Difference between revisions of "LSL Language Test"

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m (NULL_KEY key test)
Line 247: Line 247:
     {
     {
         testFailed("if(NULL_KEY)", "TRUE", "FALSE");
         testFailed("if(NULL_KEY)", "TRUE", "FALSE");
    }
    if((key)NULL_KEY)
    {
        testFailed("if((key)NULL_KEY)", "TRUE", "FALSE");
    }
    else
    {
        testPassed("if((key)NULL_KEY)", "TRUE", "TRUE");
     }
     }
      
      

Revision as of 20:35, 30 January 2008

  • Tests all LSL language features
  • To run, rez a prim, add this script, then touch the prim
  • On successful completion, says "Ran N tests in X seconds with 0 failures"
  • For more verbose reporting, uncomment llSay call in testPassed

<lsl>integer gTestsPassed = 0; integer gTestsFailed = 0;

testPassed(string description, string actual, string expected) {

   ++gTestsPassed;
   //llSay(0, description);

}

testFailed(string description, string actual, string expected) {

   ++gTestsFailed;
   llSay(0, "FAILED!: " + description + " (" + actual + " expected " + expected + ")");

}

ensureTrue(string description, integer actual) {

   if(actual)
   {
       testPassed(description, (string) actual, (string) TRUE);
   }
   else
   {
       testFailed(description, (string) actual, (string) TRUE);
   }

}

ensureFalse(string description, integer actual) {

   if(actual)
   {
       testFailed(description, (string) actual, (string) FALSE);
   }
   else
   {
       testPassed(description, (string) actual, (string) FALSE);
   }

}

ensureIntegerEqual(string description, integer actual, integer expected) {

   if(actual == expected)
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

integer floatEqual(float actual, float expected) {

   float error = llFabs(expected - actual);
   float epsilon = 0.001;
   if(error > epsilon)
   {
       llSay(0,"Float equality delta " + (string)error);
       return FALSE;
   }
   return TRUE;

}

ensureFloatEqual(string description, float actual, float expected) {

   if(floatEqual(actual, expected))
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

ensureStringEqual(string description, string actual, string expected) {

   if(actual == expected)
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

ensureVectorEqual(string description, vector actual, vector expected) {

   if(floatEqual(actual.x, expected.x) &&
       floatEqual(actual.y, expected.y) &&
       floatEqual(actual.z, expected.z))
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

ensureRotationEqual(string description, rotation actual, rotation expected) {

   if(floatEqual(actual.x, expected.x) &&
       floatEqual(actual.y, expected.y) &&
       floatEqual(actual.z, expected.z) &&
       floatEqual(actual.s, expected.s))
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

ensureListEqual(string description, list actual, list expected) {

   if(actual == expected)
   {
       testPassed(description, (string) actual, (string) expected);
   }
   else
   {
       testFailed(description, (string) actual, (string) expected);
   }

}

integer gInteger = 5; float gFloat = 1.5; string gString = "foo"; vector gVector = <1, 2, 3>; rotation gRot = <1, 2, 3, 4>; list gList = [1, 2, 3];

integer testReturn() {

   return 1;

}

float testReturnFloat() {

   return 1;

}

string testReturnString() {

   return "Test string";

}

list testReturnList() {

   return [1,2,3];

}

vector testReturnVector() {

   return <1,2,3>;

}

rotation testReturnRotation() {

   return <1,2,3,4>;

}

vector testReturnVectorNested() {

   return testReturnVector();

}

vector testReturnVectorWithLibraryCall() {

   llSin(0);
   return <1,2,3>;

}

rotation testReturnRotationWithLibraryCall() {

   llSin(0);
   return <1,2,3,4>;

}

integer testParameters(integer param) {

   param = param + 1;
   return param;

}

integer testRecursion(integer param) {

   if(param <= 0)
   {
       return 0;
   }
   else
   {
       return testRecursion(param - 1);
   }

}

string testExpressionLists(list l) {

   return "foo" + (string)l;

}

tests() {

   // truth
   ensureIntegerEqual("TRUE", TRUE, TRUE);
   ensureIntegerEqual("FALSE", FALSE, FALSE);
   if(0.0)
   {
       testFailed("if(0.0)", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if(0.0)", "TRUE", "TRUE");
   }
   if(ZERO_VECTOR)
   {
       testFailed("if(ZERO_VECTOR)", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if(ZERO_VECTOR)", "TRUE", "TRUE");
   }
   if(ZERO_ROTATION)
   {
       testFailed("if(ZERO_ROTATION)", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if(ZERO_ROTATION)", "TRUE", "TRUE");
   }
   if(NULL_KEY)
   {
       testPassed("if(NULL_KEY)", "TRUE", "TRUE");
   }
   else
   {
       testFailed("if(NULL_KEY)", "TRUE", "FALSE");
   }
   if((key)NULL_KEY)
   {
       testFailed("if((key)NULL_KEY)", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if((key)NULL_KEY)", "TRUE", "TRUE");
   }
   
   if("")
   {
       testFailed("if(\"\")", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if(\"\")", "TRUE", "TRUE");
   }
   if([])
   {
       testFailed("if([])", "TRUE", "FALSE");
   }
   else
   {
       testPassed("if([])", "TRUE", "TRUE");
   }
   
   // equality
   ensureIntegerEqual("(TRUE == TRUE)", (TRUE == TRUE), TRUE);
   ensureIntegerEqual("(TRUE == FALSE)", (TRUE == FALSE), FALSE);
   ensureIntegerEqual("(TRUE == FALSE)", (TRUE == FALSE), FALSE);
   ensureIntegerEqual("(FALSE == FALSE)", (FALSE == FALSE), TRUE);
   
   // inequality
   ensureIntegerEqual("(TRUE != TRUE)", (TRUE != TRUE), FALSE);
   ensureIntegerEqual("(TRUE != FALSE)", (TRUE != FALSE), TRUE);
   ensureIntegerEqual("(TRUE != FALSE)", (TRUE != FALSE), TRUE);
   ensureIntegerEqual("(FALSE != FALSE)", (FALSE != FALSE), FALSE);
   
   // and
   ensureIntegerEqual("(TRUE && TRUE)", (TRUE && TRUE), TRUE);
   ensureIntegerEqual("(TRUE && FALSE)", (TRUE && FALSE), FALSE);
   ensureIntegerEqual("(FALSE && TRUE)", (FALSE && TRUE), FALSE);
   ensureIntegerEqual("(FALSE && FALSE)", (FALSE && FALSE), FALSE);
   // and
   ensureIntegerEqual("(1 && 2)", (1 && 2), TRUE);
   ensureIntegerEqual("(1 && 0)", (1 && 0), FALSE);
   ensureIntegerEqual("(0 && 2)", (0 && 2), FALSE);
   ensureIntegerEqual("(0 && 0)", (0 && 0), FALSE);


   // or
   ensureIntegerEqual("(TRUE || TRUE)", (TRUE || TRUE), TRUE);
   ensureIntegerEqual("(TRUE || FALSE)", (TRUE || FALSE), TRUE);
   ensureIntegerEqual("(FALSE || TRUE)", (FALSE || TRUE), TRUE);
   ensureIntegerEqual("(FALSE || FALSE)", (FALSE || FALSE), FALSE);
   
   // or
   ensureIntegerEqual("(1 || 2)", (1 || 2), TRUE);
   ensureIntegerEqual("(1 || 0)", (1 || 0), TRUE);
   ensureIntegerEqual("(0 || 2)", (0 || 2), TRUE);
   ensureIntegerEqual("(0 || 0)", (0 || 0), FALSE);
       
   // not
   ensureIntegerEqual("(! TRUE)", (! TRUE), FALSE);
   ensureIntegerEqual("(! FALSE)", (! FALSE), TRUE);
   
   // not 
   ensureIntegerEqual("(! 2)", (! 2), FALSE);
   ensureIntegerEqual("(! 0)", (! 0), TRUE);
   
   
   // greater than
   ensureIntegerEqual("(1 > 0)", (1 > 0), TRUE);
   ensureIntegerEqual("(0 > 1)", (0 > 1), FALSE);
   ensureIntegerEqual("(1 > 1)", (1 > 1), FALSE);
   
   // less than
   ensureIntegerEqual("(0 < 1)", (0 < 1), TRUE);
   ensureIntegerEqual("(1 < 0)", (1 < 0), FALSE);
   ensureIntegerEqual("(1 < 1)", (1 < 1), FALSE);
   
   // greater than or equal
   ensureIntegerEqual("(1 >= 0)", (1 >= 0), TRUE);
   ensureIntegerEqual("(0 >= 1)", (0 >= 1), FALSE);
   ensureIntegerEqual("(1 >= 1)", (1 >= 1), TRUE);
   
   // tess than or equal
   ensureIntegerEqual("(0 <= 1)", (0 <= 1), TRUE);
   ensureIntegerEqual("(1 <= 0)", (1 <= 0), FALSE);
   ensureIntegerEqual("(1 <= 1)", (1 <= 1), TRUE);
   
   // bitwise and
   ensureIntegerEqual("(10 & 25)", (10 & 25), 8);
   
   // bitwise or
   ensureIntegerEqual("(10 | 25)", (10 | 25), 27);
   
   // bitwise not
   ensureIntegerEqual("~10", ~10, -11);
   
   // xor
   ensureIntegerEqual("(10 ^ 25)", (10 ^ 25), 19);
   
   // right shift
   ensureIntegerEqual("(523 >> 2)", (523 >> 2), 130);
   
   // left shift
   ensureIntegerEqual("(523 << 2)", (523 << 2), 2092);
   
   // addition
   ensureIntegerEqual("(1 + 1)", (1 + 1), 2);
   ensureFloatEqual("(1 + 1.1)", (1 + 1.1), 2.1);
   ensureFloatEqual("(1.1 + 1)", (1.1 + 1), 2.1);
   ensureFloatEqual("(1.1 + 1.1)", (1.1 + 1.1), 2.2);
   ensureStringEqual("\"foo\" + \"bar\"", "foo" + "bar", "foobar");
   ensureVectorEqual("(<1.1, 2.2, 3.3> + <4.4, 5.5, 6.6>)", (<1.1, 2.2, 3.3> + <4.4, 5.5, 6.6>), <5.5, 7.7, 9.9>);
   ensureRotationEqual("(<1.1, 2.2, 3.3, 4.4> + <4.4, 5.5, 6.6, 3.3>)", (<1.1, 2.2, 3.3, 4.4> + <4.4, 5.5, 6.6, 3.3>), <5.5, 7.7, 9.9, 7.7>);
   ensureListEqual("([1] + 2)", ([1] + 2), [1,2]);
   ensureListEqual("([] + 1.5)", ([] + 1.5), [1.5]);
   ensureListEqual("([\"foo\"] + \"bar\")", (["foo"] + "bar"), ["foo", "bar"]);
   ensureListEqual("([] + <1,2,3>)", ([] + <1,2,3>), [<1,2,3>]);
   ensureListEqual("([] + <1,2,3,4>)", ([] + <1,2,3,4>), [<1,2,3,4>]);
   
   ensureListEqual("(1 + [2])", (1 + [2]), [1,2]);
   ensureListEqual("(1.0 + [2])", (1.0 + [2]), [1.0,2]);
   ensureListEqual("(1 + [2])", ("one" + [2]), ["one",2]);
   ensureListEqual("(<1.0,1.0,1.0,1.0> + [2])", (<1.0,1.0,1.0,1.0> + [2]), [<1.0,1.0,1.0,1.0>,2]);
   ensureListEqual("(<1.0,1.0,1.0> + [2])", (<1.0,1.0,1.0> + [2]), [<1.0,1.0,1.0>,2]);


   // subtraction
   ensureIntegerEqual("(1 - 1)", (1 - 1), 0);
   ensureFloatEqual("(1 - 0.5)", (1 - 0.5), 0.5);
   ensureFloatEqual("(1.5 - 1)", (1.5 - 1), 0.5);
   ensureFloatEqual("(2.2 - 1.1)", (2.2 - 1.1), 1.1);
   ensureVectorEqual("(<1.5, 2.5, 3.5> - <4.5, 5.5, 6.5>)", (<1.5, 2.5, 3.5> - <4.5, 5.5, 6.5>), <-3.0, -3.0, -3.0>);
   ensureRotationEqual("(<1.5, 2.5, 3.5, 4.5> - <4.5, 5.5, 6.5, 7.5>)", (<1.5, 2.5, 3.5, 4.5> - <4.5, 5.5, 6.5, 7.5>), <-3.0, -3.0, -3.0, -3.0>);
   // multiplication
   ensureIntegerEqual("(2 * 3)", (2 * 3), 6);
   ensureFloatEqual("(2 * 3.5)", (2 * 3.5), 7.0);
   ensureFloatEqual("(2.5 * 3)", (2.5 * 3), 7.5);
   ensureFloatEqual("(2.5 * 3.5)", (2.5 * 3.5), 8.75);
   ensureVectorEqual("(<1.1, 2.2, 3.3> * 2)", (<1.1, 2.2, 3.3> * 2), <2.2, 4.4, 6.6>);
   ensureVectorEqual("(2 * <1.1, 2.2, 3.3>)", (<1.1, 2.2, 3.3> * 2), (2 * <1.1, 2.2, 3.3>));
   ensureVectorEqual("(<2.2, 4.4, 6.6> * 2.0)", (<2.2, 4.4, 6.6> * 2.0), <4.4, 8.8, 13.2>);
   ensureVectorEqual("(2.0 * <2.2, 4.4, 6.6>)", (<2.2, 4.4, 6.6> * 2.0), (2.0 * <2.2, 4.4, 6.6>));
   ensureFloatEqual("<1,3,-5> * <4,-2,-1>", <1,3,-5> * <4,-2,-1>, 3.0);
   ensureVectorEqual("<-1,0,0> * <0, 0, 0.707, 0.707>", <-1,0,0> * <0, 0, 0.707, 0.707>, <0,-1, 0>);
   ensureRotationEqual("(<1.0, 2.0, 3.0, 4.0> * <5.0, 6.0, 7.0, 8.0>)", (<1.0, 2.0, 3.0, 4.0> * <5.0, 6.0, 7.0, 8.0>), <32.0, 32.0, 56.0, -6.0>);
   
   // division
   ensureIntegerEqual("(2 / 2)", (2 / 2), 1);
   ensureFloatEqual("(2.2 / 2)", (2.2 / 2), 1.1);
   ensureFloatEqual("(3 / 1.5)", (3 / 1.5), 2.0);
   ensureFloatEqual("(2.2 / 2.0)", (2.2 / 2.0), 1.1);
   ensureVectorEqual("(<1.0, 2.0, 3.0> / 2)", (<1.0, 2.0, 3.0> / 2), <0.5, 1.0, 1.5>);
   ensureVectorEqual("(<3.0, 6.0, 9.0> / 1.5)", (<3.0, 6.0, 9.0> / 1.5), <2.0, 4.0, 6.0>);
   ensureVectorEqual("<-1,0,0> / <0, 0, 0.707, 0.707>", <-1,0,0> / <0, 0, 0.707, 0.707>, <0,1, 0>);
   ensureRotationEqual("(<1.0, 2.0, 3.0, 4.0> / <5.0, 6.0, 7.0, 8.0>)", (<1.0, 2.0, 3.0, 4.0> / <5.0, 6.0, 7.0, 8.0>), <-16.0, 0.0, -8.0, 70.0>);
   // modulo
   ensureIntegerEqual("(3 % 1)", (3 % 1), 0);
   ensureVectorEqual("(<1.0, 2.0, 3.0> % <4.0, 5.0, 6.0>)", (<1.0, 2.0, 3.0> % <4.0, 5.0, 6.0>), <-3.0, 6.0, -3.0>);
   
   // assignment
   integer i = 1;
   ensureIntegerEqual("i = 1;", i, 1);
   
   // addition assignment
   i = 1;
   i += 1;
   ensureIntegerEqual("i = 1; i += 1;", i, 2);
   
   // subtraction assignment
   i = 1;
   i -= 1;
   ensureIntegerEqual("i = 1; i -= 1;", i, 0);
   
   // multiplication assignment integer *= integer
   i = 2;
   i *= 2;
   ensureIntegerEqual("i = 2; i *= 2;", i, 4);
   
   // multiplication assignment integer *= float
   i = 1;
   i *= 0.5;
   ensureIntegerEqual("i = 1; i *= 0.5;", i, 0);
       
   // division assignment
   i = 2;
   i /= 2;
   ensureIntegerEqual("i = 2; i /= 2;", i, 1);
   
   // modulo assignment
   i = 3;
   i %= 1;
   ensureIntegerEqual("i = 3; i %= 1;", i, 0);
   
   // post increment.
   i = 1;
   ensureIntegerEqual("i = 1; (i == 2) && (i++ == 1)", (i == 2) && (i++ == 1), TRUE);
       
   // pre increment.
   i = 1;
   ensureIntegerEqual("i = 1; (i == 2) && (++i == 2)", (i == 2) && (++i == 2), TRUE);
       
   // post decrement.
   i = 2;
   ensureIntegerEqual("i = 2; (i == 1) && (i-- == 2)", (i == 1) && (i-- == 2), TRUE);
       
   // pre decrement.
   i = 2;
   ensureIntegerEqual("i = 2; (i == 1) && (--i == 1)", (i == 1) && (--i == 1), TRUE);
   i = 2; --i;
   ensureIntegerEqual("i = 2; --i", i, 1);
   
   // casting
   ensureFloatEqual("((float)2)", ((float)2), 2.0);
   ensureStringEqual("((string)2)", ((string)2), "2");
   ensureIntegerEqual("((integer) 1.5)", ((integer) 1.5), 1);
   ensureStringEqual("((string) 1.5)", ((string) 1.5), "1.500000");
   ensureIntegerEqual("((integer) \"0xF\")", ((integer) "0xF"), 15);
   ensureIntegerEqual("((integer) \"2\")", ((integer) "2"), 2);
   ensureFloatEqual("((float) \"1.5\")", ((float) "1.5"), 1.5);
   ensureVectorEqual("((vector) \"<1,2,3>\")", ((vector) "<1,2,3>"), <1,2,3>);
   ensureRotationEqual("((quaternion) \"<1,2,3,4>\")", ((quaternion) "<1,2,3,4>"), <1,2,3,4>);
   ensureStringEqual("((string) <1,2,3>)", ((string) <1,2,3>), "<1.00000, 2.00000, 3.00000>");
   ensureStringEqual("((string) <1,2,3,4>)", ((string) <1,2,3,4>), "<1.00000, 2.00000, 3.00000, 4.00000>");
   ensureStringEqual("((string) [1,2.5,<1,2,3>])", ((string) [1,2.5,<1,2,3>]), "12.500000<1.000000, 2.000000, 3.000000>");
   
   // while
   i = 0;
   while(i < 10) ++i;
   ensureIntegerEqual("i = 0; while(i < 10) ++i", i, 10);
   
   // do while
   i = 0;
   do {++i;} while(i < 10);
   ensureIntegerEqual("i = 0; do {++i;} while(i < 10);", i, 10);
   
   // for
   for(i = 0; i < 10; ++i);
   ensureIntegerEqual("for(i = 0; i < 10; ++i);", i, 10);
   
   // jump
   i = 1;
   jump SkipAssign;
   llSetText("Error", <1,0,0>, 1); // Inserting this library call causes a save point to be added.
   i = 2;
   @SkipAssign;
   ensureIntegerEqual("i = 1; jump SkipAssign; i = 2; @SkipAssign;", i, 1);
   
   // return
   ensureIntegerEqual("testReturn()", testReturn(), 1);
   ensureFloatEqual("testReturnFloat()", testReturnFloat(), 1.0);
   ensureStringEqual("testReturnString()", testReturnString(), "Test string");
   ensureVectorEqual("testReturnVector()", testReturnVector(), <1,2,3>);
   ensureRotationEqual("testReturnRotation()", testReturnRotation(), <1,2,3,4>);
   ensureVectorEqual("testReturnVectorNested()", testReturnVectorNested(), <1,2,3>);
   ensureVectorEqual("testReturnVectorWithLibraryCall()", testReturnVectorWithLibraryCall(), <1,2,3>);
   ensureRotationEqual("testReturnRotationWithLibraryCall()", testReturnRotationWithLibraryCall(), <1,2,3,4>);
   
   // parameters
   ensureIntegerEqual("testParameters(1)", testParameters(1), 2);
   
   // variable parameters
   i = 1;
   ensureIntegerEqual("i = 1; testParameters(i)", testParameters(i), 2);
   
   // recursion
   ensureIntegerEqual("testRecursion(10)", testRecursion(10), 0);
   
   // globals
   ensureIntegerEqual("gInteger", gInteger, 5);
   ensureFloatEqual("gFloat", gFloat, 1.5);
   ensureStringEqual("gString", gString, "foo");
   ensureVectorEqual("gVector", gVector, <1, 2, 3>);
   ensureRotationEqual("gRot", gRot, <1, 2, 3, 4>);
   ensureListEqual("gList", gList, [1, 2, 3]);
   
   // global assignment
   gInteger = 1;
   ensureIntegerEqual("gInteger = 1", gInteger, 1);
   
   gFloat = 0.5;
   ensureFloatEqual("gFloat = 0.5", gFloat, 0.5);
   
   gString = "bar";
   ensureStringEqual("gString = \"bar\"", gString, "bar");
   
   gVector = <3,3,3>;
   ensureVectorEqual("gVector = <3,3,3>", gVector, <3,3,3>);
   
   gRot = <3,3,3,3>;
   ensureRotationEqual("gRot = <3,3,3,3>", gRot, <3,3,3,3>);
   gList = [4,5,6];
   ensureListEqual("gList = [4,5,6]", gList, [4,5,6]);
   
   // negation
   gVector = <3,3,3>;
   ensureVectorEqual("-gVector = <-3,-3,-3>", -gVector, <-3,-3,-3>);
   
   gRot = <3,3,3,3>;
   ensureRotationEqual("-gRot = <-3,-3,-3,-3>", -gRot, <-3,-3,-3,-3>);


   // vector accessor
   vector v;
   v.x = 3;
   ensureFloatEqual("v.x", v.x, 3);
   
   // rotation accessor
   rotation q;
   q.s = 5;
   ensureFloatEqual("q.s", q.s, 5);
   
   // global vector accessor
   gVector.y = 17.5;
   ensureFloatEqual("gVector.y = 17.5", gVector.y, 17.5);
   
   // global rotation accessor
   gRot.z = 19.5;
   ensureFloatEqual("gRot.z = 19.5", gRot.z, 19.5);
   
   // list equality
   list l = (list) 5;
   list l2 = (list) 5;
   ensureListEqual("list l = (list) 5; list l2 = (list) 5", l, l2);
   ensureListEqual("list l = (list) 5", l, [5]);
   ensureListEqual("[1.5, 6, <1,2,3>, <1,2,3,4>]", [1.5, 6, <1,2,3>, <1,2,3,4>], [1.5, 6, <1,2,3>, <1,2,3,4>]);
   // String escaping
   ensureIntegerEqual("llStringLength(\"\\\") == 1", llStringLength("\\"), 1);
   ensureIntegerEqual("llStringLength(\"\\t\") == 4", llStringLength("\t"), 4);
   ensureIntegerEqual("llStringLength(\"\\n\") == 1", llStringLength("\n"), 1);
   ensureIntegerEqual("llStringLength(\"\\\"\") == 1", llStringLength("\""), 1);
   // Nested expression lists
   ensureStringEqual("testExpressionLists([testExpressionLists([]), \"bar\"]) == \"foofoobar\"", testExpressionLists([testExpressionLists([]), "bar"]), "foofoobar");

}

default {

   touch_start(integer total_number)
   {
       llResetTime();
       tests();
       llSay(0, "Ran " + (string)(gTestsPassed + gTestsFailed) + " tests in " + (string) llGetTime() + " seconds with " + (string)gTestsFailed + " failures");
       
       // reset globals  
       gInteger = 5;
       gFloat = 1.5;
       gString = "foo";
       gVector = <1, 2, 3>;
       gRot = <1, 2, 3, 4>;
       gList = [1, 2, 3];
       gTestsPassed = 0;
       gTestsFailed = 0;
   }
   
   http_response(key request_id, integer status, list metadata, string body)
   {
       
   }

} </lsl>