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kicad/common/project/net_settings.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020 CERN
* Copyright (C) 2021-2023 KiCad Developers, see AUTHORS.txt for contributors.
* @author Jon Evans <jon@craftyjon.com>
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include <nlohmann/json.hpp>
#include <project/net_settings.h>
#include <settings/parameters.h>
#include <settings/json_settings_internals.h>
#include <settings/settings_manager.h>
#include <string_utils.h>
#include <base_units.h>
// const int netSettingsSchemaVersion = 0;
// const int netSettingsSchemaVersion = 1; // new overbar syntax
// const int netSettingsSchemaVersion = 2; // exclude buses from netclass members
const int netSettingsSchemaVersion = 3; // netclass assignment patterns
static std::optional<int> getInPcbUnits( const nlohmann::json& aObj, const std::string& aKey,
std::optional<int> aDefault = std::optional<int>() )
{
if( aObj.contains( aKey ) && aObj[aKey].is_number() )
return pcbIUScale.mmToIU( aObj[aKey].get<double>() );
else
return aDefault;
};
static int getInSchUnits( const nlohmann::json& aObj, const std::string& aKey, int aDefault )
{
if( aObj.contains( aKey ) && aObj[aKey].is_number() )
return schIUScale.MilsToIU( aObj[aKey].get<double>() );
else
return aDefault;
};
NET_SETTINGS::NET_SETTINGS( JSON_SETTINGS* aParent, const std::string& aPath ) :
NESTED_SETTINGS( "net_settings", netSettingsSchemaVersion, aParent, aPath )
{
m_DefaultNetClass = std::make_shared<NETCLASS>( NETCLASS::Default );
m_DefaultNetClass->SetDescription( _( "This is the default net class." ) );
auto saveNetclass =
[]( nlohmann::json& json_array, const std::shared_ptr<NETCLASS>& nc )
{
// Note: we're in common/, but we do happen to know which of these
// fields are used in which units system.
nlohmann::json nc_json = {
{ "name", nc->GetName().ToUTF8() },
{ "wire_width", schIUScale.IUToMils( nc->GetWireWidth() ) },
{ "bus_width", schIUScale.IUToMils( nc->GetBusWidth() ) },
{ "line_style", nc->GetLineStyle() },
{ "schematic_color", nc->GetSchematicColor() },
{ "pcb_color", nc->GetPcbColor() }
};
auto saveInPcbUnits =
[]( nlohmann::json& json, const std::string& aKey, int aValue )
{
json.push_back( { aKey, pcbIUScale.IUTomm( aValue ) } );
};
if( nc->HasClearance() )
saveInPcbUnits( nc_json, "clearance", nc->GetClearance() );
if( nc->HasTrackWidth() )
saveInPcbUnits( nc_json, "track_width", nc->GetTrackWidth() );
if( nc->HasViaDiameter() )
saveInPcbUnits( nc_json, "via_diameter", nc->GetViaDiameter() );
if( nc->HasViaDrill() )
saveInPcbUnits( nc_json, "via_drill", nc->GetViaDrill() );
if( nc->HasuViaDiameter() )
saveInPcbUnits( nc_json, "microvia_diameter", nc->GetuViaDiameter() );
if( nc->HasuViaDrill() )
saveInPcbUnits( nc_json, "microvia_drill", nc->GetuViaDrill() );
if( nc->HasDiffPairWidth() )
saveInPcbUnits( nc_json, "diff_pair_width", nc->GetDiffPairWidth() );
if( nc->HasDiffPairGap() )
saveInPcbUnits( nc_json, "diff_pair_gap", nc->GetDiffPairGap() );
if( nc->HasDiffPairViaGap() )
saveInPcbUnits( nc_json, "diff_pair_via_gap", nc->GetDiffPairViaGap() );
json_array.push_back( nc_json );
};
auto readNetClass =
[]( const nlohmann::json& entry )
{
wxString name = entry["name"];
std::shared_ptr<NETCLASS> nc = std::make_shared<NETCLASS>( name );
if( auto value = getInPcbUnits( entry, "clearance" ) )
nc->SetClearance( *value );
if( auto value = getInPcbUnits( entry, "track_width" ) )
nc->SetTrackWidth( *value );
if( auto value = getInPcbUnits( entry, "via_diameter" ) )
nc->SetViaDiameter( *value );
if( auto value = getInPcbUnits( entry, "via_drill" ) )
nc->SetViaDrill( *value );
if( auto value = getInPcbUnits( entry, "microvia_diameter" ) )
nc->SetuViaDiameter( *value );
if( auto value = getInPcbUnits( entry, "microvia_drill" ) )
nc->SetuViaDrill( *value );
if( auto value = getInPcbUnits( entry, "diff_pair_width" ) )
nc->SetDiffPairWidth( *value );
if( auto value = getInPcbUnits( entry, "diff_pair_gap" ) )
nc->SetDiffPairGap( *value );
if( auto value = getInPcbUnits( entry, "diff_pair_via_gap" ) )
nc->SetDiffPairViaGap( *value );
nc->SetWireWidth( getInSchUnits( entry, "wire_width", nc->GetWireWidth() ) );
nc->SetBusWidth( getInSchUnits( entry, "bus_width", nc->GetBusWidth() ) );
if( entry.contains( "line_style" ) && entry["line_style"].is_number() )
nc->SetLineStyle( entry["line_style"].get<int>() );
if( entry.contains( "pcb_color" ) && entry["pcb_color"].is_string() )
nc->SetPcbColor( entry["pcb_color"].get<KIGFX::COLOR4D>() );
if( entry.contains( "schematic_color" )
&& entry["schematic_color"].is_string() )
{
nc->SetSchematicColor( entry["schematic_color"].get<KIGFX::COLOR4D>() );
}
return nc;
};
m_params.emplace_back( new PARAM_LAMBDA<nlohmann::json>( "classes",
[&]() -> nlohmann::json
{
nlohmann::json ret = nlohmann::json::array();
if( m_DefaultNetClass )
saveNetclass( ret, m_DefaultNetClass );
for( const auto& [ name, netclass ] : m_NetClasses )
saveNetclass( ret, netclass );
return ret;
},
[&]( const nlohmann::json& aJson )
{
if( !aJson.is_array() )
return;
m_NetClasses.clear();
for( const nlohmann::json& entry : aJson )
{
if( !entry.is_object() || !entry.contains( "name" ) )
continue;
std::shared_ptr<NETCLASS> nc = readNetClass( entry );
if( nc->GetName() == NETCLASS::Default )
m_DefaultNetClass = nc;
else
m_NetClasses[ nc->GetName() ] = nc;
}
},
{} ) );
m_params.emplace_back( new PARAM_LAMBDA<nlohmann::json>( "net_colors",
[&]() -> nlohmann::json
{
nlohmann::json ret = {};
for( const auto& [ netname, color ] : m_NetColorAssignments )
{
std::string key( netname.ToUTF8() );
ret[ std::move( key ) ] = color;
}
return ret;
},
[&]( const nlohmann::json& aJson )
{
if( !aJson.is_object() )
return;
m_NetColorAssignments.clear();
for( const auto& pair : aJson.items() )
{
wxString key( pair.key().c_str(), wxConvUTF8 );
m_NetColorAssignments[ std::move( key ) ] = pair.value().get<KIGFX::COLOR4D>();
}
},
{} ) );
m_params.emplace_back( new PARAM_LAMBDA<nlohmann::json>( "netclass_assignments",
[&]() -> nlohmann::json
{
nlohmann::json ret = {};
for( const auto& [ netname, netclassName ] : m_NetClassLabelAssignments )
{
std::string key( netname.ToUTF8() );
ret[ std::move( key ) ] = netclassName;
}
return ret;
},
[&]( const nlohmann::json& aJson )
{
if( !aJson.is_object() )
return;
m_NetClassLabelAssignments.clear();
for( const auto& pair : aJson.items() )
{
wxString key( pair.key().c_str(), wxConvUTF8 );
m_NetClassLabelAssignments[ std::move( key ) ] = pair.value().get<wxString>();
}
},
{} ) );
m_params.emplace_back( new PARAM_LAMBDA<nlohmann::json>( "netclass_patterns",
[&]() -> nlohmann::json
{
nlohmann::json ret = nlohmann::json::array();
for( const auto& [ matcher, netclassName ] : m_NetClassPatternAssignments )
{
nlohmann::json pattern_json = {
{ "pattern", matcher->GetPattern().ToUTF8() },
{ "netclass", netclassName.ToUTF8() }
};
ret.push_back( std::move( pattern_json ) );
}
return ret;
},
[&]( const nlohmann::json& aJson )
{
if( !aJson.is_array() )
return;
m_NetClassPatternAssignments.clear();
for( const nlohmann::json& entry : aJson )
{
if( !entry.is_object() )
continue;
if( entry.contains( "pattern" ) && entry["pattern"].is_string()
&& entry.contains( "netclass" ) && entry["netclass"].is_string() )
{
wxString pattern = entry["pattern"].get<wxString>();
wxString netclass = entry["netclass"].get<wxString>();
m_NetClassPatternAssignments.push_back(
{
std::make_unique<EDA_COMBINED_MATCHER>( pattern, CTX_NETCLASS ),
netclass
} );
}
}
},
{} ) );
registerMigration( 0, 1, std::bind( &NET_SETTINGS::migrateSchema0to1, this ) );
registerMigration( 2, 3, std::bind( &NET_SETTINGS::migrateSchema2to3, this ) );
}
NET_SETTINGS::~NET_SETTINGS()
{
// Release early before destroying members
if( m_parent )
{
m_parent->ReleaseNestedSettings( this );
m_parent = nullptr;
}
}
bool NET_SETTINGS::operator==( const NET_SETTINGS& aOther ) const
{
if( !std::equal( std::begin( m_NetClasses ), std::end( m_NetClasses ),
std::begin( aOther.m_NetClasses ) ) )
return false;
if( !std::equal( std::begin( m_NetClassPatternAssignments ),
std::end( m_NetClassPatternAssignments ),
std::begin( aOther.m_NetClassPatternAssignments ) ) )
return false;
if( !std::equal( std::begin( m_NetClassLabelAssignments ),
std::end( m_NetClassLabelAssignments ),
std::begin( aOther.m_NetClassLabelAssignments ) ) )
return false;
if( !std::equal( std::begin( m_NetColorAssignments ), std::end( m_NetColorAssignments ),
std::begin( aOther.m_NetColorAssignments ) ) )
return false;
return true;
}
bool NET_SETTINGS::migrateSchema0to1()
{
if( m_internals->contains( "classes" ) && m_internals->At( "classes" ).is_array() )
{
for( auto& netClass : m_internals->At( "classes" ).items() )
{
if( netClass.value().contains( "nets" ) && netClass.value()["nets"].is_array() )
{
nlohmann::json migrated = nlohmann::json::array();
for( auto& net : netClass.value()["nets"].items() )
migrated.push_back( ConvertToNewOverbarNotation( net.value().get<wxString>() ) );
netClass.value()["nets"] = migrated;
}
}
}
return true;
}
bool NET_SETTINGS::migrateSchema2to3()
{
if( m_internals->contains( "classes" ) && m_internals->At( "classes" ).is_array() )
{
nlohmann::json patterns = nlohmann::json::array();
for( auto& netClass : m_internals->At( "classes" ).items() )
{
if( netClass.value().contains( "name" )
&& netClass.value().contains( "nets" )
&& netClass.value()["nets"].is_array() )
{
wxString netClassName = netClass.value()["name"].get<wxString>();
for( auto& net : netClass.value()["nets"].items() )
{
nlohmann::json pattern_json = {
{ "pattern", net.value().get<wxString>() },
{ "netclass", netClassName }
};
patterns.push_back( pattern_json );
}
}
}
m_internals->SetFromString( "netclass_patterns", patterns );
}
return true;
}
std::shared_ptr<NETCLASS> NET_SETTINGS::GetEffectiveNetClass( const wxString& aNetName ) const
{
auto getNetclass =
[&]( const wxString& netclass )
{
auto ii = m_NetClasses.find( netclass );
if( ii == m_NetClasses.end() )
return m_DefaultNetClass;
else
return ii->second;
};
// <no net> is forced to be part of the Default netclass.
if( aNetName.IsEmpty() )
return m_DefaultNetClass;
auto it = m_NetClassLabelAssignments.find( aNetName );
if( it != m_NetClassLabelAssignments.end() )
return getNetclass( it->second );
auto it2 = m_NetClassPatternAssignmentCache.find( aNetName );
if( it2 != m_NetClassPatternAssignmentCache.end() )
return getNetclass( it2->second );
for( const auto& [ matcher, netclassName ] : m_NetClassPatternAssignments )
{
if( matcher->StartsWith( aNetName ) )
{
m_NetClassPatternAssignmentCache[ aNetName ] = netclassName;
return getNetclass( netclassName );
}
}
m_NetClassPatternAssignmentCache[ aNetName ] = wxEmptyString;
return m_DefaultNetClass;
}
static bool isSuperSubOverbar( wxChar c )
{
return c == '_' || c == '^' || c == '~';
}
bool NET_SETTINGS::ParseBusVector( const wxString& aBus, wxString* aName,
std::vector<wxString>* aMemberList )
{
auto isDigit = []( wxChar c )
{
static wxString digits( wxT( "0123456789" ) );
return digits.Contains( c );
};
size_t busLen = aBus.length();
size_t i = 0;
wxString prefix;
wxString suffix;
wxString tmp;
long begin = 0;
long end = 0;
int braceNesting = 0;
prefix.reserve( busLen );
// Parse prefix
//
for( ; i < busLen; ++i )
{
if( aBus[i] == '{' )
{
if( i > 0 && isSuperSubOverbar( aBus[i-1] ) )
braceNesting++;
else
return false;
}
else if( aBus[i] == '}' )
{
braceNesting--;
}
if( aBus[i] == ' ' || aBus[i] == ']' )
return false;
if( aBus[i] == '[' )
break;
prefix += aBus[i];
}
// Parse start number
//
i++; // '[' character
if( i >= busLen )
return false;
for( ; i < busLen; ++i )
{
if( aBus[i] == '.' && i + 1 < busLen && aBus[i+1] == '.' )
{
tmp.ToLong( &begin );
i += 2;
break;
}
if( !isDigit( aBus[i] ) )
return false;
tmp += aBus[i];
}
// Parse end number
//
tmp = wxEmptyString;
if( i >= busLen )
return false;
for( ; i < busLen; ++i )
{
if( aBus[i] == ']' )
{
tmp.ToLong( &end );
++i;
break;
}
if( !isDigit( aBus[i] ) )
return false;
tmp += aBus[i];
}
// Parse suffix
//
for( ; i < busLen; ++i )
{
if( aBus[i] == '}' )
{
braceNesting--;
suffix += aBus[i];
}
else
{
return false;
}
}
if( braceNesting != 0 )
return false;
if( begin == end )
return false;
else if( begin > end )
std::swap( begin, end );
if( aName )
*aName = prefix;
if( aMemberList )
{
for( long idx = begin; idx <= end; ++idx )
{
wxString str = prefix;
str << idx;
str << suffix;
aMemberList->emplace_back( str );
}
}
return true;
}
bool NET_SETTINGS::ParseBusGroup( const wxString& aGroup, wxString* aName,
std::vector<wxString>* aMemberList )
{
size_t groupLen = aGroup.length();
size_t i = 0;
wxString prefix;
wxString tmp;
int braceNesting = 0;
prefix.reserve( groupLen );
// Parse prefix
//
for( ; i < groupLen; ++i )
{
if( aGroup[i] == '{' )
{
if( i > 0 && isSuperSubOverbar( aGroup[i-1] ) )
braceNesting++;
else
break;
}
else if( aGroup[i] == '}' )
{
braceNesting--;
}
if( aGroup[i] == ' ' || aGroup[i] == '[' || aGroup[i] == ']' )
return false;
prefix += aGroup[i];
}
if( braceNesting != 0 )
return false;
if( aName )
*aName = prefix;
// Parse members
//
i++; // '{' character
if( i >= groupLen )
return false;
for( ; i < groupLen; ++i )
{
if( aGroup[i] == '{' )
{
if( i > 0 && isSuperSubOverbar( aGroup[i-1] ) )
braceNesting++;
else
return false;
}
else if( aGroup[i] == '}' )
{
if( braceNesting )
{
braceNesting--;
}
else
{
if( aMemberList && !tmp.IsEmpty() )
aMemberList->push_back( EscapeString( tmp, CTX_NETNAME ) );
return true;
}
}
// Commas aren't strictly legal, but we can be pretty sure what the author had in mind.
if( aGroup[i] == ' ' || aGroup[i] == ',' )
{
if( aMemberList && !tmp.IsEmpty() )
aMemberList->push_back( EscapeString( tmp, CTX_NETNAME ) );
tmp.Clear();
continue;
}
tmp += aGroup[i];
}
return false;
}
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