effect_update_depth_exceeded`); } } function hydration_failed() { { throw new Error(`https://svelte.dev/e/hydration_failed`); } } function state_descriptors_fixed() { { throw new Error(`https://svelte.dev/e/state_descriptors_fixed`); } } function state_prototype_fixed() { { throw new Error(`https://svelte.dev/e/state_prototype_fixed`); } } function state_unsafe_mutation() { { throw new Error(`https://svelte.dev/e/state_unsafe_mutation`); } } function svelte_boundary_reset_onerror() { { throw new Error(`https://svelte.dev/e/svelte_boundary_reset_onerror`); } } function hydration_mismatch(location) { { console.warn(`https://svelte.dev/e/hydration_mismatch`); } } function svelte_boundary_reset_noop() { { console.warn(`https://svelte.dev/e/svelte_boundary_reset_noop`); } } let hydrating = false; function set_hydrating(value) { hydrating = value; } let hydrate_node; function set_hydrate_node(node) { if (node === null) { hydration_mismatch(); throw HYDRATION_ERROR; } return hydrate_node = node; } function hydrate_next() { return set_hydrate_node( /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(hydrate_node) ); } function next(count = 1) { if (hydrating) { var i = count; var node = hydrate_node; while (i--) { node = /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(node); } hydrate_node = node; } } function skip_nodes(remove = true) { var depth = 0; var node = hydrate_node; while (true) { if (node.nodeType === COMMENT_NODE) { var data = ( /** @type {Comment} */ node.data ); if (data === HYDRATION_END) { if (depth === 0) return node; depth -= 1; } else if (data === HYDRATION_START || data === HYDRATION_START_ELSE) { depth += 1; } } var next2 = ( /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(node) ); if (remove) node.remove(); node = next2; } } let tracing_mode_flag = false; let component_context = null; function set_component_context(context) { component_context = context; } function push(props, runes = false, fn) { component_context = { p: component_context, i: false, c: null, e: null, s: props, x: null, l: null }; } function pop(component) { var context = ( /** @type {ComponentContext} */ component_context ); var effects = context.e; if (effects !== null) { context.e = null; for (var fn of effects) { create_user_effect(fn); } } context.i = true; component_context = context.p; return ( /** @type {T} */ {} ); } function is_runes() { return true; } let micro_tasks = []; function run_micro_tasks() { var tasks = micro_tasks; micro_tasks = []; run_all(tasks); } function queue_micro_task(fn) { if (micro_tasks.length === 0 && !is_flushing_sync) { var tasks = micro_tasks; queueMicrotask(() => { if (tasks === micro_tasks) run_micro_tasks(); }); } micro_tasks.push(fn); } function flush_tasks() { while (micro_tasks.length > 0) { run_micro_tasks(); } } function handle_error(error) { var effect = active_effect; if (effect === null) { active_reaction.f |= ERROR_VALUE; return error; } if ((effect.f & EFFECT_RAN) === 0) { if ((effect.f & BOUNDARY_EFFECT) === 0) { throw error; } effect.b.error(error); } else { invoke_error_boundary(error, effect); } } function invoke_error_boundary(error, effect) { while (effect !== null) { if ((effect.f & BOUNDARY_EFFECT) !== 0) { try { effect.b.error(error); return; } catch (e) { error = e; } } effect = effect.parent; } throw error; } const batches = /* @__PURE__ */ new Set(); let current_batch = null; let batch_values = null; let queued_root_effects = []; let last_scheduled_effect = null; let is_flushing = false; let is_flushing_sync = false; class Batch { committed = false; /** * The current values of any sources that are updated in this batch * They keys of this map are identical to `this.#previous` * @type {Map} */ current = /* @__PURE__ */ new Map(); /** * The values of any sources that are updated in this batch _before_ those updates took place. * They keys of this map are identical to `this.#current` * @type {Map} */ previous = /* @__PURE__ */ new Map(); /** * When the batch is committed (and the DOM is updated), we need to remove old branches * and append new ones by calling the functions added inside (if/each/key/etc) blocks * @type {Set<() => void>} */ #commit_callbacks = /* @__PURE__ */ new Set(); /** * If a fork is discarded, we need to destroy any effects that are no longer needed * @type {Set<(batch: Batch) => void>} */ #discard_callbacks = /* @__PURE__ */ new Set(); /** * The number of async effects that are currently in flight */ #pending = 0; /** * The number of async effects that are currently in flight, _not_ inside a pending boundary */ #blocking_pending = 0; /** * A deferred that resolves when the batch is committed, used with `settled()` * TODO replace with Promise.withResolvers once supported widely enough * @type {{ promise: Promise, resolve: (value?: any) => void, reject: (reason: unknown) => void } | null} */ #deferred = null; /** * Deferred effects (which run after async work has completed) that are DIRTY * @type {Effect[]} */ #dirty_effects = []; /** * Deferred effects that are MAYBE_DIRTY * @type {Effect[]} */ #maybe_dirty_effects = []; /** * A set of branches that still exist, but will be destroyed when this batch * is committed — we skip over these during `process` * @type {Set} */ skipped_effects = /* @__PURE__ */ new Set(); is_fork = false; is_deferred() { return this.is_fork || this.#blocking_pending > 0; } /** * * @param {Effect[]} root_effects */ process(root_effects) { queued_root_effects = []; this.apply(); var target = { parent: null, effect: null, effects: [], render_effects: [], block_effects: [] }; for (const root2 of root_effects) { this.#traverse_effect_tree(root2, target); } if (!this.is_fork) { this.#resolve(); } if (this.is_deferred()) { this.#defer_effects(target.effects); this.#defer_effects(target.render_effects); this.#defer_effects(target.block_effects); } else { current_batch = null; flush_queued_effects(target.render_effects); flush_queued_effects(target.effects); this.#deferred?.resolve(); } batch_values = null; } /** * Traverse the effect tree, executing effects or stashing * them for later execution as appropriate * @param {Effect} root * @param {EffectTarget} target */ #traverse_effect_tree(root2, target) { root2.f ^= CLEAN; var effect = root2.first; while (effect !== null) { var flags2 = effect.f; var is_branch = (flags2 & (BRANCH_EFFECT | ROOT_EFFECT)) !== 0; var is_skippable_branch = is_branch && (flags2 & CLEAN) !== 0; var skip = is_skippable_branch || (flags2 & INERT) !== 0 || this.skipped_effects.has(effect); if ((effect.f & BOUNDARY_EFFECT) !== 0 && effect.b?.is_pending()) { target = { parent: target, effect, effects: [], render_effects: [], block_effects: [] }; } if (!skip && effect.fn !== null) { if (is_branch) { effect.f ^= CLEAN; } else if ((flags2 & EFFECT) !== 0) { target.effects.push(effect); } else if (is_dirty(effect)) { if ((effect.f & BLOCK_EFFECT) !== 0) target.block_effects.push(effect); update_effect(effect); } var child = effect.first; if (child !== null) { effect = child; continue; } } var parent = effect.parent; effect = effect.next; while (effect === null && parent !== null) { if (parent === target.effect) { this.#defer_effects(target.effects); this.#defer_effects(target.render_effects); this.#defer_effects(target.block_effects); target = /** @type {EffectTarget} */ target.parent; } effect = parent.next; parent = parent.parent; } } } /** * @param {Effect[]} effects */ #defer_effects(effects) { for (const e of effects) { const target = (e.f & DIRTY) !== 0 ? this.#dirty_effects : this.#maybe_dirty_effects; target.push(e); this.#clear_marked(e.deps); set_signal_status(e, CLEAN); } } /** * @param {Value[] | null} deps */ #clear_marked(deps) { if (deps === null) return; for (const dep of deps) { if ((dep.f & DERIVED) === 0 || (dep.f & WAS_MARKED) === 0) { continue; } dep.f ^= WAS_MARKED; this.#clear_marked( /** @type {Derived} */ dep.deps ); } } /** * Associate a change to a given source with the current * batch, noting its previous and current values * @param {Source} source * @param {any} value */ capture(source2, value) { if (!this.previous.has(source2)) { this.previous.set(source2, value); } if ((source2.f & ERROR_VALUE) === 0) { this.current.set(source2, source2.v); batch_values?.set(source2, source2.v); } } activate() { current_batch = this; this.apply(); } deactivate() { if (current_batch !== this) return; current_batch = null; batch_values = null; } flush() { this.activate(); if (queued_root_effects.length > 0) { flush_effects(); if (current_batch !== null && current_batch !== this) { return; } } else if (this.#pending === 0) { this.process([]); } this.deactivate(); } discard() { for (const fn of this.#discard_callbacks) fn(this); this.#discard_callbacks.clear(); } #resolve() { if (this.#blocking_pending === 0) { for (const fn of this.#commit_callbacks) fn(); this.#commit_callbacks.clear(); } if (this.#pending === 0) { this.#commit(); } } #commit() { if (batches.size > 1) { this.previous.clear(); var previous_batch_values = batch_values; var is_earlier = true; var dummy_target = { parent: null, effect: null, effects: [], render_effects: [], block_effects: [] }; for (const batch of batches) { if (batch === this) { is_earlier = false; continue; } const sources = []; for (const [source2, value] of this.current) { if (batch.current.has(source2)) { if (is_earlier && value !== batch.current.get(source2)) { batch.current.set(source2, value); } else { continue; } } sources.push(source2); } if (sources.length === 0) { continue; } const others = [...batch.current.keys()].filter((s) => !this.current.has(s)); if (others.length > 0) { var prev_queued_root_effects = queued_root_effects; queued_root_effects = []; const marked = /* @__PURE__ */ new Set(); const checked = /* @__PURE__ */ new Map(); for (const source2 of sources) { mark_effects(source2, others, marked, checked); } if (queued_root_effects.length > 0) { current_batch = batch; batch.apply(); for (const root2 of queued_root_effects) { batch.#traverse_effect_tree(root2, dummy_target); } batch.deactivate(); } queued_root_effects = prev_queued_root_effects; } } current_batch = null; batch_values = previous_batch_values; } this.committed = true; batches.delete(this); } /** * * @param {boolean} blocking */ increment(blocking) { this.#pending += 1; if (blocking) this.#blocking_pending += 1; } /** * * @param {boolean} blocking */ decrement(blocking) { this.#pending -= 1; if (blocking) this.#blocking_pending -= 1; this.revive(); } revive() { for (const e of this.#dirty_effects) { set_signal_status(e, DIRTY); schedule_effect(e); } for (const e of this.#maybe_dirty_effects) { set_signal_status(e, MAYBE_DIRTY); schedule_effect(e); } this.#dirty_effects = []; this.#maybe_dirty_effects = []; this.flush(); } /** @param {() => void} fn */ oncommit(fn) { this.#commit_callbacks.add(fn); } /** @param {(batch: Batch) => void} fn */ ondiscard(fn) { this.#discard_callbacks.add(fn); } settled() { return (this.#deferred ??= deferred()).promise; } static ensure() { if (current_batch === null) { const batch = current_batch = new Batch(); batches.add(current_batch); if (!is_flushing_sync) { Batch.enqueue(() => { if (current_batch !== batch) { return; } batch.flush(); }); } } return current_batch; } /** @param {() => void} task */ static enqueue(task) { queue_micro_task(task); } apply() { return; } } function flushSync(fn) { var was_flushing_sync = is_flushing_sync; is_flushing_sync = true; try { var result; if (fn) ; while (true) { flush_tasks(); if (queued_root_effects.length === 0) { current_batch?.flush(); if (queued_root_effects.length === 0) { last_scheduled_effect = null; return ( /** @type {T} */ result ); } } flush_effects(); } } finally { is_flushing_sync = was_flushing_sync; } } function flush_effects() { var was_updating_effect = is_updating_effect; is_flushing = true; var source_stacks = null; try { var flush_count = 0; set_is_updating_effect(true); while (queued_root_effects.length > 0) { var batch = Batch.ensure(); if (flush_count++ > 1e3) { var updates, entry; if (DEV) ; infinite_loop_guard(); } batch.process(queued_root_effects); old_values.clear(); if (DEV) ; } } finally { is_flushing = false; set_is_updating_effect(was_updating_effect); last_scheduled_effect = null; } } function infinite_loop_guard() { try { effect_update_depth_exceeded(); } catch (error) { invoke_error_boundary(error, last_scheduled_effect); } } let eager_block_effects = null; function flush_queued_effects(effects) { var length = effects.length; if (length === 0) return; var i = 0; while (i < length) { var effect = effects[i++]; if ((effect.f & (DESTROYED | INERT)) === 0 && is_dirty(effect)) { eager_block_effects = /* @__PURE__ */ new Set(); update_effect(effect); if (effect.deps === null && effect.first === null && effect.nodes_start === null) { if (effect.teardown === null && effect.ac === null) { unlink_effect(effect); } else { effect.fn = null; } } if (eager_block_effects?.size > 0) { old_values.clear(); for (const e of eager_block_effects) { if ((e.f & (DESTROYED | INERT)) !== 0) continue; const ordered_effects = [e]; let ancestor = e.parent; while (ancestor !== null) { if (eager_block_effects.has(ancestor)) { eager_block_effects.delete(ancestor); ordered_effects.push(ancestor); } ancestor = ancestor.parent; } for (let j = ordered_effects.length - 1; j >= 0; j--) { const e2 = ordered_effects[j]; if ((e2.f & (DESTROYED | INERT)) !== 0) continue; update_effect(e2); } } eager_block_effects.clear(); } } } eager_block_effects = null; } function mark_effects(value, sources, marked, checked) { if (marked.has(value)) return; marked.add(value); if (value.reactions !== null) { for (const reaction of value.reactions) { const flags2 = reaction.f; if ((flags2 & DERIVED) !== 0) { mark_effects( /** @type {Derived} */ reaction, sources, marked, checked ); } else if ((flags2 & (ASYNC | BLOCK_EFFECT)) !== 0 && (flags2 & DIRTY) === 0 && // we may have scheduled this one already depends_on(reaction, sources, checked)) { set_signal_status(reaction, DIRTY); schedule_effect( /** @type {Effect} */ reaction ); } } } } function depends_on(reaction, sources, checked) { const depends = checked.get(reaction); if (depends !== void 0) return depends; if (reaction.deps !== null) { for (const dep of reaction.deps) { if (sources.includes(dep)) { return true; } if ((dep.f & DERIVED) !== 0 && depends_on( /** @type {Derived} */ dep, sources, checked )) { checked.set( /** @type {Derived} */ dep, true ); return true; } } } checked.set(reaction, false); return false; } function schedule_effect(signal) { var effect = last_scheduled_effect = signal; while (effect.parent !== null) { effect = effect.parent; var flags2 = effect.f; if (is_flushing && effect === active_effect && (flags2 & BLOCK_EFFECT) !== 0 && (flags2 & HEAD_EFFECT) === 0) { return; } if ((flags2 & (ROOT_EFFECT | BRANCH_EFFECT)) !== 0) { if ((flags2 & CLEAN) === 0) return; effect.f ^= CLEAN; } } queued_root_effects.push(effect); } function createSubscriber(start) { let subscribers = 0; let version = source(0); let stop; return () => { if (effect_tracking()) { get(version); render_effect(() => { if (subscribers === 0) { stop = untrack(() => start(() => increment(version))); } subscribers += 1; return () => { queue_micro_task(() => { subscribers -= 1; if (subscribers === 0) { stop?.(); stop = void 0; increment(version); } }); }; }); } }; } var flags = EFFECT_TRANSPARENT | EFFECT_PRESERVED | BOUNDARY_EFFECT; function boundary(node, props, children) { new Boundary(node, props, children); } class Boundary { /** @type {Boundary | null} */ parent; #pending = false; /** @type {TemplateNode} */ #anchor; /** @type {TemplateNode | null} */ #hydrate_open = hydrating ? hydrate_node : null; /** @type {BoundaryProps} */ #props; /** @type {((anchor: Node) => void)} */ #children; /** @type {Effect} */ #effect; /** @type {Effect | null} */ #main_effect = null; /** @type {Effect | null} */ #pending_effect = null; /** @type {Effect | null} */ #failed_effect = null; /** @type {DocumentFragment | null} */ #offscreen_fragment = null; /** @type {TemplateNode | null} */ #pending_anchor = null; #local_pending_count = 0; #pending_count = 0; #is_creating_fallback = false; /** * A source containing the number of pending async deriveds/expressions. * Only created if `$effect.pending()` is used inside the boundary, * otherwise updating the source results in needless `Batch.ensure()` * calls followed by no-op flushes * @type {Source | null} */ #effect_pending = null; #effect_pending_subscriber = createSubscriber(() => { this.#effect_pending = source(this.#local_pending_count); return () => { this.#effect_pending = null; }; }); /** * @param {TemplateNode} node * @param {BoundaryProps} props * @param {((anchor: Node) => void)} children */ constructor(node, props, children) { this.#anchor = node; this.#props = props; this.#children = children; this.parent = /** @type {Effect} */ active_effect.b; this.#pending = !!this.#props.pending; this.#effect = block(() => { active_effect.b = this; if (hydrating) { const comment = this.#hydrate_open; hydrate_next(); const server_rendered_pending = ( /** @type {Comment} */ comment.nodeType === COMMENT_NODE && /** @type {Comment} */ comment.data === HYDRATION_START_ELSE ); if (server_rendered_pending) { this.#hydrate_pending_content(); } else { this.#hydrate_resolved_content(); } } else { var anchor = this.#get_anchor(); try { this.#main_effect = branch(() => children(anchor)); } catch (error) { this.error(error); } if (this.#pending_count > 0) { this.#show_pending_snippet(); } else { this.#pending = false; } } return () => { this.#pending_anchor?.remove(); }; }, flags); if (hydrating) { this.#anchor = hydrate_node; } } #hydrate_resolved_content() { try { this.#main_effect = branch(() => this.#children(this.#anchor)); } catch (error) { this.error(error); } this.#pending = false; } #hydrate_pending_content() { const pending = this.#props.pending; if (!pending) { return; } this.#pending_effect = branch(() => pending(this.#anchor)); Batch.enqueue(() => { var anchor = this.#get_anchor(); this.#main_effect = this.#run(() => { Batch.ensure(); return branch(() => this.#children(anchor)); }); if (this.#pending_count > 0) { this.#show_pending_snippet(); } else { pause_effect( /** @type {Effect} */ this.#pending_effect, () => { this.#pending_effect = null; } ); this.#pending = false; } }); } #get_anchor() { var anchor = this.#anchor; if (this.#pending) { this.#pending_anchor = create_text(); this.#anchor.before(this.#pending_anchor); anchor = this.#pending_anchor; } return anchor; } /** * Returns `true` if the effect exists inside a boundary whose pending snippet is shown * @returns {boolean} */ is_pending() { return this.#pending || !!this.parent && this.parent.is_pending(); } has_pending_snippet() { return !!this.#props.pending; } /** * @param {() => Effect | null} fn */ #run(fn) { var previous_effect = active_effect; var previous_reaction = active_reaction; var previous_ctx = component_context; set_active_effect(this.#effect); set_active_reaction(this.#effect); set_component_context(this.#effect.ctx); try { return fn(); } catch (e) { handle_error(e); return null; } finally { set_active_effect(previous_effect); set_active_reaction(previous_reaction); set_component_context(previous_ctx); } } #show_pending_snippet() { const pending = ( /** @type {(anchor: Node) => void} */ this.#props.pending ); if (this.#main_effect !== null) { this.#offscreen_fragment = document.createDocumentFragment(); this.#offscreen_fragment.append( /** @type {TemplateNode} */ this.#pending_anchor ); move_effect(this.#main_effect, this.#offscreen_fragment); } if (this.#pending_effect === null) { this.#pending_effect = branch(() => pending(this.#anchor)); } } /** * Updates the pending count associated with the currently visible pending snippet, * if any, such that we can replace the snippet with content once work is done * @param {1 | -1} d */ #update_pending_count(d) { if (!this.has_pending_snippet()) { if (this.parent) { this.parent.#update_pending_count(d); } return; } this.#pending_count += d; if (this.#pending_count === 0) { this.#pending = false; if (this.#pending_effect) { pause_effect(this.#pending_effect, () => { this.#pending_effect = null; }); } if (this.#offscreen_fragment) { this.#anchor.before(this.#offscreen_fragment); this.#offscreen_fragment = null; } } } /** * Update the source that powers `$effect.pending()` inside this boundary, * and controls when the current `pending` snippet (if any) is removed. * Do not call from inside the class * @param {1 | -1} d */ update_pending_count(d) { this.#update_pending_count(d); this.#local_pending_count += d; if (this.#effect_pending) { internal_set(this.#effect_pending, this.#local_pending_count); } } get_effect_pending() { this.#effect_pending_subscriber(); return get( /** @type {Source} */ this.#effect_pending ); } /** @param {unknown} error */ error(error) { var onerror = this.#props.onerror; let failed = this.#props.failed; if (this.#is_creating_fallback || !onerror && !failed) { throw error; } if (this.#main_effect) { destroy_effect(this.#main_effect); this.#main_effect = null; } if (this.#pending_effect) { destroy_effect(this.#pending_effect); this.#pending_effect = null; } if (this.#failed_effect) { destroy_effect(this.#failed_effect); this.#failed_effect = null; } if (hydrating) { set_hydrate_node( /** @type {TemplateNode} */ this.#hydrate_open ); next(); set_hydrate_node(skip_nodes()); } var did_reset = false; var calling_on_error = false; const reset = () => { if (did_reset) { svelte_boundary_reset_noop(); return; } did_reset = true; if (calling_on_error) { svelte_boundary_reset_onerror(); } Batch.ensure(); this.#local_pending_count = 0; if (this.#failed_effect !== null) { pause_effect(this.#failed_effect, () => { this.#failed_effect = null; }); } this.#pending = this.has_pending_snippet(); this.#main_effect = this.#run(() => { this.#is_creating_fallback = false; return branch(() => this.#children(this.#anchor)); }); if (this.#pending_count > 0) { this.#show_pending_snippet(); } else { this.#pending = false; } }; var previous_reaction = active_reaction; try { set_active_reaction(null); calling_on_error = true; onerror?.(error, reset); calling_on_error = false; } catch (error2) { invoke_error_boundary(error2, this.#effect && this.#effect.parent); } finally { set_active_reaction(previous_reaction); } if (failed) { queue_micro_task(() => { this.#failed_effect = this.#run(() => { Batch.ensure(); this.#is_creating_fallback = true; try { return branch(() => { failed( this.#anchor, () => error, () => reset ); }); } catch (error2) { invoke_error_boundary( error2, /** @type {Effect} */ this.#effect.parent ); return null; } finally { this.#is_creating_fallback = false; } }); }); } } } function destroy_derived_effects(derived) { var effects = derived.effects; if (effects !== null) { derived.effects = null; for (var i = 0; i < effects.length; i += 1) { destroy_effect( /** @type {Effect} */ effects[i] ); } } } function get_derived_parent_effect(derived) { var parent = derived.parent; while (parent !== null) { if ((parent.f & DERIVED) === 0) { return (parent.f & DESTROYED) === 0 ? ( /** @type {Effect} */ parent ) : null; } parent = parent.parent; } return null; } function execute_derived(derived) { var value; var prev_active_effect = active_effect; set_active_effect(get_derived_parent_effect(derived)); { try { derived.f &= ~WAS_MARKED; destroy_derived_effects(derived); value = update_reaction(derived); } finally { set_active_effect(prev_active_effect); } } return value; } function update_derived(derived) { var value = execute_derived(derived); if (!derived.equals(value)) { derived.v = value; derived.wv = increment_write_version(); } if (is_destroying_effect) { return; } if (batch_values !== null) { if (effect_tracking()) { batch_values.set(derived, derived.v); } } else { var status = (derived.f & CONNECTED) === 0 ? MAYBE_DIRTY : CLEAN; set_signal_status(derived, status); } } let eager_effects = /* @__PURE__ */ new Set(); const old_values = /* @__PURE__ */ new Map(); let eager_effects_deferred = false; function source(v, stack) { var signal = { f: 0, // TODO ideally we could skip this altogether, but it causes type errors v, reactions: null, equals, rv: 0, wv: 0 }; return signal; } // @__NO_SIDE_EFFECTS__ function state(v, stack) { const s = source(v); push_reaction_value(s); return s; } // @__NO_SIDE_EFFECTS__ function mutable_source(initial_value, immutable = false, trackable = true) { const s = source(initial_value); if (!immutable) { s.equals = safe_equals; } return s; } function set(source2, value, should_proxy = false) { if (active_reaction !== null && // since we are untracking the function inside `$inspect.with` we need to add this check // to ensure we error if state is set inside an inspect effect (!untracking || (active_reaction.f & EAGER_EFFECT) !== 0) && is_runes() && (active_reaction.f & (DERIVED | BLOCK_EFFECT | ASYNC | EAGER_EFFECT)) !== 0 && !current_sources?.includes(source2)) { state_unsafe_mutation(); } let new_value = should_proxy ? proxy(value) : value; return internal_set(source2, new_value); } function internal_set(source2, value) { if (!source2.equals(value)) { var old_value = source2.v; if (is_destroying_effect) { old_values.set(source2, value); } else { old_values.set(source2, old_value); } source2.v = value; var batch = Batch.ensure(); batch.capture(source2, old_value); if ((source2.f & DERIVED) !== 0) { if ((source2.f & DIRTY) !== 0) { execute_derived( /** @type {Derived} */ source2 ); } set_signal_status(source2, (source2.f & CONNECTED) !== 0 ? CLEAN : MAYBE_DIRTY); } source2.wv = increment_write_version(); mark_reactions(source2, DIRTY); if (active_effect !== null && (active_effect.f & CLEAN) !== 0 && (active_effect.f & (BRANCH_EFFECT | ROOT_EFFECT)) === 0) { if (untracked_writes === null) { set_untracked_writes([source2]); } else { untracked_writes.push(source2); } } if (!batch.is_fork && eager_effects.size > 0 && !eager_effects_deferred) { flush_eager_effects(); } } return value; } function flush_eager_effects() { eager_effects_deferred = false; var prev_is_updating_effect = is_updating_effect; set_is_updating_effect(true); const inspects = Array.from(eager_effects); try { for (const effect of inspects) { if ((effect.f & CLEAN) !== 0) { set_signal_status(effect, MAYBE_DIRTY); } if (is_dirty(effect)) { update_effect(effect); } } } finally { set_is_updating_effect(prev_is_updating_effect); } eager_effects.clear(); } function increment(source2) { set(source2, source2.v + 1); } function mark_reactions(signal, status) { var reactions = signal.reactions; if (reactions === null) return; var length = reactions.length; for (var i = 0; i < length; i++) { var reaction = reactions[i]; var flags2 = reaction.f; var not_dirty = (flags2 & DIRTY) === 0; if (not_dirty) { set_signal_status(reaction, status); } if ((flags2 & DERIVED) !== 0) { var derived = ( /** @type {Derived} */ reaction ); batch_values?.delete(derived); if ((flags2 & WAS_MARKED) === 0) { if (flags2 & CONNECTED) { reaction.f |= WAS_MARKED; } mark_reactions(derived, MAYBE_DIRTY); } } else if (not_dirty) { if ((flags2 & BLOCK_EFFECT) !== 0) { if (eager_block_effects !== null) { eager_block_effects.add( /** @type {Effect} */ reaction ); } } schedule_effect( /** @type {Effect} */ reaction ); } } } function proxy(value) { if (typeof value !== "object" || value === null || STATE_SYMBOL in value) { return value; } const prototype = get_prototype_of(value); if (prototype !== object_prototype && prototype !== array_prototype) { return value; } var sources = /* @__PURE__ */ new Map(); var is_proxied_array = is_array(value); var version = /* @__PURE__ */ state(0); var parent_version = update_version; var with_parent = (fn) => { if (update_version === parent_version) { return fn(); } var reaction = active_reaction; var version2 = update_version; set_active_reaction(null); set_update_version(parent_version); var result = fn(); set_active_reaction(reaction); set_update_version(version2); return result; }; if (is_proxied_array) { sources.set("length", /* @__PURE__ */ state( /** @type {any[]} */ value.length )); } return new Proxy( /** @type {any} */ value, { defineProperty(_, prop, descriptor) { if (!("value" in descriptor) || descriptor.configurable === false || descriptor.enumerable === false || descriptor.writable === false) { state_descriptors_fixed(); } var s = sources.get(prop); if (s === void 0) { s = with_parent(() => { var s2 = /* @__PURE__ */ state(descriptor.value); sources.set(prop, s2); return s2; }); } else { set(s, descriptor.value, true); } return true; }, deleteProperty(target, prop) { var s = sources.get(prop); if (s === void 0) { if (prop in target) { const s2 = with_parent(() => /* @__PURE__ */ state(UNINITIALIZED)); sources.set(prop, s2); increment(version); } } else { set(s, UNINITIALIZED); increment(version); } return true; }, get(target, prop, receiver) { if (prop === STATE_SYMBOL) { return value; } var s = sources.get(prop); var exists = prop in target; if (s === void 0 && (!exists || get_descriptor(target, prop)?.writable)) { s = with_parent(() => { var p = proxy(exists ? target[prop] : UNINITIALIZED); var s2 = /* @__PURE__ */ state(p); return s2; }); sources.set(prop, s); } if (s !== void 0) { var v = get(s); return v === UNINITIALIZED ? void 0 : v; } return Reflect.get(target, prop, receiver); }, getOwnPropertyDescriptor(target, prop) { var descriptor = Reflect.getOwnPropertyDescriptor(target, prop); if (descriptor && "value" in descriptor) { var s = sources.get(prop); if (s) descriptor.value = get(s); } else if (descriptor === void 0) { var source2 = sources.get(prop); var value2 = source2?.v; if (source2 !== void 0 && value2 !== UNINITIALIZED) { return { enumerable: true, configurable: true, value: value2, writable: true }; } } return descriptor; }, has(target, prop) { if (prop === STATE_SYMBOL) { return true; } var s = sources.get(prop); var has = s !== void 0 && s.v !== UNINITIALIZED || Reflect.has(target, prop); if (s !== void 0 || active_effect !== null && (!has || get_descriptor(target, prop)?.writable)) { if (s === void 0) { s = with_parent(() => { var p = has ? proxy(target[prop]) : UNINITIALIZED; var s2 = /* @__PURE__ */ state(p); return s2; }); sources.set(prop, s); } var value2 = get(s); if (value2 === UNINITIALIZED) { return false; } } return has; }, set(target, prop, value2, receiver) { var s = sources.get(prop); var has = prop in target; if (is_proxied_array && prop === "length") { for (var i = value2; i < /** @type {Source} */ s.v; i += 1) { var other_s = sources.get(i + ""); if (other_s !== void 0) { set(other_s, UNINITIALIZED); } else if (i in target) { other_s = with_parent(() => /* @__PURE__ */ state(UNINITIALIZED)); sources.set(i + "", other_s); } } } if (s === void 0) { if (!has || get_descriptor(target, prop)?.writable) { s = with_parent(() => /* @__PURE__ */ state(void 0)); set(s, proxy(value2)); sources.set(prop, s); } } else { has = s.v !== UNINITIALIZED; var p = with_parent(() => proxy(value2)); set(s, p); } var descriptor = Reflect.getOwnPropertyDescriptor(target, prop); if (descriptor?.set) { descriptor.set.call(receiver, value2); } if (!has) { if (is_proxied_array && typeof prop === "string") { var ls = ( /** @type {Source} */ sources.get("length") ); var n = Number(prop); if (Number.isInteger(n) && n >= ls.v) { set(ls, n + 1); } } increment(version); } return true; }, ownKeys(target) { get(version); var own_keys = Reflect.ownKeys(target).filter((key2) => { var source3 = sources.get(key2); return source3 === void 0 || source3.v !== UNINITIALIZED; }); for (var [key, source2] of sources) { if (source2.v !== UNINITIALIZED && !(key in target)) { own_keys.push(key); } } return own_keys; }, setPrototypeOf() { state_prototype_fixed(); } } ); } var $window; var first_child_getter; var next_sibling_getter; function init_operations() { if ($window !== void 0) { return; } $window = window; var element_prototype = Element.prototype; var node_prototype = Node.prototype; var text_prototype = Text.prototype; first_child_getter = get_descriptor(node_prototype, "firstChild").get; next_sibling_getter = get_descriptor(node_prototype, "nextSibling").get; if (is_extensible(element_prototype)) { element_prototype.__click = void 0; element_prototype.__className = void 0; element_prototype.__attributes = null; element_prototype.__style = void 0; element_prototype.__e = void 0; } if (is_extensible(text_prototype)) { text_prototype.__t = void 0; } } function create_text(value = "") { return document.createTextNode(value); } // @__NO_SIDE_EFFECTS__ function get_first_child(node) { return first_child_getter.call(node); } // @__NO_SIDE_EFFECTS__ function get_next_sibling(node) { return next_sibling_getter.call(node); } function clear_text_content(node) { node.textContent = ""; } function without_reactive_context(fn) { var previous_reaction = active_reaction; var previous_effect = active_effect; set_active_reaction(null); set_active_effect(null); try { return fn(); } finally { set_active_reaction(previous_reaction); set_active_effect(previous_effect); } } function push_effect(effect, parent_effect) { var parent_last = parent_effect.last; if (parent_last === null) { parent_effect.last = parent_effect.first = effect; } else { parent_last.next = effect; effect.prev = parent_last; parent_effect.last = effect; } } function create_effect(type, fn, sync) { var parent = active_effect; if (parent !== null && (parent.f & INERT) !== 0) { type |= INERT; } var effect = { ctx: component_context, deps: null, nodes_start: null, nodes_end: null, f: type | DIRTY | CONNECTED, first: null, fn, last: null, next: null, parent, b: parent && parent.b, prev: null, teardown: null, transitions: null, wv: 0, ac: null }; if (sync) { try { update_effect(effect); effect.f |= EFFECT_RAN; } catch (e2) { destroy_effect(effect); throw e2; } } else if (fn !== null) { schedule_effect(effect); } var e = effect; if (sync && e.deps === null && e.teardown === null && e.nodes_start === null && e.first === e.last && // either `null`, or a singular child (e.f & EFFECT_PRESERVED) === 0) { e = e.first; if ((type & BLOCK_EFFECT) !== 0 && (type & EFFECT_TRANSPARENT) !== 0 && e !== null) { e.f |= EFFECT_TRANSPARENT; } } if (e !== null) { e.parent = parent; if (parent !== null) { push_effect(e, parent); } if (active_reaction !== null && (active_reaction.f & DERIVED) !== 0 && (type & ROOT_EFFECT) === 0) { var derived = ( /** @type {Derived} */ active_reaction ); (derived.effects ??= []).push(e); } } return effect; } function effect_tracking() { return active_reaction !== null && !untracking; } function create_user_effect(fn) { return create_effect(EFFECT | USER_EFFECT, fn, false); } function component_root(fn) { Batch.ensure(); const effect = create_effect(ROOT_EFFECT | EFFECT_PRESERVED, fn, true); return (options2 = {}) => { return new Promise((fulfil) => { if (options2.outro) { pause_effect(effect, () => { destroy_effect(effect); fulfil(void 0); }); } else { destroy_effect(effect); fulfil(void 0); } }); }; } function render_effect(fn, flags2 = 0) { return create_effect(RENDER_EFFECT | flags2, fn, true); } function block(fn, flags2 = 0) { var effect = create_effect(BLOCK_EFFECT | flags2, fn, true); return effect; } function branch(fn) { return create_effect(BRANCH_EFFECT | EFFECT_PRESERVED, fn, true); } function execute_effect_teardown(effect) { var teardown = effect.teardown; if (teardown !== null) { const previously_destroying_effect = is_destroying_effect; const previous_reaction = active_reaction; set_is_destroying_effect(true); set_active_reaction(null); try { teardown.call(null); } finally { set_is_destroying_effect(previously_destroying_effect); set_active_reaction(previous_reaction); } } } function destroy_effect_children(signal, remove_dom = false) { var effect = signal.first; signal.first = signal.last = null; while (effect !== null) { const controller = effect.ac; if (controller !== null) { without_reactive_context(() => { controller.abort(STALE_REACTION); }); } var next2 = effect.next; if ((effect.f & ROOT_EFFECT) !== 0) { effect.parent = null; } else { destroy_effect(effect, remove_dom); } effect = next2; } } function destroy_block_effect_children(signal) { var effect = signal.first; while (effect !== null) { var next2 = effect.next; if ((effect.f & BRANCH_EFFECT) === 0) { destroy_effect(effect); } effect = next2; } } function destroy_effect(effect, remove_dom = true) { var removed = false; if ((remove_dom || (effect.f & HEAD_EFFECT) !== 0) && effect.nodes_start !== null && effect.nodes_end !== null) { remove_effect_dom( effect.nodes_start, /** @type {TemplateNode} */ effect.nodes_end ); removed = true; } destroy_effect_children(effect, remove_dom && !removed); remove_reactions(effect, 0); set_signal_status(effect, DESTROYED); var transitions = effect.transitions; if (transitions !== null) { for (const transition of transitions) { transition.stop(); } } execute_effect_teardown(effect); var parent = effect.parent; if (parent !== null && parent.first !== null) { unlink_effect(effect); } effect.next = effect.prev = effect.teardown = effect.ctx = effect.deps = effect.fn = effect.nodes_start = effect.nodes_end = effect.ac = null; } function remove_effect_dom(node, end) { while (node !== null) { var next2 = node === end ? null : ( /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(node) ); node.remove(); node = next2; } } function unlink_effect(effect) { var parent = effect.parent; var prev = effect.prev; var next2 = effect.next; if (prev !== null) prev.next = next2; if (next2 !== null) next2.prev = prev; if (parent !== null) { if (parent.first === effect) parent.first = next2; if (parent.last === effect) parent.last = prev; } } function pause_effect(effect, callback, destroy = true) { var transitions = []; pause_children(effect, transitions, true); run_out_transitions(transitions, () => { if (destroy) destroy_effect(effect); if (callback) callback(); }); } function run_out_transitions(transitions, fn) { var remaining = transitions.length; if (remaining > 0) { var check = () => --remaining || fn(); for (var transition of transitions) { transition.out(check); } } else { fn(); } } function pause_children(effect, transitions, local) { if ((effect.f & INERT) !== 0) return; effect.f ^= INERT; if (effect.transitions !== null) { for (const transition of effect.transitions) { if (transition.is_global || local) { transitions.push(transition); } } } var child = effect.first; while (child !== null) { var sibling = child.next; var transparent = (child.f & EFFECT_TRANSPARENT) !== 0 || // If this is a branch effect without a block effect parent, // it means the parent block effect was pruned. In that case, // transparency information was transferred to the branch effect. (child.f & BRANCH_EFFECT) !== 0 && (effect.f & BLOCK_EFFECT) !== 0; pause_children(child, transitions, transparent ? local : false); child = sibling; } } function move_effect(effect, fragment) { var node = effect.nodes_start; var end = effect.nodes_end; while (node !== null) { var next2 = node === end ? null : ( /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(node) ); fragment.append(node); node = next2; } } let is_updating_effect = false; function set_is_updating_effect(value) { is_updating_effect = value; } let is_destroying_effect = false; function set_is_destroying_effect(value) { is_destroying_effect = value; } let active_reaction = null; let untracking = false; function set_active_reaction(reaction) { active_reaction = reaction; } let active_effect = null; function set_active_effect(effect) { active_effect = effect; } let current_sources = null; function push_reaction_value(value) { if (active_reaction !== null && true) { if (current_sources === null) { current_sources = [value]; } else { current_sources.push(value); } } } let new_deps = null; let skipped_deps = 0; let untracked_writes = null; function set_untracked_writes(value) { untracked_writes = value; } let write_version = 1; let read_version = 0; let update_version = read_version; function set_update_version(value) { update_version = value; } function increment_write_version() { return ++write_version; } function is_dirty(reaction) { var flags2 = reaction.f; if ((flags2 & DIRTY) !== 0) { return true; } if (flags2 & DERIVED) { reaction.f &= ~WAS_MARKED; } if ((flags2 & MAYBE_DIRTY) !== 0) { var dependencies = reaction.deps; if (dependencies !== null) { var length = dependencies.length; for (var i = 0; i < length; i++) { var dependency = dependencies[i]; if (is_dirty( /** @type {Derived} */ dependency )) { update_derived( /** @type {Derived} */ dependency ); } if (dependency.wv > reaction.wv) { return true; } } } if ((flags2 & CONNECTED) !== 0 && // During time traveling we don't want to reset the status so that // traversal of the graph in the other batches still happens batch_values === null) { set_signal_status(reaction, CLEAN); } } return false; } function schedule_possible_effect_self_invalidation(signal, effect, root2 = true) { var reactions = signal.reactions; if (reactions === null) return; if (current_sources?.includes(signal)) { return; } for (var i = 0; i < reactions.length; i++) { var reaction = reactions[i]; if ((reaction.f & DERIVED) !== 0) { schedule_possible_effect_self_invalidation( /** @type {Derived} */ reaction, effect, false ); } else if (effect === reaction) { if (root2) { set_signal_status(reaction, DIRTY); } else if ((reaction.f & CLEAN) !== 0) { set_signal_status(reaction, MAYBE_DIRTY); } schedule_effect( /** @type {Effect} */ reaction ); } } } function update_reaction(reaction) { var previous_deps = new_deps; var previous_skipped_deps = skipped_deps; var previous_untracked_writes = untracked_writes; var previous_reaction = active_reaction; var previous_sources = current_sources; var previous_component_context = component_context; var previous_untracking = untracking; var previous_update_version = update_version; var flags2 = reaction.f; new_deps = /** @type {null | Value[]} */ null; skipped_deps = 0; untracked_writes = null; active_reaction = (flags2 & (BRANCH_EFFECT | ROOT_EFFECT)) === 0 ? reaction : null; current_sources = null; set_component_context(reaction.ctx); untracking = false; update_version = ++read_version; if (reaction.ac !== null) { without_reactive_context(() => { reaction.ac.abort(STALE_REACTION); }); reaction.ac = null; } try { reaction.f |= REACTION_IS_UPDATING; var fn = ( /** @type {Function} */ reaction.fn ); var result = fn(); var deps = reaction.deps; if (new_deps !== null) { var i; remove_reactions(reaction, skipped_deps); if (deps !== null && skipped_deps > 0) { deps.length = skipped_deps + new_deps.length; for (i = 0; i < new_deps.length; i++) { deps[skipped_deps + i] = new_deps[i]; } } else { reaction.deps = deps = new_deps; } if (is_updating_effect && effect_tracking() && (reaction.f & CONNECTED) !== 0) { for (i = skipped_deps; i < deps.length; i++) { (deps[i].reactions ??= []).push(reaction); } } } else if (deps !== null && skipped_deps < deps.length) { remove_reactions(reaction, skipped_deps); deps.length = skipped_deps; } if (is_runes() && untracked_writes !== null && !untracking && deps !== null && (reaction.f & (DERIVED | MAYBE_DIRTY | DIRTY)) === 0) { for (i = 0; i < /** @type {Source[]} */ untracked_writes.length; i++) { schedule_possible_effect_self_invalidation( untracked_writes[i], /** @type {Effect} */ reaction ); } } if (previous_reaction !== null && previous_reaction !== reaction) { read_version++; if (untracked_writes !== null) { if (previous_untracked_writes === null) { previous_untracked_writes = untracked_writes; } else { previous_untracked_writes.push(.../** @type {Source[]} */ untracked_writes); } } } if ((reaction.f & ERROR_VALUE) !== 0) { reaction.f ^= ERROR_VALUE; } return result; } catch (error) { return handle_error(error); } finally { reaction.f ^= REACTION_IS_UPDATING; new_deps = previous_deps; skipped_deps = previous_skipped_deps; untracked_writes = previous_untracked_writes; active_reaction = previous_reaction; current_sources = previous_sources; set_component_context(previous_component_context); untracking = previous_untracking; update_version = previous_update_version; } } function remove_reaction(signal, dependency) { let reactions = dependency.reactions; if (reactions !== null) { var index = index_of.call(reactions, signal); if (index !== -1) { var new_length = reactions.length - 1; if (new_length === 0) { reactions = dependency.reactions = null; } else { reactions[index] = reactions[new_length]; reactions.pop(); } } } if (reactions === null && (dependency.f & DERIVED) !== 0 && // Destroying a child effect while updating a parent effect can cause a dependency to appear // to be unused, when in fact it is used by the currently-updating parent. Checking `new_deps` // allows us to skip the expensive work of disconnecting and immediately reconnecting it (new_deps === null || !new_deps.includes(dependency))) { set_signal_status(dependency, MAYBE_DIRTY); if ((dependency.f & CONNECTED) !== 0) { dependency.f ^= CONNECTED; dependency.f &= ~WAS_MARKED; } destroy_derived_effects( /** @type {Derived} **/ dependency ); remove_reactions( /** @type {Derived} **/ dependency, 0 ); } } function remove_reactions(signal, start_index) { var dependencies = signal.deps; if (dependencies === null) return; for (var i = start_index; i < dependencies.length; i++) { remove_reaction(signal, dependencies[i]); } } function update_effect(effect) { var flags2 = effect.f; if ((flags2 & DESTROYED) !== 0) { return; } set_signal_status(effect, CLEAN); var previous_effect = active_effect; var was_updating_effect = is_updating_effect; active_effect = effect; is_updating_effect = true; try { if ((flags2 & BLOCK_EFFECT) !== 0) { destroy_block_effect_children(effect); } else { destroy_effect_children(effect); } execute_effect_teardown(effect); var teardown = update_reaction(effect); effect.teardown = typeof teardown === "function" ? teardown : null; effect.wv = write_version; var dep; if (DEV && tracing_mode_flag && (effect.f & DIRTY) !== 0 && effect.deps !== null) ; } finally { is_updating_effect = was_updating_effect; active_effect = previous_effect; } } function get(signal) { var flags2 = signal.f; var is_derived = (flags2 & DERIVED) !== 0; if (active_reaction !== null && !untracking) { var destroyed = active_effect !== null && (active_effect.f & DESTROYED) !== 0; if (!destroyed && !current_sources?.includes(signal)) { var deps = active_reaction.deps; if ((active_reaction.f & REACTION_IS_UPDATING) !== 0) { if (signal.rv < read_version) { signal.rv = read_version; if (new_deps === null && deps !== null && deps[skipped_deps] === signal) { skipped_deps++; } else if (new_deps === null) { new_deps = [signal]; } else if (!new_deps.includes(signal)) { new_deps.push(signal); } } } else { (active_reaction.deps ??= []).push(signal); var reactions = signal.reactions; if (reactions === null) { signal.reactions = [active_reaction]; } else if (!reactions.includes(active_reaction)) { reactions.push(active_reaction); } } } } if (is_destroying_effect) { if (old_values.has(signal)) { return old_values.get(signal); } if (is_derived) { var derived = ( /** @type {Derived} */ signal ); var value = derived.v; if ((derived.f & CLEAN) === 0 && derived.reactions !== null || depends_on_old_values(derived)) { value = execute_derived(derived); } old_values.set(derived, value); return value; } } else if (is_derived) { derived = /** @type {Derived} */ signal; if (batch_values?.has(derived)) { return batch_values.get(derived); } if (is_dirty(derived)) { update_derived(derived); } if (is_updating_effect && effect_tracking() && (derived.f & CONNECTED) === 0) { reconnect(derived); } } else if (batch_values?.has(signal)) { return batch_values.get(signal); } if ((signal.f & ERROR_VALUE) !== 0) { throw signal.v; } return signal.v; } function reconnect(derived) { if (derived.deps === null) return; derived.f ^= CONNECTED; for (const dep of derived.deps) { (dep.reactions ??= []).push(derived); if ((dep.f & DERIVED) !== 0 && (dep.f & CONNECTED) === 0) { reconnect( /** @type {Derived} */ dep ); } } } function depends_on_old_values(derived) { if (derived.v === UNINITIALIZED) return true; if (derived.deps === null) return false; for (const dep of derived.deps) { if (old_values.has(dep)) { return true; } if ((dep.f & DERIVED) !== 0 && depends_on_old_values( /** @type {Derived} */ dep )) { return true; } } return false; } function untrack(fn) { var previous_untracking = untracking; try { untracking = true; return fn(); } finally { untracking = previous_untracking; } } const STATUS_MASK = -7169; function set_signal_status(signal, status) { signal.f = signal.f & STATUS_MASK | status; } const all_registered_events = /* @__PURE__ */ new Set(); const root_event_handles = /* @__PURE__ */ new Set(); let last_propagated_event = null; function handle_event_propagation(event) { var handler_element = this; var owner_document = ( /** @type {Node} */ handler_element.ownerDocument ); var event_name = event.type; var path = event.composedPath?.() || []; var current_target = ( /** @type {null | Element} */ path[0] || event.target ); last_propagated_event = event; var path_idx = 0; var handled_at = last_propagated_event === event && event.__root; if (handled_at) { var at_idx = path.indexOf(handled_at); if (at_idx !== -1 && (handler_element === document || handler_element === /** @type {any} */ window)) { event.__root = handler_element; return; } var handler_idx = path.indexOf(handler_element); if (handler_idx === -1) { return; } if (at_idx <= handler_idx) { path_idx = at_idx; } } current_target = /** @type {Element} */ path[path_idx] || event.target; if (current_target === handler_element) return; define_property(event, "currentTarget", { configurable: true, get() { return current_target || owner_document; } }); var previous_reaction = active_reaction; var previous_effect = active_effect; set_active_reaction(null); set_active_effect(null); try { var throw_error; var other_errors = []; while (current_target !== null) { var parent_element = current_target.assignedSlot || current_target.parentNode || /** @type {any} */ current_target.host || null; try { var delegated = current_target["__" + event_name]; if (delegated != null && (!/** @type {any} */ current_target.disabled || // DOM could've been updated already by the time this is reached, so we check this as well // -> the target could not have been disabled because it emits the event in the first place event.target === current_target)) { delegated.call(current_target, event); } } catch (error) { if (throw_error) { other_errors.push(error); } else { throw_error = error; } } if (event.cancelBubble || parent_element === handler_element || parent_element === null) { break; } current_target = parent_element; } if (throw_error) { for (let error of other_errors) { queueMicrotask(() => { throw error; }); } throw throw_error; } } finally { event.__root = handler_element; delete event.currentTarget; set_active_reaction(previous_reaction); set_active_effect(previous_effect); } } function assign_nodes(start, end) { var effect = ( /** @type {Effect} */ active_effect ); if (effect.nodes_start === null) { effect.nodes_start = start; effect.nodes_end = end; } } function mount(component, options2) { return _mount(component, options2); } function hydrate(component, options2) { init_operations(); options2.intro = options2.intro ?? false; const target = options2.target; const was_hydrating = hydrating; const previous_hydrate_node = hydrate_node; try { var anchor = ( /** @type {TemplateNode} */ /* @__PURE__ */ get_first_child(target) ); while (anchor && (anchor.nodeType !== COMMENT_NODE || /** @type {Comment} */ anchor.data !== HYDRATION_START)) { anchor = /** @type {TemplateNode} */ /* @__PURE__ */ get_next_sibling(anchor); } if (!anchor) { throw HYDRATION_ERROR; } set_hydrating(true); set_hydrate_node( /** @type {Comment} */ anchor ); const instance = _mount(component, { ...options2, anchor }); set_hydrating(false); return ( /** @type {Exports} */ instance ); } catch (error) { if (error instanceof Error && error.message.split("\n").some((line) => line.startsWith("https://svelte.dev/e/"))) { throw error; } if (error !== HYDRATION_ERROR) { console.warn("Failed to hydrate: ", error); } if (options2.recover === false) { hydration_failed(); } init_operations(); clear_text_content(target); set_hydrating(false); return mount(component, options2); } finally { set_hydrating(was_hydrating); set_hydrate_node(previous_hydrate_node); } } const document_listeners = /* @__PURE__ */ new Map(); function _mount(Component, { target, anchor, props = {}, events, context, intro = true }) { init_operations(); var registered_events = /* @__PURE__ */ new Set(); var event_handle = (events2) => { for (var i = 0; i < events2.length; i++) { var event_name = events2[i]; if (registered_events.has(event_name)) continue; registered_events.add(event_name); var passive = is_passive_event(event_name); target.addEventListener(event_name, handle_event_propagation, { passive }); var n = document_listeners.get(event_name); if (n === void 0) { document.addEventListener(event_name, handle_event_propagation, { passive }); document_listeners.set(event_name, 1); } else { document_listeners.set(event_name, n + 1); } } }; event_handle(array_from(all_registered_events)); root_event_handles.add(event_handle); var component = void 0; var unmount2 = component_root(() => { var anchor_node = anchor ?? target.appendChild(create_text()); boundary( /** @type {TemplateNode} */ anchor_node, { pending: () => { } }, (anchor_node2) => { if (context) { push({}); var ctx = ( /** @type {ComponentContext} */ component_context ); ctx.c = context; } if (events) { props.$$events = events; } if (hydrating) { assign_nodes( /** @type {TemplateNode} */ anchor_node2, null ); } component = Component(anchor_node2, props) || {}; if (hydrating) { active_effect.nodes_end = hydrate_node; if (hydrate_node === null || hydrate_node.nodeType !== COMMENT_NODE || /** @type {Comment} */ hydrate_node.data !== HYDRATION_END) { hydration_mismatch(); throw HYDRATION_ERROR; } } if (context) { pop(); } } ); return () => { for (var event_name of registered_events) { target.removeEventListener(event_name, handle_event_propagation); var n = ( /** @type {number} */ document_listeners.get(event_name) ); if (--n === 0) { document.removeEventListener(event_name, handle_event_propagation); document_listeners.delete(event_name); } else { document_listeners.set(event_name, n); } } root_event_handles.delete(event_handle); if (anchor_node !== anchor) { anchor_node.parentNode?.removeChild(anchor_node); } }; }); mounted_components.set(component, unmount2); return component; } let mounted_components = /* @__PURE__ */ new WeakMap(); function unmount(component, options2) { const fn = mounted_components.get(component); if (fn) { mounted_components.delete(component); return fn(options2); } return Promise.resolve(); } function asClassComponent$1(component) { return class extends Svelte4Component { /** @param {any} options */ constructor(options2) { super({ component, ...options2 }); } }; } class Svelte4Component { /** @type {any} */ #events; /** @type {Record} */ #instance; /** * @param {ComponentConstructorOptions & { * component: any; * }} options */ constructor(options2) { var sources = /* @__PURE__ */ new Map(); var add_source = (key, value) => { var s = /* @__PURE__ */ mutable_source(value, false, false); sources.set(key, s); return s; }; const props = new Proxy( { ...options2.props || {}, $$events: {} }, { get(target, prop) { return get(sources.get(prop) ?? add_source(prop, Reflect.get(target, prop))); }, has(target, prop) { if (prop === LEGACY_PROPS) return true; get(sources.get(prop) ?? add_source(prop, Reflect.get(target, prop))); return Reflect.has(target, prop); }, set(target, prop, value) { set(sources.get(prop) ?? add_source(prop, value), value); return Reflect.set(target, prop, value); } } ); this.#instance = (options2.hydrate ? hydrate : mount)(options2.component, { target: options2.target, anchor: options2.anchor, props, context: options2.context, intro: options2.intro ?? false, recover: options2.recover }); if (!options2?.props?.$$host || options2.sync === false) { flushSync(); } this.#events = props.$$events; for (const key of Object.keys(this.#instance)) { if (key === "$set" || key === "$destroy" || key === "$on") continue; define_property(this, key, { get() { return this.#instance[key]; }, /** @param {any} value */ set(value) { this.#instance[key] = value; }, enumerable: true }); } this.#instance.$set = /** @param {Record} next */ (next2) => { Object.assign(props, next2); }; this.#instance.$destroy = () => { unmount(this.#instance); }; } /** @param {Record} props */ $set(props) { this.#instance.$set(props); } /** * @param {string} event * @param {(...args: any[]) => any} callback * @returns {any} */ $on(event, callback) { this.#events[event] = this.#events[event] || []; const cb = (...args) => callback.call(this, ...args); this.#events[event].push(cb); return () => { this.#events[event] = this.#events[event].filter( /** @param {any} fn */ (fn) => fn !== cb ); }; } $destroy() { this.#instance.$destroy(); } } let read_implementation = null; function set_read_implementation(fn) { read_implementation = fn; } function set_manifest(_) { } function asClassComponent(component) { const component_constructor = asClassComponent$1(component); const _render = (props, { context } = {}) => { const result = render(component, { props, context }); const munged = Object.defineProperties( /** @type {LegacyRenderResult & PromiseLike} */ {}, { css: { value: { code: "", map: null } }, head: { get: () => result.head }, html: { get: () => result.body }, then: { /** * this is not type-safe, but honestly it's the best I can do right now, and it's a straightforward function. * * @template TResult1 * @template [TResult2=never] * @param { (value: LegacyRenderResult) => TResult1 } onfulfilled * @param { (reason: unknown) => TResult2 } onrejected */ value: (onfulfilled, onrejected) => { { const user_result = onfulfilled({ css: munged.css, head: munged.head, html: munged.html }); return Promise.resolve(user_result); } } } } ); return munged; }; component_constructor.render = _render; return component_constructor; } function Root($$renderer, $$props) { $$renderer.component(($$renderer2) => { let { stores, page, constructors, components = [], form, data_0 = null, data_1 = null } = $$props; { setContext("__svelte__", stores); } { stores.page.set(page); } const Pyramid_1 = constructors[1]; if (constructors[1]) { $$renderer2.push(""); const Pyramid_0 = constructors[0]; $$renderer2.push(``); Pyramid_0($$renderer2, { data: data_0, form, params: page.params, children: ($$renderer3) => { $$renderer3.push(``); Pyramid_1($$renderer3, { data: data_1, form, params: page.params }); $$renderer3.push(``); }, $$slots: { default: true } }); $$renderer2.push(``); } else { $$renderer2.push(""); const Pyramid_0 = constructors[0]; $$renderer2.push(``); Pyramid_0($$renderer2, { data: data_0, form, params: page.params }); $$renderer2.push(``); } $$renderer2.push(` `); { $$renderer2.push(""); } $$renderer2.push(``); }); } const root = asClassComponent(Root); const options = { app_template_contains_nonce: false, async: false, csp: { "mode": "auto", "directives": { "upgrade-insecure-requests": false, "block-all-mixed-content": false }, "reportOnly": { "upgrade-insecure-requests": false, "block-all-mixed-content": false } }, csrf_check_origin: true, csrf_trusted_origins: [], embedded: false, env_public_prefix: "PUBLIC_", env_private_prefix: "", hash_routing: false, hooks: null, // added lazily, via `get_hooks` preload_strategy: "modulepreload", root, service_worker: false, service_worker_options: void 0, templates: { app: ({ head, body, assets, nonce, env }) => '\n\n \n \n \n ' + head + '\n \n \n
' + body + "
\n \n\n", error: ({ status, message }) => '\n\n \n \n ' + message + `
` + status + '\n
\n

' + message + "

\n
\n
\n \n\n" }, version_hash: "1mzbha" }; async function get_hooks() { let handle; let handleFetch; let handleError; let handleValidationError; let init; let reroute; let transport; return { handle, handleFetch, handleError, handleValidationError, init, reroute, transport }; } export { set_public_env as a, set_read_implementation as b, set_manifest as c, get_hooks as g, options as o, public_env as p, read_implementation as r, set_private_env as s };