package function.builtin.predicate; import static testutil.TestUtilities.evaluateString; import static testutil.TypeAssertions.*; import org.junit.Test; import function.ArgumentValidator.*; public class GENSYM_EQUALTest { @Test public void gensymEqualWithTwoEqualAtoms() { String input = "(gensym-equal 'a 'a)"; assertT(evaluateString(input)); } @Test public void gensymEqualWithTwoEqualAtomsAndAlias() { String input = "(gensym-equal? 'a 'a)"; assertT(evaluateString(input)); } @Test public void gensymEqualWithTwoUnequalAtoms() { String input = "(gensym-equal 'a 'b)"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithTwoEqualNumbers() { String input = "(gensym-equal -4 -4)"; assertT(evaluateString(input)); } @Test public void gensymEqualWithTwoUnequalNumbers() { String input = "(gensym-equal +5 +7)"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithTwoEqualStrings() { String input = "(gensym-equal \"potato\" \"potato\")"; assertT(evaluateString(input)); } @Test public void gensymEqualWithTwoUnequalStrings() { String input = "(gensym-equal \"tomato\" \"potato\")"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithTwoDifferentCasedStrings() { String input = "(gensym-equal \"Potato\" \"potato\")"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithAtomAndList() { String input = "(gensym-equal \"string\" '(m i k e))"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithListAndAtom() { String input = "(gensym-equal '(m i k e) \"string\")"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithTwoEqualLists() { String input = "(gensym-equal '(1 2 3) '(1 2 3))"; assertT(evaluateString(input)); } @Test public void gensymEqualWithTwoUnequalLists() { String input = "(gensym-equal '(1 2 3) '(1 3 3))"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithTwoEqualNestedLists() { String input = "(gensym-equal '(1 ((2) 3)) '(1 ((2) 3)))"; assertT(evaluateString(input)); } @Test(expected = TooManyArgumentsException.class) public void gensymEqualWithTooManyArguments() { evaluateString("(gensym-equal 1 2 3)"); } @Test(expected = TooFewArgumentsException.class) public void gensymEqualWithTooFewArguments() { evaluateString("(gensym-equal 1)"); } @Test public void gensymEqualWithGensyms() { String input = "(gensym-equal (gensym) (gensym))"; assertT(evaluateString(input)); } @Test public void gensymEqualWithNestedGensyms() { String input = "(gensym-equal `(1 ,(gensym) (2 ,(gensym))) `(1 ,(gensym) (2 ,(gensym))))"; assertT(evaluateString(input)); } @Test public void gensymEqualWithUnmatchedGensymPositions() { String input = "(gensym-equal (let ((one (gensym))) `(,one ,one))" + " (let ((one (gensym)) (two (gensym))) `(,one ,two)))"; assertNil(evaluateString(input)); } @Test public void gensymEqualWithMatchedGensymPositions() { String input = "(gensym-equal (let ((one (gensym))) `(,one ,one))" + " (let ((one (gensym)) (two (gensym))) `(,one ,one)))"; assertT(evaluateString(input)); } @Test public void gensymEqualWithComplexMatchedGensymPositions() { String input = "(gensym-equal (let ((x (gensym)) (y (gensym)) (z (gensym))) `(,x (,y ,z)))" + " (let ((a (gensym)) (b (gensym)) (c (gensym))) `(,c (,a ,b))))"; assertT(evaluateString(input)); } @Test public void gensymEqualWithComplexUnmatchedGensymPositions() { String input = "(gensym-equal (let ((x (gensym)) (y (gensym)) (z (gensym))) `(,x , y (,z ,z)))" + " (let ((a (gensym)) (b (gensym)) (c (gensym))) `(,a ,c (,b ,c))))"; assertNil(evaluateString(input)); } }