/**************************************/ /* Code to handle schematic clean up. */ /**************************************/ #include "fctsys.h" #include "appl_wxstruct.h" #include "common.h" #include "trigo.h" #include "confirm.h" #include "macros.h" #include "program.h" #include "general.h" #include "protos.h" #include "netlist.h" static int TstAlignSegment( SCH_LINE* RefSegm, SCH_LINE* TstSegm ); /* Routine cleaning: * - Includes segments or buses aligned in only 1 segment * - Detects identical objects superimposed */ bool SCH_SCREEN::SchematicCleanUp( wxDC* DC ) { SCH_ITEM* DrawList, * TstDrawList; int flag; bool Modify = FALSE; DrawList = EEDrawList; for( ; DrawList != NULL; DrawList = DrawList->Next() ) { if( DrawList->Type() == DRAW_SEGMENT_STRUCT_TYPE ) { TstDrawList = DrawList->Next(); while( TstDrawList ) { if( TstDrawList->Type() == DRAW_SEGMENT_STRUCT_TYPE ) { flag = TstAlignSegment( (SCH_LINE*) DrawList, (SCH_LINE*) TstDrawList ); if( flag ) { /* keep the bits set in .m_Flags, because the deleted * segment can be flagged */ DrawList->m_Flags |= TstDrawList->m_Flags; EraseStruct( TstDrawList, this ); SetRefreshReq(); TstDrawList = EEDrawList; Modify = TRUE; } else TstDrawList = TstDrawList->Next(); } else TstDrawList = TstDrawList->Next(); } } } WinEDA_SchematicFrame* frame; frame = (WinEDA_SchematicFrame*) wxGetApp().GetTopWindow(); frame->TestDanglingEnds( EEDrawList, DC ); return Modify; } /* Routine to start/end segment (BUS or wires) on junctions. */ void BreakSegmentOnJunction( SCH_SCREEN* Screen ) { SCH_ITEM* DrawList; if( Screen == NULL ) { DisplayError( NULL, wxT( "BreakSegmentOnJunction() error: NULL screen" ) ); return; } DrawList = Screen->EEDrawList; while( DrawList ) { switch( DrawList->Type() ) { case DRAW_JUNCTION_STRUCT_TYPE: #undef STRUCT #define STRUCT ( (SCH_JUNCTION*) DrawList ) BreakSegment( Screen, STRUCT->m_Pos ); break; case DRAW_BUSENTRY_STRUCT_TYPE: #undef STRUCT #define STRUCT ( (SCH_BUS_ENTRY*) DrawList ) BreakSegment( Screen, STRUCT->m_Pos ); BreakSegment( Screen, STRUCT->m_End() ); break; case DRAW_SEGMENT_STRUCT_TYPE: case DRAW_NOCONNECT_STRUCT_TYPE: case TYPE_SCH_LABEL: case TYPE_SCH_GLOBALLABEL: case TYPE_SCH_HIERLABEL: case TYPE_SCH_COMPONENT: case DRAW_POLYLINE_STRUCT_TYPE: case TYPE_SCH_MARKER: case TYPE_SCH_TEXT: case DRAW_SHEET_STRUCT_TYPE: case DRAW_HIERARCHICAL_PIN_SHEET_STRUCT_TYPE: break; default: break; } DrawList = DrawList->Next(); } } /* Break a segment ( BUS, WIRE ) int 2 segments at location aBreakpoint, * if aBreakpoint in on segment segment * ( excluding ends) * fill aPicklist with modified items if non null */ void BreakSegment( SCH_SCREEN* aScreen, wxPoint aBreakpoint ) { SCH_LINE* segment, * NewSegment; for( SCH_ITEM* DrawList = aScreen->EEDrawList; DrawList; DrawList = DrawList->Next() ) { if( DrawList->Type() != DRAW_SEGMENT_STRUCT_TYPE ) continue; segment = (SCH_LINE*) DrawList; if( !TestSegmentHit( aBreakpoint, segment->m_Start, segment->m_End, 0 ) ) continue; /* ??? * Segment connecte: doit etre coupe en 2 si px,py * n'est * pas une extremite */ if( ( segment->m_Start == aBreakpoint ) || ( segment->m_End == aBreakpoint ) ) continue; /* Here we must cut the segment into 2. */ NewSegment = segment->GenCopy(); NewSegment->m_Start = aBreakpoint; segment->m_End = NewSegment->m_Start; NewSegment->SetNext( segment->Next() ); segment->SetNext( NewSegment ); DrawList = NewSegment; } } /* Search if the 2 segments RefSegm and TstSegm are on a line. * Return 0 if no * 1 if yes, and RefSegm is modified to be the equivalent segment */ static int TstAlignSegment( SCH_LINE* RefSegm, SCH_LINE* TstSegm ) { if( RefSegm == TstSegm ) return 0; if( RefSegm->GetLayer() != TstSegm->GetLayer() ) return 0; // search for a common end, and modify coordinates to ensure RefSegm->m_End // == TstSegm->m_Start if( RefSegm->m_Start == TstSegm->m_Start ) { if( RefSegm->m_End == TstSegm->m_End ) return 1; EXCHG( RefSegm->m_Start, RefSegm->m_End ); } else if( RefSegm->m_Start == TstSegm->m_End ) { EXCHG( RefSegm->m_Start, RefSegm->m_End ); EXCHG( TstSegm->m_Start, TstSegm->m_End ); } else if( RefSegm->m_End == TstSegm->m_End ) { EXCHG( TstSegm->m_Start, TstSegm->m_End ); } else if( RefSegm->m_End != TstSegm->m_Start ) // No common end point, segments cannot be merged. return 0; /* Test alignment: */ if( RefSegm->m_Start.y == RefSegm->m_End.y ) // Horizontal segment { if( TstSegm->m_Start.y == TstSegm->m_End.y ) { RefSegm->m_End = TstSegm->m_End; return 1; } } else if( RefSegm->m_Start.x == RefSegm->m_End.x ) // Vertical segment { if( TstSegm->m_Start.x == TstSegm->m_End.x ) { RefSegm->m_End = TstSegm->m_End; return 1; } } else { if( atan2( (double) ( RefSegm->m_Start.x - RefSegm->m_End.x ), (double) ( RefSegm->m_Start.y - RefSegm->m_End.y ) ) == atan2( (double) ( TstSegm->m_Start.x - TstSegm->m_End.x ), (double) ( TstSegm->m_Start.y - TstSegm->m_End.y ) ) ) { RefSegm->m_End = TstSegm->m_End; return 1; } } return 0; }