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* It uses "eval()" calls to create a separate source file in the browser devtools.
* If you are trying to read the output file, select a different devtool (https://webpack.js.org/configuration/devtool/)
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/***/ "./node_modules/react-refresh/cjs/react-refresh-runtime.development.js":
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eval("/**\n * @license React\n * react-refresh-runtime.development.js\n *\n * Copyright (c) Facebook, Inc. and its affiliates.\n *\n * This source code is licensed under the MIT license found in the\n * LICENSE file in the root directory of this source tree.\n */\n\n\n\nif (true) {\n (function() {\n'use strict';\n\n// ATTENTION\nvar REACT_FORWARD_REF_TYPE = Symbol.for('react.forward_ref');\nvar REACT_MEMO_TYPE = Symbol.for('react.memo');\n\nvar PossiblyWeakMap = typeof WeakMap === 'function' ? WeakMap : Map; // We never remove these associations.\n// It's OK to reference families, but use WeakMap/Set for types.\n\nvar allFamiliesByID = new Map();\nvar allFamiliesByType = new PossiblyWeakMap();\nvar allSignaturesByType = new PossiblyWeakMap(); // This WeakMap is read by React, so we only put families\n// that have actually been edited here. This keeps checks fast.\n// $FlowIssue\n\nvar updatedFamiliesByType = new PossiblyWeakMap(); // This is cleared on every performReactRefresh() call.\n// It is an array of [Family, NextType] tuples.\n\nvar pendingUpdates = []; // This is injected by the renderer via DevTools global hook.\n\nvar helpersByRendererID = new Map();\nvar helpersByRoot = new Map(); // We keep track of mounted roots so we can schedule updates.\n\nvar mountedRoots = new Set(); // If a root captures an error, we remember it so we can retry on edit.\n\nvar failedRoots = new Set(); // In environments that support WeakMap, we also remember the last element for every root.\n// It needs to be weak because we do this even for roots that failed to mount.\n// If there is no WeakMap, we won't attempt to do retrying.\n// $FlowIssue\n\nvar rootElements = // $FlowIssue\ntypeof WeakMap === 'function' ? new WeakMap() : null;\nvar isPerformingRefresh = false;\n\nfunction computeFullKey(signature) {\n if (signature.fullKey !== null) {\n return signature.fullKey;\n }\n\n var fullKey = signature.ownKey;\n var hooks;\n\n try {\n hooks = signature.getCustomHooks();\n } catch (err) {\n // This can happen in an edge case, e.g. if expression like Foo.useSomething\n // depends on Foo which is lazily initialized during rendering.\n // In that case just assume we'll have to remount.\n signature.forceReset = true;\n signature.fullKey = fullKey;\n return fullKey;\n }\n\n for (var i = 0; i < hooks.length; i++) {\n var hook = hooks[i];\n\n if (typeof hook !== 'function') {\n // Something's wrong. Assume we need to remount.\n signature.forceReset = true;\n signature.fullKey = fullKey;\n return fullKey;\n }\n\n var nestedHookSignature = allSignaturesByType.get(hook);\n\n if (nestedHookSignature === undefined) {\n // No signature means Hook wasn't in the source code, e.g. in a library.\n // We'll skip it because we can assume it won't change during this session.\n continue;\n }\n\n var nestedHookKey = computeFullKey(nestedHookSignature);\n\n if (nestedHookSignature.forceReset) {\n signature.forceReset = true;\n }\n\n fullKey += '\\n---\\n' + nestedHookKey;\n }\n\n signature.fullKey = fullKey;\n return fullKey;\n}\n\nfunction haveEqualSignatures(prevType, nextType) {\n var prevSignature = allSignaturesByType.get(prevType);\n var nextSignature = allSignaturesByType.get(nextType);\n\n if (prevSignature === undefined && nextSignature === undefined) {\n return true;\n }\n\n if (prevSignature === undefined || nextSignature === undefined) {\n return false;\n }\n\n if (computeFullKey(prevSignature) !== computeFullKey(nextSignature)) {\n return false;\n }\n\n if (nextSignature.forceReset) {\n return false;\n }\n\n return true;\n}\n\nfunction isReactClass(type) {\n return type.prototype && type.prototype.isReactComponent;\n}\n\nfunction canPreserveStateBetween(prevType, nextType) {\n if (isReactClass(prevType) || isReactClass(nextType)) {\n return false;\n }\n\n if (haveEqualSignatures(prevType, nextType)) {\n return true;\n }\n\n return false;\n}\n\nfunction resolveFamily(type) {\n // Only check updated types to keep lookups fast.\n return updatedFamiliesByType.get(type);\n} // If we didn't care about IE11, we could use new Map/Set(iterable).\n\n\nfunction cloneMap(map) {\n var clone = new Map();\n map.forEach(function (value, key) {\n clone.set(key, value);\n });\n return clone;\n}\n\nfunction cloneSet(set) {\n var clone = new Set();\n set.forEach(function (value) {\n clone.add(value);\n });\n return clone;\n} // This is a safety mechanism to protect against rogue getters and Proxies.\n\n\nfunction getProperty(object, property) {\n try {\n return object[property];\n } catch (err) {\n // Intentionally ignore.\n return undefined;\n }\n}\n\nfunction performReactRefresh() {\n\n if (pendingUpdates.length === 0) {\n return null;\n }\n\n if (isPerformingRefresh) {\n return null;\n }\n\n isPerformingRefresh = true;\n\n try {\n var staleFamilies = new Set();\n var updatedFamilies = new Set();\n var updates = pendingUpdates;\n pendingUpdates = [];\n updates.forEach(function (_ref) {\n var family = _ref[0],\n nextType = _ref[1];\n // Now that we got a real edit, we can create associations\n // that will be read by the React reconciler.\n var prevType = family.current;\n updatedFamiliesByType.set(prevType, family);\n updatedFamiliesByType.set(nextType, family);\n family.current = nextType; // Determine whether this should be a re-render or a re-mount.\n\n if (canPreserveStateBetween(prevType, nextType)) {\n updatedFamilies.add(family);\n } else {\n staleFamilies.add(family);\n }\n }); // TODO: rename these fields to something more meaningful.\n\n var update = {\n updatedFamilies: updatedFamilies,\n // Families that will re-render preserving state\n staleFamilies: staleFamilies // Families that will be remounted\n\n };\n helpersByRendererID.forEach(function (helpers) {\n // Even if there are no roots, set the handler on first update.\n // This ensures that if *new* roots are mounted, they'll use the resolve handler.\n helpers.setRefreshHandler(resolveFamily);\n });\n var didError = false;\n var firstError = null; // We snapshot maps and sets that are mutated during commits.\n // If we don't do this, there is a risk they will be mutated while\n // we iterate over them. For example, trying to recover a failed root\n // may cause another root to be added to the failed list -- an infinite loop.\n\n var failedRootsSnapshot = cloneSet(failedRoots);\n var mountedRootsSnapshot = cloneSet(mountedRoots);\n var helpersByRootSnapshot = cloneMap(helpersByRoot);\n failedRootsSnapshot.forEach(function (root) {\n var helpers = helpersByRootSnapshot.get(root);\n\n if (helpers === undefined) {\n throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');\n }\n\n if (!failedRoots.has(root)) {// No longer failed.\n }\n\n if (rootElements === null) {\n return;\n }\n\n if (!rootElements.has(root)) {\n return;\n }\n\n var element = rootElements.get(root);\n\n try {\n helpers.scheduleRoot(root, element);\n } catch (err) {\n if (!didError) {\n didError = true;\n firstError = err;\n } // Keep trying other roots.\n\n }\n });\n mountedRootsSnapshot.forEach(function (root) {\n var helpers = helpersByRootSnapshot.get(root);\n\n if (helpers === undefined) {\n throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');\n }\n\n if (!mountedRoots.has(root)) {// No longer mounted.\n }\n\n try {\n helpers.scheduleRefresh(root, update);\n } catch (err) {\n if (!didError) {\n didError = true;\n firstError = err;\n } // Keep trying other roots.\n\n }\n });\n\n if (didError) {\n throw firstError;\n }\n\n return update;\n } finally {\n isPerformingRefresh = false;\n }\n}\nfunction register(type, id) {\n {\n if (type === null) {\n return;\n }\n\n if (typeof type !== 'function' && typeof type !== 'object') {\n return;\n } // This can happen in an edge case, e.g. if we register\n // return value of a HOC but it returns a cached component.\n // Ignore anything but the first registration for each type.\n\n\n if (allFamiliesByType.has(type)) {\n return;\n } // Create family or remember to update it.\n // None of this bookkeeping affects reconciliation\n // until the first performReactRefresh() call above.\n\n\n var family = allFamiliesByID.get(id);\n\n if (family === undefined) {\n family = {\n current: type\n };\n allFamiliesByID.set(id, family);\n } else {\n pendingUpdates.push([family, type]);\n }\n\n allFamiliesByType.set(type, family); // Visit inner types because we might not have registered them.\n\n if (typeof type === 'object' && type !== null) {\n switch (getProperty(type, '$$typeof')) {\n case REACT_FORWARD_REF_TYPE:\n register(type.render, id + '$render');\n break;\n\n case REACT_MEMO_TYPE:\n register(type.type, id + '$type');\n break;\n }\n }\n }\n}\nfunction setSignature(type, key) {\n var forceReset = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false;\n var getCustomHooks = arguments.length > 3 ? arguments[3] : undefined;\n\n {\n if (!allSignaturesByType.has(type)) {\n allSignaturesByType.set(type, {\n forceReset: forceReset,\n ownKey: key,\n fullKey: null,\n getCustomHooks: getCustomHooks || function () {\n return [];\n }\n });\n } // Visit inner types because we might not have signed them.\n\n\n if (typeof type === 'object' && type !== null) {\n switch (getProperty(type, '$$typeof')) {\n case REACT_FORWARD_REF_TYPE:\n setSignature(type.render, key, forceReset, getCustomHooks);\n break;\n\n case REACT_MEMO_TYPE:\n setSignature(type.type, key, forceReset, getCustomHooks);\n break;\n }\n }\n }\n} // This is lazily called during first render for a type.\n// It captures Hook list at that time so inline requires don't break comparisons.\n\nfunction collectCustomHooksForSignature(type) {\n {\n var signature = allSignaturesByType.get(type);\n\n if (signature !== undefined) {\n computeFullKey(signature);\n }\n }\n}\nfunction getFamilyByID(id) {\n {\n return allFamiliesByID.get(id);\n }\n}\nfunction getFamilyByType(type) {\n {\n return allFamiliesByType.get(type);\n }\n}\nfunction findAffectedHostInstances(families) {\n {\n var affectedInstances = new Set();\n mountedRoots.forEach(function (root) {\n var helpers = helpersByRoot.get(root);\n\n if (helpers === undefined) {\n throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');\n }\n\n var instancesForRoot = helpers.findHostInstancesForRefresh(root, families);\n instancesForRoot.forEach(function (inst) {\n affectedInstances.add(inst);\n });\n });\n return affectedInstances;\n }\n}\nfunction injectIntoGlobalHook(globalObject) {\n {\n // For React Native, the global hook will be set up by require('react-devtools-core').\n // That code will run before us. So we need to monkeypatch functions on existing hook.\n // For React Web, the global hook will be set up by the extension.\n // This will also run before us.\n var hook = globalObject.__REACT_DEVTOOLS_GLOBAL_HOOK__;\n\n if (hook === undefined) {\n // However, if there is no DevTools extension, we'll need to set up the global hook ourselves.\n // Note that in this case it's important that renderer code runs *after* this method call.\n // Otherwise, the renderer will think that there is no global hook, and won't do the injection.\n var nextID = 0;\n globalObject.__REACT_DEVTOOLS_GLOBAL_HOOK__ = hook = {\n renderers: new Map(),\n supportsFiber: true,\n inject: function (injected) {\n return nextID++;\n },\n onScheduleFiberRoot: function (id, root, children) {},\n onCommitFiberRoot: function (id, root, maybePriorityLevel, didError) {},\n onCommitFiberUnmount: function () {}\n };\n }\n\n if (hook.isDisabled) {\n // This isn't a real property on the hook, but it can be set to opt out\n // of DevTools integration and associated warnings and logs.\n // Using console['warn'] to evade Babel and ESLint\n console['warn']('Something has shimmed the React DevTools global hook (__REACT_DEVTOOLS_GLOBAL_HOOK__). ' + 'Fast Refresh is not compatible with this shim and will be disabled.');\n return;\n } // Here, we just want to get a reference to scheduleRefresh.\n\n\n var oldInject = hook.inject;\n\n hook.inject = function (injected) {\n var id = oldInject.apply(this, arguments);\n\n if (typeof injected.scheduleRefresh === 'function' && typeof injected.setRefreshHandler === 'function') {\n // This version supports React Refresh.\n helpersByRendererID.set(id, injected);\n }\n\n return id;\n }; // Do the same for any already injected roots.\n // This is useful if ReactDOM has already been initialized.\n // https://github.com/facebook/react/issues/17626\n\n\n hook.renderers.forEach(function (injected, id) {\n if (typeof injected.scheduleRefresh === 'function' && typeof injected.setRefreshHandler === 'function') {\n // This version supports React Refresh.\n helpersByRendererID.set(id, injected);\n }\n }); // We also want to track currently mounted roots.\n\n var oldOnCommitFiberRoot = hook.onCommitFiberRoot;\n\n var oldOnScheduleFiberRoot = hook.onScheduleFiberRoot || function () {};\n\n hook.onScheduleFiberRoot = function (id, root, children) {\n if (!isPerformingRefresh) {\n // If it was intentionally scheduled, don't attempt to restore.\n // This includes intentionally scheduled unmounts.\n failedRoots.delete(root);\n\n if (rootElements !== null) {\n rootElements.set(root, children);\n }\n }\n\n return oldOnScheduleFiberRoot.apply(this, arguments);\n };\n\n hook.onCommitFiberRoot = function (id, root, maybePriorityLevel, didError) {\n var helpers = helpersByRendererID.get(id);\n\n if (helpers !== undefined) {\n helpersByRoot.set(root, helpers);\n var current = root.current;\n var alternate = current.alternate; // We need to determine whether this root has just (un)mounted.\n // This logic is copy-pasted from similar logic in the DevTools backend.\n // If this breaks with some refactoring, you'll want to update DevTools too.\n\n if (alternate !== null) {\n var wasMounted = alternate.memoizedState != null && alternate.memoizedState.element != null && mountedRoots.has(root);\n var isMounted = current.memoizedState != null && current.memoizedState.element != null;\n\n if (!wasMounted && isMounted) {\n // Mount a new root.\n mountedRoots.add(root);\n failedRoots.delete(root);\n } else if (wasMounted && isMounted) ; else if (wasMounted && !isMounted) {\n // Unmount an existing root.\n mountedRoots.delete(root);\n\n if (didError) {\n // We'll remount it on future edits.\n failedRoots.add(root);\n } else {\n helpersByRoot.delete(root);\n }\n } else if (!wasMounted && !isMounted) {\n if (didError) {\n // We'll remount it on future edits.\n failedRoots.add(root);\n }\n }\n } else {\n // Mount a new root.\n mountedRoots.add(root);\n }\n } // Always call the decorated DevTools hook.\n\n\n return oldOnCommitFiberRoot.apply(this, arguments);\n };\n }\n}\nfunction hasUnrecoverableErrors() {\n // TODO: delete this after removing dependency in RN.\n return false;\n} // Exposed for testing.\n\nfunction _getMountedRootCount() {\n {\n return mountedRoots.size;\n }\n} // This is a wrapper over more primitive functions for setting signature.\n// Signatures let us decide whether the Hook order has changed on refresh.\n//\n// This function is intended to be used as a transform target, e.g.:\n// var _s = createSignatureFunctionForTransform()\n//\n// function Hello() {\n// const [foo, setFoo] = useState(0);\n// const value = useCustomHook();\n// _s(); /* Call without arguments triggers collecting the custom Hook list.\n// * This doesn't happen during the module evaluation because we\n// * don't want to change the module order with inline requires.\n// * Next calls are noops. */\n// return <h1>Hi</h1>;\n// }\n//\n// /* Call with arguments attaches the signature to the type: */\n// _s(\n// Hello,\n// 'useState{[foo, setFoo]}(0)',\n// () => [useCustomHook], /* Lazy to avoid triggering inline requires */\n// );\n\nfunction createSignatureFunctionForTransform() {\n {\n var savedType;\n var hasCustomHooks;\n var didCollectHooks = false;\n return function (type, key, forceReset, getCustomHooks) {\n if (typeof key === 'string') {\n // We're in the initial phase that associates signatures\n // with the functions. 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في عصر تتسارع فيه وتيرة التطورات التكنولوجية، أصبح من الواضح أن هذه التغيرات تؤثر بشكل عميق على جميع جوانب الحياة، بما في ذلك الممارسات الدينية. هذا التحقيق يستعرض كيف تؤثر التطبيقات الدينية على سلوكيات الأفراد ومعتقداتهم، وكيف يمكن أن تكون أداة لتعزيز الإيمان أو تهديداً لجذوره.
التطبيقات الدينية: أدوات جديدة للإيمان
تتعدد التطبيقات المستخدمة في الممارسات الدينية، وتلعب دورًا مهمًا في حياة المؤمنين. في المسيحية، يُعتبر تطبيق “أرثوذكسي” من أبرز الأدوات التي تساعد الأفراد في أداء الصلوات وقراءة الكتاب المقدس. يحتوي التطبيق على صلوات وأدعية تسهل على المستخدمين الالتزام بممارساتهم الروحية يوميًا.
أما في الإسلام، يبرز تطبيق “Majeed Quran” كمنصة تقدم تجربة قرآنية متكاملة، تشمل الصوتيات والواجهة البصرية، وتوفر للمستخدمين إمكانية الاستماع إلى تلاوات من قراء مشهورين. بالإضافة إلى ذلك، يوجد العديد من التطبيقات الأخرى مثل “Pro Muslim” التي توفر مواقيت الصلاة والأذكار، مما يسهم في تسهيل ممارسة الشعائر.
آراء الشيوخ والكهنة: وجهات نظر متعددة
تتباين آراء الشيوخ والكهنة حول تأثير التكنولوجيا على الدين. المعلمة أمل علي، خريجة علوم الشريعة، تشير إلى أن التطبيقات قد تلهي الأفراد عن العبادة، رغم فوائدها في تسهيل الوصول إلى المعرفة الدينية. إذ يمكن من خلال الإنترنت الاطلاع على فتاوى من مصادر موثوقة والتواصل مع رجال الدين.
في المقابل، الكاهن إبراهيم فؤاد يرى أن التكنولوجيا أصبحت وسيلة أسهل وأسرع للمؤمنين، خاصة في ظل الظروف الاستثنائية مثل جائحة كورونا، التي دفعت الكثيرين للاعتماد على التطبيقات لأداء شعائرهم. الكاهن داوود غبلاير يؤكد أن هذه التطبيقات تساعد جميع الفئات العمرية، بينما يعبر الكاهن يسطس صبحي عن أهمية عدم نسيان دور أماكن العبادة، مشددًا على أن التطبيقات ليست بديلاً عن التجمعات الروحية.
صوت المستخدمين: تجارب شخصية
تتباين آراء المستخدمين حول التطبيقات الدينية، مما يعكس تنوع التجارب. ففاطمة، مستخدمة نشطة، تجد أن التطبيقات تعزز من ارتباطها بدينها وتساعدها في تنظيم عباداتها. تقول: “تطبيقات الهاتف تساعدني في البقاء متصلة بديني وفي الوقت نفسه تسهل لي الكثير من الأمور الروحية”.
من جهة أخرى، يشير أحمد، شاب في العشرينات، إلى أن “الأجواء الروحية في المساجد لا يمكن تعويضها”، ويضيف أن التطبيقات قد تكون مفيدة، لكن لا يمكنها أن تحل محل التجمعات التقليدية. هذه الآراء تسلط الضوء على التحديات والفرص التي تقدمها التكنولوجيا.
المخاطر المحتملة: التحديات أمام الإيمان
رغم الفوائد التي تقدمها التطبيقات، هناك مخاطر ينبغي الانتباه إليها. من أبرز هذه المخاطر انتشار المعلومات الخاطئة، حيث يصعب التحقق من صحة المحتوى المتداول، مما قد يؤدي إلى نشر أفكار مضللة. كما أن الاعتماد المفرط على التكنولوجيا قد يؤدي إلى الشعور بالانعزال الاجتماعي، مما يؤثر سلبًا على الروابط المجتمعية.
إيجابيات التكنولوجيا: فوائد لا يمكن تجاهلها
تقدم التطبيقات الدينية مجموعة من الفوائد التي لا يمكن إغفالها. فهي تتيح سهولة الوصول إلى النصوص المقدسة، وتساعد في تنظيم الممارسات الدينية، مما يعزز الالتزام اليومي. بالإضافة إلى ذلك، تعزز هذه التطبيقات من التعلم والتفاعل، مما يسهم في فهم أعمق للدين.
توصيات لتحسين الاستخدام
لتحقيق توازن بين التكنولوجيا والتقاليد، ينبغي على المطورين:
تقييم المحتوى: التعاون مع العلماء لضمان دقة المعلومات المقدمة، وإجراء مراجعات دورية للمحتوى.
تعزيز التفاعل الإنساني: تنظيم فعاليات تجمع بين المستخدمين والخبراء في الدين، مثل الندوات وورش العمل.
توفير موارد تعليمية متنوعة: إدماج محتوى تعليمي تفاعلي وجذاب، يشمل مقاطع الفيديو والدروس عبر الإنترنت.
تشجيع الاستخدام الإيجابي: تطوير تطبيقات تساعد في تتبع تقدم المستخدمين في ممارساتهم الدينية، مما يعزز الانضباط الشخصي.
تتطلب التكنولوجيا المتزايدة في الممارسات الدينية وعياً عميقاً لتأثيرها على الإيمان، ومن الضروري الحفاظ على توازن بين استخدام التطبيقات والتمسك بالتقاليد الدينية لضمان استمرارية الروابط الروحية، كما يجب أن نعمل جميعًا على تعزيز استخدام التكنولوجيا كأداة لتعزيز الإيمان، مع الحرص على عدم فقدان الجوانب الروحية والاجتماعية التي توفرها التجمعات التقليدية.
