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633 lines
24 KiB
633 lines
24 KiB
/* This file is part of the KDE project
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Copyright (C) 2002 Lucijan Busch <lucijan@gmx.at>
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Copyright (C) 2002 Joseph Wenninger <jowenn@kde.org>
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Copyright (C) 2003-2006 Jaroslaw Staniek <js@iidea.pl>
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public License
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along with this library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifndef KEXIDB_FIELD_H
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#define KEXIDB_FIELD_H
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#include <qvariant.h>
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#include <qstring.h>
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#include <qpair.h>
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#include <qvaluevector.h>
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#include <qptrvector.h>
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#include "kexidb/kexidb_export.h"
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namespace KexiDB {
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class TableSchema;
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class QuerySchema;
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class FieldList;
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class BaseExpr;
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//! Meta-data for a field
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/*! KexiDB::Field provides information about single database field.
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Field class has defined following members:
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- name
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- type
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- database constraints
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- additional options
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- length (make sense mostly for string types)
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- precision (for floating-point type)
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- defaultValue
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- caption (user readable name that can be e.g. translated)
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- description (user readable name additional text, can be useful for developers)
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- width (a hint for displaying in tabular mode or as text box)
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Field can also have assigned expression (see KexiDB::BaseExpr class,
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and expression() method).
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If an expression is defined, then field's name is
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Note that aliases for fields are defined within query, not in Field object,
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because the same field can be used in different queries with different alias.
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Notes for advanced use: Field obeject is designed to be owned by a parent object.
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Such a parent object can be KexiDB::TableSchema, if the field defines single table column,
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or KexiDB::QuerySchema, if the field defines an expression (KexiDB::BaseExpr class).
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Using expression class for fields allos to define expressions within queries like
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"SELECT AVG(price) FROM products"
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You can choose whether your field is owned by query or table,
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using appropriate constructor, or using parameterless constructor and
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calling setTable() or setQuery() later.
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*/
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class KEXI_DB_EXPORT Field
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{
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public:
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typedef QPtrList<Field> List; //!< list of fields
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typedef QPtrVector<Field> Vector; //!< vector of fields
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typedef QPtrListIterator<Field> ListIterator; //!< iterator for list of fields
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typedef QPair<Field*,Field*> Pair; //!< fields pair
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typedef QPtrList<Pair> PairList; //!< list of fields pair
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/*! Unified (most common used) types of fields. */
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enum Type
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{
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InvalidType = 0, /*!< Unsupported/Unimplemented type */
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Byte = 1, /*!< 1 byte, signed or unsigned */
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ShortInteger = 2,/*!< 2 bytes, signed or unsigned */
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Integer = 3, /*!< 4 bytes, signed or unsigned */
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BigInteger = 4, /*!< 8 bytes, signed or unsigned */
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Boolean = 5, /*!< 0 or 1 */
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Date = 6, /*!< */
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DateTime = 7, /*!< */
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Time = 8, /*!< */
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Float = 9, /*!< 4 bytes */
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Double = 10, /*!< 8 bytes */
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Text = 11, /*!< Other name: Varchar; no more than 200 bytes, for efficiency */
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LongText = 12, /*!< Other name: Memo. More than 200 bytes*/
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BLOB = 13, /*!< Large binary object */
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LastType = 13, /*!< This line should be at the end of the list of types! */
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Null = 64, /*!< Used for fields that are "NULL" expressions. */
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//! Special, internal types:
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Asterisk = 128, /*!< Used in QueryAsterisk subclass objects only,
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not used in table definitions,
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but only in query definitions */
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Enum = 129, /*!< An integer internal with a string list of hints */
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Map = 130 /*!< Mapping from string to string list (more generic than Enum */
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};
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//TODO: make this configurable
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static uint defaultTextLength() { return 200; }
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/*! Type groups for fields. */
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enum TypeGroup
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{
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InvalidGroup = 0,
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TextGroup = 1,
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IntegerGroup = 2,
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FloatGroup = 3,
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BooleanGroup = 4,
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DateTimeGroup = 5,
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BLOBGroup = 6, /* large binary object */
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LastTypeGroup = 6 // This line should be at the end of the enum!
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};
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/*! Possible constraints defined for a field. */
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enum Constraints
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{
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NoConstraints = 0,
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AutoInc = 1,
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Unique = 2,
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PrimaryKey = 4,
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ForeignKey = 8,
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NotNull = 16,
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NotEmpty = 32, //!< only legal for string-like and blob fields
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Indexed = 64
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};
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/*! Possible options defined for a field. */
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enum Options
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{
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NoOptions = 0,
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Unsigned = 1
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};
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/*! Creates a database field as a child of \a tableSchema table
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No other properties are set (even the name), so these should be set later. */
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Field(TableSchema *tableSchema);
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/*! Creates a database field without any properties set.
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These should be set later. */
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Field();
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/*! Creates a database field with specified properties. */
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Field(const QString& name, Type ctype,
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uint cconst=NoConstraints,
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uint options = NoOptions,
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uint length=0, uint precision=0,
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QVariant defaultValue=QVariant(),
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const QString& caption = QString::null,
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const QString& description = QString::null,
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uint width = 0);
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/*! Copy constructor. */
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Field(const Field& f);
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virtual ~Field();
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//! Converts type \a type to QVariant equivalent as accurate as possible
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static QVariant::Type variantType(uint type);
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/*! \return a i18n'd type name for \a type (\a type has to be an element from Field::Type,
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not greater than Field::LastType) */
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static QString typeName(uint type);
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/*! \return type string for \a type, e.g. "Integer" for Integer type
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(not-i18n'd, \a type has to be an element from Field::Type,
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not greater than Field::LastType) */
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static QString typeString(uint type);
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/*! \return type for a given \a typeString */
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static Type typeForString(const QString& typeString);
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/*! \return type group for a given \a typeGroupString */
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static TypeGroup typeGroupForString(const QString& typeGroupString);
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/*! \return group for \a type */
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static TypeGroup typeGroup(uint type);
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/*! \return a i18n'd group name for \a typeGroup
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(\a typeGroup has to be an element from Field::TypeGroup) */
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static QString typeGroupName(uint typeGroup);
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/*! \return type group string for \a typeGroup, e.g. "IntegerGroup" for IntegerGroup type
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(not-i18n'd, \a type has to be an element from Field::Type,
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not greater than Field::LastType) */
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static QString typeGroupString(uint typeGroup);
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/* ! \return the name of this field */
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inline QString name() const { return m_name; }
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/*! \return table schema of table that owns this field
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or null if it has no table assigned.
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@see query() */
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virtual TableSchema* table() const;
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/*! Sets \a table schema of table that owns this field.
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This does not adds the field to \a table object.
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You do not need to call this method by hand.
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Call TableSchema::addField(Field *field) instead.
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@see setQuery() */
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virtual void setTable(TableSchema *table);
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/*! For special use when the field defines expression.
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\return query schema of query that owns this field
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or null if it has no query assigned.
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@see table() */
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QuerySchema* query() const;
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/*! For special use when field defines expression.
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Sets \a query schema of query that owns this field.
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This does not adds the field to \a query object.
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You do not need to call this method by hand.
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Call QuerySchema::addField() instead.
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@see setQuery() */
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void setQuery(QuerySchema *query);
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/*! \return true if the field is autoincrement (e.g. integer/numeric) */
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inline bool isAutoIncrement() const { return constraints() & AutoInc; }
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/*! \return true if the field is member of single-field primary key */
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inline bool isPrimaryKey() const { return constraints() & PrimaryKey; }
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/*! \return true if the field is member of single-field unique key */
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inline bool isUniqueKey() const { return constraints() & Unique; }
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/*! \return true if the field is member of single-field foreign key */
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inline bool isForeignKey() const { return constraints() & ForeignKey; }
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/*! \return true if the field is not allowed to be null */
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inline bool isNotNull() const { return constraints() & NotNull; }
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/*! \return true if the field is not allowed to be null */
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inline bool isNotEmpty() const { return constraints() & NotEmpty; }
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/*! \return true if the field is indexed using single-field database index. */
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inline bool isIndexed() const { return constraints() & Indexed; }
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/*! \return true if the field is of any numeric type (integer or floating point) */
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inline bool isNumericType() const { return Field::isNumericType(type()); }
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/*! static version of isNumericType() method
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*! \return true if the field is of any numeric type (integer or floating point)*/
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static bool isNumericType(uint type);
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/*! \return true if the field is of any integer type */
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inline bool isIntegerType() const { return Field::isIntegerType(type()); }
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/*! static version of isIntegerType() method
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*! \return true if the field is of any integer type */
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static bool isIntegerType(uint type);
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/*! \return true if the field is of any floating point numeric type */
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inline bool isFPNumericType() const { return Field::isFPNumericType(type()); }
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/*! static version of isFPNumericType() method
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*! \return true if the field is of any floating point numeric type */
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static bool isFPNumericType(uint type);
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/*! \return true if the field is of any date or time related type */
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inline bool isDateTimeType() const { return Field::isDateTimeType(type()); }
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/*! static version of isDateTimeType() method
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*! \return true if the field is of any date or time related type */
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static bool isDateTimeType(uint type);
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/*! @return true if the field is of any text type */
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inline bool isTextType() const { return Field::isTextType(type()); }
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/*! static version of isTextType() method
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*! \return true if the field is of any text type */
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static bool isTextType(uint type);
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uint options() const { return m_options; }
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void setOptions(uint options) { m_options = options; }
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//! Converts field's type to QVariant equivalent as accurate as possible
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inline QVariant::Type variantType() const { return variantType(type()); }
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/*! \return a type for this field. If there's expression assigned,
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type of the expression is returned instead. */
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Type type() const;
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//! \return a i18n'd type name for this field
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inline QString typeName() const { return Field::typeName(type()); }
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//! \return type group for this field
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inline TypeGroup typeGroup() const { return Field::typeGroup(type()); }
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//! \return a i18n'd type group name for this field
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inline QString typeGroupName() const { return Field::typeGroupName(type()); }
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//! \return a type string for this field,
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//! for example "Integer" string for Field::Integer type.
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inline QString typeString() const { return Field::typeString(type()); }
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//! \return a type group string for this field,
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//! for example "Integer" string for Field::IntegerGroup.
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inline QString typeGroupString() const { return Field::typeGroupString(type()); }
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/*! \return (optional) subtype for this field.
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Subtype is a string providing additional hint for field's type.
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E.g. for BLOB type, it can be a MIME type or certain QVariant type name,
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for example: "QPixmap", "QColor" or "QFont" */
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inline QString subType() const { return m_subType; }
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/*! Sets (optional) subtype for this field.
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\sa subType() */
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inline void setSubType(const QString& subType) { m_subType = subType; }
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//! \return default value for this field. Null value means there
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//! is no default value declared. The variant value is compatible with field's type.
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inline QVariant defaultValue() const { return m_defaultValue; }
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/*! \return length of text, only meaningful if the field type is text.
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0 means "default length". */
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inline uint length() const { return m_length; }
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/*! \return precision for numeric and other fields that have both length (scale)
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and precision (floating point types). */
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inline uint precision() const { return m_precision; }
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/*! \return scale for numeric and other fields that have both length (scale)
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and precision (floating point types).
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The scale of a numeric is the count of decimal digits in the fractional part,
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to the right of the decimal point. The precision of a numeric is the total count
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of significant digits in the whole number, that is, the number of digits
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to both sides of the decimal point. So the number 23.5141 has a precision
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of 6 and a scale of 4. Integers can be considered to have a scale of zero. */
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inline uint scale() const { return m_length; }
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//! @todo should we keep extended properties here or move them to a QVariant dictionary?
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/*! \return number of decimal places that should be visible to the user,
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e.g. within table view widget, form or printout.
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Only meaningful if the field type is floating point or (in the future: decimal or currency).
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- Any value less than 0 (-1 is the default) means that there should be displayed all digits
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of the fractional part, except the ending zeros. This is known as "auto" mode.
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For example, 12.345000 becomes 12.345.
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- Value of 0 means that all the fractional part should be hidden (as well as the dot or comma).
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For example, 12.345000 becomes 12.
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- Value N > 0 means that the fractional part should take exactly N digits.
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If the fractional part is shorter than N, additional zeros are appended.
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For example, "12.345" becomes "12.345000" if N=6.
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*/
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inline int visibleDecimalPlaces() const { return m_visibleDecimalPlaces; }
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/*! \return the constraints defined for this field. */
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inline uint constraints() const { return m_constraints; }
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/*! \return order of this field in containing table (counting starts from 0)
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(-1 if unspecified). */
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inline int order() const { return m_order; }
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/*! \return caption of this field. */
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inline QString caption() const { return m_caption; }
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/*! \return caption of this field or - if empty - return its name. */
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inline QString captionOrName() const { return m_caption.isEmpty() ? m_name : m_caption; }
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/*! \return description text for this field. */
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inline QString description() const { return m_desc; }
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/*! \return width of this field (usually in pixels or points)
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0 (the default) means there is no hint for the width. */
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inline uint width() const { return m_width; }
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//! if the type has the unsigned attribute
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inline bool isUnsigned() const { return m_options & Unsigned; }
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/*! \return true if this field has EMPTY property (i.e. it is of type
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string or is a BLOB). */
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inline bool hasEmptyProperty() const { return Field::hasEmptyProperty(type()); }
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/*! static version of hasEmptyProperty() method
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\return true if this field type has EMPTY property (i.e. it is string or BLOB type) */
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static bool hasEmptyProperty(uint type);
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/*! \return true if this field can be auto-incremented.
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Actually, returns true for integer field type. \sa IntegerType, isAutoIncrement() */
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inline bool isAutoIncrementAllowed() const { return Field::isAutoIncrementAllowed(type()); }
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/*! static version of isAutoIncrementAllowed() method
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\return true if this field type can be auto-incremented. */
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static bool isAutoIncrementAllowed(uint type);
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/*! Sets type \a t for this field. This does nothing if there's already expression assigned,
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see expression(). */
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void setType(Type t);
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/*! Sets name \a name for this field. */
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void setName(const QString& name);
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/*! Sets constraints to \a c. If PrimaryKey is set in \a c, also
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constraits implied by being primary key are enforced (see setPrimaryKey()).
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If Indexed is not set in \a c, constraits implied by not being are
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enforced as well (see setIndexed()). */
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void setConstraints(uint c);
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/*! Sets length for this field. Only works for Text Type (even not LongText!).
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0 means "default length". @see length() */
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void setLength(uint l);
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/*! Sets scale for this field. Only works for floating-point types.
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@see scale() */
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void setScale(uint s);
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/*! Sets number of decimal places that should be visible to the user.
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@see visibleDecimalPlaces() */
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void setVisibleDecimalPlaces(int p);
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/*! Sets scale for this field. Only works for floating-point types. */
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void setPrecision(uint p);
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/*! Sets unsigned flag for this field. Only works for integer types. */
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void setUnsigned(bool u);
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/*! Sets default value for this field. Setting null value removes the default value.
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@see defaultValue() */
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void setDefaultValue(const QVariant& def);
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/*! Sets default value decoded from QCString.
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Decoding errors are detected (value is strictly checked against field type)
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- if one is encountered, default value is cleared (defaultValue()==QVariant()).
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\return true if given value was valid for field type. */
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bool setDefaultValue(const QCString& def);
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/*! Sets auto increment flag. Only available to set true,
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if isAutoIncrementAllowed() is true. */
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void setAutoIncrement(bool a);
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/*! Specifies whether the field is single-field primary key or not
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(KexiDB::PrimeryKey item).
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Use this with caution. Setting this to true implies setting:
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- setUniqueKey(true)
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- setNotNull(true)
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- setNotEmpty(true)
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- setIndexed(true)
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Setting this to false implies setting setAutoIncrement(false). */
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void setPrimaryKey(bool p);
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/*! Specifies whether the field has single-field unique constraint or not
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(KexiDB::Unique item). Setting this to true implies setting Indexed flag
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to true (setIndexed(true)), because index is required it control unique constraint. */
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void setUniqueKey(bool u);
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/*! Sets whether the field has to be declared with single-field foreign key.
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Used in IndexSchema::setForeigKey(). */
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void setForeignKey(bool f);
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/*! Specifies whether the field has single-field unique constraint or not
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(KexiDB::NotNull item). Setting this to true implies setting Indexed flag
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to true (setIndexed(true)), because index is required it control
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not null constraint. */
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void setNotNull(bool n);
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/*! Specifies whether the field has single-field unique constraint or not
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(KexiDB::NotEmpty item). Setting this to true implies setting Indexed flag
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to true (setIndexed(true)), because index is required it control
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not empty constraint. */
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void setNotEmpty(bool n);
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/*! Specifies whether the field is indexed (KexiDB::Indexed item)
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(by single-field implicit index) or not.
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Use this with caution. Since index is used to control unique,
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not null/empty constratins, setting this to false implies setting:
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- setPrimaryKey(false)
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- setUniqueKey(false)
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- setNotNull(false)
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- setNotEmpty(false)
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because above flags need index to be present.
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Similarly, setting one of the above flags to true, will automatically
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do setIndexed(true) for the same reason. */
|
|
void setIndexed(bool s);
|
|
|
|
/*! Sets caption for this field to \a caption. */
|
|
void setCaption(const QString& caption) { m_caption=caption; }
|
|
|
|
/*! Sets description for this field to \a description. */
|
|
void setDescription(const QString& description) { m_desc=description; }
|
|
|
|
/*! Sets visible width for this field to \a w
|
|
(usually in pixels or points). 0 means there is no hint for the width. */
|
|
void setWidth(uint w) { m_width=w; }
|
|
|
|
/*! There can be added asterisks (QueryAsterisk objects)
|
|
to query schemas' field list. QueryAsterisk subclasses Field class,
|
|
and to check if the given object (pointed by Field*)
|
|
is asterisk or just ordinary field definition,
|
|
you can call this method. This is just effective version of QObject::isA().
|
|
Every QueryAsterisk object returns true here,
|
|
and every Field object returns false.
|
|
*/
|
|
virtual bool isQueryAsterisk() const { return false; }
|
|
|
|
/*! \return string for debugging purposes. */
|
|
virtual QString debugString() const;
|
|
|
|
/*! Shows debug information about this field. */
|
|
void debug();
|
|
|
|
/*! \return KexiDB::BaseExpr object if the field value is an
|
|
expression. Unless the expression is set with setExpression(), it is null.
|
|
*/
|
|
inline KexiDB::BaseExpr *expression() { return m_expr; }
|
|
|
|
/*! Sets expression data \a expr. If there was
|
|
already expression set, it is destroyed before new assignment.
|
|
This Field object becames owner of \a expr object,
|
|
so you do not have to worry about deleting it later.
|
|
If the \a expr is null, current field's expression is deleted, if exists.
|
|
|
|
Because the field defines an expression, it should be assigned to a query,
|
|
not to a table.
|
|
*/
|
|
void setExpression(KexiDB::BaseExpr *expr);
|
|
|
|
/*! \return true if there is expression defined for this field.
|
|
This method is provided for better readibility
|
|
- does the same as expression()!=NULL but */
|
|
inline bool isExpression() const { return m_expr!=NULL; }
|
|
|
|
//<TMP>
|
|
/*! \return the hints for enum fields. */
|
|
QValueVector<QString> enumHints() const { return m_hints; }
|
|
QString enumHint(uint num) { return (num < m_hints.size()) ? m_hints.at(num) : QString::null; }
|
|
/*! sets the hint for enum fields */
|
|
void setEnumHints(const QValueVector<QString> &l) { m_hints = l; }
|
|
//</TMP>
|
|
|
|
/*! \return custom property \a propertyName.
|
|
If there is no such a property, \a defaultValue is returned. */
|
|
QVariant customProperty(const QCString& propertyName,
|
|
const QVariant& defaultValue = QVariant()) const;
|
|
|
|
//! Sets value \a value for custom property \a propertyName
|
|
void setCustomProperty(const QCString& propertyName, const QVariant& value);
|
|
|
|
//! A data type used for handling custom properties of a field
|
|
typedef QMap<QCString,QVariant> CustomPropertiesMap;
|
|
|
|
//! \return all custom properties
|
|
inline const CustomPropertiesMap customProperties() const {
|
|
return m_customProperties ? *m_customProperties : CustomPropertiesMap(); }
|
|
|
|
protected:
|
|
/*! Creates a database field as a child of \a querySchema table
|
|
Assigns \a expr expression to this field, if present.
|
|
Used internally by query schemas, e.g. to declare asterisks or
|
|
to add expression columns.
|
|
No other properties are set, so these should be set later. */
|
|
Field(QuerySchema *querySchema, BaseExpr* expr = 0);
|
|
|
|
/*! @internal Used by constructors. */
|
|
void init();
|
|
|
|
//! \return a deep copy of this object. Used in @ref FieldList(const FieldList& fl).
|
|
virtual Field* copy() const;
|
|
|
|
FieldList *m_parent; //!< In most cases this points to a TableSchema
|
|
//!< object that field is assigned.
|
|
QString m_name;
|
|
QString m_subType;
|
|
uint m_constraints;
|
|
uint m_length; //!< also used for storing scale for floating point types
|
|
uint m_precision;
|
|
int m_visibleDecimalPlaces; //!< used in visibleDecimalPlaces()
|
|
uint m_options;
|
|
QVariant m_defaultValue;
|
|
int m_order;
|
|
QString m_caption;
|
|
QString m_desc;
|
|
uint m_width;
|
|
QValueVector<QString> m_hints;
|
|
|
|
KexiDB::BaseExpr *m_expr;
|
|
CustomPropertiesMap* m_customProperties;
|
|
|
|
//! @internal Used in m_typeNames member to handle i18n'd type names
|
|
class KEXI_DB_EXPORT FieldTypeNames : public QValueVector<QString> {
|
|
public:
|
|
FieldTypeNames();
|
|
void init();
|
|
QMap<QString,Type> str2num;
|
|
protected:
|
|
bool m_initialized : 1;
|
|
};
|
|
|
|
//! @internal Used in m_typeGroupNames member to handle i18n'd type group names
|
|
class KEXI_DB_EXPORT FieldTypeGroupNames : public QValueVector<QString> {
|
|
public:
|
|
FieldTypeGroupNames();
|
|
void init();
|
|
QMap<QString,TypeGroup> str2num;
|
|
protected:
|
|
bool m_initialized : 1;
|
|
};
|
|
|
|
//! real i18n'd type names (and not-i18n'd type name strings)
|
|
static FieldTypeNames m_typeNames;
|
|
|
|
//! real i18n'd type group names (and not-i18n'd group name strings)
|
|
static FieldTypeGroupNames m_typeGroupNames;
|
|
|
|
private:
|
|
Type m_type;
|
|
|
|
friend class Connection;
|
|
friend class FieldList;
|
|
friend class TableSchema;
|
|
friend class QuerySchema;
|
|
};
|
|
|
|
} //namespace KexiDB
|
|
|
|
#endif
|