Sin: Unterschied zwischen den Versionen

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@Before
@BeforeClass
public void beforeTest() {
public static void beforeTest() {
  placeFillInVariable(1, OMParser.parse("0"));
fillInVariableMap.put(2, OMCreator.createOMOBJ(OMSymbol.NUMS1_PI));
  placeFillInVariable(2, OMParser.parse("Pi"));
  placeExerciseVariable("a", OMParser.parse("0"));
}
}
 
@Test
public void testSin1() {
assertEquals(0, Evaluator.getNumberResult("sin('0')", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test
@Test
public void testSin() {
public void testSin2() {
  assertTrue(0 == getEvaluator().getNumberResult("sin('0')"));
assertEquals(1, Evaluator.getNumberResult("sin('[var=PI]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
  assertTrue(1 == getEvaluator().getNumberResult("sin('Pi/2')"));
  assertTrue(-1 == getEvaluator().getNumberResult("sin('-Pi/2')"));
  assertTrue(0 == getEvaluator().getNumberResult("sin('Pi')"));
  assertTrue(0 == getEvaluator().getNumberResult("sin('-Pi')"));
}
}
 
@Test
@Test
public void testSinWithInput() {
public void testSin3() {
  assertTrue(0 == getEvaluator().getNumberResult("sin('[pos=1]')"));
assertEquals(-1, Evaluator.getNumberResult("sin('-[var=PI]/2')", exerciseVariableMap, fillInVariableMap),
  assertTrue(1 == getEvaluator().getNumberResult("sin('[pos=2]/2')"));
0.0001);
}
}


@Test
@Test
public void testSinWithVariables() {
public void testSin4() {
  assertTrue(0 == getEvaluator().getNumberResult("sin('[var=a]')"));
assertEquals(0, Evaluator.getNumberResult("sin('[var=PI]')", exerciseVariableMap, fillInVariableMap), 0.0001);
  assertTrue(1 == getEvaluator().getNumberResult("sin('[var=PI]/2')"));
}
}
 
@Test
@Test
public void testSinWithExpressions() {
public void testSin5() {
  assertTrue(0 == getEvaluator().getNumberResult("sin(sin(0))"));
assertEquals(0, Evaluator.getNumberResult("sin('-[var=PI]')", exerciseVariableMap, fillInVariableMap), 0.0001);
  assertTrue(0 == getEvaluator().getNumberResult("sin(sin(sin(0)))"));
}
}
 
@Test(expected=InvalidCASFunctionArgumentException.class)
@Test
public void testSinWithONECharacter(){
public void testSinWithInput1() {
  getEvaluator().getNumberResult("sin(a)");
assertEquals(0, Evaluator.getNumberResult("sin('[pos=1]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}
}
 
@Test(expected=InvalidCASFunctionArgumentException.class)
@Test
public void testSinWithInput2() {
assertEquals(1, Evaluator.getNumberResult("sin('[pos=2]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test
public void testSinWithVariables1() {
assertEquals(0, Evaluator.getNumberResult("sin('[var=a]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test
public void testSinWithVariables2() {
assertEquals(1, Evaluator.getNumberResult("sin('[var=PI]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test
public void testSinWithExpressions1() {
assertEquals(0, Evaluator.getNumberResult("sin(sin(0))", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test
public void testSinWithExpressions2() {
assertEquals(0, Evaluator.getNumberResult("sin(sin(sin(0)))", exerciseVariableMap, fillInVariableMap), 0.0001);
}
 
@Test(expected = FunctionInvalidArgumentTypeException.class)
public void testSinWithONECharacter() {
Evaluator.getNumberResult("sin(a)", exerciseVariableMap, fillInVariableMap);
fail();
}
 
@Test(expected = FunctionInvalidArgumentTypeException.class)
public void testSinWithEmptyStringArgument() {
public void testSinWithEmptyStringArgument() {
  getEvaluator().getNumberResult(("sin('')"));
Evaluator.getNumberResult("sin('')", exerciseVariableMap, fillInVariableMap);
fail();
}
}
 
@Test(expected=InvalidCASFunctionArgumentException.class)
@Test(expected = FunctionInvalidNumberOfArgumentsException.class)
public void testSinWithEmptyArgument() {
public void testSinWithEmptyArgument() {
  getEvaluator().getNumberResult(("sin()"));
Evaluator.getNumberResult("sin()", exerciseVariableMap, fillInVariableMap);
fail();
}
}
 
@Test(expected=UndefinedExerciseVariableException.class)
@Test(expected = UndefinedExerciseVariableException.class)
public void testSinWithoutExerciseVariable() {
public void testSinWithoutExerciseVariable() {
  getEvaluator().getNumberResult("sin('[var=j]')");
Evaluator.getNumberResult("sin('[var=j]')", exerciseVariableMap, fillInVariableMap);
fail();
}
}
 
@Test(expected=UndefinedFillInVariableException.class)
@Test(expected = UndefinedFillInVariableException.class)
public void testSinWithoutInput() {
public void testSinWithoutInput() {
  getEvaluator().getNumberResult("sin('[pos=42]')");
Evaluator.getNumberResult("sin('[pos=42]')", exerciseVariableMap, fillInVariableMap);
fail();
}
}
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Version vom 19. September 2017, 07:42 Uhr

Beschreibung

Der Sinus wird durch die sin-Funktion beschrieben. Sie erwartet einen Parameter und gibt einen Wert zurück.

Syntax

sin(String zeichenkette)

Parameter

  • zeichenkette - ein Wert im Bogenmaß

Return Value

  • Der Rückgabewert der Sinusfunktion.

Beispiele

sin('Pi')    --> returns 0
sin('Pi/2')    --> returns 1

JUnit Tests

[Anzeigen]

@BeforeClass
public static void beforeTest() {
	fillInVariableMap.put(2, OMCreator.createOMOBJ(OMSymbol.NUMS1_PI));
}

@Test
public void testSin1() {
	assertEquals(0, Evaluator.getNumberResult("sin('0')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSin2() {
	assertEquals(1, Evaluator.getNumberResult("sin('[var=PI]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSin3() {
	assertEquals(-1, Evaluator.getNumberResult("sin('-[var=PI]/2')", exerciseVariableMap, fillInVariableMap),
			0.0001);
}

@Test
public void testSin4() {
	assertEquals(0, Evaluator.getNumberResult("sin('[var=PI]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSin5() {
	assertEquals(0, Evaluator.getNumberResult("sin('-[var=PI]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithInput1() {
	assertEquals(0, Evaluator.getNumberResult("sin('[pos=1]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithInput2() {
	assertEquals(1, Evaluator.getNumberResult("sin('[pos=2]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithVariables1() {
	assertEquals(0, Evaluator.getNumberResult("sin('[var=a]')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithVariables2() {
	assertEquals(1, Evaluator.getNumberResult("sin('[var=PI]/2')", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithExpressions1() {
	assertEquals(0, Evaluator.getNumberResult("sin(sin(0))", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test
public void testSinWithExpressions2() {
	assertEquals(0, Evaluator.getNumberResult("sin(sin(sin(0)))", exerciseVariableMap, fillInVariableMap), 0.0001);
}

@Test(expected = FunctionInvalidArgumentTypeException.class)
public void testSinWithONECharacter() {
	Evaluator.getNumberResult("sin(a)", exerciseVariableMap, fillInVariableMap);
	fail();
}

@Test(expected = FunctionInvalidArgumentTypeException.class)
public void testSinWithEmptyStringArgument() {
	Evaluator.getNumberResult("sin('')", exerciseVariableMap, fillInVariableMap);
	fail();
}

@Test(expected = FunctionInvalidNumberOfArgumentsException.class)
public void testSinWithEmptyArgument() {
	Evaluator.getNumberResult("sin()", exerciseVariableMap, fillInVariableMap);
	fail();
}

@Test(expected = UndefinedExerciseVariableException.class)
public void testSinWithoutExerciseVariable() {
	Evaluator.getNumberResult("sin('[var=j]')", exerciseVariableMap, fillInVariableMap);
	fail();
}

@Test(expected = UndefinedFillInVariableException.class)
public void testSinWithoutInput() {
	Evaluator.getNumberResult("sin('[pos=42]')", exerciseVariableMap, fillInVariableMap);
	fail();
}

Hinweise

  • Die Funktion braucht den Wert im Bogenmaß, ggf. muss man den Gradmaß vorher umrechnen.