:TITLE[MesaP--Alto.mode.only]; *Last edited: 17 August 1981 by Fiala
*Process Microcode;
*PSB format
MC[CleanUpOffset,1];
MC[TimeOffset,2];
MC[FlagsOffset,3];
MC[FrameOffset,4];
MC[Priority,7];
MC[WaitingOnCV,10];
MC[AbortPending,40];
MC[TimeoutAllowed,100];
MC[EnterFailed,100000];
MC[SizePSB,5];
*Monitor Lock format
MC[LockBit,100000];
*Condition Variable format
MC[WWBit,100000];
*Constants
MC[CleanQueue1,0];
MC[CleanQueue2,1];
MC[NegInfinity,100000];
MC[CVBase,40];
MC[TimerBit,20];
MC[TimeLocation,344];
*Dispatch bas address
Set[ProcessDisp,LShift[prPage,10]];
%PRFlags holds opcode dispatch values and general flags. Its interpretation is:
bit 0 0 => Clean Queue 1
1 => Clean Queue 2
bit 10 0 => Requeue not done
1 => Requeue done
bits 16,17 0 => Notify
1 => Broadcast
2 => Naked Notify
3 => not used
bits 12-15 Opcode Dispatch
All flag constants except NakedNotifyFlags are cycled right 1 in order
to set bit 0 if necessary.
%
*Flag values
MC[MEFlags, 0]; * Dispatch to 0
SET[MEloc, 0];
MC[MREFlags, 21]; * Dispatch to 2, Clean Queue 2
SET[MREloc, 2];
MC[MXWFlags, 51]; * Dispatch to 5, Clean Queue 2
SET[MXWloc, 5];
MC[MXDFlags, 61]; * Dispatch to 6, Clean Queue 2
SET[MXDloc, 6];
MC[NOTIFYFlags, 100]; * Dispatch to 10, Clean Queue 1, Notify
MC[BCASTFlags, 102]; * Dispatch to 10, Clean Queue 1, Broadcast
SET[WakeHeadloc, 10];
MC[REQFlags, 130]; * Dispatch to 13
SET[REQloc, 13];
MC[NakedNotifyFlags, 2]; * Clean Queue 1, Naked Notify, not cycled
MC[RequeueOccured, 200]; *Requeue occured, not cycled
�
@ME: PRFlags ← MEFlags, Goto[CheckLong1], Opcode[1]; *Monitor Lock
@MRE: PRFlags ← MREFlags, Goto[CheckLong2], Opcode[2]; *CV, Lock
@MXW: PRFlags ← MXWFlags, Opcode[3]; *Time, CV, Lock
MXWx: T ← Stack&-1;
Process ← T, Goto[CheckLong2];
@MXD: PRFlags ← MXDFlags, Goto[CheckLong1], Opcode[4]; *Monitor Lock
@NOTIFY:
PRFlags ← NOTIFYFlags, Goto[CheckLong1], Opcode[5]; *CV
@BCAST: PRFlags ← BCASTFlags, Goto[CheckLong1], Opcode[6]; *CV
@REQUEUE:
PRFlags ← REQFlags, Goto[MXWx], Opcode[7]; *Process, Q1, Q2
***Should use MDShi literally here rather than fixing it up in a way that
***makes the LH and RH .ne.; also should start with LH[MDShi] if going to
***do the fixup as shown.
FixQueue2:
T ← Queue2hi ← (Lsh[Queue2hi,10]) + T + 1;
Queue2hi ← (FixVA[Queue2hi]) or T;
T ← Stack&-1;
TtoQueue2:
Queue2 ← T, Return;
CheckLong2:
T ← 373C; *StkP value for two long pointer operands (4).
T ← (NStkP) xor T; *Check for stack size of 4.
T ← RHMask[MDShi], DblGoto[Short2,Long2,ALU#0];
CheckLong1:
T ← 375C; *StkP value for one long pointer operand (2).
T ← (NStkP) xor T; *Check for stack size of 2.
T ← RHMask[MDShi], DblGoto[Short1,Long1,ALU#0];
Short2: Queue2hi ← T, Call[FixQueue2];
T ← RHMask[MDShi], Goto[Short1];
Long2: T ← Stack&-1;
Queue2hi ← T, Call[FixQueue2];
T ← Stack&-1, Goto[Short1];
Long1: T ← Stack&-1;
Short1: Queue1Hi ← T;
T ← Stack&-1, Task;
Queue1 ← T;
LU ← (Queue1hi) or T;
T ← Queue1hi, Skip[ALU=0];
T ← Queue1hi ← (Lsh[Queue1hi,10]) + T + 1;
Queue1hi ← (FixVA[Queue1hi]) or T;
LoadPage[prPage];
*Process dispatch
Dispatch[PRFlags,11,4], GotoP[.+1];
OnPage[prPage];
PRFlags ← Rcy[PRFlags,1], Disp[MEnter];
�
*************************************************************************
* Monitor Enter;
*
* Input
* Queue1 Base register pointing at monitor queue
*
* Temps
* MQ process handle
*
* Constants
* CurrentPSB 21B, address of CurrentPSB
* LockBit 100000B, lock bit of Monitor Lock
*
*************************************************************************
MEnter: T ← CurrentPSB, Call[Queue1ToMQ], At[ProcessDisp,MEloc];
LU ← MQ, Skip[R<0];
PFetch1[PBase,Process], Goto[MREnterFailed]; *Locked
MQ ← (MQ) and not (LockBit), Call[MQToQueue1];
MRENoAbort:
Stack&+1 ← 1C; * even location
PrTail: LoadPage[opPage0];
Goto[P4Tail];
*************************************************************************
* Monitor ReEnter;
*
* Input
* Queue1 Base register pointing at monitor queue
* Queue2 Base register pointing at condition queue
*
* Temps
* PBase Base register of PSBs
* Process process handle
* RTemp1 temp
*
* Constants
* LockBit 100000B, lock bit of Monitor Lock
* CleanUpOffset 1, offset of cleanup link in PSB
* FlagsOffset 3, offset of flags and priority in PSB
* CurrentPSB 21B, address of CurrentPSB
* sProcessTrap 17B, offset of sProcessTrap in SD
*
*************************************************************************
MREnter:
T ← CurrentPSB, Call[Queue1ToMQ], At[ProcessDisp, MREloc];
Call[PBaseToProcess];
LU ← MQ, Goto[MREnterFailed,R>=0]; * ignore ww bit
UseCTask, Call[CleanUpQueue]; * Clean up Queue1
MQ ← (MQ) and not (LockBit), Call[MQToQueue1];
T ← (Process) + (CleanUpOffset), Call[ZeroToPBase];
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp1];
LU ← (RTemp1) and (AbortPending);
Goto[MRENoAbort,ALU=0];
T ← sProcessTrap;
PRTrap: LoadPage[opPage3];
GotoP[kfcr];
MREnterFailed:
T ← Queue1hi;
Queue2hi ← T, LoadPage[opPage0];
T ← Queue1, Call[TtoQueue2];
T ← (MDShi) or (1C), Call[ReadyInQueue1];
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp1];
RTemp1 ← (RTemp1) or (EnterFailed), Call[RTemp1ToPBase];
Goto[RequeueOp];
�
*************************************************************************
* Monitor Exit and Depart;
*
* Input
* Queue1 Base register pointing at monitor queue
*
*************************************************************************
MXDepart:
UseCTask, Call[ExitMon], At[ProcessDisp, MXDloc];
LU ← (PRFlags) and (200C), Goto[ReSchedule];
*************************************************************************
* Exit Monitor;
*
* Input
* Queue1 Base register pointing at monitor queue
*
* Temps
* PBase Base register of PSBs
* MQ process handle
* Process process handle
* EMLink Return link
*
* Constants
* LockBit 100000B, lock bit of Monitor Lock
*
*************************************************************************
ExitMon:
T ← APCTask&APC, Call[Queue1ToMQ];
EMLink ← T;
T ← MQ ← (MQ) and not (LockBit);
Goto[EMUnlock,ALU=0];
PFetch1[PBase, Process], Call[ReadyInQueue2];
UseCTask, Call[RequeueSub];
PFetch1[Queue1,MQ,0];
EMUnlock:
MQ ← (MQ) or (LockBit);
PStore1[Queue1,MQ,0];
APCTask&APC ← EMLink, Goto[PRRet];
�
*************************************************************************
* Monitor Exit and Wait;
*
* Input
* Queue2 Base register pointing at condition queue
* Queue1 Base register pointing at monitor queue
* Process Timeout value
*
* Temps
* PBase Base register of PSBs
* MQ process handle
* PRTime holds timeout value
* RTemp1 process handle
*
* Constants
* WWBit 100000B, ww bit of Condition
* LockBit 100000B, lock bit of Monitor Lock
* CleanUpOffset 1, offset of cleanup link in PSB
* TimeOffset 2, offset of flags and priority in PSB
* FlagsOffset 3, offset of flags and priority in PSB
* WaitingOnCV 10B, WaitingOnCV bit of PSB
* AbortPending 40B, AbortPending bit of PSB
* TimeoutAllowed 100B, TimeoutAllowed bit of PSB
* CurrentPSB 21B, address of CurrentPSB
* TimeLocation 344B, address of Timeout time in Memory
*
*************************************************************************
MXWait: T ← Process, At[ProcessDisp,MXWloc];
PRTime ← T, UseCTask, Call[CleanUpQueue];
T ← QTemp, Call[SwapQTempAndQ2];
UseCTask, Call[ExitMon];
T ← CurrentPSB, Call[PBaseToProcess];
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp1];
LU ← (RTemp1) and (AbortPending);
Goto[MXWReSched,ALU#0];
PFetch1[QTemp,MQ,0];
MQ ← (MQ) and not (WWBit), Goto[MXWOntoCV,R>=0];
PStore1[QTemp,MQ,0], Call[PRRet];
LU ← (PRFlags) and (200C), Goto[ReSchedule];
MXWOntoCV:
LU ← PRTime;
RTemp1 ← (RTemp1) or (WaitingOnCV), Goto[MXWHaveTime,ALU=0];
T ← TimeLocation;
PFetch1[PBase,CurrentTime];
T ← CurrentTime;
PRTime ← (PRTime) + T;
Goto[MXWHaveTimex,ALU#0];
PRTime ← (PRTime) + 1;
MXWHaveTime:
nop;
MXWHaveTimex:
T ← (MDShi) or (1C), Call[ReadyInQueue1];
T ← QTemp, Call[SwapQTempAndQ2];
T ← (Process) + (FlagsOffset), Call[RTemp1ToPBase];
UseCTask, Call[RequeueSub];
T ← (Process) + (TimeOffset);
PStore1[PBase,PRTime];
MXWReSched:
LU ← (PRFlags) and (200C), Goto[ReSchedule];
SwapQTempAndQ2:
MNBR ← Queue2, Queue2 ← T, NoRegILockOK;
T ← MNBR;
QTemp ← T;
T ← QTemphi;
MNBR ← Queue2hi, Queue2hi ← T, NoRegILockOK;
T ← MNBR;
QTemphi ← T, Return;
�
*************************************************************************
* Notify Broadcast;
*
* Input
* Queue1 Base register of queue to be notified
*
* Temps
* PBase Base register of PSBs
* MQ process handle
* RTemp1 process handle
* Process process handle
* PRTime Did something
* PRFlags flags
*
* Constants
* WWBit 100000B, ww bit of Condition
* NegInfinity 100000B
* FlagsOffset 3, offset of cleanup link in PSB
* WaitingOnCV 10B, WaitingOnCV bit in PSB
*
*************************************************************************
WakeHead:
UseCTask, Call[CleanUpQueue], At[ProcessDisp,WakeHeadloc];
WHLoop:
Call[Queue1ToMQ];
MQ ← T ← (MQ) and not (WWBit);
PRTime ← Zero, Skip[ALU#0];
LU ← LdF[PRFlags,16,1], Goto[WHExit];
PFetch1[PBase,Process], Call[ReadyInQueue2];
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp1];
RTemp1 ← (RTemp1) and not (WaitingOnCV), Call[RTemp1ToPBase];
PRTime ← (PRTime) + 1, UseCTask, Call[RequeueSub];
LU ← LdF[PRFlags,16,1], Skip[R Even];
Goto[WHLoop];
WHExit: LU ← (PRFlags) and (200C), Goto[ReSchedule,ALU=0];
LU ← PRTime, Skip[R Odd];
MQ ← WWBit, Call[MQToQueue1];
IntLevel ← (IntLevel) + 1, LoadPage[opPage0];
Goto[CheckCV];
�
*************************************************************************
* Requeue;
*
* calling instruction must include UseCTask
*
* Input
* Queue1 Base register pointing at queue
* Queue2 Base register pointing at queue
* Process process handle
*
* Output
* ReSched BOOLEAN
*
* Temps
* PBase Base register of PSBs
* Prev process handle
* RTemp Process.link until insert, then Process.priority
* RTemp1 process handle, priority
* MQ process handle, priority
* RLink Return address
*
* Constants
* CleanUpOffset 1, offset of cleanup link in PSB
* FlagsOffset 3, offset of flags and priority in PSB
* Priority 7, priority bits
* RequeueOccured 200B
*
*************************************************************************
RequeueOp:
UseCTask, Call[RequeueSub], At[ProcessDisp,REQloc];
LU ← (PRFlags) and (200C), Goto[ReSchedule];
RequeueSub:
T ← APCTask&APC;
RLink ← T;
T ← Process, Call[PBaseToRTemp];
LU ← (RTemp) - T;
LU ← Queue1hi, Skip[ALU#0]; *only one process
Prev ← Zero, Goto[RQFixCV];
Prev ← T, Skip[ALU=0]; *Queue1 NIL, T = Process
PFetch1[Queue1,Prev,0];
T ← Prev;
RQLoop1x:
Prev ← T, Call[PBaseToRTemp1];
T ← RTemp1;
LU ← (Process) - T;
Goto[RQLoop1x,ALU#0];
T ← Prev;
Call[RTempToPBase]; *RTemp has Process.link
RQFixCV:LU ← Queue1hi;
T ← (Process) + (CleanUpOffset), Skip[ALU#0];
PStore1[PBase,RTemp], Goto[RQInsrt];
RQHaveQ1:
PFetch1[Queue1,RTemp1,0];
T ← Process, Call[PRRet];
LU ← (RTemp1) - T;
Skip[ALU#0];
PStore1[Queue1,Prev,0], Call[PRRet];
RQInsrt:PFetch1[Queue2,Prev,0], Call[PRRet];
LU ← Prev;
T ← Process, Goto[RQNilPP,ALU=0];
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp];
T ← (Prev) + (FlagsOffset), Call[PBaseToRTemp1];
T ← LdF[RTemp,15,3]; *priority
LU ← (LdF[RTemp1,15,3]) - T, Call[RQLp2S];
RQLoop2:T ← (RTemp1) + (FlagsOffset);
PFetch1[PBase,MQ];
T ← LdF[RTemp,15,3];
LU ← (LdF[MQ,15,3]) - T;
T ← RTemp1, Skip[ALU<0];
Prev ← T, Goto[PBaseToRTemp1];
RQInsrtHere:
T ← Process, Call[RTemp1ToPBase];
T ← Prev, Call[ProcessToPBase];
RQRet: T ← (Process) + (TimeOffset), Call[ZeroToPBase];
APCTask&APC ← RLink;
PRFlags ← (PRFlags) or (RequeueOccured), Return;
RQNilPP:PStore1[PBase,Process];
PStore1[Queue2,Process,0], Goto[RQRet];
RQLp2S: T ← Prev, Goto[PBaseToRTemp1,ALU<0];
PFetch1[PBase,RTemp1];
PStore1[Queue2,Process,0], Goto[RQinsrtHere];
�
*************************************************************************
* CleanUpQueue;
* this routine cleans up a queue which may possibly
* have been left in a mess by Requeue.
*
* calling instruction must include UseCTask
*
* Input
* PRFlags even => clean Queue1, odd => clean Queue2
*
* Temps
* PBase Base register of PSBs
* RTemp process handle
* RTemp1 process handle
* MNBR process handle
* RLink Return address
*
* Constants
* WWBit 100000B, ww bit of Condition
* CleanUpOffset 1, offset of cleanup link in PSB
*
*************************************************************************
CleanUpQueue:
T ← APCTask&APC;
RLink ← T, Call[CQueueToRTemp]; * get pointer to tail
RTemp ← (RTemp) and not (WWBit); * ignore ww bit
T ← (RTemp) + (CleanUpOffset), Goto[CURet,ALU=0];
PFetch1[PBase,RTemp1], Call[PRRet]; * get head of queue
LU ← T ← RTemp1;
LU ← (RTemp) - T, Skip[ALU#0];
APCTask&APC ← RLink, Goto[PRRet];
RTemp ← T, Skip[ALU#0];
CUEmpty: RTemp ← Zero, Goto[CUFixCV];
CULoop: T ← (RTemp) + (CleanUpOffset), Call[PBaseToRTemp1]; *get head of queue
LU ← T ← RTemp1;
LU ← (RTemp) - T, Skip[ALU=0];
RTemp ← T, DblGoto[CUEmpty,CULoop,ALU=0];
T ← MNBR ← RTemp;
CULoop2:
RTemp ← T, Call[PBaseToRTemp1];
T ← RTemp1;
LU ← (MNBR) - T;
CUFixCV:LU ← PRFlags, Goto[CULoop2,ALU#0];
APCTask&APC ← RLink, Skip[ALU<0];
PStore1[Queue1,RTemp,0], Return;
PStore1[Queue2,RTemp,0], Return;
CURet: APCTask&APC ← RLink, Goto[PRRet];
CQueueToRTemp:
LU ← PRFlags, Skip[R<0];
PFetch1[Queue1,RTemp,0], Return;
PFetch1[Queue2,RTemp,0], Return;
�
*************************************************************************
* ReSchedule;
*
* Input
* lu (PRFlags) and (200C)
*
* Temps
* PBase Base register of PSBs
* RTemp process handle
* RTemp1 process handle
* MNBR process handle
* RLink Return address
*
* Constants
* EnterFailed 100000B, EnterFailed bit of PSB
* CleanUpOffset 1, offset of cleanup link in PSB
* FlagsOffset 3, offset of priority and flags in PSB
* FrameOffset 4, offset of frame in PSB
* CleanUpOffset 1, offset of cleanup link in PSB
* Priority 7, priority bits in PSB
* StkPOffset 10B, offset of stack pointer in state vector
* DestOffset 11B, offset of dest in state vector
* CurrentPSB 21B, Current process
* ReadyQ 22B, Ready queue
* CurrentState 23B, Current state
*
*************************************************************************
ReSchedule:
T ← CurrentState, Goto[PrTail,ALU=0];
Nop;
IntReSch:
LoadPage[opPage3];
PFetch1[PBase,xfTemp], CallP[SavePCInFrame];
LoadPage[xfPage1];
UseCTask, CallP[SaveState];
T ← CurrentPSB, Call[PBaseToRTemp1]; *RTemp1 ← currentPSB
T ← (RTemp1) + (FrameOffset);
PStore1[PBase,LOCAL];
IdleIntRS:
T ← ReadyQ;
PFetch1[PBase,RTemp1], Call[PRRet];
LU ← T ← RTemp1;
LU ← xfWDC, Goto[NoneReady,ALU=0];
PFetch1[PBase,Process]; *Process ← readylist.link
*Setup for new process
T ← (Process) + (FlagsOffset), Call[PBaseToRTemp1];
RTemp ← xfAV;
T ← (RTemp) + (FirstStateVector), Call[PBaseToRTemp];
T ← LdF[RTemp1,15,3], Task; *Priority
xfTemp ← T;
xfTemp ← (Lsh[xfTemp,2]) + T;
T ← (Lsh[xfTemp,1]) + T; *13b*priority
RTemp ← (RTemp) + T;
RTemp1 ← (RTemp1) and not (EnterFailed), Goto[NoEnterFailed,R>=0];
T ← (Process) + (FlagsOffset), Call[RTemp1ToPBase];
T ← RTemp, Call[ZeroToPBase]; * stack[0] ← 0;
RTemp1 ← 1C; * stkp ← 1
T ← (RTemp) + (StkPOffset), Call[RTemp1ToPBase];
NoEnterFailed:
T ← (Process) + (FrameOffset);
PFetch1[PBase,RTemp1];
T ← (RTemp) + (DestOffset), Call[RTemp1ToPBase];
T ← CurrentPSB, Call[ProcessToPBase]; * currentPSB ← process
T ← CurrentState, Call[RTempToPBase];
T ← RTemp, LoadPage[xfPage1];
xfTemp ← T, GotoP[LoadStateNF];
NoneReady:
T ← sWakeupError, Goto[PRTrap,ALU#0];
IntType ← T ← Zero; *PC backup amount, StkP value for MIPend
Call[IdleLoop];
IdleLoop:
Goto[MIPend,IntPending];
PRRet: Return;
*Get here with StkP in T (0 if from IdleLoop), PC backup amount in IntType.
MIPend: RTemp1 ← IP[RSImage]C; *Clear IntPending
StkP ← RTemp1, RTemp1 ← T, NoRegILockOK;
T ← Stack ← (Stack) and not (IntPendingBit);
StkP ← RTemp1, RS232 ← T;
T ← IntType; *back up the PC
T ← (PCFreg) - T, Goto[NoBackup,ALU=0];
*When PCF is 10b, BitBlt has done PC←PC+4, PCF←0, so PCF-1 can be negative;
*In this situation we have to do PC←PC-4 and PCF←7. The code below also
*allows MIPend to be called by opcodes longer than 1 byte (CSUM).
RTemp1 ← T, Goto[BackNoOvf,ALU>=0];
PCB ← (PCB) - (4C);
PFetch4[PCB,IBuf,0];
BackNoOvf:
PCF ← RTemp1;
NoBackup: LU ← xfWDC; *Check (NWW#0 & xfWDC=0)
T ← NWW, Skip[ALU=0];
Return;
NWW ← Zero, Skip[ALU#0];
NWW ← T, Return;
:IF[CacheLocals]; **************************
*We are going to cause the interrupt; refill cache in case BitBlt interrupt
PFetch4[LOCAL,LocalCache0,4], Task;
***Should task here when CacheLocals=0***
:ENDIF; ************************************
PRFlags ← Zero;
WW ← T, LoadPage[opPage0]; *Promote NWW into WW
LU ← LdF[WW,13,1], Goto[Interrupt];
PBaseToProcess: PFetch1[PBase,Process], Return;
ProcessToPBase: PStore1[PBase,Process], Return;
PBaseToRTemp: PFetch1[PBase,RTemp], Return;
RTempToPBase: PStore1[PBase,RTemp], Return;
PBaseToRTemp1: PFetch1[PBase,RTemp1], Goto[PRRet];
RTemp1ToPBase: PStore1[PBase,RTemp1], Goto[PRRet];
Queue1ToMQ: PFetch1[Queue1,MQ,0], Goto[PRRet];
MQToQueue1: PStore1[Queue1,MQ,0], Goto[PRRet];
ZeroToPBase: PStore1[PBase,RZero], Return;
ReadyInQueue1: Queue1hi ← T;
Queue1 ← ReadyQ, Return;
ReadyInQueue2: T ← (MDShi) or (1c);
Queue2hi ← T;
Queue2 ← ReadyQ, Return;
�
*************************************************************************
* Interrupt Processing;
*
* Input
* WW Wakeups Waiting register
* TickCount number of ticks until scaning PSBs required
* CurrentTime current time
*
* Temps
* IntLevel pointer to CV array elements
* IntType even => idle loop interrupt
* ITemp temp
* ITemp1 temp
*
* Constants
* WWBit 100000B, ww bit of Condition
* TimeOffset 2, offset of time in PSB
* FlagsOffset 3, offset of flags and priority in PSB
* WaitingOnCV 10B, WaitingOnCV bit of PSB
* NakedNotifyFlags
*
*************************************************************************
OnPage[opPage0];
Interrupt:
WW ← (WW) and not (TimerBit), Goto[TimerInterrupt,ALU#0];
IntLevel ← CVBase;
CheckCV:Call[.+1];
WW ← Rsh[WW,1], Goto[IntThisCV,R Odd];
Goto[IntDone,ALU=0]; *load page for done
IntLevel ← (IntLevel) + 1, Return;
IntThisCV:
T ← IntLevel, Call[IntPBaseToQueue1];
LU ← Queue1;
T ← (MDShi) or (1C), Skip[ALU#0]; *T ← ReadyQueuehi
IntLevel ← (IntLevel) + 1, Goto[CheckCV];
Queue1hi ← T, LoadPage[prPage];
PRFlags ← (PRFlags) or (NakedNotifyFlags), Goto[WakeHead];
IntDone:
LU ← IntType, LoadPage[prPage]; *Load page for done
T ← CurrentState, DblGotoP[IntReSch,IdleIntRS,ALU#0];
TimerInterrupt:
TickCount ← (TickCount) - 1;
IntLevel ← CVBase, Goto[CheckCV,ALU#0];
ITemp ← xfAV;
T ← ITemp ← (ITemp) + (FirstProcess), Call[IntPBaseToProcess];
T ← (ITemp) + 1;
PFetch1[PBase,ITemp1];
T ← TimeLocation, Call[IntPBaseToCurrentTime];
CurrentTime ← (CurrentTime) + 1, Call[IntCurrentTimeToPBase];
Nop;
TLoop: T ← (Process) + (TimeOffset); *Can't have call before this
PFetch1[PBase,ITemp], Call[P4Ret];
LU ← T ← ITemp;
LU ← (CurrentTime) - T, Goto[CheckEnd,ALU=0];
T ← (MDShi) or (1C), Skip[ALU=0];
Goto[CheckEnd];
*Timeout
Queue2 ← ReadyQ;
Queue1Hi ← Zero;
Queue2Hi ← T, LoadPage[prPage]; *Make Queue2 the ReadyQueue
UseCTask, Call[RequeueSub];
T ← (Process) + (FlagsOffset), Call[IntPBaseToQueue1];
Queue1 ← (Queue1) and not (WaitingOnCV);
PStore1[PBase,Queue1];
CheckEnd:
T ← Process ← (Process) + (SizePSB);
LU ← (ITemp1) - T;
TickCount ← 3C, Goto[TLoop,ALU>=0];
Goto[CheckCV];
IntPBaseToProcess:
PFetch1[PBase,Process], Goto[P4Ret];
IntPBaseToQueue1:
PFetch1[PBase,Queue1], Goto[P4Ret];
IntPBaseToCurrentTime:
PFetch1[PBase,CurrentTime], Goto[P4Ret];
IntCurrentTimeToPBase:
PStore1[PBase,CurrentTime], Goto[P4Ret];
P4Ret: Return;
:END[MesaP];