/*********************************************/ /* Edition des pistes: Routines d'effacement */ /* Effacement de segment, piste, net et zone */ /*********************************************/ #include "fctsys.h" #include "common.h" #include "pcbnew.h" #include "protos.h" class TSTSEGM /* memorisation des segments marques */ { public: TSTSEGM *Pnext, *Pback; TRACK * RefTrack; public: TSTSEGM(TRACK * Father) { Pback = Pnext = NULL; RefTrack = Father; } }; /* Routines externes : */ void Montre_Position_New_Piste(int flag); /* defini dans editrack.cc */ /* Routines Locales */ static void Marque_Chaine_segments(BOARD * Pcb, wxPoint ref_pos, int masklayer); /* Variables locales */ TSTSEGM * ListSegm = NULL; /****************************************************************************/ TRACK * Marque_Une_Piste(WinEDA_BasePcbFrame * frame, wxDC * DC, TRACK* pt_segm, int * nb_segm, int flagcolor) /****************************************************************************/ /* Routine de Marquage de 1 piste, a partir du segment pointe par pt_segm. le segment pointe est marque puis les segments connectes jusqu'a un pad ou un point de jonction de plus de 2 segments le marquage est la mise a 1 du bit BUSY Les segments sont ensuite reclasses pour etre contigus en liste chainee Retourne: adresse du 1er segment de la chaine creee nombre de segments */ { int NbSegmBusy, masque_layer; TRACK *Track, *FirstTrack, *NextTrack; TSTSEGM * Segm, * NextSegm; *nb_segm = 0; if (pt_segm == NULL ) return(NULL) ; /* Marquage du segment pointe */ if(flagcolor) pt_segm->Draw(frame->DrawPanel, DC, flagcolor); pt_segm->SetState(BUSY,ON); masque_layer = pt_segm->ReturnMaskLayer(); ListSegm = new TSTSEGM(pt_segm); /* Traitement du segment pointe : si c'est un segment, le cas est simple. Si c'est une via, on doit examiner le nombre de segments connectes. Si <=2, on doit detecter une piste, si > 2 seule la via est marquee */ if( pt_segm->m_StructType == TYPEVIA) { TRACK * Segm1, *Segm2 = NULL, *Segm3 =NULL; Segm1 = Fast_Locate_Piste(frame->m_Pcb->m_Track,NULL, pt_segm->m_Start, masque_layer); if(Segm1) { Segm2 = Fast_Locate_Piste((TRACK*)Segm1->Pnext,NULL, pt_segm->m_Start, masque_layer); } if( Segm2 ) { Segm3 = Fast_Locate_Piste((TRACK*)Segm2->Pnext,NULL, pt_segm->m_Start, masque_layer); } if(Segm3) { *nb_segm = 1; return (pt_segm); } if(Segm1) { masque_layer = Segm1->ReturnMaskLayer(); Marque_Chaine_segments(frame->m_Pcb, pt_segm->m_Start, masque_layer); } if(Segm2) { masque_layer = Segm2->ReturnMaskLayer(); Marque_Chaine_segments(frame->m_Pcb, pt_segm->m_Start, masque_layer); } } else /* Marquage de la chaine connectee aux extremites du segment */ { Marque_Chaine_segments(frame->m_Pcb, pt_segm->m_Start, masque_layer); Marque_Chaine_segments(frame->m_Pcb, pt_segm->m_End, masque_layer); } /* marquage des vias (vias non connectees ou inutiles */ for( Segm = ListSegm; Segm != NULL; Segm = Segm->Pnext ) { int layer; if( Segm->RefTrack->m_StructType != TYPEVIA ) continue; if( Segm->RefTrack == pt_segm ) continue; Segm->RefTrack->SetState(BUSY,ON); masque_layer = Segm->RefTrack->ReturnMaskLayer(); Track = Fast_Locate_Piste(frame->m_Pcb->m_Track,NULL, Segm->RefTrack->m_Start, masque_layer); if( Track == NULL ) continue; /* Test des connexions: si via utile: suppression marquage */ layer = Track->m_Layer; while ( (Track = Fast_Locate_Piste((TRACK*)Track->Pnext,NULL, Segm->RefTrack->m_Start, masque_layer)) != NULL ) { if( layer != Track->m_Layer ) { Segm->RefTrack->SetState(BUSY,OFF); break; } } } /* liberation memoire */ for( Segm = ListSegm; Segm != NULL; Segm = NextSegm ) { NextSegm = Segm->Pnext; delete Segm; } ListSegm = NULL; /* Reclassement des segments marques en une chaine */ FirstTrack = frame->m_Pcb->m_Track; NbSegmBusy = 0; for ( ; FirstTrack != NULL; FirstTrack = (TRACK*)FirstTrack->Pnext ) { /* recherche du debut de la liste des segments marques a BUSY */ if ( FirstTrack->GetState(BUSY) ) { NbSegmBusy = 1; break; } } /* Reclassement de la chaine debutant a FirstTrack et finissant au dernier segment marque. FirstTrack n'est pas modifie */ Track = (TRACK*)FirstTrack->Pnext; for ( ; Track != NULL; Track = NextTrack) { NextTrack = (TRACK*) Track->Pnext; if ( Track->GetState(BUSY) ) { NbSegmBusy++; Track->UnLink(); Track->Insert(frame->m_Pcb, FirstTrack); } } *nb_segm = NbSegmBusy; if(flagcolor) Trace_Une_Piste(frame->DrawPanel, DC, FirstTrack,NbSegmBusy,flagcolor); return(FirstTrack); } /********************************************************************************/ static void Marque_Chaine_segments(BOARD * Pcb, wxPoint ref_pos, int masque_layer) /********************************************************************************/ /* routine utilisee par Supprime_1_Piste() Positionne le bit BUSY dans la chaine de segments commencant au point ox, oy sur la couche layer Les vias sont mises en liste des segments traites mais ne sont pas marquees. */ { TRACK *pt_segm, // Pointe le segment courant analyse * pt_via, // pointe la via reperee, eventuellement a detruire * MarqSegm; // pointe le segment a detruire (= NULL ou pt_segm int NbSegm; TSTSEGM * Segm; if(Pcb->m_Track == NULL) return; /* Marquage de la chaine */ for( ; ; ) { if( Fast_Locate_Pad_Connecte(Pcb, ref_pos,masque_layer) != NULL ) return; /* Localisation d'une via (car elle connecte plusieurs segments) */ pt_via = Fast_Locate_Via(Pcb->m_Track, NULL, ref_pos, masque_layer); if(pt_via) { if(pt_via->GetState(EDIT)) return; masque_layer = pt_via->ReturnMaskLayer(); Segm = new TSTSEGM(pt_via); Segm->Pnext = ListSegm; ListSegm->Pback = Segm; ListSegm = Segm; } /* Recherche des segments connectes au point ref_pos si 1 segment: peut etre marque si > 1 segment: le segment ne peut etre marque */ pt_segm =Pcb->m_Track; MarqSegm = NULL; NbSegm = 0; while( (pt_segm = Fast_Locate_Piste(pt_segm, NULL, ref_pos,masque_layer) ) != NULL ) { if(pt_segm->GetState(EDIT)) /* Fin de piste */ return; if(pt_segm->GetState(BUSY) ) { pt_segm = (TRACK*)pt_segm->Pnext; continue; } if( pt_segm == pt_via) /* deja traite */ { pt_segm = (TRACK*)pt_segm->Pnext; continue; } NbSegm++; if( NbSegm == 1 ) /* 1ere detection de segment de piste */ { MarqSegm = pt_segm; pt_segm = (TRACK*)pt_segm->Pnext; } else /* 2eme detection de segment -> fin de piste */ { return; } } if( MarqSegm ) { /* preparation de la nouvelle recherche */ masque_layer = MarqSegm->ReturnMaskLayer(); if( ref_pos == MarqSegm->m_Start ) { ref_pos = MarqSegm->m_End; } else { ref_pos = MarqSegm->m_Start; } pt_segm = Pcb->m_Track; /* reinit recherche des segments */ /* Marquage et mise en liste du segment */ Segm = new TSTSEGM(MarqSegm); Segm->Pnext = ListSegm; ListSegm->Pback = Segm; ListSegm = Segm; MarqSegm->SetState(BUSY,ON); } else return; } } /********************************************************/ int ReturnEndsTrack(TRACK* RefTrack, int NbSegm, TRACK ** StartTrack, TRACK ** EndTrack) /**********************************************************/ /* Calcule les coordonnes des extremites d'une piste retourne 1 si OK, 0 si piste bouclee Retourne dans *StartTrack en *EndTrack les segments de debut et fin Les coord StartTrack->m_Start.x, m_Start.y contiennent le debut de la piste Les coord EndTrack->m_End.x, m_End.y contiennent le debut de la piste Les segments sont supposes chaines de facon consecutive */ { TRACK * Track, *via, *segm, * TrackListEnd; int NbEnds, masque_layer, ii, ok = 0; if( NbSegm <= 1 ) { *StartTrack = *EndTrack = RefTrack; return(1); /* cas trivial */ } /* calcul de la limite d'analyse */ *StartTrack = *EndTrack = NULL; TrackListEnd = Track = RefTrack; ii = 0; for( ; (Track != NULL) && (ii < NbSegm); ii++, Track = (TRACK*)Track->Pnext) { TrackListEnd = Track; Track->m_Param = 0; } /* Calcul des extremites */ NbEnds = 0; Track = RefTrack; ii = 0; for( ; (Track != NULL) && (ii < NbSegm); ii++, Track = (TRACK*)Track->Pnext) { if(Track->m_StructType == TYPEVIA) continue; masque_layer = Track->ReturnMaskLayer(); via = Fast_Locate_Via(RefTrack, TrackListEnd, Track->m_Start, masque_layer); if( via ) { masque_layer |= via->ReturnMaskLayer(); via->SetState(BUSY,ON); } Track->SetState(BUSY,ON); segm = Fast_Locate_Piste(RefTrack, TrackListEnd, Track->m_Start, masque_layer); Track->SetState(BUSY,OFF); if(via) via->SetState(BUSY,OFF); if( segm == NULL ) { switch(NbEnds) { case 0: *StartTrack = Track; NbEnds++; break; case 1: int BeginPad, EndPad; *EndTrack = Track; /* permutation de ox,oy avec fx,fy */ BeginPad = Track->GetState(BEGIN_ONPAD); EndPad = Track->GetState(END_ONPAD); Track->SetState(BEGIN_ONPAD|END_ONPAD, OFF); if( BeginPad ) Track->SetState(END_ONPAD, ON); if( EndPad ) Track->SetState(BEGIN_ONPAD, ON); EXCHG(Track->m_Start,Track->m_End); EXCHG(Track->start,Track->end); ok = 1; return(ok); } } masque_layer = Track->ReturnMaskLayer(); via = Fast_Locate_Via(RefTrack, TrackListEnd, Track->m_End, masque_layer); if( via ) { masque_layer |= via->ReturnMaskLayer(); via->SetState(BUSY,ON); } Track->SetState(BUSY,ON); segm = Fast_Locate_Piste(RefTrack, TrackListEnd, Track->m_End, masque_layer); Track->SetState(BUSY,OFF); if (via) via->SetState(BUSY,OFF); if ( segm == NULL ) { switch(NbEnds) { case 0: int BeginPad, EndPad; *StartTrack = Track; NbEnds++; /* permutation de ox,oy avec fx,fy */ BeginPad = Track->GetState(BEGIN_ONPAD); EndPad = Track->GetState(END_ONPAD); Track->SetState(BEGIN_ONPAD|END_ONPAD, OFF); if( BeginPad ) Track->SetState(END_ONPAD, ON); if( EndPad ) Track->SetState(BEGIN_ONPAD, ON); EXCHG(Track->m_Start,Track->m_End); EXCHG(Track->start,Track->end); break; case 1: *EndTrack = Track; ok = 1; return(ok); } } } return(ok); } /***************************************************************************/ void ListSetState(EDA_BaseStruct * Start, int NbItem,int State, int onoff) /***************************************************************************/ /* Met a jour le membre .state d'une chaine de structures */ { if(Start == NULL ) return; for( ; (Start != NULL) && (NbItem > 0); NbItem-- , Start = Start->Pnext ) { Start->SetState(State,onoff); } }