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toRadians([pos=1]) | toRadians([pos=1]) | ||
toRadians([var=a]) | toRadians([var=a]) | ||
====JUnit Tests==== | |||
<syntaxhighlight lang="java" class="mw-collapsible mw-collapsed"> | |||
@Test public void testToRadians(){ | |||
assertTrue(PI == getEvaluator().getNumberResult("toRadians(180)")); | |||
assertTrue(2*PI == getEvaluator().getNumberResult("toRadians(360)")); | |||
assertTrue(3*PI == getEvaluator().getNumberResult("toRadians(540)")); | |||
assertTrue(PI/2 == getEvaluator().getNumberResult("toRadians(90)")); | |||
assertTrue(-PI == getEvaluator().getNumberResult("toRadians(-180)")); | |||
assertTrue(0 == getEvaluator().getNumberResult("toRadians(0)")); | |||
} | |||
@Test public void testToRadiansWithInput(){ | |||
assertTrue(PI == getEvaluator().getNumberResult("toRadians('[pos=1]')")); | |||
assertTrue(0 == getEvaluator().getNumberResult("toRadians('[pos=2]')")); | |||
} | |||
@Test public void testToRadiansWithVariables(){ | |||
assertTrue(PI == getEvaluator().getNumberResult("toRadians('[var=a]')")); | |||
assertTrue(0 == getEvaluator().getNumberResult("toRadians('[var=b]')")); | |||
} | |||
@Test | |||
public void testToRadiansWithPointNumbers(){ | |||
assertTrue((PI*.2)/180 == getEvaluator().getNumberResult("toRadians(.2)")); | |||
assertTrue((-PI*.1)/180 == getEvaluator().getNumberResult("toRadians(-.1)")); | |||
} | |||
@Test | |||
public void testToRadiansWithExpressions(){ | |||
assertTrue(0 == getEvaluator().getNumberResult("toRadians(toRadians(0))")); | |||
assertTrue(0 == getEvaluator().getNumberResult("toRadians(toRadians(toRadians(0)))")); | |||
} | |||
@Test(expected=InvalidEvaluatorFunctionArgumentException.class) | |||
public void testToRadiansWithWrongInputCharacter(){ | |||
getEvaluator().getNumberResult("toRadians(a)"); | |||
} | |||
@Test(expected=UnsupportedEvaluatorFunctionException.class) | |||
public void testToRadiansWithTwoArguments(){ | |||
getEvaluator().getNumberResult("toRadians(180, 90)"); | |||
} | |||
@Test(expected=UnsupportedEvaluatorFunctionException.class) | |||
public void testToRadiansWithThreeArguments(){ | |||
getEvaluator().getNumberResult("toRadians(45, 90, 180)"); | |||
} | |||
@Test(expected=UndefinedExerciseVariableException.class) | |||
public void testToRadiansWithMissingExerciseVariable(){ | |||
getEvaluator().getNumberResult("toRadians('[var=j]')"); | |||
} | |||
@Test(expected=UndefinedFillInVariableException.class) | |||
public void testToRadiansWithMissingInput(){ | |||
getEvaluator().getNumberResult("toRadians('[pos=42]')"); | |||
} | |||
</syntaxhighlight> | |||
=== Hinweise === | === Hinweise === | ||
[[Kategorie:Evaluatorfunktion]] | [[Kategorie:Evaluatorfunktion]] | ||
Version vom 20. Juni 2017, 11:34 Uhr
Beschreibung
Die Funktion toRadians wandelt Grad-Werte in Radiant um. Die Funktion erwartet einen Grad-Wert und gibt den entsprechenden Radiant zurück.
Syntax
toRadians(float grad)
Parameter
- grad - der umzuwandelnde Grad-Wert
Return Value
- Gibt den Grad-Wert als Radiant zurück
Beispiele
Standardfälle
toRadians(180) --> returns 3.14159 toRadians(360) --> returns 6.28319
Benutzung mit Variablen
toRadians([pos=1]) toRadians([var=a])
JUnit Tests
@Test public void testToRadians(){
assertTrue(PI == getEvaluator().getNumberResult("toRadians(180)"));
assertTrue(2*PI == getEvaluator().getNumberResult("toRadians(360)"));
assertTrue(3*PI == getEvaluator().getNumberResult("toRadians(540)"));
assertTrue(PI/2 == getEvaluator().getNumberResult("toRadians(90)"));
assertTrue(-PI == getEvaluator().getNumberResult("toRadians(-180)"));
assertTrue(0 == getEvaluator().getNumberResult("toRadians(0)"));
}
@Test public void testToRadiansWithInput(){
assertTrue(PI == getEvaluator().getNumberResult("toRadians('[pos=1]')"));
assertTrue(0 == getEvaluator().getNumberResult("toRadians('[pos=2]')"));
}
@Test public void testToRadiansWithVariables(){
assertTrue(PI == getEvaluator().getNumberResult("toRadians('[var=a]')"));
assertTrue(0 == getEvaluator().getNumberResult("toRadians('[var=b]')"));
}
@Test
public void testToRadiansWithPointNumbers(){
assertTrue((PI*.2)/180 == getEvaluator().getNumberResult("toRadians(.2)"));
assertTrue((-PI*.1)/180 == getEvaluator().getNumberResult("toRadians(-.1)"));
}
@Test
public void testToRadiansWithExpressions(){
assertTrue(0 == getEvaluator().getNumberResult("toRadians(toRadians(0))"));
assertTrue(0 == getEvaluator().getNumberResult("toRadians(toRadians(toRadians(0)))"));
}
@Test(expected=InvalidEvaluatorFunctionArgumentException.class)
public void testToRadiansWithWrongInputCharacter(){
getEvaluator().getNumberResult("toRadians(a)");
}
@Test(expected=UnsupportedEvaluatorFunctionException.class)
public void testToRadiansWithTwoArguments(){
getEvaluator().getNumberResult("toRadians(180, 90)");
}
@Test(expected=UnsupportedEvaluatorFunctionException.class)
public void testToRadiansWithThreeArguments(){
getEvaluator().getNumberResult("toRadians(45, 90, 180)");
}
@Test(expected=UndefinedExerciseVariableException.class)
public void testToRadiansWithMissingExerciseVariable(){
getEvaluator().getNumberResult("toRadians('[var=j]')");
}
@Test(expected=UndefinedFillInVariableException.class)
public void testToRadiansWithMissingInput(){
getEvaluator().getNumberResult("toRadians('[pos=42]')");
}