/** \file tcornu.c
*
* CORNU SPIRAL TRACK
*
* A Cornu is a spiral arc defined by a polynomial that has the property
* that curvature varies linearly with distance along the curve. It is a family
* of curves that include Euler spirals.
*
* In order to be useful in XtrkCAD it is defined as a set of Bezier curves each of
* which is defined as a set of circular arcs and lines.
*
* The derivation of the Beziers is done by the Cornu library which must be recalled
* whenever a change is made in the end conditions.
*
* A cornu has a minimum radius and a maximum rate of change of radius.
*
* Acknowledgment is given to Dr. Raph Levien whose seminal PhD work on Cornu curves and
* generous open-sourcing of his libraries both inspired and powers this function.
*
*
* XTrkCad - Model Railroad CAD
*
* 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, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "track.h"
#include "draw.h"
#include "cbezier.h"
#include "tbezier.h"
#include "tcornu.h"
#include "ccornu.h"
#include "ccurve.h"
#include "cstraigh.h"
#include "cjoin.h"
#include "utility.h"
#include "common.h"
#include "i18n.h"
#include "param.h"
#include "math.h"
#include "string.h"
#include "cundo.h"
#include "layout.h"
#include "fileio.h"
#include "assert.h"
EXPORT TRKTYP_T T_CORNU = -1;
struct extraData {
cornuData_t cornuData;
};
static int log_cornu = 0;
static DIST_T GetLengthCornu( track_p );
/****************************************
*
* UTILITIES
*
*/
/*
* Run after any changes to the Cornu points
*/
void SetUpCornuParmFromTracks(track_p trk[2],cornuParm_t * cp, struct extraData* xx) {
if (!trk[0]) {
cp->center[0] = xx->cornuData.c[0];
cp->angle[0] = xx->cornuData.a[0];
cp->radius[0] = xx->cornuData.r[0];
}
if (!trk[1]) {
cp->center[1] = xx->cornuData.c[1];
cp->angle[1] = xx->cornuData.a[1];
cp->radius[1] = xx->cornuData.r[1];
}
}
EXPORT BOOL_T FixUpCornu(coOrd pos[2], track_p trk[2], EPINX_T ep[2], struct extraData* xx) {
cornuParm_t cp;
SetUpCornuParmFromTracks(trk,&cp,xx);
if (!CallCornu(pos, trk, ep, &xx->cornuData.arcSegs, &cp)) return FALSE;
xx->cornuData.r[0] = cp.radius[0];
if (cp.radius[0]==0) {
xx->cornuData.a[0] = cp.angle[0];
} else {
xx->cornuData.c[0] = cp.center[0];
}
xx->cornuData.r[1] = cp.radius[1];
if (cp.radius[1]==0) {
xx->cornuData.a[1] = cp.angle[1];
} else {
xx->cornuData.c[1] = cp.center[1];
}
xx->cornuData.minCurveRadius = CornuMinRadius(pos,xx->cornuData.arcSegs);
xx->cornuData.windingAngle = CornuTotalWindingArc(pos,xx->cornuData.arcSegs);
DIST_T last_c;
if (xx->cornuData.r[0] == 0) last_c = 0;
else last_c = 1/xx->cornuData.r[0];
xx->cornuData.maxRateofChange = CornuMaxRateofChangeofCurvature(pos,xx->cornuData.arcSegs,&last_c);
xx->cornuData.length = CornuLength(pos, xx->cornuData.arcSegs);
return TRUE;
}
EXPORT BOOL_T FixUpCornu0(coOrd pos[2],coOrd center[2],ANGLE_T angle[2],DIST_T radius[2],struct extraData* xx) {
DIST_T last_c;
if (!CallCornu0(pos, center, angle, radius,&xx->cornuData.arcSegs,FALSE)) return FALSE;
xx->cornuData.minCurveRadius = CornuMinRadius(pos,
xx->cornuData.arcSegs);
if (xx->cornuData.r[0] == 0) last_c = 0;
else last_c = 1/xx->cornuData.r[0];
xx->cornuData.maxRateofChange = CornuMaxRateofChangeofCurvature(pos,xx->cornuData.arcSegs,&last_c);
xx->cornuData.length = CornuLength(pos, xx->cornuData.arcSegs);
xx->cornuData.windingAngle = CornuTotalWindingArc(pos,xx->cornuData.arcSegs);
return TRUE;
}
EXPORT char * CreateSegPathList(track_p trk) {
char * cp = "\0\0";
if (GetTrkType(trk) != T_CORNU) return cp;
struct extraData *xx = GetTrkExtraData(trk);
if (xx->cornuData.cornuPath) free(xx->cornuData.cornuPath);
xx->cornuData.cornuPath = malloc(xx->cornuData.arcSegs.cnt+2);
int j= 0;
for (int i = 0;i<xx->cornuData.arcSegs.cnt;i++,j++) {
xx->cornuData.cornuPath[j] = i+1;
}
xx->cornuData.cornuPath[j] = cp[0];
xx->cornuData.cornuPath[j+1] = cp[0];
return xx->cornuData.cornuPath;
}
static void GetCornuAngles( ANGLE_T *a0, ANGLE_T *a1, track_p trk )
{
assert( trk != NULL );
*a0 = NormalizeAngle( GetTrkEndAngle(trk,0) );
*a1 = NormalizeAngle( GetTrkEndAngle(trk,1) );
LOG( log_cornu, 4, ( "getCornuAngles: = %0.3f %0.3f\n", *a0, *a1 ) )
}
static void ComputeCornuBoundingBox( track_p trk, struct extraData * xx )
{
coOrd orig, size;
GetSegBounds(zero,0,xx->cornuData.arcSegs.cnt,xx->cornuData.arcSegs.ptr, &orig, &size);
coOrd hi, lo;
lo.x = orig.x;
lo.y = orig.y;
hi.x = orig.x+size.x;
hi.y = orig.y+size.y;
SetBoundingBox( trk, hi, lo );
}
DIST_T CornuDescriptionDistance(
coOrd pos,
track_p trk )
{
struct extraData *xx = GetTrkExtraData(trk);
coOrd p1;
if ( GetTrkType( trk ) != T_CORNU || ( GetTrkBits( trk ) & TB_HIDEDESC ) != 0 )
return 100000;
p1.x = xx->cornuData.pos[0].x + ((xx->cornuData.pos[1].x-xx->cornuData.pos[0].x)/2) + xx->cornuData.descriptionOff.x;
p1.y = xx->cornuData.pos[0].y + ((xx->cornuData.pos[1].y-xx->cornuData.pos[0].y)/2) + xx->cornuData.descriptionOff.y;
return FindDistance( p1, pos );
}
static void DrawCornuDescription(
track_p trk,
drawCmd_p d,
wDrawColor color )
{
struct extraData *xx = GetTrkExtraData(trk);
wFont_p fp;
coOrd pos;
if (layoutLabels == 0)
return;
if ((labelEnable&LABELENABLE_TRKDESC)==0)
return;
pos.x = xx->cornuData.pos[0].x + ((xx->cornuData.pos[1].x - xx->cornuData.pos[0].x)/2);
pos.y = xx->cornuData.pos[0].y + ((xx->cornuData.pos[1].y - xx->cornuData.pos[0].y)/2);
pos.x += xx->cornuData.descriptionOff.x;
pos.y += xx->cornuData.descriptionOff.y;
fp = wStandardFont( F_TIMES, FALSE, FALSE );
sprintf( message, _("Cornu Curve: length=%0.3f min radius=%0.3f"),
xx->cornuData.length, xx->cornuData.minCurveRadius);
DrawBoxedString( BOX_BOX, d, pos, message, fp, (wFontSize_t)descriptionFontSize, color, 0.0 );
}
STATUS_T CornuDescriptionMove(
track_p trk,
wAction_t action,
coOrd pos )
{
struct extraData *xx = GetTrkExtraData(trk);
static coOrd p0,p1;
static BOOL_T editState;
wDrawColor color;
if (GetTrkType(trk) != T_CORNU) return C_TERMINATE;
p0.x = xx->cornuData.pos[0].x + ((xx->cornuData.pos[1].x - xx->cornuData.pos[0].x)/2);
p0.y = xx->cornuData.pos[0].y + ((xx->cornuData.pos[1].y - xx->cornuData.pos[0].y)/2);
switch (action) {
case C_DOWN:
case C_MOVE:
case C_UP:
editState = TRUE;
p1 = pos;
color = GetTrkColor( trk, &mainD );
xx->cornuData.descriptionOff.x = pos.x - p0.x;
xx->cornuData.descriptionOff.y = pos.y - p0.y;
DrawCornuDescription( trk, &mainD, color );
if (action == C_UP) {
editState = FALSE;
}
MainRedraw();
MapRedraw();
return action==C_UP?C_TERMINATE:C_CONTINUE;
case C_REDRAW:
if (editState)
DrawLine( &mainD, p1, p0, 0, wDrawColorBlack );
break;
}
return C_CONTINUE;
}
/****************************************
*
* GENERIC FUNCTIONS
*
*/
static struct {
coOrd pos[2];
ANGLE_T angle[2];
DIST_T radius[2];
coOrd center[2];
FLOAT_T elev[2];
FLOAT_T length;
FLOAT_T grade;
DIST_T minRadius;
DIST_T maxRateOfChange;
ANGLE_T windingAngle;
unsigned int layerNumber;
dynArr_t segs;
long width;
wDrawColor color;
} cornData;
typedef enum { P0, A0, R0, C0, Z0, P1, A1, R1, C1, Z1, RA, RR, WA, LN, GR, LY } cornuDesc_e;
static descData_t cornuDesc[] = {
/*P0*/ { DESC_POS, N_("End Pt 1: X,Y"), &cornData.pos[0] },
/*A0*/ { DESC_ANGLE, N_("End Angle"), &cornData.angle[0] },
/*R0*/ { DESC_DIM, N_("Radius "), &cornData.radius[0] },
/*C0*/ { DESC_POS, N_("Center X,Y"), &cornData.center[0] },
/*Z0*/ { DESC_DIM, N_("Z1"), &cornData.elev[0] },
/*P1*/ { DESC_POS, N_("End Pt 2: X,Y"), &cornData.pos[1] },
/*A1*/ { DESC_ANGLE, N_("End Angle"), &cornData.angle[1] },
/*R1*/ { DESC_DIM, N_("Radius"), &cornData.radius[1] },
/*C1*/ { DESC_POS, N_("Center X,Y"), &cornData.center[1] },
/*Z1*/ { DESC_DIM, N_("Z2"), &cornData.elev[1] },
/*RA*/ { DESC_DIM, N_("Minimum Radius"), &cornData.minRadius },
/*RR*/ { DESC_FLOAT, N_("Max Rate Of Curve Change/Scale"), &cornData.maxRateOfChange },
/*WA*/ { DESC_ANGLE, N_("Total Winding Angle"), &cornData.windingAngle },
/*LN*/ { DESC_DIM, N_("Length"), &cornData.length },
/*GR*/ { DESC_FLOAT, N_("Grade"), &cornData.grade },
/*LY*/ { DESC_LAYER, N_("Layer"), &cornData.layerNumber },
{ DESC_NULL } };
static void UpdateCornu( track_p trk, int inx, descData_p descUpd, BOOL_T final )
{
struct extraData *xx = GetTrkExtraData(trk);
BOOL_T updateEndPts;
EPINX_T ep;
cornuParm_t cp;
if ( inx == -1 )
return;
updateEndPts = FALSE;
UndrawNewTrack(trk);
switch ( inx ) {
case P0:
if (GetTrkEndTrk(trk,0)) break;
updateEndPts = TRUE;
xx->cornuData.pos[0] = cornData.pos[0];
Translate(&xx->cornuData.c[0],xx->cornuData.pos[0],xx->cornuData.a[0]+90,xx->cornuData.r[0]);
cornData.center[0] = xx->cornuData.c[0];
cornuDesc[P0].mode |= DESC_CHANGE;
cornuDesc[C0].mode |= DESC_CHANGE;
/* no break */
case P1:
if (GetTrkEndTrk(trk,1)) break;
updateEndPts = TRUE;
xx->cornuData.pos[1]= cornData.pos[1];
Translate(&xx->cornuData.c[1],xx->cornuData.pos[1],xx->cornuData.a[1]-90,xx->cornuData.r[1]);
cornData.center[1] = xx->cornuData.c[1];
cornuDesc[P1].mode |= DESC_CHANGE;
cornuDesc[C1].mode |= DESC_CHANGE;
break;
case A0:
if (GetTrkEndTrk(trk,0)) break;
updateEndPts = TRUE;
xx->cornuData.a[0] = cornData.angle[0];
Translate(&xx->cornuData.c[0],xx->cornuData.pos[0],xx->cornuData.a[0]+90,xx->cornuData.r[0]);
cornData.center[0] = xx->cornuData.c[0];
cornuDesc[A0].mode |= DESC_CHANGE;
cornuDesc[C0].mode |= DESC_CHANGE;
break;
case A1:
if (GetTrkEndTrk(trk,1)) break;
updateEndPts = TRUE;
xx->cornuData.a[1]= cornData.angle[1];
Translate(&xx->cornuData.c[1],xx->cornuData.pos[1],xx->cornuData.a[1]-90,xx->cornuData.r[1]);
cornData.center[1] = xx->cornuData.c[1];
cornuDesc[A1].mode |= DESC_CHANGE;
cornuDesc[C1].mode |= DESC_CHANGE;
break;
case C0:
if (GetTrkEndTrk(trk,0)) break;
//updateEndPts = TRUE;
//xx->cornuData.c[0] = cornData.center[0];
//cornuDesc[C0].mode |= DESC_CHANGE;
break;
case C1:
if (GetTrkEndTrk(trk,1)) break;
//updateEndPts = TRUE;
//xx->cornuData.c[1] = cornData.center[1];
//cornuDesc[C1].mode |= DESC_CHANGE;
break;
case R0:
if (GetTrkEndTrk(trk,0)) break;
updateEndPts = TRUE;
xx->cornuData.r[0] = cornData.radius[0];
Translate(&xx->cornuData.c[0],xx->cornuData.pos[0],NormalizeAngle(xx->cornuData.a[0]+90),xx->cornuData.r[0]);
cornData.center[0] = xx->cornuData.c[0];
cornuDesc[R0].mode |= DESC_CHANGE;
cornuDesc[C0].mode |= DESC_CHANGE;
break;
case R1:
if (GetTrkEndTrk(trk,1)) break;
updateEndPts = TRUE;
xx->cornuData.r[1]= cornData.radius[1];
Translate(&xx->cornuData.c[1],xx->cornuData.pos[1],NormalizeAngle(xx->cornuData.a[1]-90),xx->cornuData.r[1]);
cornData.center[1] = xx->cornuData.c[1];
cornuDesc[R1].mode |= DESC_CHANGE;
cornuDesc[C1].mode |= DESC_CHANGE;
break;
case Z0:
case Z1:
ep = (inx==Z0?0:1);
UpdateTrkEndElev( trk, ep, GetTrkEndElevUnmaskedMode(trk,ep), cornData.elev[ep], NULL );
ComputeElev( trk, 1-ep, FALSE, &cornData.elev[1-ep], NULL );
if ( cornData.length > minLength )
cornData.grade = fabs( (cornData.elev[0]-cornData.elev[1])/cornData.length )*100.0;
else
cornData.grade = 0.0;
cornuDesc[GR].mode |= DESC_CHANGE;
cornuDesc[inx==Z0?Z1:Z0].mode |= DESC_CHANGE;
return;
case LY:
SetTrkLayer( trk, cornData.layerNumber);
break;
default:
AbortProg( "updateCornu: Bad inx %d", inx );
}
track_p tracks[2];
tracks[0] = GetTrkEndTrk(trk,0);
tracks[1] = GetTrkEndTrk(trk,1);
if (updateEndPts) {
if ( GetTrkEndTrk(trk,0) == NULL ) {
SetTrkEndPoint( trk, 0, cornData.pos[0], xx->cornuData.a[0]);
cornuDesc[A0].mode |= DESC_CHANGE;
}
if ( GetTrkEndTrk(trk,1) == NULL ) {
SetTrkEndPoint( trk, 1, cornData.pos[1], xx->cornuData.a[1]);
cornuDesc[A1].mode |= DESC_CHANGE;
}
}
track_p ts[2];
ts[0] = GetTrkEndTrk(trk,0);
ts[1] = GetTrkEndTrk(trk,1);
SetUpCornuParmFromTracks(ts,&cp,xx);
CallCornu(xx->cornuData.pos, tracks, NULL, &xx->cornuData.arcSegs, &cp);
//FixUpCornu(xx->bezierData.pos, xx, IsTrack(trk));
ComputeCornuBoundingBox(trk, xx);
DrawNewTrack( trk );
}
static void DescribeCornu( track_p trk, char * str, CSIZE_T len )
{
struct extraData *xx = GetTrkExtraData(trk);
DIST_T d;
d = xx->cornuData.length;
sprintf( str, _("Cornu Track(%d): Layer=%u MinRadius=%s Length=%s EP=[%0.3f,%0.3f] [%0.3f,%0.3f]"),
GetTrkIndex(trk),
GetTrkLayer(trk)+1,
FormatDistance(xx->cornuData.minCurveRadius),
FormatDistance(d),
PutDim(xx->cornuData.pos[0].x),PutDim(xx->cornuData.pos[0].y),
PutDim(xx->cornuData.pos[1].x),PutDim(xx->cornuData.pos[1].y)
);
cornData.length = xx->cornuData.length;
cornData.minRadius = xx->cornuData.minCurveRadius;
cornData.maxRateOfChange = xx->cornuData.maxRateofChange*GetScaleRatio(GetLayoutCurScale());
cornData.windingAngle = xx->cornuData.windingAngle;
cornData.layerNumber = GetTrkLayer(trk);
cornData.pos[0] = xx->cornuData.pos[0];
cornData.pos[1] = xx->cornuData.pos[1];
cornData.angle[0] = xx->cornuData.a[0];
cornData.angle[1] = xx->cornuData.a[1];
cornData.center[0] = xx->cornuData.c[0];
cornData.center[1] = xx->cornuData.c[1];
cornData.radius[0] = xx->cornuData.r[0];
cornData.radius[1] = xx->cornuData.r[1];
if (GetTrkType(trk) == T_CORNU) {
ComputeElev( trk, 0, FALSE, &cornData.elev[0], NULL );
ComputeElev( trk, 1, FALSE, &cornData.elev[1], NULL );
if ( cornData.length > minLength )
cornData.grade = fabs( (cornData.elev[0]-cornData.elev[1])/cornData.length )*100.0;
else
cornData.grade = 0.0;
}
BOOL_T trk0 = (GetTrkEndTrk(trk,0)!=NULL);
BOOL_T trk1 = (GetTrkEndTrk(trk,1)!=NULL);
cornuDesc[P0].mode = !trk0?0:DESC_RO;
cornuDesc[P1].mode = !trk1?0:DESC_RO;
cornuDesc[LN].mode = DESC_RO;
cornuDesc[Z0].mode = EndPtIsDefinedElev(trk,0)?0:DESC_RO;
cornuDesc[Z1].mode = EndPtIsDefinedElev(trk,1)?0:DESC_RO;
cornuDesc[A0].mode = !trk0?0:DESC_RO;
cornuDesc[A1].mode = !trk1?0:DESC_RO;
cornuDesc[C0].mode = DESC_RO;
cornuDesc[C1].mode = DESC_RO;
cornuDesc[R0].mode = !trk0?0:DESC_RO;
cornuDesc[R1].mode = !trk1?0:DESC_RO;
cornuDesc[GR].mode = DESC_RO;
cornuDesc[RA].mode = DESC_RO;
cornuDesc[RR].mode = DESC_RO;
cornuDesc[WA].mode = DESC_RO;
cornuDesc[LY].mode = DESC_NOREDRAW;
DoDescribe( _("Cornu Track"), trk, cornuDesc, UpdateCornu );
}
DIST_T DistanceCornu( track_p t, coOrd * p )
{
struct extraData *xx = GetTrkExtraData(t);
//return BezierMathDistance(p,xx->bezierData.pos,100, &s);
DIST_T d = 100000.0;
coOrd p2 = xx->cornuData.pos[0]; //Set initial point
segProcData_t segProcData;
for (int i = 0;i<xx->cornuData.arcSegs.cnt;i++) {
trkSeg_t seg = DYNARR_N(trkSeg_t,xx->cornuData.arcSegs,i);
if (seg.type == SEG_FILCRCL) continue;
segProcData.distance.pos1 = * p;
SegProc(SEGPROC_DISTANCE,&seg,&segProcData);
if (segProcData.distance.dd<d) {
d = segProcData.distance.dd;
p2 = segProcData.distance.pos1;
}
}
//d = BezierDistance( p, xx->bezierData.pos[0], xx->bezierData.pos[1], xx->bezierData.pos[2], xx->bezierData.pos[1], 100, NULL );
* p = p2;
return d;
}
static void DrawCornu( track_p t, drawCmd_p d, wDrawColor color )
{
struct extraData *xx = GetTrkExtraData(t);
long widthOptions = DTS_LEFT|DTS_RIGHT;
if (GetTrkWidth(t) == 2)
widthOptions |= DTS_THICK2;
if (GetTrkWidth(t) == 3)
widthOptions |= DTS_THICK3;
if ( ((d->funcs->options&wDrawOptTemp)==0) &&
(labelWhen == 2 || (labelWhen == 1 && (d->options&DC_PRINT))) &&
labelScale >= d->scale &&
( GetTrkBits( t ) & TB_HIDEDESC ) == 0 ) {
DrawCornuDescription( t, d, color );
}
DIST_T scale2rail = (d->options&DC_PRINT)?(twoRailScale*2+1):twoRailScale;
if ( tieDrawMode!=TIEDRAWMODE_NONE &&
d!=&mapD &&
(d->options&DC_TIES)!=0 &&
d->scale<scale2rail/2 )
DrawSegsO(d,t,zero,0.0,xx->cornuData.arcSegs.ptr,xx->cornuData.arcSegs.cnt, GetTrkGauge(t), color, widthOptions|DTS_TIES);
DrawSegsO(d,t,zero,0.0,xx->cornuData.arcSegs.ptr,xx->cornuData.arcSegs.cnt, GetTrkGauge(t), color, widthOptions);
if ( (d->funcs->options & wDrawOptTemp) == 0 &&
(d->options&DC_QUICK) == 0 ) {
DrawEndPt( d, t, 0, color );
DrawEndPt( d, t, 1, color );
}
}
void FreeSubSegs(trkSeg_t* s) {
if (s->type == SEG_BEZTRK || s->type == SEG_BEZLIN) {
if (s->bezSegs.ptr) {
MyFree(s->bezSegs.ptr);
}
s->bezSegs.max = 0;
s->bezSegs.cnt = 0;
s->bezSegs.ptr = NULL;
}
}
static void DeleteCornu( track_p t )
{
struct extraData *xx = GetTrkExtraData(t);
for (int i=0;i<xx->cornuData.arcSegs.cnt;i++) {
trkSeg_t s = DYNARR_N(trkSeg_t,xx->cornuData.arcSegs,i);
FreeSubSegs(&s);
}
if (xx->cornuData.arcSegs.ptr)
MyFree(xx->cornuData.arcSegs.ptr);
xx->cornuData.arcSegs.max = 0;
xx->cornuData.arcSegs.cnt = 0;
xx->cornuData.arcSegs.ptr = NULL;
}
static BOOL_T WriteCornu( track_p t, FILE * f )
{
struct extraData *xx = GetTrkExtraData(t);
long options;
BOOL_T rc = TRUE;
BOOL_T track =(GetTrkType(t)==T_CORNU);
options = GetTrkWidth(t) & 0x0F;
if ( ( GetTrkBits(t) & TB_HIDEDESC ) == 0 ) options |= 0x80;
rc &= fprintf(f, "%s %d %d %ld 0 0 %s %d %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f %0.6f \n",
"CORNU",GetTrkIndex(t), GetTrkLayer(t), (long)options,
GetTrkScaleName(t), GetTrkVisible(t),
xx->cornuData.pos[0].x, xx->cornuData.pos[0].y,
xx->cornuData.a[0],
xx->cornuData.r[0],
xx->cornuData.c[0].x,xx->cornuData.c[0].y,
xx->cornuData.pos[1].x, xx->cornuData.pos[1].y,
xx->cornuData.a[1],
xx->cornuData.r[1],
xx->cornuData.c[1].x,xx->cornuData.c[1].y )>0;
if (track) {
rc &= WriteEndPt( f, t, 0 );
rc &= WriteEndPt( f, t, 1 );
}
rc &= WriteSegs( f, xx->cornuData.arcSegs.cnt, xx->cornuData.arcSegs.ptr );
//rc &= fprintf(f, "\tEND\n" )>0;
return rc;
}
static void ReadCornu( char * line )
{
struct extraData *xx;
track_p t;
wIndex_t index;
BOOL_T visible;
DIST_T r0,r1;
ANGLE_T a0,a1;
coOrd p0, p1, c0, c1;
char scale[10];
wIndex_t layer;
long options;
char * cp = NULL;
if (!GetArgs( line+6, "dLl00sdpffppffp",
&index, &layer, &options, scale, &visible, &p0, &a0, &r0, &c0, &p1, &a1, &r1, &c1 ) ) {
return;
}
t = NewTrack( index, T_CORNU, 0, sizeof *xx );
xx = GetTrkExtraData(t);
SetTrkVisible(t, visible);
SetTrkScale(t, LookupScale(scale));
SetTrkLayer(t, layer );
SetTrkWidth(t, (int)(options&0x0F));
if ( ( options & 0x80 ) == 0 ) SetTrkBits(t,TB_HIDEDESC);
xx->cornuData.pos[0] = p0;
xx->cornuData.pos[1] = p1;
xx->cornuData.a[0] = a0;
xx->cornuData.r[0] = r0;
xx->cornuData.a[1] = a1;
xx->cornuData.c[0] = c0;
xx->cornuData.c[1] = c1;
xx->cornuData.r[1] = r1;
xx->cornuData.descriptionOff.x = xx->cornuData.descriptionOff.y = 0.0;
ReadSegs();
FixUpCornu0(xx->cornuData.pos,xx->cornuData.c,xx->cornuData.a, xx->cornuData.r, xx);
ComputeCornuBoundingBox(t,xx);
SetEndPts(t,2);
}
static void MoveCornu( track_p trk, coOrd orig )
{
struct extraData *xx = GetTrkExtraData(trk);
for (int i=0;i<2;i++) {
xx->cornuData.pos[i].x += orig.x;
xx->cornuData.pos[i].y += orig.y;
xx->cornuData.c[i].x += orig.x;
xx->cornuData.c[i].y += orig.y;
}
RebuildCornu(trk);
}
static void RotateCornu( track_p trk, coOrd orig, ANGLE_T angle )
{
struct extraData *xx = GetTrkExtraData(trk);
for (int i=0;i<2;i++) {
Rotate( &xx->cornuData.pos[i], orig, angle );
Rotate( &xx->cornuData.c[i], orig, angle);
xx->cornuData.a[i] = NormalizeAngle(xx->cornuData.a[i]+angle);
}
RebuildCornu(trk);
}
static void RescaleCornu( track_p trk, FLOAT_T ratio )
{
struct extraData *xx = GetTrkExtraData(trk);
for (int i=0;i<2;i++) {
xx->cornuData.pos[i].x *= ratio;
xx->cornuData.pos[i].y *= ratio;
}
RebuildCornu(trk);
}
EXPORT BOOL_T SetCornuEndPt(track_p trk, EPINX_T inx, coOrd pos, coOrd center, ANGLE_T angle, DIST_T radius) {
struct extraData *xx = GetTrkExtraData(trk);
xx->cornuData.pos[inx] = pos;
xx->cornuData.c[inx] = center;
xx->cornuData.a[inx] = angle;
xx->cornuData.r[inx] = radius;
if (!RebuildCornu(trk)) return FALSE;
SetTrkEndPoint( trk, inx, xx->cornuData.pos[inx], xx->cornuData.a[inx]);
return TRUE;
}
void GetCornuParmsNear(track_p t, int sel, coOrd * pos2, coOrd * center, ANGLE_T * angle2, DIST_T * radius ) {
struct extraData *xx = GetTrkExtraData(t);
coOrd pos = *pos2;
double dd = DistanceCornu(t, &pos); //Pos adjusted to be on curve
int inx;
wBool_t back,neg;
ANGLE_T angle = GetAngleSegs(xx->cornuData.arcSegs.cnt,(trkSeg_t *)(xx->cornuData.arcSegs.ptr),&pos,&inx,NULL,&back,NULL,&neg);
trkSeg_p segPtr = &DYNARR_N(trkSeg_t, xx->cornuData.arcSegs, inx);
GetAngleSegs(segPtr->bezSegs.cnt,(trkSeg_t *)(segPtr->bezSegs.ptr),&pos,&inx,NULL,&back,NULL,&neg);
segPtr = &DYNARR_N(trkSeg_t, segPtr->bezSegs, inx);
if (segPtr->type == SEG_STRTRK) {
*radius = 0.0;
*center = zero;
} else if (segPtr->type == SEG_CRVTRK) {
*center = segPtr->u.c.center;
*radius = fabs(segPtr->u.c.radius);
}
if (sel)
angle = NormalizeAngle(angle+(neg==back?0:180));
else
angle = NormalizeAngle(angle+(neg==back?180:0));
*angle2 = angle;
*pos2 = pos;
}
/**
* Split the Track at approximately the point pos.
*/
static BOOL_T SplitCornu( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover, EPINX_T * ep0, EPINX_T * ep1 )
{
struct extraData *xx = GetTrkExtraData(trk);
track_p trk1;
DIST_T radius = 0.0;
coOrd center;
int inx;
BOOL_T track;
track = IsTrack(trk);
cornuParm_t new;
double dd = DistanceCornu(trk, &pos);
if (dd>minLength) return FALSE;
BOOL_T back, neg;
ANGLE_T angle = GetAngleSegs(xx->cornuData.arcSegs.cnt,(trkSeg_t *)(xx->cornuData.arcSegs.ptr),&pos,&inx,NULL,&back,NULL,&neg);
trkSeg_p segPtr = &DYNARR_N(trkSeg_t, xx->cornuData.arcSegs, inx);
GetAngleSegs(segPtr->bezSegs.cnt,(trkSeg_t *)(segPtr->bezSegs.ptr),&pos,&inx,NULL,&back,NULL,&neg);
segPtr = &DYNARR_N(trkSeg_t, segPtr->bezSegs, inx);
if (segPtr->type == SEG_STRTRK) {
radius = 0.0;
center = zero;
} else if (segPtr->type == SEG_CRVTRK) {
center = segPtr->u.c.center;
radius = fabs(segPtr->u.c.radius);
}
if (ep) {
new.pos[0] = pos;
new.pos[1] = xx->cornuData.pos[1];
new.angle[0] = NormalizeAngle(angle+(neg==back?180:0));
new.angle[1] = xx->cornuData.a[1];
new.center[0] = center;
new.center[1] = xx->cornuData.c[1];
new.radius[0] = radius;
new.radius[1] = xx->cornuData.r[1];
} else {
new.pos[1] = pos;
new.pos[0] = xx->cornuData.pos[0];
new.angle[1] = NormalizeAngle(angle+(neg==back?0:180));
new.angle[0] = xx->cornuData.a[0];
new.center[1] = center;
new.center[0] = xx->cornuData.c[0];
new.radius[1] = radius;
new.radius[0] = xx->cornuData.r[0];
}
trk1 = NewCornuTrack(new.pos,new.center,new.angle,new.radius,NULL,0);
if (trk1==NULL) {
wBeep();
InfoMessage(_("Cornu Create Failed for p1[%0.3f,%0.3f] p2[%0.3f,%0.3f], c1[%0.3f,%0.3f] c2[%0.3f,%0.3f], a1=%0.3f a2=%0.3f, r1=%s r2=%s"),
new.pos[0].x,new.pos[0].y,
new.pos[1].x,new.pos[1].y,
new.center[0].x,new.center[0].y,
new.center[1].x,new.center[1].y,
new.angle[0],new.angle[1],
FormatDistance(new.radius[0]),FormatDistance(new.radius[1]));
UndoEnd();
return FALSE;
}
UndoModify(trk);
xx->cornuData.pos[ep] = pos;
xx->cornuData.a[ep] = NormalizeAngle(new.angle[1-ep]+180);
xx->cornuData.r[ep] = new.radius[1-ep];
xx->cornuData.c[ep] = new.center[1-ep];
RebuildCornu(trk);
SetTrkEndPoint(trk, ep, xx->cornuData.pos[ep], xx->cornuData.a[ep]);
*leftover = trk1;
*ep0 = 1-ep;
*ep1 = ep;
return TRUE;
}
BOOL_T MoveCornuEndPt ( track_p *trk, EPINX_T *ep, coOrd pos, DIST_T d0 ) {
track_p trk2;
if (SplitTrack(*trk,pos,*ep,&trk2,TRUE)) {
struct extraData *xx = GetTrkExtraData(*trk);
if (trk2) DeleteTrack(trk2,TRUE);
SetTrkEndPoint( *trk, *ep, *ep?xx->cornuData.pos[1]:xx->cornuData.pos[0], *ep?xx->cornuData.a[1]:xx->cornuData.a[0] );
return TRUE;
}
return FALSE;
}
static int log_traverseCornu = 0;
/*
* TraverseCornu is used to position a train/car.
* We find a new position and angle given a current pos, angle and a distance to travel.
*
* The output can be TRUE -> we have moved the point to a new point or to the start/end of the next track
* FALSE -> we have not found that point because pos was not on/near the track
*
* If true we supply the remaining distance to go (always positive).
* We detect the movement direction by comparing the current angle to the angle of the track at the point.
*
* The entire Cornu may be reversed or forwards depending on the way it was drawn.
*
* Each Bezier segment within that Cornu structure therefore may be processed forwards or in reverse.
* So for each segment we call traverse1 to get the direction and extra distance to go to get to the current point
* and then use that for traverse2 to actually move to the new point
*
* If we exceed the current point's segment we move on to the next until the end of this track or we have found the spot.
*
*/
static BOOL_T TraverseCornu( traverseTrack_p trvTrk, DIST_T * distR )
{
track_p trk = trvTrk->trk;
struct extraData *xx = GetTrkExtraData(trk);
DIST_T dist = *distR;
segProcData_t segProcData;
BOOL_T cornu_backwards= FALSE;
BOOL_T neg = FALSE;
DIST_T d = 10000;
coOrd pos1 = trvTrk->pos, pos2 = trvTrk->pos;
ANGLE_T a1,a2;
int inx, segInx = 0;
EPINX_T ep;
BOOL_T back;
LOG( log_traverseCornu, 1, ( "TravCornu-In [%0.3f %0.3f] A%0.3f D%0.3f \n", trvTrk->pos.x, trvTrk->pos.y, trvTrk->angle, *distR ))
trkSeg_p segPtr = (trkSeg_p)xx->cornuData.arcSegs.ptr;
a2 = GetAngleSegs( //Find correct Segment and nearest point in it
xx->cornuData.arcSegs.cnt,segPtr,
&pos2, &segInx, &d , &back , NULL, &neg); //d = how far pos2 from old pos2 = trvTrk->pos
if ( d > 10 ) {
ErrorMessage( "traverseCornu: Position is not near track: %0.3f", d );
return FALSE; //This means the input pos is not on or close to the track.
}
if (back) a2 = NormalizeAngle(a2+180); //If reverse segs - reverse angle
a1 = NormalizeAngle(a2-trvTrk->angle); //Establish if we are going fwds or backwards globally
if (a1<270 && a1>90) { //Must add 180 if the seg is reversed or inverted (but not both)
cornu_backwards = TRUE;
ep = 0;
} else {
cornu_backwards = FALSE;
ep = 1;
}
if (neg) {
cornu_backwards = !cornu_backwards; //Reversed direction
ep = 1-ep;
}
segProcData.traverse1.pos = pos2; //actual point on curve
segProcData.traverse1.angle = trvTrk->angle; //direction car is going for Traverse 1
LOG( log_traverseCornu, 1, ( " TravCornu-GetSubA A%0.3f I%d N%d B%d CB%d\n", a2, segInx, neg, back, cornu_backwards ))
inx = segInx;
while (inx >=0 && inx<xx->cornuData.arcSegs.cnt) {
segPtr = (trkSeg_p)xx->cornuData.arcSegs.ptr+inx; //move in to the identified Bezier segment
SegProc( SEGPROC_TRAVERSE1, segPtr, &segProcData );
BOOL_T backwards = segProcData.traverse1.backwards; //do we process this segment backwards?
BOOL_T reverse_seg = segProcData.traverse1.reverse_seg; //Info only
int BezSegInx = segProcData.traverse1.BezSegInx; //Which subSeg was it?
BOOL_T segs_backwards = segProcData.traverse1.segs_backwards;
dist += segProcData.traverse1.dist; //Add in the part of the Bezier to get to pos
segProcData.traverse2.dist = dist; //Set up Traverse2
segProcData.traverse2.segDir = backwards;
segProcData.traverse2.BezSegInx = BezSegInx;
segProcData.traverse2.segs_backwards = segs_backwards;
LOG( log_traverseCornu, 2, ( " TravCornu-Tr1 SI%d D%0.3f B%d RS%d \n", BezSegInx, dist, backwards, reverse_seg ) )
SegProc( SEGPROC_TRAVERSE2, segPtr, &segProcData ); //Angle at pos2
if ( segProcData.traverse2.dist <= 0 ) { //-ve or zero distance left over so stop there
*distR = 0;
trvTrk->pos = segProcData.traverse2.pos; //Use finishing pos
trvTrk->angle = segProcData.traverse2.angle; //Use finishing angle
LOG( log_traverseCornu, 1, ( "TravCornu-Ex1 -> [%0.3f %0.3f] A%0.3f D%0.3f\n", trvTrk->pos.x, trvTrk->pos.y, trvTrk->angle, *distR ) )
return TRUE;
}
dist = segProcData.traverse2.dist; //How far left?
coOrd pos = segProcData.traverse2.pos; //Will always be at a Bezseg end
ANGLE_T angle = segProcData.traverse2.angle; //Angle of end therefore
segProcData.traverse1.angle = angle; //Set up Traverse1
segProcData.traverse1.pos = pos;
inx = cornu_backwards?inx-1:inx+1; //Here's where the global segment direction comes in
LOG( log_traverseCornu, 2, ( " TravCornu-Loop D%0.3f A%0.3f I%d \n", dist, angle, inx ) )
}
//Ran out of Bez-Segs so punt to next Track
*distR = dist; //Tell caller what dist is left
trvTrk->pos = GetTrkEndPos(trk,ep); //Which end were we heading for?
trvTrk->angle = NormalizeAngle(GetTrkEndAngle(trk, ep)); //+(cornu_backwards?180:0));
trvTrk->trk = GetTrkEndTrk(trk,ep); //go onto next track (or NULL)
if (trvTrk->trk==NULL) {
trvTrk->pos = pos1;
return TRUE;
}
LOG( log_traverseCornu, 1, ( "TravCornu-Ex2 --> [%0.3f %0.3f] A%0.3f D%0.3f\n", trvTrk->pos.x, trvTrk->pos.y, trvTrk->angle, *distR ) )
return TRUE;
}
static BOOL_T EnumerateCornu( track_p trk )
{
if (trk != NULL) {
struct extraData *xx = GetTrkExtraData(trk);
DIST_T d;
d = xx->cornuData.length;
ScaleLengthIncrement( GetTrkScale(trk), d );
}
return TRUE;
}
static BOOL_T MergeCornu(
track_p trk0,
EPINX_T ep0,
track_p trk1,
EPINX_T ep1 )
{
struct extraData *xx0 = GetTrkExtraData(trk0);
struct extraData *xx1 = GetTrkExtraData(trk1);
track_p trk_after,trk_before;
EPINX_T ep_before,ep_after=-1;
coOrd p[2];
coOrd c[2];
ANGLE_T a[2];
DIST_T r[2];
if (!IsTrack(trk0) || !IsTrack(trk1) ) return FALSE;
if (GetTrkType(trk0) != GetTrkType(trk1)) return FALSE;
if (GetEndPtConnectedToMe(trk0,trk1) != ep0) return FALSE;
if (GetEndPtConnectedToMe(trk1,trk0) != ep1) return FALSE;
if (ep0 == ep1)
return FALSE;
UndoStart( _("Merge Cornu"), "MergeCornu( T%d[%d] T%d[%d] )", GetTrkIndex(trk0), ep0, GetTrkIndex(trk1), ep1 );
p[0] = xx0->cornuData.pos[0];
p[1] = xx1->cornuData.pos[1];
a[0] = xx0->cornuData.a[0];
a[1] = xx1->cornuData.a[1];
c[0] = xx0->cornuData.c[0];
c[1] = xx1->cornuData.c[1];
r[0] = xx0->cornuData.r[0];
r[1] = xx1->cornuData.r[1];
track_p trk3 = NewCornuTrack(p,c,a,r,NULL,0);
if (trk3==NULL) {
wBeep();
InfoMessage(_("Cornu Create Failed for p1[%0.3f,%0.3f] p2[%0.3f,%0.3f], c1[%0.3f,%0.3f] c2[%0.3f,%0.3f], a1=%0.3f a2=%0.3f, r1=%s r2=%s"),
p[0].x,p[0].y,
p[1].x,p[1].y,
c[0].x,c[0].y,
c[1].x,c[1].y,
a[0],a[1],
FormatDistance(r[0]),FormatDistance(r[1]));
UndoEnd();
return FALSE;
}
UndoModify( trk0 );
UndoModify( trk1 );
UndrawNewTrack( trk0 );
UndrawNewTrack( trk1 );
trk_after = GetTrkEndTrk( trk1, 1-ep1 );
if (trk_after) {
ep_after = GetEndPtConnectedToMe( trk_after, trk1 );
DisconnectTracks( trk1, 1-ep1, trk_after, ep_after );
}
trk_before = GetTrkEndTrk( trk0, 1-ep0 );
if (trk_before) {
ep_before = GetEndPtConnectedToMe( trk_before, trk0 );
DisconnectTracks( trk0, 1-ep1, trk_before, ep_before );
}
DeleteTrack( trk1, TRUE );
DeleteTrack( trk0, TRUE );
if (trk_after) {
SetTrkEndPoint( trk_after, ep_after, xx0->cornuData.pos[1], NormalizeAngle(xx0->cornuData.a[1]+180));
ConnectTracks( trk3, 1, trk_after, ep_after);
}
if (trk_before) {
SetTrkEndPoint( trk_before, ep_before, xx0->cornuData.pos[0], NormalizeAngle(xx0->cornuData.a[0]+180));
ConnectTracks( trk3, 0, trk_before, ep_before);
}
DrawNewTrack( trk3 );
UndoEnd();
return TRUE;
}
BOOL_T GetBezierSegmentsFromCornu(track_p trk, dynArr_t * segs) {
struct extraData * xx = GetTrkExtraData(trk);
for (int i=0;i<xx->cornuData.arcSegs.cnt;i++) {
DYNARR_APPEND(trkSeg_t, * segs, 10);
trkSeg_p segPtr = &DYNARR_N(trkSeg_t,* segs,segs->cnt-1);
segPtr->type = SEG_BEZTRK;
segPtr->color = wDrawColorBlack;
segPtr->width = 0;
if (segPtr->bezSegs.ptr) MyFree(segPtr->bezSegs.ptr);
segPtr->bezSegs.cnt = 0;
segPtr->bezSegs.max = 0;
segPtr->bezSegs.ptr = NULL;
trkSeg_p p = (trkSeg_t *) xx->cornuData.arcSegs.ptr+i;
for (int j=0;j<4;j++) segPtr->u.b.pos[j] = p->u.b.pos[j];
FixUpBezierSeg(segPtr->u.b.pos,segPtr,TRUE);
}
return TRUE;
}
static DIST_T GetLengthCornu( track_p trk )
{
struct extraData *xx = GetTrkExtraData(trk);
DIST_T length = 0.0;
segProcData_t segProcData;
for(int i=0;i<xx->cornuData.arcSegs.cnt;i++) {
trkSeg_t seg = DYNARR_N(trkSeg_t,xx->cornuData.arcSegs,i);
if (seg.type == SEG_FILCRCL) continue;
SegProc(SEGPROC_LENGTH, &seg, &segProcData);
length += segProcData.length.length;
}
return length;
}
static BOOL_T GetParamsCornu( int inx, track_p trk, coOrd pos, trackParams_t * params )
{
int segInx, segInx2;
BOOL_T back, negative;
DIST_T d;
struct extraData *xx = GetTrkExtraData(trk);
params->type = curveTypeCornu;
params->track_angle = GetAngleSegs( //Find correct Segment and nearest point in it
xx->cornuData.arcSegs.cnt,xx->cornuData.arcSegs.ptr,
&pos, &segInx, &d , &back, &segInx2, &negative );
trkSeg_p segPtr = &DYNARR_N(trkSeg_t,xx->cornuData.arcSegs,segInx);
if (negative != back) params->track_angle = NormalizeAngle(params->track_angle+180); //Cornu is in reverse
if (segPtr->type == SEG_STRTRK) {
params->arcR = 0.0;
} else if (segPtr->type == SEG_CRVTRK) {
params->arcR = fabs(segPtr->u.c.radius);
params->arcP = segPtr->u.c.center;
params->arcA0 = segPtr->u.c.a0;
params->arcA1 = segPtr->u.c.a1;
} else if (segPtr->type == SEG_BEZTRK) {
trkSeg_p segPtr2 = &DYNARR_N(trkSeg_t,segPtr->bezSegs,segInx2);
if (segPtr2->type == SEG_STRTRK) {
params->arcR = 0.0;
} else if (segPtr2->type == SEG_CRVTRK) {
params->arcR = fabs(segPtr2->u.c.radius);
params->arcP = segPtr2->u.c.center;
params->arcA0 = segPtr2->u.c.a0;
params->arcA1 = segPtr2->u.c.a1;
}
}
for (int i=0;i<2;i++) {
params->cornuEnd[i] = xx->cornuData.pos[i];
params->cornuAngle[i] = xx->cornuData.a[i];
params->cornuRadius[i] = xx->cornuData.r[i];
params->cornuCenter[i] = xx->cornuData.c[i];
}
params->len = xx->cornuData.length;
if ( inx == PARAMS_PARALLEL ) {
params->ep = 0;
} else if (inx == PARAMS_CORNU) {
params->ep = PickEndPoint( pos, trk);
} else {
params->ep = PickUnconnectedEndPointSilent( pos, trk );
}
if (params->ep>=0) {
params->angle = GetTrkEndAngle(trk,params->ep);
}
return TRUE;
}
static BOOL_T QueryCornu( track_p trk, int query )
{
struct extraData * xx = GetTrkExtraData(trk);
switch ( query ) {
case Q_CAN_GROUP:
return FALSE;
break;
case Q_FLIP_ENDPTS:
case Q_HAS_DESC:
return TRUE;
break;
case Q_EXCEPTION:
return xx->cornuData.minCurveRadius < (GetLayoutMinTrackRadius()-EPSILON);
break;
case Q_IS_CORNU:
return TRUE;
break;
case Q_ISTRACK:
return TRUE;
break;
case Q_CAN_PARALLEL:
return TRUE;
break;
// case Q_MODIFY_CANT_SPLIT: Remove Split Restriction
// case Q_CANNOT_BE_ON_END: Remove Restriction - Can have Cornu with no ends
case Q_CANNOT_PLACE_TURNOUT:
return TRUE;
break;
case Q_IGNORE_EASEMENT_ON_EXTEND:
return TRUE;
break;
case Q_MODIFY_CAN_SPLIT:
case Q_CAN_EXTEND:
return TRUE;
default:
return FALSE;
}
}
static void FlipCornu(
track_p trk,
coOrd orig,
ANGLE_T angle )
{
struct extraData * xx = GetTrkExtraData(trk);
FlipPoint( &xx->cornuData.pos[0], orig, angle );
FlipPoint( &xx->cornuData.pos[1], orig, angle );
FlipPoint( &xx->cornuData.c[0], orig, angle);
FlipPoint( &xx->cornuData.c[1], orig, angle);
xx->cornuData.a[0] = NormalizeAngle( 2*angle - xx->cornuData.a[0] );
xx->cornuData.a[1] = NormalizeAngle( 2*angle - xx->cornuData.a[1] );
/* Reverse internals so that they match the new ends */
coOrd pos_save = xx->cornuData.pos[0];
xx->cornuData.pos[0] = xx->cornuData.pos[1];
xx->cornuData.pos[1] = pos_save;
ANGLE_T angle_save = xx->cornuData.a[0];
xx->cornuData.a[0] = xx->cornuData.a[1];
xx->cornuData.a[1] = angle_save;
coOrd c_save = xx->cornuData.c[0];
xx->cornuData.c[0] = xx->cornuData.c[1];
xx->cornuData.c[1] = c_save;
DIST_T rad_save = xx->cornuData.r[0];
xx->cornuData.r[0] = xx->cornuData.r[1];
xx->cornuData.r[1] = rad_save;
RebuildCornu(trk);
}
static ANGLE_T GetAngleCornu(
track_p trk,
coOrd pos,
EPINX_T * ep0,
EPINX_T * ep1 )
{
struct extraData * xx = GetTrkExtraData(trk);
ANGLE_T angle;
BOOL_T back, neg;
int indx;
angle = GetAngleSegs( xx->cornuData.arcSegs.cnt, (trkSeg_p)xx->cornuData.arcSegs.ptr, &pos, &indx, NULL, &back, NULL, &neg );
if ( ep0 ) *ep0 = -1;
if ( ep1 ) *ep1 = -1;
return angle;
}
BOOL_T GetCornuSegmentFromTrack(track_p trk, trkSeg_p seg_p) {
//TODO If we support Group
return TRUE;
}
static BOOL_T MakeParallelCornu(
track_p trk,
coOrd pos,
DIST_T sep,
track_p * newTrkR,
coOrd * p0R,
coOrd * p1R )
{
struct extraData * xx = GetTrkExtraData(trk);
coOrd np[4], p, nc[2];
ANGLE_T atrk, diff_a, na[2];
DIST_T nr[2];
//Produce cornu that is translated parallel to the existing Cornu
// - not a precise result if the cornu end angles are not in the same general direction.
// The expectation is that the user will have to adjust it - unless and until we produce
// a new algo to adjust the control points to be parallel to the endpoints.
p = pos;
DistanceCornu(trk, &p); //Find nearest point on curve
atrk = GetAngleSegs(xx->cornuData.arcSegs.cnt,(trkSeg_t *)(xx->cornuData.arcSegs.ptr),&p,NULL,NULL,NULL,NULL, NULL);
diff_a = NormalizeAngle(FindAngle(pos,p)-atrk); //we know it will be +/-90...
//find parallel move x and y for points
BOOL_T above = FALSE;
if ( diff_a < 180 ) above = TRUE; //Above track
if (xx->cornuData.a[0] <180) above = !above;
Translate(&np[0],xx->cornuData.pos[0],xx->cornuData.a[0]+(above?90:-90),sep);
Translate(&np[1],xx->cornuData.pos[1],xx->cornuData.a[1]+(above?-90:90),sep);
na[0]=xx->cornuData.a[0];
na[1]=xx->cornuData.a[1];
if (xx->cornuData.r[0]) {
//Find angle between center and end angle of track
ANGLE_T ea0 =
NormalizeAngle(FindAngle(xx->cornuData.c[0],xx->cornuData.pos[0])-xx->cornuData.a[0]);
DIST_T sep0 = sep;
if (ea0>180) sep0 = -sep;
nr[0]=xx->cornuData.r[0]+(above?sep0:-sep0); //Needs adjustment
nc[0]=xx->cornuData.c[0];
} else {
nr[0] = 0;
nc[0] = zero;
}
if (xx->cornuData.r[1]) {
ANGLE_T ea1 =
NormalizeAngle(FindAngle(xx->cornuData.c[1],xx->cornuData.pos[1])-xx->cornuData.a[1]);
DIST_T sep1 = sep;
if (ea1<180) sep1 = -sep;
nr[1]=xx->cornuData.r[1]+(above?sep1:-sep1); //Needs adjustment
nc[1]=xx->cornuData.c[1];
} else {
nr[1] = 0;
nc[1] = zero;
}
if ( newTrkR ) {
*newTrkR = NewCornuTrack( np, nc, na, nr, NULL, 0);
if (*newTrkR==NULL) {
wBeep();
InfoMessage(_("Cornu Create Failed for p1[%0.3f,%0.3f] p2[%0.3f,%0.3f], c1[%0.3f,%0.3f] c2[%0.3f,%0.3f], a1=%0.3f a2=%0.3f, r1=%s r2=%s"),
np[0].x,np[0].y,
np[1].x,np[1].y,
nc[0].x,nc[0].y,
nc[1].x,nc[1].y,
na[0],na[1],
FormatDistance(nr[0]),FormatDistance(nr[1]));
return FALSE;
}
} else {
tempSegs_da.cnt = 0;
CallCornu0(np,nc,na,nr,&tempSegs_da,FALSE);
}
if ( p0R ) *p0R = np[0];
if ( p1R ) *p1R = np[1];
return TRUE;
}
/*
* When an undo is run, the array of segs is missing - they are not saved to the Undo log. So Undo calls this routine to
* ensure
* - that the Segs are restored and
* - other fields reset.
*/
EXPORT BOOL_T RebuildCornu (track_p trk)
{
struct extraData *xx;
xx = GetTrkExtraData(trk);
xx->cornuData.arcSegs.max = 0;
xx->cornuData.arcSegs.cnt = 0;
//if (xx->cornuData.arcSegs.ptr) MyFree(xx->cornuData.arcSegs.ptr);
xx->cornuData.arcSegs.ptr = NULL;
if (!FixUpCornu0(xx->cornuData.pos,xx->cornuData.c,xx->cornuData.a,xx->cornuData.r, xx)) return FALSE;
ComputeCornuBoundingBox(trk, xx);
return TRUE;
}
static trackCmd_t cornuCmds = {
"CORNU",
DrawCornu,
DistanceCornu,
DescribeCornu,
DeleteCornu,
WriteCornu,
ReadCornu,
MoveCornu,
RotateCornu,
RescaleCornu,
NULL,
GetAngleCornu,
SplitCornu,
TraverseCornu,
EnumerateCornu,
NULL, /* redraw */
NULL, /* trim */
MergeCornu,
NULL, /* modify */
GetLengthCornu,
GetParamsCornu,
MoveCornuEndPt, /* Move EndPt */
QueryCornu,
NULL, /* ungroup */
FlipCornu,
NULL,
NULL,
NULL,
MakeParallelCornu,
NULL,
RebuildCornu
};
/****************************************
*
* GRAPHICS COMMANDS
*
*/
track_p NewCornuTrack(coOrd pos[2], coOrd center[2],ANGLE_T angle[2], DIST_T radius[2], trkSeg_t * tempsegs, int count)
{
struct extraData *xx;
track_p p;
p = NewTrack( 0, T_CORNU, 2, sizeof *xx );
xx = GetTrkExtraData(p);
xx->cornuData.pos[0] = pos[0];
xx->cornuData.pos[1] = pos[1];
xx->cornuData.a[0] = angle[0];
xx->cornuData.a[1] = angle[1];
xx->cornuData.r[0] = radius[0];
xx->cornuData.r[1] = radius[1];
xx->cornuData.c[0] = center[0];
xx->cornuData.c[1] = center[1];
if (!FixUpCornu0(xx->cornuData.pos,xx->cornuData.c,xx->cornuData.a,xx->cornuData.r, xx)) {
ErrorMessage("Create Cornu Failed");
return NULL;
}
LOG( log_cornu, 1, ( "NewCornuTrack( EP1 %0.3f, %0.3f, EP2 %0.3f, %0.3f ) = %d\n", pos[0].x, pos[0].y, pos[1].x, pos[1].y, GetTrkIndex(p) ) )
ComputeCornuBoundingBox( p, xx );
SetTrkEndPoint( p, 0, pos[0], xx->cornuData.a[0]);
SetTrkEndPoint( p, 1, pos[1], xx->cornuData.a[1]);
CheckTrackLength( p );
SetTrkBits( p, TB_HIDEDESC );
return p;
}
EXPORT void InitTrkCornu( void )
{
T_CORNU = InitObject( &cornuCmds );
log_cornu = LogFindIndex( "Cornu" );
log_traverseCornu = LogFindIndex( "traverseCornu" );
}