wasCSharpSQLite – Rev 1
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using System;
using System.Diagnostics;
using u8 = System.Byte;
using u32 = System.UInt32;
namespace Community.CsharpSqlite
{
using sqlite3_value = Sqlite3.Mem;
public partial class Sqlite3
{
/*
** 2001 September 15
**
** 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 contains C code routines that are called by the parser
** to handle UPDATE statements.
*************************************************************************
** Included in SQLite3 port to C#-SQLite; 2008 Noah B Hart
** C#-SQLite is an independent reimplementation of the SQLite software library
**
** SQLITE_SOURCE_ID: 2011-06-23 19:49:22 4374b7e83ea0a3fbc3691f9c0c936272862f32f2
**
*************************************************************************
*/
//#include "sqliteInt.h"
#if !SQLITE_OMIT_VIRTUALTABLE
/* Forward declaration */
//static void updateVirtualTable(
//Parse pParse, /* The parsing context */
//SrcList pSrc, /* The virtual table to be modified */
//Table pTab, /* The virtual table */
//ExprList pChanges, /* The columns to change in the UPDATE statement */
//Expr pRowidExpr, /* Expression used to recompute the rowid */
//int aXRef, /* Mapping from columns of pTab to entries in pChanges */
//Expr *pWhere, /* WHERE clause of the UPDATE statement */
//int onError /* ON CONFLICT strategy */
//);
#endif // * SQLITE_OMIT_VIRTUALTABLE */
/*
** The most recently coded instruction was an OP_Column to retrieve the
** i-th column of table pTab. This routine sets the P4 parameter of the
** OP_Column to the default value, if any.
**
** The default value of a column is specified by a DEFAULT clause in the
** column definition. This was either supplied by the user when the table
** was created, or added later to the table definition by an ALTER TABLE
** command. If the latter, then the row-records in the table btree on disk
** may not contain a value for the column and the default value, taken
** from the P4 parameter of the OP_Column instruction, is returned instead.
** If the former, then all row-records are guaranteed to include a value
** for the column and the P4 value is not required.
**
** Column definitions created by an ALTER TABLE command may only have
** literal default values specified: a number, null or a string. (If a more
** complicated default expression value was provided, it is evaluated
** when the ALTER TABLE is executed and one of the literal values written
** into the sqlite_master table.)
**
** Therefore, the P4 parameter is only required if the default value for
** the column is a literal number, string or null. The sqlite3ValueFromExpr()
** function is capable of transforming these types of expressions into
** sqlite3_value objects.
**
** If parameter iReg is not negative, code an OP_RealAffinity instruction
** on register iReg. This is used when an equivalent integer value is
** stored in place of an 8-byte floating point value in order to save
** space.
*/
static void sqlite3ColumnDefault( Vdbe v, Table pTab, int i, int iReg )
{
Debug.Assert( pTab != null );
if ( null == pTab.pSelect )
{
sqlite3_value pValue = new sqlite3_value();
int enc = ENC( sqlite3VdbeDb( v ) );
Column pCol = pTab.aCol[i];
#if SQLITE_DEBUG
VdbeComment( v, "%s.%s", pTab.zName, pCol.zName );
#endif
Debug.Assert( i < pTab.nCol );
sqlite3ValueFromExpr( sqlite3VdbeDb( v ), pCol.pDflt, enc,
pCol.affinity, ref pValue );
if ( pValue != null )
{
sqlite3VdbeChangeP4( v, -1, pValue, P4_MEM );
}
#if !SQLITE_OMIT_FLOATING_POINT
if ( iReg >= 0 && pTab.aCol[i].affinity == SQLITE_AFF_REAL )
{
sqlite3VdbeAddOp1( v, OP_RealAffinity, iReg );
}
#endif
}
}
/*
** Process an UPDATE statement.
**
** UPDATE OR IGNORE table_wxyz SET a=b, c=d WHERE e<5 AND f NOT NULL;
** \_______/ \________/ \______/ \________________/
* onError pTabList pChanges pWhere
*/
static void sqlite3Update(
Parse pParse, /* The parser context */
SrcList pTabList, /* The table in which we should change things */
ExprList pChanges, /* Things to be changed */
Expr pWhere, /* The WHERE clause. May be null */
int onError /* How to handle constraint errors */
)
{
int i, j; /* Loop counters */
Table pTab; /* The table to be updated */
int addr = 0; /* VDBE instruction address of the start of the loop */
WhereInfo pWInfo; /* Information about the WHERE clause */
Vdbe v; /* The virtual database engine */
Index pIdx; /* For looping over indices */
int nIdx; /* Number of indices that need updating */
int iCur; /* VDBE Cursor number of pTab */
sqlite3 db; /* The database structure */
int[] aRegIdx = null; /* One register assigned to each index to be updated */
int[] aXRef = null; /* aXRef[i] is the index in pChanges.a[] of the
** an expression for the i-th column of the table.
** aXRef[i]==-1 if the i-th column is not changed. */
bool chngRowid; /* True if the record number is being changed */
Expr pRowidExpr = null; /* Expression defining the new record number */
bool openAll = false; /* True if all indices need to be opened */
AuthContext sContext; /* The authorization context */
NameContext sNC; /* The name-context to resolve expressions in */
int iDb; /* Database containing the table being updated */
bool okOnePass; /* True for one-pass algorithm without the FIFO */
bool hasFK; /* True if foreign key processing is required */
#if !SQLITE_OMIT_TRIGGER
bool isView; /* True when updating a view (INSTEAD OF trigger) */
Trigger pTrigger; /* List of triggers on pTab, if required */
int tmask = 0; /* Mask of TRIGGER_BEFORE|TRIGGER_AFTER */
#endif
int newmask; /* Mask of NEW.* columns accessed by BEFORE triggers */
/* Register Allocations */
int regRowCount = 0; /* A count of rows changed */
int regOldRowid; /* The old rowid */
int regNewRowid; /* The new rowid */
int regNew;
int regOld = 0;
int regRowSet = 0; /* Rowset of rows to be updated */
sContext = new AuthContext(); //memset( &sContext, 0, sizeof( sContext ) );
db = pParse.db;
if ( pParse.nErr != 0 /*|| db.mallocFailed != 0 */ )
{
goto update_cleanup;
}
Debug.Assert( pTabList.nSrc == 1 );
/* Locate the table which we want to update.
*/
pTab = sqlite3SrcListLookup( pParse, pTabList );
if ( pTab == null )
goto update_cleanup;
iDb = sqlite3SchemaToIndex( pParse.db, pTab.pSchema );
/* Figure out if we have any triggers and if the table being
** updated is a view.
*/
#if !SQLITE_OMIT_TRIGGER
pTrigger = sqlite3TriggersExist( pParse, pTab, TK_UPDATE, pChanges, out tmask );
isView = pTab.pSelect != null;
Debug.Assert( pTrigger != null || tmask == 0 );
#else
const Trigger pTrigger = null;//# define pTrigger 0
const int tmask = 0; //# define tmask 0
#endif
#if SQLITE_OMIT_TRIGGER || SQLITE_OMIT_VIEW
// # undef isView
const bool isView = false; //# define isView 0
#endif
if ( sqlite3ViewGetColumnNames( pParse, pTab ) != 0 )
{
goto update_cleanup;
}
if ( sqlite3IsReadOnly( pParse, pTab, tmask ) )
{
goto update_cleanup;
}
aXRef = new int[pTab.nCol];// sqlite3DbMallocRaw(db, sizeof(int) * pTab.nCol);
//if ( aXRef == null ) goto update_cleanup;
for ( i = 0; i < pTab.nCol; i++ )
aXRef[i] = -1;
/* Allocate a cursors for the main database table and for all indices.
** The index cursors might not be used, but if they are used they
** need to occur right after the database cursor. So go ahead and
** allocate enough space, just in case.
*/
pTabList.a[0].iCursor = iCur = pParse.nTab++;
for ( pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext )
{
pParse.nTab++;
}
/* Initialize the name-context */
sNC = new NameContext();// memset(&sNC, 0, sNC).Length;
sNC.pParse = pParse;
sNC.pSrcList = pTabList;
/* Resolve the column names in all the expressions of the
** of the UPDATE statement. Also find the column index
** for each column to be updated in the pChanges array. For each
** column to be updated, make sure we have authorization to change
** that column.
*/
chngRowid = false;
for ( i = 0; i < pChanges.nExpr; i++ )
{
if ( sqlite3ResolveExprNames( sNC, ref pChanges.a[i].pExpr ) != 0 )
{
goto update_cleanup;
}
for ( j = 0; j < pTab.nCol; j++ )
{
if ( pTab.aCol[j].zName.Equals( pChanges.a[i].zName, StringComparison.OrdinalIgnoreCase ) )
{
if ( j == pTab.iPKey )
{
chngRowid = true;
pRowidExpr = pChanges.a[i].pExpr;
}
aXRef[j] = i;
break;
}
}
if ( j >= pTab.nCol )
{
if ( sqlite3IsRowid( pChanges.a[i].zName ) )
{
chngRowid = true;
pRowidExpr = pChanges.a[i].pExpr;
}
else
{
sqlite3ErrorMsg( pParse, "no such column: %s", pChanges.a[i].zName );
pParse.checkSchema = 1;
goto update_cleanup;
}
}
#if !SQLITE_OMIT_AUTHORIZATION
{
int rc;
rc = sqlite3AuthCheck(pParse, SQLITE_UPDATE, pTab.zName,
pTab.aCol[j].zName, db.aDb[iDb].zName);
if( rc==SQLITE_DENY ){
goto update_cleanup;
}else if( rc==SQLITE_IGNORE ){
aXRef[j] = -1;
}
}
#endif
}
hasFK = sqlite3FkRequired( pParse, pTab, aXRef, chngRowid ? 1 : 0 ) != 0;
/* Allocate memory for the array aRegIdx[]. There is one entry in the
** array for each index associated with table being updated. Fill in
** the value with a register number for indices that are to be used
** and with zero for unused indices.
*/
for ( nIdx = 0, pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext, nIdx++ )
{
}
if ( nIdx > 0 )
{
aRegIdx = new int[nIdx]; // sqlite3DbMallocRaw(db, Index*.Length * nIdx);
if ( aRegIdx == null )
goto update_cleanup;
}
for ( j = 0, pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext, j++ )
{
int reg;
if ( hasFK || chngRowid )
{
reg = ++pParse.nMem;
}
else
{
reg = 0;
for ( i = 0; i < pIdx.nColumn; i++ )
{
if ( aXRef[pIdx.aiColumn[i]] >= 0 )
{
reg = ++pParse.nMem;
break;
}
}
}
aRegIdx[j] = reg;
}
/* Begin generating code. */
v = sqlite3GetVdbe( pParse );
if ( v == null )
goto update_cleanup;
if ( pParse.nested == 0 )
sqlite3VdbeCountChanges( v );
sqlite3BeginWriteOperation( pParse, 1, iDb );
#if !SQLITE_OMIT_VIRTUALTABLE
/* Virtual tables must be handled separately */
if ( IsVirtual( pTab ) )
{
updateVirtualTable( pParse, pTabList, pTab, pChanges, pRowidExpr, aXRef,
pWhere, onError );
pWhere = null;
pTabList = null;
goto update_cleanup;
}
#endif
/* Allocate required registers. */
regOldRowid = regNewRowid = ++pParse.nMem;
if ( pTrigger != null || hasFK )
{
regOld = pParse.nMem + 1;
pParse.nMem += pTab.nCol;
}
if ( chngRowid || pTrigger != null || hasFK )
{
regNewRowid = ++pParse.nMem;
}
regNew = pParse.nMem + 1;
pParse.nMem += pTab.nCol;
/* Start the view context. */
if ( isView )
{
sqlite3AuthContextPush( pParse, sContext, pTab.zName );
}
/* If we are trying to update a view, realize that view into
** a ephemeral table.
*/
#if !(SQLITE_OMIT_VIEW) && !(SQLITE_OMIT_TRIGGER)
if ( isView )
{
sqlite3MaterializeView( pParse, pTab, pWhere, iCur );
}
#endif
/* Resolve the column names in all the expressions in the
** WHERE clause.
*/
if ( sqlite3ResolveExprNames( sNC, ref pWhere ) != 0 )
{
goto update_cleanup;
}
/* Begin the database scan
*/
sqlite3VdbeAddOp2( v, OP_Null, 0, regOldRowid );
ExprList NullOrderby = null;
pWInfo = sqlite3WhereBegin( pParse, pTabList, pWhere, ref NullOrderby, WHERE_ONEPASS_DESIRED );
if ( pWInfo == null )
goto update_cleanup;
okOnePass = pWInfo.okOnePass != 0;
/* Remember the rowid of every item to be updated.
*/
sqlite3VdbeAddOp2( v, OP_Rowid, iCur, regOldRowid );
if ( !okOnePass )
{
regRowSet = ++pParse.nMem;
sqlite3VdbeAddOp2( v, OP_RowSetAdd, regRowSet, regOldRowid );
}
/* End the database scan loop.
*/
sqlite3WhereEnd( pWInfo );
/* Initialize the count of updated rows
*/
if ( ( db.flags & SQLITE_CountRows ) != 0 && null == pParse.pTriggerTab )
{
regRowCount = ++pParse.nMem;
sqlite3VdbeAddOp2( v, OP_Integer, 0, regRowCount );
}
if ( !isView )
{
/*
** Open every index that needs updating. Note that if any
** index could potentially invoke a REPLACE conflict resolution
** action, then we need to open all indices because we might need
** to be deleting some records.
*/
if ( !okOnePass )
sqlite3OpenTable( pParse, iCur, iDb, pTab, OP_OpenWrite );
if ( onError == OE_Replace )
{
openAll = true;
}
else
{
openAll = false;
for ( pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext )
{
if ( pIdx.onError == OE_Replace )
{
openAll = true;
break;
}
}
}
for ( i = 0, pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext, i++ )
{
if ( openAll || aRegIdx[i] > 0 )
{
KeyInfo pKey = sqlite3IndexKeyinfo( pParse, pIdx );
sqlite3VdbeAddOp4( v, OP_OpenWrite, iCur + i + 1, pIdx.tnum, iDb,
pKey, P4_KEYINFO_HANDOFF );
Debug.Assert( pParse.nTab > iCur + i + 1 );
}
}
}
/* Top of the update loop */
if ( okOnePass )
{
int a1 = sqlite3VdbeAddOp1( v, OP_NotNull, regOldRowid );
addr = sqlite3VdbeAddOp0( v, OP_Goto );
sqlite3VdbeJumpHere( v, a1 );
}
else
{
addr = sqlite3VdbeAddOp3( v, OP_RowSetRead, regRowSet, 0, regOldRowid );
}
/* Make cursor iCur point to the record that is being updated. If
** this record does not exist for some reason (deleted by a trigger,
** for example, then jump to the next iteration of the RowSet loop. */
sqlite3VdbeAddOp3( v, OP_NotExists, iCur, addr, regOldRowid );
/* If the record number will change, set register regNewRowid to
** contain the new value. If the record number is not being modified,
** then regNewRowid is the same register as regOldRowid, which is
** already populated. */
Debug.Assert( chngRowid || pTrigger != null || hasFK || regOldRowid == regNewRowid );
if ( chngRowid )
{
sqlite3ExprCode( pParse, pRowidExpr, regNewRowid );
sqlite3VdbeAddOp1( v, OP_MustBeInt, regNewRowid );
}
/* If there are triggers on this table, populate an array of registers
** with the required old.* column data. */
if ( hasFK || pTrigger != null )
{
u32 oldmask = ( hasFK ? sqlite3FkOldmask( pParse, pTab ) : 0 );
oldmask |= sqlite3TriggerColmask( pParse,
pTrigger, pChanges, 0, TRIGGER_BEFORE | TRIGGER_AFTER, pTab, onError
);
for ( i = 0; i < pTab.nCol; i++ )
{
if ( aXRef[i] < 0 || oldmask == 0xffffffff || ( i < 32 && 0 != ( oldmask & ( 1 << i ) ) ) )
{
sqlite3ExprCodeGetColumnOfTable( v, pTab, iCur, i, regOld + i );
}
else
{
sqlite3VdbeAddOp2( v, OP_Null, 0, regOld + i );
}
}
if ( chngRowid == false )
{
sqlite3VdbeAddOp2( v, OP_Copy, regOldRowid, regNewRowid );
}
}
/* Populate the array of registers beginning at regNew with the new
** row data. This array is used to check constaints, create the new
** table and index records, and as the values for any new.* references
** made by triggers.
**
** If there are one or more BEFORE triggers, then do not populate the
** registers associated with columns that are (a) not modified by
** this UPDATE statement and (b) not accessed by new.* references. The
** values for registers not modified by the UPDATE must be reloaded from
** the database after the BEFORE triggers are fired anyway (as the trigger
** may have modified them). So not loading those that are not going to
** be used eliminates some redundant opcodes.
*/
newmask = (int)sqlite3TriggerColmask(
pParse, pTrigger, pChanges, 1, TRIGGER_BEFORE, pTab, onError
);
for ( i = 0; i < pTab.nCol; i++ )
{
if ( i == pTab.iPKey )
{
sqlite3VdbeAddOp2( v, OP_Null, 0, regNew + i );
}
else
{
j = aXRef[i];
if ( j >= 0 )
{
sqlite3ExprCode( pParse, pChanges.a[j].pExpr, regNew + i );
}
else if ( 0 == ( tmask & TRIGGER_BEFORE ) || i > 31 || ( newmask & ( 1 << i ) ) != 0 )
{
/* This branch loads the value of a column that will not be changed
** into a register. This is done if there are no BEFORE triggers, or
** if there are one or more BEFORE triggers that use this value via
** a new.* reference in a trigger program.
*/
testcase( i == 31 );
testcase( i == 32 );
sqlite3VdbeAddOp3( v, OP_Column, iCur, i, regNew + i );
sqlite3ColumnDefault( v, pTab, i, regNew + i );
}
}
}
/* Fire any BEFORE UPDATE triggers. This happens before constraints are
** verified. One could argue that this is wrong.
*/
if ( ( tmask & TRIGGER_BEFORE ) != 0 )
{
sqlite3VdbeAddOp2( v, OP_Affinity, regNew, pTab.nCol );
sqlite3TableAffinityStr( v, pTab );
sqlite3CodeRowTrigger( pParse, pTrigger, TK_UPDATE, pChanges,
TRIGGER_BEFORE, pTab, regOldRowid, onError, addr );
/* The row-trigger may have deleted the row being updated. In this
** case, jump to the next row. No updates or AFTER triggers are
** required. This behaviour - what happens when the row being updated
** is deleted or renamed by a BEFORE trigger - is left undefined in the
** documentation.
*/
sqlite3VdbeAddOp3( v, OP_NotExists, iCur, addr, regOldRowid );
/* If it did not delete it, the row-trigger may still have modified
** some of the columns of the row being updated. Load the values for
** all columns not modified by the update statement into their
** registers in case this has happened.
*/
for ( i = 0; i < pTab.nCol; i++ )
{
if ( aXRef[i] < 0 && i != pTab.iPKey )
{
sqlite3VdbeAddOp3( v, OP_Column, iCur, i, regNew + i );
sqlite3ColumnDefault( v, pTab, i, regNew + i );
}
}
}
if ( !isView )
{
int j1; /* Address of jump instruction */
/* Do constraint checks. */
int iDummy;
sqlite3GenerateConstraintChecks( pParse, pTab, iCur, regNewRowid,
aRegIdx, ( chngRowid ? regOldRowid : 0 ), true, onError, addr, out iDummy );
/* Do FK constraint checks. */
if ( hasFK )
{
sqlite3FkCheck( pParse, pTab, regOldRowid, 0 );
}
/* Delete the index entries associated with the current record. */
j1 = sqlite3VdbeAddOp3( v, OP_NotExists, iCur, 0, regOldRowid );
sqlite3GenerateRowIndexDelete( pParse, pTab, iCur, aRegIdx );
/* If changing the record number, delete the old record. */
if ( hasFK || chngRowid )
{
sqlite3VdbeAddOp2( v, OP_Delete, iCur, 0 );
}
sqlite3VdbeJumpHere( v, j1 );
if ( hasFK )
{
sqlite3FkCheck( pParse, pTab, 0, regNewRowid );
}
/* Insert the new index entries and the new record. */
sqlite3CompleteInsertion( pParse, pTab, iCur, regNewRowid, aRegIdx, true, false, false );
/* Do any ON CASCADE, SET NULL or SET DEFAULT operations required to
** handle rows (possibly in other tables) that refer via a foreign key
** to the row just updated. */
if ( hasFK )
{
sqlite3FkActions( pParse, pTab, pChanges, regOldRowid );
}
}
/* Increment the row counter
*/
if ( ( db.flags & SQLITE_CountRows ) != 0 && null == pParse.pTriggerTab )
{
sqlite3VdbeAddOp2( v, OP_AddImm, regRowCount, 1 );
}
sqlite3CodeRowTrigger( pParse, pTrigger, TK_UPDATE, pChanges,
TRIGGER_AFTER, pTab, regOldRowid, onError, addr );
/* Repeat the above with the next record to be updated, until
** all record selected by the WHERE clause have been updated.
*/
sqlite3VdbeAddOp2( v, OP_Goto, 0, addr );
sqlite3VdbeJumpHere( v, addr );
/* Close all tables */
for ( i = 0, pIdx = pTab.pIndex; pIdx != null; pIdx = pIdx.pNext, i++ )
{
if ( openAll || aRegIdx[i] > 0 )
{
sqlite3VdbeAddOp2( v, OP_Close, iCur + i + 1, 0 );
}
}
sqlite3VdbeAddOp2( v, OP_Close, iCur, 0 );
/* Update the sqlite_sequence table by storing the content of the
** maximum rowid counter values recorded while inserting into
** autoincrement tables.
*/
if ( pParse.nested == 0 && pParse.pTriggerTab == null )
{
sqlite3AutoincrementEnd( pParse );
}
/*
** Return the number of rows that were changed. If this routine is
** generating code because of a call to sqlite3NestedParse(), do not
** invoke the callback function.
*/
if ( ( db.flags & SQLITE_CountRows ) != 0 && null == pParse.pTriggerTab && 0 == pParse.nested )
{
sqlite3VdbeAddOp2( v, OP_ResultRow, regRowCount, 1 );
sqlite3VdbeSetNumCols( v, 1 );
sqlite3VdbeSetColName( v, 0, COLNAME_NAME, "rows updated", SQLITE_STATIC );
}
update_cleanup:
#if !SQLITE_OMIT_AUTHORIZATION
sqlite3AuthContextPop(sContext);
#endif
sqlite3DbFree( db, ref aRegIdx );
sqlite3DbFree( db, ref aXRef );
sqlite3SrcListDelete( db, ref pTabList );
sqlite3ExprListDelete( db, ref pChanges );
sqlite3ExprDelete( db, ref pWhere );
return;
}
/* Make sure "isView" and other macros defined above are undefined. Otherwise
** thely may interfere with compilation of other functions in this file
** (or in another file, if this file becomes part of the amalgamation). */
//#if isView
// #undef isView
//#endif
//#if pTrigger
// #undef pTrigger
//#endif
#if !SQLITE_OMIT_VIRTUALTABLE
/*
** Generate code for an UPDATE of a virtual table.
**
** The strategy is that we create an ephemerial table that contains
** for each row to be changed:
**
** (A) The original rowid of that row.
** (B) The revised rowid for the row. (note1)
** (C) The content of every column in the row.
**
** Then we loop over this ephemeral table and for each row in
** the ephermeral table call VUpdate.
**
** When finished, drop the ephemeral table.
**
** (note1) Actually, if we know in advance that (A) is always the same
** as (B) we only store (A), then duplicate (A) when pulling
** it out of the ephemeral table before calling VUpdate.
*/
static void updateVirtualTable(
Parse pParse, /* The parsing context */
SrcList pSrc, /* The virtual table to be modified */
Table pTab, /* The virtual table */
ExprList pChanges, /* The columns to change in the UPDATE statement */
Expr pRowid, /* Expression used to recompute the rowid */
int[] aXRef, /* Mapping from columns of pTab to entries in pChanges */
Expr pWhere, /* WHERE clause of the UPDATE statement */
int onError /* ON CONFLICT strategy */
)
{
Vdbe v = pParse.pVdbe; /* Virtual machine under construction */
ExprList pEList = null; /* The result set of the SELECT statement */
Select pSelect = null; /* The SELECT statement */
Expr pExpr; /* Temporary expression */
int ephemTab; /* Table holding the result of the SELECT */
int i; /* Loop counter */
int addr; /* Address of top of loop */
int iReg; /* First register in set passed to OP_VUpdate */
sqlite3 db = pParse.db; /* Database connection */
VTable pVTab = sqlite3GetVTable( db, pTab );
SelectDest dest = new SelectDest();
/* Construct the SELECT statement that will find the new values for
** all updated rows.
*/
pEList = sqlite3ExprListAppend( pParse, 0, sqlite3Expr( db, TK_ID, "_rowid_" ) );
if ( pRowid != null)
{
pEList = sqlite3ExprListAppend( pParse, pEList,
sqlite3ExprDup( db, pRowid, 0 ) );
}
Debug.Assert( pTab.iPKey < 0 );
for ( i = 0; i < pTab.nCol; i++ )
{
if ( aXRef[i] >= 0 )
{
pExpr = sqlite3ExprDup( db, pChanges.a[aXRef[i]].pExpr, 0 );
}
else
{
pExpr = sqlite3Expr( db, TK_ID, pTab.aCol[i].zName );
}
pEList = sqlite3ExprListAppend( pParse, pEList, pExpr );
}
pSelect = sqlite3SelectNew( pParse, pEList, pSrc, pWhere, null, null, null, 0, null, null );
/* Create the ephemeral table into which the update results will
** be stored.
*/
Debug.Assert( v != null);
ephemTab = pParse.nTab++;
sqlite3VdbeAddOp2( v, OP_OpenEphemeral, ephemTab, pTab.nCol + 1 + ( ( pRowid != null ) ? 1 : 0 ) );
sqlite3VdbeChangeP5( v, BTREE_UNORDERED );
/* fill the ephemeral table
*/
sqlite3SelectDestInit( dest, SRT_Table, ephemTab );
sqlite3Select( pParse, pSelect, ref dest );
/* Generate code to scan the ephemeral table and call VUpdate. */
iReg = ++pParse.nMem;
pParse.nMem += pTab.nCol + 1;
addr = sqlite3VdbeAddOp2( v, OP_Rewind, ephemTab, 0 );
sqlite3VdbeAddOp3( v, OP_Column, ephemTab, 0, iReg );
sqlite3VdbeAddOp3( v, OP_Column, ephemTab, ( pRowid != null ? 1 : 0 ), iReg + 1 );
for ( i = 0; i < pTab.nCol; i++ )
{
sqlite3VdbeAddOp3( v, OP_Column, ephemTab, i + 1 + ( ( pRowid != null ) ? 1 : 0 ), iReg + 2 + i );
}
sqlite3VtabMakeWritable( pParse, pTab );
sqlite3VdbeAddOp4( v, OP_VUpdate, 0, pTab.nCol + 2, iReg, pVTab, P4_VTAB );
sqlite3VdbeChangeP5( v, (byte)( onError == OE_Default ? OE_Abort : onError ) );
sqlite3MayAbort( pParse );
sqlite3VdbeAddOp2( v, OP_Next, ephemTab, addr + 1 );
sqlite3VdbeJumpHere( v, addr );
sqlite3VdbeAddOp2( v, OP_Close, ephemTab, 0 );
/* Cleanup */
sqlite3SelectDelete( db, ref pSelect );
}
#endif // * SQLITE_OMIT_VIRTUALTABLE */
}
}