kicad/pcbnew/magnetic_tracks_functions.cpp

/********************************************************/
/* magnetic_tracks_functions.cpp */
/********************************************************/

/* functions used to controle the cursor position, when creating a track
 * and when the "magnetic tracks" option is on
 * (the current created track is kept near existing tracks
 *  the distance is the clearance between tracks)
 */

#include "fctsys.h"
#include "common.h"
#include "pcbnew.h"
#include "wxPcbStruct.h"
#include "class_board_design_settings.h"
#include "protos.h"
#include "pcbnew_id.h"


/**
 * Function Join
 * finds the point where line segment (b1,b0) intersects with segment (a1,a0).
 * If that point would be outside of (a0,a1), the respective endpoint is used.
 * Join returns the point in "res" and "true" if a suitable point was found,
 * "false" if both lines are parallel or if the length of either segment is zero.
 */
static bool Join( wxPoint* res, wxPoint a0, wxPoint a1, wxPoint b0, wxPoint b1 )
{
    /* References:
        http://local.wasp.uwa.edu.au/~pbourke/geometry/lineline2d/
        http://www.gekkou.co.uk/blogs/monologues/2007/12/13/1197586800000.html
    */

    double  denom;
    double  t;

    // if either segment is zero length
    if( a1.x==a0.x && a1.y==a0.y )
        return false;

    if( b1.x==b0.x && b1.y==b0.y )
        return false;

    a1 -= a0;
    b1 -= b0;

    b0 -= a0;

    denom = (double) b1.y * a1.x - (double) b1.x * a1.y;
    if( !denom )
    {
        return false;       // parallel
    }

    t = ((double) b1.y * b0.x - (double) b1.x * b0.y ) / denom;

    t = min( max( t, 0.0 ), 1.0 );

    res->x = wxRound( a0.x + t * a1.x );
    res->y = wxRound( a0.y + t * a1.y );

    return true;
}


/*
 * "Project" finds the projection of a grid point on a track. This is the point
 * from where we want to draw new orthogonal tracks when starting on a track.
 */
bool Project( wxPoint* res, wxPoint on_grid, const TRACK* track )
{
    if( track->m_Start == track->m_End )
        return false;

    wxPoint vec = track->m_End - track->m_Start;

    double t = double( on_grid.x - track->m_Start.x ) * vec.x +
        double( on_grid.y - track->m_Start.y ) * vec.y;

    t /= (double) vec.x * vec.x + (double) vec.y * vec.y;
    t = min( max( t, 0.0 ), 1.0 );

    res->x = wxRound( track->m_Start.x + t * vec.x );
    res->y = wxRound( track->m_Start.y + t * vec.y );

    return true;
}


/**
 * Function Magnetize
 * tests to see if there are any magnetic items within near reach of the given
 * "curpos".  If yes, then curpos is adjusted appropriately according to that
 * near magnetic item and true is returned.
 * @param curpos The initial position, and what to adjust if a change is needed.
 * @return bool - true if the position was adjusted magnetically, else false.
 */
bool Magnetize( BOARD* m_Pcb, WinEDA_PcbFrame* frame,
                       int aCurrentTool, wxSize grid, wxPoint on_grid, wxPoint* curpos )
{
    bool    doCheckNet = g_MagneticPadOption != capture_always && Drc_On;
    bool    doTrack = false;
    bool    doPad = false;
    bool    amMovingVia = false;

    TRACK*      currTrack = g_CurrentTrackSegment;
    BOARD_ITEM* currItem  = frame->GetCurItem();

    // D( printf( "currTrack=%p currItem=%p currTrack->Type()=%d currItem->Type()=%d\n",  currTrack, currItem, currTrack ? currTrack->Type() : 0, currItem ? currItem->Type() : 0 ); )

    if( !currTrack && currItem && currItem->Type()==TYPE_VIA && currItem->m_Flags )
    {
        // moving a VIA
        currTrack = (TRACK*) currItem;
        amMovingVia = true;

        return false;   // comment this return out and play with it.
    }
    else if( currItem != currTrack )
    {
        currTrack = NULL;
    }


    if( g_MagneticPadOption == capture_always )
        doPad = true;

    if( g_MagneticTrackOption == capture_always )
        doTrack = true;

    if( aCurrentTool == ID_TRACK_BUTT || amMovingVia )
    {
        int q = capture_cursor_in_track_tool;

        if( g_MagneticPadOption == q )
            doPad = true;

        if( g_MagneticTrackOption == q )
            doTrack = true;
    }

    // D(printf("doPad=%d doTrack=%d aCurrentTool=%d amMovingVia=%d\n", doPad, doTrack, aCurrentTool, amMovingVia );)

    //  The search precedence order is pads, then tracks/vias

    if( doPad )
    {
        D_PAD* pad = Locate_Any_Pad( m_Pcb, CURSEUR_OFF_GRILLE, TRUE );
        if( pad )
        {
            if( doCheckNet && currTrack && currTrack->GetNet() != pad->GetNet() )
                return false;

            *curpos = pad->m_Pos;
            return true;
        }
    }

    // after pads, only track & via tests remain, skip them if not desired
    if( doTrack )
    {
        int     layer = ( (PCB_SCREEN*) ActiveScreen )->m_Active_Layer;

        for( TRACK* via = m_Pcb->m_Track;
             via && (via = Locate_Via_Area( via, *curpos, layer )) != NULL;
             via = via->Next() )
        {
            if( via != currTrack )   // a via cannot influence itself
            {
                if( !doCheckNet || !currTrack || currTrack->GetNet() == via->GetNet() )
                {
                    *curpos = via->m_Start;
                    // D(printf("via hit\n");)
                    return true;
                }
            }
            else
            {
                //D( printf( "skipping self\n" ); )
            }
        }

        if( !currTrack )
        {
            int layer_mask = g_TabOneLayerMask[layer];

            TRACK* track = Locate_Pistes( m_Pcb, m_Pcb->m_Track, layer_mask, CURSEUR_OFF_GRILLE );
            if( !track || track->Type() != TYPE_TRACK )
            {
                // D(printf("!currTrack and track=%p not found, layer_mask=0x%X\n", track, layer_mask );)
                return false;
            }

            // D( printf( "Project\n" ); )
            return Project( curpos, on_grid, track );
        }

        /*
         * In two segment mode, ignore the final segment if it's inside a grid
         * square.
         */
        if( !amMovingVia && currTrack && g_TwoSegmentTrackBuild && currTrack->Back()
            && currTrack->m_Start.x - grid.x < currTrack->m_End.x
            && currTrack->m_Start.x + grid.x > currTrack->m_End.x
            && currTrack->m_Start.y - grid.y < currTrack->m_End.y
            && currTrack->m_Start.y + grid.y > currTrack->m_End.y )
        {
            currTrack = currTrack->Back();
        }


        for( TRACK* track = m_Pcb->m_Track;  track;  track = track->Next() )
        {
            if( track->Type() != TYPE_TRACK )
                continue;

            if( doCheckNet && currTrack && currTrack->GetNet() != track->GetNet() )
                continue;

            if( m_Pcb->IsLayerVisible( track->GetLayer() ) == false )
                continue;

            // omit the layer check if moving a via
            if( !amMovingVia && !track->IsOnLayer( layer ) )
                continue;

            if( !track->HitTest( *curpos ) )
                continue;

            D(printf( "have track prospect\n");)

            if( Join( curpos, track->m_Start, track->m_End, currTrack->m_Start, currTrack->m_End ) )
            {
                // D(printf( "join currTrack->Type()=%d\n", currTrack->Type() );)
                return true;
            }

            if( aCurrentTool == ID_TRACK_BUTT || amMovingVia )
            {
                // At this point we have a drawing mouse on a track, we are drawing
                // a new track and that new track is parallel to the track the
                // mouse is on. Find the nearest end point of the track under mouse
                // to the mouse and return that.
                double distStart = hypot( double( curpos->x - track->m_Start.x ),
                                          double( curpos->y - track->m_Start.y ));

                double distEnd   = hypot( double( curpos->x - track->m_End.x ),
                                          double( curpos->y - track->m_End.y ));

                // if track not via, or if its a via dragging but not with its adjacent track
                if( currTrack->Type() != TYPE_VIA
                    || ( currTrack->m_Start != track->m_Start && currTrack->m_Start != track->m_End ))
                {
                    if( distStart <= currTrack->m_Width/2 )
                    {
                        // D(printf("nearest end is start\n");)
                        *curpos = track->m_Start;
                        return true;
                    }

                    if( distEnd <= currTrack->m_Width/2 )
                    {
                        // D(printf("nearest end is end\n");)
                        *curpos = track->m_End;
                        return true;
                    }

                    // @todo otherwise confine curpos such that it stays centered
                    // within "track"
                }
            }
        }
    }

    return false;
}
Netclasses work continued Fixed problems in libedit and crashes when no component loaded 2009-10-10 17:27:53 +00:00			`/********************************************************/`
			`/* magnetic_tracks_functions.cpp */`
			`/********************************************************/`

			`/* functions used to controle the cursor position, when creating a track`
			`* and when the "magnetic tracks" option is on`
			`* (the current created track is kept near existing tracks`
			`* the distance is the clearance between tracks)`
			`*/`

			`#include "fctsys.h"`
			`#include "common.h"`
			`#include "pcbnew.h"`
			`#include "wxPcbStruct.h"`
code and files cleanup 2009-10-28 11:48:47 +00:00			`#include "class_board_design_settings.h"`
Netclasses work continued Fixed problems in libedit and crashes when no component loaded 2009-10-10 17:27:53 +00:00			`#include "protos.h"`
			`#include "pcbnew_id.h"`


			`/**`
			`* Function Join`
			`* finds the point where line segment (b1,b0) intersects with segment (a1,a0).`
			`* If that point would be outside of (a0,a1), the respective endpoint is used.`
			`* Join returns the point in "res" and "true" if a suitable point was found,`
			`* "false" if both lines are parallel or if the length of either segment is zero.`
			`*/`
			`static bool Join( wxPoint* res, wxPoint a0, wxPoint a1, wxPoint b0, wxPoint b1 )`
			`{`
			`/* References:`
			`http://local.wasp.uwa.edu.au/~pbourke/geometry/lineline2d/`
			`http://www.gekkou.co.uk/blogs/monologues/2007/12/13/1197586800000.html`
			`*/`

			`double denom;`
			`double t;`

			`// if either segment is zero length`
			`if( a1.x==a0.x && a1.y==a0.y )`
			`return false;`

			`if( b1.x==b0.x && b1.y==b0.y )`
			`return false;`

			`a1 -= a0;`
			`b1 -= b0;`

			`b0 -= a0;`

			`denom = (double) b1.y * a1.x - (double) b1.x * a1.y;`
			`if( !denom )`
			`{`
			`return false; // parallel`
			`}`

			`t = ((double) b1.y * b0.x - (double) b1.x * b0.y ) / denom;`

			`t = min( max( t, 0.0 ), 1.0 );`

			`res->x = wxRound( a0.x + t * a1.x );`
			`res->y = wxRound( a0.y + t * a1.y );`

			`return true;`
			`}`


			`/*`
			`* "Project" finds the projection of a grid point on a track. This is the point`
			`* from where we want to draw new orthogonal tracks when starting on a track.`
			`*/`
			`bool Project( wxPoint* res, wxPoint on_grid, const TRACK* track )`
			`{`
			`if( track->m_Start == track->m_End )`
			`return false;`

			`wxPoint vec = track->m_End - track->m_Start;`

			`double t = double( on_grid.x - track->m_Start.x ) * vec.x +`
			`double( on_grid.y - track->m_Start.y ) * vec.y;`

			`t /= (double) vec.x * vec.x + (double) vec.y * vec.y;`
			`t = min( max( t, 0.0 ), 1.0 );`

			`res->x = wxRound( track->m_Start.x + t * vec.x );`
			`res->y = wxRound( track->m_Start.y + t * vec.y );`

			`return true;`
			`}`


			`/**`
			`* Function Magnetize`
			`* tests to see if there are any magnetic items within near reach of the given`
			`* "curpos". If yes, then curpos is adjusted appropriately according to that`
			`* near magnetic item and true is returned.`
			`* @param curpos The initial position, and what to adjust if a change is needed.`
			`* @return bool - true if the position was adjusted magnetically, else false.`
			`*/`
			`bool Magnetize( BOARD* m_Pcb, WinEDA_PcbFrame* frame,`
			`int aCurrentTool, wxSize grid, wxPoint on_grid, wxPoint* curpos )`
			`{`
			`bool doCheckNet = g_MagneticPadOption != capture_always && Drc_On;`
			`bool doTrack = false;`
			`bool doPad = false;`
			`bool amMovingVia = false;`

			`TRACK* currTrack = g_CurrentTrackSegment;`
			`BOARD_ITEM* currItem = frame->GetCurItem();`

			`// D( printf( "currTrack=%p currItem=%p currTrack->Type()=%d currItem->Type()=%d\n", currTrack, currItem, currTrack ? currTrack->Type() : 0, currItem ? currItem->Type() : 0 ); )`

			`if( !currTrack && currItem && currItem->Type()==TYPE_VIA && currItem->m_Flags )`
			`{`
			`// moving a VIA`
			`currTrack = (TRACK*) currItem;`
			`amMovingVia = true;`

			`return false; // comment this return out and play with it.`
			`}`
			`else if( currItem != currTrack )`
			`{`
			`currTrack = NULL;`
			`}`


			`if( g_MagneticPadOption == capture_always )`
			`doPad = true;`

			`if( g_MagneticTrackOption == capture_always )`
			`doTrack = true;`

			`if( aCurrentTool == ID_TRACK_BUTT \|\| amMovingVia )`
			`{`
			`int q = capture_cursor_in_track_tool;`

			`if( g_MagneticPadOption == q )`
			`doPad = true;`

			`if( g_MagneticTrackOption == q )`
			`doTrack = true;`
			`}`

			`// D(printf("doPad=%d doTrack=%d aCurrentTool=%d amMovingVia=%d\n", doPad, doTrack, aCurrentTool, amMovingVia );)`

			`// The search precedence order is pads, then tracks/vias`

			`if( doPad )`
			`{`
			`D_PAD* pad = Locate_Any_Pad( m_Pcb, CURSEUR_OFF_GRILLE, TRUE );`
			`if( pad )`
			`{`
			`if( doCheckNet && currTrack && currTrack->GetNet() != pad->GetNet() )`
			`return false;`

			`*curpos = pad->m_Pos;`
			`return true;`
			`}`
			`}`

			`// after pads, only track & via tests remain, skip them if not desired`
			`if( doTrack )`
			`{`
			`int layer = ( (PCB_SCREEN*) ActiveScreen )->m_Active_Layer;`

			`for( TRACK* via = m_Pcb->m_Track;`
			`via && (via = Locate_Via_Area( via, *curpos, layer )) != NULL;`
			`via = via->Next() )`
			`{`
			`if( via != currTrack ) // a via cannot influence itself`
			`{`
			`if( !doCheckNet \|\| !currTrack \|\| currTrack->GetNet() == via->GetNet() )`
			`{`
			`*curpos = via->m_Start;`
			`// D(printf("via hit\n");)`
			`return true;`
			`}`
			`}`
			`else`
			`{`
			`//D( printf( "skipping self\n" ); )`
			`}`
			`}`

			`if( !currTrack )`
			`{`
			`int layer_mask = g_TabOneLayerMask[layer];`

pcbnew: More about work on color selection and items visibility: removed global variables and a lot of redundancies 2010-01-31 20:01:46 +00:00			`TRACK* track = Locate_Pistes( m_Pcb, m_Pcb->m_Track, layer_mask, CURSEUR_OFF_GRILLE );`
Netclasses work continued Fixed problems in libedit and crashes when no component loaded 2009-10-10 17:27:53 +00:00			`if( !track \|\| track->Type() != TYPE_TRACK )`
			`{`
			`// D(printf("!currTrack and track=%p not found, layer_mask=0x%X\n", track, layer_mask );)`
			`return false;`
			`}`

			`// D( printf( "Project\n" ); )`
			`return Project( curpos, on_grid, track );`
			`}`

			`/*`
			`* In two segment mode, ignore the final segment if it's inside a grid`
			`* square.`
			`*/`
			`if( !amMovingVia && currTrack && g_TwoSegmentTrackBuild && currTrack->Back()`
			`&& currTrack->m_Start.x - grid.x < currTrack->m_End.x`
			`&& currTrack->m_Start.x + grid.x > currTrack->m_End.x`
			`&& currTrack->m_Start.y - grid.y < currTrack->m_End.y`
			`&& currTrack->m_Start.y + grid.y > currTrack->m_End.y )`
			`{`
			`currTrack = currTrack->Back();`
			`}`


			`for( TRACK* track = m_Pcb->m_Track; track; track = track->Next() )`
			`{`
			`if( track->Type() != TYPE_TRACK )`
			`continue;`

			`if( doCheckNet && currTrack && currTrack->GetNet() != track->GetNet() )`
			`continue;`

pcbnew: More about work on color selection and items visibility: removed global variables and a lot of redundancies 2010-01-31 20:01:46 +00:00			`if( m_Pcb->IsLayerVisible( track->GetLayer() ) == false )`
Netclasses work continued Fixed problems in libedit and crashes when no component loaded 2009-10-10 17:27:53 +00:00			`continue;`

			`// omit the layer check if moving a via`
			`if( !amMovingVia && !track->IsOnLayer( layer ) )`
			`continue;`

			`if( !track->HitTest( *curpos ) )`
			`continue;`

			`D(printf( "have track prospect\n");)`

			`if( Join( curpos, track->m_Start, track->m_End, currTrack->m_Start, currTrack->m_End ) )`
			`{`
			`// D(printf( "join currTrack->Type()=%d\n", currTrack->Type() );)`
			`return true;`
			`}`

			`if( aCurrentTool == ID_TRACK_BUTT \|\| amMovingVia )`
			`{`
			`// At this point we have a drawing mouse on a track, we are drawing`
			`// a new track and that new track is parallel to the track the`
			`// mouse is on. Find the nearest end point of the track under mouse`
			`// to the mouse and return that.`
			`double distStart = hypot( double( curpos->x - track->m_Start.x ),`
			`double( curpos->y - track->m_Start.y ));`

			`double distEnd = hypot( double( curpos->x - track->m_End.x ),`
			`double( curpos->y - track->m_End.y ));`

			`// if track not via, or if its a via dragging but not with its adjacent track`
			`if( currTrack->Type() != TYPE_VIA`
			`\|\| ( currTrack->m_Start != track->m_Start && currTrack->m_Start != track->m_End ))`
			`{`
			`if( distStart <= currTrack->m_Width/2 )`
			`{`
			`// D(printf("nearest end is start\n");)`
			`*curpos = track->m_Start;`
			`return true;`
			`}`

			`if( distEnd <= currTrack->m_Width/2 )`
			`{`
			`// D(printf("nearest end is end\n");)`
			`*curpos = track->m_End;`
			`return true;`
			`}`

			`// @todo otherwise confine curpos such that it stays centered`
			`// within "track"`
			`}`
			`}`
			`}`
			`}`

			`return false;`
			`}`