kicad/common/lib_tree_model_adapter.cpp

587 lines
17 KiB
C++

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2017 Chris Pavlina <pavlina.chris@gmail.com>
* Copyright (C) 2014 Henner Zeller <h.zeller@acm.org>
* Copyright (C) 2014-2021 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 <eda_base_frame.h>
#include <eda_pattern_match.h>
#include <kiface_base.h>
#include <config_params.h>
#include <lib_tree_model_adapter.h>
#include <project/project_file.h>
#include <settings/app_settings.h>
#include <widgets/ui_common.h>
#include <wx/tokenzr.h>
#include <wx/wupdlock.h>
#include <string_utils.h>
#define PINNED_ITEMS_KEY wxT( "PinnedItems" )
static const int kDataViewIndent = 20;
wxDataViewItem LIB_TREE_MODEL_ADAPTER::ToItem( const LIB_TREE_NODE* aNode )
{
return wxDataViewItem( const_cast<void*>( static_cast<void const*>( aNode ) ) );
}
LIB_TREE_NODE* LIB_TREE_MODEL_ADAPTER::ToNode( wxDataViewItem aItem )
{
return static_cast<LIB_TREE_NODE*>( aItem.GetID() );
}
unsigned int LIB_TREE_MODEL_ADAPTER::IntoArray( const LIB_TREE_NODE& aNode,
wxDataViewItemArray& aChildren )
{
unsigned int n = 0;
for( std::unique_ptr<LIB_TREE_NODE> const& child: aNode.m_Children )
{
if( child->m_Score > 0 )
{
aChildren.Add( ToItem( &*child ) );
++n;
}
}
return n;
}
LIB_TREE_MODEL_ADAPTER::LIB_TREE_MODEL_ADAPTER( EDA_BASE_FRAME* aParent,
const wxString& aPinnedKey ) :
m_parent( aParent ),
m_filter( SYM_FILTER_NONE ),
m_show_units( true ),
m_preselect_unit( 0 ),
m_freeze( 0 ),
m_col_part( nullptr ),
m_col_desc( nullptr ),
m_widget( nullptr ),
m_pinnedLibs(),
m_pinnedKey( aPinnedKey )
{
// Default column widths
m_colWidths[PART_COL] = 360;
m_colWidths[DESC_COL] = 2000;
APP_SETTINGS_BASE* cfg = Kiface().KifaceSettings();
m_colWidths[PART_COL] = cfg->m_LibTree.column_width;
// Read the pinned entries from the project config
PROJECT_FILE& project = m_parent->Kiway().Prj().GetProjectFile();
std::vector<wxString>& entries = ( m_pinnedKey == "pinned_symbol_libs" ) ?
project.m_PinnedSymbolLibs :
project.m_PinnedFootprintLibs;
for( const wxString& entry : entries )
m_pinnedLibs.push_back( entry );
}
LIB_TREE_MODEL_ADAPTER::~LIB_TREE_MODEL_ADAPTER()
{}
void LIB_TREE_MODEL_ADAPTER::SaveColWidths()
{
if( m_widget )
{
APP_SETTINGS_BASE* cfg = Kiface().KifaceSettings();
cfg->m_LibTree.column_width = m_widget->GetColumn( PART_COL )->GetWidth();
}
}
void LIB_TREE_MODEL_ADAPTER::SavePinnedItems()
{
PROJECT_FILE& project = m_parent->Kiway().Prj().GetProjectFile();
std::vector<wxString>& entries = ( m_pinnedKey == "pinned_symbol_libs" ) ?
project.m_PinnedSymbolLibs :
project.m_PinnedFootprintLibs;
entries.clear();
m_pinnedLibs.clear();
for( std::unique_ptr<LIB_TREE_NODE>& child: m_tree.m_Children )
{
if( child->m_Pinned )
{
m_pinnedLibs.push_back( child->m_LibId.GetLibNickname() );
entries.push_back( child->m_LibId.GetLibNickname() );
}
}
}
void LIB_TREE_MODEL_ADAPTER::SetFilter( SYM_FILTER_TYPE aFilter )
{
m_filter = aFilter;
}
void LIB_TREE_MODEL_ADAPTER::ShowUnits( bool aShow )
{
m_show_units = aShow;
}
void LIB_TREE_MODEL_ADAPTER::SetPreselectNode( const LIB_ID& aLibId, int aUnit )
{
m_preselect_lib_id = aLibId;
m_preselect_unit = aUnit;
}
LIB_TREE_NODE_LIB& LIB_TREE_MODEL_ADAPTER::DoAddLibraryNode( const wxString& aNodeName,
const wxString& aDesc )
{
LIB_TREE_NODE_LIB& lib_node = m_tree.AddLib( aNodeName, aDesc );
lib_node.m_Pinned = m_pinnedLibs.Index( lib_node.m_LibId.GetLibNickname() ) != wxNOT_FOUND;
return lib_node;
}
void LIB_TREE_MODEL_ADAPTER::DoAddLibrary( const wxString& aNodeName, const wxString& aDesc,
const std::vector<LIB_TREE_ITEM*>& aItemList,
bool presorted )
{
LIB_TREE_NODE_LIB& lib_node = DoAddLibraryNode( aNodeName, aDesc );
for( LIB_TREE_ITEM* item: aItemList )
lib_node.AddItem( item );
lib_node.AssignIntrinsicRanks( presorted );
}
void LIB_TREE_MODEL_ADAPTER::UpdateSearchString( const wxString& aSearch, bool aState )
{
{
wxWindowUpdateLocker updateLock( m_widget );
// Even with the updateLock, wxWidgets sometimes ties its knickers in a knot trying to
// run a wxdataview_selection_changed_callback() on a row that has been deleted.
// https://bugs.launchpad.net/kicad/+bug/1756255
m_widget->UnselectAll();
// This collapse is required before the call to "Freeze()" below. Once Freeze()
// is called, GetParent() will return nullptr. While this works for some calls, it
// segfaults when we have any expanded elements b/c the sub units in the tree don't
// have explicit references that are maintained over a search
// The tree will be expanded again below when we get our matches
//
// Also note that this cannot happen when we have deleted a symbol as GTK will also
// iterate over the tree in this case and find a symbol that has an invalid link
// and crash https://gitlab.com/kicad/code/kicad/-/issues/6910
if( !aState && !aSearch.IsNull() && m_tree.m_Children.size() )
{
for( std::unique_ptr<LIB_TREE_NODE>& child: m_tree.m_Children )
m_widget->Collapse( wxDataViewItem( &*child ) );
}
// DO NOT REMOVE THE FREEZE/THAW. This freeze/thaw is a flag for this model adapter
// that tells it when it shouldn't trust any of the data in the model. When set, it will
// not return invalid data to the UI, since this invalid data can cause crashes.
// This is different than the update locker, which locks the UI aspects only.
Freeze();
BeforeReset();
m_tree.ResetScore();
for( std::unique_ptr<LIB_TREE_NODE>& child: m_tree.m_Children )
{
if( child->m_Pinned )
child->m_Score *= 2;
}
wxStringTokenizer tokenizer( aSearch );
while( tokenizer.HasMoreTokens() )
{
wxString lib;
wxString term = tokenizer.GetNextToken().Lower();
if( term.Contains( ":" ) )
{
lib = term.BeforeFirst( ':' );
term = term.AfterFirst( ':' );
}
EDA_COMBINED_MATCHER matcher( term );
m_tree.UpdateScore( matcher, lib );
}
m_tree.SortNodes();
AfterReset();
Thaw();
}
LIB_TREE_NODE* bestMatch = ShowResults();
if( !bestMatch )
bestMatch = ShowPreselect();
if( !bestMatch )
bestMatch = ShowSingleLibrary();
if( bestMatch )
{
wxDataViewItem item = wxDataViewItem( bestMatch );
m_widget->Select( item );
// Make sure the *parent* item is visible. The selected item is the
// first (shown) child of the parent. So it's always right below the parent,
// and this way the user can also see what library the selected part belongs to,
// without having a case where the selection is off the screen (unless the
// window is a single row high, which is unlikely)
//
// This also happens to circumvent https://bugs.launchpad.net/kicad/+bug/1804400
// which appears to be a GTK+3 bug.
{
wxDataViewItem parent = GetParent( item );
if( parent.IsOk() )
item = parent;
}
m_widget->EnsureVisible( item );
}
}
void LIB_TREE_MODEL_ADAPTER::AttachTo( wxDataViewCtrl* aDataViewCtrl )
{
wxString partHead = _( "Item" );
wxString descHead = _( "Description" );
// The extent of the text doesn't take into account the space on either side
// in the header, so artificially pad it
wxSize partHeadMinWidth = KIUI::GetTextSize( partHead + "MMM", aDataViewCtrl );
// Ensure the part column is wider than the smallest allowable width
if( m_colWidths[PART_COL] < partHeadMinWidth.x )
m_colWidths[PART_COL] = partHeadMinWidth.x;
m_widget = aDataViewCtrl;
aDataViewCtrl->SetIndent( kDataViewIndent );
aDataViewCtrl->AssociateModel( this );
aDataViewCtrl->ClearColumns();
m_col_part = aDataViewCtrl->AppendTextColumn( partHead, PART_COL, wxDATAVIEW_CELL_INERT,
m_colWidths[PART_COL] );
m_col_desc = aDataViewCtrl->AppendTextColumn( descHead, DESC_COL, wxDATAVIEW_CELL_INERT,
m_colWidths[DESC_COL] );
m_col_part->SetMinWidth( partHeadMinWidth.x );
}
LIB_ID LIB_TREE_MODEL_ADAPTER::GetAliasFor( const wxDataViewItem& aSelection ) const
{
const LIB_TREE_NODE* node = ToNode( aSelection );
LIB_ID emptyId;
if( !node )
return emptyId;
return node->m_LibId;
}
int LIB_TREE_MODEL_ADAPTER::GetUnitFor( const wxDataViewItem& aSelection ) const
{
const LIB_TREE_NODE* node = ToNode( aSelection );
return node ? node->m_Unit : 0;
}
LIB_TREE_NODE::TYPE LIB_TREE_MODEL_ADAPTER::GetTypeFor( const wxDataViewItem& aSelection ) const
{
const LIB_TREE_NODE* node = ToNode( aSelection );
return node ? node->m_Type : LIB_TREE_NODE::INVALID;
}
LIB_TREE_NODE* LIB_TREE_MODEL_ADAPTER::GetTreeNodeFor( const wxDataViewItem& aSelection ) const
{
return ToNode( aSelection );
}
int LIB_TREE_MODEL_ADAPTER::GetItemCount() const
{
int n = 0;
for( const std::unique_ptr<LIB_TREE_NODE>& lib: m_tree.m_Children )
n += lib->m_Children.size();
return n;
}
wxDataViewItem LIB_TREE_MODEL_ADAPTER::FindItem( const LIB_ID& aLibId )
{
for( std::unique_ptr<LIB_TREE_NODE>& lib: m_tree.m_Children )
{
if( lib->m_Name != aLibId.GetLibNickname() )
continue;
// if part name is not specified, return the library node
if( aLibId.GetLibItemName() == "" )
return ToItem( lib.get() );
for( std::unique_ptr<LIB_TREE_NODE>& alias: lib->m_Children )
{
if( alias->m_Name == aLibId.GetLibItemName() )
return ToItem( alias.get() );
}
break; // could not find the part in the requested library
}
return wxDataViewItem();
}
unsigned int LIB_TREE_MODEL_ADAPTER::GetChildren( const wxDataViewItem& aItem,
wxDataViewItemArray& aChildren ) const
{
const LIB_TREE_NODE* node = ( aItem.IsOk() ? ToNode( aItem ) : &m_tree );
if( node->m_Type == LIB_TREE_NODE::TYPE::ROOT
|| node->m_Type == LIB_TREE_NODE::LIB
|| ( m_show_units && node->m_Type == LIB_TREE_NODE::TYPE::LIBID ) )
{
return IntoArray( *node, aChildren );
}
else
{
return 0;
}
}
void LIB_TREE_MODEL_ADAPTER::FinishTreeInitialization()
{
m_col_part->SetWidth( m_colWidths[PART_COL] );
m_col_desc->SetWidth( m_colWidths[DESC_COL] );
}
void LIB_TREE_MODEL_ADAPTER::RefreshTree()
{
// Yes, this is an enormous hack. But it works on all platforms, it doesn't suffer
// the On^2 sorting issues that ItemChanged() does on OSX, and it doesn't lose the
// user's scroll position (which re-attaching or deleting/re-inserting columns does).
static int walk = 1;
int partWidth = m_col_part->GetWidth();
int descWidth = m_col_desc->GetWidth();
// Only use the widths read back if they are non-zero.
// GTK returns the displayed width of the column, which is not calculated immediately
if( descWidth > 0 )
{
m_colWidths[PART_COL] = partWidth;
m_colWidths[DESC_COL] = descWidth;
}
m_colWidths[PART_COL] += walk;
m_colWidths[DESC_COL] -= walk;
m_col_part->SetWidth( m_colWidths[PART_COL] );
m_col_desc->SetWidth( m_colWidths[DESC_COL] );
walk = -walk;
}
bool LIB_TREE_MODEL_ADAPTER::HasContainerColumns( const wxDataViewItem& aItem ) const
{
return IsContainer( aItem );
}
bool LIB_TREE_MODEL_ADAPTER::IsContainer( const wxDataViewItem& aItem ) const
{
LIB_TREE_NODE* node = ToNode( aItem );
return node ? node->m_Children.size() : true;
}
wxDataViewItem LIB_TREE_MODEL_ADAPTER::GetParent( const wxDataViewItem& aItem ) const
{
if( m_freeze )
return ToItem( nullptr );
LIB_TREE_NODE* node = ToNode( aItem );
LIB_TREE_NODE* parent = node ? node->m_Parent : nullptr;
// wxDataViewModel has no root node, but rather top-level elements have
// an invalid (null) parent.
if( !node || !parent || parent->m_Type == LIB_TREE_NODE::TYPE::ROOT )
return ToItem( nullptr );
else
return ToItem( parent );
}
void LIB_TREE_MODEL_ADAPTER::GetValue( wxVariant& aVariant,
const wxDataViewItem& aItem,
unsigned int aCol ) const
{
if( IsFrozen() )
{
aVariant = wxEmptyString;
return;
}
LIB_TREE_NODE* node = ToNode( aItem );
wxASSERT( node );
switch( aCol )
{
default: // column == -1 is used for default Compare function
case 0:
aVariant = UnescapeString( node->m_Name );
break;
case 1:
aVariant = node->m_Desc;
break;
}
}
bool LIB_TREE_MODEL_ADAPTER::GetAttr( const wxDataViewItem& aItem,
unsigned int aCol,
wxDataViewItemAttr& aAttr ) const
{
if( IsFrozen() )
return false;
LIB_TREE_NODE* node = ToNode( aItem );
wxASSERT( node );
if( node->m_Type != LIB_TREE_NODE::LIBID )
{
// Currently only aliases are formatted at all
return false;
}
if( !node->m_IsRoot && aCol == 0 )
{
// Names of non-root aliases are italicized
aAttr.SetItalic( true );
return true;
}
else
{
return false;
}
}
void LIB_TREE_MODEL_ADAPTER::FindAndExpand( LIB_TREE_NODE& aNode,
std::function<bool( const LIB_TREE_NODE* )> aFunc,
LIB_TREE_NODE** aHighScore )
{
for( std::unique_ptr<LIB_TREE_NODE>& node: aNode.m_Children )
{
if( aFunc( &*node ) )
{
wxDataViewItem item = wxDataViewItem( &*node );
m_widget->ExpandAncestors( item );
if( !(*aHighScore) || node->m_Score > (*aHighScore)->m_Score )
(*aHighScore) = &*node;
}
FindAndExpand( *node, aFunc, aHighScore );
}
}
LIB_TREE_NODE* LIB_TREE_MODEL_ADAPTER::ShowResults()
{
LIB_TREE_NODE* highScore = nullptr;
FindAndExpand( m_tree,
[]( LIB_TREE_NODE const* n )
{
// return leaf nodes with some level of matching
return n->m_Type == LIB_TREE_NODE::TYPE::LIBID && n->m_Score > 1;
},
&highScore );
return highScore;
}
LIB_TREE_NODE* LIB_TREE_MODEL_ADAPTER::ShowPreselect()
{
LIB_TREE_NODE* highScore = nullptr;
if( !m_preselect_lib_id.IsValid() )
return highScore;
FindAndExpand( m_tree,
[&]( LIB_TREE_NODE const* n )
{
if( n->m_Type == LIB_TREE_NODE::LIBID && ( n->m_Children.empty() ||
!m_preselect_unit ) )
return m_preselect_lib_id == n->m_LibId;
else if( n->m_Type == LIB_TREE_NODE::UNIT && m_preselect_unit )
return m_preselect_lib_id == n->m_Parent->m_LibId &&
m_preselect_unit == n->m_Unit;
else
return false;
},
&highScore );
return highScore;
}
LIB_TREE_NODE* LIB_TREE_MODEL_ADAPTER::ShowSingleLibrary()
{
LIB_TREE_NODE* highScore = nullptr;
FindAndExpand( m_tree,
[]( LIB_TREE_NODE const* n )
{
return n->m_Type == LIB_TREE_NODE::TYPE::LIBID &&
n->m_Parent->m_Parent->m_Children.size() == 1;
},
&highScore );
return highScore;
}