IsLinearlyIndependent: Unterschied zwischen den Versionen
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===Beschreibung=== | ===Beschreibung=== | ||
Die Funktion ''isLinearlyIndependent'' testet, ob Vektoren linear unabhägig sind. Die Funktion erwartet eine | Die Funktion ''isLinearlyIndependent'' testet, ob Vektoren linear unabhägig sind. Die Funktion erwartet eine Liste von Vektoren und gibt einen [[Boolean]] zurück. | ||
===Syntax=== | ===Syntax=== | ||
isLinearlyIndependent( | isLinearlyIndependent([[List]] liste) | ||
===Parameter=== | ===Parameter=== | ||
* '''vektoren''' - | * '''vektoren''' - [[List]] von [[Vector]], die auf lineare Unabhängigkeit geprüft werden sollen | ||
===Return Value=== | ===Return Value=== | ||
* Gibt einen | * Gibt einen [[Boolean]] zurück | ||
===Beispiele=== | ===Beispiele=== | ||
isLinearlyIndependent( | isLinearlyIndependent(list(vector(1,1), vector(1,2))) --> returns true | ||
====JUnit Tests==== | ====JUnit Tests==== | ||
Version vom 4. Oktober 2017, 17:44 Uhr
Beschreibung
Die Funktion isLinearlyIndependent testet, ob Vektoren linear unabhägig sind. Die Funktion erwartet eine Liste von Vektoren und gibt einen Boolean zurück.
Syntax
isLinearlyIndependent(List liste)
Parameter
Return Value
- Gibt einen Boolean zurück
Beispiele
isLinearlyIndependent(list(vector(1,1), vector(1,2))) --> returns true
JUnit Tests
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@BeforeClass
public static void beforeTest() {
// set(vector(1,2,3),vector(3,3,3))
isLinearlyIndependentFillInVariableMap.put(1, OMConverter.toObject(
"<OMOBJ><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></OMOBJ>"));
isLinearlyIndependentFillInVariableMap.put(2, OMConverter.toObject("<OMOBJ><OMI>1</OMI></OMOBJ>"));
// set(vector(1,2,3),vector(3,3,3))
isLinearlyIndependentExerciseVariableMap.put("a", OMConverter.toObject(
"<OMOBJ><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></OMOBJ>"));
isLinearlyIndependentExerciseVariableMap.put("b", OMConverter.toObject("<OMOBJ><OMI>1</OMI></OMOBJ>"));
}
@Test
public void testIsLinearlyIndependent1() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1,1), vector(1,2)))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependent2() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1)))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependent3() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1,1,0), vector(1,1,1)))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependent4() {
assertTrue(Evaluator.getBooleanResult(
"isLinearlyIndependent(set(vector(1,0,0), vector(1,1,1), vector(1.5, 1.5, 1.8)))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependent5() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1,2,3), vector(3,3,3)))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependentWithInput1() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1,[pos=2],0), vector(1,1,[pos=2])))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependentWithInput2() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent('[pos=1]')",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependentWithVariables1() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent(set(vector(1,[var=b],0), vector(1,1,[var=b])))",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test
public void testIsLinearlyIndependentWithVariables2() {
assertTrue(Evaluator.getBooleanResult("isLinearlyIndependent('[var=a]')",
isLinearlyIndependentExerciseVariableMap, isLinearlyIndependentFillInVariableMap));
}
@Test(expected = ParserException.class)
public void TestIsLinearlyIndependentWithWrongInputONECharacter() {
Evaluator.getBooleanResult("isLinearlyIndependent(ba)", isLinearlyIndependentExerciseVariableMap,
isLinearlyIndependentFillInVariableMap);
fail();
}
@Test(expected = FunctionInvalidArgumentTypeException.class)
public void testIsLinearlyIndependentWithEmptyStringArgument() {
Evaluator.getBooleanResult("isLinearlyIndependent('')", isLinearlyIndependentExerciseVariableMap,
isLinearlyIndependentFillInVariableMap);
fail();
}
@Test(expected = FunctionInvalidNumberOfArgumentsException.class)
public void testIsLinearlyIndependentWithEmptyArgument() {
Evaluator.getBooleanResult("isLinearlyIndependent()", isLinearlyIndependentExerciseVariableMap,
isLinearlyIndependentFillInVariableMap);
fail();
}
@Test(expected = UndefinedExerciseVariableException.class)
public void testIsLinearlyIndependentWithoutExerciseVariable() {
Evaluator.getBooleanResult("isLinearlyIndependent('[var=j]')", isLinearlyIndependentExerciseVariableMap,
isLinearlyIndependentFillInVariableMap);
fail();
}
@Test(expected = UndefinedFillInVariableException.class)
public void testIsLinearlyIndependentWithoutInput() {
Evaluator.getBooleanResult("isLinearlyIndependent('[pos=42]')", isLinearlyIndependentExerciseVariableMap,
isLinearlyIndependentFillInVariableMap);
fail();
}