/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 Cirilo Bernardo * Copyright (C) 2020-2022 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 "kicadpcb.h" #include "kicadcurve.h" #include "kicadfootprint.h" #include "oce_utils.h" #include #include #include #include #include #include KICADPCB::KICADPCB( const wxString& aPcbName ) { m_resolver.Set3DConfigDir( wxT( "" ) ); m_topSolderMask = wxColour( 15, 102, 15 ); m_bottomSolderMask = wxColour( 15, 102, 15 ); m_topSilk = wxColour( 240, 240, 240 ); m_bottomSilk = wxColour( 240, 240, 240 ); m_copperFinish = wxColour( 191, 155, 58 ); m_thickness = 1.6; m_pcb_model = nullptr; m_minDistance = MIN_DISTANCE; m_useGridOrigin = false; m_useDrillOrigin = false; m_hasGridOrigin = false; m_hasDrillOrigin = false; m_pcbName = aPcbName; } KICADPCB::~KICADPCB() { for( KICADFOOTPRINT* i : m_footprints ) delete i; for( KICADCURVE* i : m_curves ) delete i; delete m_pcb_model; return; } bool KICADPCB::ReadFile( const wxString& aFileName ) { wxFileName fname( aFileName ); if( fname.GetExt() != "kicad_pcb" ) { ReportMessage( wxString::Format( wxT( "expecting extension kicad_pcb, got %s\n" ), fname.GetExt() ) ); return false; } if( !fname.FileExists() ) { ReportMessage( wxString::Format( wxT( "No such file: %s\n" ), aFileName ) ); return false; } fname.Normalize(); m_filename = fname.GetFullPath(); try { SEXPR::PARSER parser; std::string infile( fname.GetFullPath().ToUTF8() ); std::unique_ptr data( parser.ParseFromFile( infile ) ); if( !data ) { ReportMessage( wxString::Format( wxT( "No data in file: %s\n" ), aFileName ) ); return false; } if( !parsePCB( data.get() ) ) return false; } catch( std::exception& e ) { ReportMessage( wxString::Format( wxT( "error reading file: %s\n%s\n" ), aFileName, e.what() ) ); return false; } catch( ... ) { ReportMessage( wxString::Format( wxT( "unexpected exception while reading file: %s\n" ), aFileName ) ); return false; } return true; } bool KICADPCB::WriteSTEP( const wxString& aFileName ) { if( m_pcb_model ) return m_pcb_model->WriteSTEP( aFileName ); return false; } #ifdef SUPPORTS_IGES bool KICADPCB::WriteIGES( const wxString& aFileName ) { if( m_pcb_model ) return m_pcb_model->WriteIGES( aFileName ); return false; } #endif bool KICADPCB::parsePCB( SEXPR::SEXPR* data ) { if( nullptr == data ) return false; if( data->IsList() ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = data->GetChild( 0 ); std::string name = child->GetSymbol(); bool result = true; for( size_t i = 1; i < nc && result; ++i ) { child = data->GetChild( i ); if( !child->IsList() ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" ), child->GetLineNumber() ) ); return false; } std::string symname( child->GetChild( 0 )->GetSymbol() ); if( symname == "general" ) result = result && parseGeneral( child ); else if( symname == "setup" ) result = result && parseSetup( child ); else if( symname == "layers" ) result = result && parseLayers( child ); else if( symname == "module" ) result = result && parseModule( child ); else if( symname == "footprint" ) result = result && parseModule( child ); else if( symname == "gr_arc" ) result = result && parseCurve( child, CURVE_ARC ); else if( symname == "gr_line" ) result = result && parseCurve( child, CURVE_LINE ); else if( symname == "gr_rect" ) result = result && parseRect( child ); else if( symname == "gr_poly" ) result = result && parsePolygon( child ); else if( symname == "gr_circle" ) result = result && parseCurve( child, CURVE_CIRCLE ); else if( symname == "gr_curve" ) result = result && parseCurve( child, CURVE_BEZIER ); } return result; } ReportMessage( wxString::Format( wxT( "data is not a valid PCB file: %s\n" ), m_filename ) ); return false; } bool KICADPCB::parseGeneral( SEXPR::SEXPR* data ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = nullptr; for( size_t i = 1; i < nc; ++i ) { child = data->GetChild( i ); if( !child->IsList() ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" ), child->GetLineNumber() ) ); return false; } // at the moment only the thickness is of interest in the general section if( child->GetChild( 0 )->GetSymbol() != "thickness" ) continue; m_thickness = child->GetChild( 1 )->GetDouble(); return true; } ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" "no PCB thickness specified in general section\n" ), child->GetLineNumber() ) ); return false; } bool KICADPCB::parseLayers( SEXPR::SEXPR* data ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = nullptr; // Read the layername and the corresponding layer id list: for( size_t i = 1; i < nc; ++i ) { child = data->GetChild( i ); if( !child->IsList() ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" ), child->GetLineNumber() ) ); return false; } std::string ref; if( child->GetChild( 1 )->IsSymbol() ) ref = child->GetChild( 1 )->GetSymbol(); else ref = child->GetChild( 1 )->GetString(); m_layersNames[ref] = child->GetChild( 0 )->GetInteger(); } return true; } bool KICADPCB::parseStackupLayer( SEXPR::SEXPR* data ) { if( data->IsList() && data->GetNumberOfChildren() >= 3 ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = nullptr; std::string ref; std::string value; for( size_t i = 1; i < nc; ++i ) { child = data->GetChild( i ); if( child->IsList() && child->GetChild( 0 )->GetSymbol() == "type" ) { if( child->GetChild( 1 )->IsSymbol() ) ref = child->GetChild( 1 )->GetSymbol(); else ref = child->GetChild( 1 )->GetString(); } else if( child->IsList() && child->GetChild( 0 )->GetSymbol() == "color" ) { if( child->GetChild( 1 )->IsSymbol() ) value = child->GetChild( 1 )->GetSymbol(); else value = child->GetChild( 1 )->GetString(); } } if( !value.empty() ) { wxString colorName( value ); wxColour color; if( colorName.StartsWith( wxT( "#" ) ) ) color = wxColour( colorName.Left( 7 ) /* drop alpha component */ ); else if( colorName == wxT( "Green" ) ) color = wxColour( 20, 51, 36 ); else if( colorName == wxT( "Light Green" ) ) color = wxColour( 91, 168, 12); else if( colorName == wxT( "Saturated Green" ) ) color = wxColour( 13, 104, 11 ); else if( colorName == wxT( "Red" ) ) color = wxColour( 181, 19, 21 ); else if( colorName == wxT( "Light Red" ) ) color = wxColour( 210, 40, 14 ); else if( colorName == wxT( "Red/Orange" ) ) color = wxColour( 239, 53, 41 ); else if( colorName == wxT( "Blue" ) ) color = wxColour( 2, 59, 162 ); else if( colorName == wxT( "Light Blue 1" ) ) color = wxColour( 54, 79, 116 ); else if( colorName == wxT( "Light Blue 2" ) ) color = wxColour( 61, 85, 130 ); else if( colorName == wxT( "Green/Blue" ) ) color = wxColour( 21, 70, 80 ); else if( colorName == wxT( "Black" ) ) color = wxColour( 11, 11, 11 ); else if( colorName == wxT( "White" ) ) color = wxColour( 245, 245, 245 ); else if( colorName == wxT( "Purple" ) ) color = wxColour( 32, 2, 53 ); else if( colorName == wxT( "Light Purple" ) ) color = wxColour( 119, 31, 91 ); else if( colorName == wxT( "Yellow" ) ) color = wxColour( 194, 195, 0 ); if( ref == "Top Silk Screen" ) m_topSilk = color; else if( ref == "Top Solder Mask" ) m_topSolderMask = color; else if( ref == "Bottom Silk Screen" ) m_bottomSilk = color; else if( ref == "Bottom Solder Mask" ) m_bottomSolderMask = color; } } return true; } bool KICADPCB::parseStackup( SEXPR::SEXPR* data ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = nullptr; for( size_t i = 1; i < nc; ++i ) { child = data->GetChild( i ); if( !child->IsList() ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" ), child->GetLineNumber() ) ); return false; } std::string ref; if( child->GetChild( 0 )->GetSymbol() == "layer" ) { parseStackupLayer( child ); } else if( child->GetChild( 0 )->GetSymbol() == "copper_finish" ) { if( child->GetChild( 1 )->IsSymbol() ) ref = child->GetChild( 1 )->GetSymbol(); else ref = child->GetChild( 1 )->GetString(); wxString finishName( ref ); if( finishName.EndsWith( wxT( "OSP" ) ) ) { m_copperFinish = wxColour( 184, 115, 50 ); } else if( finishName.EndsWith( wxT( "IG" ) ) || finishName.EndsWith( wxT( "gold" ) ) ) { m_copperFinish = wxColour( 178, 156, 0 ); } else if( finishName.StartsWith( wxT( "HAL" ) ) || finishName.StartsWith( wxT( "HASL" ) ) || finishName.EndsWith( wxT( "tin" ) ) || finishName.EndsWith( wxT( "nickel" ) ) ) { m_copperFinish = wxColour( 160, 160, 160 ); } else if( finishName.EndsWith( wxT( "silver" ) ) ) { m_copperFinish = wxColour( 213, 213, 213 ); } } } return true; } int KICADPCB::GetLayerId( std::string& aLayerName ) { int lid = -1; auto item = m_layersNames.find( aLayerName ); if( item != m_layersNames.end() ) lid = item->second; return lid; } bool KICADPCB::parseSetup( SEXPR::SEXPR* data ) { size_t nc = data->GetNumberOfChildren(); SEXPR::SEXPR* child = nullptr; for( size_t i = 1; i < nc; ++i ) { child = data->GetChild( i ); if( !child->IsList() ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d)\n" ), child->GetLineNumber() ) ); return false; } // at the moment only the Grid and Drill origins are of interest in the setup section if( child->GetChild( 0 )->GetSymbol() == "grid_origin" ) { if( child->GetNumberOfChildren() != 3 ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d): grid_origin has " "%d children (expected: 3)\n" ), child->GetLineNumber(), child->GetNumberOfChildren() ) ); return false; } m_gridOrigin.x = child->GetChild( 1 )->GetDouble(); m_gridOrigin.y = child->GetChild( 2 )->GetDouble(); m_hasGridOrigin = true; } else if( child->GetChild( 0 )->GetSymbol() == "aux_axis_origin" ) { if( child->GetNumberOfChildren() != 3 ) { ReportMessage( wxString::Format( wxT( "corrupt PCB file (line %d): aux_axis_origin " "has %d children (expected: 3)\n" ), child->GetLineNumber(), child->GetNumberOfChildren() ) ); return false; } m_drillOrigin.x = child->GetChild( 1 )->GetDouble(); m_drillOrigin.y = child->GetChild( 2 )->GetDouble(); m_hasDrillOrigin = true; } else if( child->GetChild( 0 )->GetSymbol() == "stackup" ) { parseStackup( child ); } } return true; } bool KICADPCB::parseModule( SEXPR::SEXPR* data ) { KICADFOOTPRINT* footprint = new KICADFOOTPRINT( this ); if( !footprint->Read( data ) ) { delete footprint; return false; } m_footprints.push_back( footprint ); return true; } bool KICADPCB::parseRect( SEXPR::SEXPR* data ) { KICADCURVE* rect = new KICADCURVE(); if( !rect->Read( data, CURVE_LINE ) ) { delete rect; return false; } // reject any curves not on the Edge.Cuts layer if( rect->GetLayer() != LAYER_EDGE ) { delete rect; return true; } KICADCURVE* top = new KICADCURVE( *rect ); KICADCURVE* right = new KICADCURVE( *rect ); KICADCURVE* bottom = new KICADCURVE( *rect ); KICADCURVE* left = new KICADCURVE( *rect ); delete rect; top->m_end.y = right->m_start.y; m_curves.push_back( top ); right->m_start.x = bottom->m_end.x; m_curves.push_back( right ); bottom->m_start.y = left->m_end.y; m_curves.push_back( bottom ); left->m_end.x = top->m_start.x; m_curves.push_back( left ); return true; } bool KICADPCB::parsePolygon( SEXPR::SEXPR* data ) { std::unique_ptr poly = std::make_unique(); if( !poly->Read( data, CURVE_POLYGON ) ) return false; // reject any curves not on the Edge.Cuts layer if( poly->GetLayer() != LAYER_EDGE ) return true; auto pts = poly->m_poly; for( std::size_t ii = 1; ii < pts.size(); ++ii ) { KICADCURVE* seg = new KICADCURVE(); seg->m_form = CURVE_LINE; seg->m_layer = poly->GetLayer(); seg->m_start = pts[ii - 1]; seg->m_end = pts[ii]; m_curves.push_back( seg ); } KICADCURVE* seg = new KICADCURVE(); seg->m_form = CURVE_LINE; seg->m_layer = poly->GetLayer(); seg->m_start = pts.back(); seg->m_end = pts.front(); m_curves.push_back( seg ); return true; } bool KICADPCB::parseCurve( SEXPR::SEXPR* data, CURVE_TYPE aCurveType ) { KICADCURVE* curve = new KICADCURVE(); if( !curve->Read( data, aCurveType ) ) { delete curve; return false; } // reject any curves not on the Edge.Cuts layer if( curve->GetLayer() != LAYER_EDGE ) { delete curve; return true; } m_curves.push_back( curve ); return true; } bool KICADPCB::ComposePCB( bool aComposeVirtual, bool aSubstituteModels ) { if( m_pcb_model ) return true; if( m_footprints.empty() && m_curves.empty() ) { ReportMessage( wxT( "Error: no PCB data (no footprint, no outline) to render\n" ) ); return false; } DOUBLET origin; // Determine the coordinate system reference: // Precedence of reference point is Drill Origin > Grid Origin > User Offset if( m_useDrillOrigin && m_hasDrillOrigin ) origin = m_drillOrigin; else if( m_useGridOrigin && m_hasDrillOrigin ) origin = m_gridOrigin; else origin = m_origin; m_pcb_model = new PCBMODEL( m_pcbName ); // TODO: Handle when top & bottom soldermask colours are different... m_pcb_model->SetBoardColor( m_topSolderMask.Red() / 255.0, m_topSolderMask.Green() / 255.0, m_topSolderMask.Blue() / 255.0 ); m_pcb_model->SetPCBThickness( m_thickness ); m_pcb_model->SetMinDistance( m_minDistance ); for( KICADCURVE* i : m_curves ) { if( CURVE_NONE == i->m_form || LAYER_EDGE != i->m_layer ) continue; // adjust the coordinate system // Note: we negate the Y coordinates due to the fact in Pcbnew the Y axis // is from top to bottom. KICADCURVE lcurve = *i; lcurve.m_start.y = -( lcurve.m_start.y - origin.y ); lcurve.m_end.y = -( lcurve.m_end.y - origin.y ); lcurve.m_start.x -= origin.x; lcurve.m_end.x -= origin.x; // used in bezier curves: lcurve.m_bezierctrl1.y = -( lcurve.m_bezierctrl1.y - origin.y ); lcurve.m_bezierctrl1.x -= origin.x; lcurve.m_bezierctrl2.y = -( lcurve.m_bezierctrl2.y - origin.y ); lcurve.m_bezierctrl2.x -= origin.x; if( CURVE_ARC == lcurve.m_form ) lcurve.m_angle = -lcurve.m_angle; m_pcb_model->AddOutlineSegment( &lcurve ); } for( KICADFOOTPRINT* i : m_footprints ) i->ComposePCB( m_pcb_model, &m_resolver, origin, aComposeVirtual, aSubstituteModels ); ReportMessage( wxT( "Create PCB solid model\n" ) ); if( !m_pcb_model->CreatePCB() ) { ReportMessage( wxT( "could not create PCB solid model\n" ) ); delete m_pcb_model; m_pcb_model = nullptr; return false; } return true; }