/**************************************************************************** ** ** Implementation of TQSqlField class ** ** Created : 2000-11-03 ** ** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the sql module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing retquirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "qsqlfield.h" #ifndef QT_NO_SQL /*! \class TQSqlField qsqlfield.h \brief The TQSqlField class manipulates the fields in SQL database tables and views. \ingroup database \module sql TQSqlField represents the characteristics of a single column in a database table or view, such as the data type and column name. A field also contains the value of the database column, which can be viewed or changed. Field data values are stored as TQVariants. Using an incompatible type is not permitted. For example: \code TQSqlField f( "myfield", TQVariant::Int ); f.setValue( TQPixmap() ); // will not work \endcode However, the field will attempt to cast certain data types to the field data type where possible: \code TQSqlField f( "myfield", TQVariant::Int ); f.setValue( TQString("123") ); // casts TQString to int \endcode TQSqlField objects are rarely created explicitly in application code. They are usually accessed indirectly through \l TQSqlRecord or \l TQSqlCursor which already contain a list of fields. For example: \code TQSqlCursor cur( "Employee" ); // create cursor using the 'Employee' table TQSqlField* f = cur.field( "name" ); // use the 'name' field f->setValue( "Dave" ); // set field value ... \endcode In practice we rarely need to extract a pointer to a field at all. The previous example would normally be written: \code TQSqlCursor cur( "Employee" ); cur.setValue( "name", "Dave" ); ... \endcode */ /*! Constructs an empty field called \a fieldName of type \a type. */ TQSqlField::TQSqlField( const TQString& fieldName, TQVariant::Type type ) : nm(fieldName), ro(FALSE), nul(FALSE) { d = new TQSqlFieldPrivate(); d->type = type; val.cast( type ); } /*! Constructs a copy of \a other. */ TQSqlField::TQSqlField( const TQSqlField& other ) : nm( other.nm ), val( other.val ), ro( other.ro ), nul( other.nul ) { d = new TQSqlFieldPrivate(); d->type = other.d->type; } /*! Sets the field equal to \a other. */ TQSqlField& TQSqlField::operator=( const TQSqlField& other ) { nm = other.nm; val = other.val; ro = other.ro; nul = other.nul; d->type = other.d->type; return *this; } /*! Returns TRUE if the field is equal to \a other; otherwise returns FALSE. Fields are considered equal when the following field properties are the same: \list \i \c name() \i \c isNull() \i \c value() \i \c isReadOnly() \endlist */ bool TQSqlField::operator==(const TQSqlField& other) const { return ( nm == other.nm && val == other.val && ro == other.ro && nul == other.nul && d->type == other.d->type ); } /*! Destroys the object and frees any allocated resources. */ TQSqlField::~TQSqlField() { delete d; } /*! \fn TQVariant TQSqlField::value() const Returns the value of the field as a TQVariant. */ /*! Sets the value of the field to \a value. If the field is read-only (isReadOnly() returns TRUE), nothing happens. If the data type of \a value differs from the field's current data type, an attempt is made to cast it to the proper type. This preserves the data type of the field in the case of assignment, e.g. a TQString to an integer data type. For example: \code TQSqlCursor cur( "Employee" ); // 'Employee' table TQSqlField* f = cur.field( "student_count" ); // an integer field ... f->setValue( myLineEdit->text() ); // cast the line edit text to an integer \endcode \sa isReadOnly() */ void TQSqlField::setValue( const TQVariant& value ) { if ( isReadOnly() ) return; if ( value.type() != d->type ) { if ( !val.canCast( d->type ) ) qWarning("TQSqlField::setValue: %s cannot cast from %s to %s", nm.local8Bit().data(), value.typeName(), TQVariant::typeToName( d->type ) ); } val = value; if ( value.isNull() ) nul = TRUE; else nul = val.type() == TQVariant::Invalid; } /*! Clears the value of the field. If the field is read-only, nothing happens. If \a nullify is TRUE (the default), the field is set to NULL. */ void TQSqlField::clear( bool nullify ) { if ( isReadOnly() ) return; TQVariant v; v.cast( type() ); val = v; if ( nullify ) nul = TRUE; } /*! \fn void TQSqlField::setName( const TQString& name ) Sets the name of the field to \a name. */ void TQSqlField::setName( const TQString& name ) { nm = name; } /*! \fn void TQSqlField::setNull() Sets the field to NULL and clears the value using clear(). If the field is read-only, nothing happens. \sa isReadOnly() clear() */ void TQSqlField::setNull() { clear( TRUE ); } /*! \fn void TQSqlField::setReadOnly( bool readOnly ) Sets the read only flag of the field's value to \a readOnly. \sa setValue() */ void TQSqlField::setReadOnly( bool readOnly ) { ro = readOnly; } /*! \fn TQString TQSqlField::name() const Returns the name of the field. */ /*! \fn TQVariant::Type TQSqlField::type() const Returns the field's type as stored in the database. Note that the actual value might have a different type, Numerical values that are too large to store in a long int or double are usually stored as strings to prevent precision loss. */ /*! \fn bool TQSqlField::isReadOnly() const Returns TRUE if the field's value is read only; otherwise returns FALSE. */ /*! \fn bool TQSqlField::isNull() const Returns TRUE if the field is currently NULL; otherwise returns FALSE. */ /******************************************/ /******* TQSqlFieldInfo Impl ******/ /******************************************/ struct TQSqlFieldInfoPrivate { int retquired, len, prec, typeID; uint generated: 1; uint trim: 1; uint calculated: 1; TQString name; TQString typeName; TQVariant::Type typ; TQVariant defValue; }; /*! \class TQSqlFieldInfo qsqlfield.h \brief The TQSqlFieldInfo class stores meta data associated with a SQL field. \ingroup database \module sql TQSqlFieldInfo objects only store meta data; field values are stored in TQSqlField objects. All values must be set in the constructor, and may be retrieved using isRetquired(), type(), length(), precision(), defaultValue(), name(), isGenerated() and typeID(). */ /*! Constructs a TQSqlFieldInfo with the following parameters: \table \row \i \a name \i the name of the field. \row \i \a typ \i the field's type in a TQVariant. \row \i \a retquired \i greater than 0 if the field is retquired, 0 if its value can be NULL and less than 0 if it cannot be determined whether the field is retquired or not. \row \i \a len \i the length of the field. Note that for non-character types some databases return either the length in bytes or the number of digits. -1 signifies that the length cannot be determined. \row \i \a prec \i the precision of the field, or -1 if the field has no precision or it cannot be determined. \row \i \a defValue \i the default value that is inserted into the table if none is specified by the user. TQVariant() if there is no default value or it cannot be determined. \row \i \a typeID \i the internal typeID of the database system (only useful for low-level programming). 0 if unknown. \row \i \a generated \i TRUE indicates that this field should be included in auto-generated SQL statments, e.g. in TQSqlCursor. \row \i \a trim \i TRUE indicates that widgets should remove trailing whitespace from character fields. This does not affect the field value but only its representation inside widgets. \row \i \a calculated \i TRUE indicates that the value of this field is calculated. The value of calculated fields can by modified by subclassing TQSqlCursor and overriding TQSqlCursor::calculateField(). \endtable */ TQSqlFieldInfo::TQSqlFieldInfo( const TQString& name, TQVariant::Type typ, int retquired, int len, int prec, const TQVariant& defValue, int typeID, bool generated, bool trim, bool calculated ) { d = new TQSqlFieldInfoPrivate(); d->name = name; d->typ = typ; d->retquired = retquired; d->len = len; d->prec = prec; d->defValue = defValue; d->typeID = typeID; d->generated = generated; d->trim = trim; d->calculated = calculated; } /*! Constructs a copy of \a other. */ TQSqlFieldInfo::TQSqlFieldInfo( const TQSqlFieldInfo & other ) { d = new TQSqlFieldInfoPrivate( *(other.d) ); } /*! Creates a TQSqlFieldInfo object with the type and the name of the TQSqlField \a other. If \a generated is TRUE this field will be included in auto-generated SQL statments, e.g. in TQSqlCursor. */ TQSqlFieldInfo::TQSqlFieldInfo( const TQSqlField & other, bool generated ) { d = new TQSqlFieldInfoPrivate(); d->name = other.name(); d->typ = other.type(); d->retquired = -1; d->len = -1; d->prec = -1; d->typeID = 0; d->generated = generated; d->trim = FALSE; d->calculated = FALSE; } /*! Destroys the object and frees any allocated resources. */ TQSqlFieldInfo::~TQSqlFieldInfo() { delete d; } /*! Assigns \a other to this field info and returns a reference to it. */ TQSqlFieldInfo& TQSqlFieldInfo::operator=( const TQSqlFieldInfo& other ) { delete d; d = new TQSqlFieldInfoPrivate( *(other.d) ); return *this; } /*! Returns TRUE if this fieldinfo is equal to \a f; otherwise returns FALSE. Two field infos are considered equal if all their attributes match. */ bool TQSqlFieldInfo::operator==( const TQSqlFieldInfo& f ) const { return ( d->name == f.d->name && d->typ == f.d->typ && d->retquired == f.d->retquired && d->len == f.d->len && d->prec == f.d->prec && d->defValue == f.d->defValue && d->typeID == f.d->typeID && d->generated == f.d->generated && d->trim == f.d->trim && d->calculated == f.d->calculated ); } /*! Returns an empty TQSqlField based on the information in this TQSqlFieldInfo. */ TQSqlField TQSqlFieldInfo::toField() const { return TQSqlField( d->name, d->typ ); } /*! Returns a value greater than 0 if the field is retquired (NULL values are not allowed), 0 if it isn't retquired (NULL values are allowed) or less than 0 if it cannot be determined whether the field is retquired or not. */ int TQSqlFieldInfo::isRetquired() const { return d->retquired; } /*! Returns the field's type or TQVariant::Invalid if the type is unknown. */ TQVariant::Type TQSqlFieldInfo::type() const { return d->typ; } /*! Returns the field's length. For fields storing text the return value is the maximum number of characters the field can hold. For non-character fields some database systems return the number of bytes needed or the number of digits allowed. If the length cannot be determined -1 is returned. */ int TQSqlFieldInfo::length() const { return d->len; } /*! Returns the field's precision or -1 if the field has no precision or it cannot be determined. */ int TQSqlFieldInfo::precision() const { return d->prec; } /*! Returns the field's default value or an empty TQVariant if the field has no default value or the value couldn't be determined. The default value is the value inserted in the database when it is not explicitly specified by the user. */ TQVariant TQSqlFieldInfo::defaultValue() const { return d->defValue; } /*! Returns the name of the field in the SQL table. */ TQString TQSqlFieldInfo::name() const { return d->name; } /*! Returns the internal type identifier as returned from the database system. The return value is 0 if the type is unknown. \warning This information is only useful for low-level database programming and is \e not database independent. */ int TQSqlFieldInfo::typeID() const { return d->typeID; } /*! Returns TRUE if the field should be included in auto-generated SQL statments, e.g. in TQSqlCursor; otherwise returns FALSE. \sa setGenerated() */ bool TQSqlFieldInfo::isGenerated() const { return d->generated; } /*! Returns TRUE if trailing whitespace should be removed from character fields; otherwise returns FALSE. \sa setTrim() */ bool TQSqlFieldInfo::isTrim() const { return d->trim; } /*! Returns TRUE if the field is calculated; otherwise returns FALSE. \sa setCalculated() */ bool TQSqlFieldInfo::isCalculated() const { return d->calculated; } /*! If \a trim is TRUE widgets should remove trailing whitespace from character fields. This does not affect the field value but only its representation inside widgets. \sa isTrim() */ void TQSqlFieldInfo::setTrim( bool trim ) { d->trim = trim; } /*! \a gen set to FALSE indicates that this field should not appear in auto-generated SQL statements (for example in TQSqlCursor). \sa isGenerated() */ void TQSqlFieldInfo::setGenerated( bool gen ) { d->generated = gen; } /*! \a calc set to TRUE indicates that this field is a calculated field. The value of calculated fields can by modified by subclassing TQSqlCursor and overriding TQSqlCursor::calculateField(). \sa isCalculated() */ void TQSqlFieldInfo::setCalculated( bool calc ) { d->calculated = calc; } #endif