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kicad/common/footprint_filter.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2016 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 1992-2017 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 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 <footprint_filter.h>
#include <make_unique.h>
#include <stdexcept>
using FOOTPRINT_FILTER_IT = FOOTPRINT_FILTER::ITERATOR;
FOOTPRINT_FILTER::ITERATOR::ITERATOR() : m_pos( 0 ), m_filter( nullptr )
{
}
FOOTPRINT_FILTER::ITERATOR::ITERATOR( FOOTPRINT_FILTER_IT const& aOther )
: m_pos( aOther.m_pos ), m_filter( aOther.m_filter )
{
}
FOOTPRINT_FILTER::ITERATOR::ITERATOR( FOOTPRINT_FILTER& aFilter )
: m_pos( (size_t) -1 ), m_filter( &aFilter )
{
increment();
}
void FOOTPRINT_FILTER_IT::increment()
{
bool found = false;
if( !m_filter || !m_filter->m_list || m_filter->m_list->GetCount() == 0 )
{
m_pos = 0;
return;
}
auto filter_type = m_filter->m_filter_type;
auto list = m_filter->m_list;
auto& lib_name = m_filter->m_lib_name;
auto& filter_pattern = m_filter->m_filter_pattern;
auto& filter = m_filter->m_filter;
for( ++m_pos; m_pos < list->GetCount() && !found; ++m_pos )
{
found = true;
if( ( filter_type & FOOTPRINT_FILTER::FILTERING_BY_LIBRARY ) && !lib_name.IsEmpty()
&& !list->GetItem( m_pos ).InLibrary( lib_name ) )
found = false;
if( ( filter_type & FOOTPRINT_FILTER::FILTERING_BY_COMPONENT_KEYWORD )
&& !FootprintFilterMatch( list->GetItem( m_pos ) ) )
found = false;
if( ( filter_type & FOOTPRINT_FILTER::FILTERING_BY_PIN_COUNT )
&& !PinCountMatch( list->GetItem( m_pos ) ) )
found = false;
if( ( filter_type & FOOTPRINT_FILTER::FILTERING_BY_NAME ) && !filter_pattern.IsEmpty() )
{
wxString currname;
// If the search string contains a ':' character,
// include the library name in the search string
// e.g. LibName:FootprintName
if( filter_pattern.Contains( ":" ) )
currname = list->GetItem( m_pos ).GetLibNickname().Lower() + ":";
currname += list->GetItem( m_pos ).GetFootprintName().Lower();
if( filter.Find( currname ) == EDA_PATTERN_NOT_FOUND )
found = false;
}
if( filter_type == FOOTPRINT_FILTER::UNFILTERED_FP_LIST )
{
// override
found = true;
}
}
// for loop will stop one past the correct item
if( found )
--m_pos;
}
bool FOOTPRINT_FILTER_IT::equal( FOOTPRINT_FILTER_IT const& aOther ) const
{
// Invalid iterators are always equal
return ( m_pos == aOther.m_pos ) && ( m_filter == aOther.m_filter || m_pos == (size_t) -1 );
}
FOOTPRINT_INFO& FOOTPRINT_FILTER_IT::dereference() const
{
if( m_filter && m_filter->m_list && m_pos < m_filter->m_list->GetCount() )
return m_filter->m_list->GetItem( m_pos );
else
throw std::out_of_range( "Attempt to dereference past FOOTPRINT_FILTER::end()" );
}
bool FOOTPRINT_FILTER_IT::FootprintFilterMatch( FOOTPRINT_INFO& aItem )
{
if( m_filter->m_footprint_filters.empty() )
return true;
// The matching is case insensitive
wxString name;
for( auto const& each_filter : m_filter->m_footprint_filters )
{
name.Empty();
// If the filter contains a ':' character, include the library name in the pattern
if( each_filter->GetPattern().Contains( ":" ) )
{
name = aItem.GetLibNickname().Lower() + ":";
}
name += aItem.GetFootprintName().Lower();
if( each_filter->Find( name ) != EDA_PATTERN_NOT_FOUND )
{
return true;
}
}
return false;
}
bool FOOTPRINT_FILTER_IT::PinCountMatch( FOOTPRINT_INFO& aItem )
{
return m_filter->m_pin_count >= 0 &&
(unsigned) m_filter->m_pin_count == aItem.GetUniquePadCount();
}
FOOTPRINT_FILTER::FOOTPRINT_FILTER( FOOTPRINT_LIST& aList ) : FOOTPRINT_FILTER()
{
SetList( aList );
}
FOOTPRINT_FILTER::FOOTPRINT_FILTER()
: m_list( nullptr ), m_pin_count( -1 ), m_filter_type( UNFILTERED_FP_LIST )
{
}
void FOOTPRINT_FILTER::SetList( FOOTPRINT_LIST& aList )
{
m_list = &aList;
}
void FOOTPRINT_FILTER::ClearFilters()
{
m_filter_type = UNFILTERED_FP_LIST;
}
void FOOTPRINT_FILTER::FilterByLibrary( wxString const& aLibName )
{
m_lib_name = aLibName;
m_filter_type |= FILTERING_BY_LIBRARY;
}
void FOOTPRINT_FILTER::FilterByPinCount( int aPinCount )
{
m_pin_count = aPinCount;
m_filter_type |= FILTERING_BY_PIN_COUNT;
}
void FOOTPRINT_FILTER::FilterByFootprintFilters( wxArrayString const& aFilters )
{
m_footprint_filters.clear();
for( auto const& each_pattern : aFilters )
{
m_footprint_filters.push_back( std::make_unique<EDA_PATTERN_MATCH_WILDCARD_EXPLICIT>() );
m_footprint_filters.back()->SetPattern( each_pattern.Lower() );
}
m_filter_type |= FILTERING_BY_COMPONENT_KEYWORD;
}
void FOOTPRINT_FILTER::FilterByPattern( wxString const& aPattern )
{
m_filter_pattern = aPattern;
m_filter.SetPattern( aPattern.Lower() );
m_filter_type |= FILTERING_BY_NAME;
}
FOOTPRINT_FILTER_IT FOOTPRINT_FILTER::begin()
{
return FOOTPRINT_FILTER_IT( *this );
}
FOOTPRINT_FILTER_IT FOOTPRINT_FILTER::end()
{
FOOTPRINT_FILTER_IT end_it( *this );
end_it.m_pos = m_list ? m_list->GetCount() : 0;
return end_it;
}
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