/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020-2022 KiCad Developers, see change_log.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 #include #include using namespace DRCRULE_T; DRC_RULES_PARSER::DRC_RULES_PARSER( const wxString& aSource, const wxString& aSourceDescr ) : DRC_RULES_LEXER( aSource.ToStdString(), aSourceDescr ), m_requiredVersion( 0 ), m_tooRecent( false ), m_reporter( nullptr ) { } DRC_RULES_PARSER::DRC_RULES_PARSER( FILE* aFile, const wxString& aFilename ) : DRC_RULES_LEXER( aFile, aFilename ), m_requiredVersion( 0 ), m_tooRecent( false ), m_reporter( nullptr ) { } void DRC_RULES_PARSER::reportError( const wxString& aMessage ) { wxString rest; wxString first = aMessage.BeforeFirst( '|', &rest ); if( m_reporter ) { wxString msg = wxString::Format( _( "ERROR: %s%s" ), CurLineNumber(), CurOffset(), first, rest ); m_reporter->Report( msg, RPT_SEVERITY_ERROR ); } else { wxString msg = wxString::Format( _( "ERROR: %s%s" ), first, rest ); THROW_PARSE_ERROR( msg, CurSource(), CurLine(), CurLineNumber(), CurOffset() ); } } void DRC_RULES_PARSER::reportDeprecation( const wxString& oldToken, const wxString newToken ) { if( m_reporter ) { wxString msg = wxString::Format( _( "The '%s' keyword has been deprecated. " "Please use '%s' instead." ), oldToken, newToken); m_reporter->Report( msg, RPT_SEVERITY_WARNING ); } } void DRC_RULES_PARSER::parseUnknown() { int depth = 1; for( T token = NextTok(); token != T_EOF; token = NextTok() ) { if( token == T_LEFT ) depth++; if( token == T_RIGHT ) { if( --depth == 0 ) break; } } } void DRC_RULES_PARSER::Parse( std::vector>& aRules, REPORTER* aReporter ) { bool haveVersion = false; wxString msg; m_reporter = aReporter; for( T token = NextTok(); token != T_EOF; token = NextTok() ) { if( token != T_LEFT ) reportError( _( "Missing '('." ) ); token = NextTok(); if( !haveVersion && token != T_version ) { reportError( _( "Missing version statement." ) ); haveVersion = true; // don't keep on reporting it } switch( token ) { case T_version: haveVersion = true; token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing version number." ) ); break; } if( (int) token == DSN_NUMBER ) { m_requiredVersion = (int)strtol( CurText(), nullptr, 10 ); m_tooRecent = ( m_requiredVersion > DRC_RULE_FILE_VERSION ); token = NextTok(); } else { msg.Printf( _( "Unrecognized item '%s'.| Expected version number." ), FromUTF8() ); reportError( msg ); } if( (int) token != DSN_RIGHT ) { msg.Printf( _( "Unrecognized item '%s'." ), FromUTF8() ); reportError( msg ); parseUnknown(); } break; case T_rule: aRules.emplace_back( parseDRC_RULE() ); break; case T_EOF: reportError( _( "Incomplete statement." ) ); break; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "rule or version" ) ); reportError( msg ); parseUnknown(); } } if( m_reporter && !m_reporter->HasMessage() ) m_reporter->Report( _( "No errors found." ), RPT_SEVERITY_INFO ); m_reporter = nullptr; } std::shared_ptr DRC_RULES_PARSER::parseDRC_RULE() { std::shared_ptr rule = std::make_shared(); T token = NextTok(); wxString msg; if( !IsSymbol( token ) ) reportError( _( "Missing rule name." ) ); rule->m_Name = FromUTF8(); for( token = NextTok(); token != T_RIGHT && token != T_EOF; token = NextTok() ) { if( token != T_LEFT ) reportError( _( "Missing '('." ) ); token = NextTok(); switch( token ) { case T_constraint: parseConstraint( rule.get() ); break; case T_condition: token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing condition expression." ) ); break; } if( IsSymbol( token ) ) { rule->m_Condition = new DRC_RULE_CONDITION( FromUTF8() ); rule->m_Condition->Compile( m_reporter, CurLineNumber(), CurOffset() ); } else { msg.Printf( _( "Unrecognized item '%s'.| Expected quoted expression." ), FromUTF8() ); reportError( msg ); } if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } break; case T_layer: if( rule->m_LayerCondition != LSET::AllLayersMask() ) reportError( _( "'layer' keyword already present." ) ); rule->m_LayerSource = FromUTF8(); rule->m_LayerCondition = parseLayer(); break; case T_severity: rule->m_Severity = parseSeverity(); break; case T_EOF: reportError( _( "Incomplete statement." ) ); return rule; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "constraint, condition, or disallow" ) ); reportError( msg ); parseUnknown(); } } if( (int) CurTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); return rule; } void DRC_RULES_PARSER::parseConstraint( DRC_RULE* aRule ) { DRC_CONSTRAINT c; int value; wxString msg; T token = NextTok(); if( token == T_mechanical_clearance ) { reportDeprecation( wxT( "mechanical_clearance" ), wxT( "physical_clearance" ) ); token = T_physical_clearance; } else if( token == T_mechanical_hole_clearance ) { reportDeprecation( wxT( "mechanical_hole_clearance" ), wxT( "physical_hole_clearance" ) ); token = T_physical_hole_clearance; } else if( token == T_hole ) { reportDeprecation( wxT( "hole" ), wxT( "hole_size" ) ); token = T_hole_size; } else if( (int) token == DSN_RIGHT || token == T_EOF ) { msg.Printf( _( "Missing constraint type.| Expected %s." ), wxT( "assertion, clearance, hole_clearance, edge_clearance, " "physical_clearance, physical_hole_clearance, courtyard_clearance, " "silk_clearance, hole_size, hole_to_hole, track_width, annular_width, " "via_diameter, disallow, zone_connection, thermal_relief_gap, " "thermal_spoke_width, min_resolved_spokes, length, skew, via_count, " "diff_pair_gap or diff_pair_uncoupled" ) ); reportError( msg ); return; } switch( token ) { case T_assertion: c.m_Type = ASSERTION_CONSTRAINT; break; case T_clearance: c.m_Type = CLEARANCE_CONSTRAINT; break; case T_hole_clearance: c.m_Type = HOLE_CLEARANCE_CONSTRAINT; break; case T_edge_clearance: c.m_Type = EDGE_CLEARANCE_CONSTRAINT; break; case T_hole_size: c.m_Type = HOLE_SIZE_CONSTRAINT; break; case T_hole_to_hole: c.m_Type = HOLE_TO_HOLE_CONSTRAINT; break; case T_courtyard_clearance: c.m_Type = COURTYARD_CLEARANCE_CONSTRAINT; break; case T_silk_clearance: c.m_Type = SILK_CLEARANCE_CONSTRAINT; break; case T_text_height: c.m_Type = TEXT_HEIGHT_CONSTRAINT; break; case T_text_thickness: c.m_Type = TEXT_THICKNESS_CONSTRAINT; break; case T_track_width: c.m_Type = TRACK_WIDTH_CONSTRAINT; break; case T_connection_width: c.m_Type = CONNECTION_WIDTH_CONSTRAINT; break; case T_annular_width: c.m_Type = ANNULAR_WIDTH_CONSTRAINT; break; case T_via_diameter: c.m_Type = VIA_DIAMETER_CONSTRAINT; break; case T_zone_connection: c.m_Type = ZONE_CONNECTION_CONSTRAINT; break; case T_thermal_relief_gap: c.m_Type = THERMAL_RELIEF_GAP_CONSTRAINT; break; case T_thermal_spoke_width: c.m_Type = THERMAL_SPOKE_WIDTH_CONSTRAINT; break; case T_min_resolved_spokes: c.m_Type = MIN_RESOLVED_SPOKES_CONSTRAINT; break; case T_disallow: c.m_Type = DISALLOW_CONSTRAINT; break; case T_length: c.m_Type = LENGTH_CONSTRAINT; break; case T_skew: c.m_Type = SKEW_CONSTRAINT; break; case T_via_count: c.m_Type = VIA_COUNT_CONSTRAINT; break; case T_diff_pair_gap: c.m_Type = DIFF_PAIR_GAP_CONSTRAINT; break; case T_diff_pair_uncoupled: c.m_Type = MAX_UNCOUPLED_CONSTRAINT; break; case T_physical_clearance: c.m_Type = PHYSICAL_CLEARANCE_CONSTRAINT; break; case T_physical_hole_clearance: c.m_Type = PHYSICAL_HOLE_CLEARANCE_CONSTRAINT; break; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "assertion, clearance, hole_clearance, edge_clearance, " "physical_clearance, physical_hole_clearance, courtyard_clearance, " "silk_clearance, hole_size, hole_to_hole, track_width, annular_width, " "disallow, zone_connection, thermal_relief_gap, thermal_spoke_width, " "min_resolved_spokes, length, skew, via_count, via_diameter, " "diff_pair_gap or diff_pair_uncoupled" ) ); reportError( msg ); } if( aRule->FindConstraint( c.m_Type ) ) { msg.Printf( _( "Rule already has a '%s' constraint." ), FromUTF8() ); reportError( msg ); } bool unitless = c.m_Type == VIA_COUNT_CONSTRAINT || c.m_Type == MIN_RESOLVED_SPOKES_CONSTRAINT; if( c.m_Type == DISALLOW_CONSTRAINT ) { for( token = NextTok(); token != T_RIGHT; token = NextTok() ) { if( (int) token == DSN_STRING ) token = GetCurStrAsToken(); switch( token ) { case T_track: c.m_DisallowFlags |= DRC_DISALLOW_TRACKS; break; case T_via: c.m_DisallowFlags |= DRC_DISALLOW_VIAS; break; case T_micro_via: c.m_DisallowFlags |= DRC_DISALLOW_MICRO_VIAS; break; case T_buried_via: c.m_DisallowFlags |= DRC_DISALLOW_BB_VIAS; break; case T_pad: c.m_DisallowFlags |= DRC_DISALLOW_PADS; break; case T_zone: c.m_DisallowFlags |= DRC_DISALLOW_ZONES; break; case T_text: c.m_DisallowFlags |= DRC_DISALLOW_TEXTS; break; case T_graphic: c.m_DisallowFlags |= DRC_DISALLOW_GRAPHICS; break; case T_hole: c.m_DisallowFlags |= DRC_DISALLOW_HOLES; break; case T_footprint: c.m_DisallowFlags |= DRC_DISALLOW_FOOTPRINTS; break; case T_EOF: reportError( _( "Missing ')'." ) ); return; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "track, via, micro_via, buried_via, pad, zone, text, graphic, " "hole, or footprint." ) ); reportError( msg ); break; } } if( (int) CurTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); aRule->AddConstraint( c ); return; } else if( c.m_Type == ZONE_CONNECTION_CONSTRAINT ) { token = NextTok(); if( (int) token == DSN_STRING ) token = GetCurStrAsToken(); switch( token ) { case T_solid: c.m_ZoneConnection = ZONE_CONNECTION::FULL; break; case T_thermal_reliefs: c.m_ZoneConnection = ZONE_CONNECTION::THERMAL; break; case T_none: c.m_ZoneConnection = ZONE_CONNECTION::NONE; break; case T_EOF: reportError( _( "Missing ')'." ) ); return; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), "solid, thermal_reliefs or none." ); reportError( msg ); break; } if( (int) NextTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); aRule->AddConstraint( c ); return; } else if( c.m_Type == MIN_RESOLVED_SPOKES_CONSTRAINT ) { // We don't use a min/max/opt structure here because it would give a strong implication // that you could specify the optimal number of spokes. We don't want to open that door // because the spoke generator is highly optimized around being able to "cheat" off of a // cartesian coordinate system. token = NextTok(); if( (int) token == DSN_NUMBER ) { value = (int) strtol( CurText(), nullptr, 10 ); c.m_Value.SetMin( value ); } else { reportError( _( "Expecting number." ) ); parseUnknown(); } if( (int) NextTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); aRule->AddConstraint( c ); return; } else if( c.m_Type == ASSERTION_CONSTRAINT ) { token = NextTok(); if( (int) token == DSN_RIGHT ) reportError( _( "Missing assertion expression." ) ); if( IsSymbol( token ) ) { c.m_Test = new DRC_RULE_CONDITION( FromUTF8() ); c.m_Test->Compile( m_reporter, CurLineNumber(), CurOffset() ); } else { msg.Printf( _( "Unrecognized item '%s'.| Expected quoted expression." ), FromUTF8() ); reportError( msg ); } if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } aRule->AddConstraint( c ); return; } for( token = NextTok(); token != T_RIGHT && token != T_EOF; token = NextTok() ) { if( token != T_LEFT ) reportError( _( "Missing '('." ) ); token = NextTok(); switch( token ) { case T_min: token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing min value." ) ); break; } parseValueWithUnits( FromUTF8(), value, unitless ); c.m_Value.SetMin( value ); if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } break; case T_max: token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing max value." ) ); break; } parseValueWithUnits( FromUTF8(), value, unitless ); c.m_Value.SetMax( value ); if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } break; case T_opt: token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing opt value." ) ); break; } parseValueWithUnits( FromUTF8(), value, unitless ); c.m_Value.SetOpt( value ); if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } break; case T_EOF: reportError( _( "Incomplete statement." ) ); return; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "min, max, or opt" ) ); reportError( msg ); parseUnknown(); } } if( (int) CurTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); aRule->AddConstraint( c ); } void DRC_RULES_PARSER::parseValueWithUnits( const wxString& aExpr, int& aResult, bool aUnitless ) { auto errorHandler = [&]( const wxString& aMessage, int aOffset ) { wxString rest; wxString first = aMessage.BeforeFirst( '|', &rest ); if( m_reporter ) { wxString msg = wxString::Format( _( "ERROR: %s%s" ), CurLineNumber(), CurOffset() + aOffset, first, rest ); m_reporter->Report( msg, RPT_SEVERITY_ERROR ); } else { wxString msg = wxString::Format( _( "ERROR: %s%s" ), first, rest ); THROW_PARSE_ERROR( msg, CurSource(), CurLine(), CurLineNumber(), CurOffset() + aOffset ); } }; PCBEXPR_EVALUATOR evaluator( aUnitless ? (LIBEVAL::UNIT_RESOLVER*) new PCBEXPR_UNITLESS_RESOLVER() : (LIBEVAL::UNIT_RESOLVER*) new PCBEXPR_UNIT_RESOLVER() ); evaluator.SetErrorCallback( errorHandler ); evaluator.Evaluate( aExpr ); aResult = evaluator.Result(); } LSET DRC_RULES_PARSER::parseLayer() { LSET retVal; int token = NextTok(); if( (int) token == DSN_RIGHT ) { reportError( _( "Missing layer name or type." ) ); return LSET::AllCuMask(); } else if( token == T_outer ) { retVal = LSET::ExternalCuMask(); } else if( token == T_inner ) { retVal = LSET::InternalCuMask(); } else { wxString layerName = FromUTF8(); wxPGChoices& layerMap = ENUM_MAP::Instance().Choices(); for( unsigned ii = 0; ii < layerMap.GetCount(); ++ii ) { wxPGChoiceEntry& entry = layerMap[ii]; if( entry.GetText().Matches( layerName ) ) retVal.set( ToLAYER_ID( entry.GetValue() ) ); } if( !retVal.any() ) { reportError( wxString::Format( _( "Unrecognized layer '%s'." ), layerName ) ); retVal.set( Rescue ); } } if( (int) NextTok() != DSN_RIGHT ) { reportError( wxString::Format( _( "Unrecognized item '%s'." ), FromUTF8() ) ); parseUnknown(); } return retVal; } SEVERITY DRC_RULES_PARSER::parseSeverity() { SEVERITY retVal = RPT_SEVERITY_UNDEFINED; wxString msg; T token = NextTok(); if( (int) token == DSN_RIGHT || token == T_EOF ) { reportError( _( "Missing severity name." ) ); return RPT_SEVERITY_UNDEFINED; } switch( token ) { case T_ignore: retVal = RPT_SEVERITY_IGNORE; break; case T_warning: retVal = RPT_SEVERITY_WARNING; break; case T_error: retVal = RPT_SEVERITY_ERROR; break; case T_exclusion: retVal = RPT_SEVERITY_EXCLUSION; break; default: msg.Printf( _( "Unrecognized item '%s'.| Expected %s." ), FromUTF8(), wxT( "ignore, warning, error, or exclusion" ) ); reportError( msg ); parseUnknown(); } if( (int) NextTok() != DSN_RIGHT ) reportError( _( "Missing ')'." ) ); return retVal; }