1cce7d176Sdrh /* 2b19a2bc6Sdrh ** 2001 September 15 3cce7d176Sdrh ** 4b19a2bc6Sdrh ** The author disclaims copyright to this source code. In place of 5b19a2bc6Sdrh ** a legal notice, here is a blessing: 6cce7d176Sdrh ** 7b19a2bc6Sdrh ** May you do good and not evil. 8b19a2bc6Sdrh ** May you find forgiveness for yourself and forgive others. 9b19a2bc6Sdrh ** May you share freely, never taking more than you give. 10cce7d176Sdrh ** 11cce7d176Sdrh ************************************************************************* 121ccde15dSdrh ** This file contains routines used for analyzing expressions and 13b19a2bc6Sdrh ** for generating VDBE code that evaluates expressions in SQLite. 14cce7d176Sdrh ** 15*29dda4aeSdrh ** $Id: expr.c,v 1.213 2005/07/21 18:23:20 drh Exp $ 16cce7d176Sdrh */ 17cce7d176Sdrh #include "sqliteInt.h" 1804738cb9Sdrh #include <ctype.h> 19a2e00042Sdrh 20e014a838Sdanielk1977 /* 21e014a838Sdanielk1977 ** Return the 'affinity' of the expression pExpr if any. 22e014a838Sdanielk1977 ** 23e014a838Sdanielk1977 ** If pExpr is a column, a reference to a column via an 'AS' alias, 24e014a838Sdanielk1977 ** or a sub-select with a column as the return value, then the 25e014a838Sdanielk1977 ** affinity of that column is returned. Otherwise, 0x00 is returned, 26e014a838Sdanielk1977 ** indicating no affinity for the expression. 27e014a838Sdanielk1977 ** 28e014a838Sdanielk1977 ** i.e. the WHERE clause expresssions in the following statements all 29e014a838Sdanielk1977 ** have an affinity: 30e014a838Sdanielk1977 ** 31e014a838Sdanielk1977 ** CREATE TABLE t1(a); 32e014a838Sdanielk1977 ** SELECT * FROM t1 WHERE a; 33e014a838Sdanielk1977 ** SELECT a AS b FROM t1 WHERE b; 34e014a838Sdanielk1977 ** SELECT * FROM t1 WHERE (select a from t1); 35e014a838Sdanielk1977 */ 36bf3b721fSdanielk1977 char sqlite3ExprAffinity(Expr *pExpr){ 37487e262fSdrh int op = pExpr->op; 38487e262fSdrh if( op==TK_AS ){ 39bf3b721fSdanielk1977 return sqlite3ExprAffinity(pExpr->pLeft); 40a37cdde0Sdanielk1977 } 41487e262fSdrh if( op==TK_SELECT ){ 42bf3b721fSdanielk1977 return sqlite3ExprAffinity(pExpr->pSelect->pEList->a[0].pExpr); 43a37cdde0Sdanielk1977 } 44487e262fSdrh #ifndef SQLITE_OMIT_CAST 45487e262fSdrh if( op==TK_CAST ){ 46487e262fSdrh return sqlite3AffinityType(&pExpr->token); 47487e262fSdrh } 48487e262fSdrh #endif 49a37cdde0Sdanielk1977 return pExpr->affinity; 50a37cdde0Sdanielk1977 } 51a37cdde0Sdanielk1977 5253db1458Sdrh /* 530202b29eSdanielk1977 ** Return the default collation sequence for the expression pExpr. If 540202b29eSdanielk1977 ** there is no default collation type, return 0. 550202b29eSdanielk1977 */ 567cedc8d4Sdanielk1977 CollSeq *sqlite3ExprCollSeq(Parse *pParse, Expr *pExpr){ 577cedc8d4Sdanielk1977 CollSeq *pColl = 0; 580202b29eSdanielk1977 if( pExpr ){ 597cedc8d4Sdanielk1977 pColl = pExpr->pColl; 60487e262fSdrh if( (pExpr->op==TK_AS || pExpr->op==TK_CAST) && !pColl ){ 617cedc8d4Sdanielk1977 return sqlite3ExprCollSeq(pParse, pExpr->pLeft); 620202b29eSdanielk1977 } 630202b29eSdanielk1977 } 647cedc8d4Sdanielk1977 if( sqlite3CheckCollSeq(pParse, pColl) ){ 657cedc8d4Sdanielk1977 pColl = 0; 667cedc8d4Sdanielk1977 } 677cedc8d4Sdanielk1977 return pColl; 680202b29eSdanielk1977 } 690202b29eSdanielk1977 700202b29eSdanielk1977 /* 71626a879aSdrh ** pExpr is an operand of a comparison operator. aff2 is the 72626a879aSdrh ** type affinity of the other operand. This routine returns the 7353db1458Sdrh ** type affinity that should be used for the comparison operator. 7453db1458Sdrh */ 75e014a838Sdanielk1977 char sqlite3CompareAffinity(Expr *pExpr, char aff2){ 76bf3b721fSdanielk1977 char aff1 = sqlite3ExprAffinity(pExpr); 77e014a838Sdanielk1977 if( aff1 && aff2 ){ 78e014a838Sdanielk1977 /* Both sides of the comparison are columns. If one has numeric or 79e014a838Sdanielk1977 ** integer affinity, use that. Otherwise use no affinity. 80e014a838Sdanielk1977 */ 81e014a838Sdanielk1977 if( aff1==SQLITE_AFF_INTEGER || aff2==SQLITE_AFF_INTEGER ){ 82e014a838Sdanielk1977 return SQLITE_AFF_INTEGER; 83e014a838Sdanielk1977 }else if( aff1==SQLITE_AFF_NUMERIC || aff2==SQLITE_AFF_NUMERIC ){ 84e014a838Sdanielk1977 return SQLITE_AFF_NUMERIC; 85e014a838Sdanielk1977 }else{ 86e014a838Sdanielk1977 return SQLITE_AFF_NONE; 87e014a838Sdanielk1977 } 88e014a838Sdanielk1977 }else if( !aff1 && !aff2 ){ 895f6a87b3Sdrh /* Neither side of the comparison is a column. Compare the 905f6a87b3Sdrh ** results directly. 91e014a838Sdanielk1977 */ 925f6a87b3Sdrh /* return SQLITE_AFF_NUMERIC; // Ticket #805 */ 935f6a87b3Sdrh return SQLITE_AFF_NONE; 94e014a838Sdanielk1977 }else{ 95e014a838Sdanielk1977 /* One side is a column, the other is not. Use the columns affinity. */ 96fe05af87Sdrh assert( aff1==0 || aff2==0 ); 97e014a838Sdanielk1977 return (aff1 + aff2); 98e014a838Sdanielk1977 } 99e014a838Sdanielk1977 } 100e014a838Sdanielk1977 10153db1458Sdrh /* 10253db1458Sdrh ** pExpr is a comparison operator. Return the type affinity that should 10353db1458Sdrh ** be applied to both operands prior to doing the comparison. 10453db1458Sdrh */ 105e014a838Sdanielk1977 static char comparisonAffinity(Expr *pExpr){ 106e014a838Sdanielk1977 char aff; 107e014a838Sdanielk1977 assert( pExpr->op==TK_EQ || pExpr->op==TK_IN || pExpr->op==TK_LT || 108e014a838Sdanielk1977 pExpr->op==TK_GT || pExpr->op==TK_GE || pExpr->op==TK_LE || 109e014a838Sdanielk1977 pExpr->op==TK_NE ); 110e014a838Sdanielk1977 assert( pExpr->pLeft ); 111bf3b721fSdanielk1977 aff = sqlite3ExprAffinity(pExpr->pLeft); 112e014a838Sdanielk1977 if( pExpr->pRight ){ 113e014a838Sdanielk1977 aff = sqlite3CompareAffinity(pExpr->pRight, aff); 114e014a838Sdanielk1977 } 115e014a838Sdanielk1977 else if( pExpr->pSelect ){ 116e014a838Sdanielk1977 aff = sqlite3CompareAffinity(pExpr->pSelect->pEList->a[0].pExpr, aff); 117e014a838Sdanielk1977 } 118e014a838Sdanielk1977 else if( !aff ){ 119e014a838Sdanielk1977 aff = SQLITE_AFF_NUMERIC; 120e014a838Sdanielk1977 } 121e014a838Sdanielk1977 return aff; 122e014a838Sdanielk1977 } 123e014a838Sdanielk1977 124e014a838Sdanielk1977 /* 125e014a838Sdanielk1977 ** pExpr is a comparison expression, eg. '=', '<', IN(...) etc. 126e014a838Sdanielk1977 ** idx_affinity is the affinity of an indexed column. Return true 127e014a838Sdanielk1977 ** if the index with affinity idx_affinity may be used to implement 128e014a838Sdanielk1977 ** the comparison in pExpr. 129e014a838Sdanielk1977 */ 130e014a838Sdanielk1977 int sqlite3IndexAffinityOk(Expr *pExpr, char idx_affinity){ 131e014a838Sdanielk1977 char aff = comparisonAffinity(pExpr); 132e014a838Sdanielk1977 return 133e014a838Sdanielk1977 (aff==SQLITE_AFF_NONE) || 134e014a838Sdanielk1977 (aff==SQLITE_AFF_NUMERIC && idx_affinity==SQLITE_AFF_INTEGER) || 135e014a838Sdanielk1977 (aff==SQLITE_AFF_INTEGER && idx_affinity==SQLITE_AFF_NUMERIC) || 136e014a838Sdanielk1977 (aff==idx_affinity); 137e014a838Sdanielk1977 } 138e014a838Sdanielk1977 139a37cdde0Sdanielk1977 /* 140a37cdde0Sdanielk1977 ** Return the P1 value that should be used for a binary comparison 141a37cdde0Sdanielk1977 ** opcode (OP_Eq, OP_Ge etc.) used to compare pExpr1 and pExpr2. 142a37cdde0Sdanielk1977 ** If jumpIfNull is true, then set the low byte of the returned 143a37cdde0Sdanielk1977 ** P1 value to tell the opcode to jump if either expression 144a37cdde0Sdanielk1977 ** evaluates to NULL. 145a37cdde0Sdanielk1977 */ 146e014a838Sdanielk1977 static int binaryCompareP1(Expr *pExpr1, Expr *pExpr2, int jumpIfNull){ 147bf3b721fSdanielk1977 char aff = sqlite3ExprAffinity(pExpr2); 148f0863fe5Sdrh return ((int)sqlite3CompareAffinity(pExpr1, aff))+(jumpIfNull?0x100:0); 149a37cdde0Sdanielk1977 } 150a37cdde0Sdanielk1977 151a2e00042Sdrh /* 1520202b29eSdanielk1977 ** Return a pointer to the collation sequence that should be used by 1530202b29eSdanielk1977 ** a binary comparison operator comparing pLeft and pRight. 1540202b29eSdanielk1977 ** 1550202b29eSdanielk1977 ** If the left hand expression has a collating sequence type, then it is 1560202b29eSdanielk1977 ** used. Otherwise the collation sequence for the right hand expression 1570202b29eSdanielk1977 ** is used, or the default (BINARY) if neither expression has a collating 1580202b29eSdanielk1977 ** type. 1590202b29eSdanielk1977 */ 1607cedc8d4Sdanielk1977 static CollSeq* binaryCompareCollSeq(Parse *pParse, Expr *pLeft, Expr *pRight){ 1617cedc8d4Sdanielk1977 CollSeq *pColl = sqlite3ExprCollSeq(pParse, pLeft); 1620202b29eSdanielk1977 if( !pColl ){ 1637cedc8d4Sdanielk1977 pColl = sqlite3ExprCollSeq(pParse, pRight); 1640202b29eSdanielk1977 } 1650202b29eSdanielk1977 return pColl; 1660202b29eSdanielk1977 } 1670202b29eSdanielk1977 1680202b29eSdanielk1977 /* 169be5c89acSdrh ** Generate code for a comparison operator. 170be5c89acSdrh */ 171be5c89acSdrh static int codeCompare( 172be5c89acSdrh Parse *pParse, /* The parsing (and code generating) context */ 173be5c89acSdrh Expr *pLeft, /* The left operand */ 174be5c89acSdrh Expr *pRight, /* The right operand */ 175be5c89acSdrh int opcode, /* The comparison opcode */ 176be5c89acSdrh int dest, /* Jump here if true. */ 177be5c89acSdrh int jumpIfNull /* If true, jump if either operand is NULL */ 178be5c89acSdrh ){ 179be5c89acSdrh int p1 = binaryCompareP1(pLeft, pRight, jumpIfNull); 180be5c89acSdrh CollSeq *p3 = binaryCompareCollSeq(pParse, pLeft, pRight); 181be5c89acSdrh return sqlite3VdbeOp3(pParse->pVdbe, opcode, p1, dest, (void*)p3, P3_COLLSEQ); 182be5c89acSdrh } 183be5c89acSdrh 184be5c89acSdrh /* 185a76b5dfcSdrh ** Construct a new expression node and return a pointer to it. Memory 186a76b5dfcSdrh ** for this node is obtained from sqliteMalloc(). The calling function 187a76b5dfcSdrh ** is responsible for making sure the node eventually gets freed. 188a76b5dfcSdrh */ 189e4e72072Sdrh Expr *sqlite3Expr(int op, Expr *pLeft, Expr *pRight, const Token *pToken){ 190a76b5dfcSdrh Expr *pNew; 191a76b5dfcSdrh pNew = sqliteMalloc( sizeof(Expr) ); 192a76b5dfcSdrh if( pNew==0 ){ 193d5d56523Sdanielk1977 /* When malloc fails, delete pLeft and pRight. Expressions passed to 194d5d56523Sdanielk1977 ** this function must always be allocated with sqlite3Expr() for this 195d5d56523Sdanielk1977 ** reason. 196d5d56523Sdanielk1977 */ 197d5d56523Sdanielk1977 sqlite3ExprDelete(pLeft); 198d5d56523Sdanielk1977 sqlite3ExprDelete(pRight); 199a76b5dfcSdrh return 0; 200a76b5dfcSdrh } 201a76b5dfcSdrh pNew->op = op; 202a76b5dfcSdrh pNew->pLeft = pLeft; 203a76b5dfcSdrh pNew->pRight = pRight; 204a58fdfb1Sdanielk1977 pNew->iAgg = -1; 205a76b5dfcSdrh if( pToken ){ 2064b59ab5eSdrh assert( pToken->dyn==0 ); 207145716b3Sdrh pNew->span = pNew->token = *pToken; 208145716b3Sdrh }else if( pLeft && pRight ){ 2094adee20fSdanielk1977 sqlite3ExprSpan(pNew, &pLeft->span, &pRight->span); 210a76b5dfcSdrh } 211a76b5dfcSdrh return pNew; 212a76b5dfcSdrh } 213a76b5dfcSdrh 214a76b5dfcSdrh /* 2154e0cff60Sdrh ** When doing a nested parse, you can include terms in an expression 2164e0cff60Sdrh ** that look like this: #0 #1 #2 ... These terms refer to elements 217288d37f1Sdrh ** on the stack. "#0" means the top of the stack. 218288d37f1Sdrh ** "#1" means the next down on the stack. And so forth. 2194e0cff60Sdrh ** 2204e0cff60Sdrh ** This routine is called by the parser to deal with on of those terms. 2214e0cff60Sdrh ** It immediately generates code to store the value in a memory location. 2224e0cff60Sdrh ** The returns an expression that will code to extract the value from 2234e0cff60Sdrh ** that memory location as needed. 2244e0cff60Sdrh */ 2254e0cff60Sdrh Expr *sqlite3RegisterExpr(Parse *pParse, Token *pToken){ 2264e0cff60Sdrh Vdbe *v = pParse->pVdbe; 2274e0cff60Sdrh Expr *p; 2284e0cff60Sdrh int depth; 2294e0cff60Sdrh if( v==0 ) return 0; 2304e0cff60Sdrh if( pParse->nested==0 ){ 2314e0cff60Sdrh sqlite3ErrorMsg(pParse, "near \"%T\": syntax error", pToken); 2324e0cff60Sdrh return 0; 2334e0cff60Sdrh } 2344e0cff60Sdrh p = sqlite3Expr(TK_REGISTER, 0, 0, pToken); 23573c42a13Sdrh if( p==0 ){ 23673c42a13Sdrh return 0; /* Malloc failed */ 23773c42a13Sdrh } 2384e0cff60Sdrh depth = atoi(&pToken->z[1]); 2394e0cff60Sdrh p->iTable = pParse->nMem++; 2404e0cff60Sdrh sqlite3VdbeAddOp(v, OP_Dup, depth, 0); 2414e0cff60Sdrh sqlite3VdbeAddOp(v, OP_MemStore, p->iTable, 1); 2424e0cff60Sdrh return p; 2434e0cff60Sdrh } 2444e0cff60Sdrh 2454e0cff60Sdrh /* 24691bb0eedSdrh ** Join two expressions using an AND operator. If either expression is 24791bb0eedSdrh ** NULL, then just return the other expression. 24891bb0eedSdrh */ 24991bb0eedSdrh Expr *sqlite3ExprAnd(Expr *pLeft, Expr *pRight){ 25091bb0eedSdrh if( pLeft==0 ){ 25191bb0eedSdrh return pRight; 25291bb0eedSdrh }else if( pRight==0 ){ 25391bb0eedSdrh return pLeft; 25491bb0eedSdrh }else{ 25591bb0eedSdrh return sqlite3Expr(TK_AND, pLeft, pRight, 0); 25691bb0eedSdrh } 25791bb0eedSdrh } 25891bb0eedSdrh 25991bb0eedSdrh /* 2606977fea8Sdrh ** Set the Expr.span field of the given expression to span all 261a76b5dfcSdrh ** text between the two given tokens. 262a76b5dfcSdrh */ 2634adee20fSdanielk1977 void sqlite3ExprSpan(Expr *pExpr, Token *pLeft, Token *pRight){ 2644efc4754Sdrh assert( pRight!=0 ); 2654efc4754Sdrh assert( pLeft!=0 ); 26671c697efSdrh if( !sqlite3_malloc_failed && pRight->z && pLeft->z ){ 267ad6d9460Sdrh assert( pLeft->dyn==0 || pLeft->z[pLeft->n]==0 ); 268145716b3Sdrh if( pLeft->dyn==0 && pRight->dyn==0 ){ 2696977fea8Sdrh pExpr->span.z = pLeft->z; 27097903fefSdrh pExpr->span.n = pRight->n + (pRight->z - pLeft->z); 2714b59ab5eSdrh }else{ 2726977fea8Sdrh pExpr->span.z = 0; 2734b59ab5eSdrh } 274a76b5dfcSdrh } 275a76b5dfcSdrh } 276a76b5dfcSdrh 277a76b5dfcSdrh /* 278a76b5dfcSdrh ** Construct a new expression node for a function with multiple 279a76b5dfcSdrh ** arguments. 280a76b5dfcSdrh */ 2814adee20fSdanielk1977 Expr *sqlite3ExprFunction(ExprList *pList, Token *pToken){ 282a76b5dfcSdrh Expr *pNew; 283a76b5dfcSdrh pNew = sqliteMalloc( sizeof(Expr) ); 284a76b5dfcSdrh if( pNew==0 ){ 285d5d56523Sdanielk1977 sqlite3ExprListDelete(pList); /* Avoid leaking memory when malloc fails */ 286a76b5dfcSdrh return 0; 287a76b5dfcSdrh } 288a76b5dfcSdrh pNew->op = TK_FUNCTION; 289a76b5dfcSdrh pNew->pList = pList; 290a76b5dfcSdrh if( pToken ){ 2914b59ab5eSdrh assert( pToken->dyn==0 ); 292a76b5dfcSdrh pNew->token = *pToken; 293a76b5dfcSdrh }else{ 294a76b5dfcSdrh pNew->token.z = 0; 295a76b5dfcSdrh } 2966977fea8Sdrh pNew->span = pNew->token; 297a76b5dfcSdrh return pNew; 298a76b5dfcSdrh } 299a76b5dfcSdrh 300a76b5dfcSdrh /* 301fa6bc000Sdrh ** Assign a variable number to an expression that encodes a wildcard 302fa6bc000Sdrh ** in the original SQL statement. 303fa6bc000Sdrh ** 304fa6bc000Sdrh ** Wildcards consisting of a single "?" are assigned the next sequential 305fa6bc000Sdrh ** variable number. 306fa6bc000Sdrh ** 307fa6bc000Sdrh ** Wildcards of the form "?nnn" are assigned the number "nnn". We make 308fa6bc000Sdrh ** sure "nnn" is not too be to avoid a denial of service attack when 309fa6bc000Sdrh ** the SQL statement comes from an external source. 310fa6bc000Sdrh ** 311fa6bc000Sdrh ** Wildcards of the form ":aaa" or "$aaa" are assigned the same number 312fa6bc000Sdrh ** as the previous instance of the same wildcard. Or if this is the first 313fa6bc000Sdrh ** instance of the wildcard, the next sequenial variable number is 314fa6bc000Sdrh ** assigned. 315fa6bc000Sdrh */ 316fa6bc000Sdrh void sqlite3ExprAssignVarNumber(Parse *pParse, Expr *pExpr){ 317fa6bc000Sdrh Token *pToken; 318fa6bc000Sdrh if( pExpr==0 ) return; 319fa6bc000Sdrh pToken = &pExpr->token; 320fa6bc000Sdrh assert( pToken->n>=1 ); 321fa6bc000Sdrh assert( pToken->z!=0 ); 322fa6bc000Sdrh assert( pToken->z[0]!=0 ); 323fa6bc000Sdrh if( pToken->n==1 ){ 324fa6bc000Sdrh /* Wildcard of the form "?". Assign the next variable number */ 325fa6bc000Sdrh pExpr->iTable = ++pParse->nVar; 326fa6bc000Sdrh }else if( pToken->z[0]=='?' ){ 327fa6bc000Sdrh /* Wildcard of the form "?nnn". Convert "nnn" to an integer and 328fa6bc000Sdrh ** use it as the variable number */ 329fa6bc000Sdrh int i; 330fa6bc000Sdrh pExpr->iTable = i = atoi(&pToken->z[1]); 331fa6bc000Sdrh if( i<1 || i>SQLITE_MAX_VARIABLE_NUMBER ){ 332fa6bc000Sdrh sqlite3ErrorMsg(pParse, "variable number must be between ?1 and ?%d", 333fa6bc000Sdrh SQLITE_MAX_VARIABLE_NUMBER); 334fa6bc000Sdrh } 335fa6bc000Sdrh if( i>pParse->nVar ){ 336fa6bc000Sdrh pParse->nVar = i; 337fa6bc000Sdrh } 338fa6bc000Sdrh }else{ 339fa6bc000Sdrh /* Wildcards of the form ":aaa" or "$aaa". Reuse the same variable 340fa6bc000Sdrh ** number as the prior appearance of the same name, or if the name 341fa6bc000Sdrh ** has never appeared before, reuse the same variable number 342fa6bc000Sdrh */ 343fa6bc000Sdrh int i, n; 344fa6bc000Sdrh n = pToken->n; 345fa6bc000Sdrh for(i=0; i<pParse->nVarExpr; i++){ 346fa6bc000Sdrh Expr *pE; 347fa6bc000Sdrh if( (pE = pParse->apVarExpr[i])!=0 348fa6bc000Sdrh && pE->token.n==n 349fa6bc000Sdrh && memcmp(pE->token.z, pToken->z, n)==0 ){ 350fa6bc000Sdrh pExpr->iTable = pE->iTable; 351fa6bc000Sdrh break; 352fa6bc000Sdrh } 353fa6bc000Sdrh } 354fa6bc000Sdrh if( i>=pParse->nVarExpr ){ 355fa6bc000Sdrh pExpr->iTable = ++pParse->nVar; 356fa6bc000Sdrh if( pParse->nVarExpr>=pParse->nVarExprAlloc-1 ){ 357fa6bc000Sdrh pParse->nVarExprAlloc += pParse->nVarExprAlloc + 10; 358fa6bc000Sdrh pParse->apVarExpr = sqliteRealloc(pParse->apVarExpr, 359fa6bc000Sdrh pParse->nVarExprAlloc*sizeof(pParse->apVarExpr[0]) ); 360fa6bc000Sdrh } 361fa6bc000Sdrh if( !sqlite3_malloc_failed ){ 362fa6bc000Sdrh assert( pParse->apVarExpr!=0 ); 363fa6bc000Sdrh pParse->apVarExpr[pParse->nVarExpr++] = pExpr; 364fa6bc000Sdrh } 365fa6bc000Sdrh } 366fa6bc000Sdrh } 367fa6bc000Sdrh } 368fa6bc000Sdrh 369fa6bc000Sdrh /* 370a2e00042Sdrh ** Recursively delete an expression tree. 371a2e00042Sdrh */ 3724adee20fSdanielk1977 void sqlite3ExprDelete(Expr *p){ 373a2e00042Sdrh if( p==0 ) return; 3744efc4754Sdrh if( p->span.dyn ) sqliteFree((char*)p->span.z); 3754efc4754Sdrh if( p->token.dyn ) sqliteFree((char*)p->token.z); 3764adee20fSdanielk1977 sqlite3ExprDelete(p->pLeft); 3774adee20fSdanielk1977 sqlite3ExprDelete(p->pRight); 3784adee20fSdanielk1977 sqlite3ExprListDelete(p->pList); 3794adee20fSdanielk1977 sqlite3SelectDelete(p->pSelect); 380a2e00042Sdrh sqliteFree(p); 381a2e00042Sdrh } 382a2e00042Sdrh 383a76b5dfcSdrh 384a76b5dfcSdrh /* 385ff78bd2fSdrh ** The following group of routines make deep copies of expressions, 386ff78bd2fSdrh ** expression lists, ID lists, and select statements. The copies can 387ff78bd2fSdrh ** be deleted (by being passed to their respective ...Delete() routines) 388ff78bd2fSdrh ** without effecting the originals. 389ff78bd2fSdrh ** 3904adee20fSdanielk1977 ** The expression list, ID, and source lists return by sqlite3ExprListDup(), 3914adee20fSdanielk1977 ** sqlite3IdListDup(), and sqlite3SrcListDup() can not be further expanded 392ad3cab52Sdrh ** by subsequent calls to sqlite*ListAppend() routines. 393ff78bd2fSdrh ** 394ad3cab52Sdrh ** Any tables that the SrcList might point to are not duplicated. 395ff78bd2fSdrh */ 3964adee20fSdanielk1977 Expr *sqlite3ExprDup(Expr *p){ 397ff78bd2fSdrh Expr *pNew; 398ff78bd2fSdrh if( p==0 ) return 0; 399fcb78a49Sdrh pNew = sqliteMallocRaw( sizeof(*p) ); 400ff78bd2fSdrh if( pNew==0 ) return 0; 4013b167c75Sdrh memcpy(pNew, p, sizeof(*pNew)); 4026977fea8Sdrh if( p->token.z!=0 ){ 403b9ecf6faSdrh pNew->token.z = sqliteStrNDup(p->token.z, p->token.n); 4044b59ab5eSdrh pNew->token.dyn = 1; 4054b59ab5eSdrh }else{ 4064efc4754Sdrh assert( pNew->token.z==0 ); 4074b59ab5eSdrh } 4086977fea8Sdrh pNew->span.z = 0; 4094adee20fSdanielk1977 pNew->pLeft = sqlite3ExprDup(p->pLeft); 4104adee20fSdanielk1977 pNew->pRight = sqlite3ExprDup(p->pRight); 4114adee20fSdanielk1977 pNew->pList = sqlite3ExprListDup(p->pList); 4124adee20fSdanielk1977 pNew->pSelect = sqlite3SelectDup(p->pSelect); 413aee18ef8Sdanielk1977 pNew->pTab = p->pTab; 414ff78bd2fSdrh return pNew; 415ff78bd2fSdrh } 4164adee20fSdanielk1977 void sqlite3TokenCopy(Token *pTo, Token *pFrom){ 4174b59ab5eSdrh if( pTo->dyn ) sqliteFree((char*)pTo->z); 4184b59ab5eSdrh if( pFrom->z ){ 4194b59ab5eSdrh pTo->n = pFrom->n; 4204b59ab5eSdrh pTo->z = sqliteStrNDup(pFrom->z, pFrom->n); 4214b59ab5eSdrh pTo->dyn = 1; 4224b59ab5eSdrh }else{ 4234b59ab5eSdrh pTo->z = 0; 4244b59ab5eSdrh } 4254b59ab5eSdrh } 4264adee20fSdanielk1977 ExprList *sqlite3ExprListDup(ExprList *p){ 427ff78bd2fSdrh ExprList *pNew; 428145716b3Sdrh struct ExprList_item *pItem, *pOldItem; 429ff78bd2fSdrh int i; 430ff78bd2fSdrh if( p==0 ) return 0; 431ff78bd2fSdrh pNew = sqliteMalloc( sizeof(*pNew) ); 432ff78bd2fSdrh if( pNew==0 ) return 0; 4334305d103Sdrh pNew->nExpr = pNew->nAlloc = p->nExpr; 4343e7bc9caSdrh pNew->a = pItem = sqliteMalloc( p->nExpr*sizeof(p->a[0]) ); 435e0048400Sdanielk1977 if( pItem==0 ){ 436e0048400Sdanielk1977 sqliteFree(pNew); 437e0048400Sdanielk1977 return 0; 438e0048400Sdanielk1977 } 439145716b3Sdrh pOldItem = p->a; 440145716b3Sdrh for(i=0; i<p->nExpr; i++, pItem++, pOldItem++){ 4414b59ab5eSdrh Expr *pNewExpr, *pOldExpr; 442145716b3Sdrh pItem->pExpr = pNewExpr = sqlite3ExprDup(pOldExpr = pOldItem->pExpr); 4436977fea8Sdrh if( pOldExpr->span.z!=0 && pNewExpr ){ 4446977fea8Sdrh /* Always make a copy of the span for top-level expressions in the 4454b59ab5eSdrh ** expression list. The logic in SELECT processing that determines 4464b59ab5eSdrh ** the names of columns in the result set needs this information */ 4474adee20fSdanielk1977 sqlite3TokenCopy(&pNewExpr->span, &pOldExpr->span); 4484b59ab5eSdrh } 4491f3e905cSdrh assert( pNewExpr==0 || pNewExpr->span.z!=0 45024b03fd0Sdanielk1977 || pOldExpr->span.z==0 || sqlite3_malloc_failed ); 451145716b3Sdrh pItem->zName = sqliteStrDup(pOldItem->zName); 452145716b3Sdrh pItem->sortOrder = pOldItem->sortOrder; 453145716b3Sdrh pItem->isAgg = pOldItem->isAgg; 4543e7bc9caSdrh pItem->done = 0; 455ff78bd2fSdrh } 456ff78bd2fSdrh return pNew; 457ff78bd2fSdrh } 45893758c8dSdanielk1977 45993758c8dSdanielk1977 /* 46093758c8dSdanielk1977 ** If cursors, triggers, views and subqueries are all omitted from 46193758c8dSdanielk1977 ** the build, then none of the following routines, except for 46293758c8dSdanielk1977 ** sqlite3SelectDup(), can be called. sqlite3SelectDup() is sometimes 46393758c8dSdanielk1977 ** called with a NULL argument. 46493758c8dSdanielk1977 */ 4656a67fe8eSdanielk1977 #if !defined(SQLITE_OMIT_VIEW) || !defined(SQLITE_OMIT_TRIGGER) \ 4666a67fe8eSdanielk1977 || !defined(SQLITE_OMIT_SUBQUERY) 4674adee20fSdanielk1977 SrcList *sqlite3SrcListDup(SrcList *p){ 468ad3cab52Sdrh SrcList *pNew; 469ad3cab52Sdrh int i; 470113088ecSdrh int nByte; 471ad3cab52Sdrh if( p==0 ) return 0; 472113088ecSdrh nByte = sizeof(*p) + (p->nSrc>0 ? sizeof(p->a[0]) * (p->nSrc-1) : 0); 4734efc4754Sdrh pNew = sqliteMallocRaw( nByte ); 474ad3cab52Sdrh if( pNew==0 ) return 0; 4754305d103Sdrh pNew->nSrc = pNew->nAlloc = p->nSrc; 476ad3cab52Sdrh for(i=0; i<p->nSrc; i++){ 4774efc4754Sdrh struct SrcList_item *pNewItem = &pNew->a[i]; 4784efc4754Sdrh struct SrcList_item *pOldItem = &p->a[i]; 479ed8a3bb1Sdrh Table *pTab; 4804efc4754Sdrh pNewItem->zDatabase = sqliteStrDup(pOldItem->zDatabase); 4814efc4754Sdrh pNewItem->zName = sqliteStrDup(pOldItem->zName); 4824efc4754Sdrh pNewItem->zAlias = sqliteStrDup(pOldItem->zAlias); 4834efc4754Sdrh pNewItem->jointype = pOldItem->jointype; 4844efc4754Sdrh pNewItem->iCursor = pOldItem->iCursor; 485ed8a3bb1Sdrh pTab = pNewItem->pTab = pOldItem->pTab; 486ed8a3bb1Sdrh if( pTab ){ 487ed8a3bb1Sdrh pTab->nRef++; 488a1cb183dSdanielk1977 } 4894adee20fSdanielk1977 pNewItem->pSelect = sqlite3SelectDup(pOldItem->pSelect); 4904adee20fSdanielk1977 pNewItem->pOn = sqlite3ExprDup(pOldItem->pOn); 4914adee20fSdanielk1977 pNewItem->pUsing = sqlite3IdListDup(pOldItem->pUsing); 4926c18b6e0Sdanielk1977 pNewItem->colUsed = pOldItem->colUsed; 493ad3cab52Sdrh } 494ad3cab52Sdrh return pNew; 495ad3cab52Sdrh } 4964adee20fSdanielk1977 IdList *sqlite3IdListDup(IdList *p){ 497ff78bd2fSdrh IdList *pNew; 498ff78bd2fSdrh int i; 499ff78bd2fSdrh if( p==0 ) return 0; 5004efc4754Sdrh pNew = sqliteMallocRaw( sizeof(*pNew) ); 501ff78bd2fSdrh if( pNew==0 ) return 0; 5024305d103Sdrh pNew->nId = pNew->nAlloc = p->nId; 5034efc4754Sdrh pNew->a = sqliteMallocRaw( p->nId*sizeof(p->a[0]) ); 504d5d56523Sdanielk1977 if( pNew->a==0 ){ 505d5d56523Sdanielk1977 sqliteFree(pNew); 506d5d56523Sdanielk1977 return 0; 507d5d56523Sdanielk1977 } 508ff78bd2fSdrh for(i=0; i<p->nId; i++){ 5094efc4754Sdrh struct IdList_item *pNewItem = &pNew->a[i]; 5104efc4754Sdrh struct IdList_item *pOldItem = &p->a[i]; 5114efc4754Sdrh pNewItem->zName = sqliteStrDup(pOldItem->zName); 5124efc4754Sdrh pNewItem->idx = pOldItem->idx; 513ff78bd2fSdrh } 514ff78bd2fSdrh return pNew; 515ff78bd2fSdrh } 5164adee20fSdanielk1977 Select *sqlite3SelectDup(Select *p){ 517ff78bd2fSdrh Select *pNew; 518ff78bd2fSdrh if( p==0 ) return 0; 5194efc4754Sdrh pNew = sqliteMallocRaw( sizeof(*p) ); 520ff78bd2fSdrh if( pNew==0 ) return 0; 521ff78bd2fSdrh pNew->isDistinct = p->isDistinct; 5224adee20fSdanielk1977 pNew->pEList = sqlite3ExprListDup(p->pEList); 5234adee20fSdanielk1977 pNew->pSrc = sqlite3SrcListDup(p->pSrc); 5244adee20fSdanielk1977 pNew->pWhere = sqlite3ExprDup(p->pWhere); 5254adee20fSdanielk1977 pNew->pGroupBy = sqlite3ExprListDup(p->pGroupBy); 5264adee20fSdanielk1977 pNew->pHaving = sqlite3ExprDup(p->pHaving); 5274adee20fSdanielk1977 pNew->pOrderBy = sqlite3ExprListDup(p->pOrderBy); 528ff78bd2fSdrh pNew->op = p->op; 5294adee20fSdanielk1977 pNew->pPrior = sqlite3SelectDup(p->pPrior); 530a2dc3b1aSdanielk1977 pNew->pLimit = sqlite3ExprDup(p->pLimit); 531a2dc3b1aSdanielk1977 pNew->pOffset = sqlite3ExprDup(p->pOffset); 5327b58daeaSdrh pNew->iLimit = -1; 5337b58daeaSdrh pNew->iOffset = -1; 5349170dd7eSdrh pNew->ppOpenVirtual = 0; 535a1cb183dSdanielk1977 pNew->isResolved = p->isResolved; 536a1cb183dSdanielk1977 pNew->isAgg = p->isAgg; 537ff78bd2fSdrh return pNew; 538ff78bd2fSdrh } 53993758c8dSdanielk1977 #else 54093758c8dSdanielk1977 Select *sqlite3SelectDup(Select *p){ 54193758c8dSdanielk1977 assert( p==0 ); 54293758c8dSdanielk1977 return 0; 54393758c8dSdanielk1977 } 54493758c8dSdanielk1977 #endif 545ff78bd2fSdrh 546ff78bd2fSdrh 547ff78bd2fSdrh /* 548a76b5dfcSdrh ** Add a new element to the end of an expression list. If pList is 549a76b5dfcSdrh ** initially NULL, then create a new expression list. 550a76b5dfcSdrh */ 5514adee20fSdanielk1977 ExprList *sqlite3ExprListAppend(ExprList *pList, Expr *pExpr, Token *pName){ 552a76b5dfcSdrh if( pList==0 ){ 553a76b5dfcSdrh pList = sqliteMalloc( sizeof(ExprList) ); 554a76b5dfcSdrh if( pList==0 ){ 555d5d56523Sdanielk1977 goto no_mem; 556a76b5dfcSdrh } 5574efc4754Sdrh assert( pList->nAlloc==0 ); 558a76b5dfcSdrh } 5594305d103Sdrh if( pList->nAlloc<=pList->nExpr ){ 560d5d56523Sdanielk1977 struct ExprList_item *a; 561d5d56523Sdanielk1977 int n = pList->nAlloc*2 + 4; 562d5d56523Sdanielk1977 a = sqliteRealloc(pList->a, n*sizeof(pList->a[0])); 563d5d56523Sdanielk1977 if( a==0 ){ 564d5d56523Sdanielk1977 goto no_mem; 565a76b5dfcSdrh } 566d5d56523Sdanielk1977 pList->a = a; 567d5d56523Sdanielk1977 pList->nAlloc = n; 568a76b5dfcSdrh } 5694efc4754Sdrh assert( pList->a!=0 ); 5704efc4754Sdrh if( pExpr || pName ){ 5714efc4754Sdrh struct ExprList_item *pItem = &pList->a[pList->nExpr++]; 5724efc4754Sdrh memset(pItem, 0, sizeof(*pItem)); 573a99db3b6Sdrh pItem->zName = sqlite3NameFromToken(pName); 574e94ddc9eSdanielk1977 pItem->pExpr = pExpr; 575a76b5dfcSdrh } 576a76b5dfcSdrh return pList; 577d5d56523Sdanielk1977 578d5d56523Sdanielk1977 no_mem: 579d5d56523Sdanielk1977 /* Avoid leaking memory if malloc has failed. */ 580d5d56523Sdanielk1977 sqlite3ExprDelete(pExpr); 581d5d56523Sdanielk1977 sqlite3ExprListDelete(pList); 582d5d56523Sdanielk1977 return 0; 583a76b5dfcSdrh } 584a76b5dfcSdrh 585a76b5dfcSdrh /* 586a76b5dfcSdrh ** Delete an entire expression list. 587a76b5dfcSdrh */ 5884adee20fSdanielk1977 void sqlite3ExprListDelete(ExprList *pList){ 589a76b5dfcSdrh int i; 590be5c89acSdrh struct ExprList_item *pItem; 591a76b5dfcSdrh if( pList==0 ) return; 5921bdd9b57Sdrh assert( pList->a!=0 || (pList->nExpr==0 && pList->nAlloc==0) ); 5931bdd9b57Sdrh assert( pList->nExpr<=pList->nAlloc ); 594be5c89acSdrh for(pItem=pList->a, i=0; i<pList->nExpr; i++, pItem++){ 595be5c89acSdrh sqlite3ExprDelete(pItem->pExpr); 596be5c89acSdrh sqliteFree(pItem->zName); 597a76b5dfcSdrh } 598a76b5dfcSdrh sqliteFree(pList->a); 599a76b5dfcSdrh sqliteFree(pList); 600a76b5dfcSdrh } 601a76b5dfcSdrh 602a76b5dfcSdrh /* 603626a879aSdrh ** Walk an expression tree. Call xFunc for each node visited. 60473b211abSdrh ** 605626a879aSdrh ** The return value from xFunc determines whether the tree walk continues. 606626a879aSdrh ** 0 means continue walking the tree. 1 means do not walk children 607626a879aSdrh ** of the current node but continue with siblings. 2 means abandon 608626a879aSdrh ** the tree walk completely. 609626a879aSdrh ** 610626a879aSdrh ** The return value from this routine is 1 to abandon the tree walk 611626a879aSdrh ** and 0 to continue. 612626a879aSdrh */ 613a58fdfb1Sdanielk1977 static int walkExprList(ExprList *, int (*)(void *, Expr*), void *); 614626a879aSdrh static int walkExprTree(Expr *pExpr, int (*xFunc)(void*,Expr*), void *pArg){ 615626a879aSdrh int rc; 616626a879aSdrh if( pExpr==0 ) return 0; 617626a879aSdrh rc = (*xFunc)(pArg, pExpr); 618626a879aSdrh if( rc==0 ){ 619626a879aSdrh if( walkExprTree(pExpr->pLeft, xFunc, pArg) ) return 1; 620626a879aSdrh if( walkExprTree(pExpr->pRight, xFunc, pArg) ) return 1; 621a58fdfb1Sdanielk1977 if( walkExprList(pExpr->pList, xFunc, pArg) ) return 1; 622626a879aSdrh } 623626a879aSdrh return rc>1; 624626a879aSdrh } 625626a879aSdrh 626626a879aSdrh /* 627a58fdfb1Sdanielk1977 ** Call walkExprTree() for every expression in list p. 628a58fdfb1Sdanielk1977 */ 629a58fdfb1Sdanielk1977 static int walkExprList(ExprList *p, int (*xFunc)(void *, Expr*), void *pArg){ 630a58fdfb1Sdanielk1977 int i; 631a58fdfb1Sdanielk1977 struct ExprList_item *pItem; 632a58fdfb1Sdanielk1977 if( !p ) return 0; 633a58fdfb1Sdanielk1977 for(i=p->nExpr, pItem=p->a; i>0; i--, pItem++){ 634a58fdfb1Sdanielk1977 if( walkExprTree(pItem->pExpr, xFunc, pArg) ) return 1; 635a58fdfb1Sdanielk1977 } 636a58fdfb1Sdanielk1977 return 0; 637a58fdfb1Sdanielk1977 } 638a58fdfb1Sdanielk1977 639a58fdfb1Sdanielk1977 /* 640a58fdfb1Sdanielk1977 ** Call walkExprTree() for every expression in Select p, not including 641a58fdfb1Sdanielk1977 ** expressions that are part of sub-selects in any FROM clause or the LIMIT 642a58fdfb1Sdanielk1977 ** or OFFSET expressions.. 643a58fdfb1Sdanielk1977 */ 644a58fdfb1Sdanielk1977 static int walkSelectExpr(Select *p, int (*xFunc)(void *, Expr*), void *pArg){ 645a58fdfb1Sdanielk1977 walkExprList(p->pEList, xFunc, pArg); 646a58fdfb1Sdanielk1977 walkExprTree(p->pWhere, xFunc, pArg); 647a58fdfb1Sdanielk1977 walkExprList(p->pGroupBy, xFunc, pArg); 648a58fdfb1Sdanielk1977 walkExprTree(p->pHaving, xFunc, pArg); 649a58fdfb1Sdanielk1977 walkExprList(p->pOrderBy, xFunc, pArg); 650a58fdfb1Sdanielk1977 return 0; 651a58fdfb1Sdanielk1977 } 652a58fdfb1Sdanielk1977 653a58fdfb1Sdanielk1977 654a58fdfb1Sdanielk1977 /* 655626a879aSdrh ** This routine is designed as an xFunc for walkExprTree(). 656626a879aSdrh ** 657626a879aSdrh ** pArg is really a pointer to an integer. If we can tell by looking 65873b211abSdrh ** at pExpr that the expression that contains pExpr is not a constant 65973b211abSdrh ** expression, then set *pArg to 0 and return 2 to abandon the tree walk. 66073b211abSdrh ** If pExpr does does not disqualify the expression from being a constant 66173b211abSdrh ** then do nothing. 66273b211abSdrh ** 66373b211abSdrh ** After walking the whole tree, if no nodes are found that disqualify 66473b211abSdrh ** the expression as constant, then we assume the whole expression 66573b211abSdrh ** is constant. See sqlite3ExprIsConstant() for additional information. 666626a879aSdrh */ 667626a879aSdrh static int exprNodeIsConstant(void *pArg, Expr *pExpr){ 668626a879aSdrh switch( pExpr->op ){ 669eb55bd2fSdrh /* Consider functions to be constant if all their arguments are constant 670eb55bd2fSdrh ** and *pArg==2 */ 671eb55bd2fSdrh case TK_FUNCTION: 672eb55bd2fSdrh if( *((int*)pArg)==2 ) return 0; 673eb55bd2fSdrh /* Fall through */ 674626a879aSdrh case TK_ID: 675626a879aSdrh case TK_COLUMN: 676626a879aSdrh case TK_DOT: 677626a879aSdrh case TK_AGG_FUNCTION: 678fe2093d7Sdrh #ifndef SQLITE_OMIT_SUBQUERY 679fe2093d7Sdrh case TK_SELECT: 680fe2093d7Sdrh case TK_EXISTS: 681fe2093d7Sdrh #endif 682626a879aSdrh *((int*)pArg) = 0; 683626a879aSdrh return 2; 684626a879aSdrh default: 685626a879aSdrh return 0; 686626a879aSdrh } 687626a879aSdrh } 688626a879aSdrh 689626a879aSdrh /* 690fef5208cSdrh ** Walk an expression tree. Return 1 if the expression is constant 691eb55bd2fSdrh ** and 0 if it involves variables or function calls. 6922398937bSdrh ** 6932398937bSdrh ** For the purposes of this function, a double-quoted string (ex: "abc") 6942398937bSdrh ** is considered a variable but a single-quoted string (ex: 'abc') is 6952398937bSdrh ** a constant. 696fef5208cSdrh */ 6974adee20fSdanielk1977 int sqlite3ExprIsConstant(Expr *p){ 698626a879aSdrh int isConst = 1; 699626a879aSdrh walkExprTree(p, exprNodeIsConstant, &isConst); 700626a879aSdrh return isConst; 701fef5208cSdrh } 702fef5208cSdrh 703fef5208cSdrh /* 704eb55bd2fSdrh ** Walk an expression tree. Return 1 if the expression is constant 705eb55bd2fSdrh ** or a function call with constant arguments. Return and 0 if there 706eb55bd2fSdrh ** are any variables. 707eb55bd2fSdrh ** 708eb55bd2fSdrh ** For the purposes of this function, a double-quoted string (ex: "abc") 709eb55bd2fSdrh ** is considered a variable but a single-quoted string (ex: 'abc') is 710eb55bd2fSdrh ** a constant. 711eb55bd2fSdrh */ 712eb55bd2fSdrh int sqlite3ExprIsConstantOrFunction(Expr *p){ 713eb55bd2fSdrh int isConst = 2; 714eb55bd2fSdrh walkExprTree(p, exprNodeIsConstant, &isConst); 715eb55bd2fSdrh return isConst!=0; 716eb55bd2fSdrh } 717eb55bd2fSdrh 718eb55bd2fSdrh /* 71973b211abSdrh ** If the expression p codes a constant integer that is small enough 720202b2df7Sdrh ** to fit in a 32-bit integer, return 1 and put the value of the integer 721202b2df7Sdrh ** in *pValue. If the expression is not an integer or if it is too big 722202b2df7Sdrh ** to fit in a signed 32-bit integer, return 0 and leave *pValue unchanged. 723e4de1febSdrh */ 7244adee20fSdanielk1977 int sqlite3ExprIsInteger(Expr *p, int *pValue){ 725e4de1febSdrh switch( p->op ){ 726e4de1febSdrh case TK_INTEGER: { 727fec19aadSdrh if( sqlite3GetInt32(p->token.z, pValue) ){ 728e4de1febSdrh return 1; 729e4de1febSdrh } 730202b2df7Sdrh break; 731202b2df7Sdrh } 7324b59ab5eSdrh case TK_UPLUS: { 7334adee20fSdanielk1977 return sqlite3ExprIsInteger(p->pLeft, pValue); 7344b59ab5eSdrh } 735e4de1febSdrh case TK_UMINUS: { 736e4de1febSdrh int v; 7374adee20fSdanielk1977 if( sqlite3ExprIsInteger(p->pLeft, &v) ){ 738e4de1febSdrh *pValue = -v; 739e4de1febSdrh return 1; 740e4de1febSdrh } 741e4de1febSdrh break; 742e4de1febSdrh } 743e4de1febSdrh default: break; 744e4de1febSdrh } 745e4de1febSdrh return 0; 746e4de1febSdrh } 747e4de1febSdrh 748e4de1febSdrh /* 749c4a3c779Sdrh ** Return TRUE if the given string is a row-id column name. 750c4a3c779Sdrh */ 7514adee20fSdanielk1977 int sqlite3IsRowid(const char *z){ 7524adee20fSdanielk1977 if( sqlite3StrICmp(z, "_ROWID_")==0 ) return 1; 7534adee20fSdanielk1977 if( sqlite3StrICmp(z, "ROWID")==0 ) return 1; 7544adee20fSdanielk1977 if( sqlite3StrICmp(z, "OID")==0 ) return 1; 755c4a3c779Sdrh return 0; 756c4a3c779Sdrh } 757c4a3c779Sdrh 758c4a3c779Sdrh /* 7598141f61eSdrh ** Given the name of a column of the form X.Y.Z or Y.Z or just Z, look up 7608141f61eSdrh ** that name in the set of source tables in pSrcList and make the pExpr 7618141f61eSdrh ** expression node refer back to that source column. The following changes 7628141f61eSdrh ** are made to pExpr: 7638141f61eSdrh ** 7648141f61eSdrh ** pExpr->iDb Set the index in db->aDb[] of the database holding 7658141f61eSdrh ** the table. 7668141f61eSdrh ** pExpr->iTable Set to the cursor number for the table obtained 7678141f61eSdrh ** from pSrcList. 7688141f61eSdrh ** pExpr->iColumn Set to the column number within the table. 7698141f61eSdrh ** pExpr->op Set to TK_COLUMN. 7708141f61eSdrh ** pExpr->pLeft Any expression this points to is deleted 7718141f61eSdrh ** pExpr->pRight Any expression this points to is deleted. 7728141f61eSdrh ** 7738141f61eSdrh ** The pDbToken is the name of the database (the "X"). This value may be 7748141f61eSdrh ** NULL meaning that name is of the form Y.Z or Z. Any available database 7758141f61eSdrh ** can be used. The pTableToken is the name of the table (the "Y"). This 7768141f61eSdrh ** value can be NULL if pDbToken is also NULL. If pTableToken is NULL it 7778141f61eSdrh ** means that the form of the name is Z and that columns from any table 7788141f61eSdrh ** can be used. 7798141f61eSdrh ** 7808141f61eSdrh ** If the name cannot be resolved unambiguously, leave an error message 7818141f61eSdrh ** in pParse and return non-zero. Return zero on success. 7828141f61eSdrh */ 7838141f61eSdrh static int lookupName( 7848141f61eSdrh Parse *pParse, /* The parsing context */ 7858141f61eSdrh Token *pDbToken, /* Name of the database containing table, or NULL */ 7868141f61eSdrh Token *pTableToken, /* Name of table containing column, or NULL */ 7878141f61eSdrh Token *pColumnToken, /* Name of the column. */ 788626a879aSdrh NameContext *pNC, /* The name context used to resolve the name */ 7898141f61eSdrh Expr *pExpr /* Make this EXPR node point to the selected column */ 7908141f61eSdrh ){ 7918141f61eSdrh char *zDb = 0; /* Name of the database. The "X" in X.Y.Z */ 7928141f61eSdrh char *zTab = 0; /* Name of the table. The "Y" in X.Y.Z or Y.Z */ 7938141f61eSdrh char *zCol = 0; /* Name of the column. The "Z" */ 7948141f61eSdrh int i, j; /* Loop counters */ 7958141f61eSdrh int cnt = 0; /* Number of matching column names */ 7968141f61eSdrh int cntTab = 0; /* Number of matching table names */ 7979bb575fdSdrh sqlite3 *db = pParse->db; /* The database */ 79851669863Sdrh struct SrcList_item *pItem; /* Use for looping over pSrcList items */ 79951669863Sdrh struct SrcList_item *pMatch = 0; /* The matching pSrcList item */ 80073b211abSdrh NameContext *pTopNC = pNC; /* First namecontext in the list */ 8018141f61eSdrh 8028141f61eSdrh assert( pColumnToken && pColumnToken->z ); /* The Z in X.Y.Z cannot be NULL */ 803a99db3b6Sdrh zDb = sqlite3NameFromToken(pDbToken); 804a99db3b6Sdrh zTab = sqlite3NameFromToken(pTableToken); 805a99db3b6Sdrh zCol = sqlite3NameFromToken(pColumnToken); 80624b03fd0Sdanielk1977 if( sqlite3_malloc_failed ){ 807d5d56523Sdanielk1977 goto lookupname_end; 8088141f61eSdrh } 8098141f61eSdrh 8108141f61eSdrh pExpr->iTable = -1; 811626a879aSdrh while( pNC && cnt==0 ){ 812626a879aSdrh SrcList *pSrcList = pNC->pSrcList; 813626a879aSdrh ExprList *pEList = pNC->pEList; 814626a879aSdrh 815626a879aSdrh /* assert( zTab==0 || pEList==0 ); */ 816b3bce662Sdanielk1977 if( pSrcList ){ 81751669863Sdrh for(i=0, pItem=pSrcList->a; i<pSrcList->nSrc; i++, pItem++){ 8188141f61eSdrh Table *pTab = pItem->pTab; 8198141f61eSdrh Column *pCol; 8208141f61eSdrh 8218141f61eSdrh if( pTab==0 ) continue; 8228141f61eSdrh assert( pTab->nCol>0 ); 8238141f61eSdrh if( zTab ){ 8248141f61eSdrh if( pItem->zAlias ){ 8258141f61eSdrh char *zTabName = pItem->zAlias; 8264adee20fSdanielk1977 if( sqlite3StrICmp(zTabName, zTab)!=0 ) continue; 8278141f61eSdrh }else{ 8288141f61eSdrh char *zTabName = pTab->zName; 8294adee20fSdanielk1977 if( zTabName==0 || sqlite3StrICmp(zTabName, zTab)!=0 ) continue; 8304adee20fSdanielk1977 if( zDb!=0 && sqlite3StrICmp(db->aDb[pTab->iDb].zName, zDb)!=0 ){ 8318141f61eSdrh continue; 8328141f61eSdrh } 8338141f61eSdrh } 8348141f61eSdrh } 8358141f61eSdrh if( 0==(cntTab++) ){ 8368141f61eSdrh pExpr->iTable = pItem->iCursor; 8378141f61eSdrh pExpr->iDb = pTab->iDb; 83851669863Sdrh pMatch = pItem; 8398141f61eSdrh } 8408141f61eSdrh for(j=0, pCol=pTab->aCol; j<pTab->nCol; j++, pCol++){ 8414adee20fSdanielk1977 if( sqlite3StrICmp(pCol->zName, zCol)==0 ){ 842873fac0cSdrh IdList *pUsing; 8438141f61eSdrh cnt++; 8448141f61eSdrh pExpr->iTable = pItem->iCursor; 84551669863Sdrh pMatch = pItem; 8468141f61eSdrh pExpr->iDb = pTab->iDb; 8478141f61eSdrh /* Substitute the rowid (column -1) for the INTEGER PRIMARY KEY */ 8488141f61eSdrh pExpr->iColumn = j==pTab->iPKey ? -1 : j; 849a37cdde0Sdanielk1977 pExpr->affinity = pTab->aCol[j].affinity; 8500202b29eSdanielk1977 pExpr->pColl = pTab->aCol[j].pColl; 851355ef361Sdrh if( pItem->jointype & JT_NATURAL ){ 852355ef361Sdrh /* If this match occurred in the left table of a natural join, 853355ef361Sdrh ** then skip the right table to avoid a duplicate match */ 854355ef361Sdrh pItem++; 855355ef361Sdrh i++; 856355ef361Sdrh } 857873fac0cSdrh if( (pUsing = pItem->pUsing)!=0 ){ 858873fac0cSdrh /* If this match occurs on a column that is in the USING clause 859873fac0cSdrh ** of a join, skip the search of the right table of the join 860873fac0cSdrh ** to avoid a duplicate match there. */ 861873fac0cSdrh int k; 862873fac0cSdrh for(k=0; k<pUsing->nId; k++){ 863873fac0cSdrh if( sqlite3StrICmp(pUsing->a[k].zName, zCol)==0 ){ 864873fac0cSdrh pItem++; 865873fac0cSdrh i++; 866873fac0cSdrh break; 867873fac0cSdrh } 868873fac0cSdrh } 869873fac0cSdrh } 8708141f61eSdrh break; 8718141f61eSdrh } 8728141f61eSdrh } 8738141f61eSdrh } 874b3bce662Sdanielk1977 } 8758141f61eSdrh 876b7f9164eSdrh #ifndef SQLITE_OMIT_TRIGGER 8778141f61eSdrh /* If we have not already resolved the name, then maybe 8788141f61eSdrh ** it is a new.* or old.* trigger argument reference 8798141f61eSdrh */ 8808141f61eSdrh if( zDb==0 && zTab!=0 && cnt==0 && pParse->trigStack!=0 ){ 8818141f61eSdrh TriggerStack *pTriggerStack = pParse->trigStack; 8828141f61eSdrh Table *pTab = 0; 8834adee20fSdanielk1977 if( pTriggerStack->newIdx != -1 && sqlite3StrICmp("new", zTab) == 0 ){ 8848141f61eSdrh pExpr->iTable = pTriggerStack->newIdx; 8858141f61eSdrh assert( pTriggerStack->pTab ); 8868141f61eSdrh pTab = pTriggerStack->pTab; 8874adee20fSdanielk1977 }else if( pTriggerStack->oldIdx != -1 && sqlite3StrICmp("old", zTab)==0 ){ 8888141f61eSdrh pExpr->iTable = pTriggerStack->oldIdx; 8898141f61eSdrh assert( pTriggerStack->pTab ); 8908141f61eSdrh pTab = pTriggerStack->pTab; 8918141f61eSdrh } 8928141f61eSdrh 8938141f61eSdrh if( pTab ){ 8948141f61eSdrh int j; 8958141f61eSdrh Column *pCol = pTab->aCol; 8968141f61eSdrh 8978141f61eSdrh pExpr->iDb = pTab->iDb; 8988141f61eSdrh cntTab++; 8998141f61eSdrh for(j=0; j < pTab->nCol; j++, pCol++) { 9004adee20fSdanielk1977 if( sqlite3StrICmp(pCol->zName, zCol)==0 ){ 9018141f61eSdrh cnt++; 9028141f61eSdrh pExpr->iColumn = j==pTab->iPKey ? -1 : j; 903a37cdde0Sdanielk1977 pExpr->affinity = pTab->aCol[j].affinity; 9040202b29eSdanielk1977 pExpr->pColl = pTab->aCol[j].pColl; 905aee18ef8Sdanielk1977 pExpr->pTab = pTab; 9068141f61eSdrh break; 9078141f61eSdrh } 9088141f61eSdrh } 9098141f61eSdrh } 9108141f61eSdrh } 911b7f9164eSdrh #endif /* !defined(SQLITE_OMIT_TRIGGER) */ 9128141f61eSdrh 9138141f61eSdrh /* 9148141f61eSdrh ** Perhaps the name is a reference to the ROWID 9158141f61eSdrh */ 9164adee20fSdanielk1977 if( cnt==0 && cntTab==1 && sqlite3IsRowid(zCol) ){ 9178141f61eSdrh cnt = 1; 9188141f61eSdrh pExpr->iColumn = -1; 919a37cdde0Sdanielk1977 pExpr->affinity = SQLITE_AFF_INTEGER; 9208141f61eSdrh } 9218141f61eSdrh 9228141f61eSdrh /* 9238141f61eSdrh ** If the input is of the form Z (not Y.Z or X.Y.Z) then the name Z 9248141f61eSdrh ** might refer to an result-set alias. This happens, for example, when 9258141f61eSdrh ** we are resolving names in the WHERE clause of the following command: 9268141f61eSdrh ** 9278141f61eSdrh ** SELECT a+b AS x FROM table WHERE x<10; 9288141f61eSdrh ** 9298141f61eSdrh ** In cases like this, replace pExpr with a copy of the expression that 9308141f61eSdrh ** forms the result set entry ("a+b" in the example) and return immediately. 9318141f61eSdrh ** Note that the expression in the result set should have already been 9328141f61eSdrh ** resolved by the time the WHERE clause is resolved. 9338141f61eSdrh */ 93479d5f63fSdrh if( cnt==0 && pEList!=0 && zTab==0 ){ 9358141f61eSdrh for(j=0; j<pEList->nExpr; j++){ 9368141f61eSdrh char *zAs = pEList->a[j].zName; 9374adee20fSdanielk1977 if( zAs!=0 && sqlite3StrICmp(zAs, zCol)==0 ){ 9388141f61eSdrh assert( pExpr->pLeft==0 && pExpr->pRight==0 ); 9398141f61eSdrh pExpr->op = TK_AS; 9408141f61eSdrh pExpr->iColumn = j; 9414adee20fSdanielk1977 pExpr->pLeft = sqlite3ExprDup(pEList->a[j].pExpr); 94215ccce1cSdrh cnt = 1; 9438141f61eSdrh assert( zTab==0 && zDb==0 ); 94415ccce1cSdrh goto lookupname_end_2; 9458141f61eSdrh } 9468141f61eSdrh } 9478141f61eSdrh } 9488141f61eSdrh 949626a879aSdrh /* Advance to the next name context. The loop will exit when either 950626a879aSdrh ** we have a match (cnt>0) or when we run out of name contexts. 951626a879aSdrh */ 952626a879aSdrh if( cnt==0 ){ 953626a879aSdrh pNC = pNC->pNext; 954626a879aSdrh } 955626a879aSdrh } 956626a879aSdrh 9578141f61eSdrh /* 9588141f61eSdrh ** If X and Y are NULL (in other words if only the column name Z is 9598141f61eSdrh ** supplied) and the value of Z is enclosed in double-quotes, then 9608141f61eSdrh ** Z is a string literal if it doesn't match any column names. In that 9618141f61eSdrh ** case, we need to return right away and not make any changes to 9628141f61eSdrh ** pExpr. 96315ccce1cSdrh ** 96415ccce1cSdrh ** Because no reference was made to outer contexts, the pNC->nRef 96515ccce1cSdrh ** fields are not changed in any context. 9668141f61eSdrh */ 9678141f61eSdrh if( cnt==0 && zTab==0 && pColumnToken->z[0]=='"' ){ 9688141f61eSdrh sqliteFree(zCol); 9698141f61eSdrh return 0; 9708141f61eSdrh } 9718141f61eSdrh 9728141f61eSdrh /* 9738141f61eSdrh ** cnt==0 means there was not match. cnt>1 means there were two or 9748141f61eSdrh ** more matches. Either way, we have an error. 9758141f61eSdrh */ 9768141f61eSdrh if( cnt!=1 ){ 9778141f61eSdrh char *z = 0; 9788141f61eSdrh char *zErr; 9798141f61eSdrh zErr = cnt==0 ? "no such column: %s" : "ambiguous column name: %s"; 9808141f61eSdrh if( zDb ){ 9814adee20fSdanielk1977 sqlite3SetString(&z, zDb, ".", zTab, ".", zCol, 0); 9828141f61eSdrh }else if( zTab ){ 9834adee20fSdanielk1977 sqlite3SetString(&z, zTab, ".", zCol, 0); 9848141f61eSdrh }else{ 9858141f61eSdrh z = sqliteStrDup(zCol); 9868141f61eSdrh } 9874adee20fSdanielk1977 sqlite3ErrorMsg(pParse, zErr, z); 9888141f61eSdrh sqliteFree(z); 98973b211abSdrh pTopNC->nErr++; 9908141f61eSdrh } 9918141f61eSdrh 99251669863Sdrh /* If a column from a table in pSrcList is referenced, then record 99351669863Sdrh ** this fact in the pSrcList.a[].colUsed bitmask. Column 0 causes 99451669863Sdrh ** bit 0 to be set. Column 1 sets bit 1. And so forth. If the 99551669863Sdrh ** column number is greater than the number of bits in the bitmask 99651669863Sdrh ** then set the high-order bit of the bitmask. 99751669863Sdrh */ 99851669863Sdrh if( pExpr->iColumn>=0 && pMatch!=0 ){ 99951669863Sdrh int n = pExpr->iColumn; 100051669863Sdrh if( n>=sizeof(Bitmask)*8 ){ 100151669863Sdrh n = sizeof(Bitmask)*8-1; 100251669863Sdrh } 100351669863Sdrh assert( pMatch->iCursor==pExpr->iTable ); 100451669863Sdrh pMatch->colUsed |= 1<<n; 100551669863Sdrh } 100651669863Sdrh 1007d5d56523Sdanielk1977 lookupname_end: 10088141f61eSdrh /* Clean up and return 10098141f61eSdrh */ 10108141f61eSdrh sqliteFree(zDb); 10118141f61eSdrh sqliteFree(zTab); 10124adee20fSdanielk1977 sqlite3ExprDelete(pExpr->pLeft); 10138141f61eSdrh pExpr->pLeft = 0; 10144adee20fSdanielk1977 sqlite3ExprDelete(pExpr->pRight); 10158141f61eSdrh pExpr->pRight = 0; 10168141f61eSdrh pExpr->op = TK_COLUMN; 101715ccce1cSdrh lookupname_end_2: 101815ccce1cSdrh sqliteFree(zCol); 1019626a879aSdrh if( cnt==1 ){ 1020b3bce662Sdanielk1977 assert( pNC!=0 ); 1021626a879aSdrh sqlite3AuthRead(pParse, pExpr, pNC->pSrcList); 1022aee18ef8Sdanielk1977 if( pMatch && !pMatch->pSelect ){ 1023aee18ef8Sdanielk1977 pExpr->pTab = pMatch->pTab; 1024aee18ef8Sdanielk1977 } 102515ccce1cSdrh /* Increment the nRef value on all name contexts from TopNC up to 102615ccce1cSdrh ** the point where the name matched. */ 102715ccce1cSdrh for(;;){ 102815ccce1cSdrh assert( pTopNC!=0 ); 102915ccce1cSdrh pTopNC->nRef++; 103015ccce1cSdrh if( pTopNC==pNC ) break; 103115ccce1cSdrh pTopNC = pTopNC->pNext; 1032626a879aSdrh } 103315ccce1cSdrh return 0; 103415ccce1cSdrh } else { 103515ccce1cSdrh return 1; 103615ccce1cSdrh } 10378141f61eSdrh } 10388141f61eSdrh 10398141f61eSdrh /* 1040626a879aSdrh ** This routine is designed as an xFunc for walkExprTree(). 1041626a879aSdrh ** 104273b211abSdrh ** Resolve symbolic names into TK_COLUMN operators for the current 1043626a879aSdrh ** node in the expression tree. Return 0 to continue the search down 104473b211abSdrh ** the tree or 2 to abort the tree walk. 104573b211abSdrh ** 104673b211abSdrh ** This routine also does error checking and name resolution for 104773b211abSdrh ** function names. The operator for aggregate functions is changed 104873b211abSdrh ** to TK_AGG_FUNCTION. 1049626a879aSdrh */ 1050626a879aSdrh static int nameResolverStep(void *pArg, Expr *pExpr){ 1051626a879aSdrh NameContext *pNC = (NameContext*)pArg; 1052626a879aSdrh SrcList *pSrcList; 1053626a879aSdrh Parse *pParse; 1054626a879aSdrh 1055b3bce662Sdanielk1977 if( pExpr==0 ) return 1; 1056626a879aSdrh assert( pNC!=0 ); 1057626a879aSdrh pSrcList = pNC->pSrcList; 1058626a879aSdrh pParse = pNC->pParse; 1059b3bce662Sdanielk1977 1060626a879aSdrh if( ExprHasAnyProperty(pExpr, EP_Resolved) ) return 1; 1061626a879aSdrh ExprSetProperty(pExpr, EP_Resolved); 1062626a879aSdrh #ifndef NDEBUG 1063626a879aSdrh if( pSrcList ){ 1064940fac9dSdanielk1977 int i; 1065626a879aSdrh for(i=0; i<pSrcList->nSrc; i++){ 1066626a879aSdrh assert( pSrcList->a[i].iCursor>=0 && pSrcList->a[i].iCursor<pParse->nTab); 1067626a879aSdrh } 1068626a879aSdrh } 1069626a879aSdrh #endif 1070626a879aSdrh switch( pExpr->op ){ 1071626a879aSdrh /* Double-quoted strings (ex: "abc") are used as identifiers if 1072626a879aSdrh ** possible. Otherwise they remain as strings. Single-quoted 1073626a879aSdrh ** strings (ex: 'abc') are always string literals. 1074626a879aSdrh */ 1075626a879aSdrh case TK_STRING: { 1076626a879aSdrh if( pExpr->token.z[0]=='\'' ) break; 1077626a879aSdrh /* Fall thru into the TK_ID case if this is a double-quoted string */ 1078626a879aSdrh } 1079626a879aSdrh /* A lone identifier is the name of a column. 1080626a879aSdrh */ 1081626a879aSdrh case TK_ID: { 1082626a879aSdrh lookupName(pParse, 0, 0, &pExpr->token, pNC, pExpr); 1083626a879aSdrh return 1; 1084626a879aSdrh } 1085626a879aSdrh 1086626a879aSdrh /* A table name and column name: ID.ID 1087626a879aSdrh ** Or a database, table and column: ID.ID.ID 1088626a879aSdrh */ 1089626a879aSdrh case TK_DOT: { 1090626a879aSdrh Token *pColumn; 1091626a879aSdrh Token *pTable; 1092626a879aSdrh Token *pDb; 1093626a879aSdrh Expr *pRight; 1094626a879aSdrh 1095b3bce662Sdanielk1977 /* if( pSrcList==0 ) break; */ 1096626a879aSdrh pRight = pExpr->pRight; 1097626a879aSdrh if( pRight->op==TK_ID ){ 1098626a879aSdrh pDb = 0; 1099626a879aSdrh pTable = &pExpr->pLeft->token; 1100626a879aSdrh pColumn = &pRight->token; 1101626a879aSdrh }else{ 1102626a879aSdrh assert( pRight->op==TK_DOT ); 1103626a879aSdrh pDb = &pExpr->pLeft->token; 1104626a879aSdrh pTable = &pRight->pLeft->token; 1105626a879aSdrh pColumn = &pRight->pRight->token; 1106626a879aSdrh } 1107626a879aSdrh lookupName(pParse, pDb, pTable, pColumn, pNC, pExpr); 1108626a879aSdrh return 1; 1109626a879aSdrh } 1110626a879aSdrh 1111626a879aSdrh /* Resolve function names 1112626a879aSdrh */ 1113b71090fdSdrh case TK_CONST_FUNC: 1114626a879aSdrh case TK_FUNCTION: { 1115626a879aSdrh ExprList *pList = pExpr->pList; /* The argument list */ 1116626a879aSdrh int n = pList ? pList->nExpr : 0; /* Number of arguments */ 1117626a879aSdrh int no_such_func = 0; /* True if no such function exists */ 1118626a879aSdrh int wrong_num_args = 0; /* True if wrong number of arguments */ 1119626a879aSdrh int is_agg = 0; /* True if is an aggregate function */ 1120626a879aSdrh int i; 1121626a879aSdrh int nId; /* Number of characters in function name */ 1122626a879aSdrh const char *zId; /* The function name. */ 112373b211abSdrh FuncDef *pDef; /* Information about the function */ 112473b211abSdrh int enc = pParse->db->enc; /* The database encoding */ 1125626a879aSdrh 1126b71090fdSdrh zId = pExpr->token.z; 1127b71090fdSdrh nId = pExpr->token.n; 1128626a879aSdrh pDef = sqlite3FindFunction(pParse->db, zId, nId, n, enc, 0); 1129626a879aSdrh if( pDef==0 ){ 1130626a879aSdrh pDef = sqlite3FindFunction(pParse->db, zId, nId, -1, enc, 0); 1131626a879aSdrh if( pDef==0 ){ 1132626a879aSdrh no_such_func = 1; 1133626a879aSdrh }else{ 1134626a879aSdrh wrong_num_args = 1; 1135626a879aSdrh } 1136626a879aSdrh }else{ 1137626a879aSdrh is_agg = pDef->xFunc==0; 1138626a879aSdrh } 1139626a879aSdrh if( is_agg && !pNC->allowAgg ){ 1140626a879aSdrh sqlite3ErrorMsg(pParse, "misuse of aggregate function %.*s()", nId,zId); 1141626a879aSdrh pNC->nErr++; 1142626a879aSdrh is_agg = 0; 1143626a879aSdrh }else if( no_such_func ){ 1144626a879aSdrh sqlite3ErrorMsg(pParse, "no such function: %.*s", nId, zId); 1145626a879aSdrh pNC->nErr++; 1146626a879aSdrh }else if( wrong_num_args ){ 1147626a879aSdrh sqlite3ErrorMsg(pParse,"wrong number of arguments to function %.*s()", 1148626a879aSdrh nId, zId); 1149626a879aSdrh pNC->nErr++; 1150626a879aSdrh } 1151626a879aSdrh if( is_agg ){ 1152626a879aSdrh pExpr->op = TK_AGG_FUNCTION; 1153626a879aSdrh pNC->hasAgg = 1; 1154626a879aSdrh } 115573b211abSdrh if( is_agg ) pNC->allowAgg = 0; 1156626a879aSdrh for(i=0; pNC->nErr==0 && i<n; i++){ 115773b211abSdrh walkExprTree(pList->a[i].pExpr, nameResolverStep, pNC); 1158626a879aSdrh } 115973b211abSdrh if( is_agg ) pNC->allowAgg = 1; 1160626a879aSdrh /* FIX ME: Compute pExpr->affinity based on the expected return 1161626a879aSdrh ** type of the function 1162626a879aSdrh */ 1163626a879aSdrh return is_agg; 1164626a879aSdrh } 1165b3bce662Sdanielk1977 #ifndef SQLITE_OMIT_SUBQUERY 1166b3bce662Sdanielk1977 case TK_SELECT: 1167b3bce662Sdanielk1977 case TK_EXISTS: 1168b3bce662Sdanielk1977 #endif 1169b3bce662Sdanielk1977 case TK_IN: { 1170b3bce662Sdanielk1977 if( pExpr->pSelect ){ 1171b3bce662Sdanielk1977 int nRef = pNC->nRef; 1172b3bce662Sdanielk1977 sqlite3SelectResolve(pParse, pExpr->pSelect, pNC); 1173b3bce662Sdanielk1977 assert( pNC->nRef>=nRef ); 1174b3bce662Sdanielk1977 if( nRef!=pNC->nRef ){ 1175b3bce662Sdanielk1977 ExprSetProperty(pExpr, EP_VarSelect); 1176b3bce662Sdanielk1977 } 1177b3bce662Sdanielk1977 } 1178b3bce662Sdanielk1977 } 1179626a879aSdrh } 1180626a879aSdrh return 0; 1181626a879aSdrh } 1182626a879aSdrh 1183626a879aSdrh /* 1184cce7d176Sdrh ** This routine walks an expression tree and resolves references to 1185967e8b73Sdrh ** table columns. Nodes of the form ID.ID or ID resolve into an 1186aacc543eSdrh ** index to the table in the table list and a column offset. The 1187aacc543eSdrh ** Expr.opcode for such nodes is changed to TK_COLUMN. The Expr.iTable 1188aacc543eSdrh ** value is changed to the index of the referenced table in pTabList 1189832508b7Sdrh ** plus the "base" value. The base value will ultimately become the 1190aacc543eSdrh ** VDBE cursor number for a cursor that is pointing into the referenced 1191aacc543eSdrh ** table. The Expr.iColumn value is changed to the index of the column 1192aacc543eSdrh ** of the referenced table. The Expr.iColumn value for the special 1193aacc543eSdrh ** ROWID column is -1. Any INTEGER PRIMARY KEY column is tried as an 1194aacc543eSdrh ** alias for ROWID. 119519a775c2Sdrh ** 1196626a879aSdrh ** Also resolve function names and check the functions for proper 1197626a879aSdrh ** usage. Make sure all function names are recognized and all functions 1198626a879aSdrh ** have the correct number of arguments. Leave an error message 1199626a879aSdrh ** in pParse->zErrMsg if anything is amiss. Return the number of errors. 1200626a879aSdrh ** 120173b211abSdrh ** If the expression contains aggregate functions then set the EP_Agg 120273b211abSdrh ** property on the expression. 1203626a879aSdrh */ 1204626a879aSdrh int sqlite3ExprResolveNames( 1205b3bce662Sdanielk1977 NameContext *pNC, /* Namespace to resolve expressions in. */ 1206b3bce662Sdanielk1977 Expr *pExpr /* The expression to be analyzed. */ 1207626a879aSdrh ){ 120873b211abSdrh if( pExpr==0 ) return 0; 1209b3bce662Sdanielk1977 walkExprTree(pExpr, nameResolverStep, pNC); 1210b3bce662Sdanielk1977 if( pNC->nErr>0 ){ 121173b211abSdrh ExprSetProperty(pExpr, EP_Error); 121273b211abSdrh } 121373b211abSdrh return ExprHasProperty(pExpr, EP_Error); 1214626a879aSdrh } 1215626a879aSdrh 12161398ad36Sdrh /* 12171398ad36Sdrh ** A pointer instance of this structure is used to pass information 12181398ad36Sdrh ** through walkExprTree into codeSubqueryStep(). 12191398ad36Sdrh */ 12201398ad36Sdrh typedef struct QueryCoder QueryCoder; 12211398ad36Sdrh struct QueryCoder { 12221398ad36Sdrh Parse *pParse; /* The parsing context */ 12231398ad36Sdrh NameContext *pNC; /* Namespace of first enclosing query */ 12241398ad36Sdrh }; 12251398ad36Sdrh 1226626a879aSdrh 1227626a879aSdrh /* 1228626a879aSdrh ** Generate code for subqueries and IN operators. 1229626a879aSdrh ** 123073b211abSdrh ** IN operators comes in two forms: 1231fef5208cSdrh ** 1232fef5208cSdrh ** expr IN (exprlist) 1233fef5208cSdrh ** and 1234fef5208cSdrh ** expr IN (SELECT ...) 1235fef5208cSdrh ** 1236fef5208cSdrh ** The first form is handled by creating a set holding the list 1237fef5208cSdrh ** of allowed values. The second form causes the SELECT to generate 1238fef5208cSdrh ** a temporary table. 1239cce7d176Sdrh */ 124051522cd3Sdrh #ifndef SQLITE_OMIT_SUBQUERY 1241b3bce662Sdanielk1977 void sqlite3CodeSubselect(Parse *pParse, Expr *pExpr){ 124257dbd7b3Sdrh int testAddr = 0; /* One-time test address */ 1243b3bce662Sdanielk1977 Vdbe *v = sqlite3GetVdbe(pParse); 1244b3bce662Sdanielk1977 if( v==0 ) return; 1245b3bce662Sdanielk1977 124657dbd7b3Sdrh /* This code must be run in its entirety every time it is encountered 124757dbd7b3Sdrh ** if any of the following is true: 124857dbd7b3Sdrh ** 124957dbd7b3Sdrh ** * The right-hand side is a correlated subquery 125057dbd7b3Sdrh ** * The right-hand side is an expression list containing variables 125157dbd7b3Sdrh ** * We are inside a trigger 125257dbd7b3Sdrh ** 125357dbd7b3Sdrh ** If all of the above are false, then we can run this code just once 125457dbd7b3Sdrh ** save the results, and reuse the same result on subsequent invocations. 1255b3bce662Sdanielk1977 */ 1256b3bce662Sdanielk1977 if( !ExprHasAnyProperty(pExpr, EP_VarSelect) && !pParse->trigStack ){ 1257b3bce662Sdanielk1977 int mem = pParse->nMem++; 1258b3bce662Sdanielk1977 sqlite3VdbeAddOp(v, OP_MemLoad, mem, 0); 125957dbd7b3Sdrh testAddr = sqlite3VdbeAddOp(v, OP_If, 0, 0); 126057dbd7b3Sdrh assert( testAddr>0 ); 1261b3bce662Sdanielk1977 sqlite3VdbeAddOp(v, OP_Integer, 1, 0); 1262b3bce662Sdanielk1977 sqlite3VdbeAddOp(v, OP_MemStore, mem, 1); 1263b3bce662Sdanielk1977 } 1264b3bce662Sdanielk1977 1265b3bce662Sdanielk1977 if( pExpr->pSelect ){ 1266b3bce662Sdanielk1977 sqlite3VdbeAddOp(v, OP_AggContextPush, 0, 0); 1267b3bce662Sdanielk1977 } 12686a3ea0e6Sdrh 1269cce7d176Sdrh switch( pExpr->op ){ 1270fef5208cSdrh case TK_IN: { 1271e014a838Sdanielk1977 char affinity; 1272d3d39e93Sdrh KeyInfo keyInfo; 12739170dd7eSdrh int addr; /* Address of OP_OpenVirtual instruction */ 1274d3d39e93Sdrh 1275bf3b721fSdanielk1977 affinity = sqlite3ExprAffinity(pExpr->pLeft); 1276e014a838Sdanielk1977 1277e014a838Sdanielk1977 /* Whether this is an 'x IN(SELECT...)' or an 'x IN(<exprlist>)' 127857dbd7b3Sdrh ** expression it is handled the same way. A virtual table is 1279e014a838Sdanielk1977 ** filled with single-field index keys representing the results 1280e014a838Sdanielk1977 ** from the SELECT or the <exprlist>. 1281fef5208cSdrh ** 1282e014a838Sdanielk1977 ** If the 'x' expression is a column value, or the SELECT... 1283e014a838Sdanielk1977 ** statement returns a column value, then the affinity of that 1284e014a838Sdanielk1977 ** column is used to build the index keys. If both 'x' and the 1285e014a838Sdanielk1977 ** SELECT... statement are columns, then numeric affinity is used 1286e014a838Sdanielk1977 ** if either column has NUMERIC or INTEGER affinity. If neither 1287e014a838Sdanielk1977 ** 'x' nor the SELECT... statement are columns, then numeric affinity 1288e014a838Sdanielk1977 ** is used. 1289fef5208cSdrh */ 1290832508b7Sdrh pExpr->iTable = pParse->nTab++; 12919170dd7eSdrh addr = sqlite3VdbeAddOp(v, OP_OpenVirtual, pExpr->iTable, 0); 1292d3d39e93Sdrh memset(&keyInfo, 0, sizeof(keyInfo)); 1293d3d39e93Sdrh keyInfo.nField = 1; 1294f3218feaSdrh sqlite3VdbeAddOp(v, OP_SetNumColumns, pExpr->iTable, 1); 1295e014a838Sdanielk1977 1296e014a838Sdanielk1977 if( pExpr->pSelect ){ 1297e014a838Sdanielk1977 /* Case 1: expr IN (SELECT ...) 1298e014a838Sdanielk1977 ** 1299e014a838Sdanielk1977 ** Generate code to write the results of the select into the temporary 1300e014a838Sdanielk1977 ** table allocated and opened above. 1301e014a838Sdanielk1977 */ 1302e014a838Sdanielk1977 int iParm = pExpr->iTable + (((int)affinity)<<16); 1303be5c89acSdrh ExprList *pEList; 1304e014a838Sdanielk1977 assert( (pExpr->iTable&0x0000FFFF)==pExpr->iTable ); 1305b3bce662Sdanielk1977 sqlite3Select(pParse, pExpr->pSelect, SRT_Set, iParm, 0, 0, 0, 0); 1306be5c89acSdrh pEList = pExpr->pSelect->pEList; 1307be5c89acSdrh if( pEList && pEList->nExpr>0 ){ 13087cedc8d4Sdanielk1977 keyInfo.aColl[0] = binaryCompareCollSeq(pParse, pExpr->pLeft, 1309be5c89acSdrh pEList->a[0].pExpr); 13100202b29eSdanielk1977 } 1311fef5208cSdrh }else if( pExpr->pList ){ 1312fef5208cSdrh /* Case 2: expr IN (exprlist) 1313fef5208cSdrh ** 1314e014a838Sdanielk1977 ** For each expression, build an index key from the evaluation and 1315e014a838Sdanielk1977 ** store it in the temporary table. If <expr> is a column, then use 1316e014a838Sdanielk1977 ** that columns affinity when building index keys. If <expr> is not 1317e014a838Sdanielk1977 ** a column, use numeric affinity. 1318fef5208cSdrh */ 1319e014a838Sdanielk1977 int i; 132057dbd7b3Sdrh ExprList *pList = pExpr->pList; 132157dbd7b3Sdrh struct ExprList_item *pItem; 132257dbd7b3Sdrh 1323e014a838Sdanielk1977 if( !affinity ){ 1324e014a838Sdanielk1977 affinity = SQLITE_AFF_NUMERIC; 1325e014a838Sdanielk1977 } 13260202b29eSdanielk1977 keyInfo.aColl[0] = pExpr->pLeft->pColl; 1327e014a838Sdanielk1977 1328e014a838Sdanielk1977 /* Loop through each expression in <exprlist>. */ 132957dbd7b3Sdrh for(i=pList->nExpr, pItem=pList->a; i>0; i--, pItem++){ 133057dbd7b3Sdrh Expr *pE2 = pItem->pExpr; 1331e014a838Sdanielk1977 133257dbd7b3Sdrh /* If the expression is not constant then we will need to 133357dbd7b3Sdrh ** disable the test that was generated above that makes sure 133457dbd7b3Sdrh ** this code only executes once. Because for a non-constant 133557dbd7b3Sdrh ** expression we need to rerun this code each time. 133657dbd7b3Sdrh */ 133757dbd7b3Sdrh if( testAddr>=0 && !sqlite3ExprIsConstant(pE2) ){ 133857dbd7b3Sdrh VdbeOp *aOp = sqlite3VdbeGetOp(v, testAddr-1); 133957dbd7b3Sdrh int i; 134057dbd7b3Sdrh for(i=0; i<4; i++){ 134157dbd7b3Sdrh aOp[i].opcode = OP_Noop; 134257dbd7b3Sdrh } 134357dbd7b3Sdrh testAddr = 0; 13444794b980Sdrh } 1345e014a838Sdanielk1977 1346e014a838Sdanielk1977 /* Evaluate the expression and insert it into the temp table */ 13474adee20fSdanielk1977 sqlite3ExprCode(pParse, pE2); 134894a11211Sdrh sqlite3VdbeOp3(v, OP_MakeRecord, 1, 0, &affinity, 1); 1349f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_IdxInsert, pExpr->iTable, 0); 1350fef5208cSdrh } 1351fef5208cSdrh } 13520202b29eSdanielk1977 sqlite3VdbeChangeP3(v, addr, (void *)&keyInfo, P3_KEYINFO); 1353b3bce662Sdanielk1977 break; 1354fef5208cSdrh } 1355fef5208cSdrh 135651522cd3Sdrh case TK_EXISTS: 135719a775c2Sdrh case TK_SELECT: { 1358fef5208cSdrh /* This has to be a scalar SELECT. Generate code to put the 1359fef5208cSdrh ** value of this select in a memory cell and record the number 1360967e8b73Sdrh ** of the memory cell in iColumn. 1361fef5208cSdrh */ 136251522cd3Sdrh int sop; 136351522cd3Sdrh Select *pSel; 13641398ad36Sdrh 1365967e8b73Sdrh pExpr->iColumn = pParse->nMem++; 136651522cd3Sdrh pSel = pExpr->pSelect; 136751522cd3Sdrh if( pExpr->op==TK_SELECT ){ 136851522cd3Sdrh sop = SRT_Mem; 136951522cd3Sdrh }else{ 137051522cd3Sdrh static const Token one = { "1", 0, 1 }; 137151522cd3Sdrh sop = SRT_Exists; 137251522cd3Sdrh sqlite3ExprListDelete(pSel->pEList); 137351522cd3Sdrh pSel->pEList = sqlite3ExprListAppend(0, 137451522cd3Sdrh sqlite3Expr(TK_INTEGER, 0, 0, &one), 0); 137551522cd3Sdrh } 1376b3bce662Sdanielk1977 sqlite3Select(pParse, pSel, sop, pExpr->iColumn, 0, 0, 0, 0); 1377b3bce662Sdanielk1977 break; 137819a775c2Sdrh } 1379cce7d176Sdrh } 1380b3bce662Sdanielk1977 1381b3bce662Sdanielk1977 if( pExpr->pSelect ){ 1382b3bce662Sdanielk1977 sqlite3VdbeAddOp(v, OP_AggContextPop, 0, 0); 1383b3bce662Sdanielk1977 } 138457dbd7b3Sdrh if( testAddr ){ 138557dbd7b3Sdrh sqlite3VdbeChangeP2(v, testAddr, sqlite3VdbeCurrentAddr(v)); 1386b3bce662Sdanielk1977 } 1387b3bce662Sdanielk1977 return; 1388cce7d176Sdrh } 138951522cd3Sdrh #endif /* SQLITE_OMIT_SUBQUERY */ 1390cce7d176Sdrh 1391cce7d176Sdrh /* 1392fec19aadSdrh ** Generate an instruction that will put the integer describe by 1393fec19aadSdrh ** text z[0..n-1] on the stack. 1394fec19aadSdrh */ 1395fec19aadSdrh static void codeInteger(Vdbe *v, const char *z, int n){ 1396fec19aadSdrh int i; 13976fec0762Sdrh if( sqlite3GetInt32(z, &i) ){ 13986fec0762Sdrh sqlite3VdbeAddOp(v, OP_Integer, i, 0); 13996fec0762Sdrh }else if( sqlite3FitsIn64Bits(z) ){ 1400*29dda4aeSdrh sqlite3VdbeOp3(v, OP_Int64, 0, 0, z, n); 1401fec19aadSdrh }else{ 1402fec19aadSdrh sqlite3VdbeOp3(v, OP_Real, 0, 0, z, n); 1403fec19aadSdrh } 1404fec19aadSdrh } 1405fec19aadSdrh 1406fec19aadSdrh /* 1407cce7d176Sdrh ** Generate code into the current Vdbe to evaluate the given 14081ccde15dSdrh ** expression and leave the result on the top of stack. 1409f2bc013cSdrh ** 1410f2bc013cSdrh ** This code depends on the fact that certain token values (ex: TK_EQ) 1411f2bc013cSdrh ** are the same as opcode values (ex: OP_Eq) that implement the corresponding 1412f2bc013cSdrh ** operation. Special comments in vdbe.c and the mkopcodeh.awk script in 1413f2bc013cSdrh ** the make process cause these values to align. Assert()s in the code 1414f2bc013cSdrh ** below verify that the numbers are aligned correctly. 1415cce7d176Sdrh */ 14164adee20fSdanielk1977 void sqlite3ExprCode(Parse *pParse, Expr *pExpr){ 1417cce7d176Sdrh Vdbe *v = pParse->pVdbe; 1418cce7d176Sdrh int op; 14197977a17fSdanielk1977 if( v==0 ) return; 14207977a17fSdanielk1977 if( pExpr==0 ){ 1421f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_Null, 0, 0); 14227977a17fSdanielk1977 return; 14237977a17fSdanielk1977 } 1424f2bc013cSdrh op = pExpr->op; 1425f2bc013cSdrh switch( op ){ 1426967e8b73Sdrh case TK_COLUMN: { 1427a58fdfb1Sdanielk1977 if( !pParse->fillAgg && pExpr->iAgg>=0 ){ 1428a58fdfb1Sdanielk1977 sqlite3VdbeAddOp(v, OP_AggGet, pExpr->iAggCtx, pExpr->iAgg); 1429c4a3c779Sdrh }else if( pExpr->iColumn>=0 ){ 14304adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Column, pExpr->iTable, pExpr->iColumn); 1431aee18ef8Sdanielk1977 sqlite3ColumnDefault(v, pExpr->pTab, pExpr->iColumn); 1432c4a3c779Sdrh }else{ 1433f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_Rowid, pExpr->iTable, 0); 14342282792aSdrh } 1435cce7d176Sdrh break; 1436cce7d176Sdrh } 1437cce7d176Sdrh case TK_INTEGER: { 1438fec19aadSdrh codeInteger(v, pExpr->token.z, pExpr->token.n); 1439fec19aadSdrh break; 144051e9a445Sdrh } 1441fec19aadSdrh case TK_FLOAT: 1442fec19aadSdrh case TK_STRING: { 1443f2bc013cSdrh assert( TK_FLOAT==OP_Real ); 1444f2bc013cSdrh assert( TK_STRING==OP_String8 ); 1445fec19aadSdrh sqlite3VdbeOp3(v, op, 0, 0, pExpr->token.z, pExpr->token.n); 14464adee20fSdanielk1977 sqlite3VdbeDequoteP3(v, -1); 1447cce7d176Sdrh break; 1448cce7d176Sdrh } 1449f0863fe5Sdrh case TK_NULL: { 1450f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_Null, 0, 0); 1451f0863fe5Sdrh break; 1452f0863fe5Sdrh } 14535338a5f7Sdanielk1977 #ifndef SQLITE_OMIT_BLOB_LITERAL 1454c572ef7fSdanielk1977 case TK_BLOB: { 1455f2bc013cSdrh assert( TK_BLOB==OP_HexBlob ); 1456c572ef7fSdanielk1977 sqlite3VdbeOp3(v, op, 0, 0, pExpr->token.z+1, pExpr->token.n-1); 1457c572ef7fSdanielk1977 sqlite3VdbeDequoteP3(v, -1); 1458c572ef7fSdanielk1977 break; 1459c572ef7fSdanielk1977 } 14605338a5f7Sdanielk1977 #endif 146150457896Sdrh case TK_VARIABLE: { 14624adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Variable, pExpr->iTable, 0); 1463895d7472Sdrh if( pExpr->token.n>1 ){ 1464895d7472Sdrh sqlite3VdbeChangeP3(v, -1, pExpr->token.z, pExpr->token.n); 1465895d7472Sdrh } 146650457896Sdrh break; 146750457896Sdrh } 14684e0cff60Sdrh case TK_REGISTER: { 14694e0cff60Sdrh sqlite3VdbeAddOp(v, OP_MemLoad, pExpr->iTable, 0); 14704e0cff60Sdrh break; 14714e0cff60Sdrh } 1472487e262fSdrh #ifndef SQLITE_OMIT_CAST 1473487e262fSdrh case TK_CAST: { 1474487e262fSdrh /* Expressions of the form: CAST(pLeft AS token) */ 1475487e262fSdrh int aff, op; 1476487e262fSdrh sqlite3ExprCode(pParse, pExpr->pLeft); 1477487e262fSdrh aff = sqlite3AffinityType(&pExpr->token); 1478487e262fSdrh switch( aff ){ 1479487e262fSdrh case SQLITE_AFF_INTEGER: op = OP_ToInt; break; 1480487e262fSdrh case SQLITE_AFF_NUMERIC: op = OP_ToNumeric; break; 1481487e262fSdrh case SQLITE_AFF_TEXT: op = OP_ToText; break; 1482487e262fSdrh case SQLITE_AFF_NONE: op = OP_ToBlob; break; 1483487e262fSdrh } 1484487e262fSdrh sqlite3VdbeAddOp(v, op, 0, 0); 1485487e262fSdrh break; 1486487e262fSdrh } 1487487e262fSdrh #endif /* SQLITE_OMIT_CAST */ 1488c9b84a1fSdrh case TK_LT: 1489c9b84a1fSdrh case TK_LE: 1490c9b84a1fSdrh case TK_GT: 1491c9b84a1fSdrh case TK_GE: 1492c9b84a1fSdrh case TK_NE: 1493c9b84a1fSdrh case TK_EQ: { 1494f2bc013cSdrh assert( TK_LT==OP_Lt ); 1495f2bc013cSdrh assert( TK_LE==OP_Le ); 1496f2bc013cSdrh assert( TK_GT==OP_Gt ); 1497f2bc013cSdrh assert( TK_GE==OP_Ge ); 1498f2bc013cSdrh assert( TK_EQ==OP_Eq ); 1499f2bc013cSdrh assert( TK_NE==OP_Ne ); 1500a37cdde0Sdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 1501a37cdde0Sdanielk1977 sqlite3ExprCode(pParse, pExpr->pRight); 1502be5c89acSdrh codeCompare(pParse, pExpr->pLeft, pExpr->pRight, op, 0, 0); 1503a37cdde0Sdanielk1977 break; 1504c9b84a1fSdrh } 1505cce7d176Sdrh case TK_AND: 1506cce7d176Sdrh case TK_OR: 1507cce7d176Sdrh case TK_PLUS: 1508cce7d176Sdrh case TK_STAR: 1509cce7d176Sdrh case TK_MINUS: 1510bf4133cbSdrh case TK_REM: 1511bf4133cbSdrh case TK_BITAND: 1512bf4133cbSdrh case TK_BITOR: 151317c40294Sdrh case TK_SLASH: 1514bf4133cbSdrh case TK_LSHIFT: 1515855eb1cfSdrh case TK_RSHIFT: 15160040077dSdrh case TK_CONCAT: { 1517f2bc013cSdrh assert( TK_AND==OP_And ); 1518f2bc013cSdrh assert( TK_OR==OP_Or ); 1519f2bc013cSdrh assert( TK_PLUS==OP_Add ); 1520f2bc013cSdrh assert( TK_MINUS==OP_Subtract ); 1521f2bc013cSdrh assert( TK_REM==OP_Remainder ); 1522f2bc013cSdrh assert( TK_BITAND==OP_BitAnd ); 1523f2bc013cSdrh assert( TK_BITOR==OP_BitOr ); 1524f2bc013cSdrh assert( TK_SLASH==OP_Divide ); 1525f2bc013cSdrh assert( TK_LSHIFT==OP_ShiftLeft ); 1526f2bc013cSdrh assert( TK_RSHIFT==OP_ShiftRight ); 1527f2bc013cSdrh assert( TK_CONCAT==OP_Concat ); 15284adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 15294adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pRight); 1530855eb1cfSdrh sqlite3VdbeAddOp(v, op, 0, 0); 15310040077dSdrh break; 15320040077dSdrh } 1533cce7d176Sdrh case TK_UMINUS: { 1534fec19aadSdrh Expr *pLeft = pExpr->pLeft; 1535fec19aadSdrh assert( pLeft ); 1536fec19aadSdrh if( pLeft->op==TK_FLOAT || pLeft->op==TK_INTEGER ){ 1537fec19aadSdrh Token *p = &pLeft->token; 15386e142f54Sdrh char *z = sqliteMalloc( p->n + 2 ); 15396e142f54Sdrh sprintf(z, "-%.*s", p->n, p->z); 1540fec19aadSdrh if( pLeft->op==TK_FLOAT ){ 1541fec19aadSdrh sqlite3VdbeOp3(v, OP_Real, 0, 0, z, p->n+1); 1542e6840900Sdrh }else{ 1543fec19aadSdrh codeInteger(v, z, p->n+1); 1544e6840900Sdrh } 15456e142f54Sdrh sqliteFree(z); 15466e142f54Sdrh break; 15476e142f54Sdrh } 15481ccde15dSdrh /* Fall through into TK_NOT */ 15496e142f54Sdrh } 1550bf4133cbSdrh case TK_BITNOT: 15516e142f54Sdrh case TK_NOT: { 1552f2bc013cSdrh assert( TK_BITNOT==OP_BitNot ); 1553f2bc013cSdrh assert( TK_NOT==OP_Not ); 15544adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 15554adee20fSdanielk1977 sqlite3VdbeAddOp(v, op, 0, 0); 1556cce7d176Sdrh break; 1557cce7d176Sdrh } 1558cce7d176Sdrh case TK_ISNULL: 1559cce7d176Sdrh case TK_NOTNULL: { 1560cce7d176Sdrh int dest; 1561f2bc013cSdrh assert( TK_ISNULL==OP_IsNull ); 1562f2bc013cSdrh assert( TK_NOTNULL==OP_NotNull ); 15634adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Integer, 1, 0); 15644adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 15654adee20fSdanielk1977 dest = sqlite3VdbeCurrentAddr(v) + 2; 15664adee20fSdanielk1977 sqlite3VdbeAddOp(v, op, 1, dest); 15674adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_AddImm, -1, 0); 1568a37cdde0Sdanielk1977 break; 1569f2bc013cSdrh } 15702282792aSdrh case TK_AGG_FUNCTION: { 15714adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_AggGet, 0, pExpr->iAgg); 15722282792aSdrh break; 15732282792aSdrh } 1574b71090fdSdrh case TK_CONST_FUNC: 1575cce7d176Sdrh case TK_FUNCTION: { 1576cce7d176Sdrh ExprList *pList = pExpr->pList; 157789425d5eSdrh int nExpr = pList ? pList->nExpr : 0; 15780bce8354Sdrh FuncDef *pDef; 15794b59ab5eSdrh int nId; 15804b59ab5eSdrh const char *zId; 1581682f68b0Sdanielk1977 int p2 = 0; 1582682f68b0Sdanielk1977 int i; 1583d8123366Sdanielk1977 u8 enc = pParse->db->enc; 1584dc1bdc4fSdanielk1977 CollSeq *pColl = 0; 1585b71090fdSdrh zId = pExpr->token.z; 1586b71090fdSdrh nId = pExpr->token.n; 1587d8123366Sdanielk1977 pDef = sqlite3FindFunction(pParse->db, zId, nId, nExpr, enc, 0); 15880bce8354Sdrh assert( pDef!=0 ); 1589f9b596ebSdrh nExpr = sqlite3ExprCodeExprList(pParse, pList); 1590682f68b0Sdanielk1977 for(i=0; i<nExpr && i<32; i++){ 1591d02eb1fdSdanielk1977 if( sqlite3ExprIsConstant(pList->a[i].pExpr) ){ 1592d02eb1fdSdanielk1977 p2 |= (1<<i); 1593d02eb1fdSdanielk1977 } 1594dc1bdc4fSdanielk1977 if( pDef->needCollSeq && !pColl ){ 1595dc1bdc4fSdanielk1977 pColl = sqlite3ExprCollSeq(pParse, pList->a[i].pExpr); 1596dc1bdc4fSdanielk1977 } 1597dc1bdc4fSdanielk1977 } 1598dc1bdc4fSdanielk1977 if( pDef->needCollSeq ){ 1599dc1bdc4fSdanielk1977 if( !pColl ) pColl = pParse->db->pDfltColl; 1600d8123366Sdanielk1977 sqlite3VdbeOp3(v, OP_CollSeq, 0, 0, (char *)pColl, P3_COLLSEQ); 1601682f68b0Sdanielk1977 } 1602682f68b0Sdanielk1977 sqlite3VdbeOp3(v, OP_Function, nExpr, p2, (char*)pDef, P3_FUNCDEF); 16036ec2733bSdrh break; 16046ec2733bSdrh } 1605fe2093d7Sdrh #ifndef SQLITE_OMIT_SUBQUERY 1606fe2093d7Sdrh case TK_EXISTS: 160719a775c2Sdrh case TK_SELECT: { 1608b3bce662Sdanielk1977 sqlite3CodeSubselect(pParse, pExpr); 16094adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_MemLoad, pExpr->iColumn, 0); 1610ad6d9460Sdrh VdbeComment((v, "# load subquery result")); 161119a775c2Sdrh break; 161219a775c2Sdrh } 1613fef5208cSdrh case TK_IN: { 1614fef5208cSdrh int addr; 161594a11211Sdrh char affinity; 1616b3bce662Sdanielk1977 sqlite3CodeSubselect(pParse, pExpr); 1617e014a838Sdanielk1977 1618e014a838Sdanielk1977 /* Figure out the affinity to use to create a key from the results 1619e014a838Sdanielk1977 ** of the expression. affinityStr stores a static string suitable for 1620ededfd5eSdanielk1977 ** P3 of OP_MakeRecord. 1621e014a838Sdanielk1977 */ 162294a11211Sdrh affinity = comparisonAffinity(pExpr); 1623e014a838Sdanielk1977 16244adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Integer, 1, 0); 1625e014a838Sdanielk1977 1626e014a838Sdanielk1977 /* Code the <expr> from "<expr> IN (...)". The temporary table 1627e014a838Sdanielk1977 ** pExpr->iTable contains the values that make up the (...) set. 1628e014a838Sdanielk1977 */ 16294adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 16304adee20fSdanielk1977 addr = sqlite3VdbeCurrentAddr(v); 1631e014a838Sdanielk1977 sqlite3VdbeAddOp(v, OP_NotNull, -1, addr+4); /* addr + 0 */ 16324adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pop, 2, 0); 1633f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_Null, 0, 0); 1634e014a838Sdanielk1977 sqlite3VdbeAddOp(v, OP_Goto, 0, addr+7); 163594a11211Sdrh sqlite3VdbeOp3(v, OP_MakeRecord, 1, 0, &affinity, 1); /* addr + 4 */ 1636e014a838Sdanielk1977 sqlite3VdbeAddOp(v, OP_Found, pExpr->iTable, addr+7); 1637e014a838Sdanielk1977 sqlite3VdbeAddOp(v, OP_AddImm, -1, 0); /* addr + 6 */ 1638e014a838Sdanielk1977 1639fef5208cSdrh break; 1640fef5208cSdrh } 164193758c8dSdanielk1977 #endif 1642fef5208cSdrh case TK_BETWEEN: { 1643be5c89acSdrh Expr *pLeft = pExpr->pLeft; 1644be5c89acSdrh struct ExprList_item *pLItem = pExpr->pList->a; 1645be5c89acSdrh Expr *pRight = pLItem->pExpr; 1646be5c89acSdrh sqlite3ExprCode(pParse, pLeft); 16474adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Dup, 0, 0); 1648be5c89acSdrh sqlite3ExprCode(pParse, pRight); 1649be5c89acSdrh codeCompare(pParse, pLeft, pRight, OP_Ge, 0, 0); 16504adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pull, 1, 0); 1651be5c89acSdrh pLItem++; 1652be5c89acSdrh pRight = pLItem->pExpr; 1653be5c89acSdrh sqlite3ExprCode(pParse, pRight); 1654be5c89acSdrh codeCompare(pParse, pLeft, pRight, OP_Le, 0, 0); 16554adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_And, 0, 0); 1656fef5208cSdrh break; 1657fef5208cSdrh } 165851e9a445Sdrh case TK_UPLUS: 1659a2e00042Sdrh case TK_AS: { 16604adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 1661a2e00042Sdrh break; 1662a2e00042Sdrh } 166317a7f8ddSdrh case TK_CASE: { 166417a7f8ddSdrh int expr_end_label; 1665f5905aa7Sdrh int jumpInst; 1666f5905aa7Sdrh int addr; 1667f5905aa7Sdrh int nExpr; 166817a7f8ddSdrh int i; 1669be5c89acSdrh ExprList *pEList; 1670be5c89acSdrh struct ExprList_item *aListelem; 167117a7f8ddSdrh 167217a7f8ddSdrh assert(pExpr->pList); 167317a7f8ddSdrh assert((pExpr->pList->nExpr % 2) == 0); 167417a7f8ddSdrh assert(pExpr->pList->nExpr > 0); 1675be5c89acSdrh pEList = pExpr->pList; 1676be5c89acSdrh aListelem = pEList->a; 1677be5c89acSdrh nExpr = pEList->nExpr; 16784adee20fSdanielk1977 expr_end_label = sqlite3VdbeMakeLabel(v); 167917a7f8ddSdrh if( pExpr->pLeft ){ 16804adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 1681cce7d176Sdrh } 1682f5905aa7Sdrh for(i=0; i<nExpr; i=i+2){ 1683be5c89acSdrh sqlite3ExprCode(pParse, aListelem[i].pExpr); 168417a7f8ddSdrh if( pExpr->pLeft ){ 16854adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Dup, 1, 1); 1686be5c89acSdrh jumpInst = codeCompare(pParse, pExpr->pLeft, aListelem[i].pExpr, 1687be5c89acSdrh OP_Ne, 0, 1); 16884adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pop, 1, 0); 1689f5905aa7Sdrh }else{ 16904adee20fSdanielk1977 jumpInst = sqlite3VdbeAddOp(v, OP_IfNot, 1, 0); 169117a7f8ddSdrh } 1692be5c89acSdrh sqlite3ExprCode(pParse, aListelem[i+1].pExpr); 16934adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Goto, 0, expr_end_label); 16944adee20fSdanielk1977 addr = sqlite3VdbeCurrentAddr(v); 16954adee20fSdanielk1977 sqlite3VdbeChangeP2(v, jumpInst, addr); 169617a7f8ddSdrh } 1697f570f011Sdrh if( pExpr->pLeft ){ 16984adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pop, 1, 0); 1699f570f011Sdrh } 170017a7f8ddSdrh if( pExpr->pRight ){ 17014adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pRight); 170217a7f8ddSdrh }else{ 1703f0863fe5Sdrh sqlite3VdbeAddOp(v, OP_Null, 0, 0); 170417a7f8ddSdrh } 17054adee20fSdanielk1977 sqlite3VdbeResolveLabel(v, expr_end_label); 17066f34903eSdanielk1977 break; 17076f34903eSdanielk1977 } 17085338a5f7Sdanielk1977 #ifndef SQLITE_OMIT_TRIGGER 17096f34903eSdanielk1977 case TK_RAISE: { 17106f34903eSdanielk1977 if( !pParse->trigStack ){ 17114adee20fSdanielk1977 sqlite3ErrorMsg(pParse, 1712da93d238Sdrh "RAISE() may only be used within a trigger-program"); 17136f34903eSdanielk1977 return; 17146f34903eSdanielk1977 } 1715ad6d9460Sdrh if( pExpr->iColumn!=OE_Ignore ){ 1716ad6d9460Sdrh assert( pExpr->iColumn==OE_Rollback || 17176f34903eSdanielk1977 pExpr->iColumn == OE_Abort || 1718ad6d9460Sdrh pExpr->iColumn == OE_Fail ); 17194adee20fSdanielk1977 sqlite3VdbeOp3(v, OP_Halt, SQLITE_CONSTRAINT, pExpr->iColumn, 1720701a0aebSdrh pExpr->token.z, pExpr->token.n); 17214adee20fSdanielk1977 sqlite3VdbeDequoteP3(v, -1); 17226f34903eSdanielk1977 } else { 17236f34903eSdanielk1977 assert( pExpr->iColumn == OE_Ignore ); 1724344737f6Sdrh sqlite3VdbeAddOp(v, OP_ContextPop, 0, 0); 1725ad6d9460Sdrh sqlite3VdbeAddOp(v, OP_Goto, 0, pParse->trigStack->ignoreJump); 1726ad6d9460Sdrh VdbeComment((v, "# raise(IGNORE)")); 17276f34903eSdanielk1977 } 172817a7f8ddSdrh } 17295338a5f7Sdanielk1977 #endif 173017a7f8ddSdrh break; 173117a7f8ddSdrh } 1732cce7d176Sdrh } 1733cce7d176Sdrh 173493758c8dSdanielk1977 #ifndef SQLITE_OMIT_TRIGGER 1735cce7d176Sdrh /* 173625303780Sdrh ** Generate code that evalutes the given expression and leaves the result 173725303780Sdrh ** on the stack. See also sqlite3ExprCode(). 173825303780Sdrh ** 173925303780Sdrh ** This routine might also cache the result and modify the pExpr tree 174025303780Sdrh ** so that it will make use of the cached result on subsequent evaluations 174125303780Sdrh ** rather than evaluate the whole expression again. Trivial expressions are 174225303780Sdrh ** not cached. If the expression is cached, its result is stored in a 174325303780Sdrh ** memory location. 174425303780Sdrh */ 174525303780Sdrh void sqlite3ExprCodeAndCache(Parse *pParse, Expr *pExpr){ 174625303780Sdrh Vdbe *v = pParse->pVdbe; 174725303780Sdrh int iMem; 174825303780Sdrh int addr1, addr2; 174925303780Sdrh if( v==0 ) return; 175025303780Sdrh addr1 = sqlite3VdbeCurrentAddr(v); 175125303780Sdrh sqlite3ExprCode(pParse, pExpr); 175225303780Sdrh addr2 = sqlite3VdbeCurrentAddr(v); 175325303780Sdrh if( addr2>addr1+1 || sqlite3VdbeGetOp(v, addr1)->opcode==OP_Function ){ 175425303780Sdrh iMem = pExpr->iTable = pParse->nMem++; 175525303780Sdrh sqlite3VdbeAddOp(v, OP_MemStore, iMem, 0); 175625303780Sdrh pExpr->op = TK_REGISTER; 175725303780Sdrh } 175825303780Sdrh } 175993758c8dSdanielk1977 #endif 176025303780Sdrh 176125303780Sdrh /* 1762268380caSdrh ** Generate code that pushes the value of every element of the given 1763f9b596ebSdrh ** expression list onto the stack. 1764268380caSdrh ** 1765268380caSdrh ** Return the number of elements pushed onto the stack. 1766268380caSdrh */ 17674adee20fSdanielk1977 int sqlite3ExprCodeExprList( 1768268380caSdrh Parse *pParse, /* Parsing context */ 1769f9b596ebSdrh ExprList *pList /* The expression list to be coded */ 1770268380caSdrh ){ 1771268380caSdrh struct ExprList_item *pItem; 1772268380caSdrh int i, n; 1773268380caSdrh Vdbe *v; 1774268380caSdrh if( pList==0 ) return 0; 17754adee20fSdanielk1977 v = sqlite3GetVdbe(pParse); 1776268380caSdrh n = pList->nExpr; 1777268380caSdrh for(pItem=pList->a, i=0; i<n; i++, pItem++){ 17784adee20fSdanielk1977 sqlite3ExprCode(pParse, pItem->pExpr); 1779268380caSdrh } 1780f9b596ebSdrh return n; 1781268380caSdrh } 1782268380caSdrh 1783268380caSdrh /* 1784cce7d176Sdrh ** Generate code for a boolean expression such that a jump is made 1785cce7d176Sdrh ** to the label "dest" if the expression is true but execution 1786cce7d176Sdrh ** continues straight thru if the expression is false. 1787f5905aa7Sdrh ** 1788f5905aa7Sdrh ** If the expression evaluates to NULL (neither true nor false), then 1789f5905aa7Sdrh ** take the jump if the jumpIfNull flag is true. 1790f2bc013cSdrh ** 1791f2bc013cSdrh ** This code depends on the fact that certain token values (ex: TK_EQ) 1792f2bc013cSdrh ** are the same as opcode values (ex: OP_Eq) that implement the corresponding 1793f2bc013cSdrh ** operation. Special comments in vdbe.c and the mkopcodeh.awk script in 1794f2bc013cSdrh ** the make process cause these values to align. Assert()s in the code 1795f2bc013cSdrh ** below verify that the numbers are aligned correctly. 1796cce7d176Sdrh */ 17974adee20fSdanielk1977 void sqlite3ExprIfTrue(Parse *pParse, Expr *pExpr, int dest, int jumpIfNull){ 1798cce7d176Sdrh Vdbe *v = pParse->pVdbe; 1799cce7d176Sdrh int op = 0; 1800daffd0e5Sdrh if( v==0 || pExpr==0 ) return; 1801f2bc013cSdrh op = pExpr->op; 1802f2bc013cSdrh switch( op ){ 1803cce7d176Sdrh case TK_AND: { 18044adee20fSdanielk1977 int d2 = sqlite3VdbeMakeLabel(v); 18054adee20fSdanielk1977 sqlite3ExprIfFalse(pParse, pExpr->pLeft, d2, !jumpIfNull); 18064adee20fSdanielk1977 sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull); 18074adee20fSdanielk1977 sqlite3VdbeResolveLabel(v, d2); 1808cce7d176Sdrh break; 1809cce7d176Sdrh } 1810cce7d176Sdrh case TK_OR: { 18114adee20fSdanielk1977 sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull); 18124adee20fSdanielk1977 sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull); 1813cce7d176Sdrh break; 1814cce7d176Sdrh } 1815cce7d176Sdrh case TK_NOT: { 18164adee20fSdanielk1977 sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull); 1817cce7d176Sdrh break; 1818cce7d176Sdrh } 1819cce7d176Sdrh case TK_LT: 1820cce7d176Sdrh case TK_LE: 1821cce7d176Sdrh case TK_GT: 1822cce7d176Sdrh case TK_GE: 1823cce7d176Sdrh case TK_NE: 18240ac65892Sdrh case TK_EQ: { 1825f2bc013cSdrh assert( TK_LT==OP_Lt ); 1826f2bc013cSdrh assert( TK_LE==OP_Le ); 1827f2bc013cSdrh assert( TK_GT==OP_Gt ); 1828f2bc013cSdrh assert( TK_GE==OP_Ge ); 1829f2bc013cSdrh assert( TK_EQ==OP_Eq ); 1830f2bc013cSdrh assert( TK_NE==OP_Ne ); 18314adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 18324adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pRight); 1833be5c89acSdrh codeCompare(pParse, pExpr->pLeft, pExpr->pRight, op, dest, jumpIfNull); 1834cce7d176Sdrh break; 1835cce7d176Sdrh } 1836cce7d176Sdrh case TK_ISNULL: 1837cce7d176Sdrh case TK_NOTNULL: { 1838f2bc013cSdrh assert( TK_ISNULL==OP_IsNull ); 1839f2bc013cSdrh assert( TK_NOTNULL==OP_NotNull ); 18404adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 18414adee20fSdanielk1977 sqlite3VdbeAddOp(v, op, 1, dest); 1842cce7d176Sdrh break; 1843cce7d176Sdrh } 1844fef5208cSdrh case TK_BETWEEN: { 18450202b29eSdanielk1977 /* The expression "x BETWEEN y AND z" is implemented as: 18460202b29eSdanielk1977 ** 18470202b29eSdanielk1977 ** 1 IF (x < y) GOTO 3 18480202b29eSdanielk1977 ** 2 IF (x <= z) GOTO <dest> 18490202b29eSdanielk1977 ** 3 ... 18500202b29eSdanielk1977 */ 1851f5905aa7Sdrh int addr; 1852be5c89acSdrh Expr *pLeft = pExpr->pLeft; 1853be5c89acSdrh Expr *pRight = pExpr->pList->a[0].pExpr; 1854be5c89acSdrh sqlite3ExprCode(pParse, pLeft); 18554adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Dup, 0, 0); 1856be5c89acSdrh sqlite3ExprCode(pParse, pRight); 1857be5c89acSdrh addr = codeCompare(pParse, pLeft, pRight, OP_Lt, 0, !jumpIfNull); 18580202b29eSdanielk1977 1859be5c89acSdrh pRight = pExpr->pList->a[1].pExpr; 1860be5c89acSdrh sqlite3ExprCode(pParse, pRight); 1861be5c89acSdrh codeCompare(pParse, pLeft, pRight, OP_Le, dest, jumpIfNull); 18620202b29eSdanielk1977 18634adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Integer, 0, 0); 18644adee20fSdanielk1977 sqlite3VdbeChangeP2(v, addr, sqlite3VdbeCurrentAddr(v)); 18654adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pop, 1, 0); 1866fef5208cSdrh break; 1867fef5208cSdrh } 1868cce7d176Sdrh default: { 18694adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr); 18704adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_If, jumpIfNull, dest); 1871cce7d176Sdrh break; 1872cce7d176Sdrh } 1873cce7d176Sdrh } 1874cce7d176Sdrh } 1875cce7d176Sdrh 1876cce7d176Sdrh /* 187766b89c8fSdrh ** Generate code for a boolean expression such that a jump is made 1878cce7d176Sdrh ** to the label "dest" if the expression is false but execution 1879cce7d176Sdrh ** continues straight thru if the expression is true. 1880f5905aa7Sdrh ** 1881f5905aa7Sdrh ** If the expression evaluates to NULL (neither true nor false) then 1882f5905aa7Sdrh ** jump if jumpIfNull is true or fall through if jumpIfNull is false. 1883cce7d176Sdrh */ 18844adee20fSdanielk1977 void sqlite3ExprIfFalse(Parse *pParse, Expr *pExpr, int dest, int jumpIfNull){ 1885cce7d176Sdrh Vdbe *v = pParse->pVdbe; 1886cce7d176Sdrh int op = 0; 1887daffd0e5Sdrh if( v==0 || pExpr==0 ) return; 1888f2bc013cSdrh 1889f2bc013cSdrh /* The value of pExpr->op and op are related as follows: 1890f2bc013cSdrh ** 1891f2bc013cSdrh ** pExpr->op op 1892f2bc013cSdrh ** --------- ---------- 1893f2bc013cSdrh ** TK_ISNULL OP_NotNull 1894f2bc013cSdrh ** TK_NOTNULL OP_IsNull 1895f2bc013cSdrh ** TK_NE OP_Eq 1896f2bc013cSdrh ** TK_EQ OP_Ne 1897f2bc013cSdrh ** TK_GT OP_Le 1898f2bc013cSdrh ** TK_LE OP_Gt 1899f2bc013cSdrh ** TK_GE OP_Lt 1900f2bc013cSdrh ** TK_LT OP_Ge 1901f2bc013cSdrh ** 1902f2bc013cSdrh ** For other values of pExpr->op, op is undefined and unused. 1903f2bc013cSdrh ** The value of TK_ and OP_ constants are arranged such that we 1904f2bc013cSdrh ** can compute the mapping above using the following expression. 1905f2bc013cSdrh ** Assert()s verify that the computation is correct. 1906f2bc013cSdrh */ 1907f2bc013cSdrh op = ((pExpr->op+(TK_ISNULL&1))^1)-(TK_ISNULL&1); 1908f2bc013cSdrh 1909f2bc013cSdrh /* Verify correct alignment of TK_ and OP_ constants 1910f2bc013cSdrh */ 1911f2bc013cSdrh assert( pExpr->op!=TK_ISNULL || op==OP_NotNull ); 1912f2bc013cSdrh assert( pExpr->op!=TK_NOTNULL || op==OP_IsNull ); 1913f2bc013cSdrh assert( pExpr->op!=TK_NE || op==OP_Eq ); 1914f2bc013cSdrh assert( pExpr->op!=TK_EQ || op==OP_Ne ); 1915f2bc013cSdrh assert( pExpr->op!=TK_LT || op==OP_Ge ); 1916f2bc013cSdrh assert( pExpr->op!=TK_LE || op==OP_Gt ); 1917f2bc013cSdrh assert( pExpr->op!=TK_GT || op==OP_Le ); 1918f2bc013cSdrh assert( pExpr->op!=TK_GE || op==OP_Lt ); 1919f2bc013cSdrh 1920cce7d176Sdrh switch( pExpr->op ){ 1921cce7d176Sdrh case TK_AND: { 19224adee20fSdanielk1977 sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull); 19234adee20fSdanielk1977 sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull); 1924cce7d176Sdrh break; 1925cce7d176Sdrh } 1926cce7d176Sdrh case TK_OR: { 19274adee20fSdanielk1977 int d2 = sqlite3VdbeMakeLabel(v); 19284adee20fSdanielk1977 sqlite3ExprIfTrue(pParse, pExpr->pLeft, d2, !jumpIfNull); 19294adee20fSdanielk1977 sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull); 19304adee20fSdanielk1977 sqlite3VdbeResolveLabel(v, d2); 1931cce7d176Sdrh break; 1932cce7d176Sdrh } 1933cce7d176Sdrh case TK_NOT: { 19344adee20fSdanielk1977 sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull); 1935cce7d176Sdrh break; 1936cce7d176Sdrh } 1937cce7d176Sdrh case TK_LT: 1938cce7d176Sdrh case TK_LE: 1939cce7d176Sdrh case TK_GT: 1940cce7d176Sdrh case TK_GE: 1941cce7d176Sdrh case TK_NE: 1942cce7d176Sdrh case TK_EQ: { 19434adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 19444adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pRight); 1945be5c89acSdrh codeCompare(pParse, pExpr->pLeft, pExpr->pRight, op, dest, jumpIfNull); 1946cce7d176Sdrh break; 1947cce7d176Sdrh } 1948cce7d176Sdrh case TK_ISNULL: 1949cce7d176Sdrh case TK_NOTNULL: { 19504adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr->pLeft); 19514adee20fSdanielk1977 sqlite3VdbeAddOp(v, op, 1, dest); 1952cce7d176Sdrh break; 1953cce7d176Sdrh } 1954fef5208cSdrh case TK_BETWEEN: { 19550202b29eSdanielk1977 /* The expression is "x BETWEEN y AND z". It is implemented as: 19560202b29eSdanielk1977 ** 19570202b29eSdanielk1977 ** 1 IF (x >= y) GOTO 3 19580202b29eSdanielk1977 ** 2 GOTO <dest> 19590202b29eSdanielk1977 ** 3 IF (x > z) GOTO <dest> 19600202b29eSdanielk1977 */ 1961fef5208cSdrh int addr; 1962be5c89acSdrh Expr *pLeft = pExpr->pLeft; 1963be5c89acSdrh Expr *pRight = pExpr->pList->a[0].pExpr; 1964be5c89acSdrh sqlite3ExprCode(pParse, pLeft); 19654adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Dup, 0, 0); 1966be5c89acSdrh sqlite3ExprCode(pParse, pRight); 19674adee20fSdanielk1977 addr = sqlite3VdbeCurrentAddr(v); 1968be5c89acSdrh codeCompare(pParse, pLeft, pRight, OP_Ge, addr+3, !jumpIfNull); 1969be5c89acSdrh 19704adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Pop, 1, 0); 19714adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_Goto, 0, dest); 1972be5c89acSdrh pRight = pExpr->pList->a[1].pExpr; 1973be5c89acSdrh sqlite3ExprCode(pParse, pRight); 1974be5c89acSdrh codeCompare(pParse, pLeft, pRight, OP_Gt, dest, jumpIfNull); 1975fef5208cSdrh break; 1976fef5208cSdrh } 1977cce7d176Sdrh default: { 19784adee20fSdanielk1977 sqlite3ExprCode(pParse, pExpr); 19794adee20fSdanielk1977 sqlite3VdbeAddOp(v, OP_IfNot, jumpIfNull, dest); 1980cce7d176Sdrh break; 1981cce7d176Sdrh } 1982cce7d176Sdrh } 1983cce7d176Sdrh } 19842282792aSdrh 19852282792aSdrh /* 19862282792aSdrh ** Do a deep comparison of two expression trees. Return TRUE (non-zero) 19872282792aSdrh ** if they are identical and return FALSE if they differ in any way. 19882282792aSdrh */ 19894adee20fSdanielk1977 int sqlite3ExprCompare(Expr *pA, Expr *pB){ 19902282792aSdrh int i; 19912282792aSdrh if( pA==0 ){ 19922282792aSdrh return pB==0; 19932282792aSdrh }else if( pB==0 ){ 19942282792aSdrh return 0; 19952282792aSdrh } 19962282792aSdrh if( pA->op!=pB->op ) return 0; 19974adee20fSdanielk1977 if( !sqlite3ExprCompare(pA->pLeft, pB->pLeft) ) return 0; 19984adee20fSdanielk1977 if( !sqlite3ExprCompare(pA->pRight, pB->pRight) ) return 0; 19992282792aSdrh if( pA->pList ){ 20002282792aSdrh if( pB->pList==0 ) return 0; 20012282792aSdrh if( pA->pList->nExpr!=pB->pList->nExpr ) return 0; 20022282792aSdrh for(i=0; i<pA->pList->nExpr; i++){ 20034adee20fSdanielk1977 if( !sqlite3ExprCompare(pA->pList->a[i].pExpr, pB->pList->a[i].pExpr) ){ 20042282792aSdrh return 0; 20052282792aSdrh } 20062282792aSdrh } 20072282792aSdrh }else if( pB->pList ){ 20082282792aSdrh return 0; 20092282792aSdrh } 20102282792aSdrh if( pA->pSelect || pB->pSelect ) return 0; 20112f2c01e5Sdrh if( pA->iTable!=pB->iTable || pA->iColumn!=pB->iColumn ) return 0; 20122282792aSdrh if( pA->token.z ){ 20132282792aSdrh if( pB->token.z==0 ) return 0; 20146977fea8Sdrh if( pB->token.n!=pA->token.n ) return 0; 20154adee20fSdanielk1977 if( sqlite3StrNICmp(pA->token.z, pB->token.z, pB->token.n)!=0 ) return 0; 20162282792aSdrh } 20172282792aSdrh return 1; 20182282792aSdrh } 20192282792aSdrh 20202282792aSdrh /* 20212282792aSdrh ** Add a new element to the pParse->aAgg[] array and return its index. 202273b211abSdrh ** The new element is initialized to zero. The calling function is 202373b211abSdrh ** expected to fill it in. 20242282792aSdrh */ 20252282792aSdrh static int appendAggInfo(Parse *pParse){ 20262282792aSdrh if( (pParse->nAgg & 0x7)==0 ){ 20272282792aSdrh int amt = pParse->nAgg + 8; 20286d4abfbeSdrh AggExpr *aAgg = sqliteRealloc(pParse->aAgg, amt*sizeof(pParse->aAgg[0])); 20296d4abfbeSdrh if( aAgg==0 ){ 20302282792aSdrh return -1; 20312282792aSdrh } 20326d4abfbeSdrh pParse->aAgg = aAgg; 20332282792aSdrh } 20342282792aSdrh memset(&pParse->aAgg[pParse->nAgg], 0, sizeof(pParse->aAgg[0])); 20352282792aSdrh return pParse->nAgg++; 20362282792aSdrh } 20372282792aSdrh 20382282792aSdrh /* 2039626a879aSdrh ** This is an xFunc for walkExprTree() used to implement 2040626a879aSdrh ** sqlite3ExprAnalyzeAggregates(). See sqlite3ExprAnalyzeAggregates 2041626a879aSdrh ** for additional information. 20422282792aSdrh ** 2043626a879aSdrh ** This routine analyzes the aggregate function at pExpr. 20442282792aSdrh */ 2045626a879aSdrh static int analyzeAggregate(void *pArg, Expr *pExpr){ 20462282792aSdrh int i; 20472282792aSdrh AggExpr *aAgg; 2048a58fdfb1Sdanielk1977 NameContext *pNC = (NameContext *)pArg; 2049a58fdfb1Sdanielk1977 Parse *pParse = pNC->pParse; 2050a58fdfb1Sdanielk1977 SrcList *pSrcList = pNC->pSrcList; 20512282792aSdrh 20522282792aSdrh switch( pExpr->op ){ 2053967e8b73Sdrh case TK_COLUMN: { 2054a58fdfb1Sdanielk1977 for(i=0; pSrcList && i<pSrcList->nSrc; i++){ 2055a58fdfb1Sdanielk1977 if( pExpr->iTable==pSrcList->a[i].iCursor ){ 20562282792aSdrh aAgg = pParse->aAgg; 20572282792aSdrh for(i=0; i<pParse->nAgg; i++){ 20582282792aSdrh if( aAgg[i].isAgg ) continue; 20592282792aSdrh if( aAgg[i].pExpr->iTable==pExpr->iTable 2060967e8b73Sdrh && aAgg[i].pExpr->iColumn==pExpr->iColumn ){ 20612282792aSdrh break; 20622282792aSdrh } 20632282792aSdrh } 20642282792aSdrh if( i>=pParse->nAgg ){ 20652282792aSdrh i = appendAggInfo(pParse); 20662282792aSdrh if( i<0 ) return 1; 20672282792aSdrh pParse->aAgg[i].isAgg = 0; 20682282792aSdrh pParse->aAgg[i].pExpr = pExpr; 20692282792aSdrh } 2070aaf88729Sdrh pExpr->iAgg = i; 2071a58fdfb1Sdanielk1977 pExpr->iAggCtx = pNC->nDepth; 2072a58fdfb1Sdanielk1977 return 1; 2073a58fdfb1Sdanielk1977 } 2074a58fdfb1Sdanielk1977 } 2075626a879aSdrh return 1; 20762282792aSdrh } 20772282792aSdrh case TK_AGG_FUNCTION: { 2078a58fdfb1Sdanielk1977 if( pNC->nDepth==0 ){ 20792282792aSdrh aAgg = pParse->aAgg; 20802282792aSdrh for(i=0; i<pParse->nAgg; i++){ 20812282792aSdrh if( !aAgg[i].isAgg ) continue; 20824adee20fSdanielk1977 if( sqlite3ExprCompare(aAgg[i].pExpr, pExpr) ){ 20832282792aSdrh break; 20842282792aSdrh } 20852282792aSdrh } 20862282792aSdrh if( i>=pParse->nAgg ){ 2087d8123366Sdanielk1977 u8 enc = pParse->db->enc; 20882282792aSdrh i = appendAggInfo(pParse); 20892282792aSdrh if( i<0 ) return 1; 20902282792aSdrh pParse->aAgg[i].isAgg = 1; 20912282792aSdrh pParse->aAgg[i].pExpr = pExpr; 20924adee20fSdanielk1977 pParse->aAgg[i].pFunc = sqlite3FindFunction(pParse->db, 20936977fea8Sdrh pExpr->token.z, pExpr->token.n, 2094d8123366Sdanielk1977 pExpr->pList ? pExpr->pList->nExpr : 0, enc, 0); 20952282792aSdrh } 20962282792aSdrh pExpr->iAgg = i; 2097626a879aSdrh return 1; 20982282792aSdrh } 20992282792aSdrh } 2100a58fdfb1Sdanielk1977 } 2101a58fdfb1Sdanielk1977 if( pExpr->pSelect ){ 2102a58fdfb1Sdanielk1977 pNC->nDepth++; 2103a58fdfb1Sdanielk1977 walkSelectExpr(pExpr->pSelect, analyzeAggregate, pNC); 2104a58fdfb1Sdanielk1977 pNC->nDepth--; 2105a58fdfb1Sdanielk1977 } 2106626a879aSdrh return 0; 21072282792aSdrh } 2108626a879aSdrh 2109626a879aSdrh /* 2110626a879aSdrh ** Analyze the given expression looking for aggregate functions and 2111626a879aSdrh ** for variables that need to be added to the pParse->aAgg[] array. 2112626a879aSdrh ** Make additional entries to the pParse->aAgg[] array as necessary. 2113626a879aSdrh ** 2114626a879aSdrh ** This routine should only be called after the expression has been 2115626a879aSdrh ** analyzed by sqlite3ExprResolveNames(). 2116626a879aSdrh ** 2117626a879aSdrh ** If errors are seen, leave an error message in zErrMsg and return 2118626a879aSdrh ** the number of errors. 2119626a879aSdrh */ 2120a58fdfb1Sdanielk1977 int sqlite3ExprAnalyzeAggregates(NameContext *pNC, Expr *pExpr){ 2121a58fdfb1Sdanielk1977 int nErr = pNC->pParse->nErr; 2122a58fdfb1Sdanielk1977 walkExprTree(pExpr, analyzeAggregate, pNC); 2123a58fdfb1Sdanielk1977 return pNC->pParse->nErr - nErr; 21242282792aSdrh } 2125