mirror of
https://github.com/alliedmodders/amxmodx.git
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a595557e2d
Update to SQLite 3.3.5
368 lines
12 KiB
C
368 lines
12 KiB
C
/*
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** 2005 May 23
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**
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** The author disclaims copyright to this source code. In place of
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** a legal notice, here is a blessing:
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**
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** May you do good and not evil.
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** May you find forgiveness for yourself and forgive others.
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** May you share freely, never taking more than you give.
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**
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*************************************************************************
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**
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** This file contains functions used to access the internal hash tables
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** of user defined functions and collation sequences.
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**
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** $Id$
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*/
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#include "sqliteInt.h"
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/*
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** Invoke the 'collation needed' callback to request a collation sequence
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** in the database text encoding of name zName, length nName.
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** If the collation sequence
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*/
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static void callCollNeeded(sqlite3 *db, const char *zName, int nName){
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assert( !db->xCollNeeded || !db->xCollNeeded16 );
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if( nName<0 ) nName = strlen(zName);
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if( db->xCollNeeded ){
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char *zExternal = sqliteStrNDup(zName, nName);
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if( !zExternal ) return;
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db->xCollNeeded(db->pCollNeededArg, db, (int)ENC(db), zExternal);
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sqliteFree(zExternal);
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}
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#ifndef SQLITE_OMIT_UTF16
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if( db->xCollNeeded16 ){
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char const *zExternal;
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sqlite3_value *pTmp = sqlite3ValueNew();
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sqlite3ValueSetStr(pTmp, nName, zName, SQLITE_UTF8, SQLITE_STATIC);
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zExternal = sqlite3ValueText(pTmp, SQLITE_UTF16NATIVE);
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if( zExternal ){
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db->xCollNeeded16(db->pCollNeededArg, db, (int)ENC(db), zExternal);
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}
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sqlite3ValueFree(pTmp);
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}
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#endif
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}
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/*
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** This routine is called if the collation factory fails to deliver a
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** collation function in the best encoding but there may be other versions
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** of this collation function (for other text encodings) available. Use one
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** of these instead if they exist. Avoid a UTF-8 <-> UTF-16 conversion if
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** possible.
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*/
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static int synthCollSeq(sqlite3 *db, CollSeq *pColl){
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CollSeq *pColl2;
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char *z = pColl->zName;
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int n = strlen(z);
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int i;
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static const u8 aEnc[] = { SQLITE_UTF16BE, SQLITE_UTF16LE, SQLITE_UTF8 };
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for(i=0; i<3; i++){
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pColl2 = sqlite3FindCollSeq(db, aEnc[i], z, n, 0);
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if( pColl2->xCmp!=0 ){
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memcpy(pColl, pColl2, sizeof(CollSeq));
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return SQLITE_OK;
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}
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}
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return SQLITE_ERROR;
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}
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/*
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** This function is responsible for invoking the collation factory callback
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** or substituting a collation sequence of a different encoding when the
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** requested collation sequence is not available in the database native
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** encoding.
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**
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** If it is not NULL, then pColl must point to the database native encoding
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** collation sequence with name zName, length nName.
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**
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** The return value is either the collation sequence to be used in database
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** db for collation type name zName, length nName, or NULL, if no collation
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** sequence can be found.
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*/
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CollSeq *sqlite3GetCollSeq(
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sqlite3* db,
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CollSeq *pColl,
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const char *zName,
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int nName
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){
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CollSeq *p;
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p = pColl;
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if( !p ){
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p = sqlite3FindCollSeq(db, ENC(db), zName, nName, 0);
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}
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if( !p || !p->xCmp ){
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/* No collation sequence of this type for this encoding is registered.
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** Call the collation factory to see if it can supply us with one.
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*/
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callCollNeeded(db, zName, nName);
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p = sqlite3FindCollSeq(db, ENC(db), zName, nName, 0);
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}
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if( p && !p->xCmp && synthCollSeq(db, p) ){
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p = 0;
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}
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assert( !p || p->xCmp );
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return p;
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}
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/*
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** This routine is called on a collation sequence before it is used to
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** check that it is defined. An undefined collation sequence exists when
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** a database is loaded that contains references to collation sequences
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** that have not been defined by sqlite3_create_collation() etc.
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**
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** If required, this routine calls the 'collation needed' callback to
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** request a definition of the collating sequence. If this doesn't work,
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** an equivalent collating sequence that uses a text encoding different
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** from the main database is substituted, if one is available.
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*/
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int sqlite3CheckCollSeq(Parse *pParse, CollSeq *pColl){
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if( pColl ){
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const char *zName = pColl->zName;
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CollSeq *p = sqlite3GetCollSeq(pParse->db, pColl, zName, -1);
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if( !p ){
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if( pParse->nErr==0 ){
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sqlite3ErrorMsg(pParse, "no such collation sequence: %s", zName);
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}
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pParse->nErr++;
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return SQLITE_ERROR;
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}
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assert( p==pColl );
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}
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return SQLITE_OK;
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}
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/*
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** Locate and return an entry from the db.aCollSeq hash table. If the entry
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** specified by zName and nName is not found and parameter 'create' is
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** true, then create a new entry. Otherwise return NULL.
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**
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** Each pointer stored in the sqlite3.aCollSeq hash table contains an
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** array of three CollSeq structures. The first is the collation sequence
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** prefferred for UTF-8, the second UTF-16le, and the third UTF-16be.
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**
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** Stored immediately after the three collation sequences is a copy of
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** the collation sequence name. A pointer to this string is stored in
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** each collation sequence structure.
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*/
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static CollSeq *findCollSeqEntry(
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sqlite3 *db,
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const char *zName,
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int nName,
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int create
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){
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CollSeq *pColl;
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if( nName<0 ) nName = strlen(zName);
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pColl = sqlite3HashFind(&db->aCollSeq, zName, nName);
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if( 0==pColl && create ){
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pColl = sqliteMalloc( 3*sizeof(*pColl) + nName + 1 );
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if( pColl ){
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CollSeq *pDel = 0;
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pColl[0].zName = (char*)&pColl[3];
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pColl[0].enc = SQLITE_UTF8;
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pColl[1].zName = (char*)&pColl[3];
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pColl[1].enc = SQLITE_UTF16LE;
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pColl[2].zName = (char*)&pColl[3];
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pColl[2].enc = SQLITE_UTF16BE;
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memcpy(pColl[0].zName, zName, nName);
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pColl[0].zName[nName] = 0;
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pDel = sqlite3HashInsert(&db->aCollSeq, pColl[0].zName, nName, pColl);
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/* If a malloc() failure occured in sqlite3HashInsert(), it will
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** return the pColl pointer to be deleted (because it wasn't added
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** to the hash table).
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*/
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assert( !pDel || (sqlite3MallocFailed() && pDel==pColl) );
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if( pDel ){
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sqliteFree(pDel);
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pColl = 0;
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}
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}
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}
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return pColl;
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}
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/*
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** Parameter zName points to a UTF-8 encoded string nName bytes long.
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** Return the CollSeq* pointer for the collation sequence named zName
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** for the encoding 'enc' from the database 'db'.
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**
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** If the entry specified is not found and 'create' is true, then create a
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** new entry. Otherwise return NULL.
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*/
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CollSeq *sqlite3FindCollSeq(
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sqlite3 *db,
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u8 enc,
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const char *zName,
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int nName,
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int create
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){
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CollSeq *pColl;
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if( zName ){
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pColl = findCollSeqEntry(db, zName, nName, create);
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}else{
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pColl = db->pDfltColl;
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}
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assert( SQLITE_UTF8==1 && SQLITE_UTF16LE==2 && SQLITE_UTF16BE==3 );
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assert( enc>=SQLITE_UTF8 && enc<=SQLITE_UTF16BE );
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if( pColl ) pColl += enc-1;
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return pColl;
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}
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/*
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** Locate a user function given a name, a number of arguments and a flag
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** indicating whether the function prefers UTF-16 over UTF-8. Return a
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** pointer to the FuncDef structure that defines that function, or return
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** NULL if the function does not exist.
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**
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** If the createFlag argument is true, then a new (blank) FuncDef
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** structure is created and liked into the "db" structure if a
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** no matching function previously existed. When createFlag is true
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** and the nArg parameter is -1, then only a function that accepts
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** any number of arguments will be returned.
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**
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** If createFlag is false and nArg is -1, then the first valid
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** function found is returned. A function is valid if either xFunc
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** or xStep is non-zero.
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**
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** If createFlag is false, then a function with the required name and
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** number of arguments may be returned even if the eTextRep flag does not
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** match that requested.
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*/
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FuncDef *sqlite3FindFunction(
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sqlite3 *db, /* An open database */
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const char *zName, /* Name of the function. Not null-terminated */
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int nName, /* Number of characters in the name */
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int nArg, /* Number of arguments. -1 means any number */
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u8 enc, /* Preferred text encoding */
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int createFlag /* Create new entry if true and does not otherwise exist */
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){
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FuncDef *p; /* Iterator variable */
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FuncDef *pFirst; /* First function with this name */
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FuncDef *pBest = 0; /* Best match found so far */
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int bestmatch = 0;
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assert( enc==SQLITE_UTF8 || enc==SQLITE_UTF16LE || enc==SQLITE_UTF16BE );
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if( nArg<-1 ) nArg = -1;
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pFirst = (FuncDef*)sqlite3HashFind(&db->aFunc, zName, nName);
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for(p=pFirst; p; p=p->pNext){
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/* During the search for the best function definition, bestmatch is set
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** as follows to indicate the quality of the match with the definition
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** pointed to by pBest:
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**
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** 0: pBest is NULL. No match has been found.
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** 1: A variable arguments function that prefers UTF-8 when a UTF-16
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** encoding is requested, or vice versa.
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** 2: A variable arguments function that uses UTF-16BE when UTF-16LE is
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** requested, or vice versa.
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** 3: A variable arguments function using the same text encoding.
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** 4: A function with the exact number of arguments requested that
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** prefers UTF-8 when a UTF-16 encoding is requested, or vice versa.
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** 5: A function with the exact number of arguments requested that
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** prefers UTF-16LE when UTF-16BE is requested, or vice versa.
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** 6: An exact match.
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**
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** A larger value of 'matchqual' indicates a more desirable match.
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*/
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if( p->nArg==-1 || p->nArg==nArg || nArg==-1 ){
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int match = 1; /* Quality of this match */
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if( p->nArg==nArg || nArg==-1 ){
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match = 4;
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}
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if( enc==p->iPrefEnc ){
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match += 2;
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}
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else if( (enc==SQLITE_UTF16LE && p->iPrefEnc==SQLITE_UTF16BE) ||
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(enc==SQLITE_UTF16BE && p->iPrefEnc==SQLITE_UTF16LE) ){
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match += 1;
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}
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if( match>bestmatch ){
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pBest = p;
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bestmatch = match;
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}
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}
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}
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/* If the createFlag parameter is true, and the seach did not reveal an
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** exact match for the name, number of arguments and encoding, then add a
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** new entry to the hash table and return it.
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*/
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if( createFlag && bestmatch<6 &&
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(pBest = sqliteMalloc(sizeof(*pBest)+nName))!=0 ){
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pBest->nArg = nArg;
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pBest->pNext = pFirst;
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pBest->iPrefEnc = enc;
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memcpy(pBest->zName, zName, nName);
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pBest->zName[nName] = 0;
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if( pBest==sqlite3HashInsert(&db->aFunc,pBest->zName,nName,(void*)pBest) ){
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sqliteFree(pBest);
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return 0;
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}
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}
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if( pBest && (pBest->xStep || pBest->xFunc || createFlag) ){
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return pBest;
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}
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return 0;
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}
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/*
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** Free all resources held by the schema structure. The void* argument points
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** at a Schema struct. This function does not call sqliteFree() on the
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** pointer itself, it just cleans up subsiduary resources (i.e. the contents
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** of the schema hash tables).
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*/
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void sqlite3SchemaFree(void *p){
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Hash temp1;
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Hash temp2;
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HashElem *pElem;
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Schema *pSchema = (Schema *)p;
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temp1 = pSchema->tblHash;
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temp2 = pSchema->trigHash;
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sqlite3HashInit(&pSchema->trigHash, SQLITE_HASH_STRING, 0);
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sqlite3HashClear(&pSchema->aFKey);
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sqlite3HashClear(&pSchema->idxHash);
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for(pElem=sqliteHashFirst(&temp2); pElem; pElem=sqliteHashNext(pElem)){
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sqlite3DeleteTrigger((Trigger*)sqliteHashData(pElem));
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}
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sqlite3HashClear(&temp2);
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sqlite3HashInit(&pSchema->tblHash, SQLITE_HASH_STRING, 0);
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for(pElem=sqliteHashFirst(&temp1); pElem; pElem=sqliteHashNext(pElem)){
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Table *pTab = sqliteHashData(pElem);
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sqlite3DeleteTable(0, pTab);
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}
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sqlite3HashClear(&temp1);
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pSchema->pSeqTab = 0;
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pSchema->flags &= ~DB_SchemaLoaded;
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}
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/*
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** Find and return the schema associated with a BTree. Create
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** a new one if necessary.
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*/
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Schema *sqlite3SchemaGet(Btree *pBt){
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Schema * p;
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if( pBt ){
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p = (Schema *)sqlite3BtreeSchema(pBt,sizeof(Schema),sqlite3SchemaFree);
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}else{
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p = (Schema *)sqliteMalloc(sizeof(Schema));
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}
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if( p && 0==p->file_format ){
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sqlite3HashInit(&p->tblHash, SQLITE_HASH_STRING, 0);
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sqlite3HashInit(&p->idxHash, SQLITE_HASH_STRING, 0);
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sqlite3HashInit(&p->trigHash, SQLITE_HASH_STRING, 0);
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sqlite3HashInit(&p->aFKey, SQLITE_HASH_STRING, 1);
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}
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return p;
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}
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