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// Copyright (C) 2002 Dominique Devriese <devriese@kde.org>
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
// This program 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 General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
// 02110-1301, USA.
#ifndef KIG_OBJECTS_OBJECT_FACTORY_H
#define KIG_OBJECTS_OBJECT_FACTORY_H
#include "common.h"
class ObjectFactory
{
public:
static const ObjectFactory* instance();
/**
* this returns a fixed point. Note that the returned object is
* not added to the document..
*/
ObjectHolder* fixedPoint( const Coordinate& c ) const;
ObjectTypeCalcer* fixedPointCalcer( const Coordinate& c ) const;
/**
* this returns a CursorPointType; this is used during special
* constructions (e.g. regular polygons) where the constructor
* wants to use the cursor position without actually generating
* an object depending on a new point there.
*/
ObjectTypeCalcer* cursorPointCalcer( const Coordinate& c ) const;
/**
* this returns a relative point (to an object). Note that the returned object
* is not added to the document..
*/
ObjectTypeCalcer* relativePointCalcer( ObjectCalcer* o, const Coordinate& loc ) const;
/**
* this returns a constrained point. Note that the returned object
* is not added to the document..
*/
ObjectHolder* constrainedPoint( ObjectCalcer* curve, double param ) const;
ObjectTypeCalcer* constrainedPointCalcer( ObjectCalcer* curve, double param ) const;
/**
* \overload, changes nothing to the semantics, only calcs the param
* value for you..
*/
ObjectTypeCalcer* constrainedPointCalcer(
ObjectCalcer* curve, const Coordinate& c, const KigDocument& ) const;
ObjectHolder* constrainedPoint(
ObjectCalcer* curve, const Coordinate& c, const KigDocument& ) const;
/**
* this returns a "sensible point".
* By a "sensible point", I mean a point that would be about what
* the user expects when he asks for a point at point \p c . This is a
* constrained point if \p c is on a curve, and otherwise a fixed
* point. I might add the possibility for an intersection point
* sometime.. Note that the returned object is not added to
* the document..
*/
ObjectTypeCalcer* sensiblePointCalcer(
const Coordinate& c, const KigDocument& d, const KigWidget& w ) const;
ObjectHolder* sensiblePoint(
const Coordinate& c, const KigDocument& d, const KigWidget& w ) const;
/**
* set point to what sensiblePoint would have returned..
*/
void redefinePoint( ObjectTypeCalcer* point, const Coordinate& c,
KigDocument& d, const KigWidget& w ) const;
/**
* return a locus, defined by the two points ( one constrained, and
* one following ) \p a and \p b . \p a should be the constrained point,
* and thus, it has to be of type ObjectTypeCalcer where a->type() is of
* type ConstrainedPointType. The semantics of LocusType are a bit
* weird ( but I believe correct :) ), so this function takes care
* of the complication there..
*/
ObjectTypeCalcer* locusCalcer( ObjectCalcer* a, ObjectCalcer* b ) const;
ObjectHolder* locus( ObjectCalcer* a, ObjectCalcer* b ) const;
/**
* returns a label with text \p s at point \p c .. It ( and its tqparents )
* is calced already...
*/
ObjectHolder* label(
const TQString& s, const Coordinate& loc,
bool needframe, const std::vector<ObjectCalcer*>& tqparents,
const KigDocument& doc ) const;
ObjectTypeCalcer* labelCalcer(
const TQString& s, const Coordinate& loc,
bool needframe, const std::vector<ObjectCalcer*>& tqparents,
const KigDocument& doc ) const;
/**
* this one does the same as the above, only that the new label is
* attached to locationtqparent if it is non-null..
*/
ObjectTypeCalcer* attachedLabelCalcer(
const TQString& s, ObjectCalcer* locationtqparent,
const Coordinate& loc, bool needframe,
const std::vector<ObjectCalcer*>& tqparents,
const KigDocument& doc ) const;
/**
* this has been added because it comes handy when redefining
* a text label, we move here all the code for getting an
* attach point from the method above
*/
ObjectCalcer* getAttachPoint(
ObjectCalcer* locationtqparent,
const Coordinate& loc,
const KigDocument& doc ) const;
ObjectHolder* attachedLabel(
const TQString& s, ObjectCalcer* locationtqparent,
const Coordinate& loc, bool needframe,
const std::vector<ObjectCalcer*>& tqparents,
const KigDocument& doc ) const;
/**
* returns a property object for the property \p p of object \p o .
*
* \note
* \p o should have already been calc'd, or this will fail and
* return 0.. The returned object also needs to be calced after
* this..
*/
ObjectPropertyCalcer* propertyObjectCalcer( ObjectCalcer* o, const char* p ) const;
ObjectHolder* propertyObject( ObjectCalcer* o, const char* p ) const;
};
#endif
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