394 Zeilen
9.4 KiB
C
394 Zeilen
9.4 KiB
C
#include "cmPrefix.h"
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#include "cmGlobal.h"
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#include "cmRpt.h"
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#include "cmErr.h"
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#include "cmCtx.h"
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#include "cmMem.h"
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#include "cmMallocDebug.h"
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#include "cmStack.h"
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typedef struct cmStkBlk_str
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{
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char* base;
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unsigned curEleCnt;
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unsigned maxEleCnt;
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struct cmStkBlk_str* link;
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} cmStkBlk_t;
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typedef struct
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{
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cmErr_t err;
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unsigned expandBlkEleCnt; // count of ele's in all blocks after the first block
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unsigned cnt; // cur total count of elements in all blocks
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cmStkBlk_t* baseBlkPtr; // first block
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cmStkBlk_t* curBlkPtr; // current block - all blocks are always full except for the current block
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unsigned eleByteCnt; // bytes per element
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} cmStack_t;
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cmStackH_t cmStackNullHandle = cmSTATIC_NULL_HANDLE;
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cmStack_t* _cmStHandleToPtr( cmStackH_t h )
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{
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cmStack_t* p = (cmStack_t*)h.h;
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assert( p != NULL );
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return p;
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}
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cmStkBlk_t* _cmStkAllocBlk( cmStack_t* p, unsigned blkEleCnt )
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{
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cmStkBlk_t* blkPtr;
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// if a next block has already been created (because an earlier stack was cleared (w/o release)
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if( p->curBlkPtr != NULL && p->curBlkPtr->link != NULL )
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blkPtr = p->curBlkPtr->link;
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else
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{
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// ... otherwise allocate a new next block
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char* cp = cmMemAllocZ(char,sizeof(cmStkBlk_t) + p->eleByteCnt * blkEleCnt );
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blkPtr = (cmStkBlk_t*)cp;
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blkPtr->base = cp + sizeof(cmStkBlk_t);
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blkPtr->curEleCnt = 0;
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blkPtr->maxEleCnt = blkEleCnt;
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if( p->curBlkPtr != NULL )
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p->curBlkPtr->link = blkPtr;
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}
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if( p->baseBlkPtr == NULL )
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p->baseBlkPtr = blkPtr;
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p->curBlkPtr = blkPtr;
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return blkPtr;
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}
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cmStkBlk_t* _cmStackClear( cmStack_t* p, bool releaseFl )
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{
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cmStkBlk_t* bp = p->baseBlkPtr;
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while( bp != NULL )
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{
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cmStkBlk_t* nbp = bp->link;
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bp->curEleCnt = 0;
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if( releaseFl )
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cmMemFree(bp);
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bp = nbp;
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}
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p->cnt = 0;
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if( releaseFl )
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{
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p->curBlkPtr = NULL;
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p->baseBlkPtr = NULL;
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}
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else
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{
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p->curBlkPtr = p->baseBlkPtr;
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}
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return bp;
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}
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cmStRC_t _cmStackFree( cmStack_t* p )
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{
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cmStRC_t rc = kOkStRC;
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_cmStackClear(p,true);
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cmMemFree(p);
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return rc;
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}
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cmStRC_t cmStackAlloc( cmCtx_t* ctx, cmStackH_t* hp, unsigned initCnt, unsigned expandCnt, unsigned eleByteCnt )
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{
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cmStRC_t rc = kOkStRC;
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if((rc = cmStackFree(hp)) != kOkStRC )
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return rc;
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cmStack_t* p = cmMemAllocZ(cmStack_t,1);
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cmErrSetup(&p->err,&ctx->rpt,"Stack");
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p->expandBlkEleCnt = expandCnt;
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p->eleByteCnt = eleByteCnt;
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_cmStkAllocBlk(p,initCnt); // allocate the initial block
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hp->h = p;
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return rc;
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}
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cmStRC_t cmStackFree( cmStackH_t* hp )
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{
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cmStRC_t rc = kOkStRC;
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if( hp==NULL || cmStackIsValid(*hp) == false )
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return kOkStRC;
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cmStack_t* p = _cmStHandleToPtr(*hp);
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if((rc = _cmStackFree(p)) != kOkStRC )
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goto errLabel;
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hp->h = NULL;
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errLabel:
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return rc;
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}
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cmStRC_t cmStackIsValid( cmStackH_t h )
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{ return h.h != NULL; }
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unsigned cmStackCount( cmStackH_t h )
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{
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cmStack_t* p = _cmStHandleToPtr(h);
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return p->cnt;
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}
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void cmStackClear( cmStackH_t h, bool releaseFl )
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{
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if( cmStackIsValid(h) == false )
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return;
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cmStack_t* p = _cmStHandleToPtr(h);
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_cmStackClear(p,releaseFl);
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}
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cmStRC_t cmStackPush( cmStackH_t h, const void* data, unsigned dataEleCnt )
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{
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cmStRC_t rc = kOkStRC;
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cmStack_t* p = _cmStHandleToPtr(h);
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while( dataEleCnt )
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{
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if( p->curBlkPtr == NULL || p->curBlkPtr->curEleCnt >= p->curBlkPtr->maxEleCnt )
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_cmStkAllocBlk(p, p->expandBlkEleCnt );
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// calc the count of ele's to copy into this block
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unsigned en = cmMin(dataEleCnt, p->curBlkPtr->maxEleCnt - p->curBlkPtr->curEleCnt );
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// calc the count of source bytes to copy into this block
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unsigned bn = en * p->eleByteCnt;
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// copy the source bytes into the block
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memcpy( p->curBlkPtr->base + (p->curBlkPtr->curEleCnt * p->eleByteCnt), data, bn );
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p->curBlkPtr->curEleCnt += en; // incr block element count
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p->cnt += en; // incr the total element count
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data = ((char*)data) + bn; // incr the source pointer
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dataEleCnt -= en; // decr the source ele count
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}
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return rc;
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}
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// Return the block and local index of the element at index *idxPtr.
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cmStkBlk_t* _cmStBlockIndex( cmStack_t* p, unsigned* idxPtr )
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{
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cmStkBlk_t* blkPtr;
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assert( p->baseBlkPtr != NULL);
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if( *idxPtr < p->baseBlkPtr->maxEleCnt )
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return p->baseBlkPtr;
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*idxPtr -= p->baseBlkPtr->maxEleCnt;
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unsigned bi = *idxPtr / p->expandBlkEleCnt;
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unsigned i;
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blkPtr = p->baseBlkPtr->link;
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for(i=0; i<bi; ++i)
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blkPtr = blkPtr->link;
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*idxPtr = *idxPtr - bi * p->expandBlkEleCnt;
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return blkPtr;
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}
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cmStRC_t cmStackPop( cmStackH_t h, unsigned eleCnt )
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{
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cmStRC_t rc = kOkStRC;
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cmStack_t* p = _cmStHandleToPtr(h);
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if( p->cnt < eleCnt )
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return cmErrMsg(&p->err,kUnderflowStRC,"Stack underflow. Cannot pop %i elements off stack with %i elements.", eleCnt, p->cnt );
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unsigned idx = p->cnt - eleCnt; // index of the first element to remove
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cmStkBlk_t* blkPtr = _cmStBlockIndex(p, &idx ); // get blk and local index of new curBlkPtr
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blkPtr->curEleCnt = idx; // update the element cnt for the new curBlkPtr
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p->curBlkPtr = blkPtr; // set the new curBlkPtr
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blkPtr = blkPtr->link; // for each blk after the current block ...
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while( blkPtr != NULL )
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{
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blkPtr->curEleCnt = 0; // ... set the block empty
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blkPtr = blkPtr->link;
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}
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p->cnt -= eleCnt;
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return rc;
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}
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const void* cmStackTop( cmStackH_t h )
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{
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unsigned n = cmStackCount(h);
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if( n == 0 )
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return NULL;
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return cmStackGet(h,n-1);
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}
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cmStRC_t _cmStackSetGet( cmStack_t* p, unsigned index, char* data, unsigned dataEleCnt, bool setFl )
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{
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cmStRC_t rc = kOkStRC;
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if( index + dataEleCnt > p->cnt )
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return cmErrMsg(&p->err,kInvalidIdxStRC,"The element index range:%i to %i falls outside the current index range:%i to %i of the stack.",index,index+dataEleCnt-1,0,p->cnt-1);
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cmStkBlk_t* blkPtr = _cmStBlockIndex(p,&index);
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assert( blkPtr != NULL );
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while( dataEleCnt )
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{
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// calc the count of ele's to copy into this block
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unsigned en = cmMin(dataEleCnt, blkPtr->curEleCnt - index );
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// calc the count of bytes in en elements
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unsigned bn = en * p->eleByteCnt;
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char* bp = blkPtr->base + (index * p->eleByteCnt);
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// copy the source bytes into the block
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memcpy( setFl ? bp:data, setFl ? data:bp, bn );
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data = data + bn; // incr the source pointer
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dataEleCnt -= en; // decr the source ele count
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index = 0; // all blocks after the first use index=0
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blkPtr = blkPtr->link;
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}
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return rc;
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}
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cmStRC_t cmStackSet( cmStackH_t h, unsigned index, const void* data, unsigned dataEleCnt )
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{ return _cmStackSetGet( _cmStHandleToPtr(h), index, (char*) data, dataEleCnt,true ); }
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cmStRC_t cmStackGetN( cmStackH_t h, unsigned index, void* data, unsigned dataEleCnt )
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{ return _cmStackSetGet( _cmStHandleToPtr(h), index, (char*)data, dataEleCnt, false ); }
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const void* cmStackGet( cmStackH_t h, unsigned index )
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{
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cmStack_t* p = _cmStHandleToPtr(h);
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if( index >= p->cnt )
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{
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cmErrMsg(&p->err,kInvalidIdxStRC,"The index %i is outside the valid range 0:%i.",index,p->cnt-1);
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return NULL;
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}
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cmStkBlk_t* blkPtr = _cmStBlockIndex(p,&index);
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assert( blkPtr != NULL );
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return blkPtr->base + (index * p->eleByteCnt);
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}
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void* cmStackFlatten( cmStackH_t h )
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{
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cmStack_t* p = _cmStHandleToPtr(h);
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cmStkBlk_t* bbp = p->baseBlkPtr;
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cmStkBlk_t* cbp = p->curBlkPtr;
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unsigned cnt = p->cnt;
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// pretend the stack is unallocated
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p->baseBlkPtr = NULL;
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p->curBlkPtr = NULL;
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// allocate a new initial block large enough to hold all the data
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cmStkBlk_t* nbp = _cmStkAllocBlk(p,cnt);
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cmStkBlk_t* bp = bbp;
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unsigned n = 0;
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// copy the existing stack values into the new initial block
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while( bp != NULL && bp->curEleCnt > 0 )
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{
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unsigned bn = bp->curEleCnt * p->eleByteCnt;
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assert( n < cnt*p->eleByteCnt );
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memcpy( nbp->base + n, bp->base, bn );
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n += bn;
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bp = bp->link;
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}
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// restore the stack to it's original state, clear and release
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p->baseBlkPtr = bbp;
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p->curBlkPtr = cbp;
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_cmStackClear(p,true);
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// setup new stack with the new initial block
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// (the data is now linearly arranged in nbp->base)
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p->baseBlkPtr = nbp;
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p->curBlkPtr = nbp;
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p->cnt = cnt;
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return p->baseBlkPtr->base;
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}
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void cmStackTest( cmCtx_t* ctx )
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{
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cmStackH_t h = cmStackNullHandle;
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int i;
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int v[20];
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if( cmStackAlloc(ctx,&h,10,5,sizeof(int)) != kOkStRC )
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goto errLabel;
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for(i=0; i<9; ++i)
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v[i] = i;
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cmStackPush(h,v,i);
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cmRptPrintf(&ctx->rpt,"count:%i %i\n",cmStackCount(h),i);
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for(; i<18; ++i)
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v[i] = i;
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cmStackPush(h,v,i);
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cmRptPrintf(&ctx->rpt,"count:%i %i\n",cmStackCount(h),i);
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cmStackPop(h,10);
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cmRptPrintf(&ctx->rpt,"count:%i %i\n",cmStackCount(h),i);
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cmStackPop(h,10);
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cmRptPrintf(&ctx->rpt,"count:%i %i\n",cmStackCount(h),i);
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cmStackPush(h,v,10);
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cmRptPrintf(&ctx->rpt,"count:%i %i\n",cmStackCount(h),i);
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for(i=0; i<cmStackCount(h); ++i)
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cmRptPrintf(&ctx->rpt,"%i ",cmStackEle(h,int,i));
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cmRptPrintf(&ctx->rpt,"\n");
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int* ip = (int*)cmStackFlatten(h);
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for(i=0; i<cmStackCount(h); ++i)
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cmRptPrintf(&ctx->rpt,"%i ",ip[i]);
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cmRptPrintf(&ctx->rpt,"\n");
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errLabel:
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cmStackFree(&h);
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}
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