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LineUnitTest.cpp@ a700c4

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Last change on this file since a700c4 was 3bfd78, checked in by Frederik Heber <heber@…>, 15 years ago

LinearAlgebra now begins having its own exceptions derived from boost::exceptions.

boost::exceptions allows to add arbitrary information in higher context to a thrown exception and has a nice diagnostic output, allowing so-called exception wrapping maintaining exception-neutrality.
deleted Exceptions/SkewExceptions.*
new file LinearAlgebra/Exceptions.hpp.

Property mode set to 100644

File size: 14.3 KB

Rev	Line
[bcf653]	1	/*
	2	* Project: MoleCuilder
	3	* Description: creates and alters molecular systems
	4	* Copyright (C) 2010 University of Bonn. All rights reserved.
	5	* Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
	6	*/
	7
[45ef76]	8	/*
	9	* LineUnittest.cpp
	10	*
	11	* Created on: May 27, 2010
	12	* Author: crueger
	13	*/
	14
[bf3817]	15	// include config.h
	16	#ifdef HAVE_CONFIG_H
	17	#include <config.h>
	18	#endif
	19
[45ef76]	20
[3bfd78]	21	#include "LinearAlgebra/Exceptions.hpp"
[57f243]	22	#include "LinearAlgebra/Vector.hpp"
[45ef76]	23	#include "Exceptions/LinearDependenceException.hpp"
	24
	25	#include <cppunit/CompilerOutputter.h>
	26	#include <cppunit/extensions/TestFactoryRegistry.h>
	27	#include <cppunit/ui/text/TestRunner.h>
	28
	29	#include <iostream>
[3dcb1f]	30	#include <cmath>
[45ef76]	31
[f89024]	32	#include "LineUnitTest.hpp"
[45ef76]	33
	34	#ifdef HAVE_TESTRUNNER
	35	#include "UnitTestMain.hpp"
	36	#endif /HAVE_TESTRUNNER/
	37
	38	CPPUNIT_TEST_SUITE_REGISTRATION( LineUnittest );
	39
	40	void LineUnittest::setUp(){
	41	// three lines along the axes
[407782]	42	la1 = new Line(zeroVec,unitVec[0]);
	43	la2 = new Line(zeroVec,unitVec[1]);
	44	la3 = new Line(zeroVec,unitVec[2]);
[45ef76]	45
	46	// the lines along the planes defined by two coordinate axes
[407782]	47	lp1 = new Line(unitVec[0],unitVec[0]-unitVec[1]);
	48	lp2 = new Line(unitVec[1],unitVec[1]-unitVec[2]);
	49	lp3 = new Line(unitVec[2],unitVec[2]-unitVec[0]);
[45ef76]	50	}
	51	void LineUnittest::tearDown(){
	52	delete la1;
	53	delete la2;
	54	delete la3;
	55
	56	delete lp1;
	57	delete lp2;
	58	delete lp3;
	59	}
	60
	61	void LineUnittest::constructionErrorTest(){
	62	// test some constructions
	63
	64	// direction+origin should never fail
[407782]	65	CPPUNIT_ASSERT_NO_THROW(Line(zeroVec,unitVec[0]));
	66	CPPUNIT_ASSERT_NO_THROW(Line(zeroVec,unitVec[1]));
	67	CPPUNIT_ASSERT_NO_THROW(Line(zeroVec,unitVec[2]));
[45ef76]	68
	69	// two points fails if both points are the same
[407782]	70	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[0],unitVec[1]));
	71	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[1],unitVec[2]));
	72	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[2],unitVec[0]));
[45ef76]	73	// for zerovectors
[407782]	74	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[0],zeroVec));
	75	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[1],zeroVec));
	76	CPPUNIT_ASSERT_NO_THROW(makeLineThrough(unitVec[2],zeroVec));
[45ef76]	77	// now we pass two times the same point
	78	CPPUNIT_ASSERT_THROW(makeLineThrough(zeroVec,zeroVec),LinearDependenceException);
[407782]	79	CPPUNIT_ASSERT_THROW(makeLineThrough(unitVec[0],unitVec[0]),LinearDependenceException);
	80	CPPUNIT_ASSERT_THROW(makeLineThrough(unitVec[1],unitVec[1]),LinearDependenceException);
	81	CPPUNIT_ASSERT_THROW(makeLineThrough(unitVec[2],unitVec[2]),LinearDependenceException);
[45ef76]	82
	83	}
	84
	85	bool testDirection(const Vector &dir1,const Vector &dir2){
	86	return (dir1==dir2) \|\| (dir1==-1*dir2);
	87	}
	88
	89	void LineUnittest::constructionResultTest(){
	90	// test all directions
[407782]	91	CPPUNIT_ASSERT(testDirection(la1->getDirection(),unitVec[0]));
	92	CPPUNIT_ASSERT(testDirection(la2->getDirection(),unitVec[1]));
	93	CPPUNIT_ASSERT(testDirection(la3->getDirection(),unitVec[2]));
[45ef76]	94
	95	// test origins
	96	CPPUNIT_ASSERT_EQUAL(la1->getOrigin(),zeroVec);
	97	CPPUNIT_ASSERT_EQUAL(la2->getOrigin(),zeroVec);
	98	CPPUNIT_ASSERT_EQUAL(la2->getOrigin(),zeroVec);
	99
	100	// test if desired points are on the lines
	101	CPPUNIT_ASSERT(la1->isContained(zeroVec));
	102	CPPUNIT_ASSERT(la2->isContained(zeroVec));
	103	CPPUNIT_ASSERT(la3->isContained(zeroVec));
	104
[407782]	105	CPPUNIT_ASSERT(la1->isContained(unitVec[0]));
	106	CPPUNIT_ASSERT(la2->isContained(unitVec[1]));
	107	CPPUNIT_ASSERT(la3->isContained(unitVec[2]));
[45ef76]	108
[407782]	109	CPPUNIT_ASSERT(lp1->isContained(unitVec[0]));
	110	CPPUNIT_ASSERT(lp2->isContained(unitVec[1]));
	111	CPPUNIT_ASSERT(lp3->isContained(unitVec[2]));
[45ef76]	112
[407782]	113	CPPUNIT_ASSERT(lp1->isContained(unitVec[1]));
	114	CPPUNIT_ASSERT(lp2->isContained(unitVec[2]));
	115	CPPUNIT_ASSERT(lp3->isContained(unitVec[0]));
[45ef76]	116	}
	117
	118	void LineUnittest::isContainedTest(){
	119	// Zerovector on the axes lines
	120	CPPUNIT_ASSERT(la1->isContained(zeroVec));
	121	CPPUNIT_ASSERT(la2->isContained(zeroVec));
	122	CPPUNIT_ASSERT(la3->isContained(zeroVec));
	123
	124	// multiples of the second support vector
[407782]	125	CPPUNIT_ASSERT(la1->isContained(unitVec[0]));
	126	CPPUNIT_ASSERT(la2->isContained(unitVec[1]));
	127	CPPUNIT_ASSERT(la3->isContained(unitVec[2]));
[45ef76]	128
[407782]	129	CPPUNIT_ASSERT(la1->isContained(2*unitVec[0]));
	130	CPPUNIT_ASSERT(la2->isContained(2*unitVec[1]));
	131	CPPUNIT_ASSERT(la3->isContained(2*unitVec[2]));
[45ef76]	132
[407782]	133	CPPUNIT_ASSERT(la1->isContained(3*unitVec[0]));
	134	CPPUNIT_ASSERT(la2->isContained(3*unitVec[1]));
	135	CPPUNIT_ASSERT(la3->isContained(3*unitVec[2]));
[45ef76]	136
	137	// negative multiples
[407782]	138	CPPUNIT_ASSERT(la1->isContained(-1*unitVec[0]));
	139	CPPUNIT_ASSERT(la2->isContained(-1*unitVec[1]));
	140	CPPUNIT_ASSERT(la3->isContained(-1*unitVec[2]));
[45ef76]	141
[407782]	142	CPPUNIT_ASSERT(la1->isContained(-2*unitVec[0]));
	143	CPPUNIT_ASSERT(la2->isContained(-2*unitVec[1]));
	144	CPPUNIT_ASSERT(la3->isContained(-2*unitVec[2]));
[45ef76]	145
	146	// points that should not be on the lines
[407782]	147	CPPUNIT_ASSERT(!la1->isContained(unitVec[1]));
	148	CPPUNIT_ASSERT(!la2->isContained(unitVec[2]));
	149	CPPUNIT_ASSERT(!la3->isContained(unitVec[0]));
[45ef76]	150
[407782]	151	CPPUNIT_ASSERT(!la1->isContained(2*unitVec[1]));
	152	CPPUNIT_ASSERT(!la2->isContained(2*unitVec[2]));
	153	CPPUNIT_ASSERT(!la3->isContained(2*unitVec[0]));
[45ef76]	154
[407782]	155	CPPUNIT_ASSERT(!la1->isContained(-1*unitVec[1]));
	156	CPPUNIT_ASSERT(!la2->isContained(-1*unitVec[2]));
	157	CPPUNIT_ASSERT(!la3->isContained(-1*unitVec[0]));
[45ef76]	158
	159	// For the plane lines
[407782]	160	CPPUNIT_ASSERT(lp1->isContained(unitVec[0]));
	161	CPPUNIT_ASSERT(lp2->isContained(unitVec[1]));
	162	CPPUNIT_ASSERT(lp3->isContained(unitVec[2]));
[45ef76]	163
[407782]	164	CPPUNIT_ASSERT(lp1->isContained(unitVec[1]));
	165	CPPUNIT_ASSERT(lp2->isContained(unitVec[2]));
	166	CPPUNIT_ASSERT(lp3->isContained(unitVec[0]));
[45ef76]	167
[407782]	168	CPPUNIT_ASSERT(lp1->isContained(unitVec[0]+2*(unitVec[0]-unitVec[1])));
	169	CPPUNIT_ASSERT(lp2->isContained(unitVec[1]+2*(unitVec[1]-unitVec[2])));
	170	CPPUNIT_ASSERT(lp3->isContained(unitVec[2]+2*(unitVec[2]-unitVec[0])));
[45ef76]	171
[407782]	172	CPPUNIT_ASSERT(lp1->isContained(unitVec[0]-2*(unitVec[0]-unitVec[1])));
	173	CPPUNIT_ASSERT(lp2->isContained(unitVec[1]-2*(unitVec[1]-unitVec[2])));
	174	CPPUNIT_ASSERT(lp3->isContained(unitVec[2]-2*(unitVec[2]-unitVec[0])));
[45ef76]	175	}
	176
	177	void LineUnittest::intersectionTest(){
	178	Vector fixture;
	179
	180	// intersection of the axis lines
	181	fixture = la1->getIntersection(*la2);
	182	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	183	fixture = la2->getIntersection(*la3);
	184	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	185	fixture = la3->getIntersection(*la1);
	186	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	187
	188	// axes and plane lines
	189	fixture = la1->getIntersection(*lp1);
[407782]	190	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
[45ef76]	191	fixture = la2->getIntersection(*lp2);
[407782]	192	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
[45ef76]	193	fixture = la3->getIntersection(*lp3);
[407782]	194	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
[45ef76]	195
	196	fixture = la1->getIntersection(*lp3);
[407782]	197	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
[45ef76]	198	fixture = la2->getIntersection(*lp1);
[407782]	199	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
[45ef76]	200	fixture = la3->getIntersection(*lp2);
[407782]	201	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
[45ef76]	202
	203	// two plane lines
	204	fixture = lp1->getIntersection(*lp2);
[407782]	205	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
[45ef76]	206	fixture = lp2->getIntersection(*lp3);
[407782]	207	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
[45ef76]	208	fixture = lp3->getIntersection(*lp1);
[407782]	209	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
[45ef76]	210
	211	// When we have two times the same line, we check if the point is on the line
	212	fixture = la1->getIntersection(*la1);
	213	CPPUNIT_ASSERT(la1->isContained(fixture));
	214	fixture = la2->getIntersection(*la2);
	215	CPPUNIT_ASSERT(la2->isContained(fixture));
	216	fixture = la3->getIntersection(*la3);
	217	CPPUNIT_ASSERT(la3->isContained(fixture));
	218
	219	fixture = lp1->getIntersection(*lp1);
	220	CPPUNIT_ASSERT(lp1->isContained(fixture));
	221	fixture = lp2->getIntersection(*lp2);
	222	CPPUNIT_ASSERT(lp2->isContained(fixture));
	223	fixture = lp3->getIntersection(*lp3);
	224	CPPUNIT_ASSERT(lp3->isContained(fixture));
	225
	226	// lines that are askew should produce an Error
	227	CPPUNIT_ASSERT_THROW(lp1->getIntersection(*la3),SkewException);
	228	CPPUNIT_ASSERT_THROW(lp2->getIntersection(*la1),SkewException);
	229	CPPUNIT_ASSERT_THROW(lp3->getIntersection(*la2),SkewException);
	230
	231	CPPUNIT_ASSERT_THROW(la1->getIntersection(*lp2),SkewException);
	232	CPPUNIT_ASSERT_THROW(la2->getIntersection(*lp3),SkewException);
	233	CPPUNIT_ASSERT_THROW(la3->getIntersection(*lp1),SkewException);
	234	}
[42a101]	235
	236	void LineUnittest::rotationTest(){
	237	Vector fixture;
	238
	239	// rotate zero Vector along the axes lines by various degrees
	240	fixture = la1->rotateVector(zeroVec,1.);
	241	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	242	fixture = la2->rotateVector(zeroVec,1.);
	243	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	244	fixture = la3->rotateVector(zeroVec,1.);
	245	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	246
	247	fixture = la1->rotateVector(zeroVec,2.);
	248	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	249	fixture = la2->rotateVector(zeroVec,2.);
	250	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	251	fixture = la3->rotateVector(zeroVec,2.);
	252	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	253
	254	// rotate vectors on the axis around their lines
[407782]	255	fixture = la1->rotateVector(unitVec[0],1.);
	256	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
	257	fixture = la2->rotateVector(unitVec[1],1.);
	258	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
	259	fixture = la3->rotateVector(unitVec[2],1.);
	260	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
	261
	262	fixture = la1->rotateVector(unitVec[0],2.);
	263	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
	264	fixture = la2->rotateVector(unitVec[1],2.);
	265	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
	266	fixture = la3->rotateVector(unitVec[2],2.);
	267	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
[42a101]	268
	269	// more vectors on the axis
[407782]	270	fixture = la1->rotateVector(2*unitVec[0],1.);
	271	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[0]);
	272	fixture = la2->rotateVector(2*unitVec[1],1.);
	273	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[1]);
	274	fixture = la3->rotateVector(2*unitVec[2],1.);
	275	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[2]);
	276
	277	fixture = la1->rotateVector(2*unitVec[0],2.);
	278	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[0]);
	279	fixture = la2->rotateVector(2*unitVec[1],2.);
	280	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[1]);
	281	fixture = la3->rotateVector(2*unitVec[2],2.);
	282	CPPUNIT_ASSERT_EQUAL(fixture,2*unitVec[2]);
[42a101]	283
	284	// negative factors
[407782]	285	fixture = la1->rotateVector(-1*unitVec[0],1.);
	286	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[0]);
	287	fixture = la2->rotateVector(-1*unitVec[1],1.);
	288	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[1]);
	289	fixture = la3->rotateVector(-1*unitVec[2],1.);
	290	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[2]);
[42a101]	291
[407782]	292	fixture = la1->rotateVector(-1*unitVec[0],2.);
	293	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[0]);
	294	fixture = la2->rotateVector(-1*unitVec[1],2.);
	295	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[1]);
	296	fixture = la3->rotateVector(-1*unitVec[2],2.);
	297	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[2]);
[42a101]	298
	299
	300
	301	// now the real rotations
[407782]	302	// unitVec[1] around unitVec[0]
	303	fixture = la1->rotateVector(unitVec[1],0);
	304	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
	305	fixture = la1->rotateVector(unitVec[1],1./2.*M_PI);
	306	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[2]);
	307	fixture = la1->rotateVector(unitVec[1],M_PI);
	308	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[1]);
	309	fixture = la1->rotateVector(unitVec[1],2*M_PI);
	310	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
	311
	312	// unitVec[2] around unitVec[1]
	313	fixture = la2->rotateVector(unitVec[2],0);
	314	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
	315	fixture = la2->rotateVector(unitVec[2],1./2.*M_PI);
	316	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[0]);
	317	fixture = la2->rotateVector(unitVec[2],M_PI);
	318	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[2]);
	319	fixture = la2->rotateVector(unitVec[2],2*M_PI);
	320	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
	321
	322	// unitVec[0] around unitVec[2]
	323	fixture = la3->rotateVector(unitVec[0],0);
	324	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
	325	fixture = la3->rotateVector(unitVec[0],1./2.*M_PI);
	326	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[1]);
	327	fixture = la3->rotateVector(unitVec[0],M_PI);
	328	CPPUNIT_ASSERT_EQUAL(fixture,-1*unitVec[0]);
	329	fixture = la3->rotateVector(unitVec[0],2*M_PI);
	330	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
[42a101]	331
	332
	333	// and some rotation around the plane lines
	334
	335	// Vectors on the line
[407782]	336	fixture = lp1->rotateVector(unitVec[0],1.);
	337	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
	338	fixture = lp1->rotateVector(unitVec[1],1.);
	339	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
[42a101]	340
[407782]	341	fixture = lp2->rotateVector(unitVec[1],1.);
	342	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[1]);
	343	fixture = lp2->rotateVector(unitVec[2],1.);
	344	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
[42a101]	345
[407782]	346	fixture = lp3->rotateVector(unitVec[2],1.);
	347	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[2]);
	348	fixture = lp3->rotateVector(unitVec[0],1.);
	349	CPPUNIT_ASSERT_EQUAL(fixture,unitVec[0]);
[42a101]	350
	351	// the real stuff
	352	fixture = lp1->rotateVector(zeroVec,M_PI);
	353	CPPUNIT_ASSERT_EQUAL(fixture,Vector(1,1,0));
	354	fixture = lp2->rotateVector(zeroVec,M_PI);
	355	CPPUNIT_ASSERT_EQUAL(fixture,Vector(0,1,1));
	356	fixture = lp3->rotateVector(zeroVec,M_PI);
	357	CPPUNIT_ASSERT_EQUAL(fixture,Vector(1,0,1));
	358
	359	fixture = lp1->rotateVector(zeroVec,2*M_PI);
	360	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	361	fixture = lp2->rotateVector(zeroVec,2*M_PI);
	362	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	363	fixture = lp3->rotateVector(zeroVec,2*M_PI);
	364	CPPUNIT_ASSERT_EQUAL(fixture,zeroVec);
	365	}
[f932b7]	366
	367	void LineUnittest::sphereIntersectionTest(){
	368	{
	369	std::vector<Vector> res = la1->getSphereIntersections();
	370	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	371	CPPUNIT_ASSERT(testDirection(res[0],unitVec[0]));
	372	CPPUNIT_ASSERT(testDirection(res[1],unitVec[0]));
[f932b7]	373	CPPUNIT_ASSERT(res[0]!=res[1]);
	374	}
	375
	376	{
	377	std::vector<Vector> res = la2->getSphereIntersections();
	378	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	379	CPPUNIT_ASSERT(testDirection(res[0],unitVec[1]));
	380	CPPUNIT_ASSERT(testDirection(res[1],unitVec[1]));
[f932b7]	381	CPPUNIT_ASSERT(res[0]!=res[1]);
	382	}
	383
	384	{
	385	std::vector<Vector> res = la3->getSphereIntersections();
	386	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	387	CPPUNIT_ASSERT(testDirection(res[0],unitVec[2]));
	388	CPPUNIT_ASSERT(testDirection(res[1],unitVec[2]));
[f932b7]	389	CPPUNIT_ASSERT(res[0]!=res[1]);
	390	}
	391
	392	{
	393	std::vector<Vector> res = lp1->getSphereIntersections();
	394	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	395	CPPUNIT_ASSERT((res[0]==unitVec[0]) \|\| (res[0]==unitVec[1]));
	396	CPPUNIT_ASSERT((res[1]==unitVec[0]) \|\| (res[1]==unitVec[1]));
[f932b7]	397	CPPUNIT_ASSERT(res[0]!=res[1]);
	398	}
	399
	400	{
	401	std::vector<Vector> res = lp2->getSphereIntersections();
	402	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	403	CPPUNIT_ASSERT((res[0]==unitVec[1]) \|\| (res[0]==unitVec[2]));
	404	CPPUNIT_ASSERT((res[1]==unitVec[1]) \|\| (res[1]==unitVec[2]));
[f932b7]	405	CPPUNIT_ASSERT(res[0]!=res[1]);
	406	}
	407
	408	{
	409	std::vector<Vector> res = lp3->getSphereIntersections();
	410	CPPUNIT_ASSERT_EQUAL(res.size(),(size_t)2);
[407782]	411	CPPUNIT_ASSERT((res[0]==unitVec[2]) \|\| (res[0]==unitVec[0]));
	412	CPPUNIT_ASSERT((res[1]==unitVec[2]) \|\| (res[1]==unitVec[0]));
[f932b7]	413	CPPUNIT_ASSERT(res[0]!=res[1]);
	414	}
	415	}

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source: src/LinearAlgebra/unittests/LineUnitTest.cpp@ a700c4

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