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|
/** \file cgroup.c
* Compound tracks: Group
*
*/
/* XTrkCad - Model Railroad CAD
* Copyright (C) 2005 Dave Bullis
*
* 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 <ctype.h>
#include <math.h>
#include <string.h>
#include "compound.h"
#include "cundo.h"
#include "custom.h"
#include "fileio.h"
#include "i18n.h"
#include "tbezier.h"
#include "tcornu.h"
#include "common.h"
#include "messages.h"
#include "param.h"
#include "shrtpath.h"
#include "track.h"
#include "utility.h"
/*****************************************************************************
*
* Ungroup / Group
*
*/
static int log_group=-1;
static dynArr_t pathPtr_da;
#define pathPtr(N) DYNARR_N( char, pathPtr_da, N )
static char groupManuf[STR_SIZE];
static char groupDesc[STR_SIZE];
static char groupPartno[STR_SIZE];
static char groupTitle[STR_SIZE];
static int groupCompoundCount = 0;
extern TRKTYP_T T_BZRTRK;
extern TRKTYP_T T_BZRLIN;
extern TRKTYP_T T_CORNU;
typedef struct {
int segInx;
EPINX_T segEP;
int inx;
track_p trk;
} mergePt_t;
static dynArr_t mergePt_da;
#define mergePt(N) DYNARR_N( mergePt_t, mergePt_da, N )
static void AddMergePt(
int segInx,
EPINX_T segEP )
{
int inx;
mergePt_t * mp;
for ( inx=0; inx<mergePt_da.cnt; inx++ ) {
mp = &mergePt(inx);
if ( mp->segInx == segInx &&
mp->segEP == segEP )
return;
}
DYNARR_APPEND( mergePt_t, mergePt_da, 10 );
mp = &mergePt(mergePt_da.cnt-1);
mp->segInx = segInx;
mp->segEP = segEP;
mp->inx = mergePt_da.cnt-1;
LOG( log_group, 2, ( " MergePt: %d.%d\n", segInx, segEP ) );
}
static EPINX_T FindEP(
EPINX_T epCnt,
trkEndPt_p endPts,
coOrd pos )
{
DIST_T dist;
EPINX_T ep;
for ( ep=0; ep<epCnt; ep++ ) {
dist = FindDistance( pos, endPts[ep].pos );
if ( dist < connectDistance )
return ep;
}
return -1;
}
static void SegOnMP(
int segInx,
int mpInx,
int segCnt,
int * map )
{
int inx;
mergePt_t * mp;
if ( map[segInx] < 0 ) {
LOG( log_group, 2, ( " S%d: on MP%d\n", segInx, mpInx ) );
map[segInx] = mpInx;
return;
}
LOG( log_group, 2, ( " S%d: remapping MP%d to MP%d\n", segInx, mpInx, map[segInx] ) );
for ( inx=0; inx<segCnt; inx++ )
if ( map[inx] == mpInx )
map[inx] = map[segInx];
for ( inx=0; inx<mergePt_da.cnt; inx++ ) {
if ( inx == map[segInx] )
continue;
mp = &mergePt(inx);
if ( mp->inx == mpInx )
mp->inx = map[segInx];
}
}
static void GroupCopyTitle(
char * title )
{
char *mP, *nP, *pP;
int mL, nL, pL;
ParseCompoundTitle( title, &mP, &mL, &nP, &nL, &pP, &pL );
if ( strncmp( nP, "Ungrouped ", 10 ) == 0 ) {
nP += 10;
nL -= 10;
}
if ( ++groupCompoundCount == 1 ) {
strncpy( groupManuf, mP, mL );
groupManuf[mL] = '\0';
strncpy( groupDesc, nP, nL );
groupDesc[nL] = '\0';
strncpy( groupPartno, pP, pL );
groupPartno[pL] = '\0';
} else {
if ( mL != (int)strlen( groupManuf ) ||
strncmp( groupManuf, mP, mL ) != 0 )
groupManuf[0] = '\0';
if ( nL != (int)strlen( groupDesc ) ||
strncmp( groupDesc, nP, nL ) != 0 )
groupDesc[0] = '\0';
if ( pL != (int)strlen( groupPartno ) ||
strncmp( groupPartno, pP, pL ) != 0 )
groupPartno[0] = '\0';
}
}
EXPORT void UngroupCompound(
track_p trk )
{
struct extraData *xx = GetTrkExtraData(trk);
struct extraData *xx1;
trkSeg_p sp;
track_p trk0, trk1;
int segCnt, segInx, segInx1;
EPINX_T ep, epCnt, epCnt1=0, segEP, segEP1, eps[2];
char * cp;
coOrd pos, orig, size;
ANGLE_T angle;
int inx;
int off;
mergePt_t * mp;
trkEndPt_p epp;
segProcData_t segProcData;
static dynArr_t refCount_da;
#define refCount(N) DYNARR_N( int, refCount_da, N )
typedef struct {
track_p trk;
EPINX_T ep[2];
} segTrack_t;
#define segTrack(N) DYNARR_N( segTrack_t, segTrack_da, N )
static dynArr_t segTrack_da;
segTrack_t * stp, * stp1;
BOOL_T turnoutChanged;
DYNARR_RESET( mergePt_t, mergePt_da );
DYNARR_RESET( int, refCount_da );
DYNARR_RESET( segTrack_t, segTrack_da );
GroupCopyTitle( xtitle(xx) );
#ifdef LATER
for ( sp=sq=xx->segs; sp<&xx->segs[xx->segCnt]; sp++ ) {
if ( IsSegTrack(sp) ) {
*sq = *sp;
sq++;
} else {
trk1 = MakeDrawFromSeg( xx->orig, xx->angle, sp );
if ( trk1 ) {
SetTrkBits( trk1, TB_SELECTED );
DrawNewTrack( trk1 );
}
}
}
if ( GetTrkEndPtCnt(trk) <= 0 ) {
UndoDelete( trk );
return;
}
#endif
LOG( log_group, 1, ( "Ungroup( T%d )\n", GetTrkIndex(trk) ) );
epCnt = GetTrkEndPtCnt(trk);
for ( segCnt=0; segCnt<xx->segCnt&&IsSegTrack(&xx->segs[segCnt]); segCnt++ );
ASSERT( (epCnt==0) == (segCnt==0) );
turnoutChanged = FALSE;
if ( epCnt > 0 ) {
turnoutChanged = TRUE;
/* 1: collect EPs
*/
DYNARR_SET( trkEndPt_t, tempEndPts_da, epCnt );
DYNARR_SET( segTrack_t, segTrack_da, segCnt );
memset( segTrack_da.ptr, 0, segCnt * sizeof segTrack(0) );
for ( ep=0; ep<epCnt; ep++ ) {
epp = &tempEndPts(ep);
epp->pos = GetTrkEndPos( trk, ep );
epp->angle = GetTrkEndAngle( trk, ep );
Rotate( &epp->pos, xx->orig, -xx->angle );
epp->pos.x -= xx->orig.x;
epp->pos.y -= xx->orig.y;
epp->track = GetTrkEndTrk( trk, ep );
if ( epp->track )
epp->index = GetEndPtConnectedToMe( epp->track, trk );
else
epp->index = -1;
LOG( log_group, 1, ( " EP%d = [%0.3f %0.3f] A%0.3f T%d.%d\n", ep, epp->pos.x, epp->pos.y, epp->angle, epp->track?GetTrkIndex(epp->track):-1, epp->track?epp->index:-1 ) );
}
/* 3: Count number of times each segment is referenced
* If the refcount differs between adjacent segments
* add segment with smaller count to mergePts
* Treat EndPts as a phantom segment with inx above segCnt
* Path ends that don't map onto a real EndPt (bumpers) get a fake EP
*/
DYNARR_SET( int, refCount_da, segCnt+epCnt );
memset( refCount_da.ptr, 0, refCount_da.cnt * sizeof *(int*)0 );
cp = (char *)xx->paths;
while ( cp[0] ) {
cp += strlen(cp)+1;
while ( cp[0] ) {
GetSegInxEP( cp[0], &segInx, &segEP );
pos = GetSegEndPt( xx->segs+segInx, segEP, FALSE, NULL );
segInx1 = FindEP( tempEndPts_da.cnt, &tempEndPts(0), pos );
if ( segInx1 >= 0 ) {
segInx1 += segCnt;
refCount(segInx1)++;
} else {
DYNARR_APPEND( trkEndPt_t, tempEndPts_da, 10 );
DYNARR_APPEND( int, refCount_da, 10 );
epp = &tempEndPts(tempEndPts_da.cnt-1);
epp->pos = pos;
epp->angle = 0;
segInx1 = refCount_da.cnt-1;
refCount(segInx1) = 2;
}
segEP1 = 0;
while ( cp[0] ) {
GetSegInxEP( cp[0], &segInx, &segEP );
refCount(segInx)++;
if ( refCount(segInx) > refCount(segInx1) )
AddMergePt( segInx, segEP );
if ( refCount(segInx1) > refCount(segInx) )
AddMergePt( segInx1, segEP1 );
segInx1 = segInx;
segEP1 = 1-segEP;
cp++;
}
GetSegInxEP( cp[-1], &segInx, &segEP );
pos = GetSegEndPt( xx->segs+segInx, 1-segEP, FALSE, NULL );
segInx = FindEP( tempEndPts_da.cnt, &tempEndPts(0), pos );
if ( segInx >= 0 ) {
segInx += segCnt;
refCount(segInx)++;
} else {
DYNARR_APPEND( trkEndPt_t, tempEndPts_da, 10 );
DYNARR_APPEND( int, refCount_da, 10 );
epp = &tempEndPts(tempEndPts_da.cnt-1);
epp->pos = pos;
epp->angle = 0;
segInx = refCount_da.cnt-1;
refCount(segInx) = 2;
}
if ( refCount(segInx) > refCount(segInx1) ) {
AddMergePt( segInx, 0 );
}
cp++;
}
cp++;
}
epCnt1 = tempEndPts_da.cnt;
/* 4: For each path element, map segment to a mergePt if the adjacent segment
* and EP is a mergePt
* If segment is already mapped then merge mergePts
*/
DYNARR_SET( int, refCount_da, segCnt );
memset( refCount_da.ptr, -1, segCnt * sizeof *(int*)0 );
cp = (char *)xx->paths;
while ( cp[0] ) {
cp += strlen(cp)+1;
while ( cp[0] ) {
GetSegInxEP( cp[0], &segInx, &segEP );
pos = GetSegEndPt( xx->segs+segInx, segEP, FALSE, NULL );
/*REORIGIN1( pos, xx->angle, xx->orig );*/
segInx1 = FindEP( tempEndPts_da.cnt, &tempEndPts(0), pos );
if ( segInx1 >= 0 ) {
segInx1 += segCnt;
}
segEP1 = 0;
while ( cp[0] ) {
GetSegInxEP( cp[0], &segInx, &segEP );
if ( segInx1 >= 0 ) {
for ( inx=0; inx<mergePt_da.cnt; inx++ ) {
mp = &mergePt(inx);
if ( mp->segInx == segInx1 && mp->segEP == segEP1 ) {
SegOnMP( segInx, mp->inx, segCnt, &refCount(0) );
}
if ( mp->segInx == segInx && mp->segEP == segEP ) {
SegOnMP( segInx1, mp->inx, segCnt, &refCount(0) );
}
}
}
segInx1 = segInx;
segEP1 = 1-segEP;
cp++;
}
GetSegInxEP( cp[-1], &segInx, &segEP );
pos = GetSegEndPt( xx->segs+segInx, 1-segEP, FALSE, NULL );
/*REORIGIN1( pos, xx->angle, xx->orig );*/
segInx = FindEP( tempEndPts_da.cnt, &tempEndPts(0), pos );
if ( segInx >= 0 ) {
segInx += segCnt;
for ( inx=0; inx<mergePt_da.cnt; inx++ ) {
mp = &mergePt(inx);
if ( mp->segInx == segInx && mp->segEP == 0 ) {
SegOnMP( segInx1, mp->inx, segCnt, &refCount(0) );
}
}
}
cp++;
}
cp++;
}
/* 5: Check is all segments are on the same mergePt, which means there is nothing to do
*/
if ( mergePt_da.cnt > 0 ) {
for ( segInx=0; segInx<segCnt; segInx++ )
if ( refCount(segInx) != mergePt(0).inx )
break;
if ( segInx == segCnt ) {
/* all segments on same turnout, nothing we can do here */
turnoutChanged = FALSE;
if ( segCnt == xx->segCnt ) {
/* no non-track segments to remove */
return;
}
}
}
}
/* 6: disconnect, undraw, remove non-track segs, return if there is nothing else to do
*/
wDrawDelayUpdate( mainD.d, TRUE );
if ( turnoutChanged ) {
for ( ep=0; ep<epCnt; ep++ ) {
epp = &tempEndPts(ep);
if ( epp->track ) {
DrawEndPt( &mainD, epp->track, epp->index, wDrawColorWhite );
DrawEndPt( &mainD, trk, ep, wDrawColorWhite );
DisconnectTracks( trk, ep, epp->track, epp->index );
}
}
}
UndrawNewTrack(trk);
for ( sp=xx->segs; sp<&xx->segs[xx->segCnt]; sp++ ) {
if ( ! IsSegTrack(sp) ) {
trk1 = MakeDrawFromSeg( xx->orig, xx->angle, sp );
if ( trk1 ) {
SetTrkBits( trk1, TB_SELECTED );
DrawNewTrack( trk1 );
}
}
}
if ( !turnoutChanged ) {
if ( epCnt <= 0 ) {
trackCount--;
UndoDelete( trk );
} else {
UndoModify( trk );
xx->segCnt = segCnt;
DrawNewTrack( trk );
}
wDrawDelayUpdate( mainD.d, FALSE );
return;
}
/* 7: for each valid mergePt, create a new turnout
*/
for ( inx=0; inx<mergePt_da.cnt; inx++ ) {
mp = &mergePt(inx);
if ( mp->inx != inx )
continue;
DYNARR_RESET( trkSeg_t, tempSegs_da );
DYNARR_SET( trkEndPt_t, tempEndPts_da, epCnt1 );
DYNARR_RESET( char, pathPtr_da );
for ( segInx=0; segInx<segCnt; segInx++ ) {
if ( refCount(segInx) == inx ) {
DYNARR_APPEND( trkSeg_t, tempSegs_da, 10 );
tempSegs(tempSegs_da.cnt-1) = xx->segs[segInx];
sprintf( message, "P%d", segInx );
off = pathPtr_da.cnt;
DYNARR_SET( char, pathPtr_da, off+(int)strlen(message)+4 );
strcpy( &pathPtr(off), message );
off = pathPtr_da.cnt-3;
pathPtr(off+0) = (char)tempSegs_da.cnt;
pathPtr(off+1) = '\0';
pathPtr(off+2) = '\0';
for ( ep=0; ep<2; ep++ ) {
pos = GetSegEndPt( xx->segs+segInx, ep, FALSE, &angle );
segEP = FindEP( epCnt1, &tempEndPts(0), pos );
if ( segEP >= 0 && segEP >= epCnt && segEP < epCnt1 ) {
/* was a bumper: no EP */
eps[ep] = -1;
continue;
}
REORIGIN1( pos, xx->angle, xx->orig );
angle = NormalizeAngle( xx->angle+angle );
eps[ep] = FindEP( tempEndPts_da.cnt-epCnt1, &tempEndPts(epCnt1), pos );
if ( eps[ep] < 0 ) {
DYNARR_APPEND( trkEndPt_t, tempEndPts_da, 10 );
eps[ep] = tempEndPts_da.cnt-1-epCnt1;
epp = &tempEndPts(tempEndPts_da.cnt-1);
memset( epp, 0, sizeof *epp );
epp->pos = pos;
epp->angle = angle;
}
}
segTrack(segInx).ep[0] = eps[0];
segTrack(segInx).ep[1] = eps[1];
}
}
DYNARR_SET( char, pathPtr_da, pathPtr_da.cnt+1 );
pathPtr(pathPtr_da.cnt-1) = '\0';
if ( tempSegs_da.cnt == 0 ) {
AbortProg( "tempSegs_da.cnt == 0" );
continue;
}
GetSegBounds( zero, 0, tempSegs_da.cnt, &tempSegs(0), &orig, &size );
orig.x = -orig.x;
orig.y = -orig.y;
MoveSegs( tempSegs_da.cnt, &tempSegs(0), orig );
Rotate( &orig, zero, xx->angle );
orig.x = xx->orig.x - orig.x;
orig.y = xx->orig.y - orig.y;
trk1 = NewCompound( T_TURNOUT, 0, orig, xx->angle, xx->title, tempEndPts_da.cnt-epCnt1, &tempEndPts(epCnt1), pathPtr_da.cnt, &pathPtr(0), tempSegs_da.cnt, &tempSegs(0) );
xx1 = GetTrkExtraData(trk1);
xx1->ungrouped = TRUE;
SetTrkVisible( trk1, TRUE );
SetTrkBits( trk1, TB_SELECTED );
for ( segInx=0; segInx<segCnt; segInx++ ) {
if ( refCount(segInx) == inx ) {
segTrack(segInx).trk = trk1;
}
}
mp->trk = trk1;
}
/* 8: for remaining segments, create simple tracks
*/
for ( segInx=0; segInx<segCnt; segInx++ ) {
if ( refCount(segInx) >= 0 ) continue;
SegProc( SEGPROC_NEWTRACK, xx->segs+segInx, &segProcData );
SetTrkScale( segProcData.newTrack.trk, GetTrkScale(trk) );
SetTrkBits( segProcData.newTrack.trk, TB_SELECTED );
MoveTrack( segProcData.newTrack.trk, xx->orig );
RotateTrack( segProcData.newTrack.trk, xx->orig, xx->angle );
segTrack(segInx).trk = segProcData.newTrack.trk;
segTrack(segInx).ep[0] = segProcData.newTrack.ep[0];
segTrack(segInx).ep[1] = segProcData.newTrack.ep[1];
}
/* 9: reconnect tracks
*/
cp = (char *)xx->paths;
while ( cp[0] ) {
cp += strlen(cp)+1;
while ( cp[0] ) {
/* joint EP to this segment */
GetSegInxEP( cp[0], &segInx, &segEP );
stp = &segTrack(segInx);
ep = FindEP( epCnt, &tempEndPts(0), GetSegEndPt( xx->segs+segInx, segEP, FALSE, NULL ) );
if ( ep >= 0 ) {
epp = &tempEndPts(ep);
if ( epp->track ) {
ConnectTracks( stp->trk, stp->ep[segEP], epp->track, epp->index );
DrawEndPt( &mainD, epp->track, epp->index, GetTrkColor(epp->track,&mainD) );
epp->track = NULL;
}
}
stp1 = stp;
segEP1 = 1-segEP;
cp++;
while ( cp[0] ) {
GetSegInxEP( cp[0], &segInx, &segEP );
stp = &segTrack(segInx);
trk0 = GetTrkEndTrk( stp->trk, stp->ep[segEP] );
trk1 = GetTrkEndTrk( stp1->trk, stp1->ep[segEP1] );
if ( trk0 == NULL ) {
if ( trk1 != NULL )
AbortProg( "ungroup: seg half connected" );
ConnectTracks( stp->trk, stp->ep[segEP], stp1->trk, stp1->ep[segEP1] );
} else {
if ( trk1 != stp->trk || stp1->trk != trk0 )
AbortProg( "ungroup: last seg not connected to curr" );
}
stp1 = stp;
segEP1 = 1-segEP;
cp++;
}
/* joint EP to last segment */
ep = FindEP( epCnt, &tempEndPts(0), GetSegEndPt( xx->segs+segInx, segEP1, FALSE, NULL ) );
if ( ep > 0 ) {
epp = &tempEndPts(ep);
if ( epp->track ) {
ConnectTracks( stp1->trk, stp1->ep[segEP1], epp->track, epp->index );
DrawEndPt( &mainD, epp->track, epp->index, wDrawColorWhite );
epp->track = NULL;
}
}
cp++;
}
cp++;
}
/* 10: cleanup: delete old track, draw new tracks
*/
UndoDelete( trk );
trackCount--;
for ( segInx=0; segInx<segCnt; segInx++ ) {
if ( refCount(segInx) >= 0 ) {
mp = &mergePt( refCount(segInx) );
if ( mp->trk ) {
DrawNewTrack( mp->trk );
mp->trk = NULL;
}
} else {
DrawNewTrack( segTrack(segInx).trk );
}
}
wDrawDelayUpdate( mainD.d, FALSE );
}
EXPORT void DoUngroup( void )
{
track_p trk = NULL;
int ungroupCnt;
int oldTrackCount;
TRKINX_T lastTrackIndex;
if ( log_group < 0 )
log_group = LogFindIndex( "group" );
groupManuf[0] = 0;
groupDesc[0] = 0;
groupPartno[0] = 0;
ungroupCnt = 0;
oldTrackCount = trackCount;
UndoStart( _("Ungroup Object"), "Ungroup Objects" );
lastTrackIndex = max_index;
groupCompoundCount = 0;
while ( TrackIterate( &trk ) ) {
if ( GetTrkSelected( trk ) && GetTrkIndex(trk) <= lastTrackIndex ) {
oldTrackCount = trackCount;
UngroupTrack( trk );
if ( oldTrackCount != trackCount )
ungroupCnt++;
}
}
if ( ungroupCnt )
InfoMessage( _("%d objects ungrouped"), ungroupCnt );
else
InfoMessage( _("No objects ungrouped") );
}
static drawCmd_t groupD = {
NULL, &tempSegDrawFuncs, DC_GROUP, 1, 0.0, {0.0, 0.0}, {0.0, 0.0}, Pix2CoOrd, CoOrd2Pix };
static long groupSegCnt;
static long groupReplace;
char * groupReplaceLabels[] = { N_("Replace with new group?"), NULL };
static wWin_p groupW;
static paramIntegerRange_t r0_999999 = { 0, 999999 };
static paramData_t groupPLs[] = {
/*0*/ { PD_STRING, groupManuf, "manuf", PDO_NOPREF | PDO_STRINGLIMITLENGTH, (void*)350, N_("Manufacturer"), 0, (void *)sizeof(groupManuf) },
/*1*/ { PD_STRING, groupDesc, "desc", PDO_NOPREF | PDO_STRINGLIMITLENGTH, (void*)230, N_("Description"), 0, (void *)sizeof(groupDesc) },
/*2*/ { PD_STRING, groupPartno, "partno", PDO_NOPREF|PDO_DLGHORZ|PDO_DLGIGNORELABELWIDTH|PDO_STRINGLIMITLENGTH, (void*)100, N_("#"), 0, (void *)sizeof(groupPartno) },
/*3*/ { PD_LONG, &groupSegCnt, "segcnt", PDO_NOPREF, &r0_999999, N_("# Segments"), BO_READONLY },
/*4*/ { PD_TOGGLE, &groupReplace, "replace", 0, groupReplaceLabels, "", BC_HORZ|BC_NOBORDER } };
static paramGroup_t groupPG = { "group", 0, groupPLs, sizeof groupPLs/sizeof groupPLs[0] };
typedef struct {
track_p trk;
int segStart;
int segEnd;
} groupTrk_t, * groupTrk_p;
static dynArr_t groupTrk_da;
#define groupTrk(N) DYNARR_N( groupTrk_t, groupTrk_da, N )
typedef struct {
int groupInx;
EPINX_T ep1, ep2;
PATHPTR_T path;
BOOL_T flip;
} pathElem_t, *pathElem_p;
typedef struct {
int pathElemStart;
int pathElemEnd;
EPINX_T ep1, ep2;
int conflicts;
BOOL_T inGroup;
BOOL_T done;
} path_t, *path_p;
static dynArr_t path_da;
#define path(N) DYNARR_N( path_t, path_da, N )
static dynArr_t pathElem_da;
#define pathElem(N) DYNARR_N( pathElem_t, pathElem_da, N )
static int pathElemStart;
static BOOL_T CheckTurnoutEndPoint(
trkSeg_p segs,
coOrd pos,
int end )
{
coOrd pos1;
DIST_T d;
pos1 = GetSegEndPt( segs, end, FALSE, NULL );
d = FindDistance( pos, pos1 );
return ( d < connectDistance );
}
static char * FindPathBtwEP(
track_p trk,
EPINX_T ep1,
EPINX_T ep2,
BOOL_T * flip )
{
struct extraData * xx = GetTrkExtraData( trk );
char * cp, *cp0;
int epN;
coOrd pos1, pos2;
int segInx;
EPINX_T segEP;
if ( GetTrkType(trk) != T_TURNOUT ) {
if ( ep1+ep2 != 1 )
AbortProg( "findPathBtwEP" );
*flip = ( ep1 == 1 );
if (GetTrkType(trk) == T_CORNU ) { // Cornu doesn't have a path but lots of segs!
cp = CreateSegPathList(trk); // Make path
LOG( log_group, 2, ( " Group: Cornu path:%s \n", cp ) )
} else cp = "\1\0\0"; //One segment (but could be a Bezier)
return cp;
}
cp = (char *)xx->paths;
pos1 = GetTrkEndPos(trk,ep1);
Rotate( &pos1, xx->orig, -xx->angle );
pos1.x -= xx->orig.x;
pos1.y -= xx->orig.y;
pos2 = GetTrkEndPos(trk,ep2);
Rotate( &pos2, xx->orig, -xx->angle );
pos2.x -= xx->orig.x;
pos2.y -= xx->orig.y;
while ( cp[0] ) {
cp += strlen(cp)+1; //Ignore Path Name
while ( cp[0] ) {
cp0 = cp;
epN = -1;
GetSegInxEP( cp[0], &segInx, &segEP );
if ( CheckTurnoutEndPoint( &xx->segs[segInx], pos1, segEP ) )
epN = 1;
else if ( CheckTurnoutEndPoint( &xx->segs[segInx], pos2, segEP ) )
epN = 0;
cp += strlen(cp);
if ( epN != -1 ) {
GetSegInxEP( cp[-1], &segInx, &segEP );
if ( CheckTurnoutEndPoint( &xx->segs[segInx], epN==0?pos1:pos2, 1-segEP ) ) {
*flip = epN==0; // If its reversed, set up to be flipped or noted
return cp0; //Found path between EPs
}
}
cp++;
}
cp++;
}
return NULL;
}
static int GroupShortestPathFunc(
SPTF_CMD cmd,
track_p trk,
EPINX_T ep1,
EPINX_T ep2,
DIST_T dist,
void * data )
{
track_p trk1;
path_t *pp;
pathElem_t *ppp;
BOOL_T flip;
int inx;
EPINX_T ep;
coOrd pos1, pos2;
ANGLE_T angle, ang1, ang2;
switch ( cmd ) {
case SPTC_MATCH:
if ( !GetTrkSelected(trk) )
return 0;
trk1 = GetTrkEndTrk(trk,ep1);
if ( trk1 == NULL )
return 1;
if ( !GetTrkSelected(trk1) )
return 1;
return 0;
case SPTC_MATCHANY:
return -1;
case SPTC_ADD_TRK:
if (log_shortPath<=0||logTable(log_shortPath).level<4) LOG( log_group, 2, ( " T%d[%d]\n", GetTrkIndex(trk), ep2 ) )
DYNARR_APPEND( pathElem_t, pathElem_da, 10 );
ppp = &pathElem(pathElem_da.cnt-1);
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
if ( groupTrk(inx).trk == trk ) {
ppp->groupInx = inx;
ppp->ep1 = ep1;
ppp->ep2 = ep2;
ppp->path = (PATHPTR_T)FindPathBtwEP( trk, ep1, ep2, &ppp->flip );
return 0;
}
}
AbortProg( "GroupShortestPathFunc(SPTC_ADD_TRK, T%d) - track not in group", GetTrkIndex(trk) );
case SPTC_TERMINATE:
ppp = &pathElem(pathElemStart);
trk = groupTrk(ppp->groupInx).trk;
pos1 = GetTrkEndPos( trk, ppp->ep2 );
ang1 = GetTrkEndAngle( trk, ppp->ep2 );
ppp = &pathElem(pathElem_da.cnt-1);
trk = groupTrk(ppp->groupInx).trk;
pos2 = GetTrkEndPos( trk, ppp->ep1 );
ang2 = GetTrkEndAngle( trk, ppp->ep1 );
ep1 = ep2 = -1;
for ( ep=0; ep<tempEndPts_da.cnt; ep++ ) {
if ( ep1 < 0 ) {
dist = FindDistance( pos1, tempEndPts(ep).pos );
angle = NormalizeAngle( ang1 - tempEndPts(ep).angle + connectAngle/2.0 );
if ( dist < connectDistance && angle < connectAngle )
ep1 = ep;
}
if ( ep2 < 0 ) {
dist = FindDistance( pos2, tempEndPts(ep).pos );
angle = NormalizeAngle( ang2 - tempEndPts(ep).angle + connectAngle/2.0 );
if ( dist < connectDistance && angle < connectAngle )
ep2 = ep;
}
}
if ( ep1<0 || ep2<0 ) {
LOG( log_group, 2, ( " Remove: ep not found\n" ) )
pathElem_da.cnt = pathElemStart;
return 0;
}
for ( inx=0; inx<path_da.cnt; inx++ ) {
pp = &path(inx);
if ( ( ep1 < 0 || ( pp->ep1 == ep1 || pp->ep2 == ep1 ) ) &&
( ep2 < 0 || ( pp->ep1 == ep2 || pp->ep2 == ep2 ) ) ) {
LOG( log_group, 2, ( " Remove: duplicate path P%d\n", inx ) )
pathElem_da.cnt = pathElemStart;
return 0;
}
}
DYNARR_APPEND( path_t, path_da, 10 );
pp = &path(path_da.cnt-1);
memset( pp, 0, sizeof *pp );
pp->pathElemStart = pathElemStart;
pp->pathElemEnd = pathElem_da.cnt-1;
pp->ep1 = ep1;
pp->ep2 = ep2;
pathElemStart = pathElem_da.cnt;
LOG( log_group, 2, ( " Keep\n" ) )
return 0;
case SPTC_IGNNXTTRK:
if ( !GetTrkSelected(trk) )
return 1;
if ( ep1 == ep2 )
return 1;
if ( GetTrkEndPtCnt(trk) == 2 )
return 0;
if ( GetTrkType(trk) != T_TURNOUT )
AbortProg( "GroupShortestPathFunc(IGNNXTTRK,T%d:%d,%d)", GetTrkIndex(trk), ep1, ep2 );
return FindPathBtwEP( trk, ep2, ep1, &flip ) == NULL;
case SPTC_VALID:
return 1;
}
return 0;
}
static int CmpGroupOrder(
const void * ptr1,
const void * ptr2 )
{
int inx1 = *(int*)ptr1;
int inx2 = *(int*)ptr2;
return path(inx1).conflicts-path(inx2).conflicts;
}
static coOrd endPtOrig;
static ANGLE_T endPtAngle;
static int CmpEndPtAngle(
const void * ptr1,
const void * ptr2 )
{
ANGLE_T angle;
trkEndPt_p epp1 = (trkEndPt_p)ptr1;
trkEndPt_p epp2 = (trkEndPt_p)ptr2;
angle = NormalizeAngle(FindAngle(endPtOrig,epp1->pos)-endPtAngle) - NormalizeAngle(FindAngle(endPtOrig,epp2->pos)-endPtAngle);
return (int)angle;
}
static int ConflictPaths(
path_p path0,
path_p path1 )
{
/* do these paths share an EP? */
if ( path0->ep1 == path1->ep1 ) return TRUE;
if ( path0->ep1 == path1->ep2 ) return TRUE;
if ( path0->ep2 == path1->ep1 ) return TRUE;
if ( path0->ep2 == path1->ep2 ) return TRUE;
return FALSE;
}
static BOOL_T CheckPathEndPt(
track_p trk,
char cc,
EPINX_T ep )
{
struct extraData *xx = GetTrkExtraData(trk);
wIndex_t segInx;
EPINX_T segEP, epCnt;
DIST_T d;
coOrd pos;
GetSegInxEP( cc, &segInx, &segEP );
if ( ep ) segEP = 1-segEP;
pos = GetSegEndPt( &xx->segs[segInx], segEP, FALSE, NULL );
REORIGIN1( pos, xx->angle, xx->orig );
epCnt = GetTrkEndPtCnt(trk);
for ( ep=0; ep<epCnt; ep++ ) {
d = FindDistance( pos, GetTrkEndPos( trk, ep ) );
if ( d < connectDistance )
return TRUE;
}
return FALSE;
}
static BOOL_T CheckForBumper(
track_p trk )
{
struct extraData *xx = GetTrkExtraData(trk);
char * cp;
cp = (char *)xx->paths;
while ( cp[0] ) {
cp += strlen(cp)+1;
while ( cp[0] ) {
if ( !CheckPathEndPt( trk, cp[0], 0 ) ) return FALSE;
while ( cp[0] )
cp++;
if ( !CheckPathEndPt( trk, cp[-1], 1 ) ) return FALSE;
cp++;
}
cp++;
}
return TRUE;
}
static void GroupOk( void * junk )
{
struct extraData *xx = NULL;
turnoutInfo_t * to;
int inx;
EPINX_T ep, epCnt, epN;
coOrd orig, size;
long oldOptions;
FILE * f = NULL;
BOOL_T rc = TRUE;
track_p trk, trk1;
path_t * pp, *ppN;
pathElem_p ppp;
groupTrk_p groupP;
BOOL_T flip, flip1, allDone;
DIST_T dist;
ANGLE_T angle, angleN;
pathElem_t pathElemTemp;
char * cp=NULL;
#ifdef SEGMAP
pathElem_p ppp1, ppp2;
int segInx1, segInx2;
coOrd pos1, pos2;
static dynArr_t segMap_da;
#define segMap(I,J) DYNARR_N( char, segMap_da, (2*(I)+0)*trackSegs_da.cnt+(J) )
#define segAcc(I,J) DYNARR_N( char, segMap_da, (2*(I)+1)*trackSegs_da.cnt+(J) )
#define segSum(I,J) DYNARR_N( char, segMap_da, (2*(groupTrk_da.cnt)+0)*trackSegs_da.cnt+(J) )
#endif
static dynArr_t trackSegs_da;
#define trackSegs(N) DYNARR_N( trkSeg_t, trackSegs_da, N )
trkSeg_p segPtr;
int segCnt;
static dynArr_t conflictMap_da;
#define conflictMap( I, J ) DYNARR_N( int, conflictMap_da, (I)*(path_da.cnt)+(J) )
#define segFlip( N ) DYNARR_N( int, conflictMap_da, (N) )
static dynArr_t groupOrder_da;
#define groupOrder( N ) DYNARR_N( int, groupOrder_da, N )
static dynArr_t groupMap_da;
#define groupMap( I, J ) DYNARR_N( int, groupMap_da, (I)*(path_da.cnt+1)+(J) )
int groupCnt;
int pinx, pinx2, ginx, ginx2, gpinx2;
trkEndPt_p endPtP;
PATHPTR_T path;
int pathLen;
signed char pathChar;
char *oldLocale = NULL;
#ifdef SEGMAP
DYNARR_RESET( char, segMap_da );
#endif
DYNARR_RESET( trkSeg_t, trackSegs_da );
DYNARR_RESET( trkSeg_t, tempSegs_da );
DYNARR_RESET( groupTrk_t, groupTrk_da );
DYNARR_RESET( path_t, path_da );
DYNARR_RESET( pathElem_t, pathElem_da );
DYNARR_RESET( trkEndPt_t, tempEndPts_da );
DYNARR_RESET( char, pathPtr_da );
ParamUpdate( &groupPG );
if ( groupManuf[0]==0 || groupDesc[0]==0 || groupPartno[0]==0 ) {
NoticeMessage2( 0, MSG_GROUP_NONBLANK, _("Ok"), NULL );
return;
}
sprintf( message, "%s\t%s\t%s", groupManuf, groupDesc, groupPartno );
if ( strcmp( message, groupTitle ) != 0 ) {
if ( FindCompound( FIND_TURNOUT|FIND_STRUCT, curScaleName, message ) )
if ( !NoticeMessage2( 1, MSG_TODSGN_REPLACE, _("Yes"), _("No") ) )
return;
strcpy( groupTitle, message );
}
wDrawDelayUpdate( mainD.d, TRUE );
/*
* Collect tracks
*/
trk = NULL;
while ( TrackIterate( &trk ) ) {
if ( GetTrkSelected( trk ) ) {
if ( IsTrack(trk) ) {
DYNARR_APPEND( groupTrk_t, groupTrk_da, 10 );
groupP = &groupTrk(groupTrk_da.cnt-1);
groupP->trk = trk;
groupP->segStart = trackSegs_da.cnt;
if ( GetTrkType(trk) == T_TURNOUT ) {
xx = GetTrkExtraData(trk);
for ( pinx=0; pinx<xx->segCnt; pinx++ ) {
segPtr = &xx->segs[pinx];
if ( IsSegTrack(segPtr) ) {
DYNARR_APPEND( trkSeg_t, trackSegs_da, 10 );
trackSegs(trackSegs_da.cnt-1) = *segPtr;
RotateSegs( 1, &trackSegs(trackSegs_da.cnt-1), zero, xx->angle );
MoveSegs( 1, &trackSegs(trackSegs_da.cnt-1), xx->orig );
} else {
DrawSegs( &groupD, xx->orig, xx->angle, segPtr, 1, trackGauge, wDrawColorBlack );
}
}
} else if (GetTrkType(trk) == T_BEZIER || GetTrkType(trk) == T_BZRLIN ) {
DYNARR_APPEND(trkSeg_t, trackSegs_da, 10);
segPtr = &trackSegs(trackSegs_da.cnt-1);
GetBezierSegmentFromTrack(trk,segPtr);
} else if (GetTrkType(trk) == T_CORNU) {
GetBezierSegmentsFromCornu(trk,&trackSegs_da); //Only give back Bezier - cant be undone
} else {
segCnt = tempSegs_da.cnt;
oldOptions = groupD.options;
groupD.options |= (DC_QUICK|DC_SIMPLE|DC_SEGTRACK);
DrawTrack( trk, &groupD, wDrawColorBlack );
groupD.options = oldOptions;
DYNARR_APPEND( trkSeg_t, trackSegs_da, 10 );
segPtr = &trackSegs(trackSegs_da.cnt-1);
*segPtr = tempSegs( segCnt );
if ( tempSegs_da.cnt != segCnt+1 ||
!IsSegTrack(segPtr) ) {
NoticeMessage2( 0, MSG_CANNOT_GROUP_TRACK, _("Ok"), NULL );
wHide( groupW );
return;
}
tempSegs_da.cnt = segCnt;
}
groupP->segEnd = trackSegs_da.cnt-1;
} else {
DrawTrack( trk, &groupD, wDrawColorBlack );
}
}
}
if ( groupTrk_da.cnt>0 ) {
if ( groupTrk_da.cnt > 128 ) {
NoticeMessage( MSG_TOOMANYSEGSINGROUP, _("Ok"), NULL );
wDrawDelayUpdate( mainD.d, FALSE );
wHide( groupW );
return;
}
/*
* Collect EndPts and find paths
*/
pathElemStart = 0;
endPtOrig = zero;
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
trk = groupTrk(inx).trk;
epCnt = GetTrkEndPtCnt(trk);
for ( ep=0; ep<epCnt; ep++ ) {
trk1 = GetTrkEndTrk(trk,ep);
if ( trk1 == NULL || !GetTrkSelected(trk1) ) {
/* boundary EP */
for ( epN=0; epN<tempEndPts_da.cnt; epN++ ) {
dist = FindDistance( GetTrkEndPos(trk,ep), tempEndPts(epN).pos );
angle = NormalizeAngle( GetTrkEndAngle(trk,ep) - tempEndPts(epN).angle + connectAngle/2.0 );
if ( dist < connectDistance && angle < connectAngle )
break;
}
if ( epN>=tempEndPts_da.cnt ) {
DYNARR_APPEND( trkEndPt_t, tempEndPts_da, 10 );
endPtP = &tempEndPts(tempEndPts_da.cnt-1);
memset( endPtP, 0, sizeof *endPtP );
endPtP->pos = GetTrkEndPos(trk,ep);
endPtP->angle = GetTrkEndAngle(trk,ep);
endPtP->track = trk1;
endPtP->index = (trk1?GetEndPtConnectedToMe(trk1,trk):-1);
endPtOrig.x += endPtP->pos.x;
endPtOrig.y += endPtP->pos.y;
}
}
}
}
if ( tempEndPts_da.cnt <= 0 ) {
NoticeMessage( _("No endpts"), _("Ok"), NULL );
wDrawDelayUpdate( mainD.d, FALSE );
wHide( groupW );
return;
}
if ( groupTrk_da.cnt == 1 && GetTrkType( groupTrk(0).trk ) == T_TURNOUT ) {
path = xx->paths;
pathLen = xx->pathLen;
goto groupSimpleTurnout;
}
/* Make sure no turnouts in groupTrk list have a path end which is not an EndPt */
//TODO Add Trap Points (which are Turnouts with a bumper track)
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
trk = groupTrk(0).trk;
if ( GetTrkType( trk ) == T_TURNOUT ) {
if ( GetTrkEndPtCnt( trk ) < 2 ) {
cp = MSG_CANT_GROUP_BUMPER1;
break;
}
if ( !CheckForBumper( trk ) ) {
cp = MSG_CANT_GROUP_BUMPER2;
break;
}
}
}
if ( inx < groupTrk_da.cnt ) {
NoticeMessage2( 0, cp, _("Ok"), NULL, GetTrkIndex( trk ) );
DrawTrack( trk, &mainD, wDrawColorWhite );
ClrTrkBits( trk, TB_SELECTED );
/* TODO redraw the endpt of the trks this one is connected to */
DrawTrack( trk, &mainD, wDrawColorBlack );
wDrawDelayUpdate( mainD.d, FALSE );
wHide( groupW );
return;
}
/*
* Sort EndPts by angle
*/
endPtOrig.x /= tempEndPts_da.cnt;
endPtOrig.y /= tempEndPts_da.cnt;
angleN = 270.0;
epN = -1;
for ( ep=0; ep<tempEndPts_da.cnt; ep++ ) {
angle = FindAngle(endPtOrig,tempEndPts(ep).pos);
if ( fabs(angle-270.0) < angleN ) {
epN = ep;
angleN = fabs(angle-270.0);
endPtAngle = angle;
}
}
qsort( tempEndPts_da.ptr, tempEndPts_da.cnt, sizeof *endPtP, CmpEndPtAngle );
if ( NormalizeAngle( tempEndPts(0).angle - tempEndPts(tempEndPts_da.cnt-1).angle ) >
NormalizeAngle( tempEndPts(1).angle - tempEndPts(0).angle ) ) {
#ifdef LATER
if ( endPtAngle-FindAngle(endPtOrig,tempEndPts(tempEndPts_da.cnt-1).pos) >
FindAngle(endPtOrig,tempEndPts(1).pos)-endPtAngle ) {
#endif
for ( ep=1; ep<(tempEndPts_da.cnt+1)/2; ep++ ) {
trkEndPt_t tempEndPt;
tempEndPt = tempEndPts(ep);
tempEndPts(ep) = tempEndPts(tempEndPts_da.cnt-ep);
tempEndPts(tempEndPts_da.cnt-ep) = tempEndPt;
}
}
/*
* Find shortest Paths
*/
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
trk = groupTrk(inx).trk;
epCnt = GetTrkEndPtCnt(trk);
for ( ep=0; ep<epCnt; ep++ ) {
trk1 = GetTrkEndTrk(trk,ep);
if ( trk1 == NULL || !GetTrkSelected(trk1) ) {
/* boundary EP */
rc = FindShortestPath( trk, ep, FALSE, GroupShortestPathFunc, NULL );
}
}
}
/*
* Flip paths so they align
*/
if ( path_da.cnt == 0 ) {
NoticeMessage( _("No paths"), _("Ok"), NULL );
wDrawDelayUpdate( mainD.d, FALSE );
wHide( groupW );
return;
}
allDone = FALSE;
path(0).done = TRUE;
while ( !allDone ) {
allDone = TRUE;
inx = -1;
for ( pinx=0; pinx<path_da.cnt; pinx++ ) {
pp = &path(pinx);
if ( pp->done ) continue;
for ( pinx2=0; pinx2<path_da.cnt; pinx2++ ) {
if ( pinx2==pinx ) continue;
ppN = &path(pinx2);
if ( pp->ep1 == ppN->ep1 ||
pp->ep2 == ppN->ep2 ) {
pp->done = TRUE;
allDone = FALSE;
LOG( log_group, 1, ( "P%d aligns with P%d\n", pinx, pinx2 ) );
break;
}
if ( pp->ep1 == ppN->ep2 ||
pp->ep2 == ppN->ep1 ) {
pp->done = TRUE;
allDone = FALSE;
LOG( log_group, 1, ( "P%d aligns flipped with P%d\n", pinx, pinx2 ) );
inx = (pp->pathElemStart+pp->pathElemEnd-1)/2;
for ( ginx=pp->pathElemStart,ginx2=pp->pathElemEnd; ginx<=inx; ginx++,ginx2-- ) {
pathElemTemp = pathElem(ginx);
pathElem(ginx) = pathElem(ginx2);
pathElem(ginx2) = pathElemTemp;
}
for ( ginx=pp->pathElemStart; ginx<=pp->pathElemEnd; ginx++ ) {
ppp = &pathElem(ginx);
ep = ppp->ep1;
ppp->ep1 = ppp->ep2;
ppp->ep2 = ep;
ppp->flip = !ppp->flip;
}
ep = pp->ep1;
pp->ep1 = pp->ep2;
pp->ep2 = ep;
break;
}
}
if ( inx<0 && !pp->done )
inx = pinx;
}
if ( allDone && inx>=0 ) {
allDone = FALSE;
path(inx).done = TRUE;
}
}
if ( log_group >= 1 && logTable(log_group).level > log_group ) {
LogPrintf( "Group Paths\n" );
for ( pinx=0; pinx<path_da.cnt; pinx++ ) {
pp = &path(pinx);
LogPrintf( "P%2d:%d.%d ", pinx, pp->ep1, pp->ep2 );
for ( pinx2=pp->pathElemEnd; pinx2>=pp->pathElemStart; pinx2-- ) {
ppp = &pathElem(pinx2);
LogPrintf( " %sT%d:%d.%d", ppp->flip?"-":"", GetTrkIndex(groupTrk(ppp->groupInx).trk), ppp->ep1, ppp->ep2 );
}
LogPrintf( "\n" );
}
}
#ifdef SEGMAP
DYNARR_SET( char, segMap_da, 2 * trackSegs_da.cnt * path_da.cnt + 2 );
memset( segMap_da.ptr, 0, segMap_da.max * sizeof segMap(0,0) );
for ( inx=0; inx<path_da.cnt; inx++ ) {
pp = &path(inx);
for ( inx2=pp->pathElem_da.cnt-1; inx2>=0; inx2-- ) {
ppp = &pathElem(pp->pathElemStart+inx2);
groupP = &groupTrk(ppp->groupInx);
if ( GetTrkEndPtCnt(groupP->trk) == 2 ) {
segMap(inx,groupP->segStart) = 1;
continue;
}
cp = ppp->path;
if ( cp == NULL )
continue;
segInx1 = cp[0]-1;
for ( ; *cp; cp++ )
segMap(inx,groupP->segInx+cp[0]-1) = 1;
segInx2 = cp[-1]-1;
pos1 = GetSegEndPt( &trackSegs(groupP->segInx+segInx1), ppp->flip?1:0, FALSE, NULL );
pos2 = GetSegEndPt( &trackSegs(groupP->segInx+segInx2), ppp->flip?0:1, FALSE, NULL );
for ( inx3=0; inx3<groupP->segCnt; inx3++ ) {
if ( inx3 == segInx1 || inx3 == segInx2 ) continue;
if ( segMap(inx,groupP->segInx+inx3) != 0 ) continue;
if ( CheckTurnoutEndPoint( &trackSegs(groupP->segInx+inx3), pos1, 0 ) )
segMap(inx,inx3) = 2;
else if ( CheckTurnoutEndPoint( &trackSegs(groupP->segInx+inx3), pos2, 0 ) )
segMap(inx,groupP->segInx+inx3) = 2;
}
}
}
if ( log_group >= 1 && logTable(log_group).level > log_group ) {
LogPrintf( "Path to Segment Map\n ");
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
groupP = &groupTrk(inx);
LogPrintf( "%2d", GetTrkIndex(groupP->trk) );
for ( inx2=1; inx2<groupP->segCnt; inx2++ ) LogPrintf( "--" );
}
LogPrintf( "\n " );
for ( inx=0; inx<groupTrk_da.cnt; inx++ ) {
groupP = &groupTrk(inx);
for ( inx2=0; inx2<groupP->segCnt; inx2++ )
LogPrintf( "%2d", inx2+1 );
}
LogPrintf( "\n" );
for ( inx=0; inx<path_da.cnt; inx++ ) {
LogPrintf( "%2d ", inx );
for ( inx2=0; inx2<trackSegs_da.cnt; inx2++ )
LogPrintf( "%2d", segMap(inx,inx2) );
LogPrintf("\n");
}
}
#endif
/*
* Create Conflict Map
*/
DYNARR_SET( int, conflictMap_da, path_da.cnt*path_da.cnt );
memset( conflictMap_da.ptr, 0, conflictMap_da.max * sizeof conflictMap(0,0) );
for ( pinx=0; pinx<path_da.cnt; pinx++ ) {
for ( pinx2=pinx+1; pinx2<path_da.cnt; pinx2++ ) {
if ( ConflictPaths( &path(pinx), &path(pinx2) ) ) {
conflictMap( pinx, pinx2 ) = conflictMap( pinx2, pinx ) = TRUE;
path(pinx).conflicts++;
path(pinx2).conflicts++;
}
}
}
/*
* Sort Paths by number of conflicts
*/
DYNARR_SET( int, groupOrder_da, path_da.cnt );
for ( pinx=0; pinx<path_da.cnt; pinx++ ) groupOrder(pinx) = pinx;
qsort( groupOrder_da.ptr, path_da.cnt, sizeof groupOrder(0), CmpGroupOrder );
/*
* Group Paths, 1st pass:
*/
DYNARR_SET( int, groupMap_da, path_da.cnt*(path_da.cnt+1) );
memset( groupMap_da.ptr, -1, groupMap_da.max * sizeof groupMap(0,0) );
groupCnt = 0;
for ( pinx=0; pinx<path_da.cnt; pinx++ ) {
pp = &path(groupOrder(pinx));
if ( pp->inGroup ) continue;
pp->inGroup = TRUE;
groupCnt++;
groupMap( groupCnt-1, 0 ) = groupOrder(pinx);
ginx = 1;
for ( pinx2=pinx+1; pinx2<path_da.cnt; pinx2++ ) {
gpinx2 = groupOrder(pinx2);
if ( path(gpinx2).inGroup ) continue;
for ( ginx2=0; ginx2<ginx && !conflictMap(groupMap(groupCnt-1,ginx2),gpinx2); ginx2++ );
if ( ginx2<ginx ) continue;
path(gpinx2).inGroup = TRUE;
groupMap( groupCnt-1, ginx++ ) = gpinx2;
}
}
/*
* Group Paths: 2nd pass:
*/
for ( pinx=0; pinx<groupCnt; pinx++ ) {
for ( ginx=0; groupMap(pinx,ginx)>=0; ginx++ );
for ( pinx2=0; pinx2<path_da.cnt; pinx2++ ) {
gpinx2 = groupOrder(pinx2);
for ( ginx2=0; ginx2<ginx && groupMap(pinx,ginx2)!=gpinx2; ginx2++ );
if ( ginx2<ginx ) continue; /* already on list */
for ( ginx2=0; ginx2<ginx && !conflictMap(groupMap(pinx,ginx2),gpinx2); ginx2++ );
if ( ginx2<ginx ) continue; /* conflicts with someone on list */
groupMap(pinx,ginx++) = gpinx2;
}
}
if ( log_group >= 1 && logTable(log_group).level > log_group ) {
LogPrintf( "Group Map\n");
for ( pinx=0; pinx<groupCnt; pinx++ ) {
LogPrintf( "G%d:", pinx );
for ( ginx=0; groupMap(pinx,ginx) >= 0; ginx++ )
LogPrintf( " %d", groupMap(pinx,ginx) );
LogPrintf( "\n" );
}
}
#ifdef SEGMAP
for ( inx=0; inx<path_da.cnt; inx++ ) {
for ( inx2=0; inx2<tempSegs_da.cnt; inx2++ ) {
groupInx = 0;
memset( &SegTotal(0), 0, tempSegs_da.cnt * sizeof SegAcc(0) );
while (1) {
memcpy( &SegAcc(0), &SegTotal(0), tempSegs_da.cnt * sizeof SegAcc(0) );
collision = FALSE;
for ( inx=0; inx<path_da.cnt; inx++ ) {
pp = path(0);
if ( pp->groupInx < 0 ) continue;
for ( inx2=0; inx2<tempSegs_da.cnt; inx2++ ) {
if ( !segMap(inx,inx2) ) continue;
if ( SegAcc(inx2) ) {
collision = TRUE;
break;
}
SegAcc(inx2) = TRUE;
}
}
if ( collision )
}
#endif
/*
* Count number of times each segment is used as flipped
*/
DYNARR_SET( int, conflictMap_da, trackSegs_da.cnt );
memset( &segFlip(0), 0, trackSegs_da.cnt * sizeof segFlip(0) );
for ( pinx=0; pinx<pathElem_da.cnt; pinx++ ) {
ppp = &pathElem(pinx);
for ( path=ppp->path; *path; path++ ) {
inx = *path;
if ( inx<0 )
inx = - inx;
if ( inx > trackSegs_da.cnt )
AbortProg( "inx > trackSegs_da.cnt" );
flip = *path<0;
if ( ppp->flip )
flip = !flip;
inx += groupTrk(ppp->groupInx).segStart - 1;
if ( !flip )
segFlip(inx)++;
else
segFlip(inx)--;
}
}
/*
* Flip each segment that is used as flipped more than not
*/
for ( pinx=0; pinx<trackSegs_da.cnt; pinx++ ) {
if ( segFlip(pinx) < 0 ) {
LOG( log_group, 1, ( "Flipping Segment %d\n", pinx+1 ) );
SegProc( SEGPROC_FLIP, &trackSegs(pinx), NULL );
}
}
/*
* Output Path lists
*/
for ( pinx=0; pinx<groupCnt; pinx++ ) {
sprintf( message, "P%d", pinx );
inx = pathPtr_da.cnt;
DYNARR_SET( char, pathPtr_da, inx+(int)strlen(message)+1 );
memcpy( &pathPtr(inx), message, pathPtr_da.cnt-inx );
for ( ginx=0; groupMap(pinx,ginx) >= 0; ginx++ ) {
pp = &path(groupMap(pinx,ginx));
for ( pinx2=pp->pathElemEnd; pinx2>=pp->pathElemStart; pinx2-- ) {
ppp = &pathElem( pinx2 );
groupP = &groupTrk( ppp->groupInx );
path = ppp->path;
flip = ppp->flip;
if ( path == NULL )
AbortProg( "Missing Path T%d:%d.%d", GetTrkIndex(groupP->trk), ppp->ep2, ppp->ep1 );
if ( flip ) path += strlen((char *)path)-1;
while ( *path && (path >= ppp->path) ) { //Add Guard for flip backwards
DYNARR_APPEND( char, pathPtr_da, 10 );
pathChar = *path;
flip1 = flip;
if ( pathChar < 0 ) {
flip1 = !flip;
pathChar = - pathChar;
}
pathChar = groupP->segStart+pathChar;
if ( segFlip(pathChar-1)<0 )
flip1 = ! flip1;
if ( flip1 ) pathChar = - pathChar;
pathPtr(pathPtr_da.cnt-1) = pathChar;
path += (flip?-1:1);
}
}
DYNARR_APPEND( char, pathPtr_da, 10 );
pathPtr(pathPtr_da.cnt-1) = 0;
}
DYNARR_APPEND( char, pathPtr_da, 10 );
pathPtr(pathPtr_da.cnt-1) = 0;
}
DYNARR_APPEND( char, pathPtr_da, 10 );
pathPtr(pathPtr_da.cnt-1) = 0;
path = (PATHPTR_T)&pathPtr(0);
pathLen = pathPtr_da.cnt;
groupSimpleTurnout:
/*
* Copy and Reorigin Segments
*/
if ( tempSegs_da.cnt > 0 ) {
inx = trackSegs_da.cnt;
DYNARR_SET( trkSeg_t, trackSegs_da, trackSegs_da.cnt+tempSegs_da.cnt );
memcpy( &trackSegs(inx), tempSegs_da.ptr, tempSegs_da.cnt*sizeof trackSegs(0) );
CloneFilledDraw( tempSegs_da.cnt, &trackSegs(inx), TRUE );
}
GetSegBounds( zero, 0, trackSegs_da.cnt, &trackSegs(0), &orig, &size );
orig.x = - tempEndPts(0).pos.x;
orig.y = - tempEndPts(0).pos.y;
MoveSegs( trackSegs_da.cnt, &trackSegs(0), orig );
for ( ep=0; ep<tempEndPts_da.cnt; ep++ ) {
tempEndPts(ep).pos.x += orig.x;
tempEndPts(ep).pos.y += orig.y;
}
/*
* Final: create new definition
*/
CheckPaths( trackSegs_da.cnt, &trackSegs(0), path );
to = CreateNewTurnout( curScaleName, groupTitle, trackSegs_da.cnt, &trackSegs(0), pathLen, path, tempEndPts_da.cnt, &tempEndPts(0), TRUE );
#ifdef LATER
if ( xx )
to->customInfo = xx->customInfo;
#endif
f = OpenCustom("a");
if (f && to) {
oldLocale = SaveLocale("C");
rc &= fprintf( f, "TURNOUT %s \"%s\"\n", curScaleName, PutTitle(to->title) )>0;
#ifdef LATER
if ( to->customInfo )
rc &= fprintf( f, "\tU %s\n", to->customInfo )>0;
#endif
rc &= WriteCompoundPathsEndPtsSegs( f, path, trackSegs_da.cnt, &trackSegs(0), tempEndPts_da.cnt, &tempEndPts(0) );
}
if ( groupReplace ) {
UndoStart( _("Group Tracks"), "group" );
orig.x = - orig.x;
orig.y = - orig.y;
for ( ep=0; ep<tempEndPts_da.cnt; ep++ ) {
endPtP = &tempEndPts(ep);
if ( endPtP->track ) {
trk = GetTrkEndTrk( endPtP->track, endPtP->index );
epN = GetEndPtConnectedToMe( trk, endPtP->track );
DrawEndPt( &mainD, endPtP->track, endPtP->index, wDrawColorWhite );
DrawEndPt( &mainD, trk, epN, wDrawColorWhite );
DisconnectTracks( trk, epN, endPtP->track, endPtP->index );
}
endPtP->pos.x += orig.x;
endPtP->pos.y += orig.y;
}
trk = NULL;
while ( TrackIterate( &trk ) ) {
if ( GetTrkSelected( trk ) ) {
DrawTrack( trk, &mainD, wDrawColorWhite );
UndoDelete( trk );
trackCount--;
}
}
trk = NewCompound( T_TURNOUT, 0, orig, 0.0, to->title, tempEndPts_da.cnt, &tempEndPts(0), pathLen, (char *)path, trackSegs_da.cnt, &trackSegs(0) );
SetTrkVisible( trk, TRUE );
SetTrkVisible( trk, TRUE );
for ( ep=0; ep<tempEndPts_da.cnt; ep++ ) {
if ( tempEndPts(ep).track ) {
ConnectTracks( trk, ep, tempEndPts(ep).track, (EPINX_T)tempEndPts(ep).index );
DrawEndPt( &mainD, tempEndPts(ep).track, (EPINX_T)tempEndPts(ep).index, GetTrkColor( tempEndPts(ep).track, &mainD ) );
}
}
DrawNewTrack( trk );
EnableCommands();
}
} else {
CloneFilledDraw( tempSegs_da.cnt, &tempSegs(0), TRUE );
GetSegBounds( zero, 0, tempSegs_da.cnt, &tempSegs(0), &orig, &size );
orig.x = - orig.x;
orig.y = - orig.y;
MoveSegs( tempSegs_da.cnt, &tempSegs(0), orig );
to = CreateNewStructure( curScaleName, groupTitle, tempSegs_da.cnt, &tempSegs(0), TRUE );
f = OpenCustom("a");
if (f && to) {
oldLocale = SaveLocale("C");
rc &= fprintf( f, "STRUCTURE %s \"%s\"\n", curScaleName, PutTitle(groupTitle) )>0;
#ifdef LATER
if ( to->customInfo )
rc &= fprintf( f, "\tU %s\n", to->customInfo )>0;
#endif
rc &= WriteSegs( f, tempSegs_da.cnt, &tempSegs(0) );
}
if ( groupReplace ) {
UndoStart( _("Group Tracks"), "group" );
trk = NULL;
while ( TrackIterate( &trk ) ) {
if ( GetTrkSelected( trk ) ) {
DrawTrack( trk, &mainD, wDrawColorWhite );
UndoDelete( trk );
trackCount--;
}
}
orig.x = - orig.x;
orig.y = - orig.y;
trk = NewCompound( T_STRUCTURE, 0, orig, 0.0, groupTitle, 0, NULL, 0, "", tempSegs_da.cnt, &tempSegs(0) );
SetTrkVisible( trk, TRUE );
DrawNewTrack( trk );
EnableCommands();
}
}
if (f) fclose(f);
RestoreLocale(oldLocale);
DoChangeNotification( CHANGE_PARAMS );
wHide( groupW );
wDrawDelayUpdate( mainD.d, FALSE );
groupDesc[0] = '\0';
groupPartno[0] = '\0';
}
EXPORT void DoGroup( void )
{
track_p trk = NULL;
struct extraData *xx;
TRKTYP_T trkType;
xx = NULL;
groupSegCnt = 0;
groupCompoundCount = 0;
while ( TrackIterate( &trk ) ) {
if ( GetTrkSelected( trk ) ) {
trkType = GetTrkType(trk);
if ( trkType == T_TURNOUT || trkType == T_STRUCTURE ) {
xx = GetTrkExtraData(trk);
groupSegCnt += xx->segCnt;
GroupCopyTitle( xtitle(xx) );
} else
groupSegCnt += 1;
}
}
if ( groupSegCnt <= 0 ) {
ErrorMessage( MSG_NO_SELECTED_TRK );
return;
}
sprintf( groupTitle, "%s\t%s\t%s", groupManuf, groupDesc, groupPartno );
if ( log_group < 0 )
log_group = LogFindIndex( "group" );
if ( !groupW ) {
ParamRegister( &groupPG );
groupW = ParamCreateDialog( &groupPG, MakeWindowTitle(_("Group Objects")), _("Ok"), GroupOk, wHide, TRUE, NULL, F_BLOCK, NULL );
groupD.dpi = mainD.dpi;
}
ParamLoadControls( &groupPG );
wShow( groupW );
}
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