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koffice/kexi/kexidb/parser/parser_p.cpp

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/* This file is part of the KDE project
Copyright (C) 2004, 2006 Jaroslaw Staniek <js@iidea.pl>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "parser_p.h"
#include "sqlparser.h"
#include <kdebug.h>
#include <klocale.h>
#include <tqregexp.h>
#include <assert.h>
using namespace KexiDB;
Parser *parser = 0;
Field *field = 0;
//bool requiresTable;
TQPtrList<Field> fieldList;
int current = 0;
TQString ctoken = "";
//-------------------------------------
ParserPrivate::ParserPrivate()
: reservedKeywords(997, 997, false)
, initialized(false)
{
clear();
table = 0;
select = 0;
db = 0;
}
ParserPrivate::~ParserPrivate()
{
delete select;
delete table;
}
void ParserPrivate::clear()
{
operation = Parser::OP_None;
error = ParserError();
}
//-------------------------------------
ParseInfo::ParseInfo(KexiDB::QuerySchema *query)
: repeatedTablesAndAliases(997, false)
, querySchema(query)
{
repeatedTablesAndAliases.setAutoDelete(true);
}
ParseInfo::~ParseInfo()
{
}
//-------------------------------------
extern int yyparse();
extern void tokenize(const char *data);
void yyerror(const char *str)
{
KexiDBDbg << "error: " << str << endl;
KexiDBDbg << "at character " << current << " near tooken " << ctoken << endl;
parser->setOperation(Parser::OP_Error);
const bool otherError = (qstrnicmp(str, "other error", 11)==0);
if (parser->error().type().isEmpty()
&& (str==0 || strlen(str)==0
|| qstrnicmp(str, "syntax error", 12)==0 || qstrnicmp(str, "parse error", 11)==0)
|| otherError)
{
KexiDBDbg << parser->statement() << endl;
TQString ptrline = "";
for(int i=0; i < current; i++)
ptrline += " ";
ptrline += "^";
KexiDBDbg << ptrline << endl;
//lexer may add error messages
TQString lexerErr = parser->error().error();
TQString errtypestr(str);
if (lexerErr.isEmpty()) {
#if 0
if (errtypestr.startsWith("parse error, unexpected ")) {
//something like "parse error, unexpected IDENTIFIER, expecting ',' or ')'"
TQString e = errtypestr.mid(24);
KexiDBDbg << e <<endl;
TQString token = "IDENTIFIER";
if (e.startsWith(token)) {
TQRegExp re("'.'");
int pos=0;
pos = re.search(e, pos);
TQStringList captured=re.capturedTexts();
if (captured.count()>=2) {
// KexiDBDbg << "**" << captured.at(1) << endl;
// KexiDBDbg << "**" << captured.at(2) << endl;
}
}
// IDENTIFIER, expecting '")) {
e = errtypestr.mid(47);
KexiDBDbg << e <<endl;
// ,' or ')'
// lexerErr i18n("identifier was expected");
} else
#endif
if (errtypestr.startsWith("parse error, expecting `IDENTIFIER'"))
lexerErr = i18n("identifier was expected");
}
if (!otherError) {
if (!lexerErr.isEmpty())
lexerErr.prepend(": ");
if (parser->isReservedKeyword(ctoken.latin1()))
parser->setError( ParserError(i18n("Syntax Error"),
i18n("\"%1\" is a reserved keyword").tqarg(ctoken)+lexerErr, ctoken, current) );
else
parser->setError( ParserError(i18n("Syntax Error"),
i18n("Syntax Error near \"%1\"").tqarg(ctoken)+lexerErr, ctoken, current) );
}
}
}
void setError(const TQString& errName, const TQString& errDesc)
{
parser->setError( ParserError(errName, errDesc, ctoken, current) );
yyerror(errName.latin1());
}
void setError(const TQString& errDesc)
{
setError("other error", errDesc);
}
/* this is better than assert() */
#define IMPL_ERROR(errmsg) setError("Implementation error", errmsg)
bool parseData(Parser *p, const char *data)
{
/* todo: make this REENTRANT */
parser = p;
parser->clear();
field = 0;
fieldList.clear();
// requiresTable = false;
if (!data) {
ParserError err(i18n("Error"), i18n("No query specified"), ctoken, current);
parser->setError(err);
yyerror("");
parser = 0;
return false;
}
tokenize(data);
if (!parser->error().type().isEmpty()) {
parser = 0;
return false;
}
yyparse();
bool ok = true;
if(parser->operation() == Parser::OP_Select)
{
KexiDBDbg << "parseData(): ok" << endl;
// KexiDBDbg << "parseData(): " << tableDict.count() << " loaded tables" << endl;
/* TableSchema *ts;
for(TQDictIterator<TableSchema> it(tableDict); TableSchema *s = tableList.first(); s; s = tableList.next())
{
KexiDBDbg << " " << s->name() << endl;
}*/
/*removed
Field::ListIterator it = parser->select()->fieldsIterator();
for(Field *item; (item = it.current()); ++it)
{
if(tableList.findRef(item->table()) == -1)
{
ParserError err(i18n("Field List Error"), i18n("Unknown table '%1' in field list").tqarg(item->table()->name()), ctoken, current);
parser->setError(err);
yyerror("fieldlisterror");
ok = false;
}
}*/
//take the dummy table out of the query
// parser->select()->removeTable(dummy);
}
else {
ok = false;
}
// tableDict.clear();
parser = 0;
return ok;
}
/* Adds \a column to \a querySchema. \a column can be in a form of
table.field, tableAlias.field or field
*/
bool addColumn( ParseInfo& parseInfo, BaseExpr* columnExpr )
{
if (!columnExpr->validate(parseInfo)) {
setError(parseInfo.errMsg, parseInfo.errDescr);
return false;
}
VariableExpr *v_e = columnExpr->toVariable();
if (columnExpr->exprClass() == KexiDBExpr_Variable && v_e) {
//it's a variable:
if (v_e->name=="*") {//all tables asterisk
if (parseInfo.querySchema->tables()->isEmpty()) {
setError(i18n("\"*\" could not be used if no tables are specified"));
return false;
}
parseInfo.querySchema->addAsterisk( new QueryAsterisk(parseInfo.querySchema) );
}
else if (v_e->tableForQueryAsterisk) {//one-table asterisk
parseInfo.querySchema->addAsterisk(
new QueryAsterisk(parseInfo.querySchema, v_e->tableForQueryAsterisk) );
}
else if (v_e->field) {//"table.field" or "field" (bound to a table or not)
parseInfo.querySchema->addField(v_e->field, v_e->tablePositionForField);
}
else {
IMPL_ERROR("addColumn(): unknown case!");
return false;
}
return true;
}
//it's complex expression
parseInfo.querySchema->addExpression(columnExpr);
#if 0
KexiDBDbg << "found variable name: " << varName << endl;
int dotPos = varName.find('.');
TQString tableName, fieldName;
//TODO: shall we also support db name?
if (dotPos>0) {
tableName = varName.left(dotPos);
fieldName = varName.mid(dotPos+1);
}
if (tableName.isEmpty()) {//fieldname only
fieldName = varName;
if (fieldName=="*") {
parseInfo.querySchema->addAsterisk( new QueryAsterisk(parseInfo.querySchema) );
}
else {
//find first table that has this field
Field *firstField = 0;
for (TableSchema::ListIterator it(*parseInfo.querySchema->tables()); it.current(); ++it) {
Field *f = it.current()->field(fieldName);
if (f) {
if (!firstField) {
firstField = f;
} else if (f->table()!=firstField->table()) {
//ambiguous field name
setError(i18n("Ambiguous field name"),
i18n("Both table \"%1\" and \"%2\" have defined \"%3\" field. "
"Use \"<tableName>.%4\" notation to specify table name.")
.tqarg(firstField->table()->name()).tqarg(f->table()->name())
.tqarg(fieldName).tqarg(fieldName));
return false;
}
}
}
if (!firstField) {
setError(i18n("Field not found"),
i18n("Table containing \"%1\" field not found").tqarg(fieldName));
return false;
}
//ok
parseInfo.querySchema->addField(firstField);
}
}
else {//table.fieldname or tableAlias.fieldname
tableName = tableName.lower();
TableSchema *ts = parseInfo.querySchema->table( tableName );
if (ts) {//table.fieldname
//check if "table" is covered by an alias
const TQValueList<int> tPositions = parseInfo.querySchema->tablePositions(tableName);
TQValueList<int>::ConstIterator it = tPositions.constBegin();
TQCString tableAlias;
bool covered = true;
for (; it!=tPositions.constEnd() && covered; ++it) {
tableAlias = parseInfo.querySchema->tableAlias(*it);
if (tableAlias.isEmpty() || tableAlias.lower()==tableName.latin1())
covered = false; //uncovered
KexiDBDbg << " --" << "covered by " << tableAlias << " alias" << endl;
}
if (covered) {
setError(i18n("Could not access the table directly using its name"),
i18n("Table \"%1\" is covered by aliases. Instead of \"%2\", "
"you can write \"%3\"").tqarg(tableName)
.tqarg(tableName+"."+fieldName).tqarg(tableAlias+"."+fieldName.latin1()));
return false;
}
}
int tablePosition = -1;
if (!ts) {//try to find tableAlias
tablePosition = parseInfo.querySchema->tablePositionForAlias( tableName.latin1() );
if (tablePosition>=0) {
ts = parseInfo.querySchema->tables()->at(tablePosition);
if (ts) {
// KexiDBDbg << " --it's a tableAlias.name" << endl;
}
}
}
if (ts) {
TQValueList<int> *positionsList = repeatedTablesAndAliases[ tableName ];
if (!positionsList) {
IMPL_ERROR(tableName + "." + fieldName + ", !positionsList ");
return false;
}
if (fieldName=="*") {
if (positionsList->count()>1) {
setError(i18n("Ambiguous \"%1.*\" expression").tqarg(tableName),
i18n("More than one \"%1\" table or alias defined").tqarg(tableName));
return false;
}
parseInfo.querySchema->addAsterisk( new QueryAsterisk(parseInfo.querySchema, ts) );
}
else {
// KexiDBDbg << " --it's a table.name" << endl;
Field *realField = ts->field(fieldName);
if (realField) {
// check if table or alias is used twice and both have the same column
// (so the column is ambiguous)
int numberOfTheSameFields = 0;
for (TQValueList<int>::iterator it = positionsList->begin();
it!=positionsList->end();++it)
{
TableSchema *otherTS = parseInfo.querySchema->tables()->at(*it);
if (otherTS->field(fieldName))
numberOfTheSameFields++;
if (numberOfTheSameFields>1) {
setError(i18n("Ambiguous \"%1.%2\" expression").tqarg(tableName).tqarg(fieldName),
i18n("More than one \"%1\" table or alias defined containing \"%2\" field")
.tqarg(tableName).tqarg(fieldName));
return false;
}
}
parseInfo.querySchema->addField(realField, tablePosition);
}
else {
setError(i18n("Field not found"), i18n("Table \"%1\" has no \"%2\" field")
.tqarg(tableName).tqarg(fieldName));
return false;
}
}
}
else {
tableNotFoundError(tableName);
return false;
}
}
#endif
return true;
}
//! clean up no longer needed temporary objects
#define CLEANUP \
delete colViews; \
delete tablesList; \
delete options
QuerySchema* buildSelectQuery(
QuerySchema* querySchema, NArgExpr* colViews, NArgExpr* tablesList,
SelectOptionsInternal* options )
{
ParseInfo parseInfo(querySchema);
//-------tables list
// assert( tablesList ); //&& tablesList->exprClass() == KexiDBExpr_TableList );
uint columnNum = 0;
/*TODO: use this later if there are columns that use database fields,
e.g. "SELECT 1 from table1 t, table2 t") is ok however. */
//used to collect information about first repeated table name or alias:
// TQDict<char> tableNamesAndTableAliases(997, false);
// TQString repeatedTableNameOrTableAlias;
if (tablesList) {
for (int i=0; i<tablesList->args(); i++, columnNum++) {
BaseExpr *e = tablesList->arg(i);
VariableExpr* t_e = 0;
TQCString aliasString;
if (e->exprClass() == KexiDBExpr_SpecialBinary) {
BinaryExpr* t_with_alias = e->toBinary();
assert(t_with_alias);
assert(t_with_alias->left()->exprClass() == KexiDBExpr_Variable);
assert(t_with_alias->right()->exprClass() == KexiDBExpr_Variable
&& (t_with_alias->token()==AS || t_with_alias->token()==0));
t_e = t_with_alias->left()->toVariable();
aliasString = t_with_alias->right()->toVariable()->name.latin1();
}
else {
t_e = e->toVariable();
}
assert(t_e);
TQCString tname = t_e->name.latin1();
TableSchema *s = parser->db()->tableSchema(TQString(tname));
if(!s) {
setError(//i18n("Field List Error"),
i18n("Table \"%1\" does not exist").tqarg(TQString(tname)));
// yyerror("fieldlisterror");
CLEANUP;
return 0;
}
TQCString tableOrAliasName;
if (!aliasString.isEmpty()) {
tableOrAliasName = aliasString;
// KexiDBDbg << "- add alias for table: " << aliasString << endl;
} else {
tableOrAliasName = tname;
}
// 1. collect information about first repeated table name or alias
// (potential ambiguity)
TQValueList<int> *list = parseInfo.repeatedTablesAndAliases[tableOrAliasName];
if (list) {
//another table/alias with the same name
list->append( i );
// KexiDBDbg << "- another table/alias with name: " << tableOrAliasName << endl;
}
else {
list = new TQValueList<int>();
list->append( i );
parseInfo.repeatedTablesAndAliases.insert( tableOrAliasName, list );
// KexiDBDbg << "- first table/alias with name: " << tableOrAliasName << endl;
}
/* if (repeatedTableNameOrTableAlias.isEmpty()) {
if (tableNamesAndTableAliases[tname])
repeatedTableNameOrTableAlias=tname;
else
tableNamesAndTableAliases.insert(tname, (const char*)1);
}
if (!aliasString.isEmpty()) {
KexiDBDbg << "- add alias for table: " << aliasString << endl;
// querySchema->setTableAlias(columnNum, aliasString);
//2. collect information about first repeated table name or alias
// (potential ambiguity)
if (repeatedTableNameOrTableAlias.isEmpty()) {
if (tableNamesAndTableAliases[aliasString])
repeatedTableNameOrTableAlias=aliasString;
else
tableNamesAndTableAliases.insert(aliasString, (const char*)1);
}
}*/
// KexiDBDbg << "addTable: " << tname << endl;
querySchema->addTable( s, aliasString );
}
}
/* set parent table if there's only one */
// if (parser->select()->tables()->count()==1)
if (querySchema->tables()->count()==1)
querySchema->setMasterTable(querySchema->tables()->first());
//-------add fields
if (colViews) {
BaseExpr *e;
columnNum = 0;
const uint colCount = colViews->list.count();
// for (BaseExpr::ListIterator it(colViews->list);(e = it.current()); columnNum++)
colViews->list.first();
for (; columnNum<colCount; columnNum++) {
e = colViews->list.current();
bool moveNext = true; //used to avoid ++it when an item is taken from the list
BaseExpr *columnExpr = e;
VariableExpr* aliasVariable = 0;
if (e->exprClass() == KexiDBExpr_SpecialBinary && e->toBinary()
&& (e->token()==AS || e->token()==0))
{
//KexiDBExpr_SpecialBinary: with alias
columnExpr = e->toBinary()->left();
// isFieldWithAlias = true;
aliasVariable = e->toBinary()->right()->toVariable();
if (!aliasVariable) {
setError(i18n("Invalid alias definition for column \"%1\"")
.tqarg(columnExpr->toString())); //ok?
CLEANUP;
return 0;
}
}
const int c = columnExpr->exprClass();
const bool isExpressionField =
c == KexiDBExpr_Const
|| c == KexiDBExpr_Unary
|| c == KexiDBExpr_Arithm
|| c == KexiDBExpr_Logical
|| c == KexiDBExpr_Relational
|| c == KexiDBExpr_Const
|| c == KexiDBExpr_Function
|| c == KexiDBExpr_Aggregation;
if (c == KexiDBExpr_Variable) {
//just a variable, do nothing, addColumn() will handle this
}
else if (isExpressionField) {
//expression object will be reused, take, will be owned, do not destroy
// KexiDBDbg << colViews->list.count() << " " << it.current()->debugString() << endl;
colViews->list.take(); //take() doesn't work
moveNext = false;
}
else if (aliasVariable) {
//take first (left) argument of the special binary expr, will be owned, do not destroy
e->toBinary()->m_larg = 0;
}
else {
setError(i18n("Invalid \"%1\" column definition").tqarg(e->toString())); //ok?
CLEANUP;
return 0;
}
if (!addColumn( parseInfo, columnExpr )) {
CLEANUP;
return 0;
}
if (aliasVariable) {
// KexiDBDbg << "ALIAS \"" << aliasVariable->name << "\" set for column "
// << columnNum << endl;
querySchema->setColumnAlias(columnNum, aliasVariable->name.latin1());
}
/* if (e->exprClass() == KexiDBExpr_SpecialBinary && dynamic_cast<BinaryExpr*>(e)
&& (e->type()==AS || e->type()==0))
{
//also add alias
VariableExpr* aliasVariable =
dynamic_cast<VariableExpr*>(dynamic_cast<BinaryExpr*>(e)->right());
if (!aliasVariable) {
setError(i18n("Invalid column alias definition")); //ok?
return 0;
}
kdDebug() << "ALIAS \"" << aliasVariable->name << "\" set for column "
<< columnNum << endl;
querySchema->setColumnAlias(columnNum, aliasVariable->name.latin1());
}*/
if (moveNext) {
colViews->list.next();
// ++it;
}
}
}
//----- SELECT options
if (options) {
//----- WHERE expr.
if (options->whereExpr) {
if (!options->whereExpr->validate(parseInfo)) {
setError(parseInfo.errMsg, parseInfo.errDescr);
CLEANUP;
return false;
}
querySchema->setWhereExpression(options->whereExpr);
}
//----- ORDER BY
if (options->orderByColumns) {
OrderByColumnList &orderByColumnList = querySchema->orderByColumnList();
OrderByColumnInternal::ListConstIterator it = options->orderByColumns->constEnd();
uint count = options->orderByColumns->count();
--it;
for (;count>0; --it, --count)
/*opposite direction due to parser specifics*/
{
//first, try to find a column name or alias (outside of asterisks)
QueryColumnInfo *columnInfo = querySchema->columnInfo( (*it).aliasOrName, false/*outside of asterisks*/ );
if (columnInfo) {
orderByColumnList.appendColumn( *columnInfo, (*it).ascending );
}
else {
//failed, try to find a field name within all the tables
if ((*it).columnNumber != -1) {
if (!orderByColumnList.appendColumn( *querySchema,
(*it).ascending, (*it).columnNumber-1 ))
{
setError(i18n("Could not define sorting - no column at position %1")
.tqarg((*it).columnNumber));
CLEANUP;
return 0;
}
}
else {
Field * f = querySchema->findTableField((*it).aliasOrName);
if (!f) {
setError(i18n("Could not define sorting - "
"column name or alias \"%1\" does not exist").tqarg((*it).aliasOrName));
CLEANUP;
return 0;
}
orderByColumnList.appendField( *f, (*it).ascending );
}
}
}
}
}
// KexiDBDbg << "Select ColViews=" << (colViews ? colViews->debugString() : TQString())
// << " Tables=" << (tablesList ? tablesList->debugString() : TQString()) << endl;
CLEANUP;
return querySchema;
}
#undef CLEANUP