/* * This program source code file is part of KICAD, a free EDA CAD application. * * Copyright (C) 2017-2023 Kicad Developers, see AUTHORS.txt for contributors. * * 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 */ #include #include #include #include #include POLYGON_GEOM_MANAGER::POLYGON_GEOM_MANAGER( CLIENT& aClient ): m_client( aClient ), m_leaderMode( LEADER_MODE::DIRECT ), m_intersectionsAllowed( true ) {} bool POLYGON_GEOM_MANAGER::AddPoint( const VECTOR2I& aPt ) { // if this is the first point, make sure the client is happy // for us to continue if( !IsPolygonInProgress() && !m_client.OnFirstPoint( *this ) ) return false; if( m_leaderPts.PointCount() > 1 ) { // there are enough leader points - the next // locked-in point is the end of the last leader // segment m_lockedPoints.Append( m_leaderPts.CPoint( -2 ) ); m_lockedPoints.Append( m_leaderPts.CPoint( -1 ) ); } else { // no leader lines, directly add the cursor m_lockedPoints.Append( aPt ); } // check for self-intersections if( !m_intersectionsAllowed && IsSelfIntersecting( false ) ) { m_lockedPoints.Remove( m_lockedPoints.PointCount() - 1 ); return false; } if( m_lockedPoints.PointCount() > 0 ) updateTemporaryLines( aPt ); m_client.OnGeometryChange( *this ); return true; } void POLYGON_GEOM_MANAGER::SetFinished() { m_client.OnComplete( *this ); } void POLYGON_GEOM_MANAGER::SetLeaderMode( LEADER_MODE aMode ) { m_leaderMode = aMode; } bool POLYGON_GEOM_MANAGER::IsSelfIntersecting( bool aIncludeLeaderPts ) const { SHAPE_LINE_CHAIN pts( m_lockedPoints ); if( aIncludeLeaderPts ) { for( int i = 0; i < m_leaderPts.PointCount(); ++i ) { if( m_leaderPts.CPoint( i ) != pts.CPoint( 0 ) ) pts.Append( m_leaderPts.CPoint( i ) ); } } // line chain needs to be set as closed for proper checks pts.SetClosed( true ); return !!pts.SelfIntersecting(); } void POLYGON_GEOM_MANAGER::SetCursorPosition( const VECTOR2I& aPos ) { updateTemporaryLines( aPos ); } bool POLYGON_GEOM_MANAGER::IsPolygonInProgress() const { return m_lockedPoints.PointCount() > 0; } int POLYGON_GEOM_MANAGER::PolygonPointCount() const { return m_lockedPoints.PointCount(); } bool POLYGON_GEOM_MANAGER::NewPointClosesOutline( const VECTOR2I& aPt ) const { return m_lockedPoints.PointCount() > 0 && m_lockedPoints.CPoint( 0 ) == aPt; } std::optional POLYGON_GEOM_MANAGER::DeleteLastCorner() { std::optional last; if( m_lockedPoints.PointCount() > 0 ) { last = m_lockedPoints.GetPoint( m_lockedPoints.PointCount() - 1 ); m_lockedPoints.Remove( m_lockedPoints.PointCount() - 1 ); } // update the new last segment (was previously // locked in), reusing last constraints if( m_lockedPoints.PointCount() > 0 ) updateTemporaryLines( m_leaderPts.CLastPoint() ); m_client.OnGeometryChange( *this ); return last; } void POLYGON_GEOM_MANAGER::Reset() { m_lockedPoints.Clear(); m_leaderPts.Clear(); m_loopPts.Clear(); m_client.OnGeometryChange( *this ); } static SHAPE_LINE_CHAIN build45DegLeader( const VECTOR2I& aEndPoint, SHAPE_LINE_CHAIN aLastPoints ) { if( aLastPoints.PointCount() < 1 ) return SHAPE_LINE_CHAIN(); const VECTOR2I lastPt = aLastPoints.CPoint( -1 ); const VECTOR2D endpointD = aEndPoint; const VECTOR2D lineVec = endpointD - lastPt; if( aLastPoints.SegmentCount() < 1 ) return SHAPE_LINE_CHAIN( std::vector{ lastPt, lastPt + GetVectorSnapped45( lineVec ) } ); EDA_ANGLE lineA( lineVec ); EDA_ANGLE prevA( GetVectorSnapped45( lastPt - aLastPoints.CPoint( -2 ) ) ); bool vertical = std::abs( lineVec.y ) > std::abs( lineVec.x ); bool horizontal = std::abs( lineVec.y ) < std::abs( lineVec.x ); double angDiff = std::abs( ( lineA - prevA ).Normalize180().AsDegrees() ); bool bendEnd = ( angDiff < 45 ) || ( angDiff > 90 && angDiff < 135 ); if( prevA.Normalize90() == ANGLE_45 || prevA.Normalize90() == -ANGLE_45 ) bendEnd = !bendEnd; VECTOR2D mid = endpointD; if( bendEnd ) { if( vertical ) { if( lineVec.y > 0 ) mid = VECTOR2D( lastPt.x, endpointD.y - std::abs( lineVec.x ) ); else mid = VECTOR2D( lastPt.x, endpointD.y + std::abs( lineVec.x ) ); } else if( horizontal ) { if( lineVec.x > 0 ) mid = VECTOR2D( endpointD.x - std::abs( lineVec.y ), lastPt.y ); else mid = VECTOR2D( endpointD.x + std::abs( lineVec.y ), lastPt.y ); } } else { if( vertical ) { if( lineVec.y > 0 ) mid = VECTOR2D( endpointD.x, lastPt.y + std::abs( lineVec.x ) ); else mid = VECTOR2D( endpointD.x, lastPt.y - std::abs( lineVec.x ) ); } else if( horizontal ) { if( lineVec.x > 0 ) mid = VECTOR2D( lastPt.x + std::abs( lineVec.y ), endpointD.y ); else mid = VECTOR2D( lastPt.x - std::abs( lineVec.y ), endpointD.y ); } } const VECTOR2I midInt = { KiROUND( mid.x ), KiROUND( mid.y ) }; return SHAPE_LINE_CHAIN( std::vector{ lastPt, midInt, aEndPoint } ); } void POLYGON_GEOM_MANAGER::updateTemporaryLines( const VECTOR2I& aEndPoint, LEADER_MODE aModifier ) { wxCHECK( m_lockedPoints.PointCount() > 0, /*void*/ ); const VECTOR2I& last_pt = m_lockedPoints.CLastPoint(); if( m_leaderMode == LEADER_MODE::DEG45 || aModifier == LEADER_MODE::DEG45 ) { if( m_lockedPoints.PointCount() > 0 ) { m_leaderPts = build45DegLeader( aEndPoint, m_lockedPoints ); m_loopPts = build45DegLeader( aEndPoint, m_lockedPoints.Reverse() ).Reverse(); } } else { // direct segment m_leaderPts = SHAPE_LINE_CHAIN( { last_pt, aEndPoint } ); m_loopPts.Clear(); } m_client.OnGeometryChange( *this ); }