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495 lines
16 KiB
C++
495 lines
16 KiB
C++
/*
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* synergy -- mouse and keyboard sharing utility
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* Copyright (C) 2005 Chris Schoeneman, Nick Bolton, Sorin Sbarnea
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*
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* This package is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* found in the file COPYING that should have accompanied this file.
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*
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* This package is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef CKEYMAP_H
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#define CKEYMAP_H
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#include "KeyTypes.h"
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#include "CString.h"
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#include "CStringUtil.h"
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#include "stdmap.h"
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#include "stdset.h"
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#include "stdvector.h"
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//! Key map
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/*!
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This class provides a keyboard mapping.
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*/
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class CKeyMap {
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public:
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CKeyMap();
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~CKeyMap();
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//! KeyID synthesis info
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/*!
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This structure contains the information necessary to synthesize a
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keystroke that generates a KeyID (stored elsewhere). \c m_sensitive
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lists the modifiers that the key is affected by and must therefore
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be in the correct state, which is listed in \c m_required. If the
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key is mapped to a modifier, that modifier is in \c m_generates and
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is not in \c m_sensitive.
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*/
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struct KeyItem {
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public:
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KeyID m_id; //!< KeyID
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SInt32 m_group; //!< Group for key
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KeyButton m_button; //!< Button to generate KeyID
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KeyModifierMask m_required; //!< Modifiers required for KeyID
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KeyModifierMask m_sensitive; //!< Modifiers key is sensitive to
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KeyModifierMask m_generates; //!< Modifiers key is mapped to
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bool m_dead; //!< \c true if this is a dead KeyID
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bool m_lock; //!< \c true if this locks a modifier
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UInt32 m_client; //!< Client data
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public:
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bool operator==(const KeyItem&) const;
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};
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//! The KeyButtons needed to synthesize a KeyID
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/*!
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An ordered list of \c KeyItems produces a particular KeyID. If
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the KeyID can be synthesized directly then there is one entry in
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the list. If dead keys are required then they're listed first.
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A list is the minimal set of keystrokes necessary to synthesize
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the KeyID, so it doesn't include no-ops. A list does not include
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any modifier keys unless the KeyID is a modifier, in which case
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it has exactly one KeyItem for the modifier itself.
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*/
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typedef std::vector<KeyItem> KeyItemList;
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//! A keystroke
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class Keystroke {
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public:
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enum EType {
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kButton, //!< Synthesize button
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kGroup //!< Set new group
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};
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Keystroke(KeyButton, bool press, bool repeat, UInt32 clientData);
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Keystroke(SInt32 group, bool absolute, bool restore);
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public:
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struct CButton {
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public:
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KeyButton m_button; //!< Button to synthesize
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bool m_press; //!< \c true iff press
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bool m_repeat; //!< \c true iff for an autorepeat
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UInt32 m_client; //!< Client data
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};
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struct CGroup {
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public:
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SInt32 m_group; //!< Group/offset to change to/by
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bool m_absolute; //!< \c true iff change to, else by
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bool m_restore; //!< \c true iff for restoring state
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};
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union CData {
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public:
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CButton m_button;
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CGroup m_group;
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};
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EType m_type;
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CData m_data;
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};
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//! A sequence of keystrokes
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typedef std::vector<Keystroke> Keystrokes;
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//! A mapping of a modifier to keys for that modifier
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typedef std::multimap<KeyModifierMask, KeyItem> ModifierToKeys;
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//! A set of buttons
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typedef std::map<KeyButton, const KeyItem*> ButtonToKeyMap;
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//! Callback type for \c foreachKey
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typedef void (*ForeachKeyCallback)(KeyID, SInt32 group,
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KeyItem&, void* userData);
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//! @name manipulators
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//@{
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//! Swap with another \c CKeyMap
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void swap(CKeyMap&);
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//! Add a key entry
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/*!
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Adds \p item to the entries for the item's id and group. The
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\c m_dead member is set automatically.
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*/
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void addKeyEntry(const KeyItem& item);
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//! Add an alias key entry
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/*!
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If \p targetID with the modifiers given by \p targetRequired and
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\p targetSensitive is not available in group \p group then find an
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entry for \p sourceID with modifiers given by \p sourceRequired and
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\p sourceSensitive in any group with exactly one item and, if found,
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add a new item just like it except using id \p targetID. This
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effectively makes the \p sourceID an alias for \p targetID (i.e. we
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can generate \p targetID using \p sourceID).
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*/
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void addKeyAliasEntry(KeyID targetID, SInt32 group,
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KeyModifierMask targetRequired,
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KeyModifierMask targetSensitive,
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KeyID sourceID,
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KeyModifierMask sourceRequired,
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KeyModifierMask sourceSensitive);
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//! Add a key sequence entry
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/*!
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Adds the sequence of keys \p keys (\p numKeys elements long) to
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synthesize key \p id in group \p group. This looks up in the
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map each key in \p keys. If all are found then each key is
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converted to the button for that key and the buttons are added
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as the entry for \p id. If \p id is already in the map or at
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least one key in \p keys is not in the map then nothing is added
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and this returns \c false, otherwise it returns \c true.
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*/
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bool addKeyCombinationEntry(KeyID id, SInt32 group,
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const KeyID* keys, UInt32 numKeys);
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//! Enable composition across groups
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/*!
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If called then the keyboard map will allow switching between groups
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during key composition. Not all systems allow that.
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*/
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void allowGroupSwitchDuringCompose();
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//! Add a half-duplex button
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/*!
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Records that button \p button is a half-duplex key. This is called
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when translating the system's keyboard map. It's independent of the
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half-duplex modifier calls.
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*/
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void addHalfDuplexButton(KeyButton button);
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//! Remove all half-duplex modifiers
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/*!
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Removes all half-duplex modifiers. This is called to set user
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configurable half-duplex settings.
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*/
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void clearHalfDuplexModifiers();
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//! Add a half-duplex modifier
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/*!
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Records that modifier key \p key is half-duplex. This is called to
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set user configurable half-duplex settings.
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*/
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void addHalfDuplexModifier(KeyID key);
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//! Finish adding entries
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/*!
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Called after adding entries, this does some internal housekeeping.
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*/
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void finish();
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//! Iterate over all added keys items
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/*!
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Calls \p cb for every key item.
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*/
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void foreachKey(ForeachKeyCallback cb, void* userData);
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//@}
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//! @name accessors
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//@{
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//! Map key press/repeat to keystrokes.
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/*!
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Converts press/repeat of key \p id in group \p group with current
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modifiers as given in \p currentState and the desired modifiers in
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\p desiredMask into the keystrokes necessary to synthesize that key
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event in \p keys. It returns the \c KeyItem of the key being
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pressed/repeated, or NULL if the key cannot be mapped.
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*/
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const KeyItem* mapKey(Keystrokes& keys, KeyID id, SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask desiredMask,
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bool isAutoRepeat) const;
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//! Get number of groups
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/*!
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Returns the number of keyboard groups (independent layouts) in the map.
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*/
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SInt32 getNumGroups() const;
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//! Compute a group number
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/*!
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Returns the number of the group \p offset groups after group \p group.
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*/
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SInt32 getEffectiveGroup(SInt32 group, SInt32 offset) const;
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//! Find key entry compatible with modifiers
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/*!
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Returns the \c KeyItemList for the first entry for \p id in group
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\p group that is compatible with the given modifiers, or NULL
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if there isn't one. A button list is compatible with a modifiers
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if it is either insensitive to all modifiers in \p sensitive or
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it requires the modifiers to be in the state indicated by \p required
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for every modifier indicated by \p sensitive.
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*/
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const KeyItemList* findCompatibleKey(KeyID id, SInt32 group,
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KeyModifierMask required,
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KeyModifierMask sensitive) const;
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//! Test if modifier is half-duplex
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/*!
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Returns \c true iff modifier key \p key or button \p button is
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half-duplex.
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*/
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bool isHalfDuplex(KeyID key, KeyButton button) const;
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//! Test if modifiers indicate a command
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/*!
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Returns \c true iff the modifiers in \p mask contain any command
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modifiers. A command modifier is used for keyboard shortcuts and
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hotkeys, Rather than trying to synthesize a character, a command
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is trying to synthesize a particular set of buttons. So it's not
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important to match the shift or AltGr state to achieve a character
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but it is important to match the modifier state exactly.
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*/
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bool isCommand(KeyModifierMask mask) const;
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// Get the modifiers that indicate a command
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/*!
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Returns the modifiers that when combined with other keys indicate
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a command (e.g. shortcut or hotkey).
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*/
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KeyModifierMask getCommandModifiers() const;
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//! Get buttons from modifier map
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/*!
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Put all the keys in \p modifiers into \p keys.
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*/
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static void collectButtons(const ModifierToKeys& modifiers,
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ButtonToKeyMap& keys);
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//! Set modifier key state
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/*!
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Sets the modifier key state (\c m_generates and \c m_lock) in \p item
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based on the \c m_id in \p item.
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*/
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static void initModifierKey(KeyItem& item);
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//! Test for a dead key
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/*!
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Returns \c true if \p key is a dead key.
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*/
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static bool isDeadKey(KeyID key);
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//! Get corresponding dead key
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/*!
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Returns the dead key corresponding to \p key if one exists, otherwise
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return \c kKeyNone. This returns \p key if it's already a dead key.
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*/
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static KeyID getDeadKey(KeyID key);
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//! Get string for a key and modifier mask
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/*!
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Converts a key and modifier mask into a string representing the
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combination.
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*/
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static CString formatKey(KeyID key, KeyModifierMask);
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//! Parse a string into a key
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/*!
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Converts a string into a key. Returns \c true on success and \c false
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if the string cannot be parsed.
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*/
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static bool parseKey(const CString&, KeyID&);
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//! Parse a string into a modifier mask
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/*!
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Converts a string into a modifier mask. Returns \c true on success
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and \c false if the string cannot be parsed. The modifiers plus any
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remaining leading and trailing whitespace is stripped from the input
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string.
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*/
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static bool parseModifiers(CString&, KeyModifierMask&);
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//@}
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private:
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//! Ways to synthesize a key
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enum EKeystroke {
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kKeystrokePress, //!< Synthesize a press
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kKeystrokeRelease, //!< Synthesize a release
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kKeystrokeRepeat, //!< Synthesize an autorepeat
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kKeystrokeClick, //!< Synthesize a press and release
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kKeystrokeModify, //!< Synthesize pressing a modifier
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kKeystrokeUnmodify //!< Synthesize releasing a modifier
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};
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// A list of ways to synthesize a KeyID
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typedef std::vector<KeyItemList> KeyEntryList;
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// computes the number of groups
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SInt32 findNumGroups() const;
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// computes the map of modifiers to the keys that generate the modifiers
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void setModifierKeys();
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// maps a command key. a command key is a keyboard shortcut and we're
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// trying to synthesize a button press with an exact sets of modifiers,
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// not trying to synthesize a character. so we just need to find the
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// right button and synthesize the requested modifiers without regard
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// to what character they would synthesize. we disallow multikey
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// entries since they don't make sense as hotkeys.
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const KeyItem* mapCommandKey(Keystrokes& keys,
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KeyID id, SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask desiredMask,
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bool isAutoRepeat) const;
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// maps a character key. a character key is trying to synthesize a
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// particular KeyID and isn't entirely concerned with the modifiers
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// used to do it.
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const KeyItem* mapCharacterKey(Keystrokes& keys,
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KeyID id, SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask desiredMask,
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bool isAutoRepeat) const;
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// maps a modifier key
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const KeyItem* mapModifierKey(Keystrokes& keys,
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KeyID id, SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask desiredMask,
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bool isAutoRepeat) const;
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// returns the index into \p entryList of the KeyItemList requiring
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// the fewest modifier changes between \p currentState and
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// \p desiredState.
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SInt32 findBestKey(const KeyEntryList& entryList,
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KeyModifierMask currentState,
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KeyModifierMask desiredState) const;
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// gets the \c KeyItem used to synthesize the modifier who's bit is
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// given by \p modifierBit in group \p group and does not synthesize
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// the key \p button.
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const KeyItem* keyForModifier(KeyButton button, SInt32 group,
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SInt32 modifierBit) const;
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// fills \p keystrokes with the keys to synthesize the key in
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// \p keyItem taking the modifiers into account. returns \c true
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// iff successful and sets \p currentState to the
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// resulting modifier state.
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bool keysForKeyItem(const KeyItem& keyItem,
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SInt32& group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask desiredState,
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KeyModifierMask overrideModifiers,
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bool isAutoRepeat,
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Keystrokes& keystrokes) const;
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// fills \p keystrokes with the keys to synthesize the modifiers
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// in \p desiredModifiers from the active modifiers listed in
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// \p activeModifiers not including the key in \p keyItem.
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// returns \c true iff successful.
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bool keysToRestoreModifiers(const KeyItem& keyItem,
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SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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const ModifierToKeys& desiredModifiers,
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Keystrokes& keystrokes) const;
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// fills \p keystrokes and \p undo with the keys to change the
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// current modifier state in \p currentState to match the state in
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// \p requiredState for each modifier indicated in \p sensitiveMask.
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// returns \c true iff successful and sets \p currentState to the
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// resulting modifier state.
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bool keysForModifierState(KeyButton button, SInt32 group,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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KeyModifierMask requiredState,
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KeyModifierMask sensitiveMask,
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KeyModifierMask notRequiredMask,
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Keystrokes& keystrokes) const;
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// Adds keystrokes to synthesize key \p keyItem in mode \p type to
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// \p keystrokes and to undo the synthesis to \p undo.
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void addKeystrokes(EKeystroke type,
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const KeyItem& keyItem,
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ModifierToKeys& activeModifiers,
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KeyModifierMask& currentState,
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Keystrokes& keystrokes) const;
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// Returns the number of modifiers indicated in \p state.
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static SInt32 getNumModifiers(KeyModifierMask state);
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// Initialize key name/id maps
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static void initKeyNameMaps();
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// not implemented
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CKeyMap(const CKeyMap&);
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CKeyMap& operator=(const CKeyMap&);
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private:
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// Ways to synthesize a KeyID over multiple keyboard groups
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typedef std::vector<KeyEntryList> KeyGroupTable;
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// Table of KeyID to ways to synthesize that KeyID
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typedef std::map<KeyID, KeyGroupTable> KeyIDMap;
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// List of KeyItems that generate a particular modifier
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typedef std::vector<const KeyItem*> ModifierKeyItemList;
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// Map a modifier to the KeyItems that synthesize that modifier
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typedef std::vector<ModifierKeyItemList> ModifierToKeyTable;
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// A set of keys
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typedef std::set<KeyID> KeySet;
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// A set of buttons
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typedef std::set<KeyButton> KeyButtonSet;
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// Key maps for parsing/formatting
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typedef std::map<CString, KeyID,
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CStringUtil::CaselessCmp> CNameToKeyMap;
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typedef std::map<CString, KeyModifierMask,
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CStringUtil::CaselessCmp> CNameToModifierMap;
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typedef std::map<KeyID, CString> CKeyToNameMap;
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typedef std::map<KeyModifierMask, CString> CModifierToNameMap;
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// KeyID info
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KeyIDMap m_keyIDMap;
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SInt32 m_numGroups;
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ModifierToKeyTable m_modifierKeys;
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// composition info
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bool m_composeAcrossGroups;
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// half-duplex info
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KeyButtonSet m_halfDuplex; // half-duplex set by synergy
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KeySet m_halfDuplexMods; // half-duplex set by user
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// dummy KeyItem for changing modifiers
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KeyItem m_modifierKeyItem;
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// parsing/formatting tables
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static CNameToKeyMap* s_nameToKeyMap;
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static CNameToModifierMap* s_nameToModifierMap;
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static CKeyToNameMap* s_keyToNameMap;
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static CModifierToNameMap* s_modifierToNameMap;
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};
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#endif
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