/*************************************************************/ /******************* editeur de PCB **************************/ /* traitement du Chevelu: routines de calcul des connexions */ /*************************************************************/ #include "fctsys.h" #include "gr_basic.h" #include "common.h" #include "pcbnew.h" #include "autorout.h" #include "protos.h" /* variables locales */ /* Routines locales */ static void propage_equipot( TRACK* pt_start_conn, TRACK* pt_end_conn ); static void calcule_connexite_1_net( TRACK* pt_start_conn, TRACK* pt_end_conn ); static void RebuildTrackChain( BOARD* pcb ); static int Sort_By_NetCode( TRACK** pt_ref, TRACK** pt_compare ); /*..*/ /*****************************************************************/ static int change_equipot( TRACK* pt_start_conn, TRACK* pt_end_conn, int old_val, int new_val ) /*****************************************************************/ /* * Change les num locaux d'equipot old valeur en new valeur * retourne le nombre de changements * si pt_end_conn = NULL: recherche jusqu'a fin de chaine */ { TRACK* pt_conn; int nb_change = 0; D_PAD* pt_pad; if( old_val == new_val ) return 0; if( (old_val > 0) && (old_val < new_val) ) EXCHG( old_val, new_val ); pt_conn = pt_start_conn; for( ; pt_conn != NULL; pt_conn = (TRACK*) pt_conn->Pnext ) { if( pt_conn->GetSubNet() != old_val ) { if( pt_conn == pt_end_conn ) break; continue; } nb_change++; pt_conn->SetSubNet( new_val ); if( pt_conn->start && ( pt_conn->start->Type() == TYPEPAD) ) { pt_pad = (D_PAD*) (pt_conn->start); if( pt_pad->m_physical_connexion == old_val ) pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } if( pt_conn->end && (pt_conn->end->Type() == TYPEPAD) ) { pt_pad = (D_PAD*) (pt_conn->end); if( pt_pad->m_physical_connexion == old_val ) pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } if( pt_conn == pt_end_conn ) break; } return nb_change; } /******************************************************************/ static void propage_equipot( TRACK* pt_start_conn, TRACK* pt_end_conn ) /******************************************************************/ /* balaye la liste des SEGMENTS de PISTE * - debut = pt_start_conn * - fin = pt_end_conn (pointe le dernier segment a analyser) * pour attribuer ou propager un numero d'equipotentielle par * blocs de connexions existantes * la zone balayee est supposee appartenir au meme net, c'est a dire que * les segments de pistes sont tries par net_code */ { TRACK* pt_conn; int sous_net_code; D_PAD* pt_pad; TRACK* pt_autre_piste; BOARD_ITEM* PtStruct; /* Clear variables used in computations */ pt_conn = pt_start_conn; for( ; pt_conn != NULL; pt_conn = (TRACK*) pt_conn->Pnext ) { pt_conn->SetSubNet( 0 ); PtStruct = pt_conn->start; if( PtStruct && (PtStruct->Type() == TYPEPAD) ) ( (D_PAD*) PtStruct )->m_physical_connexion = 0; PtStruct = pt_conn->end; if( PtStruct && (PtStruct->Type() == TYPEPAD) ) ( (D_PAD*) PtStruct )->m_physical_connexion = 0; if( pt_conn == pt_end_conn ) break; } sous_net_code = 1; pt_start_conn->SetSubNet( sous_net_code ); /* debut du calcul de propagation */ pt_conn = pt_start_conn; for( ; pt_conn != NULL; pt_conn = (TRACK*) pt_conn->Pnext ) { /* Traitement des connexions a pads */ PtStruct = pt_conn->start; /* la connexion debute sur 1 pad */ if( PtStruct && (PtStruct->Type() == TYPEPAD) ) { pt_pad = (D_PAD*) PtStruct; if( pt_conn->GetSubNet() ) /* la connexion fait deja partie d'une chaine */ { if( pt_pad->m_physical_connexion > 0 ) /* le pad fait aussi partie d'une chaine */ { change_equipot( pt_start_conn, pt_end_conn, pt_pad->m_physical_connexion, pt_conn->GetSubNet() ); } else pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } else /* la connexion ne fait pas partie encore d'une chaine */ { if( pt_pad->m_physical_connexion > 0 ) { pt_conn->SetSubNet( pt_pad->m_physical_connexion ); } else { sous_net_code++; pt_conn->SetSubNet( sous_net_code ); pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } } } PtStruct = pt_conn->end; if( PtStruct && (PtStruct->Type() == TYPEPAD) ) /* la connexion finit sur 1 pad */ { pt_pad = (D_PAD*) PtStruct; if( pt_conn->GetSubNet() ) { if( pt_pad->m_physical_connexion > 0 ) { change_equipot( pt_start_conn, pt_end_conn, pt_pad->m_physical_connexion, pt_conn->GetSubNet() ); } else pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } else { if( pt_pad->m_physical_connexion > 0 ) { pt_conn->SetSubNet( pt_pad->m_physical_connexion ); } else { sous_net_code++; pt_conn->SetSubNet( sous_net_code ); pt_pad->m_physical_connexion = pt_conn->GetSubNet(); } } } /* traitement des connexions entre segments */ PtStruct = pt_conn->start; if( PtStruct && (PtStruct->Type() != TYPEPAD) ) { /* debut sur une autre piste */ pt_autre_piste = (TRACK*) PtStruct; if( pt_conn->GetSubNet() ) /* La connexion fait deja partie d'un block */ { if( pt_autre_piste->GetSubNet() ) { change_equipot( pt_start_conn, pt_end_conn, pt_autre_piste->GetSubNet(), pt_conn->GetSubNet() ); } else { pt_autre_piste->SetSubNet( pt_conn->GetSubNet() ); } } else /* La connexion ne fait partie d'aucun block */ { if( pt_autre_piste->GetSubNet() ) { pt_conn->SetSubNet( pt_autre_piste->GetSubNet() ); } else { sous_net_code++; pt_conn->SetSubNet( sous_net_code ); pt_autre_piste->SetSubNet( pt_conn->GetSubNet() ); } } } PtStruct = pt_conn->end; if( PtStruct && (PtStruct->Type() != TYPEPAD) ) { /* fin connectee a une autre piste */ pt_autre_piste = (TRACK*) PtStruct; if( pt_conn->GetSubNet() ) /* La connexion fait deja partie d'un block */ { if( pt_autre_piste->GetSubNet() ) { change_equipot( pt_start_conn, pt_end_conn, pt_autre_piste->GetSubNet(), pt_conn->GetSubNet() ); } else pt_autre_piste->SetSubNet( pt_conn->GetSubNet() ); } else /* La connexion ne fait partie d'aucun block */ { if( pt_autre_piste->GetSubNet() ) { pt_conn->SetSubNet( pt_autre_piste->GetSubNet() ); } else { sous_net_code++; pt_conn->SetSubNet( sous_net_code ); pt_autre_piste->SetSubNet( pt_conn->GetSubNet() ); } } } if( pt_conn == pt_end_conn ) break; } } /***************************************************/ void WinEDA_BasePcbFrame::test_connexions( wxDC* DC ) /***************************************************/ /* * Routine recherchant les connexions deja faites et mettant a jour * le status du chevelu ( Bit CH_ACTIF mis a 0 si connexion trouvee * Les pistes sont supposees etre triees par ordre de net_code croissant */ { TRACK* pt_start_conn, * pt_end_conn; int ii; LISTE_PAD* pt_pad; int current_net_code; /* Etablissement des equipotentielles vraies */ pt_pad = m_Pcb->m_Pads; for( ii = 0; ii < m_Pcb->m_NbPads; ii++, pt_pad++ ) { (*pt_pad)->m_physical_connexion = 0; } //////////////////////////// // Calcul de la connexite // //////////////////////////// /* Les pointeurs .start et .end sont mis a jour, si la * connexion est du type segment a segment */ pt_start_conn = m_Pcb->m_Track; while( pt_start_conn != NULL ) { current_net_code = pt_start_conn->GetNet(); pt_end_conn = pt_start_conn->GetEndNetCode( current_net_code ); /* Calcul des connexions type segment du net courant */ calcule_connexite_1_net( pt_start_conn, pt_end_conn ); pt_start_conn = (TRACK*) pt_end_conn->Pnext; } return; } /*************************************************************************/ void WinEDA_BasePcbFrame::test_1_net_connexion( wxDC* DC, int net_code ) /*************************************************************************/ /* * Routine recherchant les connexions deja faites relatives a 1 net */ { TRACK* pt_start_conn, * pt_end_conn; int ii, nb_net_noconnect = 0; LISTE_PAD* pt_pad; wxString msg; if( net_code == 0 ) return; if( (m_Pcb->m_Status_Pcb & LISTE_CHEVELU_OK) == 0 ) Compile_Ratsnest( DC, TRUE ); pt_pad = (LISTE_PAD*) m_Pcb->m_Pads; for( ii = 0; ii < m_Pcb->m_NbPads; ii++, pt_pad++ ) { int pad_net_code = (*pt_pad)->GetNet(); if( pad_net_code < net_code ) continue; if( pad_net_code > net_code ) break; (*pt_pad)->m_physical_connexion = 0; } /* Determination des limites du net */ if( m_Pcb->m_Track ) { pt_end_conn = NULL; pt_start_conn = m_Pcb->m_Track->GetStartNetCode( net_code ); if( pt_start_conn ) pt_end_conn = pt_start_conn->GetEndNetCode( net_code ); if( pt_start_conn && pt_end_conn ) // c.a.d. s'il y a des segments { calcule_connexite_1_net( pt_start_conn, pt_end_conn ); } } /* Test des chevelus */ nb_net_noconnect = Test_1_Net_Ratsnest( DC, net_code ); /* Affichage des resultats */ msg.Printf( wxT( "links %d nc %d net:nc %d" ), m_Pcb->m_NbLinks, m_Pcb->GetNumNoconnect(), nb_net_noconnect ); Affiche_Message( msg ); return; } /***************************************************************************/ static void calcule_connexite_1_net( TRACK* pt_start_conn, TRACK* pt_end_conn ) /***************************************************************************/ /** Used after a track change (delete a track ou add a track) * Compute connections (initialize the .start and .end members) for a single net. * tracks must be sorted by net, as usual * @param pt_start_conn = first segment of the net * @param pt_end_conn = last segment of the net * Connections to pads are assumed to be already initialized. * If a track is deleted, the other pointers to pads do not change. * When a track is added, its pointers to pads are already initialized */ { TRACK* Track; /* Reset the old connections type track to track */ for( Track = pt_start_conn; Track != NULL; Track = (TRACK*) Track->Pnext ) { Track->SetSubNet( 0 ); if( Track->GetState( BEGIN_ONPAD ) == 0 ) Track->start = NULL; if( Track->GetState( END_ONPAD ) == 0 ) Track->end = NULL; if( Track == pt_end_conn ) break; } /* Update connections type track to track */ for( Track = pt_start_conn; Track != NULL; Track = (TRACK*) Track->Pnext ) { if( Track->Type() == TYPEVIA ) // A via can connect many tracks, we must search for all track segments in this net { TRACK* pt_segm; int layermask = Track->ReturnMaskLayer(); for( pt_segm = pt_start_conn; pt_segm != NULL; pt_segm = (TRACK*) pt_segm->Pnext ) { int curlayermask = pt_segm->ReturnMaskLayer(); if( !pt_segm->start && (pt_segm->m_Start == Track->m_Start) && ( layermask & curlayermask ) ) { pt_segm->start = Track; } if( !pt_segm->end && (pt_segm->m_End == Track->m_Start) && (layermask & curlayermask) ) { pt_segm->end = Track; } if( pt_segm == pt_end_conn ) break; } } if( Track->start == NULL ) // end track not already connected, search a connection { Track->start = Locate_Piste_Connectee( Track, Track, pt_end_conn, START ); } if( Track->end == NULL ) // end track not already connected, search a connection { Track->end = Locate_Piste_Connectee( Track, Track, pt_end_conn, END ); } if( Track == pt_end_conn ) break; } /* Generation des sous equipots du net */ propage_equipot( pt_start_conn, pt_end_conn ); } #define POS_AFF_CHREF 62 /******************************************************************************/ static D_PAD* SuperFast_Locate_Pad_Connecte( BOARD* pcb, LISTE_PAD* pt_liste, int px, int py, int masque_layer ) /******************************************************************************/ /* recherche le pad connecte a l'extremite de la piste de coord px, py * parametres d'appel: * px, py = coord du point tst * masque_layer = couche(s) de connexion * pt_liste = adresse de la liste des pointeurs de pads, tels que * apparaissant apres build_liste_pad, mais classee par position X * de pads croissantes. * retourne : pointeur sur le pad connecte * la routine travaille par dichotomie sur la liste des pads tries par pos X * croissante, elle est donc beaucoup plus rapide que Fast_Locate_Pad_connecte, * mais implique le calcul de cette liste. * * (la liste placee en m_Pcb->m_Pads et elle triee par netcodes croissants) */ { D_PAD* pad; LISTE_PAD* ptr_pad, * lim; int nb_pad = pcb->m_NbPads; int ii; lim = pt_liste + (pcb->m_NbPads - 1 ); ptr_pad = pt_liste; while( nb_pad ) { pad = *ptr_pad; ii = nb_pad; nb_pad >>= 1; if( (ii & 1) && ( ii > 1 ) ) nb_pad++; if( pad->m_Pos.x < px ) /* on doit chercher plus loin */ { ptr_pad += nb_pad; if( ptr_pad > lim ) ptr_pad = lim; continue; } if( pad->m_Pos.x > px ) /* on doit chercher moins loin */ { ptr_pad -= nb_pad; if( ptr_pad < pt_liste ) ptr_pad = pt_liste; continue; } if( pad->m_Pos.x == px ) /* zone de classement trouvee */ { /* recherche du debut de la zone */ while( ptr_pad >= pt_liste ) { pad = *ptr_pad; if( pad->m_Pos.x == px ) ptr_pad--; else break; } ptr_pad++; /* pointe depart de zone a pad->m_Pos.x = px */ for( ; ; ptr_pad++ ) { if( ptr_pad > lim ) return NULL; /* hors zone */ pad = *ptr_pad; if( pad->m_Pos.x != px ) return NULL; /* hors zone */ if( pad->m_Pos.y != py ) continue; /* Pad peut-etre trouve ici: il doit etre sur la bonne couche */ if( pad->m_Masque_Layer & masque_layer ) return pad; } } } return NULL; } static int SortPadsByXCoord( const void* pt_ref, const void* pt_comp ) /* used to Sort a pad list by x coordinate value */ { D_PAD* ref = *(LISTE_PAD*) pt_ref; D_PAD* comp = *(LISTE_PAD*) pt_comp; return ref->m_Pos.x - comp->m_Pos.x; } /****************************************************/ LISTE_PAD* CreateSortedPadListByXCoord( BOARD* pcb ) /****************************************************/ /* Create a sorted list of pointers to pads. * This list is sorted by X ccordinate value. * The list must be freed by user */ { LISTE_PAD* pad_list = (LISTE_PAD*) MyMalloc( pcb->m_NbPads * sizeof(D_PAD*) ); memcpy( pad_list, pcb->m_Pads, pcb->m_NbPads * sizeof( D_PAD*) ); qsort( pad_list, pcb->m_NbPads, sizeof( D_PAD*), SortPadsByXCoord ); return pad_list; } /********************************************************************/ void WinEDA_BasePcbFrame::reattribution_reference_piste( int affiche ) /********************************************************************/ /* search connections between tracks and pads, and propagate pad net codes to the track segments * This is a 2 pass computation. * The pad netcodes are assumed to be initialized. * First: * We search a connection between a track segment and a pad: if found : this segment netcode is set to the pad netcode */ { TRACK* pt_piste, * pt_next; int a_color; char new_passe_request = 1, flag; LISTE_PAD* pt_mem; BOARD_ITEM* PtStruct; int masque_layer; wxString msg; if( m_Pcb->m_NbPads == 0 ) return; a_color = CYAN; if( affiche ) Affiche_1_Parametre( this, POS_AFF_CHREF, wxT( "DataBase" ), wxT( "Netcodes" ), a_color ); recalcule_pad_net_code(); if( affiche ) Affiche_1_Parametre( this, -1, wxEmptyString, wxT( "Gen Pads " ), a_color ); /**************************************************************/ /* Pass 1: search the connections between track ends and pads */ /**************************************************************/ pt_mem = CreateSortedPadListByXCoord( m_Pcb ); if( affiche ) Affiche_1_Parametre( this, -1, wxEmptyString, wxT( "Conn Pads" ), a_color ); /* Reset variables and flags used in computation */ pt_piste = m_Pcb->m_Track; for( ; pt_piste != NULL; pt_piste = (TRACK*) pt_piste->Pnext ) { pt_piste->SetState( BUSY | EDIT | BEGIN_ONPAD | END_ONPAD, OFF ); pt_piste->SetNet( 0 ); // net code = 0 means not connected } /* First pass: search connection between a track segment and a pad. * if found, set the track net code to the pad netcode */ pt_piste = m_Pcb->m_Track; for( ; pt_piste != NULL; pt_piste = (TRACK*) pt_piste->Pnext ) { flag = 0; masque_layer = g_TabOneLayerMask[pt_piste->GetLayer()]; /* Search for a pad on the segment starting point */ pt_piste->start = SuperFast_Locate_Pad_Connecte( m_Pcb, pt_mem, pt_piste->m_Start.x, pt_piste->m_Start.y, masque_layer ); if( pt_piste->start != NULL ) { pt_piste->SetState( BEGIN_ONPAD, ON ); pt_piste->SetNet( ( (D_PAD*) (pt_piste->start) )->GetNet() ); } /* Search for a pad on the segment ending point */ pt_piste->end = SuperFast_Locate_Pad_Connecte( m_Pcb, pt_mem, pt_piste->m_End.x, pt_piste->m_End.y, masque_layer ); if( pt_piste->end != NULL ) { pt_piste->SetState( END_ONPAD, ON ); pt_piste->SetNet( ( (D_PAD*) (pt_piste->end) )->GetNet() ); } } MyFree( pt_mem ); /*****************************************************/ /* Pass 2: search the connections between track ends */ /*****************************************************/ /* the .start et .end member pointers are updated, only if NULLs * (if not nuls, the end is already connected to a pad). * the connection (if found) is between segments * when a track has a net code and the other has a null net code, the null net code is changed */ if( affiche ) Affiche_1_Parametre( this, POS_AFF_CHREF, wxEmptyString, wxT( "Conn Segm" ), a_color ); for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() ) { if( pt_piste->start == NULL ) { pt_piste->start = Locate_Piste_Connectee( pt_piste, m_Pcb->m_Track, NULL, START ); } if( pt_piste->end == NULL ) { pt_piste->end = Locate_Piste_Connectee( pt_piste, m_Pcb->m_Track, NULL, END ); } } /**********************************************************/ /* Propagate net codes from a segment to an other segment */ /**********************************************************/ a_color = YELLOW; while( new_passe_request ) { bool reset_flag = FALSE; new_passe_request = 0; if( affiche ) { msg.Printf( wxT( "Net->Segm pass %d " ), new_passe_request + 1 ); Affiche_1_Parametre( this, POS_AFF_CHREF, wxEmptyString, msg, a_color ); } /* look for vias which could be connect many tracks */ for( TRACK* via = m_Pcb->m_Track; via != NULL; via = via->Next() ) { if( via->Type() != TYPEVIA ) continue; if( via->GetNet() > 0 ) continue; // Netcode already known // Lock for a connection to a track with a known netcode pt_next = m_Pcb->m_Track; while( ( pt_next = Locate_Piste_Connectee( via, pt_next, NULL, START ) ) != NULL ) { if( pt_next->GetNet() ) { via->SetNet( pt_next->GetNet() ); break; } pt_next->SetState( BUSY, ON ); reset_flag = TRUE; } } if( reset_flag ) for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() ) { pt_piste->SetState( BUSY, OFF ); } /* set the netcode of connected tracks: if at track is connected to a pad, its net code is already set. * if the current track is connected to an other track: * if a track has a net code, it is used for the other track. * Thus there is a propagation of the netcode from a track to an other. * if none of the 2 track has a net code we do nothing * the iteration is stopped when no new change occurs */ for( pt_piste = m_Pcb->m_Track; pt_piste != NULL; pt_piste = pt_piste->Next() ) { /* look for the connection to the current segment starting point */ PtStruct = (BOARD_ITEM*) pt_piste->start; if( PtStruct && (PtStruct->Type() != TYPEPAD) ) { // Begin on an other track segment pt_next = (TRACK*) PtStruct; if( pt_piste->GetNet() ) { if( pt_next->GetNet() == 0 ) // the current track has a netcode, we use it for the other track { new_passe_request = 1; // A change is made: a new iteration is requested. pt_next->SetNet( pt_piste->GetNet() ); } } else { if( pt_next->GetNet() != 0 ) // the other track has a netcode, we use it for the current track { pt_piste->SetNet( pt_next->GetNet() ); new_passe_request = 1; } } } /* look for the connection to the current segment ending point */ PtStruct = pt_piste->end; if( PtStruct &&(PtStruct->Type() != TYPEPAD) ) { pt_next = (TRACK*) PtStruct; // End on an other track: propagate netcode if possible if( pt_piste->GetNet() ) { if( pt_next->GetNet() == 0 ) { new_passe_request = 1; pt_next->SetNet( pt_piste->GetNet() ); } } else { if( pt_next->GetNet() != 0 ) { pt_piste->SetNet( pt_next->GetNet() ); new_passe_request = 1; } } } } } /* Sort the track list by net codes: */ if( affiche ) Affiche_1_Parametre( this, -1, wxEmptyString, wxT( "Reorder " ), a_color ); RebuildTrackChain( m_Pcb ); if( affiche ) Affiche_1_Parametre( this, -1, wxEmptyString, wxT( " " ), a_color ); } /* * routine de tri de connexion utilisee par la fonction QSORT * le tri est fait par numero de net */ int Sort_By_NetCode( TRACK** pt_ref, TRACK** pt_compare ) { int ii; ii = (*pt_ref)->GetNet() - (*pt_compare)->GetNet(); return ii; } /*****************************************/ static void RebuildTrackChain( BOARD* pcb ) /*****************************************/ /* Recalcule le chainage des pistes pour que le chainage soit fait par * netcodes croissants */ { TRACK* Track, ** Liste; int ii, nbsegm; /* Count segments */ nbsegm = pcb->GetNumSegmTrack(); if( pcb->m_Track == NULL ) return; Liste = (TRACK**) MyZMalloc( (nbsegm + 1) * sizeof(TRACK*) ); ii = 0; Track = pcb->m_Track; for( ; Track != NULL; ii++, Track = (TRACK*) Track->Pnext ) { Liste[ii] = Track; } qsort( Liste, nbsegm, sizeof(TRACK*), ( int( * ) ( const void*, const void* ) )Sort_By_NetCode ); /* Update the linked list pointers */ Track = Liste[0]; Track->Pback = pcb; Track->Pnext = Liste[1]; pcb->m_Track = Track; for( ii = 1; ii < nbsegm; ii++ ) { Track = Liste[ii]; Track->Pback = Liste[ii - 1]; Track->Pnext = Liste[ii + 1]; } MyFree( Liste ); }