Oberon/ETH Oberon/2.3.7/Input.Mod
外观
< Oberon | ETH Oberon
(* ETH Oberon, Copyright 1990-2003 Computer Systems Institute, ETH Zurich, CH-8092 Zurich.
Refer to the license.txt file provided with this distribution. *)
MODULE Input; (** portable, except where noted *) (* pjm *)
(*
Native Oberon Input, pjm 09.06.95
Mouse protocol information from XFree in X11R6 distribution (Thomas Roell & David Dawes)
PS/2 Aux port information from Linux (Johan Myreen et al.)
Added support for 82C710 controller (QuickPort), pr 12.09.2000
- information about 82C710 from Linux (qpmouse.c, 8-Sep-95)
*)
(**
Module Input is responsible for event timing, mouse and keyboard input.
*)
IMPORT
Files, Kernel, V24, SYSTEM;
CONST
TimeUnit* = 1000; (** portable, but VAR on other ports *) (** timer ticks per second (platform dependent). *)
SHIFT* = 0; CTRL* = 1; ALT* = 2; (** for KeyState *)
BufSize = 32; (* keyboard buffer size *)
AuxSize = 301; (* PS/2 aux port buffer size (multiple of 3 + 1)*)
ScrollLock = 0; NumLock = 1; CapsLock = 2; LAlt = 3; RAlt = 4;
LCtrl = 5; RCtrl = 6; LShift = 7; RShift = 8; GreyEsc = 9;
Resetting = 10; SetTypematic = 11; SendingLEDs = 12;
MenuShift = 13;
DeadKey = 0;
AUX = -1; NONE = -2;
Trace = FALSE;
(* mouse types *)
MinType = 0; MaxType = 9;
MS = 0; MSC1 = 1; MM = 2; Logi = 3; MSC2 = 4; LogiMan = 5; PS2 = 6; MSI = 7; MSC3 = 8; MSC4 = 9;
(* Native.Install.Text & build tool
0 Microsoft serial (2-button)
1 Mouse Systems Corp serial type a (dtr on, rts on)
2 Logitech serial Type a (old models)
3 Logitech serial Type b (old models)
4 Mouse Systems Corp serial type b (dtr off, rts off)
5 Logitech serial Type c (new models)
6 PS/2 mouse (default)
7 Microsoft serial IntelliMouse
8 Mouse Systems Corp serial type c (dtr off, rts on)
9 Mouse Systems Corp serial type d (dtr on, rts off)
MT=PS2 PS/2 or built-in
MT=LM1 Logitech 1
MT=LM2 Logitech 2
MT=LM3 Logitech 3
MT=MS1 Mouse Systems 1
MT=MS2 Mouse Systems 2
MT=MS3 Mouse Systems 3
MT=MS4 Mouse Systems 4
MT=MSM Microsoft (2-button)
MT=MSI Microsoft IntelliMouse
MP=1
MP=2
*)
(* 82C710 controller command and status bits *)
QpDevIdle = 0;
QpRxFull = 1;
QpTxIdle = 2;
QpReset = 3;
QpIntsOn = 4;
QpErrorFlag = 5;
QpClear = 6;
QpEnable = 7;
TYPE
PollMouse* = PROCEDURE (VAR keys: SET; VAR dx, dy, dz: INTEGER): BOOLEAN; (** non-portable *)
PollKeyboard* = PROCEDURE (VAR ch: CHAR; VAR keys: SET): BOOLEAN; (** non-portable *)
MousePoller = POINTER TO RECORD
poll: PollMouse;
next: MousePoller
END;
KeyboardPoller = POINTER TO RECORD
poll: PollKeyboard;
next: KeyboardPoller
END;
KeyTable = POINTER TO ARRAY OF CHAR;
VAR
mouseErrors, auxoverflows: LONGINT;
(* mouse state *)
mouse: MousePoller;
minX, minY, maxX, maxY, mouseX, mouseY, height: LONGINT;
port, oldport, newport, rate: INTEGER; (* Serial mouse port, bps and report rate (if supported) *)
bps: LONGINT;
type: SHORTINT; (* mouse type *)
buttons: SHORTINT; (* -2, -3, 2, 3 *)
mapkeys: ARRAY 8 OF SET;
mbufp, numb: SHORTINT; (* buffer pointer & protocol bytes *)
mbuf: ARRAY 5 OF SET; (* protocol buffer *)
mask0, val0, mask1, val1, lastkeys: SET; (* protocol parameters *)
auxbuf: ARRAY AuxSize OF CHAR; (* aux port buffer *)
auxhd, auxtl: INTEGER; (* aux buffer pointers *)
threshold: INTEGER; (* speedup threshold *)
speedup: LONGINT;
auxinit: BOOLEAN;
auxId: CHAR;
(* 82C710 mouse port *)
qp: BOOLEAN;
qpStatusPort: LONGINT;
qpDataPort: LONGINT;
(* keyboard state *)
keyboard: KeyboardPoller;
buffer: ARRAY 1+BufSize OF CHAR; (* first byte not used (System.State security) *)
head, tail, dkey: SHORTINT;
lastport: LONGINT;
lastvalue: SYSTEM.BYTE;
keyval: INTEGER;
table: LONGINT;
flags, pollkeys: SET;
breakproc, timerproc: Kernel.Proc;
keytable: KeyTable; (* anchor for keyboard table loaded from file *)
kpmap: SET;
kdx, kdy, counter0, counter1: INTEGER;
(* ---- Keyboard Driver ---- *)
(* Translation table format:
table = { scancode unshifted-code shifted-code flags } 0FFX .
scancode = <scancode byte from keyboard, bit 7 set for "grey" extended keys>
unshifted-code = <CHAR produced by this scancode, without shift>
shifted-code = <CHAR produced by this scancode, with shift>
flags = <bit-mapped flag byte indicating special behaviour>
flag bit function
0 01 DeadKey: Set dead key flag according to translated key code (1-7)
1 02 NumLock: if set, the state of NumLock will reverse the action of shift (for num keypad)
2 04 CapsLock: if set, the state of CapsLock will reverse the action of shift (for alpha keys)
3 08 LAlt: \ the state of these two flags in the table and the current state of the two...
4 10 RAlt: / ...Alt keys must match exactly, otherwise the search is continued.
5 20 \
6 40 > dead key number (0-7), must match current dead key flag
7 80 /
The table is scanned sequentially (speed not critical). Ctrl-Break, Ctrl-F10 and Ctrl-Alt-Del
are always defined and are not in the table. The control keys are also always defined. *)
(* TableUS - US keyboard translation table (dead keys: ^=1, '=2, `=3, ~=4, "=5) *)
PROCEDURE TableUS(): LONGINT;
CODE {SYSTEM.i386}
CALL L1
L1:
POP EAX
ADD EAX,8
POP EBP
RET
(* alphabet *)
DB 1EX, "a", "A", 4X, 30X, "b", "B", 4X, 2EX, "c", "C", 4X, 20X, "d", "D", 4X
DB 12X, "e", "E", 4X, 21X, "f", "F", 4X, 22X, "g", "G", 4X, 23X, "h", "H", 4X
DB 17X, "i", "I", 4X, 24X, "j", "J", 4X, 25X, "k", "K", 4X, 26X, "l", "L", 4X
DB 32X, "m", "M", 4X, 31X, "n", "N", 4X, 18X, "o", "O", 4X, 19X, "p", "P", 4X
DB 10X, "q", "Q", 4X, 13X, "r", "R", 4X, 1FX, "s", "S", 4X, 14X, "t", "T", 4X
DB 16X, "u", "U", 4X, 2FX, "v", "V", 4X, 11X, "w", "W", 4X, 2DX, "x", "X", 4X
DB 15X, "y", "Y", 4X, 2CX, "z", "Z", 4X
(* Oberon accents (LAlt & RAlt) *)
DB 1EX, "ä", "Ä", 0CX, 12X, "ë", 0FFX, 0CX, 18X, "ö", "Ö", 0CX, 16X, "ü", "Ü", 0CX
DB 17X, "ï", 0FFX, 0CX, 1FX, "ß", 0FFX, 0CX, 2EX, "ç", 0FFX, 0CX, 31X, "ñ", 0FFX, 0CX
DB 1EX, "ä", "Ä", 14X, 12X, "ë", 0FFX, 14X, 18X, "ö", "Ö", 14X, 16X, "ü", "Ü", 14X
DB 17X, "ï", 0FFX, 14X, 1FX, "ß", 0FFX, 14X, 2EX, "ç", 0FFX, 14X, 31X, "ñ", 0FFX, 14X
(* dead keys (LAlt & RAlt) *)
DB 07X, 0FFX, 1X, 9X, 28X, 2X, 5X, 9X, 29X, 3X, 4X, 9X,
DB 07X, 0FFX, 1X, 11X, 28X, 2X, 5X, 11X, 29X, 3X, 4X, 11X,
(* following keys *)
DB 1EX, "â", 0FFX, 20X, 12X, "ê", 0FFX, 20X, 17X, "î", 0FFX, 20X, 18X, "ô", 0FFX, 20X
DB 16X, "û", 0FFX, 20X, 1EX, "à", 0FFX, 60X, 12X, "è", 0FFX, 60X, 17X, "ì", 0FFX, 60X
DB 18X, "ò", 0FFX, 60X, 16X, "ù", 0FFX, 60X, 1EX, "á", 0FFX, 40X, 12X, "é", 0FFX, 40X
DB 1EX, "ä", "Ä", 0A4X, 12X, "ë", 0FFX, 0A0X, 17X, "ï", 0FFX, 0A0X, 18X, "ö", "Ö", 0A4X
DB 16X, "ü", "Ü", 0A4X, 31X, "ñ", 0FFX, 80X
(* numbers at top *)
DB 0BX, "0", ")", 0X, 02X, "1", "!", 0X, 03X, "2", "@", 0X, 04X, "3", "#", 0X
DB 05X, "4", "$", 0X, 06X, "5", "%", 0X, 07X, "6", "^", 0X, 08X, "7", "&", 0X
DB 09X, "8", "*", 0X, 0AX, "9", "(", 0X
(* symbol keys *)
DB 28X, "'", 22X, 0X, 33X, ",", "<", 0X, 0CX, "-", "_", 0X, 34X, ".", ">", 0X
DB 35X, "/", "?", 0X, 27X, ";", ":", 0X, 0DX, "=", "+", 0X, 1AX, "[", "{", 0X
DB 2BX, "\", "|", 0X, 1BX, "]", "}", 0X, 29X, "`", "~", 0X
(* control keys *)
DB 0EX, 7FX, 7FX, 0X (* backspace *)
DB 0FX, 09X, 09X, 0X (* tab *)
DB 1CX, 0DX, 0DX, 0X (* enter *)
DB 39X, 20X, 20X, 0X (* space *)
DB 01X, 1BX, 1BX, 0X (* esc *)
(* keypad *)
DB 4FX, 0A9X, "1", 2X (* end/1 *)
DB 50X, 0C2X, "2", 2X (* down/2 *)
DB 51X, 0A3X, "3", 2X (* pgdn/3 *)
DB 4BX, 0C4X, "4", 2X (* left/4 *)
DB 4CX, 0FFX, "5", 2X (* center/5 *)
DB 4DX, 0C3X, "6", 2X (* right/6 *)
DB 47X, 0A8X, "7", 2X (* home/7 *)
DB 48X, 0C1X, "8", 2X (* up/8 *)
DB 49X, 0A2X, "9", 2X (* pgup/9 *)
DB 52X, 0A0X, "0", 2X (* insert/0 *)
DB 53X, 0A1X, 2EX, 2X (* del/. *)
(* grey keys *)
DB 4AX, "-", "-", 0X (* grey - *)
DB 4EX, "+", "+", 0X (* grey + *)
DB 0B5X, "/", "/", 0X (* grey / *)
DB 37X, "*", "*", 0X (* grey * *)
DB 0D0X, 0C2X, 0C2X, 0X (* grey down *)
DB 0CBX, 0C4X, 0C4X, 0X (* grey left *)
DB 0CDX, 0C3X, 0C3X, 0X (* grey right *)
DB 0C8X, 0C1X, 0C1X, 0X (* grey up *)
DB 09CX, 0DX, 0DX, 0X (* grey enter *)
DB 0D2X, 0A0X, 0A0X, 0X (* grey ins *)
DB 0D3X, 0A1X, 0A1X, 0X (* grey del *)
DB 0C9X, 0A2X, 0A2X, 0X (* grey pgup *)
DB 0D1X, 0A3X, 0A3X, 0X (* grey pgdn *)
DB 0C7X, 0A8X, 0A8X, 0X (* grey home *)
DB 0CFX, 0A9X, 0A9X, 0X (* grey end *)
(* function keys *)
DB 3BX, 0A4X, 0FFX, 0X (* F1 *)
DB 3CX, 0A5X, 0FFX, 0X (* F2 *)
DB 3DX, 1BX, 0FFX, 0X (* F3 *)
DB 3EX, 0A7X, 0FFX, 0X (* F4 *)
DB 3FX, 0F5X, 0FFX, 0X (* F5 *)
DB 40X, 0F6X, 0FFX, 0X (* F6 *)
DB 41X, 0F7X, 0FFX, 0X (* F7 *)
DB 42X, 0F8X, 0FFX, 0X (* F8 *)
DB 43X, 0F9X, 0FFX, 0X (* F9 *)
DB 44X, 0FAX, 0FFX, 0X (* F10 *)
DB 57X, 0FBX, 0FFX, 0X (* F11 *)
DB 58X, 0FCX, 0FFX, 0X (* F12 *)
DB 0FFX
END TableUS;
PROCEDURE TableFromFile(name: ARRAY OF CHAR): KeyTable;
VAR f: Files.File; r: Files.Rider; len: LONGINT; t: KeyTable;
BEGIN
Kernel.WriteString("Keyboard: "); Kernel.WriteString(name);
f := Files.Old(name);
IF f # NIL THEN
len := Files.Length(f);
IF len MOD 4 = 0 THEN
NEW(t, len+1);
Files.Set(r, f, 0); Files.ReadBytes(r, t^, len);
IF r.res = 0 THEN
Kernel.WriteLn;
t[len] := 0FFX;
RETURN t
END
END
END;
Kernel.WriteString(" not used"); Kernel.WriteLn;
RETURN NIL
END TableFromFile;
(* Translate - Translate scan code "c" to key. *)
PROCEDURE Translate(flags: SET; c: CHAR): INTEGER;
CONST
Alt = {LAlt, RAlt}; Ctrl = {LCtrl, RCtrl}; Shift = {LShift, RShift};
VAR a: LONGINT; s1: CHAR; s: SET; k: INTEGER; dkn: SHORTINT;
BEGIN
IF (c = 46X) & (flags * Ctrl # {}) THEN RETURN -2 END; (* Ctrl-Break - break *)
IF (c = 44X) & (flags * Ctrl # {}) THEN RETURN 0FFH END; (* Ctrl-F10 - exit *)
IF (c = 53X) & (flags * Ctrl # {}) & (flags * Alt # {}) THEN RETURN 0FFH END; (* Ctrl-Alt-Del - exit *)
IF GreyEsc IN flags THEN c := CHR(ORD(c)+80H) END;
a := table;
LOOP
SYSTEM.GET(a, s1);
IF s1 = 0FFX THEN (* end of table, unmapped key *)
k := -1; dkey := 0; EXIT
ELSIF s1 = c THEN (* found scan code in table *)
SYSTEM.GET(a+3, SYSTEM.VAL(CHAR, s)); (* flags from table *)
dkn := SHORT(SHORT(SYSTEM.VAL(LONGINT, SYSTEM.LSH(s * {5..7}, -5))));
s := s * {DeadKey, NumLock, CapsLock, LAlt, RAlt, LCtrl, RCtrl}; k := 0;
IF ((s * Alt = flags * Alt) OR (NumLock IN s)) & (dkn = dkey) THEN (* Alt & dead keys match exactly *)
IF flags * Shift # {} THEN INCL(s, LShift) END; (* check if shift pressed *)
(* handle CapsLock *)
IF (CapsLock IN s) & (CapsLock IN flags) THEN s := s / {LShift} END;
(* handle NumLock *)
IF NumLock IN s THEN
IF flags * Alt # {} THEN INCL(s, LShift)
ELSIF NumLock IN flags THEN s := s / {LShift}
END
END;
(* get key code *)
IF LShift IN s THEN SYSTEM.GET(a+2, SYSTEM.VAL(CHAR, k)) (* shifted value *)
ELSE SYSTEM.GET(a+1, SYSTEM.VAL(CHAR, k)) (* unshifted value *)
END;
IF (DeadKey IN s) & (k <= 7) THEN (* dead key *)
dkey := SHORT(k); k := -1 (* set new dead key state *)
ELSIF k = 0FFH THEN (* unmapped key *)
k := -1; dkey := 0 (* reset dead key state *)
ELSE (* mapped key *)
IF flags * Ctrl # {} THEN
IF ((k >= 64) & (k <= 95)) OR ((k >= 97) & (k <= 122)) THEN
k := SHORT(SYSTEM.VAL(LONGINT, SYSTEM.VAL(SET, k) * {0..4})) (* control *)
ELSIF k = 13 THEN (* Ctrl-Enter *)
k := 10
END
END;
IF flags * Alt # {} THEN (* Alt-keypad *)
IF (k >= ORD("0")) & (k <= ORD("9")) & (NumLock IN s) THEN (* keypad num *)
IF keyval = -1 THEN keyval := k-ORD("0")
ELSE keyval := (10*keyval + (k-ORD("0"))) MOD 1000
END;
k := -1
END
END;
dkey := 0 (* reset dead key state *)
END;
EXIT
END
END;
INC(a, 4)
END; (* LOOP *)
RETURN k
END Translate;
(* Wait - Wait for keyboard serial port to acknowledge byte. *)
PROCEDURE Wait;
VAR t: Kernel.MilliTimer; s: SET;
BEGIN
Kernel.SetTimer(t, Kernel.TimeUnit DIV 50); (* wait up to 17 ms *)
REPEAT
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s))
UNTIL ~(1 IN s) OR Kernel.Expired(t)
END Wait;
(* SendByte - Send a byte to the keyboard. *)
PROCEDURE SendByte(port: LONGINT; value: SYSTEM.BYTE);
BEGIN
Wait; SYSTEM.PORTOUT(port, SYSTEM.VAL(CHAR, value));
lastport := port; lastvalue := value
END SendByte;
(* ShiftKey - Handle shift keys. *)
PROCEDURE ShiftKey(left, right: SHORTINT; in: BOOLEAN);
BEGIN
IF in THEN
IF GreyEsc IN flags THEN INCL(flags, right)
ELSE INCL(flags, left)
END
ELSE
IF GreyEsc IN flags THEN EXCL(flags, right)
ELSE EXCL(flags, left)
END
END
END ShiftKey;
(* LedKey - Handle "lock" keys. *)
PROCEDURE LedKey(VAR flags: SET; lock: SHORTINT; c: CHAR;
VAR k: INTEGER);
BEGIN
IF flags * {LAlt, RAlt, LCtrl, RCtrl, LShift, RShift} = {} THEN
flags := flags / {lock}
ELSE
k := Translate(flags, c)
END
END LedKey;
(* DisableInterrupts - Disable interrupts and return original flags state *)
PROCEDURE -DisableInterrupts(): SET;
CODE {SYSTEM.i386}
PUSHFD
POP EAX
CLI
END DisableInterrupts;
(* RestoreInterrupts - Set flags state to restore interrupts to previous state *)
PROCEDURE -RestoreInterrupts(state: SET);
CODE {SYSTEM.i386}
POPFD
END RestoreInterrupts;
(* MapScanCode - Map a scan code "c" to a key code. *)
PROCEDURE MapScanCode(c: CHAR): INTEGER;
VAR k: INTEGER; oldleds, state: SET;
BEGIN
SendByte(64H, 0ADX); Wait; (* disable keyboard *)
k := -1; oldleds := flags * {ScrollLock, NumLock, CapsLock};
IF c = 0X THEN (* overrun, ignore *)
ELSIF c = 0FAX THEN (* keyboard ack *)
IF Resetting IN flags THEN
EXCL(flags, Resetting); INCL(flags, SendingLEDs);
SendByte(60H, 0EDX) (* set keyboard LEDs *)
ELSIF SendingLEDs IN flags THEN
SendByte(60H, SYSTEM.VAL(CHAR, oldleds));
EXCL(flags, SendingLEDs)
ELSIF SetTypematic IN flags THEN
EXCL(flags, SetTypematic); INCL(flags, Resetting);
SendByte(60H, 020X) (* 30Hz, 500 ms *)
ELSE (* assume ack was for something else *)
END
ELSIF c = 0FEX THEN (* keyboard resend *)
SendByte(lastport, lastvalue)
ELSIF c = 038X THEN (* Alt make *)
ShiftKey(LAlt, RAlt, TRUE)
ELSIF c = 01DX THEN (* Ctrl make *)
ShiftKey(LCtrl, RCtrl, TRUE)
ELSIF c = 02AX THEN (* LShift make *)
INCL(flags, LShift)
ELSIF c = 036X THEN (* RShift make *)
INCL(flags, RShift)
ELSIF c = 05DX THEN (* menu make *)
INCL(flags, MenuShift)
ELSIF c = 03AX THEN (* Caps make *)
LedKey(flags, CapsLock, c, k)
ELSIF c = 046X THEN (* Scroll make *)
LedKey(flags, ScrollLock, c, k);
state := DisableInterrupts();
IF ScrollLock IN flags THEN
IF Kernel.timer = NIL THEN Kernel.timer := timerproc END
ELSE
IF Kernel.timer = timerproc THEN Kernel.timer := NIL END
END;
RestoreInterrupts(state)
ELSIF c = 045X THEN (* Num make *)
LedKey(flags, NumLock, c, k)
ELSIF c = 0B8X THEN (* Alt break *)
ShiftKey(LAlt, RAlt, FALSE);
IF (keyval >= 0) & (keyval < 255) THEN k := keyval END; (* exclude 255 - reboot *)
keyval := -1
ELSIF c = 09DX THEN (* Ctrl break *)
ShiftKey(LCtrl, RCtrl, FALSE)
ELSIF c = 0AAX THEN (* LShift break *)
EXCL(flags, LShift)
ELSIF c = 0B6X THEN (* RShift break *)
EXCL(flags, RShift)
ELSIF c = 0DDX THEN (* menu break *)
EXCL(flags, MenuShift)
ELSIF (flags * {ScrollLock, GreyEsc} = {ScrollLock}) & (c >= 47X) & (c <= 53X) & (c # 4AX) & (c # 4EX) THEN (* key mouse *)
INCL(kpmap, ORD(c)-47H)
ELSIF c < 080X THEN (* Other make *)
k := Translate(flags, c)
ELSIF (flags * {ScrollLock, GreyEsc} = {ScrollLock}) & (c >= 0C7X) & (c <= 0D3X) THEN (* key mouse *)
EXCL(kpmap, ORD(c)-0C7H)
ELSE (* ignore *)
END;
IF c = 0E0X THEN INCL(flags, GreyEsc) ELSE EXCL(flags, GreyEsc) END;
IF flags * {ScrollLock, NumLock, CapsLock} # oldleds THEN
INCL(flags, SendingLEDs);
SendByte(60H, 0EDX) (* set keyboard LEDs *)
END;
SendByte(64H, 0AEX); (* enable keyboard *)
RETURN k
END MapScanCode;
(*
PROCEDURE -CS(): LONGINT
033H, 0C0H, (* XOR EAX,EAX *)
066H, 08CH, 0C8H; (* MOV AX,CS *)
*)
PROCEDURE -CS(): LONGINT;
CODE {SYSTEM.i386}
XOR EAX, EAX
MOV AX, CS
END CS;
(* KeyboardInterrupt - Handle interrupts from keyboard *)
PROCEDURE KeyboardInterrupt;
VAR
m: SET; c: CHAR; k: INTEGER; fp, esp, tmp, cs: LONGINT; i: SHORTINT;
BEGIN
SYSTEM.PORTIN(060H, c); (* get scan code *)
SYSTEM.PORTIN(061H, SYSTEM.VAL(CHAR, m));
INCL(m, 7); SYSTEM.PORTOUT(061H, SYSTEM.VAL(CHAR, m));
EXCL(m, 7); SYSTEM.PORTOUT(061H, SYSTEM.VAL(CHAR, m)); (* ack *)
SYSTEM.STI();
k := MapScanCode(c);
IF k = -2 THEN (* break *)
head := 0; tail := 0; (* clear buffer *)
IF ~Kernel.break THEN (* first try: soft break *)
Kernel.break := TRUE
ELSIF ~Kernel.inGC THEN (* second try: do hard break *)
Kernel.break := FALSE; (* cancel other break *)
SYSTEM.GETREG(5, fp); (* EBP *)
SYSTEM.GET(fp+52, tmp); (* get CS'' *)
cs := CS();
IF tmp MOD 4 # cs MOD 4 THEN (* we interrupted at different level *)
(* assume we are currently on system stack *)
(* simulate a CALL to breakproc *)
SYSTEM.GET(fp+48, tmp); (* save old EIP *)
SYSTEM.PUT(fp+48, breakproc);
SYSTEM.GET(fp+60, esp); (* get outer ESP *)
DEC(esp, 4);
SYSTEM.PUT(fp+60, esp);
SYSTEM.PUT(esp, tmp) (* PUSH old EIP *)
ELSE (* we interrupted at same level *)
(* simulate a JMP to breakproc *)
SYSTEM.PUT(fp+48, breakproc)
END
END
ELSIF k >= 0 THEN
i := (tail+1) MOD BufSize;
IF i # head THEN
buffer[1+tail] := CHR(k); tail := i
END
END
END KeyboardInterrupt;
(* InitKeyboard - Initialise the keyboard. *)
PROCEDURE InitKeyboard;
VAR s: SET; c: CHAR; i: SHORTINT; k: ARRAY 8 OF CHAR;
BEGIN
head := 0; tail := 0; keyval := -1; buffer[0] := 0X;
(* Get table *)
Setting("Keyboard");
(* install interrupt *)
flags := {};
Kernel.InstallIP(KeyboardInterrupt, Kernel.IRQ+1);
(* clear the keyboard's internal buffer *)
i := 8;
LOOP
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s));
IF ~(0 IN s) OR (i = 0) THEN EXIT END;
SYSTEM.PORTIN(60H, c); (* read byte *)
SYSTEM.PORTIN(61H, SYSTEM.VAL(CHAR, s));
INCL(s, 7); SYSTEM.PORTOUT(61H, SYSTEM.VAL(CHAR, s));
EXCL(s, 7); SYSTEM.PORTOUT(61H, SYSTEM.VAL(CHAR, s)); (* ack *)
DEC(i)
END;
flags := {SetTypematic};
Kernel.GetConfig("NumLock", k);
IF k[0] = "1" THEN INCL(flags, NumLock) END;
SendByte(60H, 0F3X) (* settypedel, will cause Ack from keyboard *)
END InitKeyboard;
(* ---- PS/2 aux port driver ---- *)
PROCEDURE PollAux;
VAR s: SET; t: Kernel.MilliTimer; i: SHORTINT;
BEGIN
i := 10; (* up to 0.2s! *)
LOOP
IF qp THEN
SYSTEM.PORTIN(qpStatusPort, SYSTEM.VAL(CHAR, s));
IF (s * {QpRxFull, QpTxIdle, QpDevIdle} = {QpTxIdle, QpDevIdle}) OR (i = 0) THEN EXIT END;
SYSTEM.PORTIN(qpStatusPort, SYSTEM.VAL(CHAR, s));
IF s * {QpRxFull} = {QpRxFull} THEN SYSTEM.PORTIN(qpDataPort, SYSTEM.VAL(CHAR, s)) END; (* byte avail *)
ELSE
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s));
IF (s * {0,1} = {}) OR (i = 0) THEN EXIT END;
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s));
IF s * {0,5} = {0,5} THEN SYSTEM.PORTIN(60H, SYSTEM.VAL(CHAR, s)) END; (* byte avail *)
END;
Kernel.SetTimer(t, TimeUnit DIV 50); (* 20ms *)
REPEAT UNTIL Kernel.Expired(t);
DEC(i)
END
END PollAux;
PROCEDURE InAux(): CHAR;
VAR s: SET; ch: CHAR; t: Kernel.MilliTimer; i: SHORTINT;
BEGIN
i := 10; (* up to 0.2s! *)
REPEAT
IF qp THEN
SYSTEM.PORTIN(qpStatusPort, SYSTEM.VAL(CHAR, s));
IF s * {QpRxFull} = {QpRxFull} THEN (* byte avail *)
SYSTEM.PORTIN(qpDataPort, ch);
RETURN ch
END
ELSE
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s));
IF s * {0,5} = {0,5} THEN (* byte avail *)
SYSTEM.PORTIN(60H, ch);
RETURN ch
END
END;
Kernel.SetTimer(t, TimeUnit DIV 50); (* 20ms *)
REPEAT UNTIL Kernel.Expired(t);
DEC(i);
UNTIL i = 0;
RETURN 0X
END InAux;
PROCEDURE WriteDev(b: CHAR);
BEGIN
IF qp THEN
PollAux; SYSTEM.PORTOUT(qpDataPort, b)
ELSE
PollAux; SYSTEM.PORTOUT(64H, 0D4X); (* aux data coming *)
PollAux; SYSTEM.PORTOUT(60H, b)
END
END WriteDev;
PROCEDURE WriteAck(b: CHAR);
VAR s: SET; t: Kernel.MilliTimer; i: SHORTINT;
BEGIN
WriteDev(b); i := 10; (* up to 0.2s! *)
LOOP
IF qp THEN
SYSTEM.PORTIN(qpStatusPort, SYSTEM.VAL(CHAR, s));
IF (s * {QpRxFull} = {QpRxFull}) OR (i = 0) THEN EXIT END;
ELSE
SYSTEM.PORTIN(64H, SYSTEM.VAL(CHAR, s));
IF (s * {0,5} = {0,5}) OR (i = 0) THEN EXIT END;
END;
Kernel.SetTimer(t, TimeUnit DIV 50); (* 20ms *)
REPEAT UNTIL Kernel.Expired(t);
DEC(i)
END;
IF i # 0 THEN (* byte avail *)
IF qp THEN SYSTEM.PORTIN(qpDataPort, SYSTEM.VAL(CHAR, s))
ELSE SYSTEM.PORTIN(60H, SYSTEM.VAL(CHAR, s))
END
END
END WriteAck;
PROCEDURE WriteCmd(b: CHAR);
BEGIN
ASSERT(~qp, 100);
PollAux; SYSTEM.PORTOUT(64H, 60X);
PollAux; SYSTEM.PORTOUT(60H, b)
END WriteCmd;
PROCEDURE AuxInterrupt;
VAR c: CHAR; t: INTEGER;
BEGIN
IF qp THEN SYSTEM.PORTIN(qpDataPort, c); (* read byte *)
ELSE SYSTEM.PORTIN(60H, c); (* read byte *)
END;
t := (auxtl+1) MOD AuxSize;
IF t # auxhd THEN auxbuf[auxtl] := c; auxtl := t
ELSE INC(auxoverflows)
END
END AuxInterrupt;
PROCEDURE SerialRead(port: LONGINT; VAR c: SYSTEM.BYTE);
VAR state: SET; res: LONGINT;
BEGIN
IF port = AUX THEN
REPEAT UNTIL auxhd # auxtl;
state := DisableInterrupts();
c := auxbuf[auxhd]; auxhd := (auxhd+1) MOD AuxSize;
RestoreInterrupts(state);
res := 0
ELSE
V24.Receive(port, c, res)
END
END SerialRead;
PROCEDURE SerialWrite(port: LONGINT; c: SYSTEM.BYTE);
VAR res: LONGINT;
BEGIN
IF port # AUX THEN
V24.Send(port, c, res)
END
END SerialWrite;
PROCEDURE SerialAvailable(port: LONGINT): LONGINT;
VAR n: LONGINT; state: SET;
BEGIN
IF port = AUX THEN
state := DisableInterrupts();
n := auxtl-auxhd;
RestoreInterrupts(state);
IF n < 0 THEN INC(n, AuxSize) END
ELSIF port # NONE THEN
n := V24.Available(port)
ELSE
n := 0
END;
RETURN n
END SerialAvailable;
PROCEDURE StartAux;
VAR state, status: SET;
PROCEDURE SetRate(r: INTEGER);
BEGIN WriteAck(0F3X); WriteAck(CHR(r))
END SetRate;
BEGIN
state := DisableInterrupts();
auxhd := 0; auxtl := 0;
RestoreInterrupts(state);
IF ~auxinit THEN
auxinit := TRUE;
PollAux;
IF qp THEN
SYSTEM.PORTIN(qpStatusPort, SYSTEM.VAL(CHAR, status));
INCL(status, QpEnable + QpReset);
SYSTEM.PORTOUT(qpStatusPort, SYSTEM.VAL(CHAR, status));
EXCL(status, QpReset);
SYSTEM.PORTOUT(qpStatusPort, SYSTEM.VAL(CHAR, status));
ELSE
SYSTEM.PORTOUT(64H, 0A8X); (* enable aux *)
END;
(* enable MS Intellimouse 3rd button *)
SetRate(200); SetRate(100); SetRate(80); SetRate(rate);
WriteAck(0F2X); auxId := InAux(); (*Ident*)
WriteAck(0E8X); WriteAck(3X); (* 8 counts/mm *)
WriteAck(0E7X); (* 2:1 scale *)
PollAux;
Kernel.InstallIP(AuxInterrupt, Kernel.IRQ+12);
WriteDev(0F4X); (* enable aux device *)
IF qp THEN
INCL(status, QpIntsOn);
SYSTEM.PORTOUT(qpStatusPort, SYSTEM.VAL(CHAR, status))
ELSE
WriteCmd(47X) (* controller interrupts on *)
END;
PollAux
END
END StartAux;
(* ---- Mouse driver ---- *)
(* SetSpeed - Set mouse speed *)
PROCEDURE SetSpeed(old, new: LONGINT);
VAR word, stop, par: INTEGER; c: CHAR; res: LONGINT; timer: Kernel.MilliTimer;
BEGIN
IF port # AUX THEN
IF (oldport # NONE) & (oldport # AUX) THEN V24.Stop(oldport) END;
oldport := port;
CASE type OF
MS: word := 7; stop := V24.Stop1; par := V24.ParNo |
MSC1, MSC2, MSC3, MSC4: word := 8; stop := V24.Stop2; par := V24.ParNo |
MM: word := 8; stop := V24.Stop1; par := V24.ParOdd |
Logi: word := 8; stop := V24.Stop2; par := V24.ParNo |
LogiMan: word := 7; stop := V24.Stop1; par := V24.ParNo |
MSI: word := 7; stop := V24.Stop1; par := V24.ParNo
END;
IF (type = Logi) OR (type = LogiMan) THEN
V24.Start(port, old, word, par, stop, res);
IF res = V24.Ok THEN
IF new = 9600 THEN c := "q"
ELSIF new = 4800 THEN c := "p"
ELSIF new = 2400 THEN c := "o"
ELSE c := "n"
END;
SerialWrite(port, "*"); SerialWrite(port, c);
Kernel.SetTimer(timer, TimeUnit DIV 10);
REPEAT UNTIL Kernel.Expired(timer);
V24.Stop(port)
END
END;
V24.Start(port, new, word, par, stop, res);
IF res = V24.Ok THEN
V24.SetMC(port, {V24.DTR, V24.RTS})
END
END
END SetSpeed;
(* InitMouse - Initialise mouse.
"type" - mouse type from list
"port" - V24.COM[12], AUX
"bps" - V24.BPS*
"rate" - sample rate (not all mice support this) *)
PROCEDURE InitMouse;
VAR c: CHAR; timer: Kernel.MilliTimer; n: INTEGER;
BEGIN
port := newport;
mouseErrors := 0; auxoverflows := 0;
IF (oldport # NONE) & (oldport # AUX) THEN V24.Stop(oldport) END;
oldport := NONE;
IF port = AUX THEN
StartAux; oldport := port
ELSE
IF type = LogiMan THEN
SetSpeed(1200, 1200);
SerialWrite(port, "*"); SerialWrite(port, "X");
SetSpeed(1200, bps)
ELSE
SetSpeed(9600, bps);
SetSpeed(4800, bps);
SetSpeed(2400, bps);
SetSpeed(1200, bps);
IF type = Logi THEN
SerialWrite(port, "S"); type := MM; SetSpeed(bps, bps); type := Logi
END;
(* set sample rate *)
IF rate <= 0 THEN c := "O" (* continuous - don't use *)
ELSIF rate <= 15 THEN c := "J" (* 10 Hz *)
ELSIF rate <= 27 THEN c := "K" (* 20 *)
ELSIF rate <= 42 THEN c := "L" (* 35 *)
ELSIF rate <= 60 THEN c := "R" (* 50 *)
ELSIF rate <= 85 THEN c := "M" (* 70 *)
ELSIF rate <= 125 THEN c := "Q" (* 100 *)
ELSE c := "N" (* 150 *)
END;
SerialWrite(port, c);
IF type = MSC2 THEN V24.ClearMC(port, {V24.DTR, V24.RTS})
ELSIF type = MSC3 THEN V24.ClearMC(port, {V24.DTR})
ELSIF type = MSC4 THEN V24.ClearMC(port, {V24.RTS})
END
END
END;
mbufp := 0; lastkeys := {};
(* protocol parameters *)
CASE type OF
MS: numb := 3; mask0 := {6}; val0 := {6}; mask1 := {6}; val1 := {} |
MSC1, MSC2, MSC3, MSC4: numb := 5; mask0 := {3..7}; val0 := {7}; mask1 := {}; val1 := {} |
MM: numb := 3; mask0 := {5..7}; val0 := {7}; mask1 := {7}; val1 := {} |
Logi: numb := 3; mask0 := {5..7}; val0 := {7}; mask1 := {7}; val1 := {} |
LogiMan: numb := 3; mask0 := {6}; val0 := {6}; mask1 := {6}; val1 := {} |
PS2: IF auxId # 0X THEN numb := 4 ELSE numb := 3 END;
mask0 := {6,7}; val0 := {}; mask1 := {}; val1 := {} |
MSI: numb := 4; mask0 := {6}; val0 := {6}; mask1 := {6}; val1 := {}
END;
(* ignore the first few bytes from the mouse (e.g. Logitech MouseMan Sensa) *)
n := 4;
REPEAT
WHILE SerialAvailable(port) # 0 DO SerialRead(port, c) END;
Kernel.SetTimer(timer, TimeUnit DIV n); DEC(n); (* wait 1/4s, 1/3s, 1/2s, 1s *)
REPEAT UNTIL Kernel.Expired(timer);
UNTIL (SerialAvailable(port) = 0) OR (n = 0);
(* Lower/Raise DTR/RTS for autodetection, and to start an Intellimouse *)
IF port # AUX THEN
V24.ClearMC(port, {V24.DTR, V24.RTS});
Kernel.SetTimer(timer, TimeUnit DIV 4);
REPEAT UNTIL Kernel.Expired(timer);
V24.SetMC(port, {V24.DTR, V24.RTS});
Kernel.SetTimer(timer, TimeUnit DIV 4);
REPEAT UNTIL Kernel.Expired(timer)
END
END InitMouse;
(* GetMouseEvent - Read a mouse event *)
PROCEDURE GetMouseEvent(VAR keys: SET; VAR dx, dy, dz: INTEGER): BOOLEAN;
VAR b: SET;
BEGIN
WHILE SerialAvailable(port) > 0 DO
b := {}; SerialRead(port, SYSTEM.VAL(CHAR, b));
(* check for resync *)
IF (mbufp # 0) & (type # PS2) & ((b * mask1 # val1) OR (b = {7})) THEN mbufp := 0 END;
IF (mbufp = 0) & (b * mask0 # val0) THEN
(* skip package, unless it is a LogiMan middle button... *)
IF ((type = MS) OR (type = LogiMan)) & (b * {2..4,6,7} = {}) THEN
keys := lastkeys * {0,2};
IF 5 IN b THEN INCL(keys, 1) END;
dx := 0; dy := 0;
RETURN TRUE
ELSE
INC(mouseErrors)
END
ELSE
mbuf[mbufp] := b; INC(mbufp);
IF mbufp = numb THEN
CASE type OF
MS, LogiMan:
keys := lastkeys * {1};
IF 5 IN mbuf[0] THEN INCL(keys, 2) END;
IF 4 IN mbuf[0] THEN INCL(keys, 0) END;
dx := LONG(SYSTEM.VAL(SHORTINT, SYSTEM.LSH(mbuf[0] * {0,1}, 6) + mbuf[1] * {0..5}));
dy := LONG(SYSTEM.VAL(SHORTINT, SYSTEM.LSH(mbuf[0] * {2,3}, 4) + mbuf[2] * {0..5})) |
MSC1, MSC2, MSC3, MSC4:
keys := {0..2} - (mbuf[0] * {0..2});
dx := LONG(SYSTEM.VAL(SHORTINT, mbuf[1])) + LONG(SYSTEM.VAL(SHORTINT, mbuf[3]));
dy := -(LONG(SYSTEM.VAL(SHORTINT, mbuf[2])) + LONG(SYSTEM.VAL(SHORTINT, mbuf[4]))) |
MM, Logi:
keys := mbuf[0] * {0..2};
dx := SYSTEM.VAL(INTEGER, mbuf[1]);
IF ~(4 IN mbuf[0]) THEN dx := -dx END;
dy := SYSTEM.VAL(INTEGER, mbuf[2]);
IF 3 IN mbuf[0] THEN dy := -dy END |
PS2:
keys := {};
IF 2 IN mbuf[0] THEN INCL(keys, 1) END;
IF 1 IN mbuf[0] THEN INCL(keys, 0) END;
IF 0 IN mbuf[0] THEN INCL(keys, 2) END;
dx := SYSTEM.VAL(INTEGER, mbuf[1]);
IF 4 IN mbuf[0] THEN DEC(dx, 256) END;
dy := -SYSTEM.VAL(INTEGER, mbuf[2]);
IF 5 IN mbuf[0] THEN INC(dy, 256) END |
MSI:
keys := {};
IF 4 IN mbuf[0] THEN INCL(keys, 0) END;
IF 5 IN mbuf[0] THEN INCL(keys, 2) END;
IF 3 IN mbuf[3] THEN INCL(keys, 3) END;
IF 4 IN mbuf[3] THEN INCL(keys, 1) END;
IF ~(3 IN mbuf[3]) & (mbuf[3] * {0..2} # {}) THEN INCL(keys, 4) END;
dx := LONG(SYSTEM.VAL(SHORTINT, SYSTEM.LSH(mbuf[0] * {0,1}, 6) + mbuf[1] * {0..7}));
dy := LONG(SYSTEM.VAL(SHORTINT, SYSTEM.LSH(mbuf[0] * {2,3}, 4) + mbuf[2] * {0..7}))
END; (* CASE *)
mbufp := 0;
RETURN TRUE
END
END
END;
keys := lastkeys; dx := 0; dy := 0;
RETURN FALSE
END GetMouseEvent;
(* ---- Interface ---- *)
(** Returns the number of keystrokes in the keyboard input buffer. *)
PROCEDURE Available*() : INTEGER;
VAR state, keys: SET; p: KeyboardPoller; x: INTEGER; ch: CHAR; i: SHORTINT;
BEGIN
(* poll all extra keyboards *)
p := keyboard; pollkeys := {};
WHILE p # NIL DO
IF p.poll(ch, keys) THEN
state := DisableInterrupts();
i := (tail+1) MOD BufSize;
IF i # head THEN
buffer[1+tail] := ch; tail := i
END;
RestoreInterrupts(state)
END;
pollkeys := pollkeys + keys;
p := p.next
END;
(* check buffer *)
state := DisableInterrupts();
x := (tail-head) MOD BufSize;
RestoreInterrupts(state);
RETURN x
END Available;
(** Reads the current mouse position x, y and the key state of the mouse buttons
(also called keys). The mouse buttons are numbered from the right to the left as
0, 1, 2 (i.e. 1 is the middle mouse button). For example, when the left and middle
buttons are pressed, keys will be set to {1, 2}. *)
PROCEDURE Mouse*(VAR keys: SET; VAR x, y: INTEGER);
VAR dx, dy, dz: INTEGER; ok: BOOLEAN; mousekeys, rawkeys, state: SET; p: MousePoller;
BEGIN
IF Kernel.break THEN Kernel.break := FALSE; SYSTEM.HALT(13) END;
IF ScrollLock IN flags THEN
keys := {};
IF 11 IN kpmap THEN INCL(keys, 2) END;
IF 5 IN kpmap THEN INCL(keys, 1) END;
IF 12 IN kpmap THEN INCL(keys, 0) END;
state := DisableInterrupts();
INC(mouseX, LONG(kdx));
INC(mouseY, LONG(kdy));
kdx := 0; kdy := 0;
RestoreInterrupts(state)
ELSE
REPEAT (* get all available mouse events, or until keys change *)
p := mouse; rawkeys := {}; ok := FALSE;
WHILE p # NIL DO (* poll all mice and sum keys and movements *)
IF p.poll(mousekeys, dx, dy, dz) THEN
ok := TRUE;
rawkeys := rawkeys + mousekeys;
IF (ABS(dx) > threshold) OR (ABS(dy) > threshold) THEN
dx := SHORT(dx*speedup DIV 10); dy := SHORT(dy*speedup DIV 10)
END;
INC(mouseX, LONG(dx)); INC(mouseY, LONG(dy))
END;
p := p.next
END
UNTIL ~ok OR (rawkeys # lastkeys);
IF ok THEN
IF ~(1 IN lastkeys) & (1 IN rawkeys) THEN (* mouse generated middle button *)
IF buttons = -3 THEN buttons := 3 END (* switch off emulation *)
END;
lastkeys := rawkeys (* save last known mouse key state *)
ELSE
rawkeys := lastkeys (* restore last known mouse key state *)
END;
IF MenuShift IN flags THEN (* menu key emulates middle button *)
INCL(rawkeys, 1);
IF buttons = -3 THEN buttons := 3 END (* switch off emulation *)
END;
(* middle button emulation *)
IF buttons # 3 THEN (* -2, 2, -3 *)
IF buttons = 2 THEN (* 2 => Ctrl is middle button *)
IF flags * {LCtrl, RCtrl} # {} THEN INCL(rawkeys, 1)
ELSE EXCL(rawkeys, 1)
END
ELSE (* -2 OR -3 => MM OR Ctrl is middle button *)
IF flags * {LCtrl, RCtrl} # {} THEN INCL(rawkeys, 1) END
END
END;
(* key mapping *)
keys := mapkeys[SYSTEM.VAL(LONGINT, rawkeys * {0,1,2})]
END;
IF mouseX < minX THEN mouseX := minX
ELSIF mouseX > maxX THEN mouseX := maxX
END;
IF mouseY < minY THEN mouseY := minY
ELSIF mouseY > maxY THEN mouseY := maxY
END;
x := SHORT(mouseX); y := SHORT(height-1-mouseY)
END Mouse;
(** Read a character from the keyboard buffer. Blocks if no character is available. *)
PROCEDURE Read*(VAR ch: CHAR);
VAR state: SET;
BEGIN
REPEAT (* skip *) UNTIL (Available() # 0) OR Kernel.break;
IF Kernel.break THEN Kernel.break := FALSE; SYSTEM.HALT(13) END;
state := DisableInterrupts();
ch := buffer[1+head]; head := (head+1) MOD BufSize;
RestoreInterrupts(state)
END Read;
(** Returns the elapsed number of timer ticks from Oberon startup. *)
PROCEDURE Time*(): LONGINT;
BEGIN
IF Kernel.break THEN Kernel.break := FALSE; SYSTEM.HALT(13) END;
RETURN Kernel.GetTimer()
END Time;
(** Return the state of the shift keys. *)
PROCEDURE KeyState*(VAR keys: SET);
BEGIN
keys := pollkeys;
IF flags * {LAlt, RAlt} # {} THEN INCL(keys, ALT) END;
IF flags * {LCtrl, RCtrl} # {} THEN INCL(keys, CTRL) END;
IF flags * {LShift, RShift} # {} THEN INCL(keys, SHIFT) END
END KeyState;
(** Restricts the extent of the mouse coordinates returned by Mouse. *)
PROCEDURE SetMouseLimits*(x, y, w, h: INTEGER); (** non-portable *)
BEGIN
IF height = 0 THEN height := h END;
y := SHORT(height-1) - y;
minX := x; maxY := y; maxX := x + w-1; minY := y - (h-1);
mouseX := minX + (maxX-minX) DIV 2;
mouseY := minY + (maxY-minY) DIV 2
END SetMouseLimits;
PROCEDURE SetMouseType(s: ARRAY OF CHAR);
BEGIN
type := MinType-1;
IF (s[0] >= "0") & (s[0] <= "9") THEN (* old style config *)
type := SHORT(ORD(s[0])-ORD("0"))
ELSE (* new style config *)
IF s = "" THEN
(* default if none specified *)
ELSIF (CAP(s[0]) = "L") & (CAP(s[1]) = "M") THEN (* Logitech *)
CASE s[2] OF
"1": type := LogiMan
|"2": type := MM
|"3": type := Logi
END
ELSIF (CAP(s[0]) = "M") & (CAP(s[1]) = "S") THEN (* Mouse Systems or Microsoft *)
IF CAP(s[2]) = "M" THEN type := MS
ELSIF CAP(s[2]) = "I" THEN type := MSI
ELSE
CASE s[2] OF
"1": type := MSC1
|"2": type := MSC2
|"3": type := MSC3
|"4": type := MSC4
END
END
ELSIF CAP(s[0]) = "P" THEN (* PS/2 *)
type := PS2
END
END;
IF (type < MinType) OR (type > MaxType) THEN type := PS2 END; (* unknown mouse type *)
IF type = PS2 THEN newport := AUX END;
IF Trace THEN
Kernel.WriteString("MouseType="); Kernel.WriteInt(type, 1);
Kernel.WriteChar(" "); Kernel.WriteInt(newport, 1);
Kernel.WriteLn
END;
InitMouse
END SetMouseType;
PROCEDURE Read710(adr: CHAR; VAR x: CHAR);
BEGIN
SYSTEM.PORTOUT(390H, adr);
SYSTEM.PORTIN(391H, x)
END Read710;
PROCEDURE Detect82C710;
VAR x: CHAR;
BEGIN
SYSTEM.PORTOUT(2FAH, 55X); SYSTEM.PORTOUT(3FAH, 0AAX);
SYSTEM.PORTOUT(3FAH, 36X); SYSTEM.PORTOUT(3FAH, 0E4X);
SYSTEM.PORTOUT(2FAH, 1BX);
Read710(0FX, x);
qp := x = 0E4X;
IF qp THEN
Read710(0DX, x);
qpDataPort := ORD(x)*4;
qpStatusPort := qpDataPort+1;
SYSTEM.PORTOUT(390H, 0FX); SYSTEM.PORTOUT(391H, 0FX)
END
END Detect82C710;
(* InitMouse lowered and raised DTR/RTS - place result in KBD buffer (ugh!) *)
PROCEDURE DetectMouse();
VAR state: SET; i: SHORTINT; res: LONGINT; ch: CHAR;
BEGIN
IF port = AUX THEN
Detect82C710
ELSE
LOOP
IF V24.Available(port) = 0 THEN EXIT END;
state := DisableInterrupts();
i := (tail+1) MOD BufSize;
IF i = head THEN RestoreInterrupts(state); EXIT END;
V24.Receive(port, ch, res); IF ch >= 80X THEN ch := CHR(ORD(ch)-80H) END;
buffer[1+tail] := ch; tail := i;
RestoreInterrupts(state)
END
END
END DetectMouse;
(** Configure input device parameters. Normally only used by installation program. *)
PROCEDURE Configure*(config, value: ARRAY OF CHAR); (** non-portable *)
VAR mk: ARRAY 3 OF LONGINT; kt: KeyTable; state: SET; i: SHORTINT;
BEGIN
IF Trace THEN
Kernel.WriteString("Input: "); Kernel.WriteString(config); Kernel.WriteChar("=");
Kernel.WriteString(value); Kernel.WriteLn
END;
IF config = "MT" THEN (* mouse type *)
SetMouseType(value);
DetectMouse()
ELSIF config = "MTX" THEN (* mouse type explicit *)
SetMouseType(value)
ELSIF config = "MP" THEN (* mouse port *)
IF (value[0] >= "1") & (value[0] <= "4") THEN
newport := V24.COM1 + (ORD(value[0])-ORD("1"))
ELSE
newport := V24.COM1
END
ELSIF config = "MB" THEN (* mouse buttons *)
IF value = "2" THEN buttons := 2
ELSIF value = "3" THEN buttons := 3
ELSIF value = "-2" THEN buttons := -2
ELSE buttons := -3 (* default MM and Ctrl *)
END
ELSIF config = "MM" THEN (* mouse key remapping *)
mk[0] := 0; mk[1] := 1; mk[2] := 2;
IF value[0] # 0X THEN
mk[0] := ORD(value[0])-48;
IF value[1] # 0X THEN
mk[1] := ORD(value[1])-48;
IF value[2] # 0X THEN
mk[2] := ORD(value[2])-48
END
END
END;
FOR i := 0 TO 7 DO
mapkeys[i] := {};
IF 0 IN SYSTEM.VAL(SET, i) THEN INCL(mapkeys[i], mk[0]) END;
IF 1 IN SYSTEM.VAL(SET, i) THEN INCL(mapkeys[i], mk[1]) END;
IF 2 IN SYSTEM.VAL(SET, i) THEN INCL(mapkeys[i], mk[2]) END
END
ELSIF config = "Keyboard" THEN
i := 0; WHILE (value[i] # 0X) & (value[i] # ".") DO INC(i) END;
IF value[i] = "." THEN kt := TableFromFile(value) ELSE kt := NIL END;
(* atomically set the table *)
state := DisableInterrupts();
IF kt = NIL THEN table := TableUS()
ELSE keytable := kt; table := SYSTEM.ADR(kt[0])
END;
dkey := 0;
RestoreInterrupts(state)
ELSE
IF Trace THEN Kernel.WriteString("Unknown setting"); Kernel.WriteLn END
END
END Configure;
(** Add a mouse driver. The poll procedure will be called from Mouse and should return the next mouse event, including the current key state. It returns TRUE iff a mouse event is available. *)
PROCEDURE AddMouse*(poll: PollMouse); (** non-portable *)
VAR n: MousePoller;
BEGIN
NEW(n); n.poll := poll; n.next := mouse; mouse := n
END AddMouse;
(** Remove a mouse driver. *)
PROCEDURE RemoveMouse*(poll: PollMouse); (** non-portable *)
VAR p, n: MousePoller;
BEGIN
p := NIL; n := mouse;
WHILE (n # NIL) & (n.poll # poll) DO p := n; n := n.next END;
IF n # NIL THEN
IF p = NIL THEN mouse := n.next
ELSE p.next := n.next
END
END
END RemoveMouse;
(** Add a keyboard driver. The poll procedure will be called from Available and Read and should return the next ASCII character. It returns TRUE iff a key is available. The current shift state (SHIFT, CTRL, ALT) should always be returned, and will be added to KeyState. *)
PROCEDURE AddKeyboard*(poll: PollKeyboard); (** non-portable *)
VAR n: KeyboardPoller;
BEGIN
NEW(n); n.poll := poll; n.next := keyboard; keyboard := n
END AddKeyboard;
(** Remove a keyboard driver. *)
PROCEDURE RemoveKeyboard*(poll: PollKeyboard); (** non-portable *)
VAR p, n: KeyboardPoller;
BEGIN
p := NIL; n := keyboard;
WHILE (n # NIL) & (n.poll # poll) DO p := n; n := n.next END;
IF n # NIL THEN
IF p = NIL THEN keyboard := n.next
ELSE p.next := n.next
END
END
END RemoveKeyboard;
PROCEDURE Setting(name: ARRAY OF CHAR);
VAR s: ARRAY 32 OF CHAR;
BEGIN
Kernel.GetConfig(name, s); Configure(name, s)
END Setting;
PROCEDURE ConfigMouse;
VAR s: ARRAY 16 OF CHAR; i: SHORTINT;
BEGIN
(* boot-time settings *)
Kernel.GetConfig("MouseBPS", s);
IF s = "9600" THEN bps := 9600 ELSE bps := 1200 END;
(* rate *)
Kernel.GetConfig("MouseRate", s);
rate := 0; i := 0;
WHILE s[i] # 0X DO rate := rate*10+ORD(s[i])-48; INC(i) END;
IF (rate <= 0) OR (rate > 150) THEN rate := 100 END;
(* threshold *)
Kernel.GetConfig("Threshold", s);
threshold := 0; i := 0;
WHILE s[i] # 0X DO threshold := threshold*10+ORD(s[i])-48; INC(i) END;
IF threshold <= 0 THEN threshold := 5 END;
(* speedup *)
Kernel.GetConfig("Speedup", s);
speedup := 0; i := 0;
WHILE s[i] # 0X DO speedup := speedup*10+ORD(s[i])-48; INC(i) END;
IF speedup <= 0 THEN speedup := 15 END;
Setting("MP"); Setting("MB"); Setting("MM");
Setting("MT") (* also calls InitMouse *)
END ConfigMouse;
PROCEDURE *UnsafeBreak;
VAR note1, note2, note3: ARRAY 32 OF CHAR;
BEGIN
note1 := "Warning: Interrupting a module";
note2 := "may invalidate its invariants";
note3 := "and make it unstable.";
SYSTEM.HALT(13)
END UnsafeBreak;
PROCEDURE *Timer;
VAR i: INTEGER;
BEGIN
IF counter1 = TimeUnit DIV 100 THEN
counter1 := 0;
IF kpmap * {0..2, 4, 6, 8..10} = {} THEN counter0 := 0
ELSIF counter0 < 100 THEN INC(counter0)
END;
i := counter0 DIV (100 DIV 12)+1;
IF kpmap * {0,4,8} # {} THEN DEC(kdx, i) END;
IF kpmap * {0,1,2} # {} THEN DEC(kdy, i) END;
IF kpmap * {2,6,10} # {} THEN INC(kdx, i) END;
IF kpmap * {8,9,10} # {} THEN INC(kdy, i) END
ELSE
INC(counter1)
END
END Timer;
BEGIN
mouse := NIL; keyboard := NIL; pollkeys := {};
AddMouse(GetMouseEvent);
timerproc := Timer; kpmap := {}; kdx := 0; kdy := 0; counter0 := 0;
maxX := 0; height := 0;
breakproc := UnsafeBreak;
InitKeyboard;
(* initialise mouse state *)
oldport := NONE; auxinit := FALSE;
ConfigMouse
END Input.
(** Remarks:
1. Keyboard character codes correspond to the ASCII character set.
Some other important codes are:
F1, SETUP 0A4X
F2, NEUTRALISE 0A5X
F3, SCRL 0A6X (used in Draw)
F4, NOSCRL 0A7X (used in Draw)
UP ARROW 0C1X
RIGHT ARROW 0C3X
DOWN ARROW 0C2X
LEFT ARROW 0C4X
INSERT 0A0X
DELETE 0A1X
PAGE-UP 0A2X
PAGE-DOWN 0A3X
, 131, 128
, 132, 129
, 133, 130
150
The module EditKeys allows you to determine the keyboard code of any key pressed.
For cross-platform portability, Oberon does not normally support all keys available
on your keyboard.
*)