santhoshj/headroom
1
0
Fork 0
Code Issues 18 Pull Requests Actions Packages Projects Releases Wiki Activity
Files
b9cb5170dad6523e149e9ec007d9e4b0004f7091
headroom/frontend/.svelte-kit/output/server/chunks/root.js
Santhosh Janardhanan de2d83092e feat: Reinitialize frontend with SvelteKit and TypeScript 
- Delete old Vite+Svelte frontend
- Initialize new SvelteKit project with TypeScript
- Configure Tailwind CSS v4 + DaisyUI
- Implement JWT authentication with auto-refresh
- Create login page with form validation (Zod)
- Add protected route guards
- Update Docker configuration for single-stage build
- Add E2E tests with Playwright (6/11 passing)
- Fix Svelte 5 reactivity with $state() runes

Known issues:
- 5 E2E tests failing (timing/async issues)
- Token refresh implementation needs debugging
- Validation error display timing
2026-02-17 16:19:59 -05:00

3748 lines
105 KiB
JavaScript
Raw Blame History

This file contains invisible Unicode characters
This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
import { b as browser } from "./false.js";
import { clsx as clsx$1 } from "clsx";
import * as devalue from "devalue";
var is_array = Array.isArray;
var index_of = Array.prototype.indexOf;
var includes = Array.prototype.includes;
var array_from = Array.from;
var define_property = Object.defineProperty;
var get_descriptor = Object.getOwnPropertyDescriptor;
var object_prototype = Object.prototype;
var array_prototype = Array.prototype;
var get_prototype_of = Object.getPrototypeOf;
var is_extensible = Object.isExtensible;
const noop = () => {
};
function run_all(arr) {
for (var i = 0; i < arr.length; i++) {
arr[i]();
}
}
function deferred() {
var resolve;
var reject;
var promise = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
return { promise, resolve, reject };
}
function fallback(value, fallback2, lazy = false) {
return value === void 0 ? lazy ? (
/** @type {() => V} */
fallback2()
) : (
/** @type {V} */
fallback2
) : value;
}
function equals(value) {
return value === this.v;
}
function safe_not_equal(a, b) {
return a != a ? b == b : a !== b || a !== null && typeof a === "object" || typeof a === "function";
}
function safe_equals(value) {
return !safe_not_equal(value, this.v);
}
const DERIVED = 1 << 1;
const EFFECT = 1 << 2;
const RENDER_EFFECT = 1 << 3;
const MANAGED_EFFECT = 1 << 24;
const BLOCK_EFFECT = 1 << 4;
const BRANCH_EFFECT = 1 << 5;
const ROOT_EFFECT = 1 << 6;
const BOUNDARY_EFFECT = 1 << 7;
const CONNECTED = 1 << 9;
const CLEAN = 1 << 10;
const DIRTY = 1 << 11;
const MAYBE_DIRTY = 1 << 12;
const INERT = 1 << 13;
const DESTROYED = 1 << 14;
const REACTION_RAN = 1 << 15;
const EFFECT_TRANSPARENT = 1 << 16;
const EAGER_EFFECT = 1 << 17;
const HEAD_EFFECT = 1 << 18;
const EFFECT_PRESERVED = 1 << 19;
const USER_EFFECT = 1 << 20;
const WAS_MARKED = 1 << 16;
const REACTION_IS_UPDATING = 1 << 21;
const ASYNC = 1 << 22;
const ERROR_VALUE = 1 << 23;
const STATE_SYMBOL = Symbol("$state");
const LEGACY_PROPS = Symbol("legacy props");
const STALE_REACTION = new class StaleReactionError extends Error {
name = "StaleReactionError";
message = "The reaction that called `getAbortSignal()` was re-run or destroyed";
}();
const COMMENT_NODE = 8;
function lifecycle_outside_component(name) {
{
throw new Error(`https://svelte.dev/e/lifecycle_outside_component`);
}
}
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`);
}
}
const HYDRATION_START = "[";
const HYDRATION_START_ELSE = "[!";
const HYDRATION_END = "]";
const HYDRATION_ERROR = {};
const ELEMENT_IS_NAMESPACED = 1;
const ELEMENT_PRESERVE_ATTRIBUTE_CASE = 1 << 1;
const ELEMENT_IS_INPUT = 1 << 2;
const UNINITIALIZED = Symbol();
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(/* @__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 || // "[1", "[2", etc. for if blocks
data[0] === "[" && !isNaN(Number(data.slice(1)))) {
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$1(props, runes = false, fn) {
component_context = {
p: component_context,
i: false,
c: null,
e: null,
s: props,
x: null,
l: null
};
}
function pop$1(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 & REACTION_RAN) === 0 && (effect.f & EFFECT) === 0) {
throw error;
}
invoke_error_boundary(error, effect);
}
function invoke_error_boundary(error, effect) {
while (effect !== null) {
if ((effect.f & BOUNDARY_EFFECT) !== 0) {
if ((effect.f & REACTION_RAN) === 0) {
throw error;
}
try {
effect.b.error(error);
return;
} catch (e) {
error = e;
}
}
effect = effect.parent;
}
throw error;
}
const STATUS_MASK = -7169;
function set_signal_status(signal, status) {
signal.f = signal.f & STATUS_MASK | status;
}
function update_derived_status(derived) {
if ((derived.f & CONNECTED) !== 0 || derived.deps === null) {
set_signal_status(derived, CLEAN);
} else {
set_signal_status(derived, MAYBE_DIRTY);
}
}
function 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;
clear_marked(
/** @type {Derived} */
dep.deps
);
}
}
function defer_effect(effect, dirty_effects, maybe_dirty_effects) {
if ((effect.f & DIRTY) !== 0) {
dirty_effects.add(effect);
} else if ((effect.f & MAYBE_DIRTY) !== 0) {
maybe_dirty_effects.add(effect);
}
clear_marked(effect.deps);
set_signal_status(effect, CLEAN);
}
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<Source, any>}
*/
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<Source, any>}
*/
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<void>, resolve: (value?: any) => void, reject: (reason: unknown) => void } | null}
*/
#deferred = null;
/**
* Deferred effects (which run after async work has completed) that are DIRTY
* @type {Set<Effect>}
*/
#dirty_effects = /* @__PURE__ */ new Set();
/**
* Deferred effects that are MAYBE_DIRTY
* @type {Set<Effect>}
*/
#maybe_dirty_effects = /* @__PURE__ */ new Set();
/**
* A map of branches that still exist, but will be destroyed when this batch
* is committed — we skip over these during `process`.
* The value contains child effects that were dirty/maybe_dirty before being reset,
* so they can be rescheduled if the branch survives.
* @type {Map<Effect, { d: Effect[], m: Effect[] }>}
*/
#skipped_branches = /* @__PURE__ */ new Map();
is_fork = false;
#decrement_queued = false;
is_deferred() {
return this.is_fork || this.#blocking_pending > 0;
}
/**
* Add an effect to the #skipped_branches map and reset its children
* @param {Effect} effect
*/
skip_effect(effect) {
if (!this.#skipped_branches.has(effect)) {
this.#skipped_branches.set(effect, { d: [], m: [] });
}
}
/**
* Remove an effect from the #skipped_branches map and reschedule
* any tracked dirty/maybe_dirty child effects
* @param {Effect} effect
*/
unskip_effect(effect) {
var tracked = this.#skipped_branches.get(effect);
if (tracked) {
this.#skipped_branches.delete(effect);
for (var e of tracked.d) {
set_signal_status(e, DIRTY);
schedule_effect(e);
}
for (e of tracked.m) {
set_signal_status(e, MAYBE_DIRTY);
schedule_effect(e);
}
}
}
/**
*
* @param {Effect[]} root_effects
*/
process(root_effects) {
queued_root_effects = [];
this.apply();
var effects = [];
var render_effects = [];
for (const root2 of root_effects) {
this.#traverse_effect_tree(root2, effects, render_effects);
}
if (this.is_deferred()) {
this.#defer_effects(render_effects);
this.#defer_effects(effects);
for (const [e, t] of this.#skipped_branches) {
reset_branch(e, t);
}
} else {
for (const fn of this.#commit_callbacks) fn();
this.#commit_callbacks.clear();
if (this.#pending === 0) {
this.#commit();
}
current_batch = null;
flush_queued_effects(render_effects);
flush_queued_effects(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 {Effect[]} effects
* @param {Effect[]} render_effects
*/
#traverse_effect_tree(root2, effects, render_effects) {
root2.f ^= CLEAN;
var effect = root2.first;
var pending_boundary = null;
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_branches.has(effect);
if (!skip && effect.fn !== null) {
if (is_branch) {
effect.f ^= CLEAN;
} else if (pending_boundary !== null && (flags2 & (EFFECT | RENDER_EFFECT | MANAGED_EFFECT)) !== 0) {
pending_boundary.b.defer_effect(effect);
} else if ((flags2 & EFFECT) !== 0) {
effects.push(effect);
} else if (is_dirty(effect)) {
if ((flags2 & BLOCK_EFFECT) !== 0) this.#maybe_dirty_effects.add(effect);
update_effect(effect);
}
var child = effect.first;
if (child !== null) {
effect = child;
continue;
}
}
while (effect !== null) {
if (effect === pending_boundary) {
pending_boundary = null;
}
var next2 = effect.next;
if (next2 !== null) {
effect = next2;
break;
}
effect = effect.parent;
}
}
}
/**
* @param {Effect[]} effects
*/
#defer_effects(effects) {
for (var i = 0; i < effects.length; i += 1) {
defer_effect(effects[i], this.#dirty_effects, this.#maybe_dirty_effects);
}
}
/**
* 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 (value !== UNINITIALIZED && !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();
}
#commit() {
if (batches.size > 1) {
this.previous.clear();
var previous_batch_values = batch_values;
var is_earlier = true;
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, [], []);
}
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;
if (this.#decrement_queued) return;
this.#decrement_queued = true;
queue_micro_task(() => {
this.#decrement_queued = false;
if (!this.is_deferred()) {
this.revive();
} else if (queued_root_effects.length > 0) {
this.flush();
}
});
}
revive() {
for (const e of this.#dirty_effects) {
this.#maybe_dirty_effects.delete(e);
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.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) {
queue_micro_task(() => {
if (current_batch !== batch) {
return;
}
batch.flush();
});
}
}
return current_batch;
}
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() {
is_flushing = true;
var source_stacks = null;
try {
var flush_count = 0;
while (queued_root_effects.length > 0) {
var batch = Batch.ensure();
if (flush_count++ > 1e3) {
var updates, entry;
if (browser) ;
infinite_loop_guard();
}
batch.process(queued_root_effects);
old_values.clear();
if (browser) ;
}
} finally {
queued_root_effects = [];
is_flushing = false;
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 === null && effect.teardown === null && effect.ac === null) {
unlink_effect(effect);
}
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 && 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 (includes.call(sources, 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 reset_branch(effect, tracked) {
if ((effect.f & BRANCH_EFFECT) !== 0 && (effect.f & CLEAN) !== 0) {
return;
}
if ((effect.f & DIRTY) !== 0) {
tracked.d.push(effect);
} else if ((effect.f & MAYBE_DIRTY) !== 0) {
tracked.m.push(effect);
}
set_signal_status(effect, CLEAN);
var e = effect.first;
while (e !== null) {
reset_branch(e, tracked);
e = e.next;
}
}
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;
function boundary(node, props, children) {
new Boundary(node, props, children);
}
class Boundary {
/** @type {Boundary | null} */
parent;
is_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;
#local_pending_count = 0;
#pending_count = 0;
#pending_count_update_queued = false;
/** @type {Set<Effect>} */
#dirty_effects = /* @__PURE__ */ new Set();
/** @type {Set<Effect>} */
#maybe_dirty_effects = /* @__PURE__ */ new Set();
/**
* 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<number> | 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 = (anchor) => {
var effect = (
/** @type {Effect} */
active_effect
);
effect.b = this;
effect.f |= BOUNDARY_EFFECT;
children(anchor);
};
this.parent = /** @type {Effect} */
active_effect.b;
this.#effect = block(() => {
if (hydrating) {
const comment = (
/** @type {Comment} */
this.#hydrate_open
);
hydrate_next();
if (comment.data === HYDRATION_START_ELSE) {
this.#hydrate_pending_content();
} else {
this.#hydrate_resolved_content();
}
} else {
this.#render();
}
}, flags);
if (hydrating) {
this.#anchor = hydrate_node;
}
}
#hydrate_resolved_content() {
try {
this.#main_effect = branch(() => this.#children(this.#anchor));
} catch (error) {
this.error(error);
}
}
#hydrate_pending_content() {
const pending = this.#props.pending;
if (!pending) return;
this.is_pending = true;
this.#pending_effect = branch(() => pending(this.#anchor));
queue_micro_task(() => {
var fragment = this.#offscreen_fragment = document.createDocumentFragment();
var anchor = create_text();
fragment.append(anchor);
this.#main_effect = this.#run(() => {
Batch.ensure();
return branch(() => this.#children(anchor));
});
if (this.#pending_count === 0) {
this.#anchor.before(fragment);
this.#offscreen_fragment = null;
pause_effect(
/** @type {Effect} */
this.#pending_effect,
() => {
this.#pending_effect = null;
}
);
this.is_pending = false;
}
});
}
#render() {
try {
this.is_pending = this.has_pending_snippet();
this.#pending_count = 0;
this.#local_pending_count = 0;
this.#main_effect = branch(() => {
this.#children(this.#anchor);
});
if (this.#pending_count > 0) {
var fragment = this.#offscreen_fragment = document.createDocumentFragment();
move_effect(this.#main_effect, fragment);
const pending = (
/** @type {(anchor: Node) => void} */
this.#props.pending
);
this.#pending_effect = branch(() => pending(this.#anchor));
} else {
this.is_pending = false;
}
} catch (error) {
this.error(error);
}
}
/**
* Defer an effect inside a pending boundary until the boundary resolves
* @param {Effect} effect
*/
defer_effect(effect) {
defer_effect(effect, this.#dirty_effects, this.#maybe_dirty_effects);
}
/**
* Returns `false` if the effect exists inside a boundary whose pending snippet is shown
* @returns {boolean}
*/
is_rendered() {
return !this.is_pending && (!this.parent || this.parent.is_rendered());
}
has_pending_snippet() {
return !!this.#props.pending;
}
/**
* @template T
* @param {() => T} 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);
}
}
/**
* 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.is_pending = false;
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.clear();
this.#maybe_dirty_effects.clear();
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 || this.#pending_count_update_queued) return;
this.#pending_count_update_queued = true;
queue_micro_task(() => {
this.#pending_count_update_queued = false;
if (this.#effect_pending) {
internal_set(this.#effect_pending, this.#local_pending_count);
}
});
}
get_effect_pending() {
this.#effect_pending_subscriber();
return get(
/** @type {Source<number>} */
this.#effect_pending
);
}
/** @param {unknown} error */
error(error) {
var onerror = this.#props.onerror;
let failed = this.#props.failed;
if (!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();
}
if (this.#failed_effect !== null) {
pause_effect(this.#failed_effect, () => {
this.#failed_effect = null;
});
}
this.#run(() => {
Batch.ensure();
this.#render();
});
};
queue_micro_task(() => {
try {
calling_on_error = true;
onerror?.(error, reset);
calling_on_error = false;
} catch (error2) {
invoke_error_boundary(error2, this.#effect && this.#effect.parent);
}
if (failed) {
this.#failed_effect = this.#run(() => {
Batch.ensure();
try {
return branch(() => {
var effect = (
/** @type {Effect} */
active_effect
);
effect.b = this;
effect.f |= BOUNDARY_EFFECT;
failed(
this.#anchor,
() => error,
() => reset
);
});
} catch (error2) {
invoke_error_boundary(
error2,
/** @type {Effect} */
this.#effect.parent
);
return null;
}
});
}
});
}
}
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.wv = increment_write_version();
if (!current_batch?.is_fork || derived.deps === null) {
derived.v = value;
if (derived.deps === null) {
set_signal_status(derived, CLEAN);
return;
}
}
}
if (is_destroying_effect) {
return;
}
if (batch_values !== null) {
if (effect_tracking() || current_batch?.is_fork) {
batch_values.set(derived, value);
}
} else {
update_derived_status(derived);
}
}
function freeze_derived_effects(derived) {
if (derived.effects === null) return;
for (const e of derived.effects) {
if (e.teardown || e.ac) {
e.teardown?.();
e.ac?.abort(STALE_REACTION);
e.teardown = noop;
e.ac = null;
remove_reactions(e, 0);
destroy_effect_children(e);
}
}
}
function unfreeze_derived_effects(derived) {
if (derived.effects === null) return;
for (const e of derived.effects) {
if (e.teardown) {
update_effect(e);
}
}
}
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 === null || !includes.call(current_sources, 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) {
const derived = (
/** @type {Derived} */
source2
);
if ((source2.f & DIRTY) !== 0) {
execute_derived(derived);
}
update_derived_status(derived);
}
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;
for (const effect of eager_effects) {
if ((effect.f & CLEAN) !== 0) {
set_signal_status(effect, MAYBE_DIRTY);
}
if (is_dirty(effect)) {
update_effect(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 && 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) {
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<number>} */
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<number>} */
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 (
/** @type {TemplateNode | null} */
first_child_getter.call(node)
);
}
// @__NO_SIDE_EFFECTS__
function get_next_sibling(node) {
return (
/** @type {TemplateNode | null} */
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: null,
f: type | DIRTY | CONNECTED,
first: null,
fn,
last: null,
next: null,
parent,
b: parent && parent.b,
prev: null,
teardown: null,
wv: 0,
ac: null
};
if (sync) {
try {
update_effect(effect);
} 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 === 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 (options = {}) => {
return new Promise((fulfil) => {
if (options.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 controller2 = effect.ac;
if (controller2 !== null) {
without_reactive_context(() => {
controller2.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 !== 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.nodes && effect.nodes.t;
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 = effect.ac = null;
}
function remove_effect_dom(node, end) {
while (node !== null) {
var next2 = node === end ? null : /* @__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);
var fn = () => {
if (destroy) destroy_effect(effect);
if (callback) callback();
};
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;
var t = effect.nodes && effect.nodes.t;
if (t !== null) {
for (const transition of t) {
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) {
if (!effect.nodes) return;
var node = effect.nodes.start;
var end = effect.nodes.end;
while (node !== null) {
var next2 = node === end ? null : /* @__PURE__ */ get_next_sibling(node);
fragment.append(node);
node = next2;
}
}
let is_updating_effect = false;
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 = (
/** @type {Value[]} */
reaction.deps
);
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 !== null && includes.call(current_sources, 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();
reaction.f |= REACTION_RAN;
var deps = reaction.deps;
var is_fork = current_batch?.is_fork;
if (new_deps !== null) {
var i;
if (!is_fork) {
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 (effect_tracking() && (reaction.f & CONNECTED) !== 0) {
for (i = skipped_deps; i < deps.length; i++) {
(deps[i].reactions ??= []).push(reaction);
}
}
} else if (!is_fork && 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 (previous_reaction.deps !== null) {
for (let i2 = 0; i2 < previous_skipped_deps; i2 += 1) {
previous_reaction.deps[i2].rv = read_version;
}
}
if (previous_deps !== null) {
for (const dep of previous_deps) {
dep.rv = 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 || !includes.call(new_deps, dependency))) {
var derived = (
/** @type {Derived} */
dependency
);
if ((derived.f & CONNECTED) !== 0) {
derived.f ^= CONNECTED;
derived.f &= ~WAS_MARKED;
}
update_derived_status(derived);
freeze_derived_effects(derived);
remove_reactions(derived, 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 | MANAGED_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 (browser && 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 === null || !includes.call(current_sources, 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 {
new_deps.push(signal);
}
}
} else {
(active_reaction.deps ??= []).push(signal);
var reactions = signal.reactions;
if (reactions === null) {
signal.reactions = [active_reaction];
} else if (!includes.call(reactions, active_reaction)) {
reactions.push(active_reaction);
}
}
}
}
if (is_destroying_effect && old_values.has(signal)) {
return old_values.get(signal);
}
if (is_derived) {
var derived = (
/** @type {Derived} */
signal
);
if (is_destroying_effect) {
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;
}
var should_connect = (derived.f & CONNECTED) === 0 && !untracking && active_reaction !== null && (is_updating_effect || (active_reaction.f & CONNECTED) !== 0);
var is_new = (derived.f & REACTION_RAN) === 0;
if (is_dirty(derived)) {
if (should_connect) {
derived.f |= CONNECTED;
}
update_derived(derived);
}
if (should_connect && !is_new) {
unfreeze_derived_effects(derived);
reconnect(derived);
}
}
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) {
derived.f |= CONNECTED;
if (derived.deps === null) return;
for (const dep of derived.deps) {
(dep.reactions ??= []).push(derived);
if ((dep.f & DERIVED) !== 0 && (dep.f & CONNECTED) === 0) {
unfreeze_derived_effects(
/** @type {Derived} */
dep
);
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 DOM_BOOLEAN_ATTRIBUTES = [
"allowfullscreen",
"async",
"autofocus",
"autoplay",
"checked",
"controls",
"default",
"disabled",
"formnovalidate",
"indeterminate",
"inert",
"ismap",
"loop",
"multiple",
"muted",
"nomodule",
"novalidate",
"open",
"playsinline",
"readonly",
"required",
"reversed",
"seamless",
"selected",
"webkitdirectory",
"defer",
"disablepictureinpicture",
"disableremoteplayback"
];
function is_boolean_attribute(name) {
return DOM_BOOLEAN_ATTRIBUTES.includes(name);
}
const PASSIVE_EVENTS = ["touchstart", "touchmove"];
function is_passive_event(name) {
return PASSIVE_EVENTS.includes(name);
}
const event_symbol = Symbol("events");
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[event_symbol];
if (handled_at) {
var at_idx = path.indexOf(handled_at);
if (at_idx !== -1 && (handler_element === document || handler_element === /** @type {any} */
window)) {
event[event_symbol] = 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_symbol]?.[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[event_symbol] = 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 === null) {
effect.nodes = { start, end, a: null, t: null };
}
}
function mount(component, options) {
return _mount(component, options);
}
function hydrate(component, options) {
init_operations();
options.intro = options.intro ?? false;
const target = options.target;
const was_hydrating = hydrating;
const previous_hydrate_node = hydrate_node;
try {
var anchor = /* @__PURE__ */ get_first_child(target);
while (anchor && (anchor.nodeType !== COMMENT_NODE || /** @type {Comment} */
anchor.data !== HYDRATION_START)) {
anchor = /* @__PURE__ */ get_next_sibling(anchor);
}
if (!anchor) {
throw HYDRATION_ERROR;
}
set_hydrating(true);
set_hydrate_node(
/** @type {Comment} */
anchor
);
const instance = _mount(component, { ...options, 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 (options.recover === false) {
hydration_failed();
}
init_operations();
clear_text_content(target);
set_hydrating(false);
return mount(component, options);
} finally {
set_hydrating(was_hydrating);
set_hydrate_node(previous_hydrate_node);
}
}
const listeners = /* @__PURE__ */ new Map();
function _mount(Component, { target, anchor, props = {}, events, context, intro = true }) {
init_operations();
var component = void 0;
var unmount2 = component_root(() => {
var anchor_node = anchor ?? target.appendChild(create_text());
boundary(
/** @type {TemplateNode} */
anchor_node,
{
pending: () => {
}
},
(anchor_node2) => {
push$1({});
var ctx = (
/** @type {ComponentContext} */
component_context
);
if (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;
}
}
pop$1();
}
);
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);
for (const node of [target, document]) {
var counts = listeners.get(node);
if (counts === void 0) {
counts = /* @__PURE__ */ new Map();
listeners.set(node, counts);
}
var count = counts.get(event_name);
if (count === void 0) {
node.addEventListener(event_name, handle_event_propagation, { passive });
counts.set(event_name, 1);
} else {
counts.set(event_name, count + 1);
}
}
}
};
event_handle(array_from(all_registered_events));
root_event_handles.add(event_handle);
return () => {
for (var event_name of registered_events) {
for (const node of [target, document]) {
var counts = (
/** @type {Map<string, number>} */
listeners.get(node)
);
var count = (
/** @type {number} */
counts.get(event_name)
);
if (--count == 0) {
node.removeEventListener(event_name, handle_event_propagation);
counts.delete(event_name);
if (counts.size === 0) {
listeners.delete(node);
}
} else {
counts.set(event_name, count);
}
}
}
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, options) {
const fn = mounted_components.get(component);
if (fn) {
mounted_components.delete(component);
return fn(options);
}
return Promise.resolve();
}
const ATTR_REGEX = /[&"<]/g;
const CONTENT_REGEX = /[&<]/g;
function escape_html(value, is_attr) {
const str = String(value ?? "");
const pattern = is_attr ? ATTR_REGEX : CONTENT_REGEX;
pattern.lastIndex = 0;
let escaped = "";
let last = 0;
while (pattern.test(str)) {
const i = pattern.lastIndex - 1;
const ch = str[i];
escaped += str.substring(last, i) + (ch === "&" ? "&amp;" : ch === '"' ? "&quot;" : "&lt;");
last = i + 1;
}
return escaped + str.substring(last);
}
const replacements = {
translate: /* @__PURE__ */ new Map([
[true, "yes"],
[false, "no"]
])
};
function attr(name, value, is_boolean = false) {
if (name === "hidden" && value !== "until-found") {
is_boolean = true;
}
if (value == null || !value && is_boolean) return "";
const normalized = name in replacements && replacements[name].get(value) || value;
const assignment = is_boolean ? `=""` : `="${escape_html(normalized, true)}"`;
return ` ${name}${assignment}`;
}
function clsx(value) {
if (typeof value === "object") {
return clsx$1(value);
} else {
return value ?? "";
}
}
const whitespace = [..." \n\r\f \v\uFEFF"];
function to_class(value, hash, directives) {
var classname = value == null ? "" : "" + value;
if (hash) {
classname = classname ? classname + " " + hash : hash;
}
if (directives) {
for (var key in directives) {
if (directives[key]) {
classname = classname ? classname + " " + key : key;
} else if (classname.length) {
var len = key.length;
var a = 0;
while ((a = classname.indexOf(key, a)) >= 0) {
var b = a + len;
if ((a === 0 || whitespace.includes(classname[a - 1])) && (b === classname.length || whitespace.includes(classname[b]))) {
classname = (a === 0 ? "" : classname.substring(0, a)) + classname.substring(b + 1);
} else {
a = b;
}
}
}
}
}
return classname === "" ? null : classname;
}
function append_styles(styles, important = false) {
var separator = important ? " !important;" : ";";
var css = "";
for (var key in styles) {
var value = styles[key];
if (value != null && value !== "") {
css += " " + key + ": " + value + separator;
}
}
return css;
}
function to_css_name(name) {
if (name[0] !== "-" || name[1] !== "-") {
return name.toLowerCase();
}
return name;
}
function to_style(value, styles) {
if (styles) {
var new_style = "";
var normal_styles;
var important_styles;
if (Array.isArray(styles)) {
normal_styles = styles[0];
important_styles = styles[1];
} else {
normal_styles = styles;
}
if (value) {
value = String(value).replaceAll(/\s*\/\*.*?\*\/\s*/g, "").trim();
var in_str = false;
var in_apo = 0;
var in_comment = false;
var reserved_names = [];
if (normal_styles) {
reserved_names.push(...Object.keys(normal_styles).map(to_css_name));
}
if (important_styles) {
reserved_names.push(...Object.keys(important_styles).map(to_css_name));
}
var start_index = 0;
var name_index = -1;
const len = value.length;
for (var i = 0; i < len; i++) {
var c = value[i];
if (in_comment) {
if (c === "/" && value[i - 1] === "*") {
in_comment = false;
}
} else if (in_str) {
if (in_str === c) {
in_str = false;
}
} else if (c === "/" && value[i + 1] === "*") {
in_comment = true;
} else if (c === '"' || c === "'") {
in_str = c;
} else if (c === "(") {
in_apo++;
} else if (c === ")") {
in_apo--;
}
if (!in_comment && in_str === false && in_apo === 0) {
if (c === ":" && name_index === -1) {
name_index = i;
} else if (c === ";" || i === len - 1) {
if (name_index !== -1) {
var name = to_css_name(value.substring(start_index, name_index).trim());
if (!reserved_names.includes(name)) {
if (c !== ";") {
i++;
}
var property = value.substring(start_index, i).trim();
new_style += " " + property + ";";
}
}
start_index = i + 1;
name_index = -1;
}
}
}
}
if (normal_styles) {
new_style += append_styles(normal_styles);
}
if (important_styles) {
new_style += append_styles(important_styles, true);
}
new_style = new_style.trim();
return new_style === "" ? null : new_style;
}
return value == null ? null : String(value);
}
function asClassComponent$1(component) {
return class extends Svelte4Component {
/** @param {any} options */
constructor(options) {
super({
component,
...options
});
}
};
}
class Svelte4Component {
/** @type {any} */
#events;
/** @type {Record<string, any>} */
#instance;
/**
* @param {ComponentConstructorOptions & {
* component: any;
* }} options
*/
constructor(options) {
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(
{ ...options.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 = (options.hydrate ? hydrate : mount)(options.component, {
target: options.target,
anchor: options.anchor,
props,
context: options.context,
intro: options.intro ?? false,
recover: options.recover
});
if (!options?.props?.$$host || options.sync === false) {
flushSync();
}
this.#events = props.$$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<string, any>} next */
(next2) => {
Object.assign(props, next2);
};
this.#instance.$destroy = () => {
unmount(this.#instance);
};
}
/** @param {Record<string, any>} 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();
}
}
function subscribe_to_store(store, run, invalidate) {
if (store == null) {
run(void 0);
if (invalidate) invalidate(void 0);
return noop;
}
const unsub = untrack(
() => store.subscribe(
run,
// @ts-expect-error
invalidate
)
);
return unsub.unsubscribe ? () => unsub.unsubscribe() : unsub;
}
const BLOCK_OPEN = `<!--${HYDRATION_START}-->`;
const BLOCK_CLOSE = `<!--${HYDRATION_END}-->`;
const EMPTY_COMMENT = `<!---->`;
let controller = null;
function abort() {
controller?.abort(STALE_REACTION);
controller = null;
}
function await_invalid() {
const error = new Error(`await_invalid
Encountered asynchronous work while rendering synchronously.
https://svelte.dev/e/await_invalid`);
error.name = "Svelte error";
throw error;
}
function invalid_csp() {
const error = new Error(`invalid_csp
\`csp.nonce\` was set while \`csp.hash\` was \`true\`. These options cannot be used simultaneously.
https://svelte.dev/e/invalid_csp`);
error.name = "Svelte error";
throw error;
}
function server_context_required() {
const error = new Error(`server_context_required
Could not resolve \`render\` context.
https://svelte.dev/e/server_context_required`);
error.name = "Svelte error";
throw error;
}
var ssr_context = null;
function set_ssr_context(v) {
ssr_context = v;
}
function getContext(key) {
const context_map = get_or_init_context_map();
const result = (
/** @type {T} */
context_map.get(key)
);
return result;
}
function setContext(key, context) {
get_or_init_context_map().set(key, context);
return context;
}
function get_or_init_context_map(name) {
if (ssr_context === null) {
lifecycle_outside_component();
}
return ssr_context.c ??= new Map(get_parent_context(ssr_context) || void 0);
}
function push(fn) {
ssr_context = { p: ssr_context, c: null, r: null };
}
function pop() {
ssr_context = /** @type {SSRContext} */
ssr_context.p;
}
function get_parent_context(ssr_context2) {
let parent = ssr_context2.p;
while (parent !== null) {
const context_map = parent.c;
if (context_map !== null) {
return context_map;
}
parent = parent.p;
}
return null;
}
function unresolved_hydratable(key, stack) {
{
console.warn(`https://svelte.dev/e/unresolved_hydratable`);
}
}
function get_render_context() {
const store = als?.getStore();
{
server_context_required();
}
return store;
}
let als = null;
let text_encoder;
let crypto;
async function sha256(data) {
text_encoder ??= new TextEncoder();
crypto ??= globalThis.crypto?.subtle?.digest ? globalThis.crypto : (
// @ts-ignore - we don't install node types in the prod build
// don't use 'node:crypto' because static analysers will think we rely on node when we don't
(await import(
/* @vite-ignore */
"node:crypto"
)).webcrypto
);
const hash_buffer = await crypto.subtle.digest("SHA-256", text_encoder.encode(data));
return base64_encode(hash_buffer);
}
function base64_encode(bytes) {
if (globalThis.Buffer) {
return globalThis.Buffer.from(bytes).toString("base64");
}
let binary = "";
for (let i = 0; i < bytes.length; i++) {
binary += String.fromCharCode(bytes[i]);
}
return btoa(binary);
}
class Renderer {
/**
* The contents of the renderer.
* @type {RendererItem[]}
*/
#out = [];
/**
* Any `onDestroy` callbacks registered during execution of this renderer.
* @type {(() => void)[] | undefined}
*/
#on_destroy = void 0;
/**
* Whether this renderer is a component body.
* @type {boolean}
*/
#is_component_body = false;
/**
* The type of string content that this renderer is accumulating.
* @type {RendererType}
*/
type;
/** @type {Renderer | undefined} */
#parent;
/**
* Asynchronous work associated with this renderer
* @type {Promise<void> | undefined}
*/
promise = void 0;
/**
* State which is associated with the content tree as a whole.
* It will be re-exposed, uncopied, on all children.
* @type {SSRState}
* @readonly
*/
global;
/**
* State that is local to the branch it is declared in.
* It will be shallow-copied to all children.
*
* @type {{ select_value: string | undefined }}
*/
local;
/**
* @param {SSRState} global
* @param {Renderer | undefined} [parent]
*/
constructor(global, parent) {
this.#parent = parent;
this.global = global;
this.local = parent ? { ...parent.local } : { select_value: void 0 };
this.type = parent ? parent.type : "body";
}
/**
* @param {(renderer: Renderer) => void} fn
*/
head(fn) {
const head2 = new Renderer(this.global, this);
head2.type = "head";
this.#out.push(head2);
head2.child(fn);
}
/**
* @param {Array<Promise<void>>} blockers
* @param {(renderer: Renderer) => void} fn
*/
async_block(blockers, fn) {
this.#out.push(BLOCK_OPEN);
this.async(blockers, fn);
this.#out.push(BLOCK_CLOSE);
}
/**
* @param {Array<Promise<void>>} blockers
* @param {(renderer: Renderer) => void} fn
*/
async(blockers, fn) {
let callback = fn;
if (blockers.length > 0) {
const context = ssr_context;
callback = (renderer) => {
return Promise.all(blockers).then(() => {
const previous_context = ssr_context;
try {
set_ssr_context(context);
return fn(renderer);
} finally {
set_ssr_context(previous_context);
}
});
};
}
this.child(callback);
}
/**
* @param {Array<() => void>} thunks
*/
run(thunks) {
const context = ssr_context;
let promise = Promise.resolve(thunks[0]());
const promises = [promise];
for (const fn of thunks.slice(1)) {
promise = promise.then(() => {
const previous_context = ssr_context;
set_ssr_context(context);
try {
return fn();
} finally {
set_ssr_context(previous_context);
}
});
promises.push(promise);
}
promise.catch(noop);
this.promise = promise;
return promises;
}
/**
* @param {(renderer: Renderer) => MaybePromise<void>} fn
*/
child_block(fn) {
this.#out.push(BLOCK_OPEN);
this.child(fn);
this.#out.push(BLOCK_CLOSE);
}
/**
* Create a child renderer. The child renderer inherits the state from the parent,
* but has its own content.
* @param {(renderer: Renderer) => MaybePromise<void>} fn
*/
child(fn) {
const child = new Renderer(this.global, this);
this.#out.push(child);
const parent = ssr_context;
set_ssr_context({
...ssr_context,
p: parent,
c: null,
r: child
});
const result = fn(child);
set_ssr_context(parent);
if (result instanceof Promise) {
if (child.global.mode === "sync") {
await_invalid();
}
result.catch(() => {
});
child.promise = result;
}
return child;
}
/**
* Create a component renderer. The component renderer inherits the state from the parent,
* but has its own content. It is treated as an ordering boundary for ondestroy callbacks.
* @param {(renderer: Renderer) => MaybePromise<void>} fn
* @param {Function} [component_fn]
* @returns {void}
*/
component(fn, component_fn) {
push();
const child = this.child(fn);
child.#is_component_body = true;
pop();
}
/**
* @param {Record<string, any>} attrs
* @param {(renderer: Renderer) => void} fn
* @param {string | undefined} [css_hash]
* @param {Record<string, boolean> | undefined} [classes]
* @param {Record<string, string> | undefined} [styles]
* @param {number | undefined} [flags]
* @param {boolean | undefined} [is_rich]
* @returns {void}
*/
select(attrs, fn, css_hash, classes, styles, flags2, is_rich) {
const { value, ...select_attrs } = attrs;
this.push(`<select${attributes(select_attrs, css_hash, classes, styles, flags2)}>`);
this.child((renderer) => {
renderer.local.select_value = value;
fn(renderer);
});
this.push(`${is_rich ? "<!>" : ""}</select>`);
}
/**
* @param {Record<string, any>} attrs
* @param {string | number | boolean | ((renderer: Renderer) => void)} body
* @param {string | undefined} [css_hash]
* @param {Record<string, boolean> | undefined} [classes]
* @param {Record<string, string> | undefined} [styles]
* @param {number | undefined} [flags]
* @param {boolean | undefined} [is_rich]
*/
option(attrs, body, css_hash, classes, styles, flags2, is_rich) {
this.#out.push(`<option${attributes(attrs, css_hash, classes, styles, flags2)}`);
const close = (renderer, value, { head: head2, body: body2 }) => {
if ("value" in attrs) {
value = attrs.value;
}
if (value === this.local.select_value) {
renderer.#out.push(' selected=""');
}
renderer.#out.push(`>${body2}${is_rich ? "<!>" : ""}</option>`);
if (head2) {
renderer.head((child) => child.push(head2));
}
};
if (typeof body === "function") {
this.child((renderer) => {
const r = new Renderer(this.global, this);
body(r);
if (this.global.mode === "async") {
return r.#collect_content_async().then((content) => {
close(renderer, content.body.replaceAll("<!---->", ""), content);
});
} else {
const content = r.#collect_content();
close(renderer, content.body.replaceAll("<!---->", ""), content);
}
});
} else {
close(this, body, { body });
}
}
/**
* @param {(renderer: Renderer) => void} fn
*/
title(fn) {
const path = this.get_path();
const close = (head2) => {
this.global.set_title(head2, path);
};
this.child((renderer) => {
const r = new Renderer(renderer.global, renderer);
fn(r);
if (renderer.global.mode === "async") {
return r.#collect_content_async().then((content) => {
close(content.head);
});
} else {
const content = r.#collect_content();
close(content.head);
}
});
}
/**
* @param {string | (() => Promise<string>)} content
*/
push(content) {
if (typeof content === "function") {
this.child(async (renderer) => renderer.push(await content()));
} else {
this.#out.push(content);
}
}
/**
* @param {() => void} fn
*/
on_destroy(fn) {
(this.#on_destroy ??= []).push(fn);
}
/**
* @returns {number[]}
*/
get_path() {
return this.#parent ? [...this.#parent.get_path(), this.#parent.#out.indexOf(this)] : [];
}
/**
* @deprecated this is needed for legacy component bindings
*/
copy() {
const copy = new Renderer(this.global, this.#parent);
copy.#out = this.#out.map((item) => item instanceof Renderer ? item.copy() : item);
copy.promise = this.promise;
return copy;
}
/**
* @param {Renderer} other
* @deprecated this is needed for legacy component bindings
*/
subsume(other) {
if (this.global.mode !== other.global.mode) {
throw new Error(
"invariant: A renderer cannot switch modes. If you're seeing this, there's a compiler bug. File an issue!"
);
}
this.local = other.local;
this.#out = other.#out.map((item) => {
if (item instanceof Renderer) {
item.subsume(item);
}
return item;
});
this.promise = other.promise;
this.type = other.type;
}
get length() {
return this.#out.length;
}
/**
* Only available on the server and when compiling with the `server` option.
* Takes a component and returns an object with `body` and `head` properties on it, which you can use to populate the HTML when server-rendering your app.
* @template {Record<string, any>} Props
* @param {Component<Props>} component
* @param {{ props?: Omit<Props, '$$slots' | '$$events'>; context?: Map<any, any>; idPrefix?: string; csp?: Csp }} [options]
* @returns {RenderOutput}
*/
static render(component, options = {}) {
let sync;
const result = (
/** @type {RenderOutput} */
{}
);
Object.defineProperties(result, {
html: {
get: () => {
return (sync ??= Renderer.#render(component, options)).body;
}
},
head: {
get: () => {
return (sync ??= Renderer.#render(component, options)).head;
}
},
body: {
get: () => {
return (sync ??= Renderer.#render(component, options)).body;
}
},
hashes: {
value: {
script: ""
}
},
then: {
value: (
/**
* 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: SyncRenderOutput) => TResult1 } onfulfilled
* @param { (reason: unknown) => TResult2 } onrejected
*/
(onfulfilled, onrejected) => {
{
const result2 = sync ??= Renderer.#render(component, options);
const user_result = onfulfilled({
head: result2.head,
body: result2.body,
html: result2.body,
hashes: { script: [] }
});
return Promise.resolve(user_result);
}
}
)
}
});
return result;
}
/**
* Collect all of the `onDestroy` callbacks registered during rendering. In an async context, this is only safe to call
* after awaiting `collect_async`.
*
* Child renderers are "porous" and don't affect execution order, but component body renderers
* create ordering boundaries. Within a renderer, callbacks run in order until hitting a component boundary.
* @returns {Iterable<() => void>}
*/
*#collect_on_destroy() {
for (const component of this.#traverse_components()) {
yield* component.#collect_ondestroy();
}
}
/**
* Performs a depth-first search of renderers, yielding the deepest components first, then additional components as we backtrack up the tree.
* @returns {Iterable<Renderer>}
*/
*#traverse_components() {
for (const child of this.#out) {
if (typeof child !== "string") {
yield* child.#traverse_components();
}
}
if (this.#is_component_body) {
yield this;
}
}
/**
* @returns {Iterable<() => void>}
*/
*#collect_ondestroy() {
if (this.#on_destroy) {
for (const fn of this.#on_destroy) {
yield fn;
}
}
for (const child of this.#out) {
if (child instanceof Renderer && !child.#is_component_body) {
yield* child.#collect_ondestroy();
}
}
}
/**
* Render a component. Throws if any of the children are performing asynchronous work.
*
* @template {Record<string, any>} Props
* @param {Component<Props>} component
* @param {{ props?: Omit<Props, '$$slots' | '$$events'>; context?: Map<any, any>; idPrefix?: string }} options
* @returns {AccumulatedContent}
*/
static #render(component, options) {
var previous_context = ssr_context;
try {
const renderer = Renderer.#open_render("sync", component, options);
const content = renderer.#collect_content();
return Renderer.#close_render(content, renderer);
} finally {
abort();
set_ssr_context(previous_context);
}
}
/**
* Render a component.
*
* @template {Record<string, any>} Props
* @param {Component<Props>} component
* @param {{ props?: Omit<Props, '$$slots' | '$$events'>; context?: Map<any, any>; idPrefix?: string; csp?: Csp }} options
* @returns {Promise<AccumulatedContent & { hashes: { script: Sha256Source[] } }>}
*/
static async #render_async(component, options) {
const previous_context = ssr_context;
try {
const renderer = Renderer.#open_render("async", component, options);
const content = await renderer.#collect_content_async();
const hydratables = await renderer.#collect_hydratables();
if (hydratables !== null) {
content.head = hydratables + content.head;
}
return Renderer.#close_render(content, renderer);
} finally {
set_ssr_context(previous_context);
abort();
}
}
/**
* Collect all of the code from the `out` array and return it as a string, or a promise resolving to a string.
* @param {AccumulatedContent} content
* @returns {AccumulatedContent}
*/
#collect_content(content = { head: "", body: "" }) {
for (const item of this.#out) {
if (typeof item === "string") {
content[this.type] += item;
} else if (item instanceof Renderer) {
item.#collect_content(content);
}
}
return content;
}
/**
* Collect all of the code from the `out` array and return it as a string.
* @param {AccumulatedContent} content
* @returns {Promise<AccumulatedContent>}
*/
async #collect_content_async(content = { head: "", body: "" }) {
await this.promise;
for (const item of this.#out) {
if (typeof item === "string") {
content[this.type] += item;
} else if (item instanceof Renderer) {
await item.#collect_content_async(content);
}
}
return content;
}
async #collect_hydratables() {
const ctx = get_render_context().hydratable;
for (const [_, key] of ctx.unresolved_promises) {
unresolved_hydratable(key, ctx.lookup.get(key)?.stack ?? "<missing stack trace>");
}
for (const comparison of ctx.comparisons) {
await comparison;
}
return await this.#hydratable_block(ctx);
}
/**
* @template {Record<string, any>} Props
* @param {'sync' | 'async'} mode
* @param {import('svelte').Component<Props>} component
* @param {{ props?: Omit<Props, '$$slots' | '$$events'>; context?: Map<any, any>; idPrefix?: string; csp?: Csp }} options
* @returns {Renderer}
*/
static #open_render(mode, component, options) {
const renderer = new Renderer(
new SSRState(mode, options.idPrefix ? options.idPrefix + "-" : "", options.csp)
);
renderer.push(BLOCK_OPEN);
push();
if (options.context) ssr_context.c = options.context;
ssr_context.r = renderer;
component(renderer, options.props ?? {});
pop();
renderer.push(BLOCK_CLOSE);
return renderer;
}
/**
* @param {AccumulatedContent} content
* @param {Renderer} renderer
* @returns {AccumulatedContent & { hashes: { script: Sha256Source[] } }}
*/
static #close_render(content, renderer) {
for (const cleanup of renderer.#collect_on_destroy()) {
cleanup();
}
let head2 = content.head + renderer.global.get_title();
let body = content.body;
for (const { hash, code } of renderer.global.css) {
head2 += `<style id="${hash}">${code}</style>`;
}
return {
head: head2,
body,
hashes: {
script: renderer.global.csp.script_hashes
}
};
}
/**
* @param {HydratableContext} ctx
*/
async #hydratable_block(ctx) {
if (ctx.lookup.size === 0) {
return null;
}
let entries = [];
let has_promises = false;
for (const [k, v] of ctx.lookup) {
if (v.promises) {
has_promises = true;
for (const p of v.promises) await p;
}
entries.push(`[${devalue.uneval(k)},${v.serialized}]`);
}
let prelude = `const h = (window.__svelte ??= {}).h ??= new Map();`;
if (has_promises) {
prelude = `const r = (v) => Promise.resolve(v);
${prelude}`;
}
const body = `
{
${prelude}
for (const [k, v] of [
${entries.join(",\n ")}
]) {
h.set(k, v);
}
}
`;
let csp_attr = "";
if (this.global.csp.nonce) {
csp_attr = ` nonce="${this.global.csp.nonce}"`;
} else if (this.global.csp.hash) {
const hash = await sha256(body);
this.global.csp.script_hashes.push(`sha256-${hash}`);
}
return `
<script${csp_attr}>${body}<\/script>`;
}
}
class SSRState {
/** @readonly @type {Csp & { script_hashes: Sha256Source[] }} */
csp;
/** @readonly @type {'sync' | 'async'} */
mode;
/** @readonly @type {() => string} */
uid;
/** @readonly @type {Set<{ hash: string; code: string }>} */
css = /* @__PURE__ */ new Set();
/** @type {{ path: number[], value: string }} */
#title = { path: [], value: "" };
/**
* @param {'sync' | 'async'} mode
* @param {string} id_prefix
* @param {Csp} csp
*/
constructor(mode, id_prefix = "", csp = { hash: false }) {
this.mode = mode;
this.csp = { ...csp, script_hashes: [] };
let uid = 1;
this.uid = () => `${id_prefix}s${uid++}`;
}
get_title() {
return this.#title.value;
}
/**
* Performs a depth-first (lexicographic) comparison using the path. Rejects sets
* from earlier than or equal to the current value.
* @param {string} value
* @param {number[]} path
*/
set_title(value, path) {
const current = this.#title.path;
let i = 0;
let l = Math.min(path.length, current.length);
while (i < l && path[i] === current[i]) i += 1;
if (path[i] === void 0) return;
if (current[i] === void 0 || path[i] > current[i]) {
this.#title.path = path;
this.#title.value = value;
}
}
}
const INVALID_ATTR_NAME_CHAR_REGEX = /[\s'">/=\u{FDD0}-\u{FDEF}\u{FFFE}\u{FFFF}\u{1FFFE}\u{1FFFF}\u{2FFFE}\u{2FFFF}\u{3FFFE}\u{3FFFF}\u{4FFFE}\u{4FFFF}\u{5FFFE}\u{5FFFF}\u{6FFFE}\u{6FFFF}\u{7FFFE}\u{7FFFF}\u{8FFFE}\u{8FFFF}\u{9FFFE}\u{9FFFF}\u{AFFFE}\u{AFFFF}\u{BFFFE}\u{BFFFF}\u{CFFFE}\u{CFFFF}\u{DFFFE}\u{DFFFF}\u{EFFFE}\u{EFFFF}\u{FFFFE}\u{FFFFF}\u{10FFFE}\u{10FFFF}]/u;
function render(component, options = {}) {
if (options.csp?.hash && options.csp.nonce) {
invalid_csp();
}
return Renderer.render(
/** @type {Component<Props>} */
component,
options
);
}
function head(hash, renderer, fn) {
renderer.head((renderer2) => {
renderer2.push(`<!--${hash}-->`);
renderer2.child(fn);
renderer2.push(EMPTY_COMMENT);
});
}
function attributes(attrs, css_hash, classes, styles, flags2 = 0) {
if (styles) {
attrs.style = to_style(attrs.style, styles);
}
if (attrs.class) {
attrs.class = clsx(attrs.class);
}
if (css_hash || classes) {
attrs.class = to_class(attrs.class, css_hash, classes);
}
let attr_str = "";
let name;
const is_html = (flags2 & ELEMENT_IS_NAMESPACED) === 0;
const lowercase = (flags2 & ELEMENT_PRESERVE_ATTRIBUTE_CASE) === 0;
const is_input = (flags2 & ELEMENT_IS_INPUT) !== 0;
for (name in attrs) {
if (typeof attrs[name] === "function") continue;
if (name[0] === "$" && name[1] === "$") continue;
if (INVALID_ATTR_NAME_CHAR_REGEX.test(name)) continue;
var value = attrs[name];
if (lowercase) {
name = name.toLowerCase();
}
if (is_input) {
if (name === "defaultvalue" || name === "defaultchecked") {
name = name === "defaultvalue" ? "value" : "checked";
if (attrs[name]) continue;
}
}
attr_str += attr(name, value, is_html && is_boolean_attribute(name));
}
return attr_str;
}
function attr_class(value, hash, directives) {
var result = to_class(value, hash, directives);
return result ? ` class="${escape_html(result, true)}"` : "";
}
function store_get(store_values, store_name, store) {
if (store_name in store_values && store_values[store_name][0] === store) {
return store_values[store_name][2];
}
store_values[store_name]?.[1]();
store_values[store_name] = [store, null, void 0];
const unsub = subscribe_to_store(
store,
/** @param {any} v */
(v) => store_values[store_name][2] = v
);
store_values[store_name][1] = unsub;
return store_values[store_name][2];
}
function unsubscribe_stores(store_values) {
for (const store_name in store_values) {
store_values[store_name][1]();
}
}
function slot(renderer, $$props, name, slot_props, fallback_fn) {
var slot_fn = $$props.$$slots?.[name];
if (slot_fn === true) {
slot_fn = $$props["children"];
}
if (slot_fn !== void 0) {
slot_fn(renderer, slot_props);
}
}
function bind_props(props_parent, props_now) {
for (const key in props_now) {
const initial_value = props_parent[key];
const value = props_now[key];
if (initial_value === void 0 && value !== void 0 && Object.getOwnPropertyDescriptor(props_parent, key)?.set) {
props_parent[key] = value;
}
}
}
function asClassComponent(component) {
const component_constructor = asClassComponent$1(component);
const _render = (props, { context, csp } = {}) => {
const result = render(component, { props, context, csp });
const munged = Object.defineProperties(
/** @type {LegacyRenderResult & PromiseLike<LegacyRenderResult>} */
{},
{
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,
data_2 = null
} = $$props;
{
setContext("__svelte__", stores);
}
{
stores.page.set(page);
}
const Pyramid_2 = constructors[2];
if (constructors[1]) {
$$renderer2.push("<!--[-->");
const Pyramid_0 = constructors[0];
$$renderer2.push("<!---->");
Pyramid_0?.($$renderer2, {
data: data_0,
form,
params: page.params,
children: ($$renderer3) => {
if (constructors[2]) {
$$renderer3.push("<!--[-->");
const Pyramid_1 = constructors[1];
$$renderer3.push("<!---->");
Pyramid_1?.($$renderer3, {
data: data_1,
form,
params: page.params,
children: ($$renderer4) => {
$$renderer4.push("<!---->");
Pyramid_2?.($$renderer4, { data: data_2, form, params: page.params });
$$renderer4.push(`<!---->`);
},
$$slots: { default: true }
});
$$renderer3.push(`<!---->`);
} else {
$$renderer3.push("<!--[!-->");
const Pyramid_1 = constructors[1];
$$renderer3.push("<!---->");
Pyramid_1?.($$renderer3, { data: data_1, form, params: page.params });
$$renderer3.push(`<!---->`);
}
$$renderer3.push(`<!--]-->`);
},
$$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);
export {
slot as a,
attr_class as b,
attr as c,
bind_props as d,
escape_html as e,
fallback as f,
getContext as g,
head as h,
safe_not_equal as i,
subscribe_to_store as j,
run_all as k,
noop as n,
root as r,
store_get as s,
unsubscribe_stores as u
};
Reference in New Issue View Git Blame Copy Permalink