kicad/pcbnew/router/pns_utils.cpp

316 lines
9.7 KiB
C++

/*
* KiRouter - a push-and-(sometimes-)shove PCB router
*
* Copyright (C) 2013-2014 CERN
* Copyright (C) 2016 KiCad Developers, see AUTHORS.txt for contributors.
* Author: Tomasz Wlostowski <tomasz.wlostowski@cern.ch>
*
* This program is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or (at your
* option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "pns_utils.h"
#include "pns_line.h"
#include "pns_via.h"
#include "pns_router.h"
#include <geometry/shape_arc.h>
#include <geometry/shape_segment.h>
#include <math/box2.h>
#include <cmath>
namespace PNS {
const SHAPE_LINE_CHAIN OctagonalHull( const VECTOR2I& aP0, const VECTOR2I& aSize,
int aClearance, int aChamfer )
{
SHAPE_LINE_CHAIN s;
s.SetClosed( true );
s.Append( aP0.x - aClearance, aP0.y - aClearance + aChamfer );
s.Append( aP0.x - aClearance + aChamfer, aP0.y - aClearance );
s.Append( aP0.x + aSize.x + aClearance - aChamfer, aP0.y - aClearance );
s.Append( aP0.x + aSize.x + aClearance, aP0.y - aClearance + aChamfer );
s.Append( aP0.x + aSize.x + aClearance, aP0.y + aSize.y + aClearance - aChamfer );
s.Append( aP0.x + aSize.x + aClearance - aChamfer, aP0.y + aSize.y + aClearance );
s.Append( aP0.x - aClearance + aChamfer, aP0.y + aSize.y + aClearance );
s.Append( aP0.x - aClearance, aP0.y + aSize.y + aClearance - aChamfer );
return s;
}
const SHAPE_LINE_CHAIN ArcHull( const SHAPE_ARC& aSeg, int aClearance,
int aWalkaroundThickness )
{
int d = aSeg.GetWidth() / 2 + aClearance + aWalkaroundThickness / 2 + HULL_MARGIN;
int x = (int)( 2.0 / ( 1.0 + M_SQRT2 ) * d ) / 2;
auto line = aSeg.ConvertToPolyline();
SHAPE_LINE_CHAIN s;
s.SetClosed( true );
std::vector<VECTOR2I> reverse_line;
auto seg = line.Segment( 0 );
VECTOR2I dir = seg.B - seg.A;
VECTOR2I p0 = dir.Perpendicular().Resize( d );
VECTOR2I ds = dir.Perpendicular().Resize( x );
VECTOR2I pd = dir.Resize( x );
VECTOR2I dp = dir.Resize( d );
// Append the first curve
s.Append( seg.A + p0 - pd );
s.Append( seg.A - dp + ds );
s.Append( seg.A - dp - ds );
s.Append( seg.A - p0 - pd );
for( int i = 1; i < line.SegmentCount(); i++ )
{
auto old_seg = seg;
auto endpt = ( old_seg.A - old_seg.B ).Resize( seg.Length() );
old_seg.A = old_seg.B + endpt;
seg = line.Segment( i );
auto dir2 = old_seg.A - seg.B;
p0 = dir2.Perpendicular().Resize( d );
s.Append( seg.A - p0 );
reverse_line.push_back( seg.A + p0 );
}
pd = dir.Resize( x );
dp = dir.Resize( d );
s.Append( seg.B - p0 + pd );
s.Append( seg.B + dp - ds );
s.Append( seg.B + dp + ds );
s.Append( seg.B + p0 + pd );
for( int i = reverse_line.size() - 1; i >= 0; i-- )
s.Append( reverse_line[i] );
// make sure the hull outline is always clockwise
if( s.CSegment( 0 ).Side( line.Segment( 0 ).A ) < 0 )
return s.Reverse();
else
return s;
}
const SHAPE_LINE_CHAIN SegmentHull ( const SHAPE_SEGMENT& aSeg, int aClearance,
int aWalkaroundThickness )
{
int d = aSeg.GetWidth() / 2 + aClearance + aWalkaroundThickness / 2 + HULL_MARGIN;
int x = (int)( 2.0 / ( 1.0 + M_SQRT2 ) * d );
const VECTOR2I a = aSeg.GetSeg().A;
const VECTOR2I b = aSeg.GetSeg().B;
VECTOR2I dir = b - a;
VECTOR2I p0 = dir.Perpendicular().Resize( d );
VECTOR2I ds = dir.Perpendicular().Resize( x / 2 );
VECTOR2I pd = dir.Resize( x / 2 );
VECTOR2I dp = dir.Resize( d );
SHAPE_LINE_CHAIN s;
s.SetClosed( true );
s.Append( b + p0 + pd );
s.Append( b + dp + ds );
s.Append( b + dp - ds );
s.Append( b - p0 + pd );
s.Append( a - p0 - pd );
s.Append( a - dp - ds );
s.Append( a - dp + ds );
s.Append( a + p0 - pd );
// make sure the hull outline is always clockwise
if( s.CSegment( 0 ).Side( a ) < 0 )
return s.Reverse();
else
return s;
}
static void MoveDiagonal( SEG& aDiagonal, const SHAPE_LINE_CHAIN& aVertices, int aClearance )
{
int dist;
aVertices.NearestPoint( aDiagonal, dist );
dist -= HULL_MARGIN;
VECTOR2I moveBy = ( aDiagonal.A - aDiagonal.B ).Perpendicular().Resize( dist - aClearance );
aDiagonal.A += moveBy;
aDiagonal.B += moveBy;
}
const SHAPE_LINE_CHAIN ConvexHull( const SHAPE_SIMPLE& aConvex, int aClearance )
{
// this defines the horizontal and vertical lines in the hull octagon
BOX2I box = aConvex.BBox( aClearance + HULL_MARGIN );
box.Normalize();
SEG topline = SEG( VECTOR2I( box.GetX(), box.GetY() + box.GetHeight() ),
VECTOR2I( box.GetX() + box.GetWidth(), box.GetY() + box.GetHeight() ) );
SEG rightline = SEG( VECTOR2I( box.GetX() + box.GetWidth(), box.GetY() + box.GetHeight() ),
VECTOR2I( box.GetX() + box.GetWidth(), box.GetY() ) );
SEG bottomline = SEG( VECTOR2I( box.GetX() + box.GetWidth(), box.GetY() ),
box.GetOrigin() );
SEG leftline = SEG( box.GetOrigin(), VECTOR2I( box.GetX(), box.GetY() + box.GetHeight() ) );
const SHAPE_LINE_CHAIN& vertices = aConvex.Vertices();
// top right diagonal
VECTOR2I corner = box.GetOrigin() + box.GetSize();
SEG toprightline = SEG( corner,
corner + VECTOR2I( box.GetHeight(), -box.GetHeight() ) );
MoveDiagonal( toprightline, vertices, aClearance );
// bottom right diagonal
corner = box.GetOrigin() + VECTOR2I( box.GetWidth(), 0 );
SEG bottomrightline = SEG( corner + VECTOR2I( box.GetHeight(), box.GetHeight() ),
corner );
MoveDiagonal( bottomrightline, vertices, aClearance );
// bottom left diagonal
corner = box.GetOrigin();
SEG bottomleftline = SEG( corner,
corner + VECTOR2I( -box.GetHeight(), box.GetHeight() ) );
MoveDiagonal( bottomleftline, vertices, aClearance );
// top left diagonal
corner = box.GetOrigin() + VECTOR2I( 0, box.GetHeight() );
SEG topleftline = SEG( corner + VECTOR2I( -box.GetHeight(), -box.GetHeight() ),
corner );
MoveDiagonal( topleftline, vertices, aClearance );
SHAPE_LINE_CHAIN octagon;
octagon.SetClosed( true );
octagon.Append( *leftline.IntersectLines( bottomleftline ) );
octagon.Append( *bottomline.IntersectLines( bottomleftline ) );
octagon.Append( *bottomline.IntersectLines( bottomrightline ) );
octagon.Append( *rightline.IntersectLines( bottomrightline ) );
octagon.Append( *rightline.IntersectLines( toprightline ) );
octagon.Append( *topline.IntersectLines( toprightline ) );
octagon.Append( *topline.IntersectLines( topleftline ) );
octagon.Append( *leftline.IntersectLines( topleftline ) );
return octagon;
}
SHAPE_RECT ApproximateSegmentAsRect( const SHAPE_SEGMENT& aSeg )
{
SHAPE_RECT r;
VECTOR2I delta( aSeg.GetWidth() / 2, aSeg.GetWidth() / 2 );
VECTOR2I p0( aSeg.GetSeg().A - delta );
VECTOR2I p1( aSeg.GetSeg().B + delta );
return SHAPE_RECT( std::min( p0.x, p1.x ), std::min( p0.y, p1.y ),
std::abs( p1.x - p0.x ), std::abs( p1.y - p0.y ) );
}
#if 0
void DrawDebugPoint( VECTOR2I aP, int aColor )
{
SHAPE_LINE_CHAIN l;
l.Append( aP - VECTOR2I( -50000, -50000 ) );
l.Append( aP + VECTOR2I( -50000, -50000 ) );
ROUTER::GetInstance()->DisplayDebugLine ( l, aColor, 10000 );
l.Clear();
l.Append( aP - VECTOR2I( 50000, -50000 ) );
l.Append( aP + VECTOR2I( 50000, -50000 ) );
ROUTER::GetInstance()->DisplayDebugLine( l, aColor, 10000 );
}
void DrawDebugBox( BOX2I aB, int aColor )
{
SHAPE_LINE_CHAIN l;
VECTOR2I o = aB.GetOrigin();
VECTOR2I s = aB.GetSize();
l.Append( o );
l.Append( o.x + s.x, o.y );
l.Append( o.x + s.x, o.y + s.y );
l.Append( o.x, o.y + s.y );
l.Append( o );
ROUTER::GetInstance()->DisplayDebugLine( l, aColor, 10000 );
}
void DrawDebugSeg( SEG aS, int aColor )
{
SHAPE_LINE_CHAIN l;
l.Append( aS.A );
l.Append( aS.B );
ROUTER::GetInstance()->DisplayDebugLine( l, aColor, 10000 );
}
void DrawDebugDirs( VECTOR2D aP, int aMask, int aColor )
{
BOX2I b( aP - VECTOR2I( 10000, 10000 ), VECTOR2I( 20000, 20000 ) );
DrawDebugBox( b, aColor );
for( int i = 0; i < 8; i++ )
{
if( ( 1 << i ) & aMask )
{
VECTOR2I v = DIRECTION_45( ( DIRECTION_45::Directions ) i ).ToVector() * 100000;
DrawDebugSeg( SEG( aP, aP + v ), aColor );
}
}
}
#endif
OPT_BOX2I ChangedArea( const ITEM* aItemA, const ITEM* aItemB )
{
if( aItemA->OfKind( ITEM::VIA_T ) && aItemB->OfKind( ITEM::VIA_T ) )
{
const VIA* va = static_cast<const VIA*>( aItemA );
const VIA* vb = static_cast<const VIA*>( aItemB );
return va->ChangedArea( vb );
}
else if( aItemA->OfKind( ITEM::LINE_T ) && aItemB->OfKind( ITEM::LINE_T ) )
{
const LINE* la = static_cast<const LINE*> ( aItemA );
const LINE* lb = static_cast<const LINE*> ( aItemB );
return la->ChangedArea( lb );
}
return OPT_BOX2I();
}
OPT_BOX2I ChangedArea( const LINE& aLineA, const LINE& aLineB )
{
return aLineA.ChangedArea( &aLineB );
}
}