dev/tools/gen_keycodes/data/keyboard_key.tmpl - external/github.com/flutter/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'package:flutter/foundation.dart';

 export 'package:flutter/foundation.dart' show DiagnosticPropertiesBuilder;

 // DO NOT EDIT -- DO NOT EDIT -- DO NOT EDIT
 // This file is generated by dev/tools/gen_keycodes/bin/gen_keycodes.dart and
 // should not be edited directly.
 //
 // Edit the template dev/tools/gen_keycodes/data/keyboard_key.tmpl instead.
 // See dev/tools/gen_keycodes/README.md for more information.

 /// A base class for all keyboard key types.
 ///
 /// See also:
 ///
 ///  * [PhysicalKeyboardKey], a class with static values that describe the keys
 ///    that are returned from [RawKeyEvent.physicalKey].
 ///  * [LogicalKeyboardKey], a class with static values that describe the keys
 ///    that are returned from [RawKeyEvent.logicalKey].
 abstract class KeyboardKey with Diagnosticable {
   /// Abstract const constructor. This constructor enables subclasses to provide
   /// const constructors so that they can be used in const expressions.
   const KeyboardKey();
 }

 /// A class with static values that describe the keys that are returned from
 /// [RawKeyEvent.logicalKey].
 ///
 /// These represent *logical* keys, which are keys which are interpreted in the
 /// context of any modifiers, modes, or keyboard layouts which may be in effect.
 ///
 /// This is contrast to [PhysicalKeyboardKey], which represents a physical key
 /// in a particular location on the keyboard, without regard for the modifier
 /// state, mode, or keyboard layout.
 ///
 /// As an example, if you wanted to implement an app where the "Q" key "quit"
 /// something, you'd want to look at the logical key to detect this, since you
 /// would like to have it match the key with "Q" on it, instead of always
 /// looking for "the key next to the TAB key", since on a French keyboard,
 /// the key next to the TAB key has an "A" on it.
 ///
 /// Conversely, if you wanted a game where the key next to the CAPS LOCK (the
 /// "A" key on a QWERTY keyboard) moved the player to the left, you'd want to
 /// look at the physical key to make sure that regardless of the character the
 /// key produces, you got the key that is in that location on the keyboard.
 ///
 /// {@tool dartpad}
 /// This example shows how to detect if the user has selected the logical "Q"
 /// key and handle the key if they have.
 ///
 /// ** See code in examples/api/lib/services/keyboard_key/logical_keyboard_key.0.dart **
 /// {@end-tool}
 /// See also:
 ///
 ///  * [RawKeyEvent], the keyboard event object received by widgets that listen
 ///    to keyboard events.
 ///  * [Focus.onKey], the handler on a widget that lets you handle key events.
 ///  * [RawKeyboardListener], a widget used to listen to keyboard events (but
 ///    not handle them).
 @immutable
 class LogicalKeyboardKey extends KeyboardKey {
   /// Creates a new LogicalKeyboardKey object for a key ID.
   const LogicalKeyboardKey(this.keyId);

   /// A unique code representing this key.
   ///
   /// This is an opaque code. It should not be unpacked to derive information
   /// from it, as the representation of the code could change at any time.
   final int keyId;

   // Returns the bits that are not included in [valueMask], shifted to the
   // right.
   //
   // For example, if the input is 0x12abcdabcd, then the result is 0x12.
   //
   // This is mostly equivalent to a right shift, resolving the problem that
   // JavaScript only support 32-bit bitwise operation and needs to use division
   // instead.
   static int _nonValueBits(int n) {
     // `n >> valueMaskWidth` is equivalent to `n / divisorForValueMask`.
     const int divisorForValueMask = valueMask + 1;
     const int valueMaskWidth = 32;

     // Equivalent to assert(divisorForValueMask == (1 << valueMaskWidth)).
     const int firstDivisorWidth = 28;
     assert(divisorForValueMask ==
       (1 << firstDivisorWidth) * (1 << (valueMaskWidth - firstDivisorWidth)));

     // JS only supports up to 2^53 - 1, therefore non-value bits can only
     // contain (maxSafeIntegerWidth - valueMaskWidth) bits.
     const int maxSafeIntegerWidth = 52;
     const int nonValueMask = (1 << (maxSafeIntegerWidth - valueMaskWidth)) - 1;

     if (kIsWeb) {
       return (n / divisorForValueMask).floor() & nonValueMask;
     } else {
       return (n >> valueMaskWidth) & nonValueMask;
     }
   }

   static String? _unicodeKeyLabel(int keyId) {
     if (_nonValueBits(keyId) == 0) {
       return String.fromCharCode(keyId).toUpperCase();
     }
     return null;
   }

   /// A description representing the character produced by a [RawKeyEvent].
   ///
   /// This value is useful for providing readable strings for keys or keyboard
   /// shortcuts. Do not use this value to compare equality of keys; compare
   /// [keyId] instead.
   ///
   /// For printable keys, this is usually the printable character in upper case
   /// ignoring modifiers or combining keys, such as 'A', '1', or '/'. This
   /// might also return accented letters (such as 'Ù') for keys labeled as so,
   /// but not if such character is a result from preceding combining keys ('`̀'
   /// followed by key U).
   ///
   /// For other keys, [keyLabel] looks up the full key name from a predefined
   /// map, such as 'F1', 'Shift Left', or 'Media Down'. This value is an empty
   /// string if there's no key label data for a key.
   ///
   /// For the printable representation that takes into consideration the
   /// modifiers and combining keys, see [RawKeyEvent.character].
   ///
   /// {@macro flutter.services.RawKeyEventData.keyLabel}
   String get keyLabel {
     return _unicodeKeyLabel(keyId)
         ?? _keyLabels[keyId]
         ?? '';
   }

   /// The debug string to print for this keyboard key, which will be null in
   /// release mode.
   ///
   /// For printable keys, this is usually a more descriptive name related to
   /// [keyLabel], such as 'Key A', 'Digit 1', 'Backslash'. This might
   /// also return accented letters (such as 'Key Ù') for keys labeled as so.
   ///
   /// For other keys, this looks up the full key name from a predefined map (the
   /// same value as [keyLabel]), such as 'F1', 'Shift Left', or 'Media Down'. If
   /// there's no key label data for a key, this returns a name that explains the
   /// ID (such as 'Key with ID 0x00100012345').
   String? get debugName {
     String? result;
     assert(() {
       result = _keyLabels[keyId];
       if (result == null) {
         final String? unicodeKeyLabel = _unicodeKeyLabel(keyId);
         if (unicodeKeyLabel != null) {
           result = 'Key $unicodeKeyLabel';
         } else {
           result = 'Key with ID 0x${keyId.toRadixString(16).padLeft(11, '0')}';
         }
       }
       return true;
     }());
     return result;
   }

   @override
   int get hashCode => keyId.hashCode;

   @override
   bool operator ==(Object other) {
     if (identical(this, other)) {
       return true;
     }
     if (other.runtimeType != runtimeType) {
       return false;
     }
     return other is LogicalKeyboardKey
         && other.keyId == keyId;
   }

   /// Returns the [LogicalKeyboardKey] constant that matches the given ID, or
   /// null, if not found.
   static LogicalKeyboardKey? findKeyByKeyId(int keyId) => _knownLogicalKeys[keyId];

   /// Returns true if the given label represents a Unicode control character.
   ///
   /// Examples of control characters are characters like "U+000A LINE FEED (LF)"
   /// or "U+001B ESCAPE (ESC)".
   ///
   /// See <https://en.wikipedia.org/wiki/Unicode_control_characters> for more
   /// information.
   ///
   /// Used by [RawKeyEvent] subclasses to help construct IDs.
   static bool isControlCharacter(String label) {
     if (label.length != 1) {
       return false;
     }
     final int codeUnit = label.codeUnitAt(0);
     return (codeUnit <= 0x1f && codeUnit >= 0x00) || (codeUnit >= 0x7f && codeUnit <= 0x9f);
   }

   /// Returns true if the [keyId] of this object is one that is auto-generated by
   /// Flutter.
   ///
   /// Auto-generated key IDs are generated in response to platform key codes
   /// which Flutter doesn't recognize, and their IDs shouldn't be used in a
   /// persistent way.
   ///
   /// Auto-generated IDs should be a rare occurrence: Flutter supports most keys.
   ///
   /// Keys that generate Unicode characters (even if unknown to Flutter) will
   /// not return true for `isAutogenerated`, since they will be assigned a
   /// Unicode-based code that will remain stable.
   ///
   /// If Flutter adds support for a previously unsupported key code, the ID it
   /// reports will change, but the ID will remain stable on the platform it is
   /// produced on until Flutter adds support for recognizing it.
   ///
   /// So, hypothetically, if Android added a new key code of 0xffff,
   /// representing a new "do what I mean" key, then the auto-generated code
   /// would be 0x1020000ffff, but once Flutter added the "doWhatIMean" key to
   /// the definitions below, the new code would be 0x0020000ffff for all
   /// platforms that had a "do what I mean" key from then on.
   bool get isAutogenerated => (keyId & planeMask) >= startOfPlatformPlanes;

   /// Returns a set of pseudo-key synonyms for the given `key`.
   ///
   /// This allows finding the pseudo-keys that also represents a concrete
   /// `key` so that a class with a key map can match pseudo-keys as well as the
   /// actual generated keys.
   ///
   /// The pseudo-keys returned in the set are typically used to represent keys
   /// which appear in multiple places on the keyboard, such as the [shift],
   /// [alt], [control], and [meta] keys. The keys in the returned set won't ever
   /// be generated directly, but if a more specific key event is received, then
   /// this set can be used to find the more general pseudo-key. For example, if
   /// this is a [shiftLeft] key, this accessor will return the set
   /// `<LogicalKeyboardKey>{ shift }`.
   Set<LogicalKeyboardKey> get synonyms {
     final LogicalKeyboardKey? result = _synonyms[this];
     return result == null ? <LogicalKeyboardKey>{} : <LogicalKeyboardKey>{result};
   }

   /// Takes a set of keys, and returns the same set, but with any keys that have
   /// synonyms replaced.
   ///
   /// It is used, for example, to make sets of keys with members like
   /// [controlRight] and [controlLeft] and convert that set to contain just
   /// [control], so that the question "is any control key down?" can be asked.
   static Set<LogicalKeyboardKey> collapseSynonyms(Set<LogicalKeyboardKey> input) {
     final Set<LogicalKeyboardKey> result = <LogicalKeyboardKey>{};
     for (final LogicalKeyboardKey key in input) {
       final LogicalKeyboardKey? synonym = _synonyms[key];
       result.add(synonym ?? key);
     }
     return result;
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(StringProperty('keyId', '0x${keyId.toRadixString(16).padLeft(8, '0')}'));
     properties.add(StringProperty('keyLabel', keyLabel));
     properties.add(StringProperty('debugName', debugName, defaultValue: null));
   }

 @@@MASK_CONSTANTS@@@

 @@@LOGICAL_KEY_DEFINITIONS@@@

   /// A list of all predefined constant [LogicalKeyboardKey]s.
   static Iterable<LogicalKeyboardKey> get knownLogicalKeys => _knownLogicalKeys.values;

   // A list of all predefined constant LogicalKeyboardKeys so they can be
   // searched.
   static const Map<int, LogicalKeyboardKey> _knownLogicalKeys = <int, LogicalKeyboardKey>{
 @@@LOGICAL_KEY_MAP@@@
   };

   // A map of keys to the pseudo-key synonym for that key. Used by getSynonyms.
   static final Map<LogicalKeyboardKey, LogicalKeyboardKey> _synonyms = <LogicalKeyboardKey, LogicalKeyboardKey>{
 @@@LOGICAL_KEY_SYNONYMS@@@  };

   static const Map<int, String> _keyLabels = <int, String>{
 @@@LOGICAL_KEY_KEY_LABELS@@@
   };
 }

 /// A class with static values that describe the keys that are returned from
 /// [RawKeyEvent.physicalKey].
 ///
 /// These represent *physical* keys, which are keys which represent a particular
 /// key location on a QWERTY keyboard. It ignores any modifiers, modes, or
 /// keyboard layouts which may be in effect. This is contrast to
 /// [LogicalKeyboardKey], which represents a logical key interpreted in the
 /// context of modifiers, modes, and/or keyboard layouts.
 ///
 /// As an example, if you wanted a game where the key next to the CAPS LOCK (the
 /// "A" key on a QWERTY keyboard) moved the player to the left, you'd want to
 /// look at the physical key to make sure that regardless of the character the
 /// key produces, you got the key that is in that location on the keyboard.
 ///
 /// Conversely, if you wanted to implement an app where the "Q" key "quit"
 /// something, you'd want to look at the logical key to detect this, since you
 /// would like to have it match the key with "Q" on it, instead of always
 /// looking for "the key next to the TAB key", since on a French keyboard,
 /// the key next to the TAB key has an "A" on it.
 ///
 /// {@tool dartpad}
 /// This example shows how to detect if the user has selected the physical key
 /// to the right of the CAPS LOCK key.
 ///
 /// ** See code in examples/api/lib/services/keyboard_key/physical_keyboard_key.0.dart **
 /// {@end-tool}
 ///
 /// See also:
 ///
 ///  * [RawKeyEvent], the keyboard event object received by widgets that listen
 ///    to keyboard events.
 ///  * [Focus.onKey], the handler on a widget that lets you handle key events.
 ///  * [RawKeyboardListener], a widget used to listen to keyboard events (but
 ///    not handle them).
 @immutable
 class PhysicalKeyboardKey extends KeyboardKey {
   /// Creates a new PhysicalKeyboardKey object for a USB HID usage.
   const PhysicalKeyboardKey(this.usbHidUsage);

   /// The unique USB HID usage ID of this physical key on the keyboard.
   ///
   /// Due to the variations in platform APIs, this may not be the actual HID
   /// usage code from the hardware, but a value derived from available
   /// information on the platform.
   ///
   /// See <https://www.usb.org/sites/default/files/documents/hut1_12v2.pdf>
   /// for the HID usage values and their meanings.
   final int usbHidUsage;

   /// The debug string to print for this keyboard key, which will be null in
   /// release mode.
   String? get debugName {
     String? result;
     assert(() {
       result = _debugNames[usbHidUsage] ??
         'Key with ID 0x${usbHidUsage.toRadixString(16).padLeft(8, '0')}';
       return true;
     }());
     return result;
   }

   @override
   int get hashCode => usbHidUsage.hashCode;

   @override
   bool operator ==(Object other) {
     if (identical(this, other)) {
       return true;
     }
     if (other.runtimeType != runtimeType) {
       return false;
     }
     return other is PhysicalKeyboardKey
         && other.usbHidUsage == usbHidUsage;
   }

   /// Finds a known [PhysicalKeyboardKey] that matches the given USB HID usage
   /// code.
   static PhysicalKeyboardKey? findKeyByCode(int usageCode) => _knownPhysicalKeys[usageCode];

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(StringProperty('usbHidUsage', '0x${usbHidUsage.toRadixString(16).padLeft(8, '0')}'));
     properties.add(StringProperty('debugName', debugName, defaultValue: null));
   }

   // Key constants for all keyboard keys in the USB HID specification at the
   // time Flutter was built.

 @@@PHYSICAL_KEY_DEFINITIONS@@@

   /// A list of all predefined constant [PhysicalKeyboardKey]s.
   static Iterable<PhysicalKeyboardKey> get knownPhysicalKeys => _knownPhysicalKeys.values;

   // A list of all the predefined constant PhysicalKeyboardKeys so that they
   // can be searched.
   static const Map<int, PhysicalKeyboardKey> _knownPhysicalKeys = <int, PhysicalKeyboardKey>{
 @@@PHYSICAL_KEY_MAP@@@
   };

   static const Map<int, String> _debugNames = kReleaseMode ?
     <int, String>{} :
     <int, String>{
 @@@PHYSICAL_KEY_DEBUG_NAMES@@@
     };
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'package:flutter/foundation.dart';

	export 'package:flutter/foundation.dart' show DiagnosticPropertiesBuilder;

	// DO NOT EDIT -- DO NOT EDIT -- DO NOT EDIT
	// This file is generated by dev/tools/gen_keycodes/bin/gen_keycodes.dart and
	// should not be edited directly.
	//
	// Edit the template dev/tools/gen_keycodes/data/keyboard_key.tmpl instead.
	// See dev/tools/gen_keycodes/README.md for more information.

	/// A base class for all keyboard key types.
	///
	/// See also:
	///
	/// * [PhysicalKeyboardKey], a class with static values that describe the keys
	/// that are returned from [RawKeyEvent.physicalKey].
	/// * [LogicalKeyboardKey], a class with static values that describe the keys
	/// that are returned from [RawKeyEvent.logicalKey].
	abstract class KeyboardKey with Diagnosticable {
	/// Abstract const constructor. This constructor enables subclasses to provide
	/// const constructors so that they can be used in const expressions.
	const KeyboardKey();
	}

	/// A class with static values that describe the keys that are returned from
	/// [RawKeyEvent.logicalKey].
	///
	/// These represent logical keys, which are keys which are interpreted in the
	/// context of any modifiers, modes, or keyboard layouts which may be in effect.
	///
	/// This is contrast to [PhysicalKeyboardKey], which represents a physical key
	/// in a particular location on the keyboard, without regard for the modifier
	/// state, mode, or keyboard layout.
	///
	/// As an example, if you wanted to implement an app where the "Q" key "quit"
	/// something, you'd want to look at the logical key to detect this, since you
	/// would like to have it match the key with "Q" on it, instead of always
	/// looking for "the key next to the TAB key", since on a French keyboard,
	/// the key next to the TAB key has an "A" on it.
	///
	/// Conversely, if you wanted a game where the key next to the CAPS LOCK (the
	/// "A" key on a QWERTY keyboard) moved the player to the left, you'd want to
	/// look at the physical key to make sure that regardless of the character the
	/// key produces, you got the key that is in that location on the keyboard.
	///
	/// {@tool dartpad}
	/// This example shows how to detect if the user has selected the logical "Q"
	/// key and handle the key if they have.
	///
	/// See code in examples/api/lib/services/keyboard_key/logical_keyboard_key.0.dart
	/// {@end-tool}
	/// See also:
	///
	/// * [RawKeyEvent], the keyboard event object received by widgets that listen
	/// to keyboard events.
	/// * [Focus.onKey], the handler on a widget that lets you handle key events.
	/// * [RawKeyboardListener], a widget used to listen to keyboard events (but
	/// not handle them).
	@immutable
	class LogicalKeyboardKey extends KeyboardKey {
	/// Creates a new LogicalKeyboardKey object for a key ID.
	const LogicalKeyboardKey(this.keyId);

	/// A unique code representing this key.
	///
	/// This is an opaque code. It should not be unpacked to derive information
	/// from it, as the representation of the code could change at any time.
	final int keyId;

	// Returns the bits that are not included in [valueMask], shifted to the
	// right.
	//
	// For example, if the input is 0x12abcdabcd, then the result is 0x12.
	//
	// This is mostly equivalent to a right shift, resolving the problem that
	// JavaScript only support 32-bit bitwise operation and needs to use division
	// instead.
	static int _nonValueBits(int n) {
	// `n >> valueMaskWidth` is equivalent to `n / divisorForValueMask`.
	const int divisorForValueMask = valueMask + 1;
	const int valueMaskWidth = 32;

	// Equivalent to assert(divisorForValueMask == (1 << valueMaskWidth)).
	const int firstDivisorWidth = 28;
	assert(divisorForValueMask ==
	(1 << firstDivisorWidth) * (1 << (valueMaskWidth - firstDivisorWidth)));

	// JS only supports up to 2^53 - 1, therefore non-value bits can only
	// contain (maxSafeIntegerWidth - valueMaskWidth) bits.
	const int maxSafeIntegerWidth = 52;
	const int nonValueMask = (1 << (maxSafeIntegerWidth - valueMaskWidth)) - 1;

	if (kIsWeb) {
	return (n / divisorForValueMask).floor() & nonValueMask;
	} else {
	return (n >> valueMaskWidth) & nonValueMask;
	}
	}

	static String? _unicodeKeyLabel(int keyId) {
	if (_nonValueBits(keyId) == 0) {
	return String.fromCharCode(keyId).toUpperCase();
	}
	return null;
	}

	/// A description representing the character produced by a [RawKeyEvent].
	///
	/// This value is useful for providing readable strings for keys or keyboard
	/// shortcuts. Do not use this value to compare equality of keys; compare
	/// [keyId] instead.
	///
	/// For printable keys, this is usually the printable character in upper case
	/// ignoring modifiers or combining keys, such as 'A', '1', or '/'. This
	/// might also return accented letters (such as 'Ù') for keys labeled as so,
	/// but not if such character is a result from preceding combining keys ('`̀'
	/// followed by key U).
	///
	/// For other keys, [keyLabel] looks up the full key name from a predefined
	/// map, such as 'F1', 'Shift Left', or 'Media Down'. This value is an empty
	/// string if there's no key label data for a key.
	///
	/// For the printable representation that takes into consideration the
	/// modifiers and combining keys, see [RawKeyEvent.character].
	///
	/// {@macro flutter.services.RawKeyEventData.keyLabel}
	String get keyLabel {
	return _unicodeKeyLabel(keyId)
	?? _keyLabels[keyId]
	?? '';
	}

	/// The debug string to print for this keyboard key, which will be null in
	/// release mode.
	///
	/// For printable keys, this is usually a more descriptive name related to
	/// [keyLabel], such as 'Key A', 'Digit 1', 'Backslash'. This might
	/// also return accented letters (such as 'Key Ù') for keys labeled as so.
	///
	/// For other keys, this looks up the full key name from a predefined map (the
	/// same value as [keyLabel]), such as 'F1', 'Shift Left', or 'Media Down'. If
	/// there's no key label data for a key, this returns a name that explains the
	/// ID (such as 'Key with ID 0x00100012345').
	String? get debugName {
	String? result;
	assert(() {
	result = _keyLabels[keyId];
	if (result == null) {
	final String? unicodeKeyLabel = _unicodeKeyLabel(keyId);
	if (unicodeKeyLabel != null) {
	result = 'Key $unicodeKeyLabel';
	} else {
	result = 'Key with ID 0x${keyId.toRadixString(16).padLeft(11, '0')}';
	}
	}
	return true;
	}());
	return result;
	}

	@override
	int get hashCode => keyId.hashCode;

	@override
	bool operator ==(Object other) {
	if (identical(this, other)) {
	return true;
	}
	if (other.runtimeType != runtimeType) {
	return false;
	}
	return other is LogicalKeyboardKey
	&& other.keyId == keyId;
	}

	/// Returns the [LogicalKeyboardKey] constant that matches the given ID, or
	/// null, if not found.
	static LogicalKeyboardKey? findKeyByKeyId(int keyId) => _knownLogicalKeys[keyId];

	/// Returns true if the given label represents a Unicode control character.
	///
	/// Examples of control characters are characters like "U+000A LINE FEED (LF)"
	/// or "U+001B ESCAPE (ESC)".
	///
	/// See <https://en.wikipedia.org/wiki/Unicode_control_characters> for more
	/// information.
	///
	/// Used by [RawKeyEvent] subclasses to help construct IDs.
	static bool isControlCharacter(String label) {
	if (label.length != 1) {
	return false;
	}
	final int codeUnit = label.codeUnitAt(0);
	return (codeUnit <= 0x1f && codeUnit >= 0x00) \|\| (codeUnit >= 0x7f && codeUnit <= 0x9f);
	}

	/// Returns true if the [keyId] of this object is one that is auto-generated by
	/// Flutter.
	///
	/// Auto-generated key IDs are generated in response to platform key codes
	/// which Flutter doesn't recognize, and their IDs shouldn't be used in a
	/// persistent way.
	///
	/// Auto-generated IDs should be a rare occurrence: Flutter supports most keys.
	///
	/// Keys that generate Unicode characters (even if unknown to Flutter) will
	/// not return true for `isAutogenerated`, since they will be assigned a
	/// Unicode-based code that will remain stable.
	///
	/// If Flutter adds support for a previously unsupported key code, the ID it
	/// reports will change, but the ID will remain stable on the platform it is
	/// produced on until Flutter adds support for recognizing it.
	///
	/// So, hypothetically, if Android added a new key code of 0xffff,
	/// representing a new "do what I mean" key, then the auto-generated code
	/// would be 0x1020000ffff, but once Flutter added the "doWhatIMean" key to
	/// the definitions below, the new code would be 0x0020000ffff for all
	/// platforms that had a "do what I mean" key from then on.
	bool get isAutogenerated => (keyId & planeMask) >= startOfPlatformPlanes;

	/// Returns a set of pseudo-key synonyms for the given `key`.
	///
	/// This allows finding the pseudo-keys that also represents a concrete
	/// `key` so that a class with a key map can match pseudo-keys as well as the
	/// actual generated keys.
	///
	/// The pseudo-keys returned in the set are typically used to represent keys
	/// which appear in multiple places on the keyboard, such as the [shift],
	/// [alt], [control], and [meta] keys. The keys in the returned set won't ever
	/// be generated directly, but if a more specific key event is received, then
	/// this set can be used to find the more general pseudo-key. For example, if
	/// this is a [shiftLeft] key, this accessor will return the set
	/// `<LogicalKeyboardKey>{ shift }`.
	Set<LogicalKeyboardKey> get synonyms {
	final LogicalKeyboardKey? result = _synonyms[this];
	return result == null ? <LogicalKeyboardKey>{} : <LogicalKeyboardKey>{result};
	}

	/// Takes a set of keys, and returns the same set, but with any keys that have
	/// synonyms replaced.
	///
	/// It is used, for example, to make sets of keys with members like
	/// [controlRight] and [controlLeft] and convert that set to contain just
	/// [control], so that the question "is any control key down?" can be asked.
	static Set<LogicalKeyboardKey> collapseSynonyms(Set<LogicalKeyboardKey> input) {
	final Set<LogicalKeyboardKey> result = <LogicalKeyboardKey>{};
	for (final LogicalKeyboardKey key in input) {
	final LogicalKeyboardKey? synonym = _synonyms[key];
	result.add(synonym ?? key);
	}
	return result;
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(StringProperty('keyId', '0x${keyId.toRadixString(16).padLeft(8, '0')}'));
	properties.add(StringProperty('keyLabel', keyLabel));
	properties.add(StringProperty('debugName', debugName, defaultValue: null));
	}

	@@@MASK_CONSTANTS@@@

	@@@LOGICAL_KEY_DEFINITIONS@@@

	/// A list of all predefined constant [LogicalKeyboardKey]s.
	static Iterable<LogicalKeyboardKey> get knownLogicalKeys => _knownLogicalKeys.values;

	// A list of all predefined constant LogicalKeyboardKeys so they can be
	// searched.
	static const Map<int, LogicalKeyboardKey> _knownLogicalKeys = <int, LogicalKeyboardKey>{
	@@@LOGICAL_KEY_MAP@@@
	};

	// A map of keys to the pseudo-key synonym for that key. Used by getSynonyms.
	static final Map<LogicalKeyboardKey, LogicalKeyboardKey> _synonyms = <LogicalKeyboardKey, LogicalKeyboardKey>{
	@@@LOGICAL_KEY_SYNONYMS@@@ };

	static const Map<int, String> _keyLabels = <int, String>{
	@@@LOGICAL_KEY_KEY_LABELS@@@
	};
	}

	/// A class with static values that describe the keys that are returned from
	/// [RawKeyEvent.physicalKey].
	///
	/// These represent physical keys, which are keys which represent a particular
	/// key location on a QWERTY keyboard. It ignores any modifiers, modes, or
	/// keyboard layouts which may be in effect. This is contrast to
	/// [LogicalKeyboardKey], which represents a logical key interpreted in the
	/// context of modifiers, modes, and/or keyboard layouts.
	///
	/// As an example, if you wanted a game where the key next to the CAPS LOCK (the
	/// "A" key on a QWERTY keyboard) moved the player to the left, you'd want to
	/// look at the physical key to make sure that regardless of the character the
	/// key produces, you got the key that is in that location on the keyboard.
	///
	/// Conversely, if you wanted to implement an app where the "Q" key "quit"
	/// something, you'd want to look at the logical key to detect this, since you
	/// would like to have it match the key with "Q" on it, instead of always
	/// looking for "the key next to the TAB key", since on a French keyboard,
	/// the key next to the TAB key has an "A" on it.
	///
	/// {@tool dartpad}
	/// This example shows how to detect if the user has selected the physical key
	/// to the right of the CAPS LOCK key.
	///
	/// See code in examples/api/lib/services/keyboard_key/physical_keyboard_key.0.dart
	/// {@end-tool}
	///
	/// See also:
	///
	/// * [RawKeyEvent], the keyboard event object received by widgets that listen
	/// to keyboard events.
	/// * [Focus.onKey], the handler on a widget that lets you handle key events.
	/// * [RawKeyboardListener], a widget used to listen to keyboard events (but
	/// not handle them).
	@immutable
	class PhysicalKeyboardKey extends KeyboardKey {
	/// Creates a new PhysicalKeyboardKey object for a USB HID usage.
	const PhysicalKeyboardKey(this.usbHidUsage);

	/// The unique USB HID usage ID of this physical key on the keyboard.
	///
	/// Due to the variations in platform APIs, this may not be the actual HID
	/// usage code from the hardware, but a value derived from available
	/// information on the platform.
	///
	/// See <https://www.usb.org/sites/default/files/documents/hut1_12v2.pdf>
	/// for the HID usage values and their meanings.
	final int usbHidUsage;

	/// The debug string to print for this keyboard key, which will be null in
	/// release mode.
	String? get debugName {
	String? result;
	assert(() {
	result = _debugNames[usbHidUsage] ??
	'Key with ID 0x${usbHidUsage.toRadixString(16).padLeft(8, '0')}';
	return true;
	}());
	return result;
	}

	@override
	int get hashCode => usbHidUsage.hashCode;

	@override
	bool operator ==(Object other) {
	if (identical(this, other)) {
	return true;
	}
	if (other.runtimeType != runtimeType) {
	return false;
	}
	return other is PhysicalKeyboardKey
	&& other.usbHidUsage == usbHidUsage;
	}

	/// Finds a known [PhysicalKeyboardKey] that matches the given USB HID usage
	/// code.
	static PhysicalKeyboardKey? findKeyByCode(int usageCode) => _knownPhysicalKeys[usageCode];

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(StringProperty('usbHidUsage', '0x${usbHidUsage.toRadixString(16).padLeft(8, '0')}'));
	properties.add(StringProperty('debugName', debugName, defaultValue: null));
	}

	// Key constants for all keyboard keys in the USB HID specification at the
	// time Flutter was built.

	@@@PHYSICAL_KEY_DEFINITIONS@@@

	/// A list of all predefined constant [PhysicalKeyboardKey]s.
	static Iterable<PhysicalKeyboardKey> get knownPhysicalKeys => _knownPhysicalKeys.values;

	// A list of all the predefined constant PhysicalKeyboardKeys so that they
	// can be searched.
	static const Map<int, PhysicalKeyboardKey> _knownPhysicalKeys = <int, PhysicalKeyboardKey>{
	@@@PHYSICAL_KEY_MAP@@@
	};

	static const Map<int, String> _debugNames = kReleaseMode ?
	<int, String>{} :
	<int, String>{
	@@@PHYSICAL_KEY_DEBUG_NAMES@@@
	};
	}