gen.lib.label.rectangle__c Maven / Gradle / Ivy
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PlantUML is a component that allows to quickly write diagrams from text.
// THIS FILE HAS BEEN GENERATED BY A PREPROCESSOR.
package gen.lib.label;
import static smetana.core.Macro.UNSUPPORTED;
import static smetana.core.debug.SmetanaDebug.ENTERING;
import static smetana.core.debug.SmetanaDebug.LEAVING;
import gen.annotation.Original;
import gen.annotation.Unused;
import h.ST_Rect_t;
public class rectangle__c {
//1 9k44uhd5foylaeoekf3llonjq
// extern Dtmethod_t* Dtset
//1 1ahfywsmzcpcig2oxm7pt9ihj
// extern Dtmethod_t* Dtbag
//1 anhghfj3k7dmkudy2n7rvt31v
// extern Dtmethod_t* Dtoset
//1 5l6oj1ux946zjwvir94ykejbc
// extern Dtmethod_t* Dtobag
//1 2wtf222ak6cui8cfjnw6w377z
// extern Dtmethod_t* Dtlist
//1 d1s1s6ibtcsmst88e3057u9r7
// extern Dtmethod_t* Dtstack
//1 axa7mflo824p6fspjn1rdk0mt
// extern Dtmethod_t* Dtqueue
//1 ega812utobm4xx9oa9w9ayij6
// extern Dtmethod_t* Dtdeque
//1 cyfr996ur43045jv1tjbelzmj
// extern Dtmethod_t* Dtorder
//1 wlofoiftbjgrrabzb2brkycg
// extern Dtmethod_t* Dttree
//1 12bds94t7voj7ulwpcvgf6agr
// extern Dtmethod_t* Dthash
//1 9lqknzty480cy7zsubmabkk8h
// extern Dtmethod_t _Dttree
//1 bvn6zkbcp8vjdhkccqo1xrkrb
// extern Dtmethod_t _Dthash
//1 9lidhtd6nsmmv3e7vjv9e10gw
// extern Dtmethod_t _Dtlist
//1 34ujfamjxo7xn89u90oh2k6f8
// extern Dtmethod_t _Dtqueue
//1 3jy4aceckzkdv950h89p4wjc8
// extern Dtmethod_t _Dtstack
//1 8dfqgf3u1v830qzcjqh9o8ha7
// extern Agmemdisc_t AgMemDisc
//1 18k2oh2t6llfsdc5x0wlcnby8
// extern Agiddisc_t AgIdDisc
//1 a4r7hi80gdxtsv4hdoqpyiivn
// extern Agiodisc_t AgIoDisc
//1 bnzt5syjb7mgeru19114vd6xx
// extern Agdisc_t AgDefaultDisc
//1 35y2gbegsdjilegaribes00mg
// extern Agdesc_t Agdirected, Agstrictdirected, Agundirected, Agstrictundirected
//1 c2rygslq6bcuka3awmvy2b3ow
// typedef Agsubnode_t Agnoderef_t
//1 xam6yv0dcsx57dtg44igpbzn
// typedef Dtlink_t Agedgeref_t
//1 9mnpt3mibocomreg5h1kk860g
// extern Rect_t CoverAll
//3 1wtvfzwbzj03e6w5rw4k7qdax
// void InitRect(Rect_t * r)
@Unused
@Original(version="2.38.0", path="lib/label/rectangle.c", name="InitRect", key="1wtvfzwbzj03e6w5rw4k7qdax", definition="void InitRect(Rect_t * r)")
public static void InitRect(ST_Rect_t r) {
ENTERING("1wtvfzwbzj03e6w5rw4k7qdax","InitRect");
try {
int i;
for (i = 0; i < 2*2; i++)
r.boundary[i]=0;
} finally {
LEAVING("1wtvfzwbzj03e6w5rw4k7qdax","InitRect");
}
}
//3 bvazxgli5q4yxvzl5kn1vjqpm
// Rect_t NullRect()
@Unused
@Original(version="2.38.0", path="lib/label/rectangle.c", name="NullRect", key="bvazxgli5q4yxvzl5kn1vjqpm", definition="Rect_t NullRect()")
public static ST_Rect_t NullRect() {
ENTERING("bvazxgli5q4yxvzl5kn1vjqpm","NullRect");
try {
ST_Rect_t r = new ST_Rect_t();
int i;
r.boundary[0]=1;
r.boundary[2]=-1;
for (i = 1; i < 2; i++) {
r.boundary[i]=0;
r.boundary[i+2]=0;
}
return r;
} finally {
LEAVING("bvazxgli5q4yxvzl5kn1vjqpm","NullRect");
}
}
//3 1ijarur71gcahchxz8vqf69na
// unsigned int RectArea(Rect_t * r)
@Unused
@Original(version="2.38.0", path="lib/label/rectangle.c", name="RectArea", key="1ijarur71gcahchxz8vqf69na", definition="unsigned int RectArea(Rect_t * r)")
public static int RectArea(ST_Rect_t r) {
ENTERING("1ijarur71gcahchxz8vqf69na","RectArea");
try {
int i;
int area=1, a=1;
// assert(r);
if (r.boundary[0] > r.boundary[2]) return 0;
/*
* XXX add overflow checks
*/
area = 1;
for (i = 0; i < 2; i++) {
int b = r.boundary[i+2] - r.boundary[i];
a *= b;
if( (a / b ) != area) {
UNSUPPORTED("6qc59bm54jy4hv9gw8a50rk0u"); // agerr (AGERR, "label: area too large for rtree\n");
UNSUPPORTED("awx87c59fwl0w8r64jfd86jrd"); // return UINT_MAX;
}
area = a;
}
return area;
} finally {
LEAVING("1ijarur71gcahchxz8vqf69na","RectArea");
}
}
//3 tgmhi1wshyhqky2pappb6w6w
// Rect_t CombineRect(Rect_t * r, Rect_t * rr)
@Unused
@Original(version="2.38.0", path="lib/label/rectangle.c", name="CombineRect", key="tgmhi1wshyhqky2pappb6w6w", definition="Rect_t CombineRect(Rect_t * r, Rect_t * rr)")
public static ST_Rect_t CombineRect(ST_Rect_t r, ST_Rect_t rr) {
ENTERING("tgmhi1wshyhqky2pappb6w6w","CombineRect");
try {
int i, j;
ST_Rect_t new_ = new ST_Rect_t();
// assert(r && rr);
if (r.boundary[0] > r.boundary[2])
return (ST_Rect_t) rr.copy();
if (rr.boundary[0] > rr.boundary[2])
return (ST_Rect_t) r.copy();
for (i = 0; i < 2; i++) {
new_.boundary[i] = Math.min(r.boundary[i], rr.boundary[i]);
j = i + 2;
new_.boundary[j] = Math.max(r.boundary[j], rr.boundary[j]);
}
return new_;
} finally {
LEAVING("tgmhi1wshyhqky2pappb6w6w","CombineRect");
}
}
//3 9glce34jzknoqj98agg96k03o
// int Overlap(Rect_t * r, Rect_t * s)
@Unused
@Original(version="2.38.0", path="lib/label/rectangle.c", name="Overlap", key="9glce34jzknoqj98agg96k03o", definition="int Overlap(Rect_t * r, Rect_t * s)")
public static boolean Overlap(ST_Rect_t r, ST_Rect_t s) {
ENTERING("9glce34jzknoqj98agg96k03o","Overlap");
try {
int i, j;
// assert(r && s);
for (i = 0; i < 2; i++) {
j = i + 2; /* index for high sides */
if (r.boundary[i] > s.boundary[j]
|| s.boundary[i] > r.boundary[j])
return false;
}
return (true);
} finally {
LEAVING("9glce34jzknoqj98agg96k03o","Overlap");
}
}
}