/* * This program source code file is part of KICAD, a free EDA CAD application. * * Copyright (C) 2014 CERN * Copyright (C) 2020 KiCad Developers, see AUTHORS.txt for contributors. * * @author Maciej Suminski * * 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, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #ifndef EDIT_CONSTRAINTS_H_ #define EDIT_CONSTRAINTS_H_ #include #include class EDIT_POINT; class EDIT_LINE; class EDIT_POINTS; enum GRID_CONSTRAINT_TYPE { IGNORE_GRID, SNAP_TO_GRID, SNAP_BY_GRID // Keep it on grid if it started on grid (treat x and y independently) }; /** * Describe constraints between two edit handles. * * After the constrained handle is changed, Apply() has to be called to fix its coordinates * according to the implemented constraint. */ template class EDIT_CONSTRAINT { public: /** * @param aConstrained is EDIT_POINT to which the constraint is applied. */ EDIT_CONSTRAINT( EDIT_TYPE& aConstrained ) : m_constrained( aConstrained ) {}; virtual ~EDIT_CONSTRAINT() {}; /** * Correct coordinates of the constrained edit handle. */ virtual void Apply( EDIT_TYPE& aHandle ) = 0; /** * Correct coordinates of the constrained edit handle. */ void Apply() { Apply( m_constrained ); } protected: EDIT_TYPE& m_constrained; ///< Point that is constrained by rules implemented by Apply(). }; /** * #EDIT_CONSTRAINT that imposes a constraint that two points have to have the same X coordinate. */ class EC_VERTICAL : public EDIT_CONSTRAINT { public: /** * @param aConstrained is the point that is put under constrain. * @param aConstrainer is the point that is the source of the constrain. */ EC_VERTICAL( EDIT_POINT& aConstrained, const EDIT_POINT& aConstrainer ) : EDIT_CONSTRAINT( aConstrained ), m_constrainer( aConstrainer ) {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_POINT& aHandle ) override; private: const EDIT_POINT& m_constrainer; ///< Point that imposes the constraint. }; /** * #EDIT_CONSTRAINT that imposes a constraint that two points have to have the same Y coordinate. */ class EC_HORIZONTAL : public EDIT_CONSTRAINT { public: /** * @param aConstrained is the point that is put under constrain. * @param aConstrainer is the point that is the source of the constrain. */ EC_HORIZONTAL( EDIT_POINT& aConstrained, const EDIT_POINT& aConstrainer ) : EDIT_CONSTRAINT( aConstrained ), m_constrainer( aConstrainer ) {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_POINT& aHandle ) override; private: const EDIT_POINT& m_constrainer; ///< Point that imposes the constraint. }; /** * #EDIT_CONSTRAINT that imposes a constraint that two points have to be located at angle of 45 * degree multiplicity. */ class EC_45DEGREE : public EDIT_CONSTRAINT { public: /** * @param aConstrained is the point that is put under constrain. * @param aConstrainer is the point that is the source of the constrain. */ EC_45DEGREE( EDIT_POINT& aConstrained, const EDIT_POINT& aConstrainer ) : EDIT_CONSTRAINT( aConstrained ), m_constrainer( aConstrainer ) {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_POINT& aHandle ) override; private: const EDIT_POINT& m_constrainer; ///< Point that imposes the constraint. }; /** * #EDIT_CONSTRAINT that imposes a constraint that a point has to lie on a line (determined * by 2 points). */ class EC_LINE : public EDIT_CONSTRAINT { public: EC_LINE( EDIT_POINT& aConstrained, const EDIT_POINT& aConstrainer ); ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_POINT& aHandle ) override; private: const EDIT_POINT& m_constrainer; ///< Point that imposes the constraint. VECTOR2I m_line; ///< Vector representing the constraining line. }; /** * #EDIT_CONSTRAINT that imposes a constraint that a point has to lie on a circle. */ class EC_CIRCLE : public EDIT_CONSTRAINT { public: /** * @param aConstrained is the point that is put under constrain. * @param aCenter is the point that is the center of the circle. * @param aEnd is the point that decides on the radius of the circle. */ EC_CIRCLE( EDIT_POINT& aConstrained, const EDIT_POINT& aCenter, const EDIT_POINT& aEnd ) : EDIT_CONSTRAINT( aConstrained ), m_center( aCenter ), m_end( aEnd ) {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_POINT& aHandle ) override; private: ///< Point that imposes the constraint (center of the circle). const EDIT_POINT& m_center; ///< Point that imposes the constraint (decides on the radius of the circle). const EDIT_POINT& m_end; }; /** * #EDIT_CONSTRAINT for 3 segments: dragged and two adjacent ones, enforcing to keep their slopes * and allows only to change ending points. Applied to zones. */ class EC_CONVERGING : public EDIT_CONSTRAINT { public: EC_CONVERGING( EDIT_LINE& aLine, EDIT_POINTS& aPoints ); virtual ~EC_CONVERGING(); ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_LINE& aHandle ) override; private: ///< Constraint for origin side segment. EDIT_CONSTRAINT* m_originSideConstraint; ///< Constraint for end side segment. EDIT_CONSTRAINT* m_endSideConstraint; ///< Additional constraint, applied when at least two points are collinear. It is a pointer to ///< m_[origin/end]SideConstraint, so it should not be freed. EDIT_CONSTRAINT* m_colinearConstraint; ///< EDIT_POINTS instance that stores currently modified lines. EDIT_POINTS& m_editPoints; ///< Vector that represents the initial direction of the dragged segment. VECTOR2I m_draggedVector; }; /** * #EDIT_CONSTRAINT for a EDIT_LINE, one of the ends is snapped to a spot determined by a * transform function passed as parameter (e.g. it can be snapped to a grid), instead of having * the line center snapped to a point. */ class EC_SNAPLINE : public EDIT_CONSTRAINT { public: ///< Typedef for a function that determines snapping point. typedef std::function V2D_TRANSFORM_FUN; EC_SNAPLINE( EDIT_LINE& aLine, V2D_TRANSFORM_FUN aSnapFun ); virtual ~EC_SNAPLINE() {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_LINE& aHandle ) override; private: ///< Function that determines snapping point. V2D_TRANSFORM_FUN m_snapFun; }; /** * #EDIT_CONSTRAINT for a EDIT_LINE, that constrains the line to move perpendicular * to the line itself. */ class EC_PERPLINE : public EDIT_CONSTRAINT { public: EC_PERPLINE( EDIT_LINE& aLine ); virtual ~EC_PERPLINE() {} ///< @copydoc EDIT_CONSTRAINT::Apply() virtual void Apply( EDIT_LINE& aHandle ) override; private: VECTOR2I m_mid; VECTOR2I m_line; }; #endif /* EDIT_CONSTRAINTS_H_ */