Fixes for the connectivity & board cleanup algorithms

This commit is contained in:
Tomasz Włostowski 2017-06-22 16:24:07 +02:00
parent f324c7b16d
commit 5c0edbabab
5 changed files with 225 additions and 106 deletions

View File

@ -56,7 +56,6 @@ COMMIT& COMMIT::Stage( EDA_ITEM* aItem, CHANGE_TYPE aChangeType )
return *this;
case CHT_REMOVE:
assert( m_changedItems.find( aItem ) == m_changedItems.end() );
makeEntry( aItem, CHT_REMOVE | flag );
return *this;
@ -134,12 +133,27 @@ COMMIT& COMMIT::Stage( const PICKED_ITEMS_LIST& aItems, UNDO_REDO_T aModFlag )
return *this;
}
template <class Container, class F>
void eraseIf( Container& c, F&& f )
{
c.erase( std::remove_if( c.begin(),
c.end(),
std::forward<F>( f ) ),
c.end() );
}
void COMMIT::makeEntry( EDA_ITEM* aItem, CHANGE_TYPE aType, EDA_ITEM* aCopy )
{
// Expect an item copy if it is going to be modified
assert( !!aCopy == ( ( aType & CHT_TYPE ) == CHT_MODIFY ) );
if( m_changedItems.find( aItem ) != m_changedItems.end() )
{
eraseIf( m_changes, [aItem] ( const COMMIT_LINE& aEnt ) {
return aEnt.m_item == aItem;
} );
}
COMMIT_LINE ent;
ent.m_item = aItem;

View File

@ -2,8 +2,8 @@
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2004-2016 Jean-Pierre Charras, jean-pierre.charras@gpisa-lab.inpg.fr
* Copyright (C) 2011-2017 Wayne Stambaugh <stambaughw@verizon.net>
* Copyright (C) 1992-2017 KiCad Developers, see change_log.txt for contributors.
* Copyright (C) 2011 Wayne Stambaugh <stambaughw@verizon.net>
* Copyright (C) 1992-2016 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
@ -47,13 +47,14 @@ public:
TRACKS_CLEANER( BOARD* aPcb, BOARD_COMMIT& aCommit );
/**
* The track cleanup function.
*
* the cleanup function.
* return true if some item was modified
* @param aFrame = the PCB_EDIT_FRAME which handles the board
* @param aRemoveMisConnected = true to remove segments connecting 2 different nets
* @param aCleanVias = true to remove superimposed vias
* @param aMergeSegments = true to merge collinear segmenst and remove 0 len segm
* @param aDeleteUnconnected = true to remove dangling tracks (short circuits)
* @return true if some item was modified
* @param aDeleteUnconnected = true to remove dangling tracks
* (short circuits)
*/
bool CleanupBoard( bool aCleanVias, bool aRemoveMisConnected,
bool aMergeSegments, bool aDeleteUnconnected );
@ -74,12 +75,12 @@ private:
* Removes all the following THT vias on the same position of the
* specified one
*/
bool remove_duplicates_of_via( const VIA* aVia );
void removeDuplicatesOfVia( const VIA *aVia, std::set<BOARD_ITEM *>& aToRemove );
/**
* Removes all the following duplicates tracks of the specified one
*/
bool remove_duplicates_of_track( const TRACK* aTrack );
void removeDuplicatesOfTrack( const TRACK* aTrack, std::set<BOARD_ITEM*>& aToRemove );
/**
* Removes dangling tracks
@ -87,15 +88,15 @@ private:
bool deleteDanglingTracks();
/// Delete null length track segments
bool delete_null_segments();
bool deleteNullSegments();
/// Try to merge the segment to a following collinear one
bool merge_collinear_of_track( TRACK* aSegment );
bool MergeCollinearTracks( TRACK* aSegment );
/**
* Merge collinear segments and remove duplicated and null len segments
*/
bool clean_segments();
bool cleanupSegments();
/**
* helper function
@ -119,6 +120,21 @@ private:
BOARD* m_brd;
BOARD_COMMIT& m_commit;
bool removeItems( std::set<BOARD_ITEM*>& aItems )
{
bool isModified = false;
for( auto item : aItems )
{
isModified = true;
m_brd->Remove( item );
m_commit.Removed( item );
}
return isModified;
}
};
@ -151,18 +167,19 @@ void PCB_EDIT_FRAME::Clean_Pcb()
m_canvas->Refresh( true );
}
extern void RebuildTrackChain ( BOARD *brd);
void TRACKS_CLEANER::buildTrackConnectionInfo()
{
auto connectivity = m_brd->GetConnectivity();
// rebuild the connectivity, just in case
connectivity->Build(m_brd);
//RebuildTrackChain ( m_brd );
// clear flags and variables used in cleanup
for( auto track : m_brd->Tracks() )
{
track->start = NULL;
track->end = NULL;
track->SetState( START_ON_PAD | END_ON_PAD | BUSY, false );
}
@ -171,20 +188,28 @@ void TRACKS_CLEANER::buildTrackConnectionInfo()
// Mark track if connected to pads
for( auto pad : connectivity->GetConnectedPads( track ) )
{
printf("take pad %p\n", pad);
if( pad->HitTest( track->GetStart() ) )
{
track->start = pad;
track->SetState( START_ON_PAD, true );
}
if( pad->HitTest( track->GetEnd() ) )
{
track->end = pad;
track->SetState( END_ON_PAD, true );
}
}
}
#if 0
printf("bci\n");
for( TRACK* segment = m_brd->m_Track; segment; segment = segment->Next() )
{
if( segment->Type() == PCB_TRACE_T )
{
printf("s %d %d %d %d %d %x\n", segment->GetStart().x, segment->GetStart().y, segment->GetEnd().x, segment->GetEnd().y, segment->GetLayer(), segment->GetStatus() );
}
}
#endif
}
@ -209,17 +234,15 @@ bool TRACKS_CLEANER::CleanupBoard( bool aRemoveMisConnected,
// Remove null segments and intermediate points on aligned segments
// If not asked, remove null segments only if remove misconnected is asked
if( aMergeSegments )
modified |= clean_segments();
modified |= cleanupSegments();
else if( aRemoveMisConnected )
modified |= delete_null_segments();
modified |= deleteNullSegments();
buildTrackConnectionInfo();
if( aRemoveMisConnected )
modified |= removeBadTrackSegments();
buildTrackConnectionInfo();
// Delete dangling tracks
if( aDeleteUnconnected )
{
@ -233,7 +256,7 @@ bool TRACKS_CLEANER::CleanupBoard( bool aRemoveMisConnected,
// (when a T was formed by tracks and the "vertical" segment
// is removed)
if( aMergeSegments )
clean_segments();
cleanupSegments();
}
}
@ -250,9 +273,10 @@ TRACKS_CLEANER::TRACKS_CLEANER( BOARD* aPcb, BOARD_COMMIT& aCommit )
bool TRACKS_CLEANER::removeBadTrackSegments()
{
bool isModified = false;
auto connectivity = m_brd->GetConnectivity();
std::set<BOARD_ITEM *> toRemove;
for( auto segment : m_brd->Tracks() )
{
segment->SetState( FLAG0, false );
@ -260,36 +284,22 @@ bool TRACKS_CLEANER::removeBadTrackSegments()
for( auto testedPad : connectivity->GetConnectedPads( segment ) )
{
if( segment->GetNetCode() != testedPad->GetNetCode() )
segment->SetState( FLAG0, true );
toRemove.insert( segment );
}
for( auto testedTrack : connectivity->GetConnectedTracks( segment ) )
{
if( segment->GetNetCode() != testedTrack->GetNetCode() && !testedTrack->GetState( FLAG0 ) )
segment->SetState( FLAG0, true );
toRemove.insert( segment );
}
}
// Remove tracks having a flagged segment
for( auto segment : m_brd->Tracks() )
return removeItems( toRemove );
}
void TRACKS_CLEANER::removeDuplicatesOfVia( const VIA *aVia, std::set<BOARD_ITEM *>& aToRemove )
{
if( segment->GetState( FLAG0 ) ) // Segment is flagged to be removed
{
isModified = true;
m_brd->Remove( segment );
m_commit.Removed( segment );
}
}
return isModified;
}
bool TRACKS_CLEANER::remove_duplicates_of_via( const VIA *aVia )
{
bool modified = false;
// Search and delete others vias at same location
VIA* next_via;
for( VIA* alt_via = GetFirstVia( aVia->Next() ); alt_via != NULL; alt_via = next_via )
@ -298,19 +308,14 @@ bool TRACKS_CLEANER::remove_duplicates_of_via( const VIA *aVia )
if( ( alt_via->GetViaType() == VIA_THROUGH ) &&
( alt_via->GetStart() == aVia->GetStart() ) )
{
m_brd->Remove( alt_via );
m_commit.Removed( alt_via );
modified = true;
aToRemove.insert ( alt_via );
}
}
return modified;
}
bool TRACKS_CLEANER::cleanupVias()
{
bool modified = false;
std::set<BOARD_ITEM*> toRemove;
for( VIA* via = GetFirstVia( m_brd->m_Track ); via != NULL;
via = GetFirstVia( via->Next() ) )
@ -330,7 +335,7 @@ bool TRACKS_CLEANER::cleanupVias()
* (yet) handle high density interconnects */
if( via->GetViaType() == VIA_THROUGH )
{
modified |= remove_duplicates_of_via( via );
removeDuplicatesOfVia( via, toRemove );
/* To delete through Via on THT pads at same location
* Examine the list of connected pads:
@ -344,16 +349,14 @@ bool TRACKS_CLEANER::cleanupVias()
if( ( pad->GetLayerSet() & all_cu ) == all_cu )
{
// redundant: delete the via
m_brd->Remove( via );
m_commit.Removed( via );
modified = true;
toRemove.insert( via );
break;
}
}
}
}
return modified;
return removeItems( toRemove );
}
@ -369,7 +372,14 @@ bool TRACKS_CLEANER::testTrackEndpointDangling( TRACK* aTrack, ENDPOINT_T aEndPo
else
endpoint = aTrack->GetStart( );
auto anchors = connectivity->GetConnectivityAlgo()->ItemEntry( aTrack ).GetItems().front()->Anchors();
//wxASSERT ( connectivity->GetConnectivityAlgo()->ItemEntry( aTrack ) != nullptr );
wxASSERT ( connectivity->GetConnectivityAlgo()->ItemEntry( aTrack ).GetItems().size() != 0 );
auto citem = connectivity->GetConnectivityAlgo()->ItemEntry( aTrack ).GetItems().front();
if( !citem->Valid() )
return false;
auto anchors = citem->Anchors();
for ( auto anchor : anchors )
{
@ -387,21 +397,18 @@ bool TRACKS_CLEANER::testTrackEndpointDangling( TRACK* aTrack, ENDPOINT_T aEndPo
*/
bool TRACKS_CLEANER::deleteDanglingTracks()
{
if( m_brd->m_Track == NULL )
return false;
bool item_erased = false;
bool modified = false;
bool item_erased;
do // Iterate when at least one track is deleted
{
item_erased = false;
TRACK* next_track;
for( TRACK *track = m_brd->m_Track; track != NULL; track = next_track )
{
next_track = track->Next();
bool flag_erase = false; // Start without a good reason to erase it
/* if a track endpoint is not connected to a pad, test if
@ -432,45 +439,36 @@ bool TRACKS_CLEANER::deleteDanglingTracks()
}
} while( item_erased );
return modified;
}
// Delete null length track segments
bool TRACKS_CLEANER::delete_null_segments()
bool TRACKS_CLEANER::deleteNullSegments()
{
bool modified = false;
TRACK* nextsegment;
std::set<BOARD_ITEM *> toRemove;
// Delete null segments
for( TRACK* segment = m_brd->m_Track; segment; segment = nextsegment )
for( auto segment : m_brd->Tracks() )
{
nextsegment = segment->Next();
if ( segment->IsNull() ) // Length segment = 0; delete it
{
m_brd->Remove( segment );
m_commit.Removed( segment );
modified = true;
}
toRemove.insert( segment );
}
return modified;
return removeItems( toRemove );
}
bool TRACKS_CLEANER::remove_duplicates_of_track( const TRACK *aTrack )
void TRACKS_CLEANER::removeDuplicatesOfTrack( const TRACK *aTrack, std::set<BOARD_ITEM*>& aToRemove )
{
bool modified = false;
TRACK* nextsegment;
for( TRACK* other = aTrack->Next(); other; other = nextsegment )
for( auto other : m_brd->Tracks() )
{
nextsegment = other->Next();
// New netcode, break out (can't be there any other)
if( aTrack->GetNetCode() != other->GetNetCode() )
break;
continue;
if ( aTrack == other )
continue;
// Must be of the same type, on the same layer and the endpoints
// must be the same (maybe swapped)
@ -482,21 +480,18 @@ bool TRACKS_CLEANER::remove_duplicates_of_track( const TRACK *aTrack )
( ( aTrack->GetStart() == other->GetEnd() ) &&
( aTrack->GetEnd() == other->GetStart() ) ) )
{
m_brd->Remove( other );
m_commit.Removed( other );
modified = true;
aToRemove.insert( other );
}
}
}
}
return modified;
}
bool TRACKS_CLEANER::merge_collinear_of_track( TRACK* aSegment )
bool TRACKS_CLEANER::MergeCollinearTracks( TRACK* aSegment )
{
bool merged_this = false;
for( ENDPOINT_T endpoint = ENDPOINT_START; endpoint <= ENDPOINT_END;
endpoint = ENDPOINT_T( endpoint + 1 ) )
{
@ -539,22 +534,34 @@ bool TRACKS_CLEANER::merge_collinear_of_track( TRACK* aSegment )
}
}
return merged_this;
}
// Delete null length segments, and intermediate points ..
bool TRACKS_CLEANER::clean_segments()
bool TRACKS_CLEANER::cleanupSegments()
{
bool modified = false;
// Easy things first
modified |= delete_null_segments();
modified |= deleteNullSegments();
buildTrackConnectionInfo();
std::set<BOARD_ITEM*> toRemove;
// Delete redundant segments, i.e. segments having the same end points and layers
// (can happens when blocks are copied on themselve)
for( TRACK* segment = m_brd->m_Track; segment; segment = segment->Next() )
modified |= remove_duplicates_of_track( segment );
for ( auto segment : m_brd->Tracks() )
removeDuplicatesOfTrack( segment, toRemove );
modified |= removeItems( toRemove );
modified = true;
if( modified )
buildTrackConnectionInfo();
// merge collinear segments:
TRACK* nextsegment;
@ -565,7 +572,7 @@ bool TRACKS_CLEANER::clean_segments()
if( segment->Type() == PCB_TRACE_T )
{
bool merged_this = merge_collinear_of_track( segment );
bool merged_this = MergeCollinearTracks( segment );
if( merged_this ) // The current segment was modified, retry to merge it again
{
@ -580,7 +587,7 @@ bool TRACKS_CLEANER::clean_segments()
/* Utility: check for parallelism between two segments */
static bool parallelism_test( int dx1, int dy1, int dx2, int dy2 )
static bool parallelismTest( int dx1, int dy1, int dx2, int dy2 )
{
/* The following condition list is ugly and repetitive, but I have
* not a better way to express clearly the trivial cases. Hope the
@ -607,7 +614,7 @@ static bool parallelism_test( int dx1, int dy1, int dx2, int dy2 )
}
/** Function used by clean_segments.
/** Function used by cleanupSegments.
* Test if aTrackRef and aCandidate (which must have a common end) are collinear.
* and see if the common point is not on a pad (i.e. if this common point can be removed).
* the ending point of aTrackRef is the start point (aEndType == START)
@ -619,6 +626,24 @@ static bool parallelism_test( int dx1, int dy1, int dx2, int dy2 )
* and return aCandidate (which can be deleted).
* else return NULL
*/
static void updateConn( TRACK *track, std::shared_ptr<CONNECTIVITY_DATA> connectivity )
{
for( auto pad : connectivity->GetConnectedPads( track ) )
{
if( pad->HitTest( track->GetStart() ) )
{
track->SetState( START_ON_PAD, true );
}
if( pad->HitTest( track->GetEnd() ) )
{
track->SetState( END_ON_PAD, true );
}
}
}
TRACK* TRACKS_CLEANER::mergeCollinearSegmentIfPossible( TRACK* aTrackRef, TRACK* aCandidate,
ENDPOINT_T aEndType )
{
@ -638,7 +663,7 @@ TRACK* TRACKS_CLEANER::mergeCollinearSegmentIfPossible( TRACK* aTrackRef, TRACK*
return aCandidate;
// Weed out non-parallel tracks
if ( !parallelism_test( aTrackRef->GetEnd().x - aTrackRef->GetStart().x,
if ( !parallelismTest( aTrackRef->GetEnd().x - aTrackRef->GetStart().x,
aTrackRef->GetEnd().y - aTrackRef->GetStart().y,
aCandidate->GetEnd().x - aCandidate->GetStart().x,
aCandidate->GetEnd().y - aCandidate->GetStart().y ) )
@ -649,6 +674,46 @@ TRACK* TRACKS_CLEANER::mergeCollinearSegmentIfPossible( TRACK* aTrackRef, TRACK*
* (this function) is called when there is only 2 connected segments,
* and if this point is not on a pad, it can be removed and the 2 segments will be merged
*/
auto connectivity=m_brd->GetConnectivity();
updateConn(aTrackRef, connectivity);
updateConn(aCandidate, connectivity);
#if 0
if (aTrackRef->GetNetCode() == 47)
{
auto pads = m_brd->GetConnectivity()->GetConnectedPads( aTrackRef );
printf("eps ref %d %d-%d %d pads-con %d eop %d sop %d\n",
aTrackRef->GetStart().x,
aTrackRef->GetStart().y,
aTrackRef->GetEnd().x,
aTrackRef->GetEnd().y,
pads.size(),
!!aTrackRef->GetState(END_ON_PAD),
!!aTrackRef->GetState(START_ON_PAD)
);
pads = m_brd->GetConnectivity()->GetConnectedPads( aCandidate );
printf("eps cand %d %d-%d %d pads-con %d eop %d sop %d\n",
aCandidate->GetStart().x,
aCandidate->GetStart().y,
aCandidate->GetEnd().x,
aCandidate->GetEnd().y,
pads.size(),
!!aCandidate->GetState(END_ON_PAD),
!!aCandidate->GetState(START_ON_PAD)
);
}
#endif
if( aEndType == ENDPOINT_START )
{
// We do not have a pad, which is a always terminal point for a track
@ -661,21 +726,23 @@ TRACK* TRACKS_CLEANER::mergeCollinearSegmentIfPossible( TRACK* aTrackRef, TRACK*
{
m_commit.Modify( aTrackRef );
aTrackRef->SetStart( aCandidate->GetEnd() );
aTrackRef->start = aCandidate->end;
aTrackRef->SetState( START_ON_PAD, aCandidate->GetState( END_ON_PAD ) );
connectivity->Update( aTrackRef );
return aCandidate;
}
else
{
m_commit.Modify( aTrackRef );
aTrackRef->SetStart( aCandidate->GetStart() );
aTrackRef->start = aCandidate->start;
aTrackRef->SetState( START_ON_PAD, aCandidate->GetState( START_ON_PAD ) );
connectivity->Update( aTrackRef );
return aCandidate;
}
}
else // aEndType == END
{
// We do not have a pad, which is a always terminal point for a track
if( aTrackRef->GetState( END_ON_PAD ) )
return NULL;
@ -686,16 +753,17 @@ TRACK* TRACKS_CLEANER::mergeCollinearSegmentIfPossible( TRACK* aTrackRef, TRACK*
{
m_commit.Modify( aTrackRef );
aTrackRef->SetEnd( aCandidate->GetEnd() );
aTrackRef->end = aCandidate->end;
aTrackRef->SetState( END_ON_PAD, aCandidate->GetState( END_ON_PAD ) );
connectivity->Update( aTrackRef );
return aCandidate;
}
else
{
m_commit.Modify( aTrackRef );
aTrackRef->SetEnd( aCandidate->GetStart() );
aTrackRef->end = aCandidate->start;
aTrackRef->SetState( END_ON_PAD, aCandidate->GetState( START_ON_PAD ) );
connectivity->Update( aTrackRef );
return aCandidate;
}
}

View File

@ -407,7 +407,7 @@ const
{
for( auto connected : citem->ConnectedItems() )
{
if( connected->Parent()->Type() == PCB_TRACE_T )
if( connected->Valid() && ( connected->Parent()->Type() == PCB_TRACE_T || connected->Parent()->Type() == PCB_VIA_T ) )
tracks.insert( static_cast<TRACK*> ( connected->Parent() ) );
}
}
@ -429,7 +429,7 @@ const
{
for( auto connected : citem->ConnectedItems() )
{
if( connected->Parent()->Type() == PCB_PAD_T )
if( connected->Valid() && connected->Parent()->Type() == PCB_PAD_T )
pads.insert( static_cast<D_PAD*> ( connected->Parent() ) );
}
}
@ -552,3 +552,29 @@ void CONNECTIVITY_DATA::GetUnconnectedEdges( std::vector<CN_EDGE>& aEdges) const
}
}
}
const std::vector<BOARD_CONNECTED_ITEM*> CONNECTIVITY_DATA::GetConnectedItems( const BOARD_CONNECTED_ITEM* aItem, const VECTOR2I& aAnchor, KICAD_T aTypes[] )
{
auto& entry = m_connAlgo->ItemEntry( aItem );
std::vector<BOARD_CONNECTED_ITEM* > rv;
for( auto cnItem : entry.GetItems() )
{
for( auto anchor : cnItem->Anchors() )
{
if ( anchor->Pos() == aAnchor )
{
for( int i = 0; aTypes[i] > 0; i++ )
{
if ( cnItem->Parent()->Type() == aTypes[i] )
{
rv.push_back( cnItem->Parent() );
break;
}
}
}
}
}
return rv;
}

View File

@ -168,6 +168,8 @@ public:
const std::vector<D_PAD*> GetConnectedPads( const BOARD_CONNECTED_ITEM* aItem ) const;
const std::vector<BOARD_CONNECTED_ITEM*> GetConnectedItems( const BOARD_CONNECTED_ITEM* aItem, const VECTOR2I& aAnchor, KICAD_T aTypes[] );
void GetUnconnectedEdges( std::vector<CN_EDGE>& aEdges ) const;
/**

View File

@ -929,5 +929,14 @@ void CN_CONNECTIVITY_ALGO::ForEachAnchor( std::function<void(CN_ANCHOR_PTR)> aF
bool CN_ANCHOR::IsDangling() const
{
return m_cluster->Size() <= 1;
if( !m_cluster )
return true;
int validCount = 0;
for( auto item : *m_cluster )
if ( item->Valid() )
validCount++;
return validCount <= 1;
}