ToDegree
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Beschreibung
Die Funktion toDegrees wandelt Radiant-Werte in Grad um. Die Funktion erwartet einen Radiant und gibt den entsprechenden Grad zurück.
Syntax
toDegrees(float radiant)
Parameter
- radiant - der umzuwandelnde Radiant-Wert
Return Value
- Gibt den Radiant-Wert in Grad zurück
Beispiele
Standardfälle
toDegrees(3.14159) --> returns 180 toDegrees(6.28319) --> returns 360
Benutzung mit Variablen
toDegrees([pos=1]) toDegrees([var=a])
JUnit Tests
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@Before
public void beforeTest(){
placeFillInVariable(45, OMParser.parse(Double.toString(PI/4)));
placeFillInVariable(90, OMParser.parse(Double.toString(PI/2)));
placeFillInVariable(1, OMParser.parse("1"));
placeExerciseVariable("degc", OMParser.parse(Double.toString(PI)));
placeExerciseVariable("degd", OMParser.parse(Double.toString(2*PI)));
placeExerciseVariable("b",OMParser.parse("1"));
}
@Test public void testToDegrees(){
assertTrue(540 == getEvaluator().getNumberResult("toDegrees("+3*PI+")"));
assertTrue(360 == getEvaluator().getNumberResult("toDegrees("+2*PI+")"));
assertTrue(180 == getEvaluator().getNumberResult("toDegrees("+PI+")"));
assertTrue(-180 == getEvaluator().getNumberResult("toDegrees("+-PI+")"));
assertTrue(90 == getEvaluator().getNumberResult("toDegrees("+PI/2+")"));
assertTrue(45 == getEvaluator().getNumberResult("toDegrees("+PI/4+")"));
assertTrue(180/PI == getEvaluator().getNumberResult("toDegrees(1)"));
}
@Test public void testToDegreesWithInput(){
assertTrue(90 == getEvaluator().getNumberResult("toDegrees('[pos=90]')"));
assertTrue(45 == getEvaluator().getNumberResult("toDegrees('[pos=45]')"));
assertTrue(180/PI == getEvaluator().getNumberResult("toDegrees('[pos=1]')"));
}
@Test public void testToDegreesWithVariables(){
assertTrue(360 == getEvaluator().getNumberResult("toDegrees('[var=degd]')"));
assertTrue(180 == getEvaluator().getNumberResult("toDegrees('[var=degc]')"));
assertTrue(180/PI == getEvaluator().getNumberResult("toDegrees('[var=b]')"));
assertTrue(180 == getEvaluator().getNumberResult("toDegrees('[var=PI]')"));
}
@Test
public void testToDegreesWithPointNumbers(){
assertTrue(180/(PI*.2) == getEvaluator().getNumberResult("toDegrees(.2)"));
assertTrue(180/(-PI*.1) == getEvaluator().getNumberResult("toDegrees(-.1)"));
}
@Test
public void testToDegreesWithExpressions(){
assertTrue(0 == getEvaluator().getNumberResult("toDegrees(toDegrees(0))"));
assertTrue(0 == getEvaluator().getNumberResult("toDegrees(toDegrees(toDegrees(0)))"));
}
@Test(expected=InvalidEvaluatorFunctionArgumentException.class)
public void testToDegreesWithWrongInputCharacter(){
getEvaluator().getNumberResult("toDegrees(a)");
}
@Test(expected=UnsupportedEvaluatorFunctionException.class)
public void testToDegreesWithTwoArguments(){
getEvaluator().getNumberResult("toDegrees(4, 3)");
}
@Test(expected=UnsupportedEvaluatorFunctionException.class)
public void testToDegreesWithThreeArguments(){
getEvaluator().getNumberResult("toDegrees(2, 3, 4)");
}
@Test(expected=UndefinedExerciseVariableException.class)
public void testToDegreesWithMissingExerciseVariable(){
getEvaluator().getNumberResult("toDegrees('[var=j]')");
}
@Test(expected=UndefinedFillInVariableException.class)
public void testToDegreesWithMissingInput(){
getEvaluator().getNumberResult("toDegrees('[pos=42]')");
}