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kicad/common/lib_tree_model.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*lib_tree_model
* Copyright (C) 2017 Chris Pavlina <pavlina.chris@gmail.com>
* Copyright (C) 2014 Henner Zeller <h.zeller@acm.org>
* Copyright (C) 2014-2023 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 <lib_tree_model.h>
#include <algorithm>
#include <eda_pattern_match.h>
#include <lib_tree_item.h>
#include <pgm_base.h>
#include <string_utils.h>
// Each node gets this lowest score initially, without any matches applied. Matches will then
// increase this score. This way, an empty search string will result in all components being
// displayed as they have the minimum score. However, in that case, we avoid expanding all the
// nodes asd the result is very unspecific.
static const int kLowestDefaultScore = 1;
void LIB_TREE_NODE::ResetScore( std::function<int( LIB_TREE_NODE& aNode )>* aFilter )
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_Children )
child->ResetScore( aFilter );
m_Score = kLowestDefaultScore;
}
void LIB_TREE_NODE::AssignIntrinsicRanks( bool presorted )
{
std::vector<LIB_TREE_NODE*> sort_buf;
if( presorted )
{
int max = m_Children.size() - 1;
for( int i = 0; i <= max; ++i )
m_Children[i]->m_IntrinsicRank = max - i;
}
else
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_Children )
sort_buf.push_back( child.get() );
std::sort( sort_buf.begin(), sort_buf.end(),
[]( LIB_TREE_NODE* a, LIB_TREE_NODE* b ) -> bool
{
return StrNumCmp( a->m_Name, b->m_Name, true ) > 0;
} );
for( int i = 0; i < (int) sort_buf.size(); ++i )
sort_buf[i]->m_IntrinsicRank = i;
}
}
void LIB_TREE_NODE::SortNodes( bool aUseScores )
{
std::sort( m_Children.begin(), m_Children.end(),
[&]( std::unique_ptr<LIB_TREE_NODE>& a, std::unique_ptr<LIB_TREE_NODE>& b )
{
return Compare( *a, *b, aUseScores );
} );
for( std::unique_ptr<LIB_TREE_NODE>& node: m_Children )
node->SortNodes( aUseScores );
}
bool LIB_TREE_NODE::Compare( LIB_TREE_NODE const& aNode1, LIB_TREE_NODE const& aNode2,
bool aUseScores )
{
if( aNode1.m_Type != aNode2.m_Type )
return aNode1.m_Type < aNode2.m_Type;
// Recently used sorts at top
if( aNode1.m_Name.StartsWith( wxT( "-- " ) ) )
{
if( aNode2.m_Name.StartsWith( wxT( "-- " ) ) )
{
return aNode1.m_IntrinsicRank > aNode2.m_IntrinsicRank;
}
else
{
return true;
}
}
else if( aNode2.m_Name.StartsWith( wxT( "-- " ) ) )
{
return false;
}
// Pinned nodes go next
if( aNode1.m_Pinned && !aNode2.m_Pinned )
return true;
else if( aNode2.m_Pinned && !aNode1.m_Pinned )
return false;
if( aUseScores && aNode1.m_Score != aNode2.m_Score )
return aNode1.m_Score > aNode2.m_Score;
if( aNode1.m_IntrinsicRank != aNode2.m_IntrinsicRank )
return aNode1.m_IntrinsicRank > aNode2.m_IntrinsicRank;
return reinterpret_cast<const void*>( &aNode1 ) < reinterpret_cast<const void*>( &aNode2 );
}
LIB_TREE_NODE::LIB_TREE_NODE()
: m_Parent( nullptr ),
m_Type( INVALID ),
m_IntrinsicRank( 0 ),
m_Score( kLowestDefaultScore ),
m_Pinned( false ),
m_Unit( 0 ),
m_IsRoot( false )
{}
LIB_TREE_NODE_UNIT::LIB_TREE_NODE_UNIT( LIB_TREE_NODE* aParent, LIB_TREE_ITEM* aItem, int aUnit )
{
static void* locale = nullptr;
static wxString namePrefix;
// Fetching translations can take a surprising amount of time when loading libraries,
// so only do it when necessary.
if( Pgm().GetLocale() != locale )
{
namePrefix = _( "Unit" );
locale = Pgm().GetLocale();
}
m_Parent = aParent;
m_Type = UNIT;
m_Unit = aUnit;
m_LibId = aParent->m_LibId;
m_Name = namePrefix + " " + aItem->GetUnitReference( aUnit );
if( aItem->HasUnitDisplayName( aUnit ) )
m_Desc = aItem->GetUnitDisplayName( aUnit );
else
m_Desc = wxEmptyString;
m_IntrinsicRank = -aUnit;
}
LIB_TREE_NODE_LIB_ID::LIB_TREE_NODE_LIB_ID( LIB_TREE_NODE* aParent, LIB_TREE_ITEM* aItem )
{
m_Type = LIBID;
m_Parent = aParent;
m_LibId.SetLibNickname( aItem->GetLibNickname() );
m_LibId.SetLibItemName( aItem->GetName() );
m_Name = aItem->GetName();
m_Desc = aItem->GetDescription();
m_Footprint = aItem->GetFootprint();
m_PinCount = aItem->GetPinCount();
aItem->GetChooserFields( m_Fields );
m_SearchTerms = aItem->GetSearchTerms();
m_IsRoot = aItem->IsRoot();
if( aItem->GetUnitCount() > 1 )
{
for( int u = 1; u <= aItem->GetUnitCount(); ++u )
AddUnit( aItem, u );
}
}
LIB_TREE_NODE_UNIT& LIB_TREE_NODE_LIB_ID::AddUnit( LIB_TREE_ITEM* aItem, int aUnit )
{
LIB_TREE_NODE_UNIT* unit = new LIB_TREE_NODE_UNIT( this, aItem, aUnit );
m_Children.push_back( std::unique_ptr<LIB_TREE_NODE>( unit ) );
return *unit;
}
void LIB_TREE_NODE_LIB_ID::Update( LIB_TREE_ITEM* aItem )
{
m_LibId.SetLibNickname( aItem->GetLibId().GetLibNickname() );
m_LibId.SetLibItemName( aItem->GetName() );
m_Name = aItem->GetName();
m_Desc = aItem->GetDescription();
aItem->GetChooserFields( m_Fields );
m_SearchTerms = aItem->GetSearchTerms();
m_IsRoot = aItem->IsRoot();
m_Children.clear();
for( int u = 1; u <= aItem->GetUnitCount(); ++u )
AddUnit( aItem, u );
}
void LIB_TREE_NODE_LIB_ID::ResetScore( std::function<int( LIB_TREE_NODE& aNode )>* aFilter )
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_Children )
child->ResetScore( aFilter );
if( aFilter )
m_Score = kLowestDefaultScore + (*aFilter)(*this);
else
m_Score = kLowestDefaultScore;
}
void LIB_TREE_NODE_LIB_ID::UpdateScore( EDA_COMBINED_MATCHER* aMatcher, const wxString& aLib )
{
if( m_Score <= 0 )
return; // Leaf nodes without scores are out of the game.
if( !aLib.IsEmpty() && m_Parent->m_Name.Lower() != aLib )
{
m_Score = 0;
return;
}
if( aMatcher )
m_Score = aMatcher->ScoreTerms( m_SearchTerms );
}
LIB_TREE_NODE_LIB::LIB_TREE_NODE_LIB( LIB_TREE_NODE* aParent, wxString const& aName,
wxString const& aDesc )
{
m_Type = LIB;
m_Name = aName;
m_Desc = aDesc;
m_Parent = aParent;
m_LibId.SetLibNickname( aName );
m_SearchTerms.emplace_back( SEARCH_TERM( aName, 8 ) );
}
LIB_TREE_NODE_LIB_ID& LIB_TREE_NODE_LIB::AddItem( LIB_TREE_ITEM* aItem )
{
LIB_TREE_NODE_LIB_ID* item = new LIB_TREE_NODE_LIB_ID( this, aItem );
m_Children.push_back( std::unique_ptr<LIB_TREE_NODE>( item ) );
return *item;
}
void LIB_TREE_NODE_LIB::UpdateScore( EDA_COMBINED_MATCHER* aMatcher, const wxString& aLib )
{
// If we're matching then we default to not-matched; otherwise we default to whatever m_Score
// was initialized to (currently 1)
if( aMatcher )
m_Score = 0;
if( m_Children.size() )
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_Children )
{
child->UpdateScore( aMatcher, aLib );
m_Score = std::max( m_Score, child->m_Score );
}
}
else
{
if( aMatcher )
m_Score = aMatcher->ScoreTerms( m_SearchTerms );
}
}
LIB_TREE_NODE_ROOT::LIB_TREE_NODE_ROOT()
{
m_Type = ROOT;
}
LIB_TREE_NODE_LIB& LIB_TREE_NODE_ROOT::AddLib( wxString const& aName, wxString const& aDesc )
{
LIB_TREE_NODE_LIB* lib = new LIB_TREE_NODE_LIB( this, aName, aDesc );
m_Children.push_back( std::unique_ptr<LIB_TREE_NODE>( lib ) );
return *lib;
}
void LIB_TREE_NODE_ROOT::UpdateScore( EDA_COMBINED_MATCHER* aMatcher, const wxString& aLib )
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_Children )
child->UpdateScore( aMatcher, aLib );
}
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