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kicad/eeschema/sch_line.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2009 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com
* Copyright (C) 1992-2011 KiCad Developers, see AUTHORS.txt for contributors.
*
* 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 2
* 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* @file sch_line.cpp
* @brief Class SCH_LINE implementation
*/
#include <fctsys.h>
#include <gr_basic.h>
#include <macros.h>
#include <class_drawpanel.h>
#include <trigo.h>
#include <richio.h>
#include <plot_common.h>
#include <base_units.h>
#include <eeschema_config.h>
#include <general.h>
#include <protos.h>
#include <sch_line.h>
#include <class_netlist_object.h>
#include <boost/foreach.hpp>
SCH_LINE::SCH_LINE( const wxPoint& pos, int layer ) :
SCH_ITEM( NULL, SCH_LINE_T )
{
m_start = pos;
m_end = pos;
m_width = 0; // Default thickness used
m_startIsDangling = m_endIsDangling = false;
switch( layer )
{
default:
m_Layer = LAYER_NOTES;
break;
case LAYER_WIRE:
m_Layer = LAYER_WIRE;
break;
case LAYER_BUS:
m_Layer = LAYER_BUS;
break;
}
}
SCH_LINE::SCH_LINE( const SCH_LINE& aLine ) :
SCH_ITEM( aLine )
{
m_start = aLine.m_start;
m_end = aLine.m_end;
m_width = aLine.m_width;
m_startIsDangling = m_endIsDangling = false;
}
EDA_ITEM* SCH_LINE::Clone() const
{
return new SCH_LINE( *this );
}
void SCH_LINE::Move( const wxPoint& aOffset )
{
if( (m_Flags & STARTPOINT) == 0 && aOffset != wxPoint( 0, 0 ) )
{
m_start += aOffset;
SetModified();
}
if( (m_Flags & ENDPOINT) == 0 && aOffset != wxPoint( 0, 0 ) )
{
m_end += aOffset;
SetModified();
}
}
#if defined(DEBUG)
void SCH_LINE::Show( int nestLevel, std::ostream& os ) const
{
NestedSpace( nestLevel, os ) << '<' << GetClass().Lower().mb_str()
<< " layer=\"" << m_Layer << '"'
<< " width=\"" << m_width << '"'
<< " startIsDangling=\"" << m_startIsDangling
<< '"' << " endIsDangling=\""
<< m_endIsDangling << '"' << ">"
<< " <start" << m_start << "/>"
<< " <end" << m_end << "/>" << "</"
<< GetClass().Lower().mb_str() << ">\n";
}
#endif
EDA_RECT SCH_LINE::GetBoundingBox() const
{
int width = 25;
int xmin = std::min( m_start.x, m_end.x ) - width;
int ymin = std::min( m_start.y, m_end.y ) - width;
int xmax = std::max( m_start.x, m_end.x ) + width;
int ymax = std::max( m_start.y, m_end.y ) + width;
// return a rectangle which is [pos,dim) in nature. therefore the +1
EDA_RECT ret( wxPoint( xmin, ymin ), wxSize( xmax - xmin + 1, ymax - ymin + 1 ) );
return ret;
}
double SCH_LINE::GetLength() const
{
return GetLineLength( m_start, m_end );
}
bool SCH_LINE::Save( FILE* aFile ) const
{
bool success = true;
const char* layer = "Notes";
const char* width = "Line";
if( GetLayer() == LAYER_WIRE )
layer = "Wire";
if( GetLayer() == LAYER_BUS )
layer = "Bus";
if( fprintf( aFile, "Wire %s %s\n", layer, width ) == EOF )
{
success = false;
}
if( fprintf( aFile, "\t%-4d %-4d %-4d %-4d\n", m_start.x, m_start.y,
m_end.x, m_end.y ) == EOF )
{
success = false;
}
return success;
}
bool SCH_LINE::Load( LINE_READER& aLine, wxString& aErrorMsg )
{
char Name1[256];
char Name2[256];
char* line = (char*) aLine;
while( (*line != ' ' ) && *line )
line++;
if( sscanf( line, "%s %s", Name1, Name2 ) != 2 )
{
aErrorMsg.Printf( wxT( "Eeschema file segment error at line %d, aborted" ),
aLine.LineNumber() );
aErrorMsg << wxT( "\n" ) << FROM_UTF8( (char*) aLine );
return false;
}
m_Layer = LAYER_NOTES;
if( Name1[0] == 'W' )
m_Layer = LAYER_WIRE;
if( Name1[0] == 'B' )
m_Layer = LAYER_BUS;
if( !aLine.ReadLine() || sscanf( (char*) aLine, "%d %d %d %d ",
&m_start.x, &m_start.y, &m_end.x, &m_end.y ) != 4 )
{
aErrorMsg.Printf( wxT( "Eeschema file Segment struct error at line %d, aborted" ),
aLine.LineNumber() );
aErrorMsg << wxT( "\n" ) << FROM_UTF8( (char*) aLine );
return false;
}
return true;
}
int SCH_LINE::GetPenSize() const
{
int pensize = ( m_width == 0 ) ? GetDefaultLineThickness() : m_width;
if( m_Layer == LAYER_BUS )
{
pensize = ( m_width == 0 ) ? GetDefaultBusThickness() : m_width;
}
return pensize;
}
void SCH_LINE::Draw( EDA_DRAW_PANEL* panel, wxDC* DC, const wxPoint& offset,
GR_DRAWMODE DrawMode, EDA_COLOR_T Color )
{
EDA_COLOR_T color;
int width = GetPenSize();
if( Color >= 0 )
color = Color;
else
color = ReturnLayerColor( m_Layer );
GRSetDrawMode( DC, DrawMode );
wxPoint start = m_start;
wxPoint end = m_end;
if( ( m_Flags & STARTPOINT ) == 0 )
start += offset;
if( ( m_Flags & ENDPOINT ) == 0 )
end += offset;
if( m_Layer == LAYER_NOTES )
GRDashedLine( panel->GetClipBox(), DC, start.x, start.y, end.x, end.y, width, color );
else
GRLine( panel->GetClipBox(), DC, start, end, width, color );
if( m_startIsDangling )
DrawDanglingSymbol( panel, DC, start, color );
if( m_endIsDangling )
DrawDanglingSymbol( panel, DC, end, color );
}
void SCH_LINE::MirrorX( int aXaxis_position )
{
m_start.y -= aXaxis_position;
NEGATE( m_start.y );
m_start.y += aXaxis_position;
m_end.y -= aXaxis_position;
NEGATE( m_end.y );
m_end.y += aXaxis_position;
}
void SCH_LINE::MirrorY( int aYaxis_position )
{
m_start.x -= aYaxis_position;
NEGATE( m_start.x );
m_start.x += aYaxis_position;
m_end.x -= aYaxis_position;
NEGATE( m_end.x );
m_end.x += aYaxis_position;
}
void SCH_LINE::Rotate( wxPoint aPosition )
{
RotatePoint( &m_start, aPosition, 900 );
RotatePoint( &m_end, aPosition, 900 );
}
/*
* helper sort function, used by MergeOverlap
* sorts ref and test by x values, or (for same x values) by y values
*/
bool sort_by_ends_position(const wxPoint * ref, const wxPoint * tst )
{
if( ref->x == tst->x )
return ref->y < tst->y;
return ref->x < tst->x;
}
/*
* MergeOverlap try to merge 2 lines that are colinear.
* this function expects these 2 lines have at least a common end
*/
bool SCH_LINE::MergeOverlap( SCH_LINE* aLine )
{
wxCHECK_MSG( aLine != NULL && aLine->Type() == SCH_LINE_T, false,
wxT( "Cannot test line segment for overlap." ) );
if( this == aLine || GetLayer() != aLine->GetLayer() )
return false;
// Search for a common end:
if( m_start == aLine->m_start )
{
if( m_end == aLine->m_end ) // Trivial case
return true;
}
else if( m_start == aLine->m_end )
{
if( m_end == aLine->m_start ) // Trivial case
return true;
}
else if( m_end == aLine->m_end )
{
EXCHG( aLine->m_start, aLine->m_end );
}
else if( m_end != aLine->m_start )
{
// No common end point, segments cannot be merged.
return false;
}
bool colinear = false;
/* Test alignment: */
if( m_start.y == m_end.y ) // Horizontal segment
{
if( aLine->m_start.y == aLine->m_end.y )
{
colinear = true;
}
}
else if( m_start.x == m_end.x ) // Vertical segment
{
if( aLine->m_start.x == aLine->m_end.x )
{
colinear = true;
}
}
else
{
if( atan2( (double) ( m_start.x - m_end.x ), (double) ( m_start.y - m_end.y ) )
== atan2( (double) ( aLine->m_start.x - aLine->m_end.x ),
(double) ( aLine->m_start.y - aLine->m_end.y ) ) )
{
colinear = true;
}
}
// Make a segment which merge the 2 segments
// we must find the extremums
// i.e. the more to the left and to the right points, or
// for horizontal segments the uppermost and the lowest point
if( colinear )
{
static std::vector <wxPoint*> candidates;
candidates.clear();
candidates.push_back( &m_start );
candidates.push_back( &m_end );
candidates.push_back( &aLine->m_start );
candidates.push_back( &aLine->m_end );
sort( candidates.begin(), candidates.end(), sort_by_ends_position );
wxPoint tmp = *candidates[3];
m_start = *candidates[0];
m_end = tmp;
return true;
}
return false;
}
void SCH_LINE::GetEndPoints( std::vector <DANGLING_END_ITEM>& aItemList )
{
if( GetLayer() == LAYER_NOTES )
return;
if( ( GetLayer() == LAYER_BUS ) || ( GetLayer() == LAYER_WIRE ) )
{
DANGLING_END_ITEM item( (GetLayer() == LAYER_BUS) ? BUS_START_END : WIRE_START_END, this,
m_start );
aItemList.push_back( item );
DANGLING_END_ITEM item1( (GetLayer() == LAYER_BUS) ? BUS_END_END : WIRE_END_END, this,
m_end );
aItemList.push_back( item1 );
}
}
bool SCH_LINE::IsDanglingStateChanged( std::vector< DANGLING_END_ITEM >& aItemList )
{
bool previousStartState = m_startIsDangling;
bool previousEndState = m_endIsDangling;
m_startIsDangling = m_endIsDangling = true;
if( GetLayer() == LAYER_WIRE )
{
BOOST_FOREACH( DANGLING_END_ITEM item, aItemList )
{
if( item.GetItem() == this )
continue;
if( m_start == item.GetPosition() )
m_startIsDangling = false;
if( m_end == item.GetPosition() )
m_endIsDangling = false;
if( (m_startIsDangling == false) && (m_endIsDangling == false) )
break;
}
}
else if( GetLayer() == LAYER_BUS || GetLayer() == LAYER_NOTES )
{
// Lines on the notes layer and the bus layer cannot be tested for dangling ends.
previousStartState = previousEndState = m_startIsDangling = m_endIsDangling = false;
}
return ( previousStartState != m_startIsDangling ) || ( previousEndState != m_endIsDangling );
}
bool SCH_LINE::IsSelectStateChanged( const wxRect& aRect )
{
bool previousState = IsSelected();
if( aRect.Contains( m_start ) && aRect.Contains( m_end ) )
{
m_Flags |= SELECTED;
m_Flags &= ~(STARTPOINT | ENDPOINT);
}
else if( aRect.Contains( m_start ) )
{
m_Flags &= ~STARTPOINT;
m_Flags |= ( SELECTED | ENDPOINT );
}
else if( aRect.Contains( m_end ) )
{
m_Flags &= ~ENDPOINT;
m_Flags |= ( SELECTED | STARTPOINT );
}
else
{
m_Flags &= ~( SELECTED | STARTPOINT | ENDPOINT );
}
return previousState != IsSelected();
}
bool SCH_LINE::IsConnectable() const
{
if( m_Layer == LAYER_WIRE || m_Layer == LAYER_BUS )
return true;
return false;
}
void SCH_LINE::GetConnectionPoints( vector< wxPoint >& aPoints ) const
{
aPoints.push_back( m_start );
aPoints.push_back( m_end );
}
wxString SCH_LINE::GetSelectMenuText() const
{
wxString menuText, txtfmt, orient;
if( m_start.x == m_end.x )
orient = _("Vert.");
else if( m_start.y == m_end.y )
orient = _("Horiz.");
switch( m_Layer )
{
case LAYER_NOTES:
txtfmt = _( "%s Graphic Line from (%s,%s) to (%s,%s) " );
break;
case LAYER_WIRE:
txtfmt = _( "%s Wire from (%s,%s) to (%s,%s)" );
break;
case LAYER_BUS:
txtfmt = _( "%s Bus from (%s,%s) to (%s,%s)" );
break;
default:
txtfmt += _( "%s Line on Unknown Layer from (%s,%s) to (%s,%s)" );
}
menuText.Printf( txtfmt, GetChars( orient ),
GetChars( CoordinateToString( m_start.x ) ),
GetChars( CoordinateToString( m_start.y ) ),
GetChars( CoordinateToString( m_end.x ) ),
GetChars( CoordinateToString( m_end.y ) ) );
return menuText;
}
BITMAP_DEF SCH_LINE::GetMenuImage() const
{
if( m_Layer == LAYER_NOTES )
return add_dashed_line_xpm;
else if( m_Layer == LAYER_WIRE )
return add_line_xpm;
return add_bus_xpm;
}
void SCH_LINE::GetNetListItem( vector<NETLIST_OBJECT*>& aNetListItems,
SCH_SHEET_PATH* aSheetPath )
{
// Net list item not required for graphic lines.
if( (GetLayer() != LAYER_BUS) && (GetLayer() != LAYER_WIRE) )
return;
NETLIST_OBJECT* item = new NETLIST_OBJECT();
item->m_SheetList = *aSheetPath;
item->m_SheetListInclude = *aSheetPath;
item->m_Comp = (SCH_ITEM*) this;
item->m_Start = m_start;
item->m_End = m_end;
if( GetLayer() == LAYER_BUS )
{
item->m_Type = NET_BUS;
}
else /* WIRE */
{
item->m_Type = NET_SEGMENT;
}
aNetListItems.push_back( item );
}
bool SCH_LINE::operator <( const SCH_ITEM& aItem ) const
{
if( Type() != aItem.Type() )
return Type() < aItem.Type();
SCH_LINE* line = (SCH_LINE*) &aItem;
if( GetLength() != line->GetLength() )
return GetLength() < line->GetLength();
if( m_start.x != line->m_start.x )
return m_start.x < line->m_start.x;
if( m_start.y != line->m_start.y )
return m_start.y < line->m_start.y;
return false;
}
bool SCH_LINE::HitTest( const wxPoint& aPosition, int aAccuracy ) const
{
return TestSegmentHit( aPosition, m_start, m_end, aAccuracy );
}
bool SCH_LINE::HitTest( const EDA_RECT& aRect, bool aContained, int aAccuracy ) const
{
if( m_Flags & STRUCT_DELETED || m_Flags & SKIP_STRUCT )
return false;
EDA_RECT rect = aRect;
rect.Inflate( aAccuracy );
if( aContained )
return rect.Contains( GetBoundingBox() );
return rect.Intersects( GetBoundingBox() );
}
bool SCH_LINE::doIsConnected( const wxPoint& aPosition ) const
{
if( m_Layer != LAYER_WIRE && m_Layer != LAYER_BUS )
return false;
return IsEndPoint( aPosition );
}
void SCH_LINE::Plot( PLOTTER* aPlotter )
{
aPlotter->SetColor( ReturnLayerColor( GetLayer() ) );
aPlotter->SetCurrentLineWidth( GetPenSize() );
if( m_Layer == LAYER_NOTES )
aPlotter->SetDash( true );
aPlotter->MoveTo( m_start );
aPlotter->FinishTo( m_end );
if( m_Layer == LAYER_NOTES )
aPlotter->SetDash( false );
}
void SCH_LINE::SetPosition( const wxPoint& aPosition )
{
m_end = m_end - ( m_start - aPosition );
m_start = aPosition;
}
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