/usr/src/castle-game-engine-5.2.0/ui/castlekeysmouse.pas is in castle-game-engine-src 5.2.0-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright 2001-2014 Michalis Kamburelis.
This file is part of "Castle Game Engine".
"Castle Game Engine" is free software; see the file COPYING.txt,
included in this distribution, for details about the copyright.
"Castle Game Engine" is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
----------------------------------------------------------------------------
}
{ Types and constants to handle keys and mouse.
They are used throughout our engine, both by CastleControl (Lazarus component)
and by non-Lazarus CastleWindow. }
unit CastleKeysMouse;
interface
uses CastleUtils, CastleStringUtils, CastleVectors;
type
{ Keys on keyboard.
Do not ever use values K_Reserved_Xxx (they are declared here only to avoid
using assignments, which would prevent FPC from allowing TKey to index arrays).
Some properties of K_Xxx constants that are guaranteed:
@unorderedList(
@item(K_None means "no key". It's guaranteed that it's always equal to zero.)
@item(Letters (constants K_A .. K_Z) are guaranteed to be always equal to
TKey('A') .. TKey('Z') and digits (constants K_0 .. K_9) are
guaranteed to be always equal to TKey('0') .. TKey('9').
That is, their ordinal values are equal to their ASCII codes,
and they are always ordered.
Also K_F1 .. K_F12 (function keys) are guaranteed to be always nicely ordered
(i.e. K_F2 = K_F1 + 1, K_F3 = K_F2 + 1 and so on).
Also K_Escape, K_BackSpace, K_Tab, K_Enter are guaranteed to be always equal
to CharEscape, CharBackSpace, CharTab, CharEnter (well, typecasted to
TKey type).)
) }
TKey = (
K_None,
K_PrintScreen,
K_CapsLock,
K_ScrollLock,
K_NumLock,
K_Pause,
K_Apostrophe,
K_Semicolon,
K_BackSpace, //< = Ord(CharBackSpace) = 8
K_Tab, //< = Ord(CharTab) = 9
K_Slash,
K_BackQuote,
K_Minus,
K_Enter, //< = Ord(CharEnter) = 13
K_Equal,
K_BackSlash,
K_Shift,
K_Ctrl,
K_Alt,
K_Plus,
K_Reserved_20,
K_Reserved_21,
K_Reserved_22,
K_Reserved_23,
K_Reserved_24,
K_Reserved_25,
K_Reserved_26,
K_Escape, //< = Ord(CharEscape) = 27
K_Reserved_28,
K_Reserved_29,
K_Reserved_30,
K_Reserved_31,
K_Space, //< = Ord(' ') = 32
K_PageUp,
K_PageDown,
K_End,
K_Home,
K_Left,
K_Up,
K_Right,
K_Down,
K_Reserved_41,
K_Reserved_42,
K_Reserved_43,
K_Reserved_44,
K_Insert,
K_Delete,
K_Reserved_47,
K_0, //< = Ord('0') = 48
K_1, //< = Ord('1')
K_2, //< = Ord('2')
K_3, //< = Ord('3')
K_4, //< = Ord('4')
K_5, //< = Ord('5')
K_6, //< = Ord('6')
K_7, //< = Ord('7')
K_8, //< = Ord('8')
K_9, //< = Ord('9') = 57
K_Reserved_58,
K_Reserved_59,
K_Reserved_60,
K_Reserved_61,
K_Reserved_62,
K_Reserved_63,
K_Reserved_64,
K_A, //< = Ord('A') = 65
K_B, //< = Ord('B')
K_C, //< = Ord('C')
K_D, //< = Ord('D')
K_E, //< = Ord('E')
K_F, //< = Ord('F')
K_G, //< = Ord('G')
K_H, //< = Ord('H')
K_I, //< = Ord('I')
K_J, //< = Ord('J')
K_K, //< = Ord('K')
K_L, //< = Ord('L')
K_M, //< = Ord('M')
K_N, //< = Ord('N')
K_O, //< = Ord('O')
K_P, //< = Ord('P')
K_Q, //< = Ord('Q')
K_R, //< = Ord('R')
K_S, //< = Ord('S')
K_T, //< = Ord('T')
K_U, //< = Ord('U')
K_V, //< = Ord('V')
K_W, //< = Ord('W')
K_X, //< = Ord('X')
K_Y, //< = Ord('Y')
K_Z, //< = Ord('Z') = 90
K_LeftBracket,
K_Reserved_92,
K_RightBracket,
K_Reserved_94,
K_Reserved_95,
K_Reserved_96,
K_Reserved_97,
K_Reserved_98,
K_Reserved_99,
K_Reserved_100,
K_Reserved_101,
K_Reserved_102,
K_Reserved_103,
K_Reserved_104,
K_Reserved_105,
K_Reserved_106,
K_Numpad_Plus ,
K_Reserved_108,
K_Numpad_Minus,
K_Reserved_110,
K_Reserved_111,
K_F1,
K_F2,
K_F3,
K_F4,
K_F5,
K_F6,
K_F7,
K_F8,
K_F9,
K_F10,
K_F11,
K_F12,
K_Reserved_124,
K_Reserved_125,
K_Reserved_126,
K_Reserved_127,
K_Reserved_128,
K_Reserved_129,
K_Reserved_130,
K_Reserved_131,
K_Reserved_132,
K_Reserved_133,
K_Reserved_134,
K_Reserved_135,
K_Reserved_136,
K_Reserved_137,
K_Reserved_138,
K_Reserved_139,
K_Numpad_0,
K_Numpad_1,
K_Numpad_2,
K_Numpad_3,
K_Numpad_4,
K_Numpad_5,
K_Numpad_6,
K_Numpad_7,
K_Numpad_8,
K_Numpad_9,
K_Numpad_End,
K_Numpad_Down,
K_Numpad_PageDown,
K_Numpad_Left,
K_Numpad_Begin,
K_Numpad_Right,
K_Numpad_Home,
K_Numpad_Up,
K_Numpad_PageUp,
K_Numpad_Insert,
K_Numpad_Delete,
K_Numpad_Enter,
K_Numpad_Multiply,
K_Numpad_Divide,
K_Reserved_164,
K_Reserved_165,
K_Reserved_166,
K_Reserved_167,
K_Reserved_168,
K_Reserved_169,
K_Reserved_170,
K_Reserved_171,
K_Reserved_172,
K_Reserved_173,
K_Reserved_174,
K_Reserved_175,
K_Reserved_176,
K_Reserved_177,
K_Reserved_178,
K_Reserved_179,
K_Reserved_180,
K_Reserved_181,
K_Reserved_182,
K_Reserved_183,
K_Reserved_184,
K_Reserved_185,
K_Reserved_186,
K_Reserved_187,
K_Comma,
K_Reserved_189,
K_Period,
K_Reserved_191
);
TKeysBooleans = array [TKey] of Boolean;
PKeysBooleans = ^TKeysBooleans;
TKeysBytes = array [Byte] of TKey;
PKeysBytes = ^TKeysBytes;
TCharactersBooleans = array [Char] of Boolean;
PCharactersBooleans = ^TCharactersBooleans;
TMouseButton = (mbLeft, mbMiddle, mbRight);
TMouseButtons = set of TMouseButton;
{ Look of the mouse cursor.
Used for various properties:
TUIControl.Cursor, T3D.Cursor, TCastleWindowCustom.Cursor.
mcDefault, mcNone, mcCustom have somewhat special meanings.
The rest are some cursor images will well-defined meanings for the user,
their exact look may depend on current window manager theme etc. }
TMouseCursor = (
{ Leave cursor as default, decided by a window manager. }
mcDefault,
{ Make cursor invisible. }
mcNone,
{ Use a custom cursor image in TCastleWindowCustom.CustomCursor.
In normal circumstances, this should not be used for
TUIControl.Cursor, T3D.Cursor and others, as they have no way
to set TCastleWindowCustom.CustomCursor. }
mcCustom,
{ Standard arrow, indicates, well, that user can point / click something. }
mcStandard,
{ Indicates the program is busy and user should wait. }
mcWait,
{ Text cursor, indicates that there's text under the cursor,
which usually means that it can be selected,
or that user can click to set focus to the text area. }
mcText,
{ Indicates something active is under cursor, usually for links. }
mcHand);
const
MouseButtonStr: array [TMouseButton] of string = ('left', 'middle', 'right');
type
{ Modifier keys are keys that, when pressed, modify the meaning of
other keys. Of course, this is actually just a convention.
The actual interpretation is left up to the final program
-- there you have to decide when and how modifiers affect the
meaning of other keys. }
TModifierKey = (mkCtrl, mkShift, mkAlt);
TModifierKeys = set of TModifierKey;
{ Tracking the "pressed" state of keys. Allows you to query is key (TKey)
pressed, and is some character (Char type) pressed. }
TKeysPressed = class
private
{ Characters are updated on the basis that given
TKey corresponds to character. PressedKeyToCharacter and
PressedCharacterToKey arrays
store 1-1 mapping between pressed keys and pressed characters.
So at any given point, we consider that given character corresponds
to only one key. So Characters may get fooled by user in some
complicated cases, that's acceptable (since unavoidable,
see Characters comments). If a new key corresponding to already
pressed character is pressed, this new key replaces previous key
in the mapping.
PressedKeyToCharacter reverse each other, that is
PressedCharacterToKey[PressedKeyToCharacter[Key]] = Key and
PressedKeyToCharacter[PressedCharacterToKey[C]] = C
for all keys and characters, assuming that
PressedCharacterToKey[C] <> K_None and
PressedKeyToCharacter[Key] <> #0 (which indicate that no character
is pressed / no character is pressed corresponding to this key).
Storing correspondence means that if each KeyDown is paired by
KeyUp, then each pressed Character will also be released.
(Since each pressed Character *always* has a corresponding key
that activated it.)
PressedXxx arrays may seem complicated, but their programming
is trivial and they allow me to update Characters array
quickly and reliably. }
PressedKeyToCharacter: array [TKey] of Char;
PressedCharacterToKey: array [Char] of TKey;
function GetItems(const Key: TKey): boolean;
public
{ Check is a key (TKey) pressed.
This array is read-only from outside of this class!
Always Keys[K_None] = false. }
Keys: TKeysBooleans;
{ Check is a character pressed.
This array is read-only from outside of this class!
Always Characters[#0] = false.
Note that since a given character may be generated by various
key combinations, this doesn't work as reliably as @link(Keys) array.
For example, consider pressing a, then shift, then releasing a
--- for a short time character 'A', and not 'a', should be pressed.
Although we do our best (have some mapping tables to track characters),
and in practice this works Ok. But still checking for keys
on @link(Keys) array, when possible, is advised. }
Characters: TCharactersBooleans;
{ Check is a key (TKey) pressed.
Returns the same values as are in the @link(Keys) table.
Although this is more comfortable: it's a default property of this class,
so you can write simply @code(KeysPressed[K_X]) instead of
@code(KeysPressed.Keys[K_X]). }
property Items [Key: TKey]: boolean read GetItems; default;
{ Check which modifier keys are pressed.
The result it based on current Keys[K_Ctrl], Keys[K_Shift] etc. values. }
function Modifiers: TModifierKeys;
{ Call when key is pressed.
Pass TKey, and corresponding character (Char).
Pass Key = K_None if this is not
representable as TKey, pass CharKey = #0 if this is not representable
as char. But never pass both Key = K_None and CharKey = #0
(this would have no meaning). }
procedure KeyDown(const Key: TKey; const CharKey: char);
{ Call when key is released.
Never pass Key = K_None here.
It returns which character was released as a consequence of this
key release. }
procedure KeyUp(const Key: TKey; out CharKey: char);
{ Mark all keys as released. That is, this sets all @link(Keys) and
@link(Characters) items to @false. Also resets internal arrays
used to track @link(Characters) from KeyDown and KeyUp. }
procedure Clear;
end;
function KeyToStr(const Key: TKey; const Modifiers: TModifierKeys = [];
const CtrlIsCommand: boolean = false): string;
const
ModifierKeyToKey: array[TModifierKey]of TKey = (K_Ctrl, K_Shift, K_Alt);
{ @abstract(This "packs" values like KeysDown[K_Ctrl], KeysDown[K_Shift] etc.
-- KeysDown for all TModifierKey.)
Version with TKeysPressed parameter returns [] (empty set)
when argument is @nil. This may be useful sometimes.
@groupBegin }
function ModifiersDown(const KeysDown: TKeysBooleans): TModifierKeys; overload;
function ModifiersDown(Pressed: TKeysPressed): TModifierKeys; overload;
{ @groupEnd }
function ModifierKeysToNiceStr(const MK: TModifierKeys): string;
{ Return a nice very short description of the character.
When Modifiers is not empty, these are the additional modifiers
required to be pressed (although some C values, like CtrlA ... CtrlZ,
may already indicate some modifier).
For normal readable characters just returns them, for special
characters returns short string like "Ctrl+C" or "Escape".
The returned string doesn't contain any quotes around, doesn't
contain any word merely stating "character" (for example argument 'c' just
generates 'c', not 'character "c"').
BackSpaceTabEnterString determines behavior on three special values:
#8, #9, #13. These may be either described as Backspace/Tab/Enter
(if BackSpaceTabEnterString = true)
or as Ctrl+H, Ctrl+I, Ctrl+M (if BackSpaceTabEnterString = false). }
function CharToNiceStr(const C: char; const Modifiers: TModifierKeys = [];
const BackSpaceTabEnterString: boolean = true;
const CtrlIsCommand: boolean = false): string;
type
TMouseWheelDirection = (mwNone, mwUp, mwDown, mwLeft, mwRight);
const
MouseWheelDirectionStr: array [TMouseWheelDirection] of string =
('none', 'up', 'down', 'left', 'right');
{ Determine simple mouse wheel direction from a Scroll and Vertical
parameters received from TCastleWindowCustom.OnMouseWheel.
Assumes that Scroll <> 0, like TCastleWindowCustom.OnMouseWheel guarantees. }
function MouseWheelDirection(const Scroll: Single; const Vertical: boolean): TMouseWheelDirection;
{ Convert string value back to a key name, reversing KeyToStr.
If string does not contain any recognized key name, return DefaultKey. }
function StrToKey(const S: string; const DefaultKey: TKey): TKey;
type
TInputPressReleaseType = (itKey, itMouseButton, itMouseWheel);
TFingerIndex = Cardinal;
{ Input press or release event.
Either key press/release or mouse button press/release or
mouse wheel action.
This is nicely matching with TInputShortcut processing in CastleInputs,
so it allows to easily store and check for user actions. }
TInputPressRelease = object
EventType: TInputPressReleaseType;
{ When EventType is itKey, this is the key pressed or released.
Either Key <> K_None or KeyCharacter <> #0 in this case.
When EventType <> itKey, then Key = K_None and KeyCharacter = #0.
Both Key and KeyCharacter represent the same action. Sometimes one,
sometimes the other is useful.
Not all keyboard keys can be represented as TKey value.
For example, key '/' does not have any K_Xxx constant (it will have Key = K_None)
for now but can be expressed as char '/'.
Also not all keys can be represented as character, for example "up arrow"
(K_Up) doesn't have a char code (it will have KeyCharacter = #0).
KeyCharacter is influenced by some other keys state,
like Shift or Ctrl or CapsLock or some key to input localized characters
(all dependent on your system settings, we don't deal with it in our engine,
we merely take what system gives us). For example, you can get "a" or "A"
depending of Shift and CapsLock state, or CtrlA if you hold Ctrl.
When the user holds the key pressed, we will get consecutive
key down events. Under some OSes, you will also get consecutive
key up events, but it's not guaranteed (on some OSes, you may
simply get only consecutive key down). So the more precise
definition when key down occurs is: it's a notification that
the key is (still) pressed down.
@groupBegin }
Key: TKey;
KeyCharacter: char;
{ @groupEnd }
{ When EventType is itMouseButton, this is the mouse button pressed or released.
Always mbLeft for touch device press/release events.
CastleWindow notes (but relevant also to other interfaces, like Lazarus
component, although in that case it's beyond our control):
When user presses the mouse over
our control, mouse is automatically captured, so all further OnMotion
following mouse release will be passed to this control (even if user moves mouse
outside of this control), until user releases all mouse buttons.
Note that this means that mouse positions may be outside
of [0..Width - 1, 0..Height - 1] range. }
MouseButton: TMouseButton;
{ When EventType is itMouseButton, this is the finger index pressed or
released on a touch device. Always 0 for normal mouse events. }
FingerIndex: TFingerIndex;
{ The position of the current mouse/finger on the window,
for EventType = itMouseButton (in case of mouse press/release).
For normal backends that simply support a single mouse device,
this is just equivalent to TCastleWindow.MousePosition
and TCastleControl.MousePosition, so it's not really interesting.
For multi-touch devices, this is very useful, as it describes
the position of the current finger (corresponding to FingerIndex).
For other EventType values (not itMouseButton),
this is the position of main mouse/finger.
See TCastleWindow.MousePosition documentation for what it means,
in particular what happens on touch devices. }
Position: TVector2Single;
{ When EventType is itMouseWheel, this is the mouse wheel action.
MouseWheel is mwNone if and only if EventType <> itMouseWheel.
Positive value of Scroll means user scrolled up or left,
negative means user scrolled down or right. It is never zero
(as long as EventType = itMouseWheel of course).
Scroll units are such that 1.0 should be treated like a "one operation",
like a one click. On most normal mouses only an integer scroll will be
possible to make. On the other hand, on touchpads it's common to be able
to scroll by flexible amounts.
CastleWindow backends notes:
GTK and Xlib cannot generate Scroll values different than 1 or -1.
@groupBegin }
MouseWheelScroll: Single;
MouseWheelVertical: boolean;
function MouseWheel: TMouseWheelDirection;
{ @groupEnd }
{ Check is event type correct, and then check if event Key or KeyCharacter
matches. Always false for AKey = K_None or AKeyCharacter = #0.
@groupBegin }
function IsKey(const AKey: TKey): boolean;
function IsKey(const AKeyCharacter: char): boolean;
{ @groupEnd }
function IsMouseButton(const AMouseButton: TMouseButton): boolean;
{ Textual description of this event. }
function ToString: string;
{ @deprecated Deprecated name for ToString. }
function Description: string; deprecated;
end;
{ Motion (movement) of mouse or a finger on a touch device. }
TInputMotion = object
OldPosition, Position: TVector2Single;
Pressed: TMouseButtons;
FingerIndex: TFingerIndex;
end;
{ Construct TInputPressRelease corresponding to given event.
@groupBegin }
function InputKey(const Position: TVector2Single;
const Key: TKey; const KeyCharacter: Char): TInputPressRelease;
function InputMouseButton(const Position: TVector2Single;
const MouseButton: TMouseButton; const FingerIndex: TFingerIndex): TInputPressRelease;
function InputMouseWheel(const Position: TVector2Single;
const Scroll: Single; const Vertical: boolean): TInputPressRelease;
{ @groupEnd }
{ Construct TInputMotion. }
function InputMotion(const OldPosition, Position: TVector2Single;
const Pressed: TMouseButtons; const FingerIndex: TFingerIndex): TInputMotion;
implementation
uses SysUtils;
const
KeyToStrTable: array [TKey] of string = (
'None',
'Print Screen',
'Caps Lock',
'Scroll Lock',
'Num Lock',
'Pause',
'Apostrophe',
'Semicolon',
'BackSpace',
'Tab',
'Slash',
'BackQuote',
'Minus',
'Enter',
'Equal',
'BackSlash',
'Shift',
'Ctrl',
'Alt',
'Plus',
'Reserved_20',
'Reserved_21',
'Reserved_22',
'Reserved_23',
'Reserved_24',
'Reserved_25',
'Reserved_26',
'Escape',
'Reserved_28',
'Reserved_29',
'Reserved_30',
'Reserved_31',
'Space',
'Page Up',
'Page Down',
'End',
'Home',
'Left',
'Up',
'Right',
'Down',
'Reserved_41',
'Reserved_42',
'Reserved_43',
'Reserved_44',
'Insert',
'Delete',
'Reserved_47',
'0',
'1',
'2',
'3',
'4',
'5',
'6',
'7',
'8',
'9',
'Reserved_58',
'Reserved_59',
'Reserved_60',
'Reserved_61',
'Reserved_62',
'Reserved_63',
'Reserved_64',
'A',
'B',
'C',
'D',
'E',
'F',
'G',
'H',
'I',
'J',
'K',
'L',
'M',
'N',
'O',
'P',
'Q',
'R',
'S',
'T',
'U',
'V',
'W',
'X',
'Y',
'Z',
'[',
'Reserved_92',
']',
'Reserved_94',
'Reserved_95',
'Reserved_96',
'Reserved_97',
'Reserved_98',
'Reserved_99',
'Reserved_100',
'Reserved_101',
'Reserved_102',
'Reserved_103',
'Reserved_104',
'Reserved_105',
'Reserved_106',
'Numpad Plus',
'Reserved_108',
'Numpad Minus',
'Reserved_110',
'Reserved_111',
'F1',
'F2',
'F3',
'F4',
'F5',
'F6',
'F7',
'F8',
'F9',
'F10',
'F11',
'F12',
'Reserved_124',
'Reserved_125',
'Reserved_126',
'Reserved_127',
'Reserved_128',
'Reserved_129',
'Reserved_130',
'Reserved_131',
'Reserved_132',
'Reserved_133',
'Reserved_134',
'Reserved_135',
'Reserved_136',
'Reserved_137',
'Reserved_138',
'Reserved_139',
'Numpad 0',
'Numpad 1',
'Numpad 2',
'Numpad 3',
'Numpad 4',
'Numpad 5',
'Numpad 6',
'Numpad 7',
'Numpad 8',
'Numpad 9',
'Numpad End',
'Numpad Down',
'Numpad PageDown',
'Numpad Left',
'Numpad Begin',
'Numpad Right',
'Numpad Home',
'Numpad Up',
'Numpad PageUp',
'Numpad Insert',
'Numpad Delete',
'Numpad Enter',
'Numpad Multiply',
'Numpad Divide',
'Reserved_164',
'Reserved_165',
'Reserved_166',
'Reserved_167',
'Reserved_168',
'Reserved_169',
'Reserved_170',
'Reserved_171',
'Reserved_172',
'Reserved_173',
'Reserved_174',
'Reserved_175',
'Reserved_176',
'Reserved_177',
'Reserved_178',
'Reserved_179',
'Reserved_180',
'Reserved_181',
'Reserved_182',
'Reserved_183',
'Reserved_184',
'Reserved_185',
'Reserved_186',
'Reserved_187',
'Comma',
'Reserved_189',
'Period',
'Reserved_191'
);
function KeyToStr(const Key: TKey; const Modifiers: TModifierKeys;
const CtrlIsCommand: boolean): string;
begin
{ early exit, key K_None means "no key", Modifiers are ignored }
if Key = K_None then Exit(KeyToStrTable[Key]);
Result := '';
{ add modifiers description }
if mkShift in Modifiers then
Result += 'Shift+';
if mkAlt in Modifiers then
Result += 'Alt+';
if mkCtrl in Modifiers then
begin
if CtrlIsCommand then
Result += 'Command+' else
Result += 'Ctrl+';
end;
Result += KeyToStrTable[Key];
end;
function StrToKey(const S: string; const DefaultKey: TKey): TKey;
begin
for Result := Low(Result) to High(Result) do
if KeyToStrTable[Result] = S then
Exit;
Result := DefaultKey;
end;
function ModifiersDown(const KeysDown: TKeysBooleans): TModifierKeys;
var mk: TModifierKey;
begin
result:=[];
for mk := Low(TModifierKey) to High(TModifierKey) do
if KeysDown[ModifierKeyToKey[mk]] then Include(result, mk);
end;
function ModifiersDown(Pressed: TKeysPressed): TModifierKeys;
begin
if Pressed <> nil then result := ModifiersDown(Pressed.Keys) else result:=[];
end;
function ModifierKeysToNiceStr(const MK: TModifierKeys): string;
var k: TModifierKey;
begin
Result := '[';
for k := Low(k) to High(k) do
if k in MK then
Result += KeyToStr(ModifierKeyToKey[k]) + ',';
{ we know that Length(result) >= 1 (because Result starts with '[')
so it's safe to check Result[Length(result)]. }
if Result[Length(result)] = ',' then SetLength(result, Length(result)-1);
Result += ']';
end;
function CharToNiceStr(const C: char; const Modifiers: TModifierKeys;
const BackSpaceTabEnterString, CtrlIsCommand: boolean): string;
var
CharactersImplicatingCtrlModifier: TSetOfChars;
begin
{ early exit, character #0 means "no key", Modifiers are ignored }
if C = #0 then Exit('#0');
Result := '';
CharactersImplicatingCtrlModifier := [CtrlA .. CtrlZ];
if BackSpaceTabEnterString then
{ do not show Tab and similar chars as Ctrl+Tab }
CharactersImplicatingCtrlModifier -=
[CharBackSpace, CharTab, CharEnter];
{ add modifiers description }
if (mkShift in Modifiers) or (C in ['A'..'Z']) then
Result += 'Shift+';
if mkAlt in Modifiers then
Result += 'Alt+';
if (mkCtrl in Modifiers) or
(C in CharactersImplicatingCtrlModifier) then
begin
if CtrlIsCommand then
Result += 'Command+' else
Result += 'Ctrl+';
end;
if BackSpaceTabEnterString then
begin
case C of
CharBackSpace: begin Result += 'BackSpace'; Exit; end;
CharTab : begin Result += 'Tab' ; Exit; end;
CharEnter : begin Result += 'Enter' ; Exit; end;
end;
end;
case c of
CharEscape: Result += 'Esc';
' ' : Result += 'Space';
{ Show lowercase letters as uppercase, this is standard for showing menu item shortcuts.
Uppercase letters will be prefixed with Shift+. }
'a' .. 'z': Result += Chr(Ord(C) - Ord('a') + Ord('A'));
CtrlA .. CtrlZ: Result += Chr(Ord(C) - Ord(CtrlA) + Ord('A')); // we already added Ctrl+ prefix
else Result += C;
end;
end;
function MouseWheelDirection(const Scroll: Single; const Vertical: boolean): TMouseWheelDirection;
begin
if Scroll > 0 then
begin
if Vertical then Result := mwUp else Result := mwLeft;
end else
if Vertical then Result := mwDown else Result := mwRight;
end;
{ TKeysPressed --------------------------------------------------------------- }
function TKeysPressed.GetItems(const Key: TKey): boolean;
begin
Result := Keys[Key];
end;
function TKeysPressed.Modifiers: TModifierKeys;
begin
Result := ModifiersDown(Keys);
end;
procedure TKeysPressed.KeyDown(const Key: TKey; const CharKey: char);
begin
if Key <> K_None then
Keys[Key] := true;
if (Key <> K_None) and
(CharKey <> #0) and
(PressedKeyToCharacter[Key] = #0) then
begin
{ update Characters and PressedXxx mapping arrays }
if PressedCharacterToKey[CharKey] = K_None then
begin
Assert(not Characters[CharKey]);
Characters[CharKey] := true;
end else
begin
{ some key already recorded as generating this character }
Assert(Characters[CharKey]);
Assert(PressedKeyToCharacter[PressedCharacterToKey[CharKey]] = CharKey);
PressedKeyToCharacter[PressedCharacterToKey[CharKey]] := #0;
PressedCharacterToKey[CharKey] := K_None;
end;
PressedKeyToCharacter[Key] := CharKey;
PressedCharacterToKey[CharKey] := Key;
end;
end;
procedure TKeysPressed.KeyUp(const Key: TKey; out CharKey: char);
begin
CharKey := PressedKeyToCharacter[Key];
if CharKey <> #0 then
begin
{ update Characters and PressedXxx mapping arrays }
Assert(Characters[CharKey]);
Characters[CharKey] := false;
PressedCharacterToKey[CharKey] := K_None;
PressedKeyToCharacter[Key] := #0;
end;
Keys[key] := false;
end;
procedure TKeysPressed.Clear;
begin
FillChar(Keys, SizeOf(Keys), 0);
FillChar(Characters, SizeOf(Characters), 0);
FillChar(PressedKeyToCharacter, SizeOf(PressedKeyToCharacter), 0);
FillChar(PressedCharacterToKey, SizeOf(PressedCharacterToKey), 0);
end;
{ TInputPressRelease --------------------------------------------------------- }
function TInputPressRelease.MouseWheel: TMouseWheelDirection;
begin
if EventType = itMouseWheel then
Result := MouseWheelDirection(MouseWheelScroll, MouseWheelVertical) else
Result := mwNone;
end;
function TInputPressRelease.IsKey(const AKey: TKey): boolean;
begin
Result := (AKey <> K_None) and (EventType = itKey) and (Key = AKey);
end;
function TInputPressRelease.IsKey(const AKeyCharacter: char): boolean;
begin
Result := (AKeyCharacter <> #0) and (EventType = itKey) and (KeyCharacter = AKeyCharacter);
end;
function TInputPressRelease.IsMouseButton(const AMouseButton: TMouseButton): boolean;
begin
Result := (EventType = itMouseButton) and (MouseButton = AMouseButton);
end;
function TInputPressRelease.ToString: string;
begin
case EventType of
itKey: Result := Format('key %s, character %s (code %d)',
[ KeyToStr(Key), CharToNiceStr(KeyCharacter), Ord(KeyCharacter)]);
itMouseButton: Result := 'mouse ' + MouseButtonStr[MouseButton];
itMouseWheel: Result := Format('mouse wheel %s (amount %f, vertical: %s)',
[ MouseWheelDirectionStr[MouseWheel],
MouseWheelScroll,
CastleStringUtils.BoolToStr[MouseWheelVertical] ]);
else raise EInternalError.Create('TInputPressRelease.Description: EventType?');
end;
end;
function TInputPressRelease.Description: string;
begin
Result := ToString;
end;
function InputKey(const Position: TVector2Single;
const Key: TKey; const KeyCharacter: Char): TInputPressRelease;
begin
FillChar(Result, SizeOf(Result), 0);
Result.Position := Position;
Result.EventType := itKey;
Result.Key := Key;
Result.KeyCharacter := KeyCharacter;
end;
function InputMouseButton(const Position: TVector2Single;
const MouseButton: TMouseButton; const FingerIndex: TFingerIndex): TInputPressRelease;
begin
FillChar(Result, SizeOf(Result), 0);
Result.Position := Position;
Result.EventType := itMouseButton;
Result.MouseButton := MouseButton;
Result.FingerIndex := FingerIndex;
end;
function InputMouseWheel(const Position: TVector2Single;
const Scroll: Single; const Vertical: boolean): TInputPressRelease;
begin
FillChar(Result, SizeOf(Result), 0);
Result.Position := Position;
Result.EventType := itMouseWheel;
Result.MouseWheelScroll := Scroll;
Result.MouseWheelVertical := Vertical;
end;
function InputMotion(const OldPosition, Position: TVector2Single;
const Pressed: TMouseButtons; const FingerIndex: TFingerIndex): TInputMotion;
begin
FillChar(Result, SizeOf(Result), 0);
Result.OldPosition := OldPosition;
Result.Position := Position;
Result.Pressed := Pressed;
Result.FingerIndex := FingerIndex;
end;
end.
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