using namespace std; #include #include #include "fctsys.h" #include "common.h" #include "pcbnew.h" #include "trigo.h" #include "zones.h" #include "PolyLine.h" extern void Test_For_Copper_Island_And_Remove( BOARD* aPcb, ZONE_CONTAINER* aZone_container ); // Local Functions: void AddTrackWithClearancePolygon( Bool_Engine* aBooleng, TRACK& aTrack, int aClearanceValue ); void AddPadWithClearancePolygon( Bool_Engine* aBooleng, D_PAD& aPad, int aClearanceValue ); void AddThermalReliefPadPolygon( Bool_Engine* aBooleng, D_PAD& aPad, int aThermalGap, int aCopperTickness ); void AddRoundedEndsSegmentPolygon( Bool_Engine* aBooleng, wxPoint aStart, wxPoint aEnd, int aWidth ); void AddTextBoxWithClearancePolygon( Bool_Engine* aBooleng, TEXTE_PCB* aText, int aClearanceValue ); // Local Variables: /* how many segments are used to create a polygon from a circle: */ static int s_CircleToSegmentsCount = 16; /* default value. the real value will be changed to 32 if g_Zone_Arc_Approximation == 1 */ /** function AddClearanceAreasPolygonsToPolysList * Add non copper areas polygons (pads and tracks with clearence) * to a filled copper area * used in BuildFilledPolysListData when calculating filled areas in a zone * Non copper areas are pads and track and their clearance area * The filled copper area must be computed just before. * BuildFilledPolysListData() call this function just after creating the * filled copper area polygon (without clearence areas * to do that this function: * 1 - creates aBool_Engine,with option: holes are linked into outer contours by double overlapping segments * 2 - Add the main outline (zone outline) in group A * 3 - Add all non filled areas (pads, tracks) in group B * 4 - calculates the polygon A - B * 5 - put resulting list of polygons (filled areas) in m_FilledPolysList */ void ZONE_CONTAINER::AddClearanceAreasPolygonsToPolysList( BOARD* aPcb ) { // Set the number of segments in arc approximations if ( m_ArcToSegmentsCount == 32 ) s_CircleToSegmentsCount = 32; else s_CircleToSegmentsCount = 16; /* Uses a kbool engine to add holes in the m_FilledPolysList polygon. * Because this function is called just after creating the m_FilledPolysList, * only one polygon is in list. * (initial holes in zonesare linked into outer contours by double overlapping segments). * after adding holes, many polygons could be exist in this list. */ Bool_Engine * booleng = new Bool_Engine(); ArmBoolEng( booleng, true ); /* Add the main polygon (i.e. the filled area using only one outline) * in GroupA in Bool_Engine */ unsigned corners_count = m_FilledPolysList.size(); unsigned ic = 0; if( booleng->StartPolygonAdd( GROUP_A ) ) { for( ; ic < corners_count; ic++ ) { CPolyPt* corner = &m_FilledPolysList[ic]; booleng->AddPoint( corner->x, corner->y ); if( corner->end_contour ) break; } booleng->EndPolygonAdd(); } /* Add holes (i.e. tracks and pads areas as polygons outlines) * in GroupB in Bool_Engine * First : Add pads */ for( MODULE* module = aPcb->m_Modules; module; module = module->Next() ) { for( D_PAD* pad = module->m_Pads; pad != NULL; pad = pad->Next() ) { if( !pad->IsOnLayer( GetLayer() ) ) continue; if( pad->GetNet() != GetNet() ) { AddPadWithClearancePolygon( booleng, *pad, m_ZoneClearance ); continue; } switch( m_PadOption ) { case PAD_NOT_IN_ZONE: AddPadWithClearancePolygon( booleng, *pad, m_ZoneClearance ); break; case THERMAL_PAD: AddThermalReliefPadPolygon( booleng, *pad, 100, 100 ); break; case PAD_IN_ZONE: break; } } } /* Add holes (i.e. tracks and pads areas as polygons outlines) * in GroupB in Bool_Engine * Next : Add tracks and vias */ for( TRACK* track = aPcb->m_Track; track; track = track->Next() ) { if( !track->IsOnLayer( GetLayer() ) ) continue; if( track->GetNet() == GetNet() ) continue; AddTrackWithClearancePolygon( booleng, *track, m_ZoneClearance ); } // Draw graphic items (copper texts) and board edges for( BOARD_ITEM* item = aPcb->m_Drawings; item; item = item->Next() ) { if( item->GetLayer() != GetLayer() && item->GetLayer() != EDGE_N ) continue; switch( item->Type() ) { case TYPEDRAWSEGMENT: AddRoundedEndsSegmentPolygon( booleng, ( (DRAWSEGMENT*) item )->m_Start, ( (DRAWSEGMENT*) item )->m_End, ( (DRAWSEGMENT*) item )->m_Width + (2 * m_ZoneClearance) ); break; case TYPETEXTE: if( ( (TEXTE_PCB*) item )->GetLength() == 0 ) break; AddTextBoxWithClearancePolygon( booleng, (TEXTE_PCB*) item, m_ZoneClearance ); break; default: break; } } /* compute copper areas */ booleng->Do_Operation( BOOL_A_SUB_B ); /* put these areas in m_FilledPolysList */ m_FilledPolysList.clear(); while( booleng->StartPolygonGet() ) { CPolyPt corner( 0, 0, false ); while( booleng->PolygonHasMorePoints() ) { corner.x = (int) booleng->GetPolygonXPoint(); corner.y = (int) booleng->GetPolygonYPoint(); corner.end_contour = false; m_FilledPolysList.push_back( corner ); } corner.end_contour = true; m_FilledPolysList.pop_back(); m_FilledPolysList.push_back( corner ); booleng->EndPolygonGet(); } delete booleng; // Remove insulated islands: if ( GetNet() > 0 ) Test_For_Copper_Island_And_Remove_Insulated_Islands( aPcb ); } /** Function AddPadPolygonWithPadClearance * Add a polygon cutout for a pad in a zone area * Convert arcs and circles to multiple straight lines */ void AddPadWithClearancePolygon( Bool_Engine* aBooleng, D_PAD& aPad, int aClearanceValue ) { if( aBooleng->StartPolygonAdd( GROUP_B ) == 0 ) return; wxPoint corner_position; int ii, angle; int dx = (aPad.m_Size.x / 2) + aClearanceValue; int dy = (aPad.m_Size.y / 2) + aClearanceValue; int delta = 3600 / s_CircleToSegmentsCount; // rot angle in 0.1 degree wxPoint PadShapePos = aPad.ReturnShapePos(); /* Note: for pad having a shape offset, * the pad position is NOT the shape position */ switch( aPad.m_PadShape ) { case PAD_CIRCLE: for( ii = 0; ii < s_CircleToSegmentsCount; ii++ ) { corner_position = wxPoint( dx, 0 ); angle = ii * delta; RotatePoint( &corner_position, angle ); corner_position += PadShapePos; aBooleng->AddPoint( corner_position.x, corner_position.y ); } break; case PAD_OVAL: case PAD_RECT: angle = aPad.m_Orient; corner_position = wxPoint( -dx, -dy ); RotatePoint( &corner_position, angle ); corner_position += PadShapePos; aBooleng->AddPoint( corner_position.x, corner_position.y ); corner_position = wxPoint( -dx, +dy ); RotatePoint( &corner_position, angle ); corner_position += aPad.ReturnShapePos(); aBooleng->AddPoint( corner_position.x, corner_position.y ); corner_position = wxPoint( +dx, +dy ); RotatePoint( &corner_position, angle ); corner_position += PadShapePos; aBooleng->AddPoint( corner_position.x, corner_position.y ); corner_position = wxPoint( +dx, -dy ); RotatePoint( &corner_position, angle ); corner_position += PadShapePos; aBooleng->AddPoint( corner_position.x, corner_position.y ); break; } aBooleng->EndPolygonAdd(); } /** function AddThermalReliefPadPolygon * Add holes around a pad to create a thermal relief * copper tickness is min (dx/2, aCopperWitdh) or min (dy/2, aCopperWitdh) * gap is aThermalGap */ /* thermal reliefs are created as 4 polygons. * each corner of a polygon if calculated for a pad at position 0, 0, orient 0, * and then moved and rotated acroding to the pad position and orientation */ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng, D_PAD& aPad, int aThermalGap, int aCopperTickness ) { wxPoint corner, corner_end; wxPoint PadShapePos = aPad.ReturnShapePos(); /* Note: for pad having a shape offset, * the pad position is NOT the shape position */ int angle = 0; wxSize copper_tickness; int dx = aPad.m_Size.x / 2; int dy = aPad.m_Size.y / 2; int delta = 3600 / s_CircleToSegmentsCount; // rot angle in 0.1 degree copper_tickness.x = min( dx, aCopperTickness ); copper_tickness.y = min( dy, aCopperTickness ); switch( aPad.m_PadShape ) { case PAD_CIRCLE: // Add 4 similar holes { /* we create 4 copper holes and put them in position 1, 2, 3 and 4 * here is the area of the rectangular pad + its thermal gap * the 4 copper holes remove the copper in order to create the thermal gap * 4 ------ 1 * | | * | | * | | * | | * 3 ------ 2 * holes 2, 3, 4 are the same as hole 1, rotated 90, 180, 270 deg */ // Build the hole pattern, for the hole in the X >0, Y > 0 plane: std::vector corners_buffer; // calculate the starting point of the outter arc dx += aThermalGap; // The radius of the outter arc is dx = pad radius + aThermalGap corner.x = aThermalGap / 2; double dtmp = ( (double) dx * dx ) - ( (double) corner.x * corner.x ); corner.y = (int) sqrt( dtmp ); // calculate the ending point of the outter arc corner_end.x = corner.y; corner_end.y = aThermalGap / 2; // calculate intermediate points (y coordinate from corner.y to corner_end.y while( (corner.y > corner_end.y) && (corner.x < corner_end.x)) { corners_buffer.push_back( corner.x ); corners_buffer.push_back( corner.y ); RotatePoint( &corner, delta ); } corners_buffer.push_back( corner_end.x ); corners_buffer.push_back( corner_end.y ); /* add the radius lines */ corner.x = corner.y = aThermalGap / 2; corners_buffer.push_back( corner.x ); corners_buffer.push_back( corner.y ); // Now, add the 4 holes ( each is the pattern, rotated by 0, 90, 180 and 270 deg angle = 450; // TODO: problems with kbool if angle = 0 (bad filled polygon on some pads, but not alls) for( unsigned ihole = 0; ihole < 4; ihole++ ) { if( aBooleng->StartPolygonAdd( GROUP_B ) ) { for( unsigned ii = 0; ii < corners_buffer.size(); ii += 2 ) { corner = wxPoint( corners_buffer[ii], corners_buffer[ii+1] ); RotatePoint( &corner, angle ); corner += PadShapePos; aBooleng->AddPoint( corner.x, corner.y ); } aBooleng->EndPolygonAdd(); angle += 900; // Note: angle in in 0.1 deg. } } } break; case PAD_OVAL: case PAD_RECT: // draw 4 Holes { /* we create 4 copper holes and put them in position 1, 2, 3 and 4 * here is the area of the rectangular pad + its thermal gap * the 4 copper holes remove the copper in order to create the thermal gap * 4 ------ 1 * | | * | | * | | * | | * 3 ------ 2 * hole 3 is the same as hole 1, rotated 180 deg * hole 4 is the same as hole 2, rotated 180 deg and is the same as hole 1, mirrored */ // First, create a rectangular hole for position 1 : // 2 ------- 3 // | | // | | // | | // 1 ------- 4 wxPoint corners_hole[4]; // buffer for 6 corners // Create 1 hole, for a pad centered at0,0, orient 0 // Calculate coordinates for corner 1 to corner 4: corners_hole[0] = wxPoint( copper_tickness.x / 2, - copper_tickness.x / 2 ); corners_hole[1] = wxPoint( (copper_tickness.x / 2), -dy - aThermalGap ); corners_hole[2] = wxPoint( dx + aThermalGap, -dy - aThermalGap ); corners_hole[3] = wxPoint( dx + aThermalGap, -(copper_tickness.y / 2) ); /* Create 2 holes, rotated by pad rotation. */ angle = aPad.m_Orient; for( int irect = 0; irect < 2; irect++ ) { if( aBooleng->StartPolygonAdd( GROUP_B ) ) { for( int ic = 0; ic < 4; ic++ ) { wxPoint cpos = corners_hole[ic]; RotatePoint( &cpos, angle ); cpos += PadShapePos; aBooleng->AddPoint( cpos.x, cpos.y ); } aBooleng->EndPolygonAdd(); angle += 1800; // this is calculate hole 3 if( angle >= 3600 ) angle -= 3600; } } // Create a holes, that is the mirrored of the previous hole corners_hole[0].x = -corners_hole[0].x; corners_hole[1].x = -corners_hole[1].x; corners_hole[2].x = -corners_hole[2].x; corners_hole[3].x = -corners_hole[3].x; // Now add corner 4 and 2 (2 is the corner 4 rotated by 180 deg angle = aPad.m_Orient; for( int irect = 0; irect < 2; irect++ ) { if( aBooleng->StartPolygonAdd( GROUP_B ) ) { for( int ic = 0; ic < 4; ic++ ) { wxPoint cpos = corners_hole[ic]; RotatePoint( &cpos, angle ); cpos += PadShapePos; aBooleng->AddPoint( cpos.x, cpos.y ); } aBooleng->EndPolygonAdd(); angle += 1800; if( angle >= 3600 ) angle -= 3600; } } } break; } } /** Function AddTrackWithClearancePolygon * Add a polygon cutout for a track in a zone area * Convert arcs and circles to multiple straight lines */ void AddTrackWithClearancePolygon( Bool_Engine* aBooleng, TRACK& aTrack, int aClearanceValue ) { wxPoint corner_position; int ii, angle; int dx = (aTrack.m_Width / 2) + aClearanceValue; int delta = 3600 / s_CircleToSegmentsCount; // rot angle in 0.1 degree switch( aTrack.Type() ) { case TYPEVIA: if( aBooleng->StartPolygonAdd( GROUP_B ) ) { for( ii = 0; ii < s_CircleToSegmentsCount; ii++ ) { corner_position = wxPoint( dx, 0 ); angle = ii * delta; RotatePoint( &corner_position, angle ); corner_position += aTrack.m_Start; aBooleng->AddPoint( corner_position.x, corner_position.y ); } aBooleng->EndPolygonAdd(); } break; default: AddRoundedEndsSegmentPolygon( aBooleng, aTrack.m_Start, aTrack.m_End, aTrack.m_Width + (2 * aClearanceValue) ); break; } } /** Function AddRoundedEndsSegmentPolygon * Add a polygon cutout for a segment (with rounded ends) in a zone area * Convert arcs to multiple straight lines */ void AddRoundedEndsSegmentPolygon( Bool_Engine* aBooleng, wxPoint aStart, wxPoint aEnd, int aWidth ) { int rayon = aWidth / 2; wxPoint endp = aEnd - aStart; // end point coordinate for the same segment starting at (0,0) wxPoint startp = aStart; wxPoint corner; int seg_len; // normalize the position in order to have endp.x >= 0; if( endp.x < 0 ) { endp = aStart - aEnd; startp = aEnd; } int delta_angle = ArcTangente( endp.y, endp.x ); // delta_angle is in 0.1 degrees seg_len = (int) sqrt( (endp.y * endp.y) + (endp.x * endp.x) ); if( !aBooleng->StartPolygonAdd( GROUP_B ) ) return; // error! int delta = 3600 / s_CircleToSegmentsCount; // rot angle in 0.1 degree // Compute the outlines of the segment, and creates a polygon corner = wxPoint( 0, rayon ); RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); corner = wxPoint( seg_len, rayon ); RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); // add right rounded end: for( int ii = delta; ii < 1800; ii += delta ) { corner = wxPoint( 0, rayon ); RotatePoint( &corner, ii ); corner.x += seg_len; RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); } corner = wxPoint( seg_len, -rayon ); RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); corner = wxPoint( 0, -rayon ); RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); // add left rounded end: for( int ii = delta; ii < 1800; ii += delta ) { corner = wxPoint( 0, -rayon ); RotatePoint( &corner, ii ); RotatePoint( &corner, -delta_angle ); corner += startp; aBooleng->AddPoint( corner.x, corner.y ); } aBooleng->EndPolygonAdd(); } /** function AddTextBoxWithClearancePolygon * creates a polygon containing the text and add it to bool engine */ void AddTextBoxWithClearancePolygon( Bool_Engine* aBooleng, TEXTE_PCB* aText, int aClearanceValue ) { int corners[8]; // Buffer of coordinates int ii; int dx = aText->Pitch() * aText->GetLength(); int dy = aText->m_Size.y + aText->m_Width; /* Creates bounding box (rectangle) for an horizontal text */ dx /= 2; dy /= 2; /* dx et dy = demi dimensionx X et Y */ dx += aClearanceValue; dy += aClearanceValue; corners[0] = aText->m_Pos.x - dx; corners[1] = aText->m_Pos.y - dy; corners[2] = aText->m_Pos.x + dx; corners[3] = aText->m_Pos.y - dy; corners[4] = aText->m_Pos.x + dx; corners[5] = aText->m_Pos.y + dy; corners[6] = aText->m_Pos.x - dx; corners[7] = aText->m_Pos.y + dy; // Rotate rectangle RotatePoint( &corners[0], &corners[1], aText->m_Pos.x, aText->m_Pos.y, aText->m_Orient ); RotatePoint( &corners[2], &corners[3], aText->m_Pos.x, aText->m_Pos.y, aText->m_Orient ); RotatePoint( &corners[4], &corners[5], aText->m_Pos.x, aText->m_Pos.y, aText->m_Orient ); RotatePoint( &corners[6], &corners[7], aText->m_Pos.x, aText->m_Pos.y, aText->m_Orient ); if( aBooleng->StartPolygonAdd( GROUP_B ) ) { for( ii = 0; ii < 8; ii += 2 ) { aBooleng->AddPoint( corners[ii], corners[ii + 1] ); } aBooleng->EndPolygonAdd(); } }