os_q.src

UCOS在51上的移植,绝对经典！可以较少开发人员的工作量

; .\OS_Q.SRC generated from: SOURCE\OS_Q.C
; COMPILER INVOKED BY:
;        D:\tools\Keil\C51\BIN\C51.EXE SOURCE\OS_Q.C LARGE OPTIMIZE(SIZE) REGFILE(.\OS_AT89C55WD.ORC) BROWSE NOINTPROMOTE INCDIR(D:\MY\empolder\uCOS-II\MCS-51\AT89C55WD\Keil 7_5\) DEBUG OBJECTEXTEND NOPRINT SRC(.\OS_Q.SRC)

$NOMOD51

NAME	OS_Q

P0	DATA	080H
P1	DATA	090H
P2	DATA	0A0H
P3	DATA	0B0H
AC	BIT	0D0H.6
T0	BIT	0B0H.4
T2_EX	BIT	090H.1
T1	BIT	0B0H.5
EA	BIT	0A8H.7
T2	BIT	090H.0
IE	DATA	0A8H
P0_0	BIT	080H.0
P1_0	BIT	090H.0
P0_1	BIT	080H.1
P2_0	BIT	0A0H.0
P1_1	BIT	090H.1
P0_2	BIT	080H.2
P2_1	BIT	0A0H.1
P1_2	BIT	090H.2
P0_3	BIT	080H.3
P2_2	BIT	0A0H.2
P1_3	BIT	090H.3
P0_4	BIT	080H.4
P2_3	BIT	0A0H.3
P1_4	BIT	090H.4
P0_5	BIT	080H.5
EXF2	BIT	0C8H.6
RD	BIT	0B0H.7
P2_4	BIT	0A0H.4
P1_5	BIT	090H.5
P0_6	BIT	080H.6
P2_5	BIT	0A0H.5
P1_6	BIT	090H.6
P0_7	BIT	080H.7
ES	BIT	0A8H.4
P2_6	BIT	0A0H.6
P1_7	BIT	090H.7
P2_7	BIT	0A0H.7
IP	DATA	0B8H
RI	BIT	098H.0
CY	BIT	0D0H.7
INT0	BIT	0B0H.2
TI	BIT	098H.1
INT1	BIT	0B0H.3
RCAP2H	DATA	0CBH
PS	BIT	0B8H.4
SP	DATA	081H
OV	BIT	0D0H.2
RCAP2L	DATA	0CAH
C_T2	BIT	0C8H.1
WR	BIT	0B0H.6
RCLK	BIT	0C8H.5
TCLK	BIT	0C8H.4
PCON	DATA	087H
SBUF	DATA	099H
SCON	DATA	098H
TMOD	DATA	089H
TCON	DATA	088H
IE0	BIT	088H.1
IE1	BIT	088H.3
B	DATA	0F0H
CP_RL2	BIT	0C8H.0
ACC	DATA	0E0H
ET0	BIT	0A8H.1
TF0	BIT	088H.5
ET1	BIT	0A8H.3
TF1	BIT	088H.7
ET2	BIT	0A8H.5
TF2	BIT	0C8H.7
RB8	BIT	098H.2
TH0	DATA	08CH
IT0	BIT	088H.0
EX0	BIT	0A8H.0
TH1	DATA	08DH
IT1	BIT	088H.2
EX1	BIT	0A8H.2
TB8	BIT	098H.3
TH2	DATA	0CDH
P	BIT	0D0H.0
SM0	BIT	098H.7
TL0	DATA	08AH
SM1	BIT	098H.6
TL1	DATA	08BH
SM2	BIT	098H.5
TL2	DATA	0CCH
PT0	BIT	0B8H.1
PT1	BIT	0B8H.3
RS0	BIT	0D0H.3
TR0	BIT	088H.4
PT2	BIT	0B8H.5
RS1	BIT	0D0H.4
TR1	BIT	088H.6
TR2	BIT	0C8H.2
PX0	BIT	0B8H.0
PX1	BIT	0B8H.2
DPH	DATA	083H
DPL	DATA	082H
EXEN2	BIT	0C8H.3
REN	BIT	098H.4
T2MOD	DATA	0C9H
T2CON	DATA	0C8H
DPS	DATA	0A2H
RXD	BIT	0B0H.0
TXD	BIT	0B0H.1
F0	BIT	0D0H.5
F1	BIT	0D0H.1
PSW	DATA	0D0H
; /*
; *********************************************************************************************************
; *                                                uC/OS-II
; *                                          The Real-Time Kernel
; *                                        MESSAGE QUEUE MANAGEMENT
; *
; *                          (c) Copyright 1992-2002, Jean J. Labrosse, Weston, FL
; *                                           All Rights Reserved
; *
; * File : OS_Q.C
; * By   : Jean J. Labrosse
; *********************************************************************************************************
; */
; 
; #ifndef  OS_MASTER_FILE
; #include "includes.h"
; #endif
; 
; #if (OS_Q_EN > 0) && (OS_MAX_QS > 0)
; /*
; *********************************************************************************************************
; *                                      ACCEPT MESSAGE FROM QUEUE
; *
; * Description: This function checks the queue to see if a message is available.  Unlike OSQPend(),
; *              OSQAccept() does not suspend the calling task if a message is not available.
; *
; * Arguments  : pevent        is a pointer to the event control block
; *
; * Returns    : != (void *)0  is the message in the queue if one is available.  The message is removed
; *                            from the so the next time OSQAccept() is called, the queue will contain
; *                            one less entry.
; *              == (void *)0  if the queue is empty or,
; *                            if 'pevent' is a NULL pointer or,
; *                            if you passed an invalid event type
; *********************************************************************************************************
; */
; 
; #if OS_Q_ACCEPT_EN > 0
; void  *OSQAccept (OS_EVENT *pevent)LG_REENTRANT
; {
; #if OS_CRITICAL_METHOD == 3                      /* Allocate storage for CPU status register           */
;     OS_CPU_SR  cpu_sr;
; #endif
;     void      *msg;
;     OS_Q      *pq;
; 
; 
; #if OS_ARG_CHK_EN > 0
;     if (pevent == (OS_EVENT *)0) {               /* Validate 'pevent'                                  */
;         return ((void *)0);
;     }
;     if (pevent->OSEventType != OS_EVENT_TYPE_Q) {/* Validate event block type                          */
;         return ((void *)0);
;     }
; #endif
;     OS_ENTER_CRITICAL();
;     pq = (OS_Q *)pevent->OSEventPtr;             /* Point at queue control block                       */
;     if (pq->OSQEntries > 0) {                    /* See if any messages in the queue                   */
;         msg = *pq->OSQOut++;                     /* Yes, extract oldest message from the queue         */
;         pq->OSQEntries--;                        /* Update the number of entries in the queue          */
;         if (pq->OSQOut == pq->OSQEnd) {          /* Wrap OUT pointer if we are at the end of the queue */
;             pq->OSQOut = pq->OSQStart;
;         }
;     } else {
;         msg = (void *)0;                         /* Queue is empty                                     */
;     }
;     OS_EXIT_CRITICAL();
;     return (msg);                                /* Return message received (or NULL)                  */
; }
; #endif
; /*$PAGE*/
; /*
; *********************************************************************************************************
; *                                        CREATE A MESSAGE QUEUE
; *
; * Description: This function creates a message queue if free event control blocks are available.
; *
; * Arguments  : start         is a pointer to the base address of the message queue storage area.  The
; *                            storage area MUST be declared as an array of pointers to 'void' as follows
; *
; *                            void *MessageStorage[size]
; *
; *              size          is the number of elements in the storage area
; *
; * Returns    : != (OS_EVENT *)0  is a pointer to the event control clock (OS_EVENT) associated with the
; *                                created queue
; *              == (OS_EVENT *)0  if no event control blocks were available or an error was detected
; *********************************************************************************************************
; */
; 
; OS_EVENT  *OSQCreate (void **start, INT16U size)LG_REENTRANT
; {
; #if OS_CRITICAL_METHOD == 3                      /* Allocate storage for CPU status register           */
;     OS_CPU_SR  cpu_sr;
; #endif
;     OS_EVENT  *pevent;
;     OS_Q      *pq;
; 
; 
;     if (OSIntNesting > 0) {                      /* See if called from ISR ...                         */
;         return ((OS_EVENT *)0);                  /* ... can't CREATE from an ISR                       */
;     }
;     OS_ENTER_CRITICAL();
;     pevent = OSEventFreeList;                    /* Get next free event control block                  */
;     if (OSEventFreeList != (OS_EVENT *)0) {      /* See if pool of free ECB pool was empty             */
;         OSEventFreeList = (OS_EVENT *)OSEventFreeList->OSEventPtr;
;     }
;     OS_EXIT_CRITICAL();
;     if (pevent != (OS_EVENT *)0) {               /* See if we have an event control block              */
;         OS_ENTER_CRITICAL();
;         pq = OSQFreeList;                        /* Get a free queue control block                     */
;         if (pq != (OS_Q *)0) {                   /* Were we able to get a queue control block ?        */
;             OSQFreeList         = OSQFreeList->OSQPtr;    /* Yes, Adjust free list pointer to next free*/
;             OS_EXIT_CRITICAL();
;             pq->OSQStart        = start;                  /*      Initialize the queue                 */
;             pq->OSQEnd          = &start[size];
;             pq->OSQIn           = start;
;             pq->OSQOut          = start;
;             pq->OSQSize         = size;
;             pq->OSQEntries      = 0;
;             pevent->OSEventType = OS_EVENT_TYPE_Q;
;             pevent->OSEventCnt  = 0;
;             pevent->OSEventPtr  = pq;
;             OS_EventWaitListInit(pevent);                 /*      Initalize the wait list              */
;         } else {
;             pevent->OSEventPtr = (void *)OSEventFreeList; /* No,  Return event control block on error  */
;             OSEventFreeList    = pevent;
;             OS_EXIT_CRITICAL();
;             pevent = (OS_EVENT *)0;
;         }
;     }
;     return (pevent);
; }
; /*$PAGE*/
; /*
; *********************************************************************************************************
; *                                        DELETE A MESSAGE QUEUE
; *
; * Description: This function deletes a message queue and readies all tasks pending on the queue.
; *
; * Arguments  : pevent        is a pointer to the event control block associated with the desired
; *                            queue.
; *
; *              opt           determines delete options as follows:
; *                            opt == OS_DEL_NO_PEND   Delete the queue ONLY if no task pending
; *                            opt == OS_DEL_ALWAYS    Deletes the queue even if tasks are waiting.
; *                                                    In this case, all the tasks pending will be readied.
; *
; *              err           is a pointer to an error code that can contain one of the following values:
; *                            OS_NO_ERR               The call was successful and the queue was deleted
; *                            OS_ERR_DEL_ISR          If you tried to delete the queue from an ISR
; *                            OS_ERR_INVALID_OPT      An invalid option was specified
; *                            OS_ERR_TASK_WAITING     One or more tasks were waiting on the queue
; *                            OS_ERR_EVENT_TYPE       If you didn't pass a pointer to a queue
; *                            OS_ERR_PEVENT_NULL      If 'pevent' is a NULL pointer.
; *
; * Returns    : pevent        upon error
; *              (OS_EVENT *)0 if the queue was successfully deleted.
; *
; * Note(s)    : 1) This function must be used with care.  Tasks that would normally expect the presence of
; *                 the queue MUST check the return code of OSQPend().
; *              2) OSQAccept() callers will not know that the intended queue has been deleted unless
; *                 they check 'pevent' to see that it's a NULL pointer.
; *              3) This call can potentially disable interrupts for a long time.  The interrupt disable
; *                 time is directly proportional to the number of tasks waiting on the queue.
; *              4) Because ALL tasks pending on the queue will be readied, you MUST be careful in
; *                 applications where the queue is used for mutual exclusion because the resource(s)