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来自「【开源】线性CCD自适应性算法攻略」· 代码 · 共 1,414 行 · 第 1/5 页
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1,414 行
#define OS_ERR_TASK_DEL_ISR 64u
#define OS_ERR_TASK_NAME_TOO_LONG 65u
#define OS_ERR_TASK_NO_MORE_TCB 66u
#define OS_ERR_TASK_NOT_EXIST 67u
#define OS_ERR_TASK_NOT_SUSPENDED 68u
#define OS_ERR_TASK_OPT 69u
#define OS_ERR_TASK_RESUME_PRIO 70u
#define OS_ERR_TASK_SUSPEND_IDLE 71u
#define OS_ERR_TASK_SUSPEND_PRIO 72u
#define OS_ERR_TASK_WAITING 73u
#define OS_ERR_TIME_NOT_DLY 80u
#define OS_ERR_TIME_INVALID_MINUTES 81u
#define OS_ERR_TIME_INVALID_SECONDS 82u
#define OS_ERR_TIME_INVALID_MS 83u
#define OS_ERR_TIME_ZERO_DLY 84u
#define OS_ERR_TIME_DLY_ISR 85u
#define OS_ERR_MEM_INVALID_PART 90u
#define OS_ERR_MEM_INVALID_BLKS 91u
#define OS_ERR_MEM_INVALID_SIZE 92u
#define OS_ERR_MEM_NO_FREE_BLKS 93u
#define OS_ERR_MEM_FULL 94u
#define OS_ERR_MEM_INVALID_PBLK 95u
#define OS_ERR_MEM_INVALID_PMEM 96u
#define OS_ERR_MEM_INVALID_PDATA 97u
#define OS_ERR_MEM_INVALID_ADDR 98u
#define OS_ERR_MEM_NAME_TOO_LONG 99u
#define OS_ERR_NOT_MUTEX_OWNER 100u
#define OS_ERR_FLAG_INVALID_PGRP 110u
#define OS_ERR_FLAG_WAIT_TYPE 111u
#define OS_ERR_FLAG_NOT_RDY 112u
#define OS_ERR_FLAG_INVALID_OPT 113u
#define OS_ERR_FLAG_GRP_DEPLETED 114u
#define OS_ERR_FLAG_NAME_TOO_LONG 115u
#define OS_ERR_PCP_LOWER 120u
#define OS_ERR_TMR_INVALID_DLY 130u
#define OS_ERR_TMR_INVALID_PERIOD 131u
#define OS_ERR_TMR_INVALID_OPT 132u
#define OS_ERR_TMR_INVALID_NAME 133u
#define OS_ERR_TMR_NON_AVAIL 134u
#define OS_ERR_TMR_INACTIVE 135u
#define OS_ERR_TMR_INVALID_DEST 136u
#define OS_ERR_TMR_INVALID_TYPE 137u
#define OS_ERR_TMR_INVALID 138u
#define OS_ERR_TMR_ISR 139u
#define OS_ERR_TMR_NAME_TOO_LONG 140u
#define OS_ERR_TMR_INVALID_STATE 141u
#define OS_ERR_TMR_STOPPED 142u
#define OS_ERR_TMR_NO_CALLBACK 143u
/*$PAGE*/
/*
*********************************************************************************************************
* EVENT CONTROL BLOCK
*********************************************************************************************************
*/
#if OS_LOWEST_PRIO <= 63u
typedef INT8U OS_PRIO;
#else
typedef INT16U OS_PRIO;
#endif
#if (OS_EVENT_EN) && (OS_MAX_EVENTS > 0u)
typedef struct os_event
{
INT8U OSEventType; /* Type of event control block (see OS_EVENT_TYPE_xxxx) */
void *OSEventPtr; /* Pointer to message or queue structure */
INT16U OSEventCnt; /* Semaphore Count (not used if other EVENT type) */
OS_PRIO OSEventGrp; /* Group corresponding to tasks waiting for event to occur */
OS_PRIO OSEventTbl[OS_EVENT_TBL_SIZE]; /* List of tasks waiting for event to occur */
#if OS_EVENT_NAME_EN > 0u
INT8U *OSEventName;
#endif
} OS_EVENT;
#endif
/*
*********************************************************************************************************
* EVENT FLAGS CONTROL BLOCK
*********************************************************************************************************
*/
#if (OS_FLAG_EN > 0u) && (OS_MAX_FLAGS > 0u)
#if OS_FLAGS_NBITS == 8u /* Determine the size of OS_FLAGS (8, 16 or 32 bits) */
typedef INT8U OS_FLAGS;
#endif
#if OS_FLAGS_NBITS == 16u
typedef INT16U OS_FLAGS;
#endif
#if OS_FLAGS_NBITS == 32u
typedef INT32U OS_FLAGS;
#endif
typedef struct os_flag_grp /* Event Flag Group */
{
INT8U OSFlagType; /* Should be set to OS_EVENT_TYPE_FLAG */
void *OSFlagWaitList; /* Pointer to first NODE of task waiting on event flag */
OS_FLAGS OSFlagFlags; /* 8, 16 or 32 bit flags */
#if OS_FLAG_NAME_EN > 0u
INT8U *OSFlagName;
#endif
} OS_FLAG_GRP;
typedef struct os_flag_node /* Event Flag Wait List Node */
{
void *OSFlagNodeNext; /* Pointer to next NODE in wait list */
void *OSFlagNodePrev; /* Pointer to previous NODE in wait list */
void *OSFlagNodeTCB; /* Pointer to TCB of waiting task */
void *OSFlagNodeFlagGrp; /* Pointer to Event Flag Group */
OS_FLAGS OSFlagNodeFlags; /* Event flag to wait on */
INT8U OSFlagNodeWaitType; /* Type of wait: */
/* OS_FLAG_WAIT_AND */
/* OS_FLAG_WAIT_ALL */
/* OS_FLAG_WAIT_OR */
/* OS_FLAG_WAIT_ANY */
} OS_FLAG_NODE;
#endif
/*$PAGE*/
/*
*********************************************************************************************************
* MESSAGE MAILBOX DATA
*********************************************************************************************************
*/
#if OS_MBOX_EN > 0u
typedef struct os_mbox_data
{
void *OSMsg; /* Pointer to message in mailbox */
OS_PRIO OSEventTbl[OS_EVENT_TBL_SIZE]; /* List of tasks waiting for event to occur */
OS_PRIO OSEventGrp; /* Group corresponding to tasks waiting for event to occur */
} OS_MBOX_DATA;
#endif
/*
*********************************************************************************************************
* MEMORY PARTITION DATA STRUCTURES
*********************************************************************************************************
*/
#if (OS_MEM_EN > 0u) && (OS_MAX_MEM_PART > 0u)
typedef struct os_mem /* MEMORY CONTROL BLOCK */
{
void *OSMemAddr; /* Pointer to beginning of memory partition */
void *OSMemFreeList; /* Pointer to list of free memory blocks */
INT32U OSMemBlkSize; /* Size (in bytes) of each block of memory */
INT32U OSMemNBlks; /* Total number of blocks in this partition */
INT32U OSMemNFree; /* Number of memory blocks remaining in this partition */
#if OS_MEM_NAME_EN > 0u
INT8U *OSMemName; /* Memory partition name */
#endif
} OS_MEM;
typedef struct os_mem_data
{
void *OSAddr; /* Pointer to the beginning address of the memory partition */
void *OSFreeList; /* Pointer to the beginning of the free list of memory blocks */
INT32U OSBlkSize; /* Size (in bytes) of each memory block */
INT32U OSNBlks; /* Total number of blocks in the partition */
INT32U OSNFree; /* Number of memory blocks free */
INT32U OSNUsed; /* Number of memory blocks used */
} OS_MEM_DATA;
#endif
/*$PAGE*/
/*
*********************************************************************************************************
* MUTUAL EXCLUSION SEMAPHORE DATA
*********************************************************************************************************
*/
#if OS_MUTEX_EN > 0u
typedef struct os_mutex_data
{
OS_PRIO OSEventTbl[OS_EVENT_TBL_SIZE]; /* List of tasks waiting for event to occur */
OS_PRIO OSEventGrp; /* Group corresponding to tasks waiting for event to occur */
BOOLEAN OSValue; /* Mutex value (OS_FALSE = used, OS_TRUE = available) */
INT8U OSOwnerPrio; /* Mutex owner's task priority or 0xFF if no owner */
INT8U OSMutexPCP; /* Priority Ceiling Priority or 0xFF if PCP disabled */
} OS_MUTEX_DATA;
#endif
/*
*********************************************************************************************************
* MESSAGE QUEUE DATA
*********************************************************************************************************
*/
#if OS_Q_EN > 0u
typedef struct os_q /* QUEUE CONTROL BLOCK */
{
struct os_q *OSQPtr; /* Link to next queue control block in list of free blocks */
void **OSQStart; /* Pointer to start of queue data */
void **OSQEnd; /* Pointer to end of queue data */
void **OSQIn; /* Pointer to where next message will be inserted in the Q */
void **OSQOut; /* Pointer to where next message will be extracted from the Q */
INT16U OSQSize; /* Size of queue (maximum number of entries) */
INT16U OSQEntries; /* Current number of entries in the queue */
} OS_Q;
typedef struct os_q_data
{
void *OSMsg; /* Pointer to next message to be extracted from queue */
INT16U OSNMsgs; /* Number of messages in message queue */
INT16U OSQSize; /* Size of message queue */
OS_PRIO OSEventTbl[OS_EVENT_TBL_SIZE]; /* List of tasks waiting for event to occur */
OS_PRIO OSEventGrp; /* Group corresponding to tasks waiting for event to occur */
} OS_Q_DATA;
#endif
/*
*********************************************************************************************************
* SEMAPHORE DATA
*********************************************************************************************************
*/
#if OS_SEM_EN > 0u
typedef struct os_sem_data
{
INT16U OSCnt; /* Semaphore count */
OS_PRIO OSEventTbl[OS_EVENT_TBL_SIZE]; /* List of tasks waiting for event to occur */
OS_PRIO OSEventGrp; /* Group corresponding to tasks waiting for event to occur */
} OS_SEM_DATA;
#endif
/*
*********************************************************************************************************
* TASK STACK DATA
*********************************************************************************************************
*/
#if OS_TASK_CREATE_EXT_EN > 0u
typedef struct os_stk_data
{
INT32U OSFree; /* Number of free entries on the stack */
INT32U OSUsed; /* Number of entries used on the stack */
} OS_STK_DATA;
#endif
/*$PAGE*/
/*
*********************************************************************************************************
* TASK CONTROL BLOCK
*********************************************************************************************************
*/
typedef struct os_tcb
{
OS_STK *OSTCBStkPtr; /* Pointer to current top of stack */
#if OS_TASK_CREATE_EXT_EN > 0u
void *OSTCBExtPtr; /* Pointer to user definable data for TCB extension */
OS_STK *OSTCBStkBottom; /* Pointer to bottom of stack */
INT32U OSTCBStkSize; /* Size of task stack (in number of stack elements) */
INT16U OSTCBOpt; /* Task options as passed by OSTaskCreateExt() */
INT16U OSTCBId; /* Task ID (0..65535) */
#endif
struct os_tcb *OSTCBNext; /* Pointer to next TCB in the TCB list */
struct os_tcb *OSTCBPrev; /* Pointer to previous TCB in the TCB list */
#if (OS_EVENT_EN)
OS_EVENT *OSTCBEventPtr; /* Pointer to event control block */
#endif
#if (OS_EVENT_EN) && (OS_EVENT_MULTI_EN > 0u)
OS_EVENT **OSTCBEventMultiPtr; /* Pointer to multiple event control blocks */
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