IsLinearlyIndependent
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Beschreibung
Die Funktion isLinearlyIndependent testet, ob Vektoren linear unabhägig sind. Die Funktion erwartet eine Menge von Vektoren und gibt einen boolean zurück.
Syntax
isLinearlyIndependent(String vektoren)
Parameter
- vektoren - Menge von Vektoren, die auf lineare Unabhängigkeit geprüft werden sollen
Return Value
- Gibt einen boolean zurück
Beispiele
isLinearlyIndependent(set(vector(1,1), vector(1,2))) --> returns true
JUnit Tests
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@Before
public void beforeTest(){
placeFillInVariable(1,new OpenMathObject() {
//[vector(QQ,[1,2,3]),vector(QQ,[3,3,3])]
@Override
protected String getPartialXML() {
return "<OMA><OMS cd='list1' name='list'/><OMA><OMS cd='linalg2' name='vector'/><OMI>1</OMI><OMI>2</OMI><OMI>3</OMI></OMA><OMA><OMS cd='linalg2' name='vector'/><OMI>3</OMI><OMI>3</OMI><OMI>3</OMI></OMA></OMA>";
}
});
placeFillInVariable(2, OMParser.parse("1"));
placeExerciseVariable("a", new OpenMathObject() {
//[vector(QQ,[1,2,3]),vector(QQ,[3,3,3])]
@Override
protected String getPartialXML() {
return "<OMA><OMS cd='list1' name='list'/><OMA><OMS cd='linalg2' name='vector'/><OMI>1</OMI><OMI>2</OMI><OMI>3</OMI></OMA><OMA><OMS cd='linalg2' name='vector'/><OMI>3</OMI><OMI>3</OMI><OMI>3</OMI></OMA></OMA>";
}
});
placeExerciseVariable("b", OMParser.parse("1"));
}
@Test
public void testIsLinearlyIndependent(){
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,1), vector(1,2)))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1)))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,1,0), vector(1,1,1)))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,0,0), vector(1,1,1), vector(1.5, 1.5, 1.8)))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,2,3), vector(3,3,3)))"));
}
@Test
public void testIsLinearlyIndependentWithInput(){
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,[pos=2],0), vector(1,1,[pos=2])))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent('[pos=1]')"));
}
@Test
public void testIsLinearlyIndependentWithVariables(){
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent(set(vector(1,[var=b],0), vector(1,1,[var=b])))"));
assertTrue(getEvaluator().getBooleanResult("isLinearlyIndependent('[var=a]')"));
}
@Test(expected=InvalidCASFunctionArgumentException.class)
public void TestIsLinearlyIndependentWithWrongInputONECharacter(){
getEvaluator().getBooleanResult("isLinearlyIndependent(a)");
}
@Test(expected=InvalidCASFunctionArgumentException.class)
public void testIsLinearlyIndependentWithEmptyStringArgument() {
getEvaluator().getBooleanResult("isLinearlyIndependent('')");
}
@Test(expected=InvalidCASFunctionArgumentException.class)
public void testIsLinearlyIndependentWithEmptyArgument() {
getEvaluator().getBooleanResult("isLinearlyIndependent()");
}
@Test(expected=UndefinedExerciseVariableException.class)
public void testIsLinearlyIndependentWithoutExerciseVariable() {
getEvaluator().getBooleanResult("isLinearlyIndependent('[var=j]')");
}
@Test(expected=UndefinedFillInVariableException.class)
public void testIsLinearlyIndependentWithoutInput() {
getEvaluator().getBooleanResult("isLinearlyIndependent('[pos=42]')");
}