summaryrefslogtreecommitdiff
path: root/app/bin/tcurve.c
diff options
context:
space:
mode:
Diffstat (limited to 'app/bin/tcurve.c')
-rw-r--r--app/bin/tcurve.c1061
1 files changed, 656 insertions, 405 deletions
diff --git a/app/bin/tcurve.c b/app/bin/tcurve.c
index f133dc7..65b6bcc 100644
--- a/app/bin/tcurve.c
+++ b/app/bin/tcurve.c
@@ -17,7 +17,7 @@
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "ccurve.h"
@@ -33,13 +33,13 @@
static TRKTYP_T T_CURVE = -1;
typedef struct extraDataCurve_t {
- extraDataBase_t base;
- coOrd pos;
- DIST_T radius;
- BOOL_T circle;
- long helixTurns;
- coOrd descriptionOff;
- } extraDataCurve_t;
+ extraDataBase_t base;
+ coOrd pos;
+ DIST_T radius;
+ BOOL_T circle;
+ long helixTurns;
+ coOrd descriptionOff;
+} extraDataCurve_t;
static int log_curve = 0;
static int log_curveSegs = 0;
@@ -54,20 +54,21 @@ static DIST_T GetLengthCurve( track_p );
static void GetCurveAngles( ANGLE_T *a0, ANGLE_T *a1, track_p trk )
{
- assert( trk != NULL );
+ CHECK( trk != NULL );
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
if (xx->circle != TRUE) {
*a0 = NormalizeAngle( GetTrkEndAngle(trk,0) + 90 );
*a1 = NormalizeAngle(
- GetTrkEndAngle(trk,1) - GetTrkEndAngle(trk,0) + 180 );
+ GetTrkEndAngle(trk,1) - GetTrkEndAngle(trk,0) + 180 );
} else {
*a0 = 0.0;
*a1 = 360.0;
}
-LOG( log_curve, 4, ( "getCurveAngles: = %0.3f %0.3f\n", *a0, *a1 ) )
+ LOG( log_curve, 4, ( "getCurveAngles: = %0.3f %0.3f\n", *a0, *a1 ) )
}
-static void SetCurveAngles( track_p p, ANGLE_T a0, ANGLE_T a1, struct extraDataCurve_t * xx )
+static void SetCurveAngles( track_p p, ANGLE_T a0, ANGLE_T a1,
+ struct extraDataCurve_t * xx )
{
coOrd pos0, pos1;
xx->circle = (a0 == 0.0 && a1 == 0.0);
@@ -106,14 +107,13 @@ static void AdjustCurveEndPt( track_p t, EPINX_T inx, ANGLE_T a )
{
coOrd pos;
ANGLE_T aa;
- if (GetTrkType(t) != T_CURVE) {
- AbortProg( "AdjustCurveEndPt( %d, %d ) not on CURVE %d",
- GetTrkIndex(t), inx, GetTrkType(t) );
- return;
- }
+ CHECKMSG( GetTrkType(t) == T_CURVE,
+ ( "AdjustCurveEndPt( %d, %d ) not on CURVE %d",
+ GetTrkIndex(t), inx, GetTrkType(t) ) );
struct extraDataCurve_t *xx = GET_EXTRA_DATA(t, T_CURVE, extraDataCurve_t);
UndoModify( t );
-LOG( log_curve, 1, ( "adjustCurveEndPt T%d[%d] a=%0.3f\n", GetTrkIndex(t), inx, a ) )
+ LOG( log_curve, 1, ( "adjustCurveEndPt T%d[%d] a=%0.3f\n", GetTrkIndex(t), inx,
+ a ) )
aa = a = NormalizeAngle(a);
a += inx==0?90.0:-90.0;
(void)PointOnCircle( &pos, xx->pos, xx->radius, a );
@@ -123,9 +123,9 @@ LOG( log_curve, 1, ( "adjustCurveEndPt T%d[%d] a=%0.3f\n", GetTrkIndex(t), inx,
SetTrkEndPoint( t, 1-inx, pos, a );
xx->circle = 0;
}
-LOG( log_curve, 1, ( " E0:[%0.3f %0.3f] A%0.3f, E1:[%0.3f %0.3f] A%0.3f\n",
- GetTrkEndPosXY(t,0), GetTrkEndAngle(t,0),
- GetTrkEndPosXY(t,1), GetTrkEndAngle(t,1) ) )
+ LOG( log_curve, 1, ( " E0:[%0.3f %0.3f] A%0.3f, E1:[%0.3f %0.3f] A%0.3f\n",
+ GetTrkEndPosXY(t,0), GetTrkEndAngle(t,0),
+ GetTrkEndPosXY(t,1), GetTrkEndAngle(t,1) ) )
ComputeCurveBoundingBox( t, xx );
CheckTrackLength( t );
}
@@ -140,8 +140,9 @@ static void GetTrkCurveCenter( track_p t, coOrd *p, DIST_T *r )
BOOL_T IsCurveCircle( track_p t )
{
struct extraDataCurve_t *xx;
- if ( GetTrkType(t) != T_CURVE )
+ if ( GetTrkType(t) != T_CURVE ) {
return FALSE;
+ }
xx = GET_EXTRA_DATA(t, T_CURVE, extraDataCurve_t);
return xx->circle || xx->helixTurns>0;
}
@@ -151,8 +152,9 @@ BOOL_T GetCurveMiddle( track_p trk, coOrd * pos )
{
struct extraDataCurve_t *xx;
ANGLE_T a0, a1;
- if ( GetTrkType(trk) != T_CURVE )
+ if ( GetTrkType(trk) != T_CURVE ) {
return FALSE;
+ }
xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
if (xx->circle || xx->helixTurns>0) {
PointOnCircle( pos, xx->pos, xx->radius, 0 );
@@ -166,54 +168,59 @@ BOOL_T GetCurveMiddle( track_p trk, coOrd * pos )
static DIST_T DistanceCurve( track_p t, coOrd * p );
DIST_T CurveDescriptionDistance(
- coOrd pos,
- track_p trk,
- coOrd * dpos,
- BOOL_T show_hidden,
- BOOL_T * hidden)
+ coOrd pos,
+ track_p trk,
+ coOrd * dpos,
+ BOOL_T show_hidden,
+ BOOL_T * hidden)
{
- coOrd p0,p1,pd;
+ coOrd pd;
+// coOrd p0,p1;
FLOAT_T ratio;
ANGLE_T a, a0, a1;
- if (hidden) *hidden = FALSE;
- if ( (GetTrkType( trk ) != T_CURVE ) || ((( GetTrkBits( trk ) & TB_HIDEDESC ) != 0) && !show_hidden))
+ if (hidden) { *hidden = FALSE; }
+ if ( (GetTrkType( trk ) != T_CURVE )
+ || ((( GetTrkBits( trk ) & TB_HIDEDESC ) != 0) && !show_hidden)) {
return DIST_INF;
+ }
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
coOrd offset = xx->descriptionOff;
- if (( GetTrkBits( trk ) & TB_HIDEDESC ) != 0) offset = zero;
+ if (( GetTrkBits( trk ) & TB_HIDEDESC ) != 0) { offset = zero; }
if ( xx->helixTurns > 0 ) {
pd.x = xx->pos.x + offset.x;
pd.y = xx->pos.y + offset.y;
- p0 = pd;
- p1 = pd;
+// p0 = pd;
+// p1 = pd;
} else {
GetCurveAngles( &a0, &a1, trk );
ratio = offset.x;
- if (!IsCurveCircle( trk ))
+ if (!IsCurveCircle( trk )) {
a = NormalizeAngle(a0 + a1/2.0 + ratio * a1/ 2.0);
- else
+ } else {
a = NormalizeAngle(360.0*ratio+a0);
+ }
ratio = offset.y+0.5;
- if (ratio<0.0) ratio = 0.0;
- if (ratio>1.0) ratio = 1.0;
+ if (ratio<0.0) { ratio = 0.0; }
+ if (ratio>1.0) { ratio = 1.0; }
Translate( &pd, xx->pos, a, xx->radius * ratio );
}
- if (hidden) *hidden = (GetTrkBits( trk ) & TB_HIDEDESC);
+ if (hidden) { *hidden = (GetTrkBits( trk ) & TB_HIDEDESC); }
*dpos = pd;
coOrd tpos = pos;
- if (DistanceCurve(trk, &tpos)<FindDistance(pd, pos))
+ if (DistanceCurve(trk, &tpos)<FindDistance(pd, pos)) {
return DistanceCurve(trk, &pos);
+ }
return FindDistance( pd, pos );
}
static void DrawCurveDescription(
- track_p trk,
- drawCmd_p d,
- wDrawColor color )
+ track_p trk,
+ drawCmd_p d,
+ wDrawColor color )
{
wFont_p fp;
coOrd pos, p0, p1;
@@ -222,10 +229,12 @@ static void DrawCurveDescription(
ANGLE_T a, a0, a1;
FLOAT_T ratio;
- if (layoutLabels == 0)
+ if (layoutLabels == 0) {
return;
- if ((labelEnable&LABELENABLE_TRKDESC)==0)
+ }
+ if ((labelEnable&LABELENABLE_TRKDESC)==0) {
return;
+ }
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
if ( xx->helixTurns > 0 ) {
@@ -235,11 +244,11 @@ static void DrawCurveDescription(
dist = GetLengthCurve( trk );
elevValid = FALSE;
if ( (!xx->circle) &&
- ComputeElev( trk, 0, FALSE, &elev0, NULL, FALSE ) &&
- ComputeElev( trk, 1, FALSE, &elev1, NULL, FALSE ) ) {
- if( elev0 == elev1 )
+ ComputeElev( trk, 0, FALSE, &elev0, NULL, FALSE ) &&
+ ComputeElev( trk, 1, FALSE, &elev1, NULL, FALSE ) ) {
+ if( elev0 == elev1 ) {
elevValid = FALSE;
- else {
+ } else {
elevValid = TRUE;
grade = fabs((elev1-elev0)/dist);
sep = grade*(xx->radius*M_PI*2.0);
@@ -248,17 +257,19 @@ static void DrawCurveDescription(
fp = wStandardFont( F_TIMES, FALSE, FALSE );
if (elevValid)
sprintf( message, _("Helix: Turns %ld L %0.2f Grade %0.1f%% Sep %0.2f"),
- xx->helixTurns,
- dist,
- grade*100.0,
- sep );
+ xx->helixTurns,
+ dist,
+ grade*100.0,
+ sep );
else
sprintf( message, _("Helix: Turns %ld L %0.2f"),
- xx->helixTurns,
- dist );
- if (color == drawColorPreviewSelected)
+ xx->helixTurns,
+ dist );
+ if (color == drawColorPreviewSelected) {
DrawLine(d,xx->pos,pos,0,color);
- DrawBoxedString( BOX_BOX, d, pos, message, fp, (wFontSize_t)descriptionFontSize, color, 0.0 );
+ }
+ DrawBoxedString( BOX_BOX, d, pos, message, fp, (wFontSize_t)descriptionFontSize,
+ color, 0.0 );
} else {
dist = trackGauge/2.0;
DrawArc( d, xx->pos, dist, 0.0, 360.0, FALSE, 0, color );
@@ -270,10 +281,11 @@ static void DrawCurveDescription(
DrawLine( d, p0, p1, 0, color );
GetCurveAngles( &a0, &a1, trk );
ratio = xx->descriptionOff.x; // 1.0 to - 1.0
- if (! IsCurveCircle( trk ))
+ if (! IsCurveCircle( trk )) {
a = NormalizeAngle(ratio*a1/2.0 + a0 + a1/2.0);
- else
+ } else {
a = NormalizeAngle(ratio*360.0+a0);
+ }
PointOnCircle( &p0, xx->pos, xx->radius, a );
coOrd end0, end1;
DIST_T off;
@@ -281,19 +293,24 @@ static void DrawCurveDescription(
Translate(&end1,xx->pos,a0+a1,xx->radius);
off = xx->radius-(cos(D2R(a1/2))*xx->radius);
ratio = xx->descriptionOff.y;
- if (ratio < -0.5) ratio = -0.5;
- if (ratio > 0.5) ratio = 0.5;
+ if (ratio < -0.5) { ratio = -0.5; }
+ if (ratio > 0.5) { ratio = 0.5; }
if (! IsCurveCircle(trk))
sprintf( message, "R %s L %s A %0.3f O %s", FormatDistance( xx->radius ),
- FormatDistance(FindDistance(end0,end1)),FindAngle(end1,end0), FormatDistance(off));
- else
- sprintf( message, "R %s L %s A 360.0", FormatDistance( xx->radius ),FormatDistance(xx->radius*2*M_PI));
- DrawDimLine( d, xx->pos, p0, message, (wFontSize_t)descriptionFontSize, ratio+0.5, 0, color, 0x00 );
+ FormatDistance(FindDistance(end0,end1)),FindAngle(end1,end0),
+ FormatDistance(off));
+ else {
+ sprintf( message, "R %s L %s A 360.0", FormatDistance( xx->radius ),
+ FormatDistance(xx->radius*2*M_PI));
+ }
+ DrawDimLine( d, xx->pos, p0, message, (wFontSize_t)descriptionFontSize,
+ ratio+0.5, 0, color, 0x00 );
if (GetTrkBits( trk ) & TB_DETAILDESC) {
coOrd details_pos;
details_pos.x = (p0.x - xx->pos.x)*(ratio+0.5) + xx->pos.x;
- details_pos.y = (p0.y - xx->pos.y)*(ratio+0.5) + xx->pos.y-(2*descriptionFontSize/mainD.dpi);
+ details_pos.y = (p0.y - xx->pos.y)*(ratio+0.5) + xx->pos.y-
+ (2*descriptionFontSize/mainD.dpi);
AddTrkDetails(d, trk, details_pos, a1/180.0*M_PI*xx->radius, color);
}
@@ -303,27 +320,27 @@ static void DrawCurveDescription(
STATUS_T CurveDescriptionMove(
- track_p trk,
- wAction_t action,
- coOrd pos )
+ track_p trk,
+ wAction_t action,
+ coOrd pos )
{
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
- static coOrd p0,p1;
- wDrawColor color;
+// static coOrd p0,p1;
+// wDrawColor color;
ANGLE_T a, a0, a1;
DIST_T d;
- p0 = xx->pos;
+// p0 = xx->pos;
- color = GetTrkColor( trk, &mainD );
+// color = GetTrkColor( trk, &mainD );
if ( xx->helixTurns > 0 ) {
xx->descriptionOff.x = (pos.x-xx->pos.x);
xx->descriptionOff.y = (pos.y-xx->pos.y);
- p1 = pos;
+// p1 = pos;
} else {
- p1 = pos;
+// p1 = pos;
GetCurveAngles( &a0, &a1, trk );
- if ( a1 < 1 ) a1 = 1.0;
+ if ( a1 < 1 ) { a1 = 1.0; }
a = FindAngle( xx->pos, pos );
if ( ! IsCurveCircle( trk ) ) {
a = NormalizeAngle( a - a0 );
@@ -341,10 +358,12 @@ STATUS_T CurveDescriptionMove(
xx->descriptionOff.x = NormalizeAngle((a - a0)/360.0);
}
d = FindDistance( xx->pos, pos ) / xx->radius;
- if ( d > 1.0 )
+ if ( d > 1.0 ) {
d = 1.0;
- if ( d < 0.0 )
+ }
+ if ( d < 0.0 ) {
d = 0.0;
+ }
xx->descriptionOff.y = d-0.5; // -0.5 to 0.5, 0 in the middle
}
@@ -358,48 +377,51 @@ STATUS_T CurveDescriptionMove(
*/
static struct {
- coOrd endPt[2];
- FLOAT_T elev[2];
- FLOAT_T length;
- coOrd center;
- DIST_T radius;
- long turns;
- DIST_T separation;
- ANGLE_T angle0;
- ANGLE_T angle1;
- ANGLE_T angle;
- FLOAT_T grade;
- descPivot_t pivot;
- unsigned int layerNumber;
- } crvData;
+ coOrd endPt[2];
+ FLOAT_T elev[2];
+ FLOAT_T length;
+ coOrd center;
+ DIST_T radius;
+ long turns;
+ DIST_T separation;
+ ANGLE_T angle0;
+ ANGLE_T angle1;
+ ANGLE_T angle;
+ FLOAT_T grade;
+ descPivot_t pivot;
+ unsigned int layerNumber;
+} crvData;
typedef enum { E0, Z0, E1, Z1, CE, RA, TU, SE, LN, AL, A1, A2, GR, PV, LY } crvDesc_e;
static descData_t crvDesc[] = {
-/*E0*/ { DESC_POS, N_("End Pt 1: X,Y"), &crvData.endPt[0] },
-/*Z0*/ { DESC_DIM, N_("Z"), &crvData.elev[0] },
-/*E1*/ { DESC_POS, N_("End Pt 2: X,Y"), &crvData.endPt[1] },
-/*Z1*/ { DESC_DIM, N_("Z"), &crvData.elev[1] },
-/*CE*/ { DESC_POS, N_("Center: X,Y"), &crvData.center },
-/*RA*/ { DESC_DIM, N_("Radius"), &crvData.radius },
-/*TU*/ { DESC_LONG, N_("Turns"), &crvData.turns },
-/*SE*/ { DESC_DIM, N_("Separation"), &crvData.separation },
-/*LN*/ { DESC_DIM, N_("Length"), &crvData.length },
-/*AL*/ { DESC_FLOAT, N_("Angular Length"), &crvData.angle },
-/*A1*/ { DESC_ANGLE, N_("CCW Angle"), &crvData.angle0 },
-/*A2*/ { DESC_ANGLE, N_("CW Angle"), &crvData.angle1 },
-/*GR*/ { DESC_FLOAT, N_("Grade"), &crvData.grade },
-/*PV*/ { DESC_PIVOT, N_("Lock"), &crvData.pivot },
-/*LY*/ { DESC_LAYER, N_("Layer"), &crvData.layerNumber },
- { DESC_NULL } };
-
-static void UpdateCurve( track_p trk, int inx, descData_p descUpd, BOOL_T final )
+ /*E0*/ { DESC_POS, N_("End Pt 1: X,Y"), &crvData.endPt[0] },
+ /*Z0*/ { DESC_DIM, N_("Z"), &crvData.elev[0] },
+ /*E1*/ { DESC_POS, N_("End Pt 2: X,Y"), &crvData.endPt[1] },
+ /*Z1*/ { DESC_DIM, N_("Z"), &crvData.elev[1] },
+ /*CE*/ { DESC_POS, N_("Center: X,Y"), &crvData.center },
+ /*RA*/ { DESC_DIM, N_("Radius"), &crvData.radius },
+ /*TU*/ { DESC_LONG, N_("Turns"), &crvData.turns },
+ /*SE*/ { DESC_DIM, N_("Separation"), &crvData.separation },
+ /*LN*/ { DESC_DIM, N_("Length"), &crvData.length },
+ /*AL*/ { DESC_FLOAT, N_("Angular Length"), &crvData.angle },
+ /*A1*/ { DESC_ANGLE, N_("CCW Angle"), &crvData.angle0 },
+ /*A2*/ { DESC_ANGLE, N_("CW Angle"), &crvData.angle1 },
+ /*GR*/ { DESC_FLOAT, N_("Grade"), &crvData.grade },
+ /*PV*/ { DESC_PIVOT, N_("Lock"), &crvData.pivot },
+ /*LY*/ { DESC_LAYER, N_("Layer"), &crvData.layerNumber },
+ { DESC_NULL }
+};
+
+static void UpdateCurve( track_p trk, int inx, descData_p descUpd,
+ BOOL_T final )
{
BOOL_T updateEndPts;
ANGLE_T a0, a1;
EPINX_T ep;
FLOAT_T turns;
- if ( inx == -1 )
+ if ( inx == -1 ) {
return;
+ }
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
struct extraDataCurve_t xx0 = *xx;
updateEndPts = FALSE;
@@ -498,12 +520,14 @@ static void UpdateCurve( track_p trk, int inx, descData_p descUpd, BOOL_T final
case Z0:
case Z1:
ep = (inx==Z0?0:1);
- UpdateTrkEndElev( trk, ep, GetTrkEndElevUnmaskedMode(trk,ep), crvData.elev[ep], NULL );
+ UpdateTrkEndElev( trk, ep, GetTrkEndElevUnmaskedMode(trk,ep), crvData.elev[ep],
+ NULL );
ComputeElev( trk, 1-ep, FALSE, &crvData.elev[1-ep], NULL, TRUE );
- if ( crvData.length > minLength )
+ if ( crvData.length > minLength ) {
crvData.grade = fabs( (crvData.elev[0]-crvData.elev[1])/crvData.length )*100.0;
- else
+ } else {
crvData.grade = 0.0;
+ }
crvDesc[GR].mode |= DESC_CHANGE;
crvDesc[inx==Z0?Z1:Z0].mode |= DESC_CHANGE;
if ( xx->helixTurns > 0 ) {
@@ -516,7 +540,7 @@ static void UpdateCurve( track_p trk, int inx, descData_p descUpd, BOOL_T final
SetTrkLayer( trk, crvData.layerNumber);
break;
default:
- AbortProg( "updateCurve: Bad inx %d", inx );
+ CHECKMSG( FALSE, ( "updateCurve: Bad inx %d", inx ) );
}
UndrawNewTrack( trk );
*xx = xx0;
@@ -539,10 +563,11 @@ static void UpdateCurve( track_p trk, int inx, descData_p descUpd, BOOL_T final
DrawCurveDescription( trk, &mainD, wDrawColorBlack );
turns = crvData.length/(2*M_PI*crvData.radius);
crvData.separation = fabs(crvData.elev[0]-crvData.elev[1])/turns;
- if ( crvData.length > minLength )
+ if ( crvData.length > minLength ) {
crvData.grade = fabs( (crvData.elev[0]-crvData.elev[1])/crvData.length )*100.0;
- else
+ } else {
crvData.grade = 0.0;
+ }
crvDesc[GR].mode |= DESC_CHANGE;
}
@@ -562,24 +587,26 @@ static void DescribeCurve( track_p trk, char * str, CSIZE_T len )
d = xx->radius * 2.0 * M_PI * a1 / 360.0;
if (xx->helixTurns > 0) {
d += (xx->helixTurns-(xx->circle?1:0)) * xx->radius * 2.0 * M_PI;
- sprintf( str, _("Helix Track(%d): Layer=%d Radius=%s Turns=%ld Length=%s Center=[%s,%s] EP=[%0.3f,%0.3f A%0.3f] [%0.3f,%0.3f A%0.3f]"),
- GetTrkIndex(trk),
- GetTrkLayer(trk)+1,
- FormatDistance(xx->radius),
- xx->helixTurns,
- FormatDistance(d),
- FormatDistance(xx->pos.x), FormatDistance(xx->pos.y),
- GetTrkEndPosXY(trk,0), GetTrkEndAngle(trk,0),
- GetTrkEndPosXY(trk,1), GetTrkEndAngle(trk,1) );
+ sprintf( str,
+ _("Helix Track(%d): Layer=%d Radius=%s Turns=%ld Length=%s Center=[%s,%s] EP=[%0.3f,%0.3f A%0.3f] [%0.3f,%0.3f A%0.3f]"),
+ GetTrkIndex(trk),
+ GetTrkLayer(trk)+1,
+ FormatDistance(xx->radius),
+ xx->helixTurns,
+ FormatDistance(d),
+ FormatDistance(xx->pos.x), FormatDistance(xx->pos.y),
+ GetTrkEndPosXY(trk,0), GetTrkEndAngle(trk,0),
+ GetTrkEndPosXY(trk,1), GetTrkEndAngle(trk,1) );
} else {
- sprintf( str, _("Curved Track(%d): Layer=%d Radius=%s Length=%s Center=[%s,%s] EP=[%0.3f,%0.3f A%0.3f] [%0.3f,%0.3f A%0.3f]"),
- GetTrkIndex(trk),
- GetTrkLayer(trk)+1,
- FormatDistance(xx->radius),
- FormatDistance(d),
- FormatDistance(xx->pos.x), FormatDistance(xx->pos.y),
- GetTrkEndPosXY(trk,0), GetTrkEndAngle(trk,0),
- GetTrkEndPosXY(trk,1), GetTrkEndAngle(trk,1) );
+ sprintf( str,
+ _("Curved Track(%d): Layer=%d Radius=%s Length=%s Center=[%s,%s] EP=[%0.3f,%0.3f A%0.3f] [%0.3f,%0.3f A%0.3f]"),
+ GetTrkIndex(trk),
+ GetTrkLayer(trk)+1,
+ FormatDistance(xx->radius),
+ FormatDistance(d),
+ FormatDistance(xx->pos.x), FormatDistance(xx->pos.y),
+ GetTrkEndPosXY(trk,0), GetTrkEndAngle(trk,0),
+ GetTrkEndPosXY(trk,1), GetTrkEndAngle(trk,1) );
}
fix0 = GetTrkEndTrk(trk,0)!=NULL;
@@ -603,10 +630,11 @@ static void DescribeCurve( track_p trk, char * str, CSIZE_T len )
}
ComputeElev( trk, 0, FALSE, &crvData.elev[0], NULL, FALSE );
ComputeElev( trk, 1, FALSE, &crvData.elev[1], NULL, FALSE );
- if ( crvData.length > minLength )
+ if ( crvData.length > minLength ) {
crvData.grade = fabs( (crvData.elev[0]-crvData.elev[1])/crvData.length )*100.0;
- else
+ } else {
crvData.grade = 0.0;
+ }
if ( xx->helixTurns > 0 ) {
turns = crvData.length/(2*M_PI*crvData.radius);
crvData.separation = fabs(crvData.elev[0]-crvData.elev[1])/turns;
@@ -614,25 +642,25 @@ static void DescribeCurve( track_p trk, char * str, CSIZE_T len )
}
crvDesc[E0].mode =
- crvDesc[E1].mode =
- crvDesc[LN].mode =
- DESC_RO;
+ crvDesc[E1].mode =
+ crvDesc[LN].mode =
+ DESC_RO;
crvDesc[Z0].mode = (EndPtIsDefinedElev(trk,0)?0:DESC_RO)|DESC_NOREDRAW;
crvDesc[Z1].mode = (EndPtIsDefinedElev(trk,1)?0:DESC_RO)|DESC_NOREDRAW;
crvDesc[GR].mode = DESC_RO;
crvDesc[CE].mode = (fix0|fix1)?DESC_RO:0;
crvDesc[RA].mode =
- crvDesc[AL].mode =
- (fix0&fix1)?DESC_RO:0;
+ crvDesc[AL].mode =
+ (fix0&fix1)?DESC_RO:0;
crvDesc[TU].mode = DESC_NOREDRAW;
crvDesc[A1].mode = fix0?DESC_RO:0;
crvDesc[A2].mode = fix1?DESC_RO:0;
crvDesc[PV].mode = (fix0|fix1)?DESC_IGNORE:0;
crvDesc[LY].mode = DESC_NOREDRAW;
crvData.pivot = (fix0&fix1)?DESC_PIVOT_NONE:
- fix0?DESC_PIVOT_FIRST:
- fix1?DESC_PIVOT_SECOND:
- DESC_PIVOT_MID;
+ fix0?DESC_PIVOT_FIRST:
+ fix1?DESC_PIVOT_SECOND:
+ DESC_PIVOT_MID;
crvDesc[SE].mode |= DESC_IGNORE;
if ( xx->circle ) {
@@ -645,10 +673,11 @@ static void DescribeCurve( track_p trk, char * str, CSIZE_T len )
crvDesc[A2].mode |= DESC_IGNORE;
crvDesc[PV].mode |= DESC_IGNORE;
}
-
+
if ( xx->helixTurns ) {
- if ( !xx->circle )
+ if ( !xx->circle ) {
crvDesc[SE].mode = DESC_RO;
+ }
DoDescribe( _("Helix Track"), trk, crvDesc, UpdateCurve );
} else if ( xx->circle ) {
crvDesc[TU].mode |= DESC_IGNORE;
@@ -676,31 +705,167 @@ static DIST_T DistanceCurve( track_p t, coOrd * p )
static void DrawCurve( track_p t, drawCmd_p d, wDrawColor color )
{
ANGLE_T a0, a1;
- track_p tt = t;
+// track_p tt = t;
long widthOptions = DTS_LEFT|DTS_RIGHT;
struct extraDataCurve_t *xx = GET_EXTRA_DATA(t, T_CURVE, extraDataCurve_t);
GetCurveAngles( &a0, &a1, t );
- if (xx->circle) {
- tt = NULL;
- }
+// if (xx->circle) {
+// tt = NULL;
+// }
if (xx->helixTurns > 0) {
a0 = 0.0;
a1 = 360.0;
}
if ( ((d->options&(DC_SIMPLE|DC_SEGTRACK))==0) &&
- (labelWhen == 2 || (labelWhen == 1 && (d->options&DC_PRINT))) &&
- labelScale >= d->scale &&
- ( GetTrkBits( t ) & TB_HIDEDESC ) == 0 ) {
+ (labelWhen == 2 || (labelWhen == 1 && (d->options&DC_PRINT))) &&
+ labelScale >= d->scale &&
+ ( GetTrkBits( t ) & TB_HIDEDESC ) == 0 ) {
DrawCurveDescription( t, d, color );
}
DrawCurvedTrack( d, xx->pos, xx->radius, a0, a1,
- t, color, widthOptions );
+ t, color, widthOptions );
DrawEndPt( d, t, 0, color );
DrawEndPt( d, t, 1, color );
}
+static void DrawCurvedTies(
+ drawCmd_p d,
+ tieData_t td,
+ coOrd p,
+ DIST_T r,
+ ANGLE_T a0,
+ ANGLE_T a1,
+ wDrawColor color )
+{
+ DIST_T len;
+ ANGLE_T ang, dang;
+ coOrd pos;
+ int cnt;
+
+ if ( (d->options&DC_SIMPLE) != 0 ) {
+ return;
+ }
+
+ if (color == wDrawColorBlack) {
+ color = tieColor;
+ }
+ len = 2*M_PI*r*a1/360.0;
+ cnt = (int)floor(len/td.spacing + 0.5);
+ if ( len - td.spacing*cnt - (td.width/2) > (td.spacing - td.width)/2 ) {
+ cnt++;
+ }
+ if ( cnt != 0 ) {
+ dang = (360.0*(len)/cnt)/(2*M_PI*r);
+ for ( ang=a0+dang/2; cnt; cnt--,ang+=dang ) {
+ PointOnCircle( &pos, p, r, ang );
+ DrawTie( d, pos, ang+90, td.length, td.width, color,
+ tieDrawMode==TIEDRAWMODE_SOLID );
+ }
+
+ }
+}
+
+EXPORT void DrawCurvedTrack(
+ drawCmd_p d,
+ coOrd p,
+ DIST_T r,
+ ANGLE_T a0,
+ ANGLE_T a1,
+ track_cp trk,
+ wDrawColor color,
+ long options )
+{
+ DIST_T trackGauge = GetTrkGauge(trk);
+ tieData_t td;
+ wDrawWidth width=0;
+ trkSeg_p segPtr;
+ long bridge = 0, roadbed = 0;
+ if(trk) {
+ bridge = GetTrkBridge( trk );
+ roadbed = GetTrkRoadbed( trk );
+ }
+
+ if ( (d->options&DC_SEGTRACK) ) {
+ DYNARR_APPEND( trkSeg_t, tempSegs_da, 10 );
+ segPtr = &tempSegs(tempSegs_da.cnt-1);
+ segPtr->type = SEG_CRVTRK;
+ segPtr->lineWidth = 0;
+ segPtr->color = wDrawColorBlack;
+ segPtr->u.c.center = p;
+ segPtr->u.c.a0 = a0;
+ segPtr->u.c.a1 = a1;
+ segPtr->u.c.radius = r;
+ return;
+ }
+
+ width = trk ? GetTrkWidth( trk ): 0;
+ if ( d->options&DC_THICK ) {
+ width = 3;
+ }
+ if ( color == wDrawColorPreviewSelected
+ || color == wDrawColorPreviewUnselected ) {
+ width = 3;
+ }
+
+ if ((d->options&DC_PRINT) && (d->dpi>2*BASE_DPI)) {
+ width = (wDrawWidth)round(width * d->dpi / 2 / BASE_DPI);
+ }
+
+ LOG(log_curve,4,("DST( (%0.3f %0.3f) R%0.3f A%0.3f..%0.3f)\n",
+ p.x, p.y, r, a0, a1 ) )
+
+ // Draw a solid background
+ if(bridge|roadbed) {
+ wDrawWidth width3 = (wDrawWidth)round(trackGauge * 3 * d->dpi / d->scale);
+ DrawArc( d, p, r, a0, a1, 0, width3, bridge?bridgeColor:roadbedColor );
+ }
+
+ if ( DoDrawTies( d, trk ) ) {
+ td = GetTrkTieData( trk );
+ DrawCurvedTies( d, td, p, r, a0, a1, color );
+ }
+ if (color == wDrawColorBlack) {
+ color = normalColor;
+ }
+ if ( ! DrawTwoRails( d, 1 ) ) {
+ DrawArc( d, p, r, a0, a1, (centerDrawMode
+ && !(options&DTS_NOCENTER)) ? 1 : 0, width, color );
+ } else {
+ if ( hasTrackCenterline(d)) {
+ long options = d->options;
+ d->options |= DC_DASH;
+ DrawArc( d, p, r, a0, a1, 0, 0, color );
+ d->options = options;
+ }
+ DrawArc( d, p, r+trackGauge/2.0, a0, a1, 0, width, color );
+ DrawArc( d, p, r-trackGauge/2.0, a0, a1, (centerDrawMode
+ && !(options&DTS_NOCENTER) ? 1: 0), width, color );
+ if ( (d->options&DC_PRINT) && roadbedWidth > trackGauge
+ && DrawTwoRails( d, 1 ) ) {
+ wDrawWidth rbw = (wDrawWidth)floor(roadbedLineWidth*(d->dpi/d->scale)+0.5);
+ if ( options&DTS_RIGHT ) {
+ DrawArc( d, p, r+roadbedWidth/2.0, a0, a1, 0, rbw, color );
+ }
+ if ( options&DTS_LEFT ) {
+ DrawArc( d, p, r-roadbedWidth/2.0, a0, a1, 0, rbw, color );
+ }
+ }
+ }
+ if (bridge) {
+ wDrawWidth width2 = (wDrawWidth)round((2.0 * d->dpi)/BASE_DPI);
+ if (d->options&DC_PRINT) {
+ width2 = (wDrawWidth)round(d->dpi / BASE_DPI);
+ }
+
+ DrawArc( d, p, r+(trackGauge*1.5), a0, a1, 0, width2, color );
+ DrawArc( d, p, r-(trackGauge*1.5), a0, a1, 0, width2, color );
+ }
+
+}
+
+
static void DeleteCurve( track_p t )
{
}
@@ -708,16 +873,22 @@ static void DeleteCurve( track_p t )
static BOOL_T WriteCurve( track_p t, FILE * f )
{
struct extraDataCurve_t *xx = GET_EXTRA_DATA(t, T_CURVE, extraDataCurve_t);
+ int bits;
long options;
BOOL_T rc = TRUE;
options = GetTrkWidth(t) & 0x0F;
if ( ( GetTrkBits(t) & TB_HIDEDESC ) == 0 )
- // 0x80 means Show Description
- options |= 0x80;
- rc &= fprintf(f, "CURVE %d %d %ld 0 0 %s %d %0.6f %0.6f 0 %0.6f %ld %0.6f %0.6f\n",
- GetTrkIndex(t), GetTrkLayer(t), (long)options,
- GetTrkScaleName(t), GetTrkVisible(t)|(GetTrkNoTies(t)?1<<2:0)|(GetTrkBridge(t)?1<<3:0), xx->pos.x, xx->pos.y, xx->radius,
- xx->helixTurns, xx->descriptionOff.x, xx->descriptionOff.y )>0;
+ // 0x80 means Show Description
+ {
+ options |= 0x80;
+ }
+ bits = GetTrkVisible(t)|(GetTrkNoTies(t)?1<<2:0)|(GetTrkBridge(t)?1<<3:0)|
+ (GetTrkRoadbed(t)?1<<4:0);
+ rc &= fprintf(f,
+ "CURVE %d %d %ld 0 0 %s %d %0.6f %0.6f 0 %0.6f %ld %0.6f %0.6f\n",
+ GetTrkIndex(t), GetTrkLayer(t), (long)options,
+ GetTrkScaleName(t), bits, xx->pos.x, xx->pos.y, xx->radius,
+ xx->helixTurns, xx->descriptionOff.x, xx->descriptionOff.y )>0;
rc &= WriteEndPt( f, t, 0 );
rc &= WriteEndPt( f, t, 1 );
rc &= fprintf(f, "\t%s\n", END_SEGS)>0;
@@ -740,16 +911,19 @@ static BOOL_T ReadCurve( char * line )
long helixTurns = 0;
coOrd descriptionOff = { 0.0, 0.0 };
- if (!GetArgs( line+6, paramVersion<3?"dXZsdpYfc":paramVersion<9?"dLl00sdpYfc":"dLl00sdpffc",
- &index, &layer, &options, scale, &visible, &p, &elev, &r, &cp ) ) {
+ if (!GetArgs( line+6, paramVersion<3?"dXZsdpYfc":paramVersion<9
+ ?"dLl00sdpYfc":"dLl00sdpffc",
+ &index, &layer, &options, scale, &visible, &p, &elev, &r, &cp ) ) {
return FALSE;
}
if (cp) {
- if ( !GetArgs( cp, "lp", &helixTurns, &descriptionOff ) )
+ if ( !GetArgs( cp, "lp", &helixTurns, &descriptionOff ) ) {
return FALSE;
+ }
}
- if ( !ReadSegs() )
+ if ( !ReadSegs() ) {
return FALSE;
+ }
t = NewTrack( index, T_CURVE, 0, sizeof *xx );
xx = GET_EXTRA_DATA(t, T_CURVE, extraDataCurve_t);
xx->helixTurns = helixTurns;
@@ -758,10 +932,12 @@ static BOOL_T ReadCurve( char * line )
SetTrkVisible(t, visible!=0);
SetTrkNoTies(t, FALSE);
SetTrkBridge(t, FALSE);
+ SetTrkRoadbed(t, FALSE);
} else {
SetTrkVisible(t, visible&2);
SetTrkNoTies(t, visible&4);
SetTrkBridge(t, visible&8);
+ SetTrkRoadbed(t, visible&16);
}
SetTrkScale(t, LookupScale(scale));
SetTrkLayer(t, layer );
@@ -774,13 +950,15 @@ static BOOL_T ReadCurve( char * line )
SetTrkBits(t,TB_HIDEDESC);
}
} else {
- if ( paramVersion < VERSION_DESCRIPTION2 || ( ( options & 0x80 ) == 0 ) )
- SetTrkBits(t,TB_HIDEDESC);
+ if ( paramVersion < VERSION_DESCRIPTION2 || ( ( options & 0x80 ) == 0 ) ) {
+ SetTrkBits(t,TB_HIDEDESC);
+ }
}
SetEndPts(t,2);
if (GetTrkEndAngle( t, 0 ) == 270.0 &&
- GetTrkEndAngle( t, 1 ) == 90.0 )
+ GetTrkEndAngle( t, 1 ) == 90.0 ) {
xx->circle = TRUE;
+ }
ComputeCurveBoundingBox( t, xx );
return TRUE;
}
@@ -808,17 +986,19 @@ static void RescaleCurve( track_p trk, FLOAT_T ratio )
xx->radius *= ratio;
}
-static ANGLE_T GetAngleCurve( track_p trk, coOrd pos, EPINX_T *ep0, EPINX_T *ep1 )
+static ANGLE_T GetAngleCurve( track_p trk, coOrd pos, EPINX_T *ep0,
+ EPINX_T *ep1 )
{
coOrd center;
DIST_T radius;
- if ( ep0 ) *ep0 = 0;
- if ( ep1 ) *ep1 = 1;
+ if ( ep0 ) { *ep0 = 0; }
+ if ( ep1 ) { *ep1 = 1; }
GetTrkCurveCenter( trk, &center, &radius );
return FindAngle( center, pos ) - 90.0;
}
-static BOOL_T SplitCurve( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover, EPINX_T * ep0, EPINX_T * ep1 )
+static BOOL_T SplitCurve( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover,
+ EPINX_T * ep0, EPINX_T * ep1 )
{
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
ANGLE_T a, a0, a1;
@@ -837,9 +1017,9 @@ static BOOL_T SplitCurve( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover,
*leftover = NULL;
return TRUE;
}
- if (ep == 0)
+ if (ep == 0) {
a1 = NormalizeAngle(a-a0);
- else {
+ } else {
a1 = NormalizeAngle(a0+a1-a);
a0 = a;
}
@@ -847,7 +1027,8 @@ static BOOL_T SplitCurve( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover,
DIST_T height;
int opt;
GetTrkEndElev(trk,ep,&opt,&height);
- UpdateTrkEndElev( trk1, 1-ep, opt, height, (opt==ELEV_STATION)?GetTrkEndElevStation(trk,ep):NULL );
+ UpdateTrkEndElev( trk1, 1-ep, opt, height,
+ (opt==ELEV_STATION)?GetTrkEndElevStation(trk,ep):NULL );
AdjustCurveEndPt( trk, ep, a+(ep==0?-90.0:90.0) );
UpdateTrkEndElev( trk, ep, ELEV_NONE, 0, NULL);
*leftover = trk1;
@@ -866,55 +1047,64 @@ static BOOL_T TraverseCurve( traverseTrack_p trvTrk, DIST_T * distR )
DIST_T circum;
DIST_T dist;
long turns;
- if ( xx->circle )
+ if ( xx->circle ) {
return FALSE;
+ }
circum = 2*M_PI*xx->radius;
GetCurveAngles( &a0, &a1, trk );
a2 = FindAngle( xx->pos, trvTrk->pos );
a = NormalizeAngle( (a2-90.0) - trvTrk->angle );
if ( xx->helixTurns <= 0 ) {
if ( NormalizeAngle(a2-a0) > a1 ) {
- if ( NormalizeAngle( a2-(a0+a1/2.0+180.0 ) ) < 180.0 )
+ if ( NormalizeAngle( a2-(a0+a1/2.0+180.0 ) ) < 180.0 ) {
a2 = a0;
- else
+ } else {
a2 = NormalizeAngle(a0+a1);
+ }
}
}
- if ( a>270 || a<90 )
+ if ( a>270 || a<90 ) {
arcDist = NormalizeAngle(a2-a0)/360.0*circum;
- else
+ } else {
arcDist = NormalizeAngle(a0+a1-a2)/360.0*circum;
+ }
if ( xx->helixTurns > 0 ) {
turns = xx->helixTurns;
- if ( NormalizeAngle(a2-a0) > a1 )
+ if ( NormalizeAngle(a2-a0) > a1 ) {
turns -= 1;
+ }
dist = (a1/360.0+xx->helixTurns)*circum;
if ( trvTrk->length < 0 ) {
trvTrk->length = dist;
trvTrk->dist = a1/360.0*circum - arcDist;
while ( trvTrk->dist < 0 ) {
- if ( trvTrk->dist > -0.1 )
+ if ( trvTrk->dist > -0.1 ) {
trvTrk->dist = 0.0;
- else
+ } else {
trvTrk->dist += circum;
+ }
}
} else {
if ( trvTrk->length != dist ) {
- printf( "traverseCurve: trvTrk->length(%0.3f) != Dist(%0.3f)\n", trvTrk->length, dist );
+ printf( "traverseCurve: trvTrk->length(%0.3f) != Dist(%0.3f)\n", trvTrk->length,
+ dist );
trvTrk->length = dist;
}
if ( trvTrk->length < trvTrk->dist ) {
- printf( "traverseCurve: trvTrk->length(%0.3f) < trvTrk->dist(%0.3f)\n", trvTrk->length, trvTrk->dist );
+ printf( "traverseCurve: trvTrk->length(%0.3f) < trvTrk->dist(%0.3f)\n",
+ trvTrk->length, trvTrk->dist );
trvTrk->dist = trvTrk->length;
}
a3 = trvTrk->dist/circum*360.0;
- if ( a>270 || a<90 )
+ if ( a>270 || a<90 ) {
a3 = (a0+a1-a3);
- else
+ } else {
a3 = (a0+a3);
+ }
a3 = NormalizeAngle(a3);
- if ( NormalizeAngle(a2-a3+1.0) > 2.0 )
+ if ( NormalizeAngle(a2-a3+1.0) > 2.0 ) {
printf( "traverseCurve: A2(%0.3f) != A3(%0.3f)\n", a2, a3 );
+ }
turns = (int)((trvTrk->length-trvTrk->dist)/circum);
}
arcDist += turns * circum;
@@ -962,15 +1152,18 @@ static BOOL_T EnumerateCurve( track_p trk )
xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
GetCurveAngles( &a0, &a1, trk );
d = (xx->radius + (GetTrkGauge(trk)/2.0))* 2.0 * M_PI * a1 / 360.0;
- if (xx->helixTurns > 0)
- d += (xx->helixTurns-(xx->circle?1:0)) * (xx->radius+(GetTrkGauge(trk)/2.0)) * 2.0 * M_PI;
+ if (xx->helixTurns > 0) {
+ d += (xx->helixTurns-(xx->circle?1:0)) * (xx->radius+(GetTrkGauge(
+ trk)/2.0)) * 2.0 * M_PI;
+ }
ScaleLengthIncrement( GetTrkScale(trk), d );
return TRUE;
}
return FALSE;
}
-static BOOL_T TrimCurve( track_p trk, EPINX_T ep, DIST_T dist, coOrd endpos, ANGLE_T angle, DIST_T endradius, coOrd endcenter )
+static BOOL_T TrimCurve( track_p trk, EPINX_T ep, DIST_T dist, coOrd endpos,
+ ANGLE_T angle, DIST_T endradius, coOrd endcenter )
{
DIST_T d;
DIST_T radius;
@@ -993,16 +1186,17 @@ static BOOL_T TrimCurve( track_p trk, EPINX_T ep, DIST_T dist, coOrd endpos, ANG
UndrawNewTrack( trk );
AdjustCurveEndPt( trk, ep, a+(ep==0?-90.0:90.0) );
DrawNewTrack( trk );
- } else
+ } else {
DeleteTrack( trk, TRUE );
+ }
return TRUE;
}
static BOOL_T MergeCurve(
- track_p trk0,
- EPINX_T ep0,
- track_p trk1,
- EPINX_T ep1 )
+ track_p trk0,
+ EPINX_T ep0,
+ track_p trk1,
+ EPINX_T ep1 )
{
ANGLE_T a00, a01, a10, a11;
DIST_T d;
@@ -1010,31 +1204,38 @@ static BOOL_T MergeCurve(
EPINX_T ep2=-1;
coOrd pos;
- if (ep0 == ep1)
+ if (ep0 == ep1) {
return FALSE;
+ }
if ( IsCurveCircle(trk0) ||
- IsCurveCircle(trk1) )
+ IsCurveCircle(trk1) ) {
return FALSE;
+ }
struct extraDataCurve_t *xx0 = GET_EXTRA_DATA(trk0, T_CURVE, extraDataCurve_t);
struct extraDataCurve_t *xx1 = GET_EXTRA_DATA(trk1, T_CURVE, extraDataCurve_t);
if ( xx0->helixTurns > 0 ||
- xx1->helixTurns > 0 )
+ xx1->helixTurns > 0 ) {
return FALSE;
- if (GetTrkType(trk0) != GetTrkType(trk1))
+ }
+ if (GetTrkType(trk0) != GetTrkType(trk1)) {
return FALSE;
+ }
d = FindDistance( xx0->pos, xx1->pos );
d += fabs( xx0->radius - xx1->radius );
- if ( d > connectDistance )
+ if ( d > connectDistance ) {
return FALSE;
+ }
GetCurveAngles( &a00, &a01, trk0 );
GetCurveAngles( &a10, &a11, trk1 );
- UndoStart( _("Merge Curves"), "MergeCurve( T%d[%d] T%d[%d] )", GetTrkIndex(trk0), ep0, GetTrkIndex(trk1), ep1 );
+ UndoStart( _("Merge Curves"), "MergeCurve( T%d[%d] T%d[%d] )",
+ GetTrkIndex(trk0), ep0, GetTrkIndex(trk1), ep1 );
UndoModify( trk0 );
UndrawNewTrack( trk0 );
- if (GetTrkEndTrk(trk0,ep0) == trk1)
+ if (GetTrkEndTrk(trk0,ep0) == trk1) {
DisconnectTracks( trk0, ep0, trk1, ep1);
+ }
trk2 = GetTrkEndTrk( trk1, 1-ep1 );
if (trk2) {
ep2 = GetEndPtConnectedToMe( trk2, trk1 );
@@ -1054,7 +1255,8 @@ static BOOL_T MergeCurve(
ConnectTracks( trk0, ep0, trk2, ep2 );
}
DrawNewTrack( trk0 );
- ComputeCurveBoundingBox( trk0, GET_EXTRA_DATA(trk0, T_CURVE, extraDataCurve_t) );
+ ComputeCurveBoundingBox( trk0, GET_EXTRA_DATA(trk0, T_CURVE,
+ extraDataCurve_t) );
return TRUE;
}
@@ -1082,102 +1284,107 @@ static STATUS_T ModifyCurve( track_p trk, wAction_t action, coOrd pos )
case C_DOWN:
arcTangent = FALSE;
GetCurveAngles( &arcA0, &arcA1, trk );
- if ( arcA0 == 0.0 && arcA1 == 360.0 )
+ if ( arcA0 == 0.0 && arcA1 == 360.0 ) {
return C_ERROR;
+ }
if ( xx->helixTurns > 0 ) {
return C_ERROR;
}
ep = PickUnconnectedEndPoint( pos, trk );
- if ( ep == -1 )
+ if ( ep == -1 ) {
return C_ERROR;
+ }
GetTrkCurveCenter( trk, &arcPos, &arcRadius );
UndrawNewTrack( trk );
+ DYNARR_SET( trkSeg_t, tempSegs_da, 1 );
tempSegs(0).type = SEG_CRVTRK;
- tempSegs(0).width = 0;
+ tempSegs(0).lineWidth = 0;
tempSegs(0).u.c.center = arcPos;
tempSegs(0).u.c.radius = arcRadius;
tempSegs(0).u.c.a0 = arcA0;
tempSegs(0).u.c.a1 = arcA1;
- tempSegs_da.cnt = 1;
InfoMessage( _("Drag to change angle or create tangent") );
case C_MOVE:
- if (xx->helixTurns>0)
+ if (xx->helixTurns>0) {
return C_CONTINUE;
+ }
valid = FALSE;
- a = FindAngle( arcPos, pos );
- r = FindDistance( arcPos, pos );
- if ( r > arcRadius*(arcTangent?1.0:1.10) ) {
- arcTangent = TRUE;
- if ( easeR > 0.0 && arcRadius < easeR ) {
- ErrorMessage( MSG_RADIUS_LSS_EASE_MIN,
- FormatDistance( arcRadius ), FormatDistance( easeR ) );
- return C_CONTINUE;
- }
- aa1 = 90.0-R2D( asin( arcRadius/r ) );
- aa2 = NormalizeAngle( a + (ep==0?aa1:-aa1) );
- PointOnCircle( &tangentOrig, arcPos, arcRadius, aa2 );
- if (ComputeJoint( ep==0?-arcRadius:+arcRadius, 0, &jointD ) == E_ERROR)
- return C_CONTINUE;
- tangentEnd = pos;
- if (jointD.x != 0.0) {
- Translate( &tangentOrig, tangentOrig, aa2, jointD.x );
- Translate( &tangentEnd, tangentEnd, aa2, jointD.x );
- }
- if (ep == 0) {
- tempSegs(0).u.c.a0 = aa2;
- tempSegs(0).u.c.a1 = NormalizeAngle( arcA0+arcA1-aa2 );
- } else {
- tempSegs(0).u.c.a1 = NormalizeAngle(aa2-arcA0);
- }
- d = arcRadius * tempSegs(0).u.c.a1 * 2.0*M_PI/360.0;
- d -= jointD.d0;
- if ( d <= minLength) {
- ErrorMessage( MSG_TRK_TOO_SHORT, _("Curved "), PutDim(fabs(minLength-d)) );
- return C_CONTINUE;
- }
- d = FindDistance( tangentOrig, tangentEnd );
- d -= jointD.d1;
- if ( d <= minLength) {
- ErrorMessage( MSG_TRK_TOO_SHORT, _("Tangent "), PutDim(fabs(minLength-d)) );
- return C_CONTINUE;
- }
- tempSegs(1).type = SEG_STRTRK;
- tempSegs(1).width = 0;
- tempSegs(1).u.l.pos[0] = tangentOrig;
- tempSegs(1).u.l.pos[1] = tangentEnd;
- tempSegs_da.cnt = 2;
- if (action == C_MOVE)
- InfoMessage( _("Tangent track: Length %s Angle %0.3f"),
- FormatDistance( d ),
- PutAngle( FindAngle( tangentOrig, tangentEnd ) ) );
+ a = FindAngle( arcPos, pos );
+ r = FindDistance( arcPos, pos );
+ if ( r > arcRadius*(arcTangent?1.0:1.10) ) {
+ arcTangent = TRUE;
+ if ( easeR > 0.0 && arcRadius < easeR ) {
+ ErrorMessage( MSG_RADIUS_LSS_EASE_MIN,
+ FormatDistance( arcRadius ), FormatDistance( easeR ) );
+ return C_CONTINUE;
+ }
+ aa1 = 90.0-R2D( asin( arcRadius/r ) );
+ aa2 = NormalizeAngle( a + (ep==0?aa1:-aa1) );
+ PointOnCircle( &tangentOrig, arcPos, arcRadius, aa2 );
+ if (ComputeJoint( ep==0?-arcRadius:+arcRadius, 0, &jointD ) == E_ERROR) {
+ return C_CONTINUE;
+ }
+ tangentEnd = pos;
+ if (jointD.x != 0.0) {
+ Translate( &tangentOrig, tangentOrig, aa2, jointD.x );
+ Translate( &tangentEnd, tangentEnd, aa2, jointD.x );
+ }
+ if (ep == 0) {
+ tempSegs(0).u.c.a0 = aa2;
+ tempSegs(0).u.c.a1 = NormalizeAngle( arcA0+arcA1-aa2 );
} else {
- arcTangent = FALSE;
- angle = NormalizeAngle( a +
- ((ep==0)?-90:90));
- PointOnCircle( &pos, arcPos, arcRadius, a );
- if (ep != 0) {
- tempSegs(0).u.c.a0 = NormalizeAngle( GetTrkEndAngle(trk,0)+90.0 );
- tempSegs(0).u.c.a1 = NormalizeAngle( a-tempSegs(0).u.c.a0 );
- } else {
- tempSegs(0).u.c.a0 = a;
- tempSegs(0).u.c.a1 = NormalizeAngle( (GetTrkEndAngle(trk,1)-90.0) - a );
- }
- d = arcRadius*tempSegs(0).u.c.a1*2.0*M_PI/360.0;
- if ( d <= minLength ) {
- ErrorMessage( MSG_TRK_TOO_SHORT, _("Curved "), PutDim( fabs(minLength-d) ) );
- return C_CONTINUE;
- }
- tempSegs_da.cnt = 1;
- if (action == C_MOVE)
- InfoMessage( _("Curved: Radius=%s Length=%s Angle=%0.3f"),
- FormatDistance( arcRadius ), FormatDistance( d ),
- tempSegs(0).u.c.a1 );
+ tempSegs(0).u.c.a1 = NormalizeAngle(aa2-arcA0);
+ }
+ d = arcRadius * tempSegs(0).u.c.a1 * 2.0*M_PI/360.0;
+ d -= jointD.d0;
+ if ( d <= minLength) {
+ ErrorMessage( MSG_TRK_TOO_SHORT, _("Curved "), PutDim(fabs(minLength-d)) );
+ return C_CONTINUE;
+ }
+ d = FindDistance( tangentOrig, tangentEnd );
+ d -= jointD.d1;
+ if ( d <= minLength) {
+ ErrorMessage( MSG_TRK_TOO_SHORT, _("Tangent "), PutDim(fabs(minLength-d)) );
+ return C_CONTINUE;
}
+ DYNARR_SET( trkSeg_t, tempSegs_da, 2 );
+ tempSegs(1).type = SEG_STRTRK;
+ tempSegs(1).lineWidth = 0;
+ tempSegs(1).u.l.pos[0] = tangentOrig;
+ tempSegs(1).u.l.pos[1] = tangentEnd;
+ if (action == C_MOVE)
+ InfoMessage( _("Tangent track: Length %s Angle %0.3f"),
+ FormatDistance( d ),
+ PutAngle( FindAngle( tangentOrig, tangentEnd ) ) );
+ } else {
+ DYNARR_SET( trkSeg_t, tempSegs_da, 1 );
+ arcTangent = FALSE;
+ angle = NormalizeAngle( a +
+ ((ep==0)?-90:90));
+ PointOnCircle( &pos, arcPos, arcRadius, a );
+ if (ep != 0) {
+ tempSegs(0).u.c.a0 = NormalizeAngle( GetTrkEndAngle(trk,0)+90.0 );
+ tempSegs(0).u.c.a1 = NormalizeAngle( a-tempSegs(0).u.c.a0 );
+ } else {
+ tempSegs(0).u.c.a0 = a;
+ tempSegs(0).u.c.a1 = NormalizeAngle( (GetTrkEndAngle(trk,1)-90.0) - a );
+ }
+ d = arcRadius*tempSegs(0).u.c.a1*2.0*M_PI/360.0;
+ if ( d <= minLength ) {
+ ErrorMessage( MSG_TRK_TOO_SHORT, _("Curved "), PutDim( fabs(minLength-d) ) );
+ return C_CONTINUE;
+ }
+ if (action == C_MOVE)
+ InfoMessage( _("Curved: Radius=%s Length=%s Angle=%0.3f"),
+ FormatDistance( arcRadius ), FormatDistance( d ),
+ tempSegs(0).u.c.a1 );
+ }
valid = TRUE;
return C_CONTINUE;
case C_UP:
- if (xx->helixTurns>0)
+ if (xx->helixTurns>0) {
return C_CONTINUE;
+ }
if (valid) {
if (arcTangent) {
trk1 = NewStraightTrack( tangentOrig, tangentEnd );
@@ -1185,7 +1392,7 @@ static STATUS_T ModifyCurve( track_p trk, wAction_t action, coOrd pos )
/*UndrawNewTrack( trk );*/
AdjustCurveEndPt( trk, ep, angle );
JoinTracks( trk, ep, tangentOrig,
- trk1, 0, tangentOrig, &jointD );
+ trk1, 0, tangentOrig, &jointD );
DrawNewTrack( trk1 );
} else {
AdjustCurveEndPt( trk, ep, angle );
@@ -1208,29 +1415,32 @@ static DIST_T GetLengthCurve( track_p trk )
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
GetTrkCurveCenter( trk, &cen, &rad );
- if (xx->circle)
+ if (xx->circle) {
a1 = 360.0;
- else
+ } else {
GetCurveAngles( &a0, &a1, trk );
+ }
dist = rad*a1*2.0*M_PI/360.0;
- if (xx->helixTurns>0)
+ if (xx->helixTurns>0) {
dist += (xx->helixTurns-(xx->circle?1:0)) * xx->radius * 2.0 * M_PI;
+ }
return dist;
}
-static BOOL_T GetParamsCurve( int inx, track_p trk, coOrd pos, trackParams_t * params )
+static BOOL_T GetParamsCurve( int inx, track_p trk, coOrd pos,
+ trackParams_t * params )
{
params->type = curveTypeCurve;
GetTrkCurveCenter( trk, &params->arcP, &params->arcR);
GetCurveAngles( &params->arcA0, &params->arcA1, trk );
- ANGLE_T angle1 = FindAngle(params->arcP,pos);
+// ANGLE_T angle1 = FindAngle(params->arcP,pos);
params->track_angle = NormalizeAngle(FindAngle(params->arcP,pos)+90);
if ( easeR > 0.0 && params->arcR < easeR ) {
ErrorMessage( MSG_RADIUS_LSS_EASE_MIN,
- FormatDistance( params->arcR ), FormatDistance( easeR ) );
+ FormatDistance( params->arcR ), FormatDistance( easeR ) );
return FALSE;
}
struct extraDataCurve_t *xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
@@ -1238,10 +1448,11 @@ static BOOL_T GetParamsCurve( int inx, track_p trk, coOrd pos, trackParams_t * p
ErrorMessage( MSG_CANT_EXTEND_HELIX );
return FALSE;
}
- if (inx == PARAMS_NODES) return FALSE;
+ if (inx == PARAMS_NODES) { return FALSE; }
params->len = params->arcR * params->arcA1 *2.0*M_PI/360.0;
- if (xx->helixTurns > 0)
+ if (xx->helixTurns > 0) {
params->len += (xx->helixTurns-(xx->circle?1:0)) * xx->radius * 2.0 * M_PI;
+ }
params->helixTurns = xx->helixTurns;
params->circleOrHelix = FALSE;
if ( IsCurveCircle( trk ) ) {
@@ -1249,13 +1460,15 @@ static BOOL_T GetParamsCurve( int inx, track_p trk, coOrd pos, trackParams_t * p
params->angle = params->track_angle;
params->circleOrHelix = TRUE;
return TRUE;
- } else if ((inx == PARAMS_CORNU) || (inx == PARAMS_1ST_JOIN) || (inx == PARAMS_2ND_JOIN) ) {
+ } else if ((inx == PARAMS_CORNU) || (inx == PARAMS_1ST_JOIN)
+ || (inx == PARAMS_2ND_JOIN) ) {
params->ep = PickEndPoint(pos, trk);
} else {
params->ep = PickUnconnectedEndPointSilent( pos, trk );
}
- if (params->ep == -1)
+ if (params->ep == -1) {
return FALSE;
+ }
params->angle = GetTrkEndAngle(trk,params->ep); ;
return TRUE;
}
@@ -1267,14 +1480,15 @@ static BOOL_T MoveEndPtCurve( track_p *trk, EPINX_T *ep, coOrd pos, DIST_T d0 )
DIST_T r;
ANGLE_T angle0;
ANGLE_T aa;
-
+
GetTrkCurveCenter( *trk, &posCen, &r );
angle0 = FindAngle( posCen, pos );
aa = R2D( d0/r );
- if ( *ep==0 )
+ if ( *ep==0 ) {
angle0 += aa - 90.0;
- else
+ } else {
angle0 -= aa - 90.0;
+ }
AdjustCurveEndPt( *trk, *ep, angle0 );
return TRUE;
}
@@ -1296,7 +1510,8 @@ static BOOL_T QueryCurve( track_p trk, int query )
return TRUE;
break;
case Q_EXCEPTION:
- return fabs(xx->radius) < (GetLayoutMinTrackRadius() - EPSILON);
+ return fabs(xx->radius) < (GetLayerMinTrackRadius(GetTrkLayer(
+ trk)) - EPSILON); // *new-layer*
break;
case Q_NOT_PLACE_FROGPOINTS:
return IsCurveCircle( trk );
@@ -1309,7 +1524,7 @@ static BOOL_T QueryCurve( track_p trk, int query )
return (xx->helixTurns > 0);
break;
case Q_HAS_VARIABLE_ENDPOINTS:
- if ((xx->helixTurns >0) || xx->circle) return TRUE;
+ if ((xx->helixTurns >0) || xx->circle) { return TRUE; }
return FALSE;
break;
case Q_NODRAWENDPT:
@@ -1321,9 +1536,9 @@ static BOOL_T QueryCurve( track_p trk, int query )
static void FlipCurve(
- track_p trk,
- coOrd orig,
- ANGLE_T angle )
+ track_p trk,
+ coOrd orig,
+ ANGLE_T angle )
{
struct extraDataCurve_t * xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
FlipPoint( &xx->pos, orig, angle );
@@ -1332,14 +1547,14 @@ static void FlipCurve(
static BOOL_T MakeParallelCurve(
- track_p trk,
- coOrd pos,
- DIST_T sep,
- DIST_T factor,
- track_p * newTrkR,
- coOrd * p0R,
- coOrd * p1R,
- BOOL_T track)
+ track_p trk,
+ coOrd pos,
+ DIST_T sep,
+ DIST_T factor,
+ track_p * newTrkR,
+ coOrd * p0R,
+ coOrd * p1R,
+ BOOL_T track)
{
struct extraDataCurve_t * xx = GET_EXTRA_DATA(trk, T_CURVE, extraDataCurve_t);
struct extraDataCurve_t * xx1;
@@ -1348,10 +1563,11 @@ static BOOL_T MakeParallelCurve(
rad = FindDistance( pos, xx->pos );
sep = sep+factor/xx->radius;
- if ( rad > xx->radius )
+ if ( rad > xx->radius ) {
rad = xx->radius + sep;
- else
+ } else {
rad = xx->radius - sep;
+ }
GetCurveAngles( &a0, &a1, trk );
if ( newTrkR ) {
if (track) {
@@ -1359,11 +1575,10 @@ static BOOL_T MakeParallelCurve(
xx1 = GET_EXTRA_DATA(*newTrkR, T_CURVE, extraDataCurve_t);
xx1->helixTurns = xx->helixTurns;
xx1->circle = xx->circle;
- }
- else {
+ } else {
+ DYNARR_SET( trkSeg_t, tempSegs_da, 1 );
tempSegs(0).color = wDrawColorBlack;
- tempSegs(0).width = 0;
- tempSegs_da.cnt = 1;
+ tempSegs(0).lineWidth = 0;
tempSegs(0).type = SEG_CRVLIN;
tempSegs(0).u.c.center = xx->pos;
tempSegs(0).u.c.radius = rad;
@@ -1379,25 +1594,27 @@ static BOOL_T MakeParallelCurve(
a0 = 0;
a1 = 360.0;
}
+ DYNARR_SET( trkSeg_t, tempSegs_da, 1 );
tempSegs(0).color = wDrawColorBlack;
- tempSegs(0).width = 0;
- tempSegs_da.cnt = 1;
+ tempSegs(0).lineWidth = 0;
tempSegs(0).type = track?SEG_CRVTRK:SEG_CRVLIN;
tempSegs(0).u.c.center = xx->pos;
tempSegs(0).u.c.radius = rad;
tempSegs(0).u.c.a0 = a0;
tempSegs(0).u.c.a1 = a1;
}
- if ( p0R ) PointOnCircle( p0R, xx->pos, rad, a0 );
- if ( p1R ) PointOnCircle( p1R, xx->pos, rad, a0+a1 );
+ if ( p0R ) { PointOnCircle( p0R, xx->pos, rad, a0 ); }
+ if ( p1R ) { PointOnCircle( p1R, xx->pos, rad, a0+a1 ); }
return TRUE;
}
static wBool_t CompareCurve( track_cp trk1, track_cp trk2 )
{
- struct extraDataCurve_t * ed1 = GET_EXTRA_DATA( trk1, T_CURVE, extraDataCurve_t );
- struct extraDataCurve_t * ed2 = GET_EXTRA_DATA( trk2, T_CURVE, extraDataCurve_t );
+ struct extraDataCurve_t * ed1 = GET_EXTRA_DATA( trk1, T_CURVE,
+ extraDataCurve_t );
+ struct extraDataCurve_t * ed2 = GET_EXTRA_DATA( trk2, T_CURVE,
+ extraDataCurve_t );
char * cp = message+strlen(message);
REGRESS_CHECK_POS( "POS", ed1, ed2, pos )
REGRESS_CHECK_DIST( "RADIUS", ed1, ed2, radius )
@@ -1408,47 +1625,48 @@ static wBool_t CompareCurve( track_cp trk1, track_cp trk2 )
}
static trackCmd_t curveCmds = {
- "CURVE",
- DrawCurve,
- DistanceCurve,
- DescribeCurve,
- DeleteCurve,
- WriteCurve,
- ReadCurve,
- MoveCurve,
- RotateCurve,
- RescaleCurve,
- NULL,
- GetAngleCurve,
- SplitCurve,
- TraverseCurve,
- EnumerateCurve,
- NULL, /* redraw */
- TrimCurve,
- MergeCurve,
- ModifyCurve,
- GetLengthCurve,
- GetParamsCurve,
- MoveEndPtCurve,
- QueryCurve,
- NULL, /* ungroup */
- FlipCurve,
- NULL,
- NULL,
- NULL,
- MakeParallelCurve,
- NULL,
- NULL,
- NULL,
- NULL,
- NULL,
- CompareCurve };
+ "CURVE",
+ DrawCurve,
+ DistanceCurve,
+ DescribeCurve,
+ DeleteCurve,
+ WriteCurve,
+ ReadCurve,
+ MoveCurve,
+ RotateCurve,
+ RescaleCurve,
+ NULL,
+ GetAngleCurve,
+ SplitCurve,
+ TraverseCurve,
+ EnumerateCurve,
+ NULL, /* redraw */
+ TrimCurve,
+ MergeCurve,
+ ModifyCurve,
+ GetLengthCurve,
+ GetParamsCurve,
+ MoveEndPtCurve,
+ QueryCurve,
+ NULL, /* ungroup */
+ FlipCurve,
+ NULL,
+ NULL,
+ NULL,
+ MakeParallelCurve,
+ NULL,
+ NULL,
+ NULL,
+ NULL,
+ NULL,
+ CompareCurve
+};
EXPORT void CurveSegProc(
- segProc_e cmd,
- trkSeg_p segPtr,
- segProcData_p data )
+ segProc_e cmd,
+ trkSeg_p segPtr,
+ segProcData_p data )
{
ANGLE_T a0, a1, a2;
DIST_T d, circum, d0;
@@ -1468,10 +1686,12 @@ EXPORT void CurveSegProc(
//A segment may be fractionally too short - limit to angles within segment!
int res = AngleInRange(a2,segPtr->u.c.a0,segPtr->u.c.a1);
if (res == 1 ) {
-LOG( log_curveSegs, 1, ("CrvSegsAngle miss A%0.3f S%0.3f E%0.3f R%d B%d \n",a2,segPtr->u.c.a0,segPtr->u.c.a1,res,data->traverse1.backwards))
+ LOG( log_curveSegs, 1, ("CrvSegsAngle miss A%0.3f S%0.3f E%0.3f R%d B%d \n",a2,
+ segPtr->u.c.a0,segPtr->u.c.a1,res,data->traverse1.backwards))
a2 = segPtr->u.c.a0;
} else if (res == -1) {
-LOG( log_curveSegs, 1, ("CrvSegsAngle miss A%0.3f S%0.3f E%0.3f R%d B%d \n",a2,segPtr->u.c.a0,segPtr->u.c.a1,res,data->traverse1.backwards))
+ LOG( log_curveSegs, 1, ("CrvSegsAngle miss A%0.3f S%0.3f E%0.3f R%d B%d \n",a2,
+ segPtr->u.c.a0,segPtr->u.c.a1,res,data->traverse1.backwards))
a2 = segPtr->u.c.a1+segPtr->u.c.a0;
}
//Fix issue of angles passing through zero -
@@ -1482,19 +1702,22 @@ LOG( log_curveSegs, 1, ("CrvSegsAngle miss A%0.3f S%0.3f E%0.3f R%d B%d \n",a2,s
}
//Make sure backwards means going towards EP0
- if (segPtr->u.c.radius<0) data->traverse1.backwards = !data->traverse1.backwards;
- data->traverse1.dist = a2/360.0*2*M_PI*fabs(segPtr->u.c.radius); //Distance from end in direction of travel
+ if (segPtr->u.c.radius<0) { data->traverse1.backwards = !data->traverse1.backwards; }
+ data->traverse1.dist = a2/360.0*2*M_PI*fabs(
+ segPtr->u.c.radius); //Distance from end in direction of travel
data->traverse1.reverse_seg = ((segPtr->u.c.a0>=90) && (segPtr->u.c.a0<270));
data->traverse1.negative = (segPtr->u.c.radius < 0);
data->traverse1.segs_backwards = FALSE;
data->traverse1.BezSegInx = 0;
-LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,data->traverse1.backwards))
+ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,
+ data->traverse1.backwards))
break;
case SEGPROC_TRAVERSE2:
circum = 2*M_PI*segPtr->u.c.radius;
- if ( circum < 0 )
- circum = - circum;
+ if ( circum < 0 ) {
+ circum = - circum;
+ }
d = (segPtr->u.c.a1*circum)/360;
if ( d > data->traverse2.dist ) {
a2 = (data->traverse2.dist*360.0)/circum;
@@ -1503,7 +1726,7 @@ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,d
a2 = segPtr->u.c.a1;
data->traverse2.dist -= d;
}
- if (segPtr->u.c.radius<0) data->traverse2.segDir = !data->traverse2.segDir;
+ if (segPtr->u.c.radius<0) { data->traverse2.segDir = !data->traverse2.segDir; }
if ( !data->traverse2.segDir ) {
a2 = NormalizeAngle( segPtr->u.c.a0+a2 );
a1 = NormalizeAngle(a2+90);
@@ -1511,30 +1734,38 @@ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,d
a2 = NormalizeAngle( segPtr->u.c.a0+segPtr->u.c.a1-a2 );
a1 = NormalizeAngle(a2-90);
}
- PointOnCircle( &data->traverse2.pos, segPtr->u.c.center, fabs(segPtr->u.c.radius), a2 );
+ PointOnCircle( &data->traverse2.pos, segPtr->u.c.center,
+ fabs(segPtr->u.c.radius), a2 );
data->traverse2.angle = a1;
break;
case SEGPROC_DRAWROADBEDSIDE:
- REORIGIN( p0, segPtr->u.c.center, data->drawRoadbedSide.angle, data->drawRoadbedSide.orig );
+ REORIGIN( p0, segPtr->u.c.center, data->drawRoadbedSide.angle,
+ data->drawRoadbedSide.orig );
d0 = segPtr->u.c.radius;
if ( d0 > 0 ) {
- a0 = NormalizeAngle( segPtr->u.c.a0 + segPtr->u.c.a1*data->drawRoadbedSide.first/32.0 + data->drawRoadbedSide.angle );
+ a0 = NormalizeAngle( segPtr->u.c.a0 +
+ segPtr->u.c.a1*data->drawRoadbedSide.first/32.0 + data->drawRoadbedSide.angle );
} else {
d0 = -d0;
- a0 = NormalizeAngle( segPtr->u.c.a0 + segPtr->u.c.a1*(32-data->drawRoadbedSide.last)/32.0 + data->drawRoadbedSide.angle );
+ a0 = NormalizeAngle( segPtr->u.c.a0 + segPtr->u.c.a1*(32
+ -data->drawRoadbedSide.last)/32.0 + data->drawRoadbedSide.angle );
}
- a1 = segPtr->u.c.a1*(data->drawRoadbedSide.last-data->drawRoadbedSide.first)/32.0;
- if (data->drawRoadbedSide.side>0)
+ a1 = segPtr->u.c.a1*(data->drawRoadbedSide.last
+ -data->drawRoadbedSide.first)/32.0;
+ if (data->drawRoadbedSide.side>0) {
d0 += data->drawRoadbedSide.roadbedWidth/2.0;
- else
+ } else {
d0 -= data->drawRoadbedSide.roadbedWidth/2.0;
- DrawArc( data->drawRoadbedSide.d, p0, d0, a0, a1, FALSE, data->drawRoadbedSide.rbw, data->drawRoadbedSide.color );
+ }
+ DrawArc( data->drawRoadbedSide.d, p0, d0, a0, a1, FALSE,
+ data->drawRoadbedSide.rbw, data->drawRoadbedSide.color );
break;
case SEGPROC_DISTANCE:
- data->distance.dd = CircleDistance( &data->distance.pos1, segPtr->u.c.center, fabs(segPtr->u.c.radius), segPtr->u.c.a0, segPtr->u.c.a1 );
+ data->distance.dd = CircleDistance( &data->distance.pos1, segPtr->u.c.center,
+ fabs(segPtr->u.c.radius), segPtr->u.c.a0, segPtr->u.c.a1 );
break;
case SEGPROC_FLIP:
@@ -1542,13 +1773,15 @@ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,d
break;
case SEGPROC_NEWTRACK:
- data->newTrack.trk = NewCurvedTrack( segPtr->u.c.center, fabs(segPtr->u.c.radius), segPtr->u.c.a0, segPtr->u.c.a1, 0 );
+ data->newTrack.trk = NewCurvedTrack( segPtr->u.c.center,
+ fabs(segPtr->u.c.radius), segPtr->u.c.a0, segPtr->u.c.a1, 0 );
data->newTrack.ep[0] = (segPtr->u.c.radius>0?0:1);
data->newTrack.ep[1] = 1-data->newTrack.ep[0];
break;
case SEGPROC_LENGTH:
- data->length.length = fabs(segPtr->u.c.radius) * segPtr->u.c.a1 * (2.0*M_PI/360.0);
+ data->length.length = fabs(segPtr->u.c.radius) * segPtr->u.c.a1 *
+ (2.0*M_PI/360.0);
break;
case SEGPROC_SPLIT:
@@ -1556,32 +1789,36 @@ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,d
a2 = FindAngle( segPtr->u.c.center, data->split.pos );
a2 = NormalizeAngle( a2 - segPtr->u.c.a0 );
if ( a2 > segPtr->u.c.a1 ) {
- if ( a2-segPtr->u.c.a1 < (360-segPtr->u.c.a1)/2.0 )
+ if ( a2-segPtr->u.c.a1 < (360-segPtr->u.c.a1)/2.0 ) {
a2 = segPtr->u.c.a1;
- else
+ } else {
a2 = 0.0;
+ }
}
s0 = 0;
- if ( segPtr->u.c.radius<0 )
+ if ( segPtr->u.c.radius<0 ) {
s0 = 1-s0;
+ }
s1 = 1-s0;
data->split.length[s0] = a2/360.0 * 2*M_PI * fabs(segPtr->u.c.radius);
data->split.length[s1] = d-data->split.length[s0];
data->split.newSeg[0] = *segPtr;
data->split.newSeg[1] = *segPtr;
data->split.newSeg[s0].u.c.a1 = a2;
- data->split.newSeg[s1].u.c.a0 = NormalizeAngle( data->split.newSeg[s1].u.c.a0 + a2 );
+ data->split.newSeg[s1].u.c.a0 = NormalizeAngle( data->split.newSeg[s1].u.c.a0 +
+ a2 );
data->split.newSeg[s1].u.c.a1 -= a2;
break;
case SEGPROC_GETANGLE:
- data->getAngle.angle = NormalizeAngle( FindAngle( segPtr->u.c.center, data->getAngle.pos ) + 90 );
+ data->getAngle.angle = NormalizeAngle( FindAngle( segPtr->u.c.center,
+ data->getAngle.pos ) + 90 );
data->getAngle.negative_radius = segPtr->u.c.radius<0;
data->getAngle.radius = fabs(segPtr->u.c.radius);
data->getAngle.center = segPtr->u.c.center;
data->getAngle.backwards = segPtr->u.c.a0>=90 && segPtr->u.c.a0<270;
- if (data->getAngle.backwards) data->getAngle.angle = NormalizeAngle(data->getAngle.angle+180);
+ if (data->getAngle.backwards) { data->getAngle.angle = NormalizeAngle(data->getAngle.angle+180); }
break;
}
}
@@ -1596,13 +1833,13 @@ LOG( log_curveSegs, 2, (" CrvSegs D=%0.3f A%0.3f B%d \n",data->traverse1.dist,d
EXPORT void PlotCurve(
- long mode,
- coOrd pos0,
- coOrd pos1,
- coOrd pos2,
- curveData_t * curveData,
- BOOL_T constrain, //Make the Radius be in steps of radiusGranularity (1/8)
- DIST_T desired_r) //Target one radius if close
+ long mode,
+ coOrd pos0,
+ coOrd pos1,
+ coOrd pos2,
+ curveData_t * curveData,
+ BOOL_T constrain, //Make the Radius be in steps of radiusGranularity (1/8)
+ DIST_T desired_r) //Target one radius if close
{
DIST_T d0, d2, r;
ANGLE_T angle, a0, a1, a2;
@@ -1610,19 +1847,21 @@ EXPORT void PlotCurve(
switch ( mode ) {
case crvCmdFromCornu:
- /* Already set curveRadius, pos1, and type */
+ /* Already set curveRadius, pos1, and type */
case crvCmdFromEP1:
angle = FindAngle( pos0, pos1 );
d0 = FindDistance( pos0, pos2 )/2.0;
a0 = FindAngle( pos0, pos2 );
a1 = NormalizeAngle( a0 - angle );
-LOG( log_curve, 3, ( "P1 = [%0.3f %0.3f] D=%0.3f A0=%0.3f A1=%0.3f\n", pos2.x, pos2.y, d0, a0, a1 ) )
+ LOG( log_curve, 3, ( "P1 = [%0.3f %0.3f] D=%0.3f A0=%0.3f A1=%0.3f\n", pos2.x,
+ pos2.y, d0, a0, a1 ) )
if ((fabs(d0*sin(D2R(a1))) < (4.0/75.0)*mainD.scale)) {
-LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*mainD.scale ) )
+ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)),
+ (4.0/75.0)*mainD.scale ) )
curveData->pos1.x = pos0.x + d0*2.0*sin(D2R(angle));
curveData->pos1.y = pos0.y + d0*2.0*cos(D2R(angle));
curveData->type = curveTypeStraight;
- } else if (a1 >= 179.0 && a1 <= 181.0) {
+ } else if (a1 >= 179.0 && a1 <= 181.0) {
curveData->type = curveTypeNone;
} else {
BOOL_T found = FALSE;
@@ -1635,10 +1874,11 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
}
}
if (!found) {
- if (constrain)
+ if (constrain) {
curveData->curveRadius = ConstrainR( d0/sin(D2R(a1)) );
- else
+ } else {
curveData->curveRadius = d0/sin(D2R(a1));
+ }
}
} else {
a1 -= 360.0;
@@ -1649,11 +1889,12 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
found = TRUE;
}
}
- if (!found){
- if (constrain)
+ if (!found) {
+ if (constrain) {
curveData->curveRadius = ConstrainR( d0/sin(D2R(-a1)) );
- else
+ } else {
curveData->curveRadius = d0/sin(D2R(-a1));
+ }
}
}
if (curveData->curveRadius > 1000) {
@@ -1665,7 +1906,7 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
curveData->curvePos.x = pos0.x + curveData->curveRadius*sin(D2R(a2));
curveData->curvePos.y = pos0.y + curveData->curveRadius*cos(D2R(a2));
LOG( log_curve, 3, ( "Center = [%0.3f %0.3f] A1=%0.3f A2=%0.3f R=%0.3f\n",
- curveData->curvePos.x, curveData->curvePos.y, a1, a2, curveData->curveRadius ) )
+ curveData->curvePos.x, curveData->curvePos.y, a1, a2, curveData->curveRadius ) )
if (a1 > 0.0) {
curveData->a0 = NormalizeAngle( a2-180 );
curveData->a1 = a1 * 2.0;
@@ -1675,7 +1916,8 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
curveData->a0 = NormalizeAngle( a2-180-curveData->a1 );
curveData->negative = TRUE;
}
- Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,pos2),curveData->curveRadius);
+ Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,
+ pos2),curveData->curveRadius);
curveData->type = curveTypeCurve;
}
}
@@ -1699,7 +1941,8 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
curveData->a0 = a1;
curveData->a1 = NormalizeAngle(a0-a1);
}
- Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,pos2),curveData->curveRadius);
+ Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,
+ pos2),curveData->curveRadius);
curveData->type = curveTypeCurve;
break;
case crvCmdFromChord:
@@ -1709,16 +1952,20 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
d0 = FindDistance( pos0, pos1 )/2.0;
Rotate( &pos2, pos1, -a0 );
pos2.x -= pos1.x;
- if ( fabs(pos2.x) < 0.005 )
+ if ( fabs(pos2.x) < 0.005 ) {
break;
- d2 = sqrt( d0*d0 + pos2.x*pos2.x )/2.0;
+ }
+ d2 = sqrt( d0*d0 + pos2.x*pos2.x )/2.0;
r = d2*d2*2.0/pos2.x;
- if ( r > 1000.0 )
+ if ( r > 1000.0 ) {
break;
+ }
posx.x = (pos1.x+pos0.x)/2.0;
posx.y = (pos1.y+pos0.y)/2.0;
a0 -= 90.0;
- LOG( log_curve, 3, ( "CHORD: [%0.3f %0.3f] [%0.3f %0.3f] [%0.3f %0.3f] A0=%0.3f D0=%0.3f D2=%0.3f R=%0.3f\n", pos0.x, pos0.y, pos1.x, pos1.y, pos2.x, pos2.y, a0, d0, d2, r ) )
+ LOG( log_curve, 3,
+ ( "CHORD: [%0.3f %0.3f] [%0.3f %0.3f] [%0.3f %0.3f] A0=%0.3f D0=%0.3f D2=%0.3f R=%0.3f\n",
+ pos0.x, pos0.y, pos1.x, pos1.y, pos2.x, pos2.y, a0, d0, d2, r ) )
Translate( &curveData->curvePos, posx, a0, r-pos2.x );
curveData->curveRadius = fabs(r);
a0 = FindAngle( curveData->curvePos, pos0 );
@@ -1732,13 +1979,15 @@ LOG( log_curve, 3, ( "Straight: %0.3f < %0.3f\n", d0*sin(D2R(a1)), (4.0/75.0)*ma
curveData->a1 = NormalizeAngle(a0-a1);
curveData->negative = TRUE;
}
- Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,pos2),curveData->curveRadius);
+ Translate(&curveData->pos2,curveData->curvePos,FindAngle(curveData->curvePos,
+ pos2),curveData->curveRadius);
curveData->type = curveTypeCurve;
break;
}
}
-EXPORT track_p NewCurvedTrack( coOrd pos, DIST_T r, ANGLE_T a0, ANGLE_T a1, long helixTurns )
+EXPORT track_p NewCurvedTrack( coOrd pos, DIST_T r, ANGLE_T a0, ANGLE_T a1,
+ long helixTurns )
{
struct extraDataCurve_t *xx;
track_p p;
@@ -1747,10 +1996,12 @@ EXPORT track_p NewCurvedTrack( coOrd pos, DIST_T r, ANGLE_T a0, ANGLE_T a1, long
xx->pos = pos;
xx->radius = r;
xx->helixTurns = helixTurns;
- if ( helixTurns <= 0 )
+ if ( helixTurns <= 0 ) {
SetTrkBits( p, TB_HIDEDESC );
+ }
SetCurveAngles( p, a0, a1, xx );
-LOG( log_curve, 1, ( "NewCurvedTrack( %0.3f, %0.3f, %0.3f ) = %d\n", pos.x, pos.y, r, GetTrkIndex(p) ) )
+ LOG( log_curve, 1, ( "NewCurvedTrack( %0.3f, %0.3f, %0.3f ) = %d\n", pos.x,
+ pos.y, r, GetTrkIndex(p) ) )
ComputeCurveBoundingBox( p, xx );
CheckTrackLength( p );
return p;