/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 Cirilo Bernardo * * 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 "kicadcurve.h" #include #include #include #include #include #include <../../../libs/kimath/include/geometry/shape_arc.h> KICADCURVE::KICADCURVE() { m_form = CURVE_NONE; m_angle = 0.0; m_radius = 0.0; m_layer = LAYER_NONE; m_startangle = 0.0; m_endangle = 0.0; m_arcHasMiddlePoint = false; return; } KICADCURVE::~KICADCURVE() { return; } #include bool KICADCURVE::Read( SEXPR::SEXPR* aEntry, CURVE_TYPE aCurveType ) { if( CURVE_LINE != aCurveType && CURVE_ARC != aCurveType && CURVE_CIRCLE != aCurveType && CURVE_BEZIER != aCurveType && CURVE_POLYGON != aCurveType ) { wxLogMessage( "* Unsupported curve type: %d\n", aCurveType ); return false; } m_form = aCurveType; int nchild = aEntry->GetNumberOfChildren(); if( ( CURVE_CIRCLE == aCurveType && nchild < 5 ) || ( CURVE_ARC == aCurveType && nchild < 6 ) || ( CURVE_LINE == aCurveType && nchild < 5 ) || ( CURVE_BEZIER == aCurveType && nchild < 5 ) || ( CURVE_POLYGON == aCurveType && nchild < 5 ) ) { wxLogMessage( "* bad curve data; not enough parameters\n" ); return false; } SEXPR::SEXPR* child; std::string text; for( int i = 1; i < nchild; ++i ) { child = aEntry->GetChild( i ); if( !child->IsList() ) continue; text = child->GetChild( 0 )->GetSymbol(); if( text == "pts" ) { // Parse and extract the list of xy coordinates SEXPR::PARSER parser; std::unique_ptr prms = parser.Parse( child->AsString() ); // We need 4 XY parameters (and "pts" that is the first parameter) if( ( aCurveType == CURVE_BEZIER && prms->GetNumberOfChildren() != 5 ) || ( aCurveType == CURVE_POLYGON && prms->GetNumberOfChildren() < 4 ) ) return false; // Extract xy coordinates from pts list SEXPR::SEXPR_VECTOR const* list = prms->GetChildren(); // The first parameter is "pts", so skip it. for( SEXPR::SEXPR_VECTOR::size_type ii = 1; ii < list->size(); ++ii ) { SEXPR::SEXPR* sub_child = ( *list )[ii]; text = sub_child->GetChild( 0 )->GetSymbol(); if( text == "xy" ) { DOUBLET coord; if( !Get2DCoordinate( sub_child, coord ) ) return false; if( aCurveType == CURVE_BEZIER ) { switch( ii ) { case 1: m_start = coord; break; case 2: m_bezierctrl1 = coord; break; case 3: m_bezierctrl2 = coord; break; case 4: m_end = coord; break; default: break; } } else m_poly.push_back( coord ); } } } else if( text == "start" || text == "center" ) { if( !Get2DCoordinate( child, m_start ) ) return false; } else if( text == "end" ) { if( !Get2DCoordinate( child, m_end ) ) return false; } else if( text == "mid" ) { if( !Get2DCoordinate( child, m_middle ) ) return false; m_arcHasMiddlePoint = true; } else if( text == "angle" ) { if( child->GetNumberOfChildren() < 2 || ( !child->GetChild( 1 )->IsDouble() && !child->GetChild( 1 )->IsInteger() ) ) { wxLogMessage( "* bad angle data\n" ); return false; } if( child->GetChild( 1 )->IsDouble() ) m_angle = child->GetChild( 1 )->GetDouble(); else m_angle = child->GetChild( 1 )->GetInteger(); m_angle = m_angle / 180.0 * M_PI; } else if( text == "layer" ) { const OPT layer = GetLayerName( *child ); if( !layer ) { std::ostringstream ostr; ostr << "* bad layer data: " << child->AsString(); wxLogMessage( "%s\n", ostr.str().c_str() ); return false; } // NOTE: for the moment we only process Edge.Cuts if( *layer == "Edge.Cuts" ) m_layer = LAYER_EDGE; } } // New arcs are defined by start middle and end points instead of center, // start and arc angle // So convert new params to old params if( CURVE_ARC == aCurveType && m_arcHasMiddlePoint ) { // To caculate old params, we are using SHAPE_ARC, but SHAPE_ARC use // integer coords. So to avoid truncations, use a scaling factor. // 1e5 is enough. const double scale = 1e5; SHAPE_ARC new_arc( VECTOR2I( m_start.x*scale, m_start.y*scale ), VECTOR2I( m_middle.x*scale, m_middle.y*scale ), VECTOR2I( m_end.x*scale, m_end.y*scale ), 0 ); VECTOR2I center = new_arc.GetCenter(); m_start.x = center.x/scale; m_start.y = center.y/scale; m_end.x = new_arc.GetP0().x/scale; m_end.y = new_arc.GetP0().y/scale; m_ep.x = new_arc.GetP1().x/scale; m_ep.y = new_arc.GetP1().y/scale; m_angle = new_arc.GetCentralAngle().AsRadians(); } return true; } std::string KICADCURVE::Describe() const { std::ostringstream desc; switch( m_form ) { case CURVE_LINE: desc << "line start: " << m_start << " end: " << m_end; break; case CURVE_ARC: desc << "arc center: " << m_start << " radius: " << m_radius << " angle: " << 180.0 * m_angle / M_PI << " arc start: " << m_end << " arc end: " << m_ep; break; case CURVE_CIRCLE: desc << "circle center: " << m_start << " radius: " << m_radius; break; case CURVE_BEZIER: desc << "bezier start: " << m_start << " end: " << m_end << " ctrl1: " << m_bezierctrl1 << " ctrl2: " << m_bezierctrl2 ; break; default: desc << ""; break; } return desc.str(); }