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Laptop-Thing/web/node_modules/.vite/deps/chunk-OTO7APUV.js

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Initial commit
2024-11-27 12:35:48 -05:00
import {
legacy_mode_flag
} from "./chunk-EXIRPMAV.js";
// node_modules/esm-env/browser-dev.js
var BROWSER = true;
var DEV = true;
// node_modules/svelte/src/internal/shared/utils.js
var is_array = Array.isArray;
var array_from = Array.from;
var object_keys = Object.keys;
var define_property = Object.defineProperty;
var get_descriptor = Object.getOwnPropertyDescriptor;
var get_descriptors = Object.getOwnPropertyDescriptors;
var object_prototype = Object.prototype;
var array_prototype = Array.prototype;
var get_prototype_of = Object.getPrototypeOf;
function is_function(thing) {
return typeof thing === "function";
}
var noop = () => {
};
function is_promise(value) {
return typeof (value == null ? void 0 : value.then) === "function";
}
function run(fn) {
return fn();
}
function run_all(arr) {
for (var i = 0; i < arr.length; i++) {
arr[i]();
}
}
function fallback(value, fallback2, lazy = false) {
return value === void 0 ? lazy ? (
/** @type {() => V} */
fallback2()
) : (
/** @type {V} */
fallback2
) : value;
}
// node_modules/svelte/src/internal/client/constants.js
var DERIVED = 1 << 1;
var EFFECT = 1 << 2;
var RENDER_EFFECT = 1 << 3;
var BLOCK_EFFECT = 1 << 4;
var BRANCH_EFFECT = 1 << 5;
var ROOT_EFFECT = 1 << 6;
var UNOWNED = 1 << 7;
var DISCONNECTED = 1 << 8;
var CLEAN = 1 << 9;
var DIRTY = 1 << 10;
var MAYBE_DIRTY = 1 << 11;
var INERT = 1 << 12;
var DESTROYED = 1 << 13;
var EFFECT_RAN = 1 << 14;
var EFFECT_TRANSPARENT = 1 << 15;
var LEGACY_DERIVED_PROP = 1 << 16;
var INSPECT_EFFECT = 1 << 17;
var HEAD_EFFECT = 1 << 18;
var EFFECT_HAS_DERIVED = 1 << 19;
var STATE_SYMBOL = Symbol("$state");
var STATE_SYMBOL_METADATA = Symbol("$state metadata");
var LEGACY_PROPS = Symbol("legacy props");
var LOADING_ATTR_SYMBOL = Symbol("");
// node_modules/svelte/src/internal/client/errors.js
function bind_invalid_checkbox_value() {
if (DEV) {
const error = new Error(`bind_invalid_checkbox_value
Using \`bind:value\` together with a checkbox input is not allowed. Use \`bind:checked\` instead`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("bind_invalid_checkbox_value");
}
}
function bind_invalid_export(component, key, name) {
if (DEV) {
const error = new Error(`bind_invalid_export
Component ${component} has an export named \`${key}\` that a consumer component is trying to access using \`bind:${key}\`, which is disallowed. Instead, use \`bind:this\` (e.g. \`<${name} bind:this={component} />\`) and then access the property on the bound component instance (e.g. \`component.${key}\`)`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("bind_invalid_export");
}
}
function bind_not_bindable(key, component, name) {
if (DEV) {
const error = new Error(`bind_not_bindable
A component is attempting to bind to a non-bindable property \`${key}\` belonging to ${component} (i.e. \`<${name} bind:${key}={...}>\`). To mark a property as bindable: \`let { ${key} = $bindable() } = $props()\``);
error.name = "Svelte error";
throw error;
} else {
throw new Error("bind_not_bindable");
}
}
function component_api_changed(parent, method, component) {
if (DEV) {
const error = new Error(`component_api_changed
${parent} called \`${method}\` on an instance of ${component}, which is no longer valid in Svelte 5. See https://svelte.dev/docs/svelte/v5-migration-guide#Components-are-no-longer-classes for more information`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("component_api_changed");
}
}
function component_api_invalid_new(component, name) {
if (DEV) {
const error = new Error(`component_api_invalid_new
Attempted to instantiate ${component} with \`new ${name}\`, which is no longer valid in Svelte 5. If this component is not under your control, set the \`compatibility.componentApi\` compiler option to \`4\` to keep it working. See https://svelte.dev/docs/svelte/v5-migration-guide#Components-are-no-longer-classes for more information`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("component_api_invalid_new");
}
}
function derived_references_self() {
if (DEV) {
const error = new Error(`derived_references_self
A derived value cannot reference itself recursively`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("derived_references_self");
}
}
function each_key_duplicate(a, b, value) {
if (DEV) {
const error = new Error(`each_key_duplicate
${value ? `Keyed each block has duplicate key \`${value}\` at indexes ${a} and ${b}` : `Keyed each block has duplicate key at indexes ${a} and ${b}`}`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("each_key_duplicate");
}
}
function effect_in_teardown(rune) {
if (DEV) {
const error = new Error(`effect_in_teardown
\`${rune}\` cannot be used inside an effect cleanup function`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("effect_in_teardown");
}
}
function effect_in_unowned_derived() {
if (DEV) {
const error = new Error(`effect_in_unowned_derived
Effect cannot be created inside a \`$derived\` value that was not itself created inside an effect`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("effect_in_unowned_derived");
}
}
function effect_orphan(rune) {
if (DEV) {
const error = new Error(`effect_orphan
\`${rune}\` can only be used inside an effect (e.g. during component initialisation)`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("effect_orphan");
}
}
function effect_update_depth_exceeded() {
if (DEV) {
const error = new Error(`effect_update_depth_exceeded
Maximum update depth exceeded. This can happen when a reactive block or effect repeatedly sets a new value. Svelte limits the number of nested updates to prevent infinite loops`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("effect_update_depth_exceeded");
}
}
function hydration_failed() {
if (DEV) {
const error = new Error(`hydration_failed
Failed to hydrate the application`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("hydration_failed");
}
}
function invalid_snippet() {
if (DEV) {
const error = new Error(`invalid_snippet
Could not \`{@render}\` snippet due to the expression being \`null\` or \`undefined\`. Consider using optional chaining \`{@render snippet?.()}\``);
error.name = "Svelte error";
throw error;
} else {
throw new Error("invalid_snippet");
}
}
function lifecycle_legacy_only(name) {
if (DEV) {
const error = new Error(`lifecycle_legacy_only
\`${name}(...)\` cannot be used in runes mode`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("lifecycle_legacy_only");
}
}
function props_invalid_value(key) {
if (DEV) {
const error = new Error(`props_invalid_value
Cannot do \`bind:${key}={undefined}\` when \`${key}\` has a fallback value`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("props_invalid_value");
}
}
function props_rest_readonly(property) {
if (DEV) {
const error = new Error(`props_rest_readonly
Rest element properties of \`$props()\` such as \`${property}\` are readonly`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("props_rest_readonly");
}
}
function rune_outside_svelte(rune) {
if (DEV) {
const error = new Error(`rune_outside_svelte
The \`${rune}\` rune is only available inside \`.svelte\` and \`.svelte.js/ts\` files`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("rune_outside_svelte");
}
}
function state_descriptors_fixed() {
if (DEV) {
const error = new Error(`state_descriptors_fixed
Property descriptors defined on \`$state\` objects must contain \`value\` and always be \`enumerable\`, \`configurable\` and \`writable\`.`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("state_descriptors_fixed");
}
}
function state_prototype_fixed() {
if (DEV) {
const error = new Error(`state_prototype_fixed
Cannot set prototype of \`$state\` object`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("state_prototype_fixed");
}
}
function state_unsafe_local_read() {
if (DEV) {
const error = new Error(`state_unsafe_local_read
Reading state that was created inside the same derived is forbidden. Consider using \`untrack\` to read locally created state`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("state_unsafe_local_read");
}
}
function state_unsafe_mutation() {
if (DEV) {
const error = new Error(`state_unsafe_mutation
Updating state inside a derived or a template expression is forbidden. If the value should not be reactive, declare it without \`$state\``);
error.name = "Svelte error";
throw error;
} else {
throw new Error("state_unsafe_mutation");
}
}
// node_modules/svelte/src/constants.js
var EACH_ITEM_REACTIVE = 1;
var EACH_INDEX_REACTIVE = 1 << 1;
var EACH_IS_CONTROLLED = 1 << 2;
var EACH_IS_ANIMATED = 1 << 3;
var EACH_ITEM_IMMUTABLE = 1 << 4;
var PROPS_IS_IMMUTABLE = 1;
var PROPS_IS_RUNES = 1 << 1;
var PROPS_IS_UPDATED = 1 << 2;
var PROPS_IS_BINDABLE = 1 << 3;
var PROPS_IS_LAZY_INITIAL = 1 << 4;
var TRANSITION_IN = 1;
var TRANSITION_OUT = 1 << 1;
var TRANSITION_GLOBAL = 1 << 2;
var TEMPLATE_FRAGMENT = 1;
var TEMPLATE_USE_IMPORT_NODE = 1 << 1;
var HYDRATION_START = "[";
var HYDRATION_START_ELSE = "[!";
var HYDRATION_END = "]";
var HYDRATION_ERROR = {};
var ELEMENT_PRESERVE_ATTRIBUTE_CASE = 1 << 1;
var UNINITIALIZED = Symbol();
var FILENAME = Symbol("filename");
var HMR = Symbol("hmr");
var NAMESPACE_SVG = "http://www.w3.org/2000/svg";
// node_modules/svelte/src/internal/client/warnings.js
var bold = "font-weight: bold";
var normal = "font-weight: normal";
function binding_property_non_reactive(binding, location) {
if (DEV) {
console.warn(`%c[svelte] binding_property_non_reactive
%c${location ? `\`${binding}\` (${location}) is binding to a non-reactive property` : `\`${binding}\` is binding to a non-reactive property`}`, bold, normal);
} else {
console.warn("binding_property_non_reactive");
}
}
function console_log_state(method) {
if (DEV) {
console.warn(`%c[svelte] console_log_state
%cYour \`console.${method}\` contained \`$state\` proxies. Consider using \`$inspect(...)\` or \`$state.snapshot(...)\` instead`, bold, normal);
} else {
console.warn("console_log_state");
}
}
function event_handler_invalid(handler, suggestion) {
if (DEV) {
console.warn(`%c[svelte] event_handler_invalid
%c${handler} should be a function. Did you mean to ${suggestion}?`, bold, normal);
} else {
console.warn("event_handler_invalid");
}
}
function hydration_attribute_changed(attribute, html, value) {
if (DEV) {
console.warn(`%c[svelte] hydration_attribute_changed
%cThe \`${attribute}\` attribute on \`${html}\` changed its value between server and client renders. The client value, \`${value}\`, will be ignored in favour of the server value`, bold, normal);
} else {
console.warn("hydration_attribute_changed");
}
}
function hydration_html_changed(location) {
if (DEV) {
console.warn(`%c[svelte] hydration_html_changed
%c${location ? `The value of an \`{@html ...}\` block ${location} changed between server and client renders. The client value will be ignored in favour of the server value` : "The value of an `{@html ...}` block changed between server and client renders. The client value will be ignored in favour of the server value"}`, bold, normal);
} else {
console.warn("hydration_html_changed");
}
}
function hydration_mismatch(location) {
if (DEV) {
console.warn(`%c[svelte] hydration_mismatch
%c${location ? `Hydration failed because the initial UI does not match what was rendered on the server. The error occurred near ${location}` : "Hydration failed because the initial UI does not match what was rendered on the server"}`, bold, normal);
} else {
console.warn("hydration_mismatch");
}
}
function invalid_raw_snippet_render() {
if (DEV) {
console.warn(`%c[svelte] invalid_raw_snippet_render
%cThe \`render\` function passed to \`createRawSnippet\` should return HTML for a single element`, bold, normal);
} else {
console.warn("invalid_raw_snippet_render");
}
}
function legacy_recursive_reactive_block(filename) {
if (DEV) {
console.warn(`%c[svelte] legacy_recursive_reactive_block
%cDetected a migrated \`$:\` reactive block in \`${filename}\` that both accesses and updates the same reactive value. This may cause recursive updates when converted to an \`$effect\`.`, bold, normal);
} else {
console.warn("legacy_recursive_reactive_block");
}
}
function lifecycle_double_unmount() {
if (DEV) {
console.warn(`%c[svelte] lifecycle_double_unmount
%cTried to unmount a component that was not mounted`, bold, normal);
} else {
console.warn("lifecycle_double_unmount");
}
}
function ownership_invalid_binding(parent, child2, owner) {
if (DEV) {
console.warn(`%c[svelte] ownership_invalid_binding
%c${parent} passed a value to ${child2} with \`bind:\`, but the value is owned by ${owner}. Consider creating a binding between ${owner} and ${parent}`, bold, normal);
} else {
console.warn("ownership_invalid_binding");
}
}
function ownership_invalid_mutation(component, owner) {
if (DEV) {
console.warn(`%c[svelte] ownership_invalid_mutation
%c${component ? `${component} mutated a value owned by ${owner}. This is strongly discouraged. Consider passing values to child components with \`bind:\`, or use a callback instead` : "Mutating a value outside the component that created it is strongly discouraged. Consider passing values to child components with `bind:`, or use a callback instead"}`, bold, normal);
} else {
console.warn("ownership_invalid_mutation");
}
}
function state_proxy_equality_mismatch(operator) {
if (DEV) {
console.warn(`%c[svelte] state_proxy_equality_mismatch
%cReactive \`$state(...)\` proxies and the values they proxy have different identities. Because of this, comparisons with \`${operator}\` will produce unexpected results`, bold, normal);
} else {
console.warn("state_proxy_equality_mismatch");
}
}
// node_modules/svelte/src/internal/client/dom/hydration.js
var hydrating = false;
function set_hydrating(value) {
hydrating = value;
}
var hydrate_node;
function set_hydrate_node(node) {
if (node === null) {
hydration_mismatch();
throw HYDRATION_ERROR;
}
return hydrate_node = node;
}
function hydrate_next() {
return set_hydrate_node(
/** @type {TemplateNode} */
get_next_sibling(hydrate_node)
);
}
function reset(node) {
if (!hydrating) return;
if (get_next_sibling(hydrate_node) !== null) {
hydration_mismatch();
throw HYDRATION_ERROR;
}
hydrate_node = node;
}
function hydrate_template(template) {
if (hydrating) {
hydrate_node = template.content;
}
}
function next(count = 1) {
if (hydrating) {
var i = count;
var node = hydrate_node;
while (i--) {
node = /** @type {TemplateNode} */
get_next_sibling(node);
}
hydrate_node = node;
}
}
function remove_nodes() {
var depth = 0;
var node = hydrate_node;
while (true) {
if (node.nodeType === 8) {
var data = (
/** @type {Comment} */
node.data
);
if (data === HYDRATION_END) {
if (depth === 0) return node;
depth -= 1;
} else if (data === HYDRATION_START || data === HYDRATION_START_ELSE) {
depth += 1;
}
}
var next2 = (
/** @type {TemplateNode} */
get_next_sibling(node)
);
node.remove();
node = next2;
}
}
// node_modules/svelte/src/internal/client/dev/ownership.js
var boundaries = {};
var chrome_pattern = /at (?:.+ \()?(.+):(\d+):(\d+)\)?$/;
var firefox_pattern = /@(.+):(\d+):(\d+)$/;
function get_stack() {
const stack2 = new Error().stack;
if (!stack2) return null;
const entries = [];
for (const line of stack2.split("\n")) {
let match = chrome_pattern.exec(line) ?? firefox_pattern.exec(line);
if (match) {
entries.push({
file: match[1],
line: +match[2],
column: +match[3]
});
}
}
return entries;
}
function get_component() {
var _a;
const stack2 = (_a = get_stack()) == null ? void 0 : _a.slice(4);
if (!stack2) return null;
for (let i = 0; i < stack2.length; i++) {
const entry = stack2[i];
const modules = boundaries[entry.file];
if (!modules) {
if (i === 0) return null;
continue;
}
for (const module of modules) {
if (module.end == null) {
return null;
}
if (module.start.line < entry.line && module.end.line > entry.line) {
return module.component;
}
}
}
return null;
}
var ADD_OWNER = Symbol("ADD_OWNER");
function mark_module_start() {
var _a, _b;
const start = (_a = get_stack()) == null ? void 0 : _a[2];
if (start) {
(boundaries[_b = start.file] ?? (boundaries[_b] = [])).push({
start,
// @ts-expect-error
end: null,
// @ts-expect-error we add the component at the end, since HMR will overwrite the function
component: null
});
}
}
function mark_module_end(component) {
var _a;
const end = (_a = get_stack()) == null ? void 0 : _a[2];
if (end) {
const boundaries_file = boundaries[end.file];
const boundary = boundaries_file[boundaries_file.length - 1];
boundary.end = end;
boundary.component = component;
}
}
function add_owner(object, owner, global = false, skip_warning = false) {
if (object && !global) {
const component = dev_current_component_function;
const metadata = object[STATE_SYMBOL_METADATA];
if (metadata && !has_owner(metadata, component)) {
let original = get_owner(metadata);
if (owner[FILENAME] !== component[FILENAME] && !skip_warning) {
ownership_invalid_binding(component[FILENAME], owner[FILENAME], original[FILENAME]);
}
}
}
add_owner_to_object(object, owner, /* @__PURE__ */ new Set());
}
function add_owner_effect(get_object, Component, skip_warning = false) {
user_pre_effect(() => {
add_owner(get_object(), Component, false, skip_warning);
});
}
function widen_ownership(from, to) {
if (to.owners === null) {
return;
}
while (from) {
if (from.owners === null) {
to.owners = null;
break;
}
for (const owner of from.owners) {
to.owners.add(owner);
}
from = from.parent;
}
}
function add_owner_to_object(object, owner, seen) {
const metadata = (
/** @type {ProxyMetadata} */
object == null ? void 0 : object[STATE_SYMBOL_METADATA]
);
if (metadata) {
if ("owners" in metadata && metadata.owners != null) {
metadata.owners.add(owner);
}
} else if (object && typeof object === "object") {
if (seen.has(object)) return;
seen.add(object);
if (ADD_OWNER in object && object[ADD_OWNER]) {
render_effect(() => {
object[ADD_OWNER](owner);
});
} else {
var proto = get_prototype_of(object);
if (proto === Object.prototype) {
for (const key in object) {
add_owner_to_object(object[key], owner, seen);
}
} else if (proto === Array.prototype) {
for (let i = 0; i < object.length; i += 1) {
add_owner_to_object(object[i], owner, seen);
}
}
}
}
}
function has_owner(metadata, component) {
if (metadata.owners === null) {
return true;
}
return metadata.owners.has(component) || metadata.parent !== null && has_owner(metadata.parent, component);
}
function get_owner(metadata) {
var _a;
return ((_a = metadata == null ? void 0 : metadata.owners) == null ? void 0 : _a.values().next().value) ?? get_owner(
/** @type {ProxyMetadata} */
metadata.parent
);
}
var skip = false;
function skip_ownership_validation(fn) {
skip = true;
fn();
skip = false;
}
function check_ownership(metadata) {
if (skip) return;
const component = get_component();
if (component && !has_owner(metadata, component)) {
let original = get_owner(metadata);
if (original[FILENAME] !== component[FILENAME]) {
ownership_invalid_mutation(component[FILENAME], original[FILENAME]);
} else {
ownership_invalid_mutation();
}
}
}
// node_modules/svelte/src/internal/client/proxy.js
function proxy(value, parent = null, prev) {
var _a, _b;
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 = source(0);
if (is_proxied_array) {
sources.set("length", source(
/** @type {any[]} */
value.length
));
}
var metadata;
if (DEV) {
metadata = {
parent,
owners: null
};
if (prev) {
const prev_owners = (_b = (_a = prev.v) == null ? void 0 : _a[STATE_SYMBOL_METADATA]) == null ? void 0 : _b.owners;
metadata.owners = prev_owners ? new Set(prev_owners) : null;
} else {
metadata.owners = parent === null ? component_context !== null ? /* @__PURE__ */ new Set([component_context.function]) : null : /* @__PURE__ */ new Set();
}
}
return new Proxy(
/** @type {any} */
value,
{
defineProperty(_, prop, descriptor) {
if (!("value" in descriptor) || descriptor.configurable === false || descriptor.enumerable === false || descriptor.writable === false) {
state_descriptors_fixed();
}
var s = sources.get(prop);
if (s === void 0) {
s = source(descriptor.value);
sources.set(prop, s);
} else {
set(s, proxy(descriptor.value, metadata));
}
return true;
},
deleteProperty(target, prop) {
var s = sources.get(prop);
if (s === void 0) {
if (prop in target) {
sources.set(prop, source(UNINITIALIZED));
}
} else {
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);
}
}
set(s, UNINITIALIZED);
update_version(version);
}
return true;
},
get(target, prop, receiver) {
var _a2;
if (DEV && prop === STATE_SYMBOL_METADATA) {
return metadata;
}
if (prop === STATE_SYMBOL) {
return value;
}
var s = sources.get(prop);
var exists = prop in target;
if (s === void 0 && (!exists || ((_a2 = get_descriptor(target, prop)) == null ? void 0 : _a2.writable))) {
s = source(proxy(exists ? target[prop] : UNINITIALIZED, metadata));
sources.set(prop, s);
}
if (s !== void 0) {
var v = get(s);
if (DEV) {
var prop_metadata = v == null ? void 0 : v[STATE_SYMBOL_METADATA];
if (prop_metadata && (prop_metadata == null ? void 0 : prop_metadata.parent) !== metadata) {
widen_ownership(metadata, prop_metadata);
}
}
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 == null ? void 0 : source2.v;
if (source2 !== void 0 && value2 !== UNINITIALIZED) {
return {
enumerable: true,
configurable: true,
value: value2,
writable: true
};
}
}
return descriptor;
},
has(target, prop) {
var _a2;
if (DEV && prop === STATE_SYMBOL_METADATA) {
return true;
}
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 || ((_a2 = get_descriptor(target, prop)) == null ? void 0 : _a2.writable))) {
if (s === void 0) {
s = source(has ? proxy(target[prop], metadata) : UNINITIALIZED);
sources.set(prop, s);
}
var value2 = get(s);
if (value2 === UNINITIALIZED) {
return false;
}
}
return has;
},
set(target, prop, value2, receiver) {
var _a2;
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 = source(UNINITIALIZED);
sources.set(i + "", other_s);
}
}
}
if (s === void 0) {
if (!has || ((_a2 = get_descriptor(target, prop)) == null ? void 0 : _a2.writable)) {
s = source(void 0);
set(s, proxy(value2, metadata));
sources.set(prop, s);
}
} else {
has = s.v !== UNINITIALIZED;
set(s, proxy(value2, metadata));
}
if (DEV) {
var prop_metadata = value2 == null ? void 0 : value2[STATE_SYMBOL_METADATA];
if (prop_metadata && (prop_metadata == null ? void 0 : prop_metadata.parent) !== metadata) {
widen_ownership(metadata, prop_metadata);
}
check_ownership(metadata);
}
var descriptor = Reflect.getOwnPropertyDescriptor(target, prop);
if (descriptor == null ? void 0 : 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);
}
}
update_version(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();
}
}
);
}
function update_version(signal, d = 1) {
set(signal, signal.v + d);
}
function get_proxied_value(value) {
if (value !== null && typeof value === "object" && STATE_SYMBOL in value) {
return value[STATE_SYMBOL];
}
return value;
}
function is(a, b) {
return Object.is(get_proxied_value(a), get_proxied_value(b));
}
// node_modules/svelte/src/internal/client/dev/equality.js
function init_array_prototype_warnings() {
const array_prototype2 = Array.prototype;
const cleanup = Array.__svelte_cleanup;
if (cleanup) {
cleanup();
}
const { indexOf, lastIndexOf, includes } = array_prototype2;
array_prototype2.indexOf = function(item, from_index) {
const index = indexOf.call(this, item, from_index);
if (index === -1) {
const test = indexOf.call(get_proxied_value(this), get_proxied_value(item), from_index);
if (test !== -1) {
state_proxy_equality_mismatch("array.indexOf(...)");
}
}
return index;
};
array_prototype2.lastIndexOf = function(item, from_index) {
const index = lastIndexOf.call(this, item, from_index ?? this.length - 1);
if (index === -1) {
const test = lastIndexOf.call(
get_proxied_value(this),
get_proxied_value(item),
from_index ?? this.length - 1
);
if (test !== -1) {
state_proxy_equality_mismatch("array.lastIndexOf(...)");
}
}
return index;
};
array_prototype2.includes = function(item, from_index) {
const has = includes.call(this, item, from_index);
if (!has) {
const test = includes.call(get_proxied_value(this), get_proxied_value(item), from_index);
if (test) {
state_proxy_equality_mismatch("array.includes(...)");
}
}
return has;
};
Array.__svelte_cleanup = () => {
array_prototype2.indexOf = indexOf;
array_prototype2.lastIndexOf = lastIndexOf;
array_prototype2.includes = includes;
};
}
function strict_equals(a, b, equal = true) {
try {
if (a === b !== (get_proxied_value(a) === get_proxied_value(b))) {
state_proxy_equality_mismatch(equal ? "===" : "!==");
}
} catch {
}
return a === b === equal;
}
function equals(a, b, equal = true) {
if (a == b !== (get_proxied_value(a) == get_proxied_value(b))) {
state_proxy_equality_mismatch(equal ? "==" : "!=");
}
return a == b === equal;
}
// node_modules/svelte/src/internal/client/dom/operations.js
var $window;
var $document;
var first_child_getter;
var next_sibling_getter;
function init_operations() {
if ($window !== void 0) {
return;
}
$window = window;
$document = document;
var element_prototype = Element.prototype;
var node_prototype = Node.prototype;
first_child_getter = get_descriptor(node_prototype, "firstChild").get;
next_sibling_getter = get_descriptor(node_prototype, "nextSibling").get;
element_prototype.__click = void 0;
element_prototype.__className = "";
element_prototype.__attributes = null;
element_prototype.__styles = null;
element_prototype.__e = void 0;
Text.prototype.__t = void 0;
if (DEV) {
element_prototype.__svelte_meta = null;
init_array_prototype_warnings();
}
}
function create_text(value = "") {
return document.createTextNode(value);
}
function get_first_child(node) {
return first_child_getter.call(node);
}
function get_next_sibling(node) {
return next_sibling_getter.call(node);
}
function child(node, is_text) {
if (!hydrating) {
return get_first_child(node);
}
var child2 = (
/** @type {TemplateNode} */
get_first_child(hydrate_node)
);
if (child2 === null) {
child2 = hydrate_node.appendChild(create_text());
} else if (is_text && child2.nodeType !== 3) {
var text = create_text();
child2 == null ? void 0 : child2.before(text);
set_hydrate_node(text);
return text;
}
set_hydrate_node(child2);
return child2;
}
function first_child(fragment, is_text) {
var _a, _b;
if (!hydrating) {
var first = (
/** @type {DocumentFragment} */
get_first_child(
/** @type {Node} */
fragment
)
);
if (first instanceof Comment && first.data === "") return get_next_sibling(first);
return first;
}
if (is_text && ((_a = hydrate_node) == null ? void 0 : _a.nodeType) !== 3) {
var text = create_text();
(_b = hydrate_node) == null ? void 0 : _b.before(text);
set_hydrate_node(text);
return text;
}
return hydrate_node;
}
function sibling(node, count = 1, is_text = false) {
let next_sibling = hydrating ? hydrate_node : node;
var last_sibling;
while (count--) {
last_sibling = next_sibling;
next_sibling = /** @type {TemplateNode} */
get_next_sibling(next_sibling);
}
if (!hydrating) {
return next_sibling;
}
var type = next_sibling == null ? void 0 : next_sibling.nodeType;
if (is_text && type !== 3) {
var text = create_text();
if (next_sibling === null) {
last_sibling == null ? void 0 : last_sibling.after(text);
} else {
next_sibling.before(text);
}
set_hydrate_node(text);
return text;
}
set_hydrate_node(next_sibling);
return (
/** @type {TemplateNode} */
next_sibling
);
}
function clear_text_content(node) {
node.textContent = "";
}
// node_modules/svelte/src/internal/client/reactivity/equality.js
function equals2(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 not_equal(a, b) {
return a !== b;
}
function safe_equals(value) {
return !safe_not_equal(value, this.v);
}
// node_modules/svelte/src/internal/client/reactivity/deriveds.js
function derived(fn) {
var flags = DERIVED | DIRTY;
if (active_effect === null) {
flags |= UNOWNED;
} else {
active_effect.f |= EFFECT_HAS_DERIVED;
}
var parent_derived = active_reaction !== null && (active_reaction.f & DERIVED) !== 0 ? (
/** @type {Derived} */
active_reaction
) : null;
const signal = {
children: null,
ctx: component_context,
deps: null,
equals: equals2,
f: flags,
fn,
reactions: null,
v: (
/** @type {V} */
null
),
version: 0,
parent: parent_derived ?? active_effect
};
if (parent_derived !== null) {
(parent_derived.children ?? (parent_derived.children = [])).push(signal);
}
return signal;
}
function derived_safe_equal(fn) {
const signal = derived(fn);
signal.equals = safe_equals;
return signal;
}
function destroy_derived_children(derived2) {
var children = derived2.children;
if (children !== null) {
derived2.children = null;
for (var i = 0; i < children.length; i += 1) {
var child2 = children[i];
if ((child2.f & DERIVED) !== 0) {
destroy_derived(
/** @type {Derived} */
child2
);
} else {
destroy_effect(
/** @type {Effect} */
child2
);
}
}
}
}
var stack = [];
function get_derived_parent_effect(derived2) {
var parent = derived2.parent;
while (parent !== null) {
if ((parent.f & DERIVED) === 0) {
return (
/** @type {Effect} */
parent
);
}
parent = parent.parent;
}
return null;
}
function execute_derived(derived2) {
var value;
var prev_active_effect = active_effect;
set_active_effect(get_derived_parent_effect(derived2));
if (DEV) {
let prev_inspect_effects = inspect_effects;
set_inspect_effects(/* @__PURE__ */ new Set());
try {
if (stack.includes(derived2)) {
derived_references_self();
}
stack.push(derived2);
destroy_derived_children(derived2);
value = update_reaction(derived2);
} finally {
set_active_effect(prev_active_effect);
set_inspect_effects(prev_inspect_effects);
stack.pop();
}
} else {
try {
destroy_derived_children(derived2);
value = update_reaction(derived2);
} finally {
set_active_effect(prev_active_effect);
}
}
return value;
}
function update_derived(derived2) {
var value = execute_derived(derived2);
var status = (skip_reaction || (derived2.f & UNOWNED) !== 0) && derived2.deps !== null ? MAYBE_DIRTY : CLEAN;
set_signal_status(derived2, status);
if (!derived2.equals(value)) {
derived2.v = value;
derived2.version = increment_version();
}
}
function destroy_derived(derived2) {
destroy_derived_children(derived2);
remove_reactions(derived2, 0);
set_signal_status(derived2, DESTROYED);
derived2.v = derived2.children = derived2.deps = derived2.ctx = derived2.reactions = null;
}
// node_modules/svelte/src/internal/client/reactivity/effects.js
function validate_effect(rune) {
if (active_effect === null && active_reaction === null) {
effect_orphan(rune);
}
if (active_reaction !== null && (active_reaction.f & UNOWNED) !== 0) {
effect_in_unowned_derived();
}
if (is_destroying_effect) {
effect_in_teardown(rune);
}
}
function push_effect(effect2, parent_effect) {
var parent_last = parent_effect.last;
if (parent_last === null) {
parent_effect.last = parent_effect.first = effect2;
} else {
parent_last.next = effect2;
effect2.prev = parent_last;
parent_effect.last = effect2;
}
}
function create_effect(type, fn, sync, push2 = true) {
var is_root = (type & ROOT_EFFECT) !== 0;
var parent_effect = active_effect;
if (DEV) {
while (parent_effect !== null && (parent_effect.f & INSPECT_EFFECT) !== 0) {
parent_effect = parent_effect.parent;
}
}
var effect2 = {
ctx: component_context,
deps: null,
deriveds: null,
nodes_start: null,
nodes_end: null,
f: type | DIRTY,
first: null,
fn,
last: null,
next: null,
parent: is_root ? null : parent_effect,
prev: null,
teardown: null,
transitions: null,
version: 0
};
if (DEV) {
effect2.component_function = dev_current_component_function;
}
if (sync) {
var previously_flushing_effect = is_flushing_effect;
try {
set_is_flushing_effect(true);
update_effect(effect2);
effect2.f |= EFFECT_RAN;
} catch (e) {
destroy_effect(effect2);
throw e;
} finally {
set_is_flushing_effect(previously_flushing_effect);
}
} else if (fn !== null) {
schedule_effect(effect2);
}
var inert = sync && effect2.deps === null && effect2.first === null && effect2.nodes_start === null && effect2.teardown === null && (effect2.f & EFFECT_HAS_DERIVED) === 0;
if (!inert && !is_root && push2) {
if (parent_effect !== null) {
push_effect(effect2, parent_effect);
}
if (active_reaction !== null && (active_reaction.f & DERIVED) !== 0) {
var derived2 = (
/** @type {Derived} */
active_reaction
);
(derived2.children ?? (derived2.children = [])).push(effect2);
}
}
return effect2;
}
function effect_tracking() {
if (active_reaction === null) {
return false;
}
return !skip_reaction;
}
function teardown(fn) {
const effect2 = create_effect(RENDER_EFFECT, null, false);
set_signal_status(effect2, CLEAN);
effect2.teardown = fn;
return effect2;
}
function user_effect(fn) {
validate_effect("$effect");
var defer = active_effect !== null && (active_effect.f & BRANCH_EFFECT) !== 0 && component_context !== null && !component_context.m;
if (DEV) {
define_property(fn, "name", {
value: "$effect"
});
}
if (defer) {
var context = (
/** @type {ComponentContext} */
component_context
);
(context.e ?? (context.e = [])).push({
fn,
effect: active_effect,
reaction: active_reaction
});
} else {
var signal = effect(fn);
return signal;
}
}
function user_pre_effect(fn) {
validate_effect("$effect.pre");
if (DEV) {
define_property(fn, "name", {
value: "$effect.pre"
});
}
return render_effect(fn);
}
function inspect_effect(fn) {
return create_effect(INSPECT_EFFECT, fn, true);
}
function effect_root(fn) {
const effect2 = create_effect(ROOT_EFFECT, fn, true);
return () => {
destroy_effect(effect2);
};
}
function effect(fn) {
return create_effect(EFFECT, fn, false);
}
function legacy_pre_effect(deps, fn) {
var context = (
/** @type {ComponentContextLegacy} */
component_context
);
var token = { effect: null, ran: false };
context.l.r1.push(token);
token.effect = render_effect(() => {
deps();
if (token.ran) return;
token.ran = true;
set(context.l.r2, true);
untrack(fn);
});
}
function legacy_pre_effect_reset() {
var context = (
/** @type {ComponentContextLegacy} */
component_context
);
render_effect(() => {
if (!get(context.l.r2)) return;
for (var token of context.l.r1) {
var effect2 = token.effect;
if ((effect2.f & CLEAN) !== 0) {
set_signal_status(effect2, MAYBE_DIRTY);
}
if (check_dirtiness(effect2)) {
update_effect(effect2);
}
token.ran = false;
}
context.l.r2.v = false;
});
}
function render_effect(fn) {
return create_effect(RENDER_EFFECT, fn, true);
}
function template_effect(fn) {
if (DEV) {
define_property(fn, "name", {
value: "{expression}"
});
}
return block(fn);
}
function block(fn, flags = 0) {
return create_effect(RENDER_EFFECT | BLOCK_EFFECT | flags, fn, true);
}
function branch(fn, push2 = true) {
return create_effect(RENDER_EFFECT | BRANCH_EFFECT, fn, true, push2);
}
function execute_effect_teardown(effect2) {
var teardown2 = effect2.teardown;
if (teardown2 !== null) {
const previously_destroying_effect = is_destroying_effect;
const previous_reaction = active_reaction;
set_is_destroying_effect(true);
set_active_reaction(null);
try {
teardown2.call(null);
} finally {
set_is_destroying_effect(previously_destroying_effect);
set_active_reaction(previous_reaction);
}
}
}
function destroy_effect_deriveds(signal) {
var deriveds = signal.deriveds;
if (deriveds !== null) {
signal.deriveds = null;
for (var i = 0; i < deriveds.length; i += 1) {
destroy_derived(deriveds[i]);
}
}
}
function destroy_effect_children(signal, remove_dom = false) {
var effect2 = signal.first;
signal.first = signal.last = null;
while (effect2 !== null) {
var next2 = effect2.next;
destroy_effect(effect2, remove_dom);
effect2 = next2;
}
}
function destroy_block_effect_children(signal) {
var effect2 = signal.first;
while (effect2 !== null) {
var next2 = effect2.next;
if ((effect2.f & BRANCH_EFFECT) === 0) {
destroy_effect(effect2);
}
effect2 = next2;
}
}
function destroy_effect(effect2, remove_dom = true) {
var removed = false;
if ((remove_dom || (effect2.f & HEAD_EFFECT) !== 0) && effect2.nodes_start !== null) {
var node = effect2.nodes_start;
var end = effect2.nodes_end;
while (node !== null) {
var next2 = node === end ? null : (
/** @type {TemplateNode} */
get_next_sibling(node)
);
node.remove();
node = next2;
}
removed = true;
}
destroy_effect_children(effect2, remove_dom && !removed);
destroy_effect_deriveds(effect2);
remove_reactions(effect2, 0);
set_signal_status(effect2, DESTROYED);
var transitions = effect2.transitions;
if (transitions !== null) {
for (const transition of transitions) {
transition.stop();
}
}
execute_effect_teardown(effect2);
var parent = effect2.parent;
if (parent !== null && parent.first !== null) {
unlink_effect(effect2);
}
if (DEV) {
effect2.component_function = null;
}
effect2.next = effect2.prev = effect2.teardown = effect2.ctx = effect2.deps = effect2.parent = effect2.fn = effect2.nodes_start = effect2.nodes_end = null;
}
function unlink_effect(effect2) {
var parent = effect2.parent;
var prev = effect2.prev;
var next2 = effect2.next;
if (prev !== null) prev.next = next2;
if (next2 !== null) next2.prev = prev;
if (parent !== null) {
if (parent.first === effect2) parent.first = next2;
if (parent.last === effect2) parent.last = prev;
}
}
function pause_effect(effect2, callback) {
var transitions = [];
pause_children(effect2, transitions, true);
run_out_transitions(transitions, () => {
destroy_effect(effect2);
if (callback) callback();
});
}
function run_out_transitions(transitions, fn) {
var remaining = transitions.length;
if (remaining > 0) {
var check = () => --remaining || fn();
for (var transition of transitions) {
transition.out(check);
}
} else {
fn();
}
}
function pause_children(effect2, transitions, local) {
if ((effect2.f & INERT) !== 0) return;
effect2.f ^= INERT;
if (effect2.transitions !== null) {
for (const transition of effect2.transitions) {
if (transition.is_global || local) {
transitions.push(transition);
}
}
}
var child2 = effect2.first;
while (child2 !== null) {
var sibling2 = child2.next;
var transparent = (child2.f & EFFECT_TRANSPARENT) !== 0 || (child2.f & BRANCH_EFFECT) !== 0;
pause_children(child2, transitions, transparent ? local : false);
child2 = sibling2;
}
}
function resume_effect(effect2) {
resume_children(effect2, true);
}
function resume_children(effect2, local) {
if ((effect2.f & INERT) === 0) return;
if (check_dirtiness(effect2)) {
update_effect(effect2);
}
effect2.f ^= INERT;
var child2 = effect2.first;
while (child2 !== null) {
var sibling2 = child2.next;
var transparent = (child2.f & EFFECT_TRANSPARENT) !== 0 || (child2.f & BRANCH_EFFECT) !== 0;
resume_children(child2, transparent ? local : false);
child2 = sibling2;
}
if (effect2.transitions !== null) {
for (const transition of effect2.transitions) {
if (transition.is_global || local) {
transition.in();
}
}
}
}
// node_modules/svelte/src/internal/client/dom/task.js
var request_idle_callback = typeof requestIdleCallback === "undefined" ? (cb) => setTimeout(cb, 1) : requestIdleCallback;
var is_micro_task_queued = false;
var is_idle_task_queued = false;
var current_queued_micro_tasks = [];
var current_queued_idle_tasks = [];
function process_micro_tasks() {
is_micro_task_queued = false;
const tasks = current_queued_micro_tasks.slice();
current_queued_micro_tasks = [];
run_all(tasks);
}
function process_idle_tasks() {
is_idle_task_queued = false;
const tasks = current_queued_idle_tasks.slice();
current_queued_idle_tasks = [];
run_all(tasks);
}
function queue_micro_task(fn) {
if (!is_micro_task_queued) {
is_micro_task_queued = true;
queueMicrotask(process_micro_tasks);
}
current_queued_micro_tasks.push(fn);
}
function queue_idle_task(fn) {
if (!is_idle_task_queued) {
is_idle_task_queued = true;
request_idle_callback(process_idle_tasks);
}
current_queued_idle_tasks.push(fn);
}
function flush_tasks() {
if (is_micro_task_queued) {
process_micro_tasks();
}
if (is_idle_task_queued) {
process_idle_tasks();
}
}
// node_modules/svelte/src/internal/shared/errors.js
function invalid_default_snippet() {
if (DEV) {
const error = new Error(`invalid_default_snippet
Cannot use \`{@render children(...)}\` if the parent component uses \`let:\` directives. Consider using a named snippet instead`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("invalid_default_snippet");
}
}
function lifecycle_outside_component(name) {
if (DEV) {
const error = new Error(`lifecycle_outside_component
\`${name}(...)\` can only be used during component initialisation`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("lifecycle_outside_component");
}
}
function store_invalid_shape(name) {
if (DEV) {
const error = new Error(`store_invalid_shape
\`${name}\` is not a store with a \`subscribe\` method`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("store_invalid_shape");
}
}
function svelte_element_invalid_this_value() {
if (DEV) {
const error = new Error(`svelte_element_invalid_this_value
The \`this\` prop on \`<svelte:element>\` must be a string, if defined`);
error.name = "Svelte error";
throw error;
} else {
throw new Error("svelte_element_invalid_this_value");
}
}
// node_modules/svelte/src/internal/client/runtime.js
var FLUSH_MICROTASK = 0;
var FLUSH_SYNC = 1;
var handled_errors = /* @__PURE__ */ new WeakSet();
var scheduler_mode = FLUSH_MICROTASK;
var is_micro_task_queued2 = false;
var is_flushing_effect = false;
var is_destroying_effect = false;
function set_is_flushing_effect(value) {
is_flushing_effect = value;
}
function set_is_destroying_effect(value) {
is_destroying_effect = value;
}
var queued_root_effects = [];
var flush_count = 0;
var dev_effect_stack = [];
var active_reaction = null;
function set_active_reaction(reaction) {
active_reaction = reaction;
}
var active_effect = null;
function set_active_effect(effect2) {
active_effect = effect2;
}
var derived_sources = null;
function set_derived_sources(sources) {
derived_sources = sources;
}
var new_deps = null;
var skipped_deps = 0;
var untracked_writes = null;
function set_untracked_writes(value) {
untracked_writes = value;
}
var current_version = 0;
var skip_reaction = false;
var captured_signals = null;
var component_context = null;
function set_component_context(context) {
component_context = context;
}
var dev_current_component_function = null;
function set_dev_current_component_function(fn) {
dev_current_component_function = fn;
}
function increment_version() {
return ++current_version;
}
function is_runes() {
return !legacy_mode_flag || component_context !== null && component_context.l === null;
}
function check_dirtiness(reaction) {
var _a, _b;
var flags = reaction.f;
if ((flags & DIRTY) !== 0) {
return true;
}
if ((flags & MAYBE_DIRTY) !== 0) {
var dependencies = reaction.deps;
var is_unowned = (flags & UNOWNED) !== 0;
if (dependencies !== null) {
var i;
if ((flags & DISCONNECTED) !== 0) {
for (i = 0; i < dependencies.length; i++) {
((_a = dependencies[i]).reactions ?? (_a.reactions = [])).push(reaction);
}
reaction.f ^= DISCONNECTED;
}
for (i = 0; i < dependencies.length; i++) {
var dependency = dependencies[i];
if (check_dirtiness(
/** @type {Derived} */
dependency
)) {
update_derived(
/** @type {Derived} */
dependency
);
}
if (is_unowned && active_effect !== null && !skip_reaction && !((_b = dependency == null ? void 0 : dependency.reactions) == null ? void 0 : _b.includes(reaction))) {
(dependency.reactions ?? (dependency.reactions = [])).push(reaction);
}
if (dependency.version > reaction.version) {
return true;
}
}
}
if (!is_unowned) {
set_signal_status(reaction, CLEAN);
}
}
return false;
}
function handle_error(error, effect2, component_context2) {
var _a, _b;
if (!DEV || handled_errors.has(error) || component_context2 === null) {
throw error;
}
const component_stack = [];
const effect_name = (_a = effect2.fn) == null ? void 0 : _a.name;
if (effect_name) {
component_stack.push(effect_name);
}
let current_context = component_context2;
while (current_context !== null) {
if (DEV) {
var filename = (_b = current_context.function) == null ? void 0 : _b[FILENAME];
if (filename) {
const file = filename.split("/").pop();
component_stack.push(file);
}
}
current_context = current_context.p;
}
const indent = /Firefox/.test(navigator.userAgent) ? " " : " ";
define_property(error, "message", {
value: error.message + `
${component_stack.map((name) => `
${indent}in ${name}`).join("")}
`
});
const stack2 = error.stack;
if (stack2) {
const lines = stack2.split("\n");
const new_lines = [];
for (let i = 0; i < lines.length; i++) {
const line = lines[i];
if (line.includes("svelte/src/internal")) {
continue;
}
new_lines.push(line);
}
define_property(error, "stack", {
value: error.stack + new_lines.join("\n")
});
}
handled_errors.add(error);
throw error;
}
function update_reaction(reaction) {
var _a;
var previous_deps = new_deps;
var previous_skipped_deps = skipped_deps;
var previous_untracked_writes = untracked_writes;
var previous_reaction = active_reaction;
var previous_skip_reaction = skip_reaction;
var prev_derived_sources = derived_sources;
var previous_component_context = component_context;
var flags = reaction.f;
new_deps = /** @type {null | Value[]} */
null;
skipped_deps = 0;
untracked_writes = null;
active_reaction = (flags & (BRANCH_EFFECT | ROOT_EFFECT)) === 0 ? reaction : null;
skip_reaction = !is_flushing_effect && (flags & UNOWNED) !== 0;
derived_sources = null;
component_context = reaction.ctx;
try {
var result = (
/** @type {Function} */
(0, reaction.fn)()
);
var deps = reaction.deps;
if (new_deps !== null) {
var i;
remove_reactions(reaction, skipped_deps);
if (deps !== null && skipped_deps > 0) {
deps.length = skipped_deps + new_deps.length;
for (i = 0; i < new_deps.length; i++) {
deps[skipped_deps + i] = new_deps[i];
}
} else {
reaction.deps = deps = new_deps;
}
if (!skip_reaction) {
for (i = skipped_deps; i < deps.length; i++) {
((_a = deps[i]).reactions ?? (_a.reactions = [])).push(reaction);
}
}
} else if (deps !== null && skipped_deps < deps.length) {
remove_reactions(reaction, skipped_deps);
deps.length = skipped_deps;
}
return result;
} finally {
new_deps = previous_deps;
skipped_deps = previous_skipped_deps;
untracked_writes = previous_untracked_writes;
active_reaction = previous_reaction;
skip_reaction = previous_skip_reaction;
derived_sources = prev_derived_sources;
component_context = previous_component_context;
}
}
function remove_reaction(signal, dependency) {
let reactions = dependency.reactions;
if (reactions !== null) {
var index = reactions.indexOf(signal);
if (index !== -1) {
var new_length = reactions.length - 1;
if (new_length === 0) {
reactions = dependency.reactions = null;
} else {
reactions[index] = reactions[new_length];
reactions.pop();
}
}
}
if (reactions === null && (dependency.f & DERIVED) !== 0 && // Destroying a child effect while updating a parent effect can cause a dependency to appear
// to be unused, when in fact it is used by the currently-updating parent. Checking `new_deps`
// allows us to skip the expensive work of disconnecting and immediately reconnecting it
(new_deps === null || !new_deps.includes(dependency))) {
set_signal_status(dependency, MAYBE_DIRTY);
if ((dependency.f & (UNOWNED | DISCONNECTED)) === 0) {
dependency.f ^= DISCONNECTED;
}
remove_reactions(
/** @type {Derived} **/
dependency,
0
);
}
}
function remove_reactions(signal, start_index) {
var dependencies = signal.deps;
if (dependencies === null) return;
for (var i = start_index; i < dependencies.length; i++) {
remove_reaction(signal, dependencies[i]);
}
}
function update_effect(effect2) {
var flags = effect2.f;
if ((flags & DESTROYED) !== 0) {
return;
}
set_signal_status(effect2, CLEAN);
var previous_effect = active_effect;
var previous_component_context = component_context;
active_effect = effect2;
if (DEV) {
var previous_component_fn = dev_current_component_function;
dev_current_component_function = effect2.component_function;
}
try {
if ((flags & BLOCK_EFFECT) !== 0) {
destroy_block_effect_children(effect2);
} else {
destroy_effect_children(effect2);
}
destroy_effect_deriveds(effect2);
execute_effect_teardown(effect2);
var teardown2 = update_reaction(effect2);
effect2.teardown = typeof teardown2 === "function" ? teardown2 : null;
effect2.version = current_version;
if (DEV) {
dev_effect_stack.push(effect2);
}
} catch (error) {
handle_error(
/** @type {Error} */
error,
effect2,
previous_component_context
);
} finally {
active_effect = previous_effect;
if (DEV) {
dev_current_component_function = previous_component_fn;
}
}
}
function infinite_loop_guard() {
if (flush_count > 1e3) {
flush_count = 0;
if (DEV) {
try {
effect_update_depth_exceeded();
} catch (error) {
define_property(error, "stack", {
value: ""
});
console.error(
"Last ten effects were: ",
dev_effect_stack.slice(-10).map((d) => d.fn)
);
dev_effect_stack = [];
throw error;
}
} else {
effect_update_depth_exceeded();
}
}
flush_count++;
}
function flush_queued_root_effects(root_effects) {
var length = root_effects.length;
if (length === 0) {
return;
}
infinite_loop_guard();
var previously_flushing_effect = is_flushing_effect;
is_flushing_effect = true;
try {
for (var i = 0; i < length; i++) {
var effect2 = root_effects[i];
if ((effect2.f & CLEAN) === 0) {
effect2.f ^= CLEAN;
}
var collected_effects = [];
process_effects(effect2, collected_effects);
flush_queued_effects(collected_effects);
}
} finally {
is_flushing_effect = previously_flushing_effect;
}
}
function flush_queued_effects(effects) {
var length = effects.length;
if (length === 0) return;
for (var i = 0; i < length; i++) {
var effect2 = effects[i];
if ((effect2.f & (DESTROYED | INERT)) === 0 && check_dirtiness(effect2)) {
update_effect(effect2);
if (effect2.deps === null && effect2.first === null && effect2.nodes_start === null) {
if (effect2.teardown === null) {
unlink_effect(effect2);
} else {
effect2.fn = null;
}
}
}
}
}
function process_deferred() {
is_micro_task_queued2 = false;
if (flush_count > 1001) {
return;
}
const previous_queued_root_effects = queued_root_effects;
queued_root_effects = [];
flush_queued_root_effects(previous_queued_root_effects);
if (!is_micro_task_queued2) {
flush_count = 0;
if (DEV) {
dev_effect_stack = [];
}
}
}
function schedule_effect(signal) {
if (scheduler_mode === FLUSH_MICROTASK) {
if (!is_micro_task_queued2) {
is_micro_task_queued2 = true;
queueMicrotask(process_deferred);
}
}
var effect2 = signal;
while (effect2.parent !== null) {
effect2 = effect2.parent;
var flags = effect2.f;
if ((flags & (ROOT_EFFECT | BRANCH_EFFECT)) !== 0) {
if ((flags & CLEAN) === 0) return;
effect2.f ^= CLEAN;
}
}
queued_root_effects.push(effect2);
}
function process_effects(effect2, collected_effects) {
var current_effect = effect2.first;
var effects = [];
main_loop: while (current_effect !== null) {
var flags = current_effect.f;
var is_branch = (flags & BRANCH_EFFECT) !== 0;
var is_skippable_branch = is_branch && (flags & CLEAN) !== 0;
if (!is_skippable_branch && (flags & INERT) === 0) {
if ((flags & RENDER_EFFECT) !== 0) {
if (is_branch) {
current_effect.f ^= CLEAN;
} else if (check_dirtiness(current_effect)) {
update_effect(current_effect);
}
var child2 = current_effect.first;
if (child2 !== null) {
current_effect = child2;
continue;
}
} else if ((flags & EFFECT) !== 0) {
effects.push(current_effect);
}
}
var sibling2 = current_effect.next;
if (sibling2 === null) {
let parent = current_effect.parent;
while (parent !== null) {
if (effect2 === parent) {
break main_loop;
}
var parent_sibling = parent.next;
if (parent_sibling !== null) {
current_effect = parent_sibling;
continue main_loop;
}
parent = parent.parent;
}
}
current_effect = sibling2;
}
for (var i = 0; i < effects.length; i++) {
child2 = effects[i];
collected_effects.push(child2);
process_effects(child2, collected_effects);
}
}
function flush_sync(fn) {
var previous_scheduler_mode = scheduler_mode;
var previous_queued_root_effects = queued_root_effects;
try {
infinite_loop_guard();
const root_effects = [];
scheduler_mode = FLUSH_SYNC;
queued_root_effects = root_effects;
is_micro_task_queued2 = false;
flush_queued_root_effects(previous_queued_root_effects);
var result = fn == null ? void 0 : fn();
flush_tasks();
if (queued_root_effects.length > 0 || root_effects.length > 0) {
flush_sync();
}
flush_count = 0;
if (DEV) {
dev_effect_stack = [];
}
return result;
} finally {
scheduler_mode = previous_scheduler_mode;
queued_root_effects = previous_queued_root_effects;
}
}
async function tick() {
await Promise.resolve();
flush_sync();
}
function get(signal) {
var _a;
var flags = signal.f;
var is_derived = (flags & DERIVED) !== 0;
if (is_derived && (flags & DESTROYED) !== 0) {
var value = execute_derived(
/** @type {Derived} */
signal
);
destroy_derived(
/** @type {Derived} */
signal
);
return value;
}
if (captured_signals !== null) {
captured_signals.add(signal);
}
if (active_reaction !== null) {
if (derived_sources !== null && derived_sources.includes(signal)) {
state_unsafe_local_read();
}
var deps = active_reaction.deps;
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);
}
if (untracked_writes !== null && active_effect !== null && (active_effect.f & CLEAN) !== 0 && (active_effect.f & BRANCH_EFFECT) === 0 && untracked_writes.includes(signal)) {
set_signal_status(active_effect, DIRTY);
schedule_effect(active_effect);
}
} else if (is_derived && /** @type {Derived} */
signal.deps === null) {
var derived2 = (
/** @type {Derived} */
signal
);
var parent = derived2.parent;
var target = derived2;
while (parent !== null) {
if ((parent.f & DERIVED) !== 0) {
var parent_derived = (
/** @type {Derived} */
parent
);
target = parent_derived;
parent = parent_derived.parent;
} else {
var parent_effect = (
/** @type {Effect} */
parent
);
if (!((_a = parent_effect.deriveds) == null ? void 0 : _a.includes(target))) {
(parent_effect.deriveds ?? (parent_effect.deriveds = [])).push(target);
}
break;
}
}
}
if (is_derived) {
derived2 = /** @type {Derived} */
signal;
if (check_dirtiness(derived2)) {
update_derived(derived2);
}
}
return signal.v;
}
function safe_get(signal) {
return signal && get(signal);
}
function invalidate_inner_signals(fn) {
var previous_captured_signals = captured_signals;
captured_signals = /* @__PURE__ */ new Set();
var captured = captured_signals;
var signal;
try {
untrack(fn);
if (previous_captured_signals !== null) {
for (signal of captured_signals) {
previous_captured_signals.add(signal);
}
}
} finally {
captured_signals = previous_captured_signals;
}
for (signal of captured) {
if ((signal.f & LEGACY_DERIVED_PROP) !== 0) {
for (
const dep of
/** @type {Derived} */
signal.deps || []
) {
if ((dep.f & DERIVED) === 0) {
mutate(
dep,
null
/* doesnt matter */
);
}
}
} else {
mutate(
signal,
null
/* doesnt matter */
);
}
}
}
function untrack(fn) {
const previous_reaction = active_reaction;
try {
active_reaction = null;
return fn();
} finally {
active_reaction = previous_reaction;
}
}
var STATUS_MASK = ~(DIRTY | MAYBE_DIRTY | CLEAN);
function set_signal_status(signal, status) {
signal.f = signal.f & STATUS_MASK | status;
}
function getContext(key) {
const context_map = get_or_init_context_map("getContext");
const result = (
/** @type {T} */
context_map.get(key)
);
if (DEV) {
const fn = (
/** @type {ComponentContext} */
component_context.function
);
if (fn) {
add_owner(result, fn, true);
}
}
return result;
}
function setContext(key, context) {
const context_map = get_or_init_context_map("setContext");
context_map.set(key, context);
return context;
}
function hasContext(key) {
const context_map = get_or_init_context_map("hasContext");
return context_map.has(key);
}
function getAllContexts() {
const context_map = get_or_init_context_map("getAllContexts");
if (DEV) {
const fn = component_context == null ? void 0 : component_context.function;
if (fn) {
for (const value of context_map.values()) {
add_owner(value, fn, true);
}
}
}
return (
/** @type {T} */
context_map
);
}
function get_or_init_context_map(name) {
if (component_context === null) {
lifecycle_outside_component(name);
}
return component_context.c ?? (component_context.c = new Map(get_parent_context(component_context) || void 0));
}
function get_parent_context(component_context2) {
let parent = component_context2.p;
while (parent !== null) {
const context_map = parent.c;
if (context_map !== null) {
return context_map;
}
parent = parent.p;
}
return null;
}
function update(signal, d = 1) {
var value = +get(signal);
set(signal, value + d);
return value;
}
function update_pre(signal, d = 1) {
return set(signal, +get(signal) + d);
}
function exclude_from_object(obj, keys) {
var result = {};
for (var key in obj) {
if (!keys.includes(key)) {
result[key] = obj[key];
}
}
return result;
}
function push(props, runes = false, fn) {
component_context = {
p: component_context,
c: null,
e: null,
m: false,
s: props,
x: null,
l: null
};
if (legacy_mode_flag && !runes) {
component_context.l = {
s: null,
u: null,
r1: [],
r2: source(false)
};
}
if (DEV) {
component_context.function = fn;
dev_current_component_function = fn;
}
}
function pop(component) {
var _a;
const context_stack_item = component_context;
if (context_stack_item !== null) {
if (component !== void 0) {
context_stack_item.x = component;
}
const component_effects = context_stack_item.e;
if (component_effects !== null) {
var previous_effect = active_effect;
var previous_reaction = active_reaction;
context_stack_item.e = null;
try {
for (var i = 0; i < component_effects.length; i++) {
var component_effect = component_effects[i];
set_active_effect(component_effect.effect);
set_active_reaction(component_effect.reaction);
effect(component_effect.fn);
}
} finally {
set_active_effect(previous_effect);
set_active_reaction(previous_reaction);
}
}
component_context = context_stack_item.p;
if (DEV) {
dev_current_component_function = ((_a = context_stack_item.p) == null ? void 0 : _a.function) ?? null;
}
context_stack_item.m = true;
}
return component || /** @type {T} */
{};
}
function deep_read_state(value) {
if (typeof value !== "object" || !value || value instanceof EventTarget) {
return;
}
if (STATE_SYMBOL in value) {
deep_read(value);
} else if (!Array.isArray(value)) {
for (let key in value) {
const prop = value[key];
if (typeof prop === "object" && prop && STATE_SYMBOL in prop) {
deep_read(prop);
}
}
}
}
function deep_read(value, visited = /* @__PURE__ */ new Set()) {
if (typeof value === "object" && value !== null && // We don't want to traverse DOM elements
!(value instanceof EventTarget) && !visited.has(value)) {
visited.add(value);
if (value instanceof Date) {
value.getTime();
}
for (let key in value) {
try {
deep_read(value[key], visited);
} catch (e) {
}
}
const proto = get_prototype_of(value);
if (proto !== Object.prototype && proto !== Array.prototype && proto !== Map.prototype && proto !== Set.prototype && proto !== Date.prototype) {
const descriptors = get_descriptors(proto);
for (let key in descriptors) {
const get2 = descriptors[key].get;
if (get2) {
try {
get2.call(value);
} catch (e) {
}
}
}
}
}
}
if (DEV) {
let throw_rune_error = function(rune) {
if (!(rune in globalThis)) {
let value;
Object.defineProperty(globalThis, rune, {
configurable: true,
// eslint-disable-next-line getter-return
get: () => {
if (value !== void 0) {
return value;
}
rune_outside_svelte(rune);
},
set: (v) => {
value = v;
}
});
}
};
throw_rune_error("$state");
throw_rune_error("$effect");
throw_rune_error("$derived");
throw_rune_error("$inspect");
throw_rune_error("$props");
throw_rune_error("$bindable");
}
// node_modules/svelte/src/internal/client/reactivity/sources.js
var inspect_effects = /* @__PURE__ */ new Set();
function set_inspect_effects(v) {
inspect_effects = v;
}
function source(v) {
return {
f: 0,
// TODO ideally we could skip this altogether, but it causes type errors
v,
reactions: null,
equals: equals2,
version: 0
};
}
function state(v) {
return push_derived_source(source(v));
}
function mutable_source(initial_value, immutable = false) {
var _a;
const s = source(initial_value);
if (!immutable) {
s.equals = safe_equals;
}
if (legacy_mode_flag && component_context !== null && component_context.l !== null) {
((_a = component_context.l).s ?? (_a.s = [])).push(s);
}
return s;
}
function mutable_state(v, immutable = false) {
return push_derived_source(mutable_source(v, immutable));
}
function push_derived_source(source2) {
if (active_reaction !== null && (active_reaction.f & DERIVED) !== 0) {
if (derived_sources === null) {
set_derived_sources([source2]);
} else {
derived_sources.push(source2);
}
}
return source2;
}
function mutate(source2, value) {
set(
source2,
untrack(() => get(source2))
);
return value;
}
function set(source2, value) {
if (active_reaction !== null && is_runes() && (active_reaction.f & (DERIVED | BLOCK_EFFECT)) !== 0 && // If the source was created locally within the current derived, then
// we allow the mutation.
(derived_sources === null || !derived_sources.includes(source2))) {
state_unsafe_mutation();
}
return internal_set(source2, value);
}
function internal_set(source2, value) {
if (!source2.equals(value)) {
source2.v = value;
source2.version = increment_version();
mark_reactions(source2, DIRTY);
if (is_runes() && active_effect !== null && (active_effect.f & CLEAN) !== 0 && (active_effect.f & BRANCH_EFFECT) === 0) {
if (new_deps !== null && new_deps.includes(source2)) {
set_signal_status(active_effect, DIRTY);
schedule_effect(active_effect);
} else {
if (untracked_writes === null) {
set_untracked_writes([source2]);
} else {
untracked_writes.push(source2);
}
}
}
if (DEV && inspect_effects.size > 0) {
const inspects = Array.from(inspect_effects);
var previously_flushing_effect = is_flushing_effect;
set_is_flushing_effect(true);
try {
for (const effect2 of inspects) {
if ((effect2.f & CLEAN) !== 0) {
set_signal_status(effect2, MAYBE_DIRTY);
}
if (check_dirtiness(effect2)) {
update_effect(effect2);
}
}
} finally {
set_is_flushing_effect(previously_flushing_effect);
}
inspect_effects.clear();
}
}
return value;
}
function mark_reactions(signal, status) {
var reactions = signal.reactions;
if (reactions === null) return;
var runes = is_runes();
var length = reactions.length;
for (var i = 0; i < length; i++) {
var reaction = reactions[i];
var flags = reaction.f;
if ((flags & DIRTY) !== 0) continue;
if (!runes && reaction === active_effect) continue;
if (DEV && (flags & INSPECT_EFFECT) !== 0) {
inspect_effects.add(reaction);
continue;
}
set_signal_status(reaction, status);
if ((flags & (CLEAN | UNOWNED)) !== 0) {
if ((flags & DERIVED) !== 0) {
mark_reactions(
/** @type {Derived} */
reaction,
MAYBE_DIRTY
);
} else {
schedule_effect(
/** @type {Effect} */
reaction
);
}
}
}
}
// node_modules/svelte/src/internal/client/dom/elements/misc.js
function autofocus(dom, value) {
if (value) {
const body = document.body;
dom.autofocus = true;
queue_micro_task(() => {
if (document.activeElement === body) {
dom.focus();
}
});
}
}
function remove_textarea_child(dom) {
if (hydrating && get_first_child(dom) !== null) {
clear_text_content(dom);
}
}
var listening_to_form_reset = false;
function add_form_reset_listener() {
if (!listening_to_form_reset) {
listening_to_form_reset = true;
document.addEventListener(
"reset",
(evt) => {
Promise.resolve().then(() => {
var _a;
if (!evt.defaultPrevented) {
for (
const e of
/**@type {HTMLFormElement} */
evt.target.elements
) {
(_a = e.__on_r) == null ? void 0 : _a.call(e);
}
}
});
},
// In the capture phase to guarantee we get noticed of it (no possiblity of stopPropagation)
{ capture: true }
);
}
}
// node_modules/svelte/src/internal/client/dom/elements/bindings/shared.js
function listen(target, events, handler, call_handler_immediately = true) {
if (call_handler_immediately) {
handler();
}
for (var name of events) {
target.addEventListener(name, handler);
}
teardown(() => {
for (var name2 of events) {
target.removeEventListener(name2, handler);
}
});
}
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 listen_to_event_and_reset_event(element, event2, handler, on_reset = handler) {
element.addEventListener(event2, () => without_reactive_context(handler));
const prev = element.__on_r;
if (prev) {
element.__on_r = () => {
prev();
on_reset();
};
} else {
element.__on_r = on_reset;
}
add_form_reset_listener();
}
// node_modules/svelte/src/internal/client/dom/elements/events.js
var all_registered_events = /* @__PURE__ */ new Set();
var root_event_handles = /* @__PURE__ */ new Set();
function replay_events(dom) {
if (!hydrating) return;
if (dom.onload) {
dom.removeAttribute("onload");
}
if (dom.onerror) {
dom.removeAttribute("onerror");
}
const event2 = dom.__e;
if (event2 !== void 0) {
dom.__e = void 0;
queueMicrotask(() => {
if (dom.isConnected) {
dom.dispatchEvent(event2);
}
});
}
}
function create_event(event_name, dom, handler, options) {
function target_handler(event2) {
if (!options.capture) {
handle_event_propagation.call(dom, event2);
}
if (!event2.cancelBubble) {
return without_reactive_context(() => {
return handler.call(this, event2);
});
}
}
if (event_name.startsWith("pointer") || event_name.startsWith("touch") || event_name === "wheel") {
queue_micro_task(() => {
dom.addEventListener(event_name, target_handler, options);
});
} else {
dom.addEventListener(event_name, target_handler, options);
}
return target_handler;
}
function on(element, type, handler, options = {}) {
var target_handler = create_event(type, element, handler, options);
return () => {
element.removeEventListener(type, target_handler, options);
};
}
function event(event_name, dom, handler, capture, passive) {
var options = { capture, passive };
var target_handler = create_event(event_name, dom, handler, options);
if (dom === document.body || dom === window || dom === document) {
teardown(() => {
dom.removeEventListener(event_name, target_handler, options);
});
}
}
function delegate(events) {
for (var i = 0; i < events.length; i++) {
all_registered_events.add(events[i]);
}
for (var fn of root_event_handles) {
fn(events);
}
}
function handle_event_propagation(event2) {
var _a;
var handler_element = this;
var owner_document = (
/** @type {Node} */
handler_element.ownerDocument
);
var event_name = event2.type;
var path = ((_a = event2.composedPath) == null ? void 0 : _a.call(event2)) || [];
var current_target = (
/** @type {null | Element} */
path[0] || event2.target
);
var path_idx = 0;
var handled_at = event2.__root;
if (handled_at) {
var at_idx = path.indexOf(handled_at);
if (at_idx !== -1 && (handler_element === document || handler_element === /** @type {any} */
window)) {
event2.__root = handler_element;
return;
}
var handler_idx = path.indexOf(handler_element);
if (handler_idx === -1) {
return;
}
if (at_idx <= handler_idx) {
path_idx = at_idx;
}
}
current_target = /** @type {Element} */
path[path_idx] || event2.target;
if (current_target === handler_element) return;
define_property(event2, "currentTarget", {
configurable: true,
get() {
return current_target || owner_document;
}
});
var previous_reaction = active_reaction;
var previous_effect = active_effect;
set_active_reaction(null);
set_active_effect(null);
try {
var throw_error;
var other_errors = [];
while (current_target !== null) {
var parent_element = current_target.assignedSlot || current_target.parentNode || /** @type {any} */
current_target.host || null;
try {
var delegated = current_target["__" + event_name];
if (delegated !== void 0 && !/** @type {any} */
current_target.disabled) {
if (is_array(delegated)) {
var [fn, ...data] = delegated;
fn.apply(current_target, [event2, ...data]);
} else {
delegated.call(current_target, event2);
}
}
} catch (error) {
if (throw_error) {
other_errors.push(error);
} else {
throw_error = error;
}
}
if (event2.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 {
event2.__root = handler_element;
delete event2.currentTarget;
set_active_reaction(previous_reaction);
set_active_effect(previous_effect);
}
}
function apply(thunk, element, args, component, loc, has_side_effects = false, remove_parens = false) {
let handler;
let error;
try {
handler = thunk();
} catch (e) {
error = e;
}
if (typeof handler === "function") {
handler.apply(element, args);
} else if (has_side_effects || handler != null || error) {
const filename = component == null ? void 0 : component[FILENAME];
const location = loc ? ` at ${filename}:${loc[0]}:${loc[1]}` : ` in ${filename}`;
const event_name = args[0].type;
const description = `\`${event_name}\` handler${location}`;
const suggestion = remove_parens ? "remove the trailing `()`" : "add a leading `() =>`";
event_handler_invalid(description, suggestion);
if (error) {
throw error;
}
}
}
export {
BROWSER,
DEV,
is_array,
array_from,
object_keys,
define_property,
get_descriptor,
get_descriptors,
object_prototype,
get_prototype_of,
is_function,
noop,
is_promise,
run,
run_all,
fallback,
BLOCK_EFFECT,
BRANCH_EFFECT,
ROOT_EFFECT,
DIRTY,
MAYBE_DIRTY,
INERT,
DESTROYED,
EFFECT_RAN,
EFFECT_TRANSPARENT,
LEGACY_DERIVED_PROP,
HEAD_EFFECT,
STATE_SYMBOL,
LEGACY_PROPS,
LOADING_ATTR_SYMBOL,
safe_not_equal,
not_equal,
safe_equals,
bind_invalid_checkbox_value,
bind_invalid_export,
bind_not_bindable,
component_api_changed,
component_api_invalid_new,
each_key_duplicate,
hydration_failed,
invalid_snippet,
lifecycle_legacy_only,
props_invalid_value,
props_rest_readonly,
source,
state,
mutable_source,
mutable_state,
mutate,
set,
internal_set,
EACH_ITEM_REACTIVE,
EACH_INDEX_REACTIVE,
EACH_IS_CONTROLLED,
EACH_IS_ANIMATED,
EACH_ITEM_IMMUTABLE,
PROPS_IS_IMMUTABLE,
PROPS_IS_RUNES,
PROPS_IS_UPDATED,
PROPS_IS_BINDABLE,
PROPS_IS_LAZY_INITIAL,
TRANSITION_IN,
TRANSITION_OUT,
TRANSITION_GLOBAL,
TEMPLATE_FRAGMENT,
TEMPLATE_USE_IMPORT_NODE,
HYDRATION_START,
HYDRATION_START_ELSE,
HYDRATION_END,
HYDRATION_ERROR,
UNINITIALIZED,
FILENAME,
HMR,
NAMESPACE_SVG,
binding_property_non_reactive,
console_log_state,
hydration_attribute_changed,
hydration_html_changed,
hydration_mismatch,
invalid_raw_snippet_render,
legacy_recursive_reactive_block,
lifecycle_double_unmount,
hydrating,
set_hydrating,
hydrate_node,
set_hydrate_node,
hydrate_next,
reset,
hydrate_template,
next,
remove_nodes,
get_component,
ADD_OWNER,
mark_module_start,
mark_module_end,
add_owner,
add_owner_effect,
skip_ownership_validation,
proxy,
is,
strict_equals,
equals,
$window,
$document,
init_operations,
create_text,
get_first_child,
get_next_sibling,
child,
first_child,
sibling,
clear_text_content,
derived,
derived_safe_equal,
validate_effect,
effect_tracking,
teardown,
user_effect,
user_pre_effect,
inspect_effect,
effect_root,
effect,
legacy_pre_effect,
legacy_pre_effect_reset,
render_effect,
template_effect,
block,
branch,
destroy_effect,
pause_effect,
run_out_transitions,
pause_children,
resume_effect,
queue_micro_task,
queue_idle_task,
invalid_default_snippet,
lifecycle_outside_component,
store_invalid_shape,
svelte_element_invalid_this_value,
active_reaction,
set_active_reaction,
active_effect,
set_active_effect,
captured_signals,
component_context,
set_component_context,
dev_current_component_function,
set_dev_current_component_function,
is_runes,
flush_sync,
tick,
get,
safe_get,
invalidate_inner_signals,
untrack,
set_signal_status,
getContext,
setContext,
hasContext,
getAllContexts,
update,
update_pre,
exclude_from_object,
push,
pop,
deep_read_state,
deep_read,
autofocus,
remove_textarea_child,
add_form_reset_listener,
listen,
without_reactive_context,
listen_to_event_and_reset_event,
all_registered_events,
root_event_handles,
replay_events,
create_event,
on,
event,
delegate,
handle_event_propagation,
apply
};
//# sourceMappingURL=chunk-OTO7APUV.js.map
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