third_party/sqlite/vdbefifo.c - chromium/src.git - Git at Google

 /*
 ** 2005 June 16
 **
 ** The author disclaims copyright to this source code.  In place of
 ** a legal notice, here is a blessing:
 **
 **    May you do good and not evil.
 **    May you find forgiveness for yourself and forgive others.
 **    May you share freely, never taking more than you give.
 **
 *************************************************************************
 ** This file implements a FIFO queue of rowids used for processing
 ** UPDATE and DELETE statements.
 */
 #include "sqliteInt.h"
 #include "vdbeInt.h"

 /*
 ** Allocate a new FifoPage and return a pointer to it.  Return NULL if
 ** we run out of memory.  Leave space on the page for nEntry entries.
 */
 static FifoPage *allocateFifoPage(int nEntry){
   FifoPage *pPage;
   if( nEntry>32767 ){
     nEntry = 32767;
   }
   pPage = sqliteMallocRaw( sizeof(FifoPage) + sizeof(i64)*(nEntry-1) );
   if( pPage ){
     pPage->nSlot = nEntry;
     pPage->iWrite = 0;
     pPage->iRead = 0;
     pPage->pNext = 0;
   }
   return pPage;
 }

 /*
 ** Initialize a Fifo structure.
 */
 void sqlite3VdbeFifoInit(Fifo *pFifo){
   memset(pFifo, 0, sizeof(*pFifo));
 }

 /*
 ** Push a single 64-bit integer value into the Fifo.  Return SQLITE_OK
 ** normally.   SQLITE_NOMEM is returned if we are unable to allocate
 ** memory.
 */
 int sqlite3VdbeFifoPush(Fifo *pFifo, i64 val){
   FifoPage *pPage;
   pPage = pFifo->pLast;
   if( pPage==0 ){
     pPage = pFifo->pLast = pFifo->pFirst = allocateFifoPage(20);
     if( pPage==0 ){
       return SQLITE_NOMEM;
     }
   }else if( pPage->iWrite>=pPage->nSlot ){
     pPage->pNext = allocateFifoPage(pFifo->nEntry);
     if( pPage->pNext==0 ){
       return SQLITE_NOMEM;
     }
     pPage = pFifo->pLast = pPage->pNext;
   }
   pPage->aSlot[pPage->iWrite++] = val;
   pFifo->nEntry++;
   return SQLITE_OK;
 }

 /*
 ** Extract a single 64-bit integer value from the Fifo.  The integer
 ** extracted is the one least recently inserted.  If the Fifo is empty
 ** return SQLITE_DONE.
 */
 int sqlite3VdbeFifoPop(Fifo *pFifo, i64 *pVal){
   FifoPage *pPage;
   if( pFifo->nEntry==0 ){
     return SQLITE_DONE;
   }
   assert( pFifo->nEntry>0 );
   pPage = pFifo->pFirst;
   assert( pPage!=0 );
   assert( pPage->iWrite>pPage->iRead );
   assert( pPage->iWrite<=pPage->nSlot );
   assert( pPage->iRead<pPage->nSlot );
   assert( pPage->iRead>=0 );
   *pVal = pPage->aSlot[pPage->iRead++];
   pFifo->nEntry--;
   if( pPage->iRead>=pPage->iWrite ){
     pFifo->pFirst = pPage->pNext;
     sqliteFree(pPage);
     if( pFifo->nEntry==0 ){
       assert( pFifo->pLast==pPage );
       pFifo->pLast = 0;
     }else{
       assert( pFifo->pFirst!=0 );
     }
   }else{
     assert( pFifo->nEntry>0 );
   }
   return SQLITE_OK;
 }

 /*
 ** Delete all information from a Fifo object.   Free all memory held
 ** by the Fifo.
 */
 void sqlite3VdbeFifoClear(Fifo *pFifo){
   FifoPage *pPage, *pNextPage;
   for(pPage=pFifo->pFirst; pPage; pPage=pNextPage){
     pNextPage = pPage->pNext;
     sqliteFree(pPage);
   }
   sqlite3VdbeFifoInit(pFifo);
 }
	/*
	** 2005 June 16
	**
	** The author disclaims copyright to this source code. In place of
	** a legal notice, here is a blessing:
	**
	** May you do good and not evil.
	** May you find forgiveness for yourself and forgive others.
	** May you share freely, never taking more than you give.
	**
	*************************************************************************
	** This file implements a FIFO queue of rowids used for processing
	** UPDATE and DELETE statements.
	*/
	#include "sqliteInt.h"
	#include "vdbeInt.h"

	/*
	** Allocate a new FifoPage and return a pointer to it. Return NULL if
	** we run out of memory. Leave space on the page for nEntry entries.
	*/
	static FifoPage *allocateFifoPage(int nEntry){
	FifoPage *pPage;
	if( nEntry>32767 ){
	nEntry = 32767;
	}
	pPage = sqliteMallocRaw( sizeof(FifoPage) + sizeof(i64)*(nEntry-1) );
	if( pPage ){
	pPage->nSlot = nEntry;
	pPage->iWrite = 0;
	pPage->iRead = 0;
	pPage->pNext = 0;
	}
	return pPage;
	}

	/*
	** Initialize a Fifo structure.
	*/
	void sqlite3VdbeFifoInit(Fifo *pFifo){
	memset(pFifo, 0, sizeof(*pFifo));
	}

	/*
	** Push a single 64-bit integer value into the Fifo. Return SQLITE_OK
	** normally. SQLITE_NOMEM is returned if we are unable to allocate
	** memory.
	*/
	int sqlite3VdbeFifoPush(Fifo *pFifo, i64 val){
	FifoPage *pPage;
	pPage = pFifo->pLast;
	if( pPage==0 ){
	pPage = pFifo->pLast = pFifo->pFirst = allocateFifoPage(20);
	if( pPage==0 ){
	return SQLITE_NOMEM;
	}
	}else if( pPage->iWrite>=pPage->nSlot ){
	pPage->pNext = allocateFifoPage(pFifo->nEntry);
	if( pPage->pNext==0 ){
	return SQLITE_NOMEM;
	}
	pPage = pFifo->pLast = pPage->pNext;
	}
	pPage->aSlot[pPage->iWrite++] = val;
	pFifo->nEntry++;
	return SQLITE_OK;
	}

	/*
	** Extract a single 64-bit integer value from the Fifo. The integer
	** extracted is the one least recently inserted. If the Fifo is empty
	** return SQLITE_DONE.
	*/
	int sqlite3VdbeFifoPop(Fifo pFifo, i64 pVal){
	FifoPage *pPage;
	if( pFifo->nEntry==0 ){
	return SQLITE_DONE;
	}
	assert( pFifo->nEntry>0 );
	pPage = pFifo->pFirst;
	assert( pPage!=0 );
	assert( pPage->iWrite>pPage->iRead );
	assert( pPage->iWrite<=pPage->nSlot );
	assert( pPage->iRead<pPage->nSlot );
	assert( pPage->iRead>=0 );
	*pVal = pPage->aSlot[pPage->iRead++];
	pFifo->nEntry--;
	if( pPage->iRead>=pPage->iWrite ){
	pFifo->pFirst = pPage->pNext;
	sqliteFree(pPage);
	if( pFifo->nEntry==0 ){
	assert( pFifo->pLast==pPage );
	pFifo->pLast = 0;
	}else{
	assert( pFifo->pFirst!=0 );
	}
	}else{
	assert( pFifo->nEntry>0 );
	}
	return SQLITE_OK;
	}

	/*
	** Delete all information from a Fifo object. Free all memory held
	** by the Fifo.
	*/
	void sqlite3VdbeFifoClear(Fifo *pFifo){
	FifoPage pPage, pNextPage;
	for(pPage=pFifo->pFirst; pPage; pPage=pNextPage){
	pNextPage = pPage->pNext;
	sqliteFree(pPage);
	}
	sqlite3VdbeFifoInit(pFifo);
	}