gen.lib.pathplan.shortest__c Maven / Gradle / Ivy
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* (C) Copyright 2009-2020, Arnaud Roques
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* This translation is distributed under the same Licence as the original C program:
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*************************************************************************
* Copyright (c) 2011 AT&T Intellectual Property
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors: See CVS logs. Details at http://www.graphviz.org/
*************************************************************************
*
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* LICENSE ("AGREEMENT"). [Eclipse Public License - v 1.0]
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*
* http://www.eclipse.org/legal/epl-v10.html
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* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
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package gen.lib.pathplan;
import static smetana.core.JUtils.EQ;
import static smetana.core.JUtils.LOG2;
import static smetana.core.JUtils.NEQ;
import static smetana.core.JUtils.setjmp;
import static smetana.core.JUtilsDebug.ENTERING;
import static smetana.core.JUtilsDebug.LEAVING;
import static smetana.core.Macro.HUGE_VAL;
import static smetana.core.Macro.N;
import static smetana.core.Macro.UNSUPPORTED;
import h.ST_Ppoly_t;
import h.ST_pointf;
import h.ST_pointnlink_t;
import h.ST_triangle_t;
import smetana.core.Z;
import smetana.core.__ptr__;
import smetana.core.jmp_buf;
public class shortest__c {
//1 baedz5i9est5csw3epz3cv7z
// typedef Ppoly_t Ppolyline_t
//1 7pb9zum2n4wlgil34lvh8i0ts
// typedef double COORD
//1 540u5gu9i0x1wzoxqqx5n2vwp
// static jmp_buf jbuf
private static jmp_buf jbuf = new jmp_buf();
//1 3gj35j1owzho1bj8qrr8j520a
// static pointnlink_t *pnls, **pnlps
//private static pointnlink_t pnls;
//private static __ptr__ pnlps;
//1 6r0oj01m6zabkua5f5x778wq6
// static int pnln, pnll
//private static int pnln, pnll;
//1 aywrlzd2nea9kkv8kzuctk7pt
// static triangle_t *tris
//private static __ptr__ tris;
//1 a6aizijrgkmhf8hoyeqj49b60
// static int trin, tril
//private static int trin, tril;
//1 cc2hmcygbtg3adbwgkunssdhx
// static deque_t dq
//private final static __struct__ dq = JUtils.from(deque_t.class);
//1 3k2f2er3efsrl0210su710vf
// static Ppoint_t *ops
//static private __ptr__ ops;
//1 68lm8qk1d212p1ngzu26gudjc
// static int opn
//private static int opn;
//3 2gub5b19vo2qexn56nw23wage
// int Pshortestpath(Ppoly_t * polyp, Ppoint_t * eps, Ppolyline_t * output)
public static int Pshortestpath(ST_Ppoly_t polyp, ST_pointf.Array eps, ST_Ppoly_t output) {
ENTERING("2gub5b19vo2qexn56nw23wage","Pshortestpath");
try {
int pi, minpi;
double minx;
final ST_pointf p1 = new ST_pointf(), p2 = new ST_pointf(), p3 = new ST_pointf();
int trii, trij, ftrii, ltrii;
int ei;
final ST_pointnlink_t[] epnls = new ST_pointnlink_t[] {new ST_pointnlink_t(),new ST_pointnlink_t()};
ST_pointnlink_t lpnlp=null, rpnlp=null, pnlp=null;
ST_triangle_t.Array trip;
int splitindex;
if (setjmp(jbuf)!=0)
return -2;
/* make space */
growpnls(polyp.pn);
Z.z().pnll = 0;
Z.z().tril = 0;
growdq(polyp.pn * 2);
Z.z().dq.fpnlpi = Z.z().dq.pnlpn / 2;
Z.z().dq.lpnlpi = Z.z().dq.fpnlpi - 1;
/* make sure polygon is CCW and load pnls array */
for (pi = 0, minx = HUGE_VAL, minpi = -1; pi < polyp.pn; pi++) {
if (minx > polyp.ps.get(pi).x)
{ minx = polyp.ps.get(pi).x;
minpi = pi; }
}
p2.____(polyp.ps.plus(minpi));
p1.____(polyp.ps.plus(((minpi == 0) ? polyp.pn - 1 : minpi - 1)));
p3.____(polyp.ps.plus(((minpi == polyp.pn - 1) ? 0 : minpi + 1)));
if (((p1.x == p2.x && p2.x == p3.x) && (p3.y > p2.y)) ||
ccw(p1, p2, p3) != 1) {
for (pi = polyp.pn - 1; pi >= 0; pi--) {
if (pi < polyp.pn - 1
&& polyp.ps.get(pi).x == polyp.ps.get(pi+1).x
&& polyp.ps.get(pi).y == polyp.ps.get(pi+1).y)
continue;
Z.z().pnls[Z.z().pnll].pp = (ST_pointf) ((ST_pointf)polyp.ps.get(pi));
Z.z().pnls[Z.z().pnll].link = Z.z().pnls[Z.z().pnll % polyp.pn];
Z.z().pnlps[Z.z().pnll] = Z.z().pnls[Z.z().pnll];
Z.z().pnll++;
}
} else {
for (pi = 0; pi < polyp.pn; pi++) {
if (pi > 0 && polyp.ps.get(pi).x == polyp.ps.get(pi - 1).x &&
polyp.ps.get(pi).y == polyp.ps.get(pi - 1).y)
continue;
Z.z().pnls[Z.z().pnll].pp = (ST_pointf) ((ST_pointf)polyp.ps.get(pi));
Z.z().pnls[Z.z().pnll].link = Z.z().pnls[Z.z().pnll % polyp.pn];
Z.z().pnlps[Z.z().pnll] = Z.z().pnls[Z.z().pnll];
Z.z().pnll++;
}
}
/* generate list of triangles */
triangulate(Z.z().pnlps, Z.z().pnll);
/* connect all pairs of triangles that share an edge */
for (trii = 0; trii < Z.z().tril; trii++)
for (trij = trii + 1; trij < Z.z().tril; trij++)
connecttris(trii, trij);
/* find first and last triangles */
for (trii = 0; trii < Z.z().tril; trii++)
if (pointintri(trii, eps.plus(0).getStruct()))
break;
if (trii == Z.z().tril) {
UNSUPPORTED("4ma3y8l4lmjcsw49kmsgknig6"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("source point not in any triangle"));
UNSUPPORTED("8d9xfgejx5vgd6shva5wk5k06"); // return -1;
}
ftrii = trii;
for (trii = 0; trii < Z.z().tril; trii++)
if (pointintri(trii, eps.plus(1).getStruct()))
break;
if (trii == Z.z().tril) {
System.err.println("libpath/%s:%d: %s\n" + "graphviz-2.38.0\\lib\\pathplan\\shortest.c" + 26 + ("destination point not in any triangle"));
return -1;
}
ltrii = trii;
/* mark the strip of triangles from eps[0] to eps[1] */
if (N(marktripath(ftrii, ltrii))) {
System.err.println("libpath/%s:%d: %s" + "graphviz-2.38.0\\lib\\pathplan\\shortest.c" + 26 + ("cannot find triangle path"));
/* a straight line is better than failing */
growops(2);
output.pn = 2;
Z.z().ops_shortest.plus(0).setStruct(eps.plus(0).getStruct());
Z.z().ops_shortest.plus(1).setStruct(eps.plus(1).getStruct());
output.setPtr("ps", Z.z().ops_shortest);
return 0;
}
/* if endpoints in same triangle, use a single line */
if (ftrii == ltrii) {
UNSUPPORTED("2nnkwrdxg0ma2m482dqarlbz6"); // growops(2);
UNSUPPORTED("5penbn9ky80i7jw02belk2zoj"); // output->pn = 2;
UNSUPPORTED("8i925e1tnbqn909027lqcg3fi"); // ops[0] = eps[0], ops[1] = eps[1];
UNSUPPORTED("3rcg6c9s9nmostq9c3r5n6x4h"); // output->ps = ops;
UNSUPPORTED("c9ckhc8veujmwcw0ar3u3zld4"); // return 0;
}
/* build funnel and shortest path linked list (in add2dq) */
epnls[0].pp = eps.get(0);
epnls[0].link = null;
epnls[1].pp = eps.get(1);
epnls[1].link = null;
add2dq(1, epnls[0]);
Z.z().dq.apex = Z.z().dq.fpnlpi;
trii = ftrii;
while (trii != -1) {
trip = Z.z().tris.plusJ(trii);
trip.get(0).mark = 2;
/* find the left and right points of the exiting edge */
for (ei = 0; ei < 3; ei++)
if (trip.get(0).e[ei].rtp!=null &&
trip.get(0).e[ei].rtp.get(0).mark == 1)
break;
if (ei == 3) { /* in last triangle */
if (ccw(eps.get(1), Z.z().dq.pnlps[Z.z().dq.fpnlpi].pp,
Z.z().dq.pnlps[Z.z().dq.lpnlpi].pp) == 1)
{
lpnlp = Z.z().dq.pnlps[Z.z().dq.lpnlpi];
rpnlp = epnls[1];
} else {
lpnlp = epnls[1];
rpnlp = Z.z().dq.pnlps[Z.z().dq.lpnlpi];
}
} else {
pnlp = trip.get(0).e[(ei + 1) % 3].pnl1p;
if (ccw(trip.get(0).e[ei].pnl0p.pp, pnlp.pp,
trip.get(0).e[ei].pnl1p.pp) == 1)
UNSUPPORTED("2cii65lhw4wb8nyvjv702v7md"); // lpnlp = trip->e[ei].pnl1p, rpnlp = trip->e[ei].pnl0p;
else
{
lpnlp = trip.get(0).e[ei].pnl0p;
rpnlp = trip.get(0).e[ei].pnl1p;
}
}
/* update deque */
if (trii == ftrii) {
add2dq(2, lpnlp);
add2dq(1, rpnlp);
} else {
if (NEQ(Z.z().dq.pnlps[Z.z().dq.fpnlpi], rpnlp)
&& NEQ(Z.z().dq.pnlps[Z.z().dq.lpnlpi], rpnlp)) {
/* add right point to deque */
splitindex = finddqsplit(rpnlp);
splitdq(2, splitindex);
add2dq(1, rpnlp);
/* if the split is behind the apex, then reset apex */
if (splitindex > Z.z().dq.apex)
Z.z().dq.apex = splitindex;
} else {
/* add left point to deque */
splitindex = finddqsplit(lpnlp);
splitdq(1, splitindex);
add2dq(2, lpnlp);
/* if the split is in front of the apex, then reset apex */
if (splitindex < Z.z().dq.apex)
Z.z().dq.apex = splitindex;
}
}
trii = -1;
for (ei = 0; ei < 3; ei++)
if (trip.get(0).e[ei].rtp!=null &&
trip.get(0).e[ei].rtp.get(0).mark == 1) {
trii = trip.get(0).e[ei].rtp.minus(Z.z().tris);
break;
}
}
for (pi = 0, pnlp = epnls[1]; pnlp!=null; pnlp = pnlp.link)
pi++;
growops(pi);
output.pn = pi;
for (pi = pi - 1, pnlp = epnls[1]; pnlp!=null; pi--, pnlp = pnlp.link)
Z.z().ops_shortest.get(pi).____(pnlp.pp);
output.ps = Z.z().ops_shortest;
return 0;
} finally {
LEAVING("2gub5b19vo2qexn56nw23wage","Pshortestpath");
}
}
//3 73cr7m3mqvtuotpzrmaw2y8zm
// static void triangulate(pointnlink_t ** pnlps, int pnln)
public static void triangulate(ST_pointnlink_t pnlps[], int pnln) {
ENTERING("73cr7m3mqvtuotpzrmaw2y8zm","triangulate");
try {
int pnli, pnlip1, pnlip2;
LOG2("triangulate "+pnln);
if (pnln > 3)
{
for (pnli = 0; pnli < pnln; pnli++)
{
pnlip1 = (pnli + 1) % pnln;
pnlip2 = (pnli + 2) % pnln;
if (isdiagonal(pnli, pnlip2, pnlps, pnln))
{
loadtriangle(pnlps[pnli], pnlps[pnlip1], pnlps[pnlip2]);
for (pnli = pnlip1; pnli < pnln - 1; pnli++)
pnlps[pnli] = pnlps[pnli + 1];
triangulate(pnlps, pnln - 1);
return;
}
}
throw new IllegalStateException("libpath/%s:%d: %s\n" + "graphviz-2.38.0\\lib\\pathplan\\shortest.c" + 26 + ("triangulation failed"));
}
else
loadtriangle(pnlps[0], pnlps[1], pnlps[2]);
} finally {
LEAVING("73cr7m3mqvtuotpzrmaw2y8zm","triangulate");
}
}
//3 72of3cd7shtwokglxapw04oe9
// static int isdiagonal(int pnli, int pnlip2, pointnlink_t ** pnlps, int pnln)
public static boolean isdiagonal(int pnli, int pnlip2, ST_pointnlink_t[] pnlps, int pnln) {
ENTERING("72of3cd7shtwokglxapw04oe9","isdiagonal");
try {
int pnlip1, pnlim1, pnlj, pnljp1;
boolean res;
/* neighborhood test */
pnlip1 = (pnli + 1) % pnln;
pnlim1 = (pnli + pnln - 1) % pnln;
/* If P[pnli] is a convex vertex [ pnli+1 left of (pnli-1,pnli) ]. */
if (ccw(pnlps[pnlim1].pp, pnlps[pnli].pp, pnlps[pnlip1].pp) ==
1)
res =
(ccw(pnlps[pnli].pp, pnlps[pnlip2].pp, pnlps[pnlim1].pp) ==
1)
&& (ccw(pnlps[pnlip2].pp, pnlps[pnli].pp, pnlps[pnlip1].pp)
== 1);
/* Assume (pnli - 1, pnli, pnli + 1) not collinear. */
else
res = (ccw(pnlps[pnli].pp, pnlps[pnlip2].pp,
pnlps[pnlip1].pp) == 2);
if (N(res))
return false;
/* check against all other edges */
for (pnlj = 0; pnlj < pnln; pnlj++) {
pnljp1 = (pnlj + 1) % pnln;
if (N((pnlj == pnli) || (pnljp1 == pnli) ||
(pnlj == pnlip2) || (pnljp1 == pnlip2)))
if (intersects(pnlps[pnli].pp, pnlps[pnlip2].pp,
pnlps[pnlj].pp, pnlps[pnljp1].pp))
return false;
}
return ((N(false)));
} finally {
LEAVING("72of3cd7shtwokglxapw04oe9","isdiagonal");
}
}
//3 7vf9jtj9i8rg0cxrstbqswuck
// static void loadtriangle(pointnlink_t * pnlap, pointnlink_t * pnlbp, pointnlink_t * pnlcp)
public static void loadtriangle(__ptr__ pnlap, __ptr__ pnlbp, __ptr__ pnlcp) {
ENTERING("7vf9jtj9i8rg0cxrstbqswuck","loadtriangle");
try {
ST_triangle_t.Array trip;
int ei;
/* make space */
if (Z.z().tril >= Z.z().trin)
growtris(Z.z().trin + 20);
trip = Z.z().tris.plusJ(Z.z().tril++);
trip.get(0).mark = 0;
trip.get(0).e[0].pnl0p = (ST_pointnlink_t) pnlap;
trip.get(0).e[0].pnl1p = (ST_pointnlink_t) pnlbp;
trip.get(0).e[0].rtp = null;
trip.get(0).e[1].pnl0p = (ST_pointnlink_t) pnlbp;
trip.get(0).e[1].pnl1p = (ST_pointnlink_t) pnlcp;
trip.get(0).e[1].rtp = null;
trip.get(0).e[2].pnl0p = (ST_pointnlink_t) pnlcp;
trip.get(0).e[2].pnl1p = (ST_pointnlink_t) pnlap;
trip.get(0).e[2].rtp = null;
for (ei = 0; ei < 3; ei++)
trip.get(0).e[ei].lrp = trip;
} finally {
LEAVING("7vf9jtj9i8rg0cxrstbqswuck","loadtriangle");
}
}
//3 6coujw0qksrgu5sxj0r39qm1u
// static void connecttris(int tri1, int tri2)
public static void connecttris(int tri1, int tri2) {
ENTERING("6coujw0qksrgu5sxj0r39qm1u","connecttris");
try {
ST_triangle_t.Array tri1p;
ST_triangle_t.Array tri2p;
int ei, ej;
for (ei = 0; ei < 3; ei++) {
for (ej = 0; ej < 3; ej++) {
tri1p = Z.z().tris.plusJ(tri1);
tri2p = Z.z().tris.plusJ(tri2);
if ((EQ(tri1p.get(0).e[ei].pnl0p.pp,
tri2p.get(0).e[ej].pnl0p.pp) &&
EQ(tri1p.get(0).e[ei].pnl1p.pp,
tri2p.get(0).e[ej].pnl1p.pp)) ||
(EQ(tri1p.get(0).e[ei].pnl0p.pp,
tri2p.get(0).e[ej].pnl1p.pp) &&
EQ(tri1p.get(0).e[ei].pnl1p.pp,
tri2p.get(0).e[ej].pnl0p.pp)))
{
tri1p.get(0).e[ei].rtp = tri2p;
tri2p.get(0).e[ej].rtp = tri1p;
}
}
}
} finally {
LEAVING("6coujw0qksrgu5sxj0r39qm1u","connecttris");
}
}
//3 3waxf5wy3mwt12wpg5hxg3o9c
// static int marktripath(int trii, int trij)
public static boolean marktripath(int trii, int trij) {
ENTERING("3waxf5wy3mwt12wpg5hxg3o9c","marktripath");
try {
int ei;
if (Z.z().tris.plusJ(trii).get(0).mark!=0)
return false;
Z.z().tris.plusJ(trii).get(0).mark = 1;
if (trii == trij)
return ((!(false)));
for (ei = 0; ei < 3; ei++)
if ((Z.z().tris.plusJ(trii).get(0).e[ei].rtp!=null &&
marktripath(Z.z().tris.plusJ(trii).get(0).e[ei].rtp.minus(Z.z().tris), trij)))
return ((!(false)));
Z.z().tris.plusJ(trii).get(0).mark = 0;
return false;
} finally {
LEAVING("3waxf5wy3mwt12wpg5hxg3o9c","marktripath");
}
}
//3 44szdl31mg8mt5qrfj70kb2sn
// static void add2dq(int side, pointnlink_t * pnlp)
public static void add2dq(int side, ST_pointnlink_t pnlp) {
ENTERING("44szdl31mg8mt5qrfj70kb2sn","add2dq");
try {
if (side == 1) {
if (Z.z().dq.lpnlpi - Z.z().dq.fpnlpi >= 0)
pnlp.link = Z.z().dq.pnlps[Z.z().dq.fpnlpi];
/* shortest path links */
Z.z().dq.fpnlpi = Z.z().dq.fpnlpi-1;
Z.z().dq.pnlps[Z.z().dq.fpnlpi] = pnlp;
} else {
if (Z.z().dq.lpnlpi - Z.z().dq.fpnlpi >= 0)
pnlp.link = Z.z().dq.pnlps[Z.z().dq.lpnlpi];
/* shortest path links */
Z.z().dq.lpnlpi = Z.z().dq.lpnlpi+1;
Z.z().dq.pnlps[Z.z().dq.lpnlpi] = pnlp;
}
} finally {
LEAVING("44szdl31mg8mt5qrfj70kb2sn","add2dq");
}
}
//3 572sssdz1se16w790xceiy5vr
// static void splitdq(int side, int index)
public static void splitdq(int side, int index) {
ENTERING("572sssdz1se16w790xceiy5vr","splitdq");
try {
if (side == 1)
Z.z().dq.lpnlpi = index;
else
Z.z().dq.fpnlpi = index;
} finally {
LEAVING("572sssdz1se16w790xceiy5vr","splitdq");
}
}
//3 9dnrc8vqpffp5t3bmsackgqtl
// static int finddqsplit(pointnlink_t * pnlp)
public static int finddqsplit(ST_pointnlink_t pnlp) {
ENTERING("9dnrc8vqpffp5t3bmsackgqtl","finddqsplit");
try {
int index;
for (index = Z.z().dq.fpnlpi; index < Z.z().dq.apex; index++)
if (ccw(Z.z().dq.pnlps[index + 1].pp, Z.z().dq.pnlps[index].pp, pnlp.pp) ==
1)
return index;
for (index = Z.z().dq.lpnlpi; index > Z.z().dq.apex; index--)
if (ccw(Z.z().dq.pnlps[index - 1].pp, Z.z().dq.pnlps[index].pp, pnlp.pp) ==
2)
return index;
return Z.z().dq.apex;
} finally {
LEAVING("9dnrc8vqpffp5t3bmsackgqtl","finddqsplit");
}
}
//3 72h03s8inxtto2ekvmuqjtj3d
// static int ccw(Ppoint_t * p1p, Ppoint_t * p2p, Ppoint_t * p3p)
public static int ccw(ST_pointf p1p, ST_pointf p2p, ST_pointf p3p) {
ENTERING("72h03s8inxtto2ekvmuqjtj3d","ccw");
try {
double d;
d = ((p1p.y - p2p.y) * (p3p.x - p2p.x)) -
((p3p.y - p2p.y) * (p1p.x - p2p.x));
return (d > 0) ? 1 : ((d < 0) ? 2 : 3);
} finally {
LEAVING("72h03s8inxtto2ekvmuqjtj3d","ccw");
}
}
//3 22a9ajg9t8ovqsigk3tyu3rkd
// static int intersects(Ppoint_t * pap, Ppoint_t * pbp, Ppoint_t * pcp, Ppoint_t * pdp)
public static boolean intersects(ST_pointf pap, ST_pointf pbp, ST_pointf pcp, ST_pointf pdp) {
ENTERING("22a9ajg9t8ovqsigk3tyu3rkd","intersects");
try {
int ccw1, ccw2, ccw3, ccw4;
if (ccw(pap, pbp, pcp) == 3 || ccw(pap, pbp, pdp) == 3 ||
ccw(pcp, pdp, pap) == 3 || ccw(pcp, pdp, pbp) == 3) {
if (between(pap, pbp, pcp) || between(pap, pbp, pdp) ||
between(pcp, pdp, pap) || between(pcp, pdp, pbp))
return ((!(false)));
} else {
ccw1 = (ccw(pap, pbp, pcp) == 1) ? 1 : 0;
ccw2 = (ccw(pap, pbp, pdp) == 1) ? 1 : 0;
ccw3 = (ccw(pcp, pdp, pap) == 1) ? 1 : 0;
ccw4 = (ccw(pcp, pdp, pbp) == 1) ? 1 : 0;
return (ccw1 ^ ccw2)!=0 && (ccw3 ^ ccw4)!=0;
}
return false;
} finally {
LEAVING("22a9ajg9t8ovqsigk3tyu3rkd","intersects");
}
}
//3 uh5n18rzyevtb4cwpni70qpc
// static int between(Ppoint_t * pap, Ppoint_t * pbp, Ppoint_t * pcp)
public static boolean between(ST_pointf pap, ST_pointf pbp, ST_pointf pcp) {
ENTERING("uh5n18rzyevtb4cwpni70qpc","between");
try {
final ST_pointf p1 = new ST_pointf(), p2 = new ST_pointf();
p1.setDouble("x", pbp.x - pap.x);
p1.setDouble("y", pbp.y - pap.y);
p2.setDouble("x", pcp.x - pap.x);
p2.setDouble("y", pcp.y - pap.y);
if (ccw(pap, pbp, pcp) != 3)
return false;
return (p2.x * p1.x + p2.y * p1.y >= 0) &&
(p2.x * p2.x + p2.y * p2.y <= p1.x * p1.x + p1.y * p1.y);
} finally {
LEAVING("uh5n18rzyevtb4cwpni70qpc","between");
}
}
//3 zti1mzm2m7tr2xwnbf7e8u3d
// static int pointintri(int trii, Ppoint_t * pp)
public static boolean pointintri(int trii, ST_pointf pp) {
ENTERING("zti1mzm2m7tr2xwnbf7e8u3d","pointintri");
try {
int ei, sum;
for (ei = 0, sum = 0; ei < 3; ei++)
if (ccw(Z.z().tris.plusJ(trii).get(0).e[ei].pnl0p.pp,
Z.z().tris.plusJ(trii).get(0).e[ei].pnl1p.pp, pp) != 2)
sum++;
return (sum == 3 || sum == 0);
} finally {
LEAVING("zti1mzm2m7tr2xwnbf7e8u3d","pointintri");
}
}
//3 85wstb60jkjd0kbh9tyninm4h
// static void growpnls(int newpnln)
public static void growpnls(int newpnln) {
ENTERING("85wstb60jkjd0kbh9tyninm4h","growpnls");
try {
if (newpnln <= Z.z().pnln)
return;
if (N(Z.z().pnls)) {
if (N(Z.z().pnls = malloc(newpnln))) {
UNSUPPORTED("9zyfc4bjg3i6rrna9vqf8doys"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot malloc pnls"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
if (N(Z.z().pnlps = malloc(newpnln))) {
UNSUPPORTED("1etar0wd2cbbvqo4jnmbvjiz4"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot malloc pnlps"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
} else {
if (N(Z.z().pnls = realloc(Z.z().pnls, newpnln))) {
UNSUPPORTED("105nogpkt0qqut0yu4alvkk1u"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot realloc pnls"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
if (N(Z.z().pnlps = realloc(Z.z().pnlps, newpnln))) {
UNSUPPORTED("be84alh84ub40x4um989aj20d"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot realloc pnlps"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
}
Z.z().pnln = newpnln;
} finally {
LEAVING("85wstb60jkjd0kbh9tyninm4h","growpnls");
}
}
private static ST_pointnlink_t[] malloc(int nb) {
ST_pointnlink_t result[] = new ST_pointnlink_t[nb];
for (int i = 0; i < result.length; i++) {
result[i] = new ST_pointnlink_t();
}
return result;
}
private static ST_pointnlink_t[] realloc(ST_pointnlink_t orig[], int nb) {
if (orig.length >= nb) {
return orig;
}
ST_pointnlink_t result[] = malloc(nb);
for (int i = 0; i < orig.length; i++) {
result[i] = orig[i];
}
return result;
}
//3 c5q8ult6w26jppe5ifzgcoq82
// static void growtris(int newtrin)
public static void growtris(int newtrin) {
ENTERING("c5q8ult6w26jppe5ifzgcoq82","growtris");
try {
if (newtrin <= Z.z().trin)
return;
if (N(Z.z().tris)) {
if (N(Z.z().tris = new ST_triangle_t.Array(newtrin))) {
UNSUPPORTED("5782e28cjpaa3dpf8up4zmtq7"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot malloc tris"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
} else {
if (N(Z.z().tris = Z.z().tris.reallocJ(newtrin))) {
UNSUPPORTED("d3fgu54pn5tydfhn7z73v73ra"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot realloc tris"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
}
Z.z().trin = newtrin;
} finally {
LEAVING("c5q8ult6w26jppe5ifzgcoq82","growtris");
}
}
private static ST_triangle_t[] malloc2(int nb) {
ST_triangle_t result[] = new ST_triangle_t[nb];
for (int i = 0; i < result.length; i++) {
result[i] = new ST_triangle_t();
}
return result;
}
private static ST_triangle_t[] realloc2(ST_triangle_t orig[], int nb) {
if (orig.length >= nb) {
return orig;
}
ST_triangle_t result[] = malloc2(nb);
for (int i = 0; i < orig.length; i++) {
result[i] = orig[i];
}
return result;
}
//3 bzym9u6dtatii1vp4hcmofc80
// static void growdq(int newdqn)
public static void growdq(int newdqn) {
ENTERING("bzym9u6dtatii1vp4hcmofc80","growdq");
try {
if (newdqn <= Z.z().dq.pnlpn)
return;
if (N(Z.z().dq.pnlps)) {
if (N
(Z.z().dq.malloc(newdqn))) {
UNSUPPORTED("88fwpb40wz9jc8jiz7u032s4t"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot malloc dq.pnls"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
} else {
if (N(Z.z().dq.realloc(newdqn))) {
UNSUPPORTED("exqx4ck7h15m8whgip6xpnhoo"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot realloc dq.pnls"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
}
Z.z().dq.pnlpn = newdqn;
} finally {
LEAVING("bzym9u6dtatii1vp4hcmofc80","growdq");
}
}
//3 d7vtt8xqxbdnx9kwtt1zzof75
// static void growops(int newopn)
public static void growops(int newopn) {
ENTERING("d7vtt8xqxbdnx9kwtt1zzof75","growops");
try {
if (newopn <= Z.z().opn_shortest)
return;
if (N(Z.z().ops_shortest)) {
if (N(Z.z().ops_shortest = new ST_pointf.Array(newopn))) {
UNSUPPORTED("7wxgcgah7iy6vetj5yszoq4k4"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot malloc ops"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
} else {
if (N(Z.z().ops_shortest = Z.z().ops_shortest.reallocJ(newopn))) {
UNSUPPORTED("7azrdo5s3kc44taqmtmeu1s33"); // fprintf (stderr, "libpath/%s:%d: %s\n", "graphviz-2.38.0\\lib\\pathplan\\shortest.c", 26, ("cannot realloc ops"));
UNSUPPORTED("1r6uhbnmxv8c6msnscw07w0qx"); // longjmp(jbuf,1);
}
}
Z.z().opn_shortest = newopn;
} finally {
LEAVING("d7vtt8xqxbdnx9kwtt1zzof75","growops");
}
}
}
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