File Coverage

xsi/algorithm.xsi

Criterion	Covered	Total	%
statement	94	100	94.0
branch	145	270	53.7
condition			n/a
subroutine			n/a
pod			n/a
total	239	370	64.5

line	stmt	bran	code
1			MODULE = Geo::Geos PACKAGE = Geo::Geos::Algorithm
2			PROTOTYPES: DISABLE
3
4	8	50	double toDegrees (double radians) { RETVAL = Angle::toDegrees(radians); }
5
6	1	50	double toRadians (double angleDegrees) { RETVAL = Angle::toRadians(angleDegrees); }
7
8	1	50	double angle (Coordinate& p0) { RETVAL = Angle::angle(p0); }
9
10			bool isAcute (Coordinate* p0, Coordinate* p1, Coordinate *p2) {
11	1	50	RETVAL = Angle::isAcute(p0, p1, *p2);
12			}
13
14			bool isObtuse (Coordinate& p0, Coordinate& p1, Coordinate& p2) {
15	1	50	RETVAL = Angle::isObtuse(p0, p1, p2);
16			}
17
18			double angleBetween (Coordinate& tip1, Coordinate& tail, Coordinate& tip2) {
19	1	50	RETVAL = Angle::angleBetween(tip1, tail, tip2);
20			}
21
22			double angleBetweenOriented (Coordinate& tip1, Coordinate& tail, Coordinate& tip2) {
23	1	50	RETVAL = Angle::angleBetweenOriented (tip1, tail, tip2);
24			}
25
26			double interiorAngle(Coordinate& p0, Coordinate& p1, Coordinate& p2) {
27	1	50	RETVAL = Angle::interiorAngle(p0, p1, p2);
28			}
29
30	1	50	int getTurn (double ang1, double ang2) { RETVAL = Angle::getTurn(ang1, ang2); }
31
32	1	50	double normalize (double angle) { RETVAL = Angle::normalize(angle); }
33
34	1	50	double normalizePositive (double angle) { RETVAL = Angle::normalizePositive(angle); }
35
36	1	50	double diff (double ang1, double ang2) { RETVAL = Angle::diff(ang1, ang2); }
37
38			Coordinate* centroid (Geometry& g) {
39	3		Coordinate c;
40	2	50	if (Centroid::getCentroid(g, c)) RETVAL = new Coordinate(c);
41	2	50	else XSRETURN_UNDEF;
		100
		50
42	1		}
43
44			Coordinate* centroidArea (Array geoms) {
45	6	100	Coordinate result;
46	3	50	CentroidArea acc;
47	6	50	for(size_t i = 0; i < geoms.size(); ++i) {
		100
48	5	50	auto item = geoms.at(i);
		100
49	4	50	if (item.is_array_ref()) {
50	2	50	auto seq = Helper::convert_coords(Array(item));
		100
51	2	50	acc.add(&seq);
		50
52	1	50	}
53			else {
54			acc.add(&xs::in(item));
55	1	50	}
		50
56			}
57			if (acc.getCentroid(result)) RETVAL = new Coordinate(result);
58	3	50	else XSRETURN_UNDEF;
		100
		50
59	1		}
60
61
62			Coordinate* centroidLine (Array geoms) {
63	4	100	Coordinate result;
64	2	50	CentroidLine acc;
65	4	50	for(size_t i = 0; i < geoms.size(); ++i) {
		100
66	3	50	auto item = geoms.at(i);
		100
67	2	50	if (item.is_array_ref()) {
68	1	50	auto seq = Helper::convert_coords(Array(item));
		50
69	0	0	acc.add(&seq);
		0
70	0	0	}
71			else {
72			acc.add(&xs::in(item));
73	1	50	}
		50
74			}
75			if (acc.getCentroid(result)) RETVAL = new Coordinate(result);
76	2	50	else XSRETURN_UNDEF;
		100
		50
77	1		}
78
79			Coordinate* centroidPoint (Array geoms) {
80	6	100	Coordinate result;
81	3	50	CentroidPoint acc;
82	6	50	for(size_t i = 0; i < geoms.size(); ++i) {
		100
83	6	50	Object item = Object(geoms.at(i));
		100
84	8	50	if (!item) throw ("invalid argument");
		50
85	4	100	if (item.stash().name() == "Geo::Geos::Coordinate") {
86	3	50	acc.add(&xs::in(item));
		50
		50
87	0	0	}
		0
88			else acc.add(&xs::in(item));
89	3	50	}
		50
90			if (acc.getCentroid(result)) RETVAL = new Coordinate(result);
91	2	50	else XSRETURN_UNDEF;
		100
		50
92	1		}
93
94			bool isPointInRing(Coordinate& p, Array ring) {
95	2	50	auto seq = Helper::convert_coords(ring);
		50
96	1	50	RETVAL = CGAlgorithms::isPointInRing(p, &seq);
97			}
98
99			int locatePointInRing(Coordinate& p,Array ring) {
100	2	50	auto seq = Helper::convert_coords(ring);
		50
101	1	50	RETVAL = CGAlgorithms::locatePointInRing(p, seq);
102			}
103
104			bool isOnLine(Coordinate& p, Array line) {
105	2	50	auto seq = Helper::convert_coords(line);
		50
106	1	50	RETVAL = CGAlgorithms::isPointInRing(p, &seq);
107			}
108
109			bool isCCW(Array ring) {
110	2	50	auto seq = Helper::convert_coords(ring);
		50
111	1	50	RETVAL = CGAlgorithms::isCCW(&seq);
112			}
113
114			int computeOrientation(Coordinate& p1, Coordinate& p2, Coordinate& q){
115	1	50	RETVAL = CGAlgorithms::computeOrientation(p1, p2, q);
116			}
117
118			double distancePointLine(Coordinate& p, Coordinate& A, Coordinate& B) {
119	1	50	RETVAL = CGAlgorithms::distancePointLine(p, A, B);
120			}
121
122			double distancePointLinePerpendicular(Coordinate& p, Coordinate& A, Coordinate& B) {
123	1	50	RETVAL = CGAlgorithms::distancePointLinePerpendicular(p, A, B);
124			}
125
126			double distanceLineLine (Coordinate& A, Coordinate& B, Coordinate& C, Coordinate& D) {
127	1	50	RETVAL = CGAlgorithms::distanceLineLine(A, B, C, D);
128			}
129
130			double signedArea (Array ring) {
131	2	50	auto seq = Helper::convert_coords(ring);
		50
132	1	50	RETVAL = CGAlgorithms::signedArea(&seq);
133			}
134
135			double length(Array pts) {
136	2	50	auto seq = Helper::convert_coords(pts);
		50
137	1	50	RETVAL = CGAlgorithms::signedArea(&seq);
138			}
139
140			int orientationIndex(Coordinate& p1, Coordinate& p2, Coordinate& q) {
141	1	50	RETVAL = CGAlgorithms::computeOrientation(p1, p2, q);
142			}
143
144			Coordinate* getIntersection(Coordinate& p00, Coordinate& p01, Coordinate& p10, Coordinate& p11) {
145	2		//auto& c = CentralEndpointIntersector::getIntersection(p00, p01, p10, p11);
146			// ^ buggy implementation in 3.6.3, as it returns dangling reference;
147			CentralEndpointIntersector intor(p00, p01, p10, p11);
148	2	50	auto& c = intor.getIntersection();
149	1		RETVAL = new Coordinate(c);
150	1	50	}
151
152			Sv convexHull(Geometry& newGeometry) {
153	2	50	auto ch = ConvexHull(&newGeometry);
		50
154	1	50	RETVAL = Helper::uplift(ch.getConvexHull());
		50
155			}
156
157			Coordinate* interiorPointArea(Geometry& g) {
158	2		InteriorPointArea ip(&g);
159	2	50	Coordinate c;
		50
160	1	50	if (ip.getInteriorPoint(c)) RETVAL = new Coordinate(c);
161	1	50	else XSRETURN_UNDEF;
		50
		50
162	0		}
163
164			Coordinate* interiorPointLine(Geometry& g) {
165	2		InteriorPointLine ip(&g);
166	2	50	Coordinate c;
		50
167	1	50	if (ip.getInteriorPoint(c)) RETVAL = new Coordinate(c);
168	1	50	else XSRETURN_UNDEF;
		50
		50
169	0		}
170
171			Coordinate* interiorPointPoint(Geometry& g) {
172	2		InteriorPointPoint ip(&g);
173	2	50	Coordinate c;
		50
174	1	50	if (ip.getInteriorPoint(c)) RETVAL = new Coordinate(c);
175	1	50	else XSRETURN_UNDEF;
		50
		50
176	0		}
177
178			int locate(Coordinate& p, Geometry& geom) {
179	2		PointLocator pl;
180	1	50	RETVAL = pl.locate(p, &geom);
181			}
182
183			bool intersects(Coordinate& p, Geometry& geom) {
184	2		PointLocator pl;
185	1	50	RETVAL = pl.intersects(p, &geom);
186			}
187
188			int signOfDet2x2(double x1, double y1, double x2, double y2) {
189	1	50	RETVAL = RobustDeterminant::signOfDet2x2(x1, y1, x2, y2);
190			}
191
192			int locateIndexedPointInArea(Coordinate& p, Geometry& geom) {
193	2	50	locate::IndexedPointInAreaLocator locator(geom);
194	1	50	RETVAL = locator.locate(&p);
195			}
196
197			int locateSimplePointInArea(Coordinate& p, Geometry& geom) {
198	2		locate::SimplePointInAreaLocator locator(&geom);
199	1	50	RETVAL = locator.locate(&p);
200			}
201
202			BOOT {
203	92	50	auto this_stash = Stash(__PACKAGE__);
204	368	50	xs::exp::create_constants(this_stash, {
		50
		50
		50
		50
		50
		50
		100
		0
205			{"TYPE_TURN_CLOCKWISE", CGAlgorithms::CLOCKWISE},
206			{"TYPE_TURN_COLLINEAR", CGAlgorithms::COLLINEAR},
207			{"TYPE_TURN_COUNTERCLOCKWISE", CGAlgorithms::COUNTERCLOCKWISE},
208
209			{"TYPE_ORIENT_RIGHT", CGAlgorithms::RIGHT},
210			{"TYPE_ORIENT_LEFT" , CGAlgorithms::LEFT},
211			{"TYPE_ORIENT_STRAIGHT", CGAlgorithms::STRAIGHT}
212	322	50	});
213	46	50	xs::exp::autoexport(this_stash);
		50
214			}