/******************/ /* Trace editing. */ /******************/ #include "fctsys.h" #include "common.h" #include "pcbnew.h" #include "wxPcbStruct.h" #include "protos.h" static void ListSetState( EDA_ITEM* Start, int NbItem, int State, int onoff ); extern int ReturnEndsTrack( TRACK* RefTrack, int NbSegm, TRACK** StartTrack, TRACK** EndTrack ); /** * Function EraseRedundantTrack * Called after creating a track * Remove (if exists) the old track that have the same starting and the same * ending point as the new created track (this is the redunding track) * @param aDC = the current device context (can be NULL) * @param aNewTrack = the new created track (a pointer to a segment of the * track list) * @param aNewTrackSegmentsCount = number of segments in this new track * @param aItemsListPicker = the list picker to use for an undo command (can * be NULL) */ int PCB_EDIT_FRAME::EraseRedundantTrack( wxDC* aDC, TRACK* aNewTrack, int aNewTrackSegmentsCount, PICKED_ITEMS_LIST* aItemsListPicker ) { TRACK* StartTrack, * EndTrack; TRACK* pt_segm; TRACK* pt_del; int ii, jj, nb_segm, nbconnect; wxPoint start; wxPoint end; int startmasklayer, endmasklayer; TRACK* BufDeb, * BufEnd; int netcode = aNewTrack->GetNet(); /* Reconstruct the complete track (the new track has to start on a * segment of track). */ ListSetState( aNewTrack, aNewTrackSegmentsCount, BUSY, OFF ); /* If the new track begins with a via, complete the track segment using * the following segment as a reference because a via is often a hub of * segments, and does not characterize track. */ if( aNewTrack->Type() == TYPE_VIA && ( aNewTrackSegmentsCount > 1 ) ) aNewTrack = aNewTrack->Next(); aNewTrack = Marque_Une_Piste( GetBoard(), aNewTrack, &aNewTrackSegmentsCount, NULL, true ); wxASSERT( aNewTrack ); #if 0 && defined(DEBUG) TRACK* EndNewTrack; /* The last segment of the list chained to * the track */ EndNewTrack = aNewTrack; for( ii = 1; ii < aNewTrackSegmentsCount; ii++ ) { wxASSERT( EndNewTrack->GetState( -1 ) != 0 ); D( printf( "track %p is newly part of net %d\n", EndNewTrack, netcode ); ) EndNewTrack = EndNewTrack->Next(); } wxASSERT( EndNewTrack->GetState( -1 ) != 0 ); D( printf( "track %p is newly part of net %d\n", EndNewTrack, netcode ); ) for( TRACK* track = m_Pcb->m_Track; track; track = track->Next() ) track->Show( 0, std::cout ); #endif /* Calculate search in terms of segments of track, 1st edge BufDeb useful * segment. */ BufDeb = m_Pcb->m_Track->GetStartNetCode( netcode ); /* Point BufEnd the last segment. */ BufEnd = BufDeb->GetEndNetCode( netcode ); /* Flags for cleaning the net. */ for( pt_del = BufDeb; pt_del; pt_del = pt_del->Next() ) { //D( printf( "track %p turning off BUSY | IN_EDIT | IS_LINKED\n", pt_del ); ) D( std::cout<<"track "<SetState( BUSY | IN_EDIT | IS_LINKED, OFF ); if( pt_del == BufEnd ) // Last segment reached break; } if( ReturnEndsTrack( aNewTrack, aNewTrackSegmentsCount, &StartTrack, &EndTrack ) == 0 ) return 0; if( ( StartTrack == NULL ) || ( EndTrack == NULL ) ) return 0; start = StartTrack->m_Start; end = EndTrack->m_End; /* The start and end points cannot be the same. */ if( start == end ) return 0; /* Determine layers interconnected these points. */ startmasklayer = StartTrack->ReturnMaskLayer(); endmasklayer = EndTrack->ReturnMaskLayer(); /* There may be a via or a pad on the end points. */ pt_segm = Fast_Locate_Via( m_Pcb->m_Track, NULL, start, startmasklayer ); if( pt_segm ) startmasklayer |= pt_segm->ReturnMaskLayer(); if( StartTrack->start && ( StartTrack->start->Type() == TYPE_PAD ) ) { /* Start on pad. */ D_PAD* pt_pad = (D_PAD*)(StartTrack->start); startmasklayer |= pt_pad->m_Masque_Layer; } pt_segm = Fast_Locate_Via( m_Pcb->m_Track, NULL, end, endmasklayer ); if( pt_segm ) endmasklayer |= pt_segm->ReturnMaskLayer(); if( EndTrack->end && ( EndTrack->end->Type() == TYPE_PAD ) ) { D_PAD* pt_pad = (D_PAD*)(EndTrack->end); endmasklayer |= pt_pad->m_Masque_Layer; } /* Mark as deleted a new track (which is not involved in the search for * other connections) */ ListSetState( aNewTrack, aNewTrackSegmentsCount, IS_DELETED, ON ); /* A segment must be connected to the starting point, otherwise * it is unnecessary to analyze the other point */ pt_segm = Fast_Locate_Piste( BufDeb, BufEnd, start, startmasklayer ); if( pt_segm == NULL ) /* Not connected to the track starting point. */ { /* Clear the delete flag. */ ListSetState( aNewTrack, aNewTrackSegmentsCount, IS_DELETED, OFF ); return 0; } /* Marking a list of candidate segmented connect to endpoint * Note: the vias are not taken into account because they do * not define a track, since they are on an intersection. */ for( pt_del = BufDeb, nbconnect = 0; ; ) { pt_segm = Fast_Locate_Piste( pt_del, BufEnd, end, endmasklayer ); if( pt_segm == NULL ) break; if( pt_segm->Type() != TYPE_VIA ) { if( pt_segm->GetState( IS_LINKED ) == 0 ) { pt_segm->SetState( IS_LINKED, ON ); nbconnect++; } } if( pt_del == BufEnd ) break; pt_del = pt_segm->Next(); } if( nbconnect == 0 ) { /* Clear used flags */ for( pt_del = BufDeb; pt_del; pt_del = pt_del->Next() ) { pt_del->SetState( BUSY | IS_DELETED | IN_EDIT | IS_LINKED, OFF ); if( pt_del == BufEnd ) // Last segment reached break; } return 0; } /* Mark trace as edited (which does not involve searching for other * tracks) */ ListSetState( aNewTrack, aNewTrackSegmentsCount, IS_DELETED, OFF ); ListSetState( aNewTrack, aNewTrackSegmentsCount, IN_EDIT, ON ); /* Test all marked segments. */ while( nbconnect ) { for( pt_del = BufDeb; pt_del; pt_del = pt_del->Next() ) { if( pt_del->GetState( IS_LINKED ) ) break; if( pt_del == BufEnd ) // Last segment reached break; } nbconnect--; pt_del->SetState( IS_LINKED, OFF ); pt_del = Marque_Une_Piste( GetBoard(), pt_del, &nb_segm, NULL, true ); /* Test if the marked track is redundant, ie if one of marked segments * is connected to the starting point of the new track. */ ii = 0; pt_segm = pt_del; for( ; pt_segm && (ii < nb_segm); pt_segm = pt_segm->Next(), ii++ ) { if( pt_segm->GetState( BUSY ) == 0 ) break; if( pt_segm->m_Start == start || pt_segm->m_End == start ) { /* Marked track can be erased. */ TRACK* NextS; Trace_Une_Piste( DrawPanel, aDC, pt_del, nb_segm, GR_XOR | GR_SURBRILL ); for( jj = 0; jj < nb_segm; jj++, pt_del = NextS ) { NextS = pt_del->Next(); if( aItemsListPicker ) { pt_del->UnLink(); pt_del->SetStatus( 0 ); pt_del->m_Flags = 0; ITEM_PICKER picker( pt_del, UR_DELETED ); aItemsListPicker->PushItem( picker ); } else pt_del->DeleteStructure(); } /* Clean up flags. */ for( pt_del = m_Pcb->m_Track; pt_del != NULL; pt_del = pt_del->Next() ) { if( pt_del->GetState( IN_EDIT ) ) { pt_del->SetState( IN_EDIT, OFF ); if( aDC ) pt_del->Draw( DrawPanel, aDC, GR_OR ); } pt_del->SetState( IN_EDIT | IS_LINKED, OFF ); } return 1; } } /* Clear BUSY flag here because the track did not get marked. */ ListSetState( pt_del, nb_segm, BUSY, OFF ); } /* Clear used flags */ for( pt_del = m_Pcb->m_Track; pt_del; pt_del = pt_del->Next() ) { pt_del->SetState( BUSY | IS_DELETED | IN_EDIT | IS_LINKED, OFF ); if( pt_del == BufEnd ) // Last segment reached break; } return 0; } /* Set the bits of .m_State member to onoff value, using bit mask State * of a list of EDA_ITEM */ static void ListSetState( EDA_ITEM* Start, int NbItem, int State, int onoff ) { if( Start == NULL ) return; for( ; (Start != NULL ) && ( NbItem > 0 ); NbItem--, Start = Start->Next() ) { Start->SetState( State, onoff ); } }