private static bool runTest1(int testId)
 {
     mXparser.consolePrint("[" + testId + "] ");
     bool testResult = false;
     bool syn1;
     double value = 0;
     double reg = 0;
     double sum = 0;
     String expStr = "";
     Argument x, y, d, n, i, k, m, s, r, t;
     Function f, g, h;
     switch (testId) {
     case 0:
         expStr = "";
         mXparser.consolePrint("Empty expression string ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         if ( Double.IsNaN(value) )
             testResult = true;
         mXparser.consolePrint(value + " --> ");
         break;
     case 1:
         expStr = "2+1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2+1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 2:
         expStr = "1-2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1-2;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 3:
         expStr = "2*5";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2*5;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 4:
         expStr = "20/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 20.0/4.0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 5:
         expStr = "-2+22";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -2+22;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 6:
         expStr = "3-(-5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3-(-5);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 7:
         expStr = "+5-(+7)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = +5-(+7);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 8:
         expStr = "-5+(-7)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -5+(-7);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 9:
         expStr = "-2*(3-5)+7";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -2*(3-5)+7;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 10:
         expStr = "5.5*(2-3 + (5.3-7.89)/2)/2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -6.31125;
         if ( MathFunctions.abs(value - reg) < 0.00000000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 11:
         expStr = "2-(32-4)/(23+(4)/(5))-(2-4)*(4+6-98.2)+4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -171.5764705882353;
         if ( MathFunctions.abs(value - reg) < 0.000000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 12:
         expStr = "2^3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow(2, 3);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 13:
         expStr = "2^(-3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow(2, -3);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 14:
         expStr = "2^0.7";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow(2, 0.7);
         if ( MathFunctions.abs(value - reg) < 0.00000000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 15:
         expStr = "4^3^2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow(4, Math.Pow(3,2));
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 16:
         expStr = "(4^3)^2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow( Math.Pow(4, 3), 2);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 17:
         expStr = "0.9^0.8^0.7^0.6^0.5";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.914888338607593;
         if (MathFunctions.abs(value - reg) < 0.00000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 18:
         expStr = "2=2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 19:
         expStr = "2=3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 20:
         expStr = "2<>3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 21:
         expStr = "2<>2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 22:
         expStr = "3>2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 23:
         expStr = "2>2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 24:
         expStr = "3>2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 25:
         expStr = "2<3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 26:
         expStr = "2<2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 27:
         expStr = "3<2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 28:
         expStr = "2>=2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 29:
         expStr = "3>=2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 30:
         expStr = "1>=2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 31:
         expStr = "1<=2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 32:
         expStr = "1<=1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 33:
         expStr = "1<=0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 34:
         expStr = "1 & 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 35:
         expStr = "1 & -1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 36:
         expStr = "1 & 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 37:
         expStr = "0 & 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 38:
         expStr = "0 & 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 39:
         expStr = "1 | -1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 40:
         expStr = "0 | -1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 41:
         expStr = "1 | 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 42:
         expStr = "0 | 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 43:
         expStr = "3>2 | 2>3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 44:
         expStr = "3>5 | 2>3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 45:
         expStr = "not((3>4) & (2>=2))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 46:
         expStr = "not(-5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 47:
         expStr = "not(0)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 48:
         expStr = "if(0,1,2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 49:
         expStr = "if(5,1,2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 50:
         expStr = "sum(n,1,10,n)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 55;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 51:
         expStr = "prod(n,1,5,n)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 120;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 52:
         x = new Argument("x",5);
         expStr = "sin(x)-sum(n,0,10,(-1)^n*(x^(2*n+1))/(2*n+1)!)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 53:
         d = new Argument("d",0.01);
         expStr = "pi-2*sum(x,-1,1,d*sqrt(1-x^2),d)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,d);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.01 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 54:
         x = new Argument("x",1);
         expStr = "1 - ( sin(x)^2+cos(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 55:
         x = new Argument("x",1);
         expStr = "1 - ( sec(x)^2 - tan(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 56:
         x = new Argument("x",1);
         expStr = "1 - ( cosec(x)^2 - ctan(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 57:
         x = new Argument("x",1);
         expStr = "1 - ( cosec(x)^2 - ctan(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 58:
         x = new Argument("x",1);
         expStr = "1 - ( csc(x)^2 - ctg(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 59:
         x = new Argument("x",1);
         expStr = "1 - ( sec(x)^2 - tg(x)^2 )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 60:
         x = new Argument("x",1);
         expStr = "tan(x) - sin(x)/cos(x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 61:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "sin(x+y) - (sin(x)*cos(y)+cos(x)*sin(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 62:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "sin(x-y) - (sin(x)*cos(y)-cos(x)*sin(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 63:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "cos(x+y) - (cos(x)*cos(y)-sin(x)*sin(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 64:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "cos(x-y) - (cos(x)*cos(y)+sin(x)*sin(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 65:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "tg(x+y) - (tg(x)+tg(y)) / (1 - tg(x)*tg(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 66:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "tg(x-y) - (tg(x)-tg(y)) / (1 + tg(x)*tg(y))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 67:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "ctg(x+y) - (ctg(x)*ctg(y)-1) / (ctg(y)+ctg(x))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 68:
         x = new Argument("x",2);
         n = new Argument("n",10);
         expStr = "sin(n*x) - sum(i,0,n,(-1)^i*C(n,2*i+1)*(cos(x)^(n-2*i-1))*(sin(x)^(2*i+1))) ";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,n);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 69:
         n = new Argument("n",50);
         expStr = "n*2^(n-1) - sum(i,1,n,i*C(n,i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 70:
         expStr = "prod(i,2,6,1+1/i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 7.0/2.0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 71:
         expStr = "prod(i,1,6,10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Math.Pow(10,6);
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 72:
         expStr = "prod(i,1,6,i,0.5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         for (double ii=1; ii<6; ii+=0.5)
             reg*=ii;
         reg*=6;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 73:
         expStr = "sum(n,1,5,prod(i,1,n,n*i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         sum = 0;
         for (double nn=1; nn<=5; nn++) {
             reg=1;
             for (double ii=1; ii<=nn; ii++)
                 reg*=nn*ii;
             sum+=reg;
         }
         reg=sum;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 74:
         n = new Argument("n");
         RecursiveArgument fib = new RecursiveArgument("fib","fib(n-1)+fib(n-2)",n);
         fib.addBaseCase(0, 0);
         fib.addBaseCase(1, 1);
         expStr = "sum(n,0,5,fib(n))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,fib);
         value = exp[testId].calculate();
         reg = 12;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 75:
         n = new Argument("n");
         RecursiveArgument fact = new RecursiveArgument("fact","n*fact(n-1)",n);
         fact.addBaseCase(0, 1);
         expStr = "5!-fact(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,fact);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 76:
         x = new Argument("x",2);
         expStr = "cos(x)-der(sin(x),x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 77:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "-sin(x+y)-der(der(sin(x+y),x),y)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 78:
         x = new Argument("x",2);
         y = new Argument("y",3);
         expStr = "cos(x*y)-x*y*sin(x*y)-der(der(sin(x*y),x),y)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x,y);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 79:
         n = new Argument("n",-5);
         expStr = "C(n,2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n);
         value = exp[testId].calculate();
         reg = 15;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 80:
         x = new Argument("x",0);
         expStr = "der+(abs(x),x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 1;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 81:
         x = new Argument("x",0);
         expStr = "der-(abs(x),x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = -1;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 82:
         x = new Argument("x",4);
         expStr = "cos(x)-der(sum(n,0,10,(-1)^n*(x^(2*n+1))/(2*n+1)!),x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(value - reg) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 83:
         n = new Argument("n",7);
         k = new Argument("k",4);
         expStr = "C(n,k) - ( C(n-1,k-1)+C(n-1,k) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 84:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) - prod(i,1,k,n-i+1) / prod(i,1,k,i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 85:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) - prod(i,1,k,(n-i+1)/i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 86:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) - C(n,n-k)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 87:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,0)+C(n,n)+C(0,0)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 3;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 88:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k+1)-C(n,k)*(n-k)/(k+1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 89:
         n = new Argument("n",13);
         expStr = "2^n-sum(k,0,n,C(n,k))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 90:
         n = new Argument("n",13);
         expStr = "C(2*n,n)-sum(k,0,n,C(n,k)^2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 91:
         n = new Argument("n",13);
         expStr = "sum(k,0,n,(-1)^k*C(n,k))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 92:
         n = new Argument("n",13);
         m = new Argument("m",3);
         s = new Argument("s",5);
         r = new Argument("r",4);
         expStr = "C(r+s,m+n)-sum(k,0,n,C(r,m+k)*C(s,n-k))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,m,r,s);
         value = exp[testId].calculate();
         reg = 0;
         if (value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 93:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k)-(n/k)*C(n-1,k-1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 94:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "(n-k)*C(n,k)-n*C(n-1,k)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 95:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) <= n^k/k!";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 96:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) <= (n*e/k)^k";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 97:
         n = new Argument("n",13);
         k = new Argument("k",6);
         expStr = "C(n,k) >= (n/k)^k";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,n,k);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 98:
         x = new Argument("x",3);
         expStr = "sin(3)-sin(2)-int(cos(x),x,2,3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value-reg) <= 0.00001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 99:
         i = new Argument("i", 5);
         expStr = "2*i+sum(i,1,10,i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,i);
         value = exp[testId].calculate();
         reg = 65;
         if ( value == reg)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 100:
         x = new Argument("x",3);
         expStr = "sin(x)-sin(x-1)-int(cos(x),x,2,3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value-reg) <= 0.00001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 101:
         f = new Function("mg", "sin(x)+cos(y)", "x", "y");
         x = new Argument("x", 3);
         y = new Argument("y", 2);
         expStr = "sin(x)+cos(y)-mg(x,y)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,x, y);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 102:
         f = new Function("mg", "sin(x)+cos(y)", "x", "y");
         expStr = "der(sin(x)+cos(y),x)-der(mg(x,y),x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr,new Argument("x", 3), new Argument("y", 2));
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 103:
         f = new Function("f", "x^2", "x");
         g = new Function("g", "f(x)^2", "x");
         g.addDefinitions(f);
         expStr = "g(x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(g);
         value = exp[testId].calculate();
         reg = 81;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 104:
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         expStr = "der( f(x)*g(x), x) - ( der(f(x), x)*g(x) + f(x)*der(g(x), x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 105:
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         expStr = "der( f(x)/g(x), x) - ( der(f(x), x)*g(x) - f(x)*der(g(x), x) )/g(x)^2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 106:
         f = new Function("f", "sin(x)", "x");
         expStr = "der( int(f(t), t, 0, x), x) - f(x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 107:
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         expStr = "der(f(x)+g(x), x) - ( der(f(x), x) + der(g(x),x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 108:
         Argument a = new Argument("a",2);
         Argument b = new Argument("b",2);
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         expStr = "der(a*f(x)+b*g(x), x) - ( a*der(f(x), x) + b*der(g(x),x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3), a, b);
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 109:
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         h = new Function("h", "x^2", "x");
         expStr = "der(f(x)*g(x)*h(x), x) - ( der(f(x), x)*g(x)*h(x) + f(x)*der(g(x), x)*h(x) + f(x)*g(x)*der(h(x), x))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f, g, h);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 110:
         f = new Function("f", "sin(x)", "x");
         expStr = "der(ln(f(x)), x) - der(f(x), x) / f(x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 111:
         f = new Function("f", "sin(x)", "x");
         a = new Argument("a",Math.PI);
         expStr = "der( f(x)^a, x) - a*f(x)^(a-1)*der(f(x), x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3),a);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 112:
         f = new Function("f", "sin(x)^2", "x");
         g = new Function("g", "cos(x)^2", "x");
         expStr = "der( f(x)^g(x), x) - f(x)^g(x)*( der(f(x), x)*g(x)/f(x) + der(g(x), x)*ln(f(x)) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, new Argument("x", 3));
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 113:
         f = new Function("f", "sin(x)", "x");
         g = new Function("g", "cos(x)", "x");
         h = new Function("h", "int(f(t),t,0,x)", "x");
         h.addDefinitions(f);
         a = new Argument("a", 2);
         b = new Argument("b", 4);
         x = new Argument("x", 3);
         expStr = "int(f(x)*g(x),x,a,b) - ( h(b)*g(b)-h(a)*g(a) - int( h(x)*der(g(x),x), x, a, b) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, a, b);
         exp[testId].addDefinitions(f, g, h);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 114:
         f = new Function("f", "ln(x)", "x");
         g = new Function("g", "x^2+2", "x");
         x = new Argument("x", 10);
         t = new Argument("t", "g(x)", x);
         t.addDefinitions(g);
         expStr = "der( f(g(x)), x) - der( f(t), t)*der( g(x), x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, t);
         exp[testId].addDefinitions(f, g);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 115:
         n = new Argument("n");
         RecursiveArgument fact1 = new RecursiveArgument("fact1", "n*fact1(n-1)", n);
         fact1.addBaseCase(0, 1);
         RecursiveArgument fact2 = new RecursiveArgument("fact2", "if(n>0, n*fact2(n-1), 1)", n);
         expStr = "sum(i,0,10,fact1(i)-fact2(i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, fact1, fact2);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 116:
         n = new Argument("n");
         RecursiveArgument fib1 = new RecursiveArgument("fib1", "fib1(n-1)+fib1(n-2)", n);
         fib1.addBaseCase(0, 0);
         fib1.addBaseCase(1, 1);
         RecursiveArgument fib2 = new RecursiveArgument("fib2", "if( n>1, fib2(n-1)+fib2(n-2), if(n=1,1,0) )", n);
         expStr = "sum(i,0,10,fib1(i)-fib2(i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, fib1, fib2);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 117:
         Function Cnk = new Function("Cnk","if( k>0, if( k<n, Cnk(n-1,k-1)+Cnk(n-1,k), 1), 1)","n", "k");
         expStr = "C(10,5)-Cnk(10,5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(Cnk);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 118:
         n = new Argument("n");
         fib1 = new RecursiveArgument("fib1", "fib1(n-1)+fib1(n-2)", n);
         fib1.addBaseCase(0, 0);
         fib1.addBaseCase(1, 1);
         fib2 = new RecursiveArgument("fib2", "if( n>1, fib2(n-1)+fib2(n-2), if(n>0,1,0) )", n);
         Function fib3 = new Function("fib3","if(n>1, fib3(n-1)+fib3(n-2), if(n>0,1,0))","n");
         expStr = "sum(i,1,10,(fib1(i) = fib2(i)) & (fib2(i) = fib3(i)) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, fib1, fib2);
         exp[testId].addDefinitions(fib3);
         value = exp[testId].calculate();
         reg = 10;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 119:
         m = new Argument("m");
         n = new Argument("n", "m-1", m);
         x = new Argument("x",3);
         Function H = new Function("H","if(m>1, 2*x*H(n,x)-2*n*H(n-1,x), if(m>0, 2*x, 1) )", m, x, n);
         H.setParametersNumber(2);
         expStr = "H(0,x) + H(1,x) + H(2,x) + H(3,x) - ( (1) + (2*x) + (4*x^2-2) + (8*x^3-12*x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         exp[testId].addDefinitions(H);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 120:
         m = new Argument("m",4);
         n = new Argument("n", "m-1", m);
         x = new Argument("x",3);
         H = new Function("H","if(m>1, 2*x*H(n,x)-2*n*H(n-1,x), if(m>0, 2*x, 1) )", m, x, n);
         H.setParametersNumber(2);
         k = new Argument("k",5);
         expStr = "der( H(k,x), x) - 2*k*H(k-1,x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x,k );
         exp[testId].addDefinitions(H);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 121:
         Function T = new Function("T","if(k>1, 2*x*T(k-1,x)-T(k-2,x), if(k>0, x, 1) )", "k", "x");
         k = new Argument("k",5);
         x = new Argument("x",3);
         expStr = "T(k,x) - ( (x + sqrt(x^2-1))^k + (x - sqrt(x^2-1))^k)/2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x,k );
         exp[testId].addDefinitions(T);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 122:
         Function T1 = new Function("T1","if(k>1, 2*x*T1(k-1,x)-T1(k-2,x), if(k>0, x, 1) )", "k", "x");
         Function T2 = new Function("T2","if(x >= 1, cosh(k*arcosh(x)), if(x <= -1, ((-1)^k)*cosh(k*arcosh(-x)), cos(k*acos(x))) )", "k", "x");
         k = new Argument("k",5);
         expStr = "T1(k,3)-T2(k,3) + T1(k,-3)-T2(k,-3) + T1(k,-0.5)-T2(k,-0.5) + T1(k,0.5)-T2(k,0.5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, k);
         exp[testId].addDefinitions(T1, T2);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) <= 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 123:
         expStr = "pi+e+[g]+[p]+[r]+[B*]+[D]+[a]+[C2]+[M1]+[B2]+[B4]+[L]+[K]+[K*]+[K.]+[B'L]+[m]+[EB]+[B]+[l]+[s]+[lm]+[C]+[Ll]+[AG]+[L*]+[L.]+[Dz3]+[T]+[Bh]+[Pt]+[L2]+[Nv]+[Ks]+[Kh]+[F]+[La]+[P2]+[O]+[M]+[li2]+[G]";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.14159265358979323846264338327950288 + /*Pi,Archimedes'constantorLudolph'snumber*/
             2.71828182845904523536028747135266249 + /*Napier'sconstant,orEuler'snumber,baseofNaturallogarithm*/
             0.57721566490153286060651209008240243 + /*Euler-Mascheroniconstant*/
             1.61803398874989484820458683436563811 + /*Goldenratio*/
             1.32471795724474602596090885447809734 + /*Plasticconstant*/
             0.70258 + /*Embree-Trefethenconstant*/
             4.66920160910299067185320382046620161 + /*Feigenbaumconstant*/
             2.50290787509589282228390287321821578 + /*Feigenbaumconstant*/
             0.66016181584686957392781211001455577 + /*Twinprimeconstant*/
             0.26149721284764278375542683860869585 + /*Meissel-Mertensconstant*/
             1.9021605823 + /*Brun'sconstantfortwinpr imes*/
             0.8705883800 + /*Brun'sconstantforprimequadruplets*/
             -2.7E-9 + /*deBruijn-Newmanconstant*/
             0.91596559417721901505460351493238411 + /*Catalan'sconstant*/
             0.76422365358922066299069873125009232 + /*Landau-Ramanujanconstant*/
             1.13198824 + /*Viswanath'sconstant*/
             1 + /*Legendre'sconstant*/
             1.45136923488338105028396848589202744 + /*Ramanujan-Soldnerconstant*/
             1.60669515241529176378330152319092458 + /*Erdős-Borweinconstant*/
             0.28016949902386913303 + /*Bernstein'sconstant[29]*/
             0.30366300289873265859744812190155623 + /*Gauss-Kuzmin-Wirsingconstant*/
             0.35323637185499598454 + /*Hafner-Sarnak-McCurleyconstant*/
             0.62432998854355087099293638310083724 + /*Golomb-Dickmanconstant*/
             0.6434105463 + /*Cahen'sconstant*/
             0.66274341934918158097474209710925290 + /*Laplacelimit*/
             0.8093940205 + /*Alladi-Grinsteadconstant[30]*/
             1.0986858055 + /*Lengyel'sconstant[31]*/
             3.27582291872181115978768188245384386 + /*Lévy'sconstant*/
             1.20205690315959428539973816151144999 + /*Apéry'sconstant*/
             1.30637788386308069046861449260260571 + /*Mills'constant*/
             1.45607494858268967139959535111654356 + /*Backhouse'sconstant[32]*/
             1.4670780794 + /*Porter'sconstant[33]*/
             1.5396007178 + /*Lieb'ssquareiceconstant[34]*/
             1.70521114010536776428855145343450816 + /*Niven'sconstant*/
             2.58498175957925321706589358738317116 + /*Sierpiński'sconstant*/
             2.68545200106530644530971483548179569 + /*Khinchin'sconstant*/
             2.80777024202851936522150118655777293 + /*Fransén-Robinsonconstant*/
             0.5 + /*Landau'sconstant*/
             2.29558714939263807403429804918949039 + /*Parabolicconstant*/
             0.56714329040978387299996866221035555 + /*Omegaconstant*/
             0.187859 + /*MRBconstant*/
             1.045163780117492784844588889194613136522615578151 + /* l2(2) */
             0.596347362323194074341078499369279376074 /* Gompertz Constant */
         ;
             if ( MathFunctions.abs(value - reg) <= 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 124:
         m = new Argument("m",4);
         n = new Argument("n", "m-1", m);
         x = new Argument("x",3);
         H = new Function("H","if(m>1, 2*x*H(n,x)-2*n*H(n-1,x), if(m>0, 2*x, 1) )", m, x, n);
         H.setParametersNumber(2);
         k = new Argument("k",5);
         expStr = "der( H(k,x), x) - 2*k*H(k-1,x)";
         exp[testId] = new Expression(expStr, x,k );
         exp[testId].addDefinitions(H);
         syn1 = exp[testId].checkSyntax();
         m.setArgumentName("m");
         if ((syn1) && (exp[testId].getSyntaxStatus() == Expression.SYNTAX_ERROR_OR_STATUS_UNKNOWN))
             testResult = true;
         mXparser.consolePrint(exp[testId].getErrorMessage() + " reg ... " + "Syntax status unknown." + " --> ");
         break;
     case 125:
         expStr = "2==2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 126:
         expStr = "2 != 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 127:
         expStr = "2 ~= 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 128:
         expStr = "1 && 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 129:
         expStr = "1 || -1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 130:
         expStr = "~1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 131:
         expStr = "2+~(1-1)!";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 132:
         x = new Argument("x",2);
         expStr = "if( int(2*x,x,0,pi) > 0 , 1, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 133:
         x = new Argument("x",2);
         expStr = "if( -int(2*x,x,0,pi) > 0 , 1, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 134:
         mXparser.setEpsilon(0.00000001);
         expStr = "sum(n, 0, 10, if ( if( sin(n*pi/2) > 0, 1, 2) >= 2, 4, 2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 38;
         if ( value == reg )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 135:
         expStr = "sin(0)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 136:
         expStr = "cos(0) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 137:
         expStr = "tan(0) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 138:
         expStr = "tg(0) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 139:
         expStr = "ctan(pi/2) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 140:
         expStr = "ctg(pi/2) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 141:
         expStr = "cot(pi/2) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 142:
         expStr = "sec(0) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 143:
         expStr = "cosec(pi/2) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 144:
         expStr = "csc(pi/2) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 145:
         expStr = "asin(0.5) - pi/6";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 146:
         expStr = "arsin(0) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 147:
         expStr = "arcsin(1) - pi/2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 148:
         expStr = "acos(0) - pi/2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 149:
         expStr = "arcos(0.5) - pi/3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 150:
         expStr = "arccos(-1) - pi";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 151:
         expStr = "atan(0) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 152:
         expStr = "arctan(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 153:
         expStr = "atg(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 154:
         expStr = "arctg(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 155:
         expStr = "actan(0) - pi/2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 156:
         expStr = "arcctan(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 157:
         expStr = "actg(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 158:
         expStr = "arcctg(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 159:
         expStr = "acot(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 160:
         expStr = "arccot(1) - pi/4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 161:
         expStr = "ln(e) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 162:
         expStr = "ln(e^2) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 163:
         expStr = "log2(8) - 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 164:
         expStr = "log10(1000) - 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 165:
         expStr = "rad(180) - pi";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 166:
         expStr = "exp(2) - e^2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 167:
         expStr = "sqrt(25) - 5";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 168:
         expStr = "sinh(ln([p])) - 0.5";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 169:
         expStr = "cosh(ln([p])) - 0.5*sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 170:
         expStr = "tanh(ln([p])) - 1/sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 171:
         expStr = "tgh(ln([p])) - 1/sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 172:
         expStr = "ctanh(ln([p])) - sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 173:
         expStr = "coth(ln([p])) - sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 174:
         expStr = "ctgh(ln([p])) - sqrt(5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 175:
         expStr = "sech(ln([p])) - 1/(0.5*sqrt(5))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 176:
         expStr = "csch(ln([p])) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 177:
         expStr = "cosech(ln([p])) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 178:
         expStr = "deg(pi) - 180";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 179:
         expStr = "abs(-1) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 180:
         expStr = "sgn(1) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 181:
         expStr = "sgn(0) - 0";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 182:
         expStr = "floor(1.2) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 183:
         expStr = "floor(1.9) - 1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 184:
         expStr = "floor(-1.9) - (-2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 185:
         expStr = "ceil(1.2) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 186:
         expStr = "ceil(1.9) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 187:
         expStr = "ceil(-1.2) - (-1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 188:
         expStr = "asinh(0.5) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 189:
         expStr = "arsinh(0.5) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 190:
         expStr = "acosh(0.5*sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 191:
         expStr = "arcosh(0.5*sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 192:
         expStr = "arccosh(0.5*sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 193:
         expStr = "atanh(1/sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 194:
         expStr = "arctanh(1/sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 195:
         expStr = "atgh(1/sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 196:
         expStr = "arctgh(1/sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 197:
         expStr = "actanh(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 198:
         expStr = "arcctanh(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 199:
         expStr = "acoth(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 200:
         expStr = "arcoth(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 201:
         expStr = "arccoth(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 202:
         expStr = "actgh(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 203:
         expStr = "arcctgh(sqrt(5)) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 204:
         expStr = "asech(1/(0.5*sqrt(5))) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 205:
         expStr = "arsech(1/(0.5*sqrt(5))) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 206:
         expStr = "arcsech(1/(0.5*sqrt(5))) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 207:
         expStr = "acsch(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 208:
         expStr = "arcsch(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 209:
         expStr = "arccsch(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 210:
         expStr = "acosech(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 211:
         expStr = "arcosech(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 212:
         expStr = "arccosech(2) - ln([p])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 213:
         expStr = "log(2,8) - 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 214:
         expStr = "min(2,3) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 215:
         expStr = "max(2,3) - 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 216:
         expStr = "mod(10,6) - 4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 217:
         expStr = "if(1,2,3) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 218:
         expStr = "if(0,2,3) - 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 219:
         expStr = "iff(1, 2) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 220:
         expStr = "iff(0, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Double.NaN;
         if ( Double.IsNaN(value) )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 221:
         expStr = "iff(0, 2, 1, 2) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 222:
         expStr = "iff(0, 2, 1, 2, 3, 4) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 223:
         expStr = "iff(0, 2, 1, 2, 0, 4) - 2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 224:
         expStr = "iff(0, 2, 0, 2, 1, 4) - 4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(value - reg) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 225:
         expStr = "iff(0, 2, 0, 2, 0, 4)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = Double.NaN;
         if ( Double.IsNaN(value) )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 226:
         x = new Argument("x", 2);
         expStr = "Sinc(x) - prod(n, 1, 16, cos(x / 2^n) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 227:
         x = new Argument("x", 2);
         expStr = "sinc(x) - prod(n, 1, 100, (1 - x^2 / n^2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 228:
         x = new Argument("x", 2);
         expStr = "Sa(x) - prod(n, 1, 100, (1 - x^2 / n^2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 229:
         n = new Argument("n", 10);
         expStr = "Bell(n) - sum(k, 0, n, Stirl2(n,k) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, n);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 230:
         n = new Argument("n", 10);
         k = new Argument("k", 5);
         expStr = "Worp(n, k) - k! * Stirl2(n+1, k+1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, n, k);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 231:
         n = new Argument("n", 10);
         expStr = "Bern(n,0) - sum(k, 0, n, ( (-1)^k )* ( Worp(n, k) / ( k+1 ) ) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, n);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 232:
         n = new Argument("n", 15);
         k = new Argument("k", 5);
         expStr = "sum(p, k, n, Stirl1(n, p) * C(p,k)) - Stirl1(n+1, k+1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, n, k);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 233:
         expStr =
                     "chi(1, 0, 2) + " +
                     "CHi(1, 0, 2) + " +
                     "Chi(1, 0, 2) + " +
                     "cHi(1, 0, 2) + " +
                     "chi(0, 0, 2) + " +
                     "CHi(0, 0, 2) + " +
                     "Chi(0, 0, 2) + " +
                     "cHi(0, 0, 2) + " +
                     "chi(2, 0, 2) + " +
                     "CHi(2, 0, 2) + " +
                     "Chi(2, 0, 2) + " +
                     "cHi(2, 0, 2)"
                     ;
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 8;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 234:
         expStr = "2 + 10%7 + 3";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 8;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 235:
         x = new Argument("x", 5);
         expStr = "int( chi(t, 0, x), t, 0, x) - x";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 236:
         x = new Argument("x", 5);
         expStr = "int( CHi(t, 0, x), t, 0, x) - x";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 237:
         x = new Argument("x", 5);
         expStr = "int( Chi(t, 0, x), t, 0, x) - x";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 238:
         x = new Argument("x", 5);
         expStr = "int( cHi(t, 0, x), t, 0, x) - x";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 239:
         expStr = "ConFrac(1,2,3,5,6,7) - ConPol(1,2,3,4,5,6,7) / ConPol(2,3,4,5,6,7)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 240:
         expStr = "min(1,2,3,4,5,-5,343,3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -5;
         if ( MathFunctions.abs(reg - value) < 0.0001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 241:
         expStr = "max(1,2,3,4,5,-5,343,3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 343;
         if ( MathFunctions.abs(reg - value) < 0.000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 242:
         x = new Argument("x", 0.5);
         expStr = "ConPol(x,x,x,x,x,x) - sum(k, 0, 6, C(6-k, k) * x^(6-2*k))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 243:
         m = new Argument("m", 5);
         n = new Argument("n", 10);
         expStr = "Euler(n,m) -  sum(k,0,m, C(n+1,k)*((m+1-k)^n)*(-1)^k)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, n, m);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 244:
         x = new Argument("x", 2);
         f = new Function("f", "sin(x)+cos(x)", "x");
         expStr = "diff(f(x), x) - ( f(x+1)-f(x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 245:
         x = new Argument("x", 2);
         Argument dh = new Argument("h", 1);
         f = new Function("f", "sin(x)+cos(x)", "x");
         expStr = "diff(f(x), x, h/2) - ( f(x+h/2)-f(x) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, dh);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 246:
         x = new Argument("x", 2);
         f = new Function("f", "sin(x)+cos(x)", "x");
         expStr = "difb(f(x), x) - ( f(x)-f(x-1) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 247:
         x = new Argument("x", 2);
         dh = new Argument("h", 1);
         f = new Function("f", "sin(x)+cos(x)", "x");
         expStr = "difb(f(x), x, h/2) - ( f(x)-f(x-h/2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, dh);
         exp[testId].addDefinitions(f);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 248:
         Function fibr = new Function("fib","if(n>1, fib(n-1)+fib(n-2), if(n>0,1,0))","n");
         expStr = "sum(i,0,10,Fib(i) - fib(i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(fibr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 249:
         Function luc = new Function("luc","if(n>1, luc(n-1)+luc(n-2), if(n>0,1,2))","n");
         expStr = "sum(i,0,10,Luc(i) - luc(i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(luc);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 250:
         expStr = "sum(i,1,10,harm(i)) - sum(i,1,10,sum(k,1,i,1/k))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 251:
         Constant p = new Constant("p",0);
         Constant q = new Constant("q",1);
         expStr = "p -> q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 252:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p <- q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 253:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p <- q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 254:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p <-> q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 255:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p (+) q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 256:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p /\\ q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 257:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p \\/ q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 258:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~& q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 259:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~&& q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 260:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~/\\ q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 261:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~| q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 262:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~|| q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 263:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "p ~\\/ q";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 264:
         p = new Constant("p",0);
         q = new Constant("q",1);
         Constant rr = new Constant("r",1);
         expStr = "(p /\\ q) \\/ (~p) \\/ (~q)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q, rr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 265:
         p = new Constant("p",0);
         q = new Constant("q",1);
         rr = new Constant("r",1);
         expStr = "(p -> q) <-> (~q -> ~p)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q, rr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 266:
         p = new Constant("p",0);
         q = new Constant("q",1);
         rr = new Constant("r",1);
         expStr = "( (p -> q) /\\ (q -> r) ) -> (p -> r)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q, rr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 267:
         p = new Constant("p",0);
         q = new Constant("q",1);
         rr = new Constant("r",1);
         expStr = "( (p \\/ q) /\\ (p -> r) /\\ (q -> r) ) -> r";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q, rr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 268:
         p = new Constant("p",0);
         q = new Constant("q",1);
         expStr = "~(p /\\ q) <-> (~p \\/ ~q)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(p, q);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 269:
         expStr = "gcd(1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 270:
         expStr = "gcd(12,9)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 271:
         expStr = "gcd(12,6,18)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 6;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 272:
         expStr = "lcm(1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 273:
         expStr = "lcm(12,9)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 36;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 274:
         expStr = "lcm(12,6,18)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 36;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 275:
         expStr = "sum(i,1,10,harm(i)) - sum(i,1,10,Harm(1,i))";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 276:
         expStr = "1/4*2";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.5;
         if (MathFunctions.abs(reg - value) < 0.00001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 277:
         expStr = "n1_geq_2(0)";
         Constant c1 = new Constant("c1", 0.25+0.01);
         RecursiveArgument z1 = new RecursiveArgument("z1","z1(n-1)^2+c1", "n");
         z1.addDefinitions(c1);
         z1.addBaseCase(0, 0);
         Function n1_geq_2 = new Function("n1_geq_2", "if( z1(k) > 2, k, n1_geq_2(k+1) )", "k");
         n1_geq_2.addDefinitions(z1);
         mXparser.consolePrint(c1.getConstantName() + " = " + c1.getConstantValue() + " ; " + z1.getArgumentName() + " = " + z1.getArgumentExpressionString() + " ; " + n1_geq_2.getFunctionName() + " = " + n1_geq_2.getFunctionExpressionString() + " ; " + expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(n1_geq_2);
         value = exp[testId].calculate();
         reg = 30;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 278:
         expStr = "n2_geq_2(0)";
         Constant c2 = new Constant("c2", 0.25+0.01);
         Function z2 = new Function("z2","if( n>0, z2(n-1)^2+c2, 0)", "n");
         z2.addDefinitions(c2);
         Function n2_geq_2 = new Function("n2_geq_2", "if( z2(k) > 2, k, n2_geq_2(k+1) )", "k");
         n2_geq_2.addDefinitions(z2);
         mXparser.consolePrint(c2.getConstantName() + " = " + c2.getConstantValue() + " ; " + z2.getFunctionName() + " = " + z2.getFunctionExpressionString() + " ; " + n2_geq_2.getFunctionName() + " = " + n2_geq_2.getFunctionExpressionString() + " ; " + expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(n2_geq_2);
         value = exp[testId].calculate();
         reg = 30;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 279:
         expStr = "n1_geq_2(0) - n2_geq_2(0)";
         c1 = new Constant("c1", 0.25+0.01);
         z1 = new RecursiveArgument("z1","z1(n-1)^2+c1", "n");
         z1.addDefinitions(c1);
         z1.addBaseCase(0, 0);
         n1_geq_2 = new Function("n1_geq_2", "if( z1(k) > 2, k, n1_geq_2(k+1) )", "k");
         n1_geq_2.addDefinitions(z1);
         c2 = new Constant("c2", 0.25+0.01);
         z2 = new Function("z2","if( n>0, z2(n-1)^2+c2, 0)", "n");
         z2.addDefinitions(c2);
         n2_geq_2 = new Function("n2_geq_2", "if( z2(k) > 2, k, n2_geq_2(k+1) )", "k");
         n2_geq_2.addDefinitions(z2);
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(n1_geq_2, n2_geq_2);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 280:
         expStr = "sum(i, 1, 20, IsPrime(i) )";
         Function IsFactor = new Function("IsFactor", "if( a>b, 0, if( n%a = 0, 1, IsFactor(n, a+1, b) ) )", "n", "a", "b");
         Function IsPrime = new Function("IsPrime", "if( n<2, 0, ~IsFactor(n, 2, sqrt(n)) )", "n");
         IsPrime.addDefinitions(IsFactor);
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(IsPrime);
         value = exp[testId].calculate();
         reg = 8;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 281:
         expStr = "abs( sin(0.5)-s(0.5))+abs( cos(0.7)-c(0.7) )";
         Constant aa = new Constant("a", 0.00001);
         Function ss = new Function("s", "if( abs(x) < a, x, 2*s(x/2)*c(x/2) )", "x");
         Function cc = new Function("c", "if( abs(x) < a, 1, c(x/2)^2 - s(x/2)^2 )", "x");
         ss.addDefinitions(aa);
         ss.addDefinitions(cc);
         cc.addDefinitions(aa);
         cc.addDefinitions(ss);
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(ss, cc);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 282:
         expStr = "f1(1,2)-f2(1,2)";
         Function f1 = new Function("f1", "sin(x)+cos(y)", "x", "y");
         Function f2 = new Function("f2(x,y) = sin(x)+cos(y)");
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         exp[testId].addDefinitions(f1, f2);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 283:
         expStr = "a = 5.1, expr = 2*a";
         Constant a1 = new Constant("a = 5.1");
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression("2*a");
         exp[testId].addDefinitions(a1);
         value = exp[testId].calculate();
         reg = 10.2;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 284:
         expStr = "a = sin(pi/2), expr = a";
         Constant a2 = new Constant("a = sin(pi/2)");
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression("a");
         exp[testId].addDefinitions(a2);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 285:
         expStr = "fib(n)= fib(n-1)+fib(n-2), fib(10) = ";
         RecursiveArgument fib10 = new RecursiveArgument("fib(n)= fib(n-1)+fib(n-2)");
         fib10.addBaseCase(0, 0);
         fib10.addBaseCase(1, 1);
         exp[testId] = new Expression("fib(10)", fib10);
         value = exp[testId].calculate();
         reg = 55;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 286:
         expStr = "fib(n) = if(n>1, fib(n-1) + fib(n-2), if(n = 1, 1, 0)), fib(10) = ";
         Function fibb = new Function("fib(n) = if(n>1, fib(n-1) + fib(n-2), if(n = 1, 1, 0))");
         exp[testId] = new Expression("fib(10)", fibb);
         value = exp[testId].calculate();
         reg = 55;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 287:
         expStr = "5^2 * 7^3 * 11^1 * 67^1 * 49201^1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         String hello = mXparser.numberToAsciiString(exp[testId].calculate());
         String regHello = "Hello";
         if ( regHello.Equals(hello) )
             testResult = true;
         mXparser.consolePrint(hello + " reg ... " + regHello + " --> ");
         break;
     case 288:
         expStr = "71^1 * 218549^1 * 6195547^1";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         String world = mXparser.numberToAsciiString(exp[testId].calculate());
         String regWorld = "World!";
         if ( regWorld.Equals(world) )
             testResult = true;
         mXparser.consolePrint(world + " reg ... " + regWorld + " --> ");
         break;
     case 289:
         expStr = "min(3,4)+max(-2,-1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 290:
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 291:
         mXparser.initPrimesCache(50);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 292:
         mXparser.initPrimesCache(55);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 293:
         mXparser.initPrimesCache(97);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 294:
         mXparser.initPrimesCache(99);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 295:
         mXparser.initPrimesCache(101);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 296:
         mXparser.initPrimesCache(999);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 297:
         mXparser.initPrimesCache(2000);
         expStr = "sum(i, 0, 1000, ispr(i) )";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 298:
         mXparser.setNoPrimesCache();
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 299:
         mXparser.initPrimesCache(50);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 300:
         mXparser.initPrimesCache(55);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 301:
         mXparser.initPrimesCache(97);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 302:
         mXparser.initPrimesCache(99);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 303:
         mXparser.initPrimesCache(101);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 304:
         mXparser.initPrimesCache(999);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 305:
         mXparser.initPrimesCache(2000);
         expStr = "Pi(1000)";
         mXparser.consolePrint(expStr + " primes cache size: " + mXparser.getMaxNumInPrimesCache() + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 168;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 306:
         expStr = "Ei( ln([m]) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 307:
         expStr = "-e*Ei(-1) - [G]";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 308:
         expStr =	"abs( Ei(-1)  / (0.219383934395520274 * 10^0 ) ) + " +
                     "abs( Ei(-4)  / (0.377935240984890648 * 10^-2 ) ) + " +
                     "abs( Ei(-6)  / (0.360082452162658659 * 10^-3 ) ) + " +
                     "abs( Ei(-8)  / (0.376656228439249018 * 10^-4 ) ) + " +
                     "abs( Ei(-11) / (0.140030030424744178 * 10^-5 ) ) + " +
                     "abs( Ei(-16) / (0.664048724944104278 * 10^-8 ) ) + " +
                     "abs( Ei(-21) / (0.345320126714675627 * 10^-10 ) ) + " +
                     "abs( Ei(-26) / (0.189468588567497824 * 10^-12 ) ) + " +
                     "abs( Ei(-31) / (0.107676703861623826 * 10^-14 ) ) + " +
                     "abs( Ei(-36) / (0.627333900976224159 * 10^-17 ) ) + " +
                     "abs( Ei(-41) / (0.372316677645997772 * 10^-19 ) ) + " +
                     "abs( Ei(-46) / (0.224153175974429975 * 10^-21 ) ) + " +
                     "abs( Ei(-50) / (0.378326402955045902 * 10^-23 ) ) + " +
                     "abs( Ei(1)  / (0.189511781635593676 * 10^1 ) ) + " +
                     "abs( Ei(4)  / (0.196308744700562200 * 10^2 ) ) + " +
                     "abs( Ei(6)  / (0.859897621424392048 * 10^2 ) ) + " +
                     "abs( Ei(8)  / (0.440379899534838269 * 10^3 ) ) + " +
                     "abs( Ei(11) / (0.607140637409861151 * 10^4 ) ) + " +
                     "abs( Ei(16) / (0.595560998670837002 * 10^6 ) ) + " +
                     "abs( Ei(21) / (0.661271863554849213 * 10^8 ) ) + " +
                     "abs( Ei(26) / (0.784294099189818637 * 10^10 ) ) + " +
                     "abs( Ei(31) / (0.969455575968393966 * 10^12 ) ) + " +
                     "abs( Ei(36) / (0.123285207991209769 * 10^15 ) ) + " +
                     "abs( Ei(41) / (0.160066491432450411 * 10^17 ) ) + " +
                     "abs( Ei(46) / (0.211134238864782419 * 10^19 ) ) + " +
                     "abs( Ei(50) / (0.105856368971316910 * 10^21 ) ) - 26"
                     ;
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.000000000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 309:
         expStr = "sum(x; -11; 11; [g] + ln(abs(x)) + sum(k, 1, 50, x^k / (k*k!)) - Ei(x), 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 310:
         expStr = "Li(0) + [li2]";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if ( MathFunctions.abs(reg - value) < 0.0000001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 311:
         mXparser.initPrimesCache(10000000);
         expStr = "Pi(10000000) / Li(10000000)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 312:
         x = new Argument("x = 100000000");
         expStr = "( ( x / ln(x) ) * sum(k, 0, 20, k! / ln(x)^k ) ) / li(x)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 1;
         if ( MathFunctions.abs(reg - value) < 0.00001 )
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 313:
         Function fefe = new Function("fefe(x)=2*x");
         expStr = "fefe(2) + fefe(3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, fefe);
         value = exp[testId].calculate();
         reg = 10;
         if (MathFunctions.abs(reg - value) < 0.00001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 314:
         expStr = "add(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 55;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 315:
         expStr = "multi(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3628800;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 316:
         expStr = "mean(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 5.5;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 317:
         expStr = "var(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 9.166666667;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 318:
         expStr = "std(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.027650354;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 319:
         expStr = "avg(i, 1, 10, i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 5.5;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 320:
         expStr = "vari(i, 1, 10, i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 9.166666667;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 321:
         expStr = "stdi(i, 1, 10, i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.027650354;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 322:
         expStr = "mini(i, -10, 10, i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -10;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 323:
         expStr = "maxi(i, -10, 10, i)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10;
         if (MathFunctions.abs(reg - value) < 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 324:
         expStr = "maxi(i, 1, 100000, [Uni])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 325:
         expStr = "mini(i, 1, 100000, [Uni])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 326:
         expStr = "avg(i, 1, 100000, [Uni])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.5;
         if (MathFunctions.abs(reg - value) < 1)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 327:
         expStr = "vari(i, 1, 100000, [Uni])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1.0 / 12.0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 328:
         expStr = "stdi(i, 1, 100000, [Uni])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = MathFunctions.sqrt(1.0 / 12.0);
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 329:
         expStr = "maxi(i, 1, 100000, [Int1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 330:
         expStr = "mini(i, 1, 100000, [Int1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -10;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 331:
         expStr = "avg(i, 1, 100000, [Int1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 1)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 332:
         expStr = "vari(i, 1, 100000, [Int1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = (MathFunctions.power(21.0, 2) - 1) / 12.0;
         if (MathFunctions.abs(reg - value) < 1)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 333:
         expStr = "stdi(i, 1, 100000, [Int1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = MathFunctions.sqrt((MathFunctions.power(21.0, 2) - 1) / 12.0);
         if (MathFunctions.abs(reg - value) < 0.1)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 334:
         expStr = "maxi(i, 1, 100000, [Int2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 335:
         expStr = "mini(i, 1, 100000, [Int2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -100;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 336:
         expStr = "maxi(i, 1, 1000000, [Int3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 337:
         expStr = "mini(i, 1, 1000000, [Int3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 338:
         expStr = "maxi(i, 1, 10000000, [Int4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 339:
         expStr = "mini(i, 1, 10000000, [Int4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -10000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 340:
         expStr = "maxi(i, 1, 10000000, [Int5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000;
         if (MathFunctions.abs(reg - value) <= 10)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 341:
         expStr = "mini(i, 1, 10000000, [Int5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -100000;
         if (MathFunctions.abs(reg - value) <= 10)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 342:
         expStr = "maxi(i, 1, 10000000, [Int6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000;
         if (MathFunctions.abs(reg - value) <= 100)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 343:
         expStr = "mini(i, 1, 10000000, [Int6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -1000000;
         if (MathFunctions.abs(reg - value) <= 100)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 344:
         expStr = "maxi(i, 1, 10000000, [Int7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000000;
         if (MathFunctions.abs(reg - value) <= 1000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 345:
         expStr = "mini(i, 1, 10000000, [Int7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -10000000;
         if (MathFunctions.abs(reg - value) <= 1000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 346:
         expStr = "maxi(i, 1, 10000000, [Int8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000000;
         if (MathFunctions.abs(reg - value) <= 10000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 347:
         expStr = "mini(i, 1, 10000000, [Int8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -100000000;
         if (MathFunctions.abs(reg - value) <= 10000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 348:
         expStr = "maxi(i, 1, 10000000, [Int9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000000;
         if (MathFunctions.abs(reg - value) <= 100000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 349:
         expStr = "mini(i, 1, 10000000, [Int9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -1000000000;
         if (MathFunctions.abs(reg - value) <= 100000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 350:
         expStr = "maxi(i, 1, 10000000, [Int])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2147483647;
         if (MathFunctions.abs(reg - value) <= 214748)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 351:
         expStr = "mini(i, 1, 10000000, [Int])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -2147483648;
         if (MathFunctions.abs(reg - value) <= 214748)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 352:
         expStr = "maxi(i, 1, 100000, [nat1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 353:
         expStr = "mini(i, 1, 100000, [nat1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 354:
         expStr = "maxi(i, 1, 100000, [nat2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 355:
         expStr = "mini(i, 1, 100000, [nat2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 356:
         expStr = "maxi(i, 1, 100000, [nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 357:
         expStr = "mini(i, 1, 100000, [nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 358:
         expStr = "maxi(i, 1, 1000000, [nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 359:
         expStr = "mini(i, 1, 1000000, [nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 360:
         expStr = "maxi(i, 1, 10000000, [nat4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 361:
         expStr = "mini(i, 1, 10000000, [nat4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 362:
         expStr = "maxi(i, 1, 10000000, [nat5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000;
         if (MathFunctions.abs(reg - value) <= 5)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 363:
         expStr = "mini(i, 1, 10000000, [nat5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 5)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 364:
         expStr = "maxi(i, 1, 10000000, [nat6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000;
         if (MathFunctions.abs(reg - value) <= 50)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 365:
         expStr = "mini(i, 1, 10000000, [nat6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 50)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 366:
         expStr = "maxi(i, 1, 10000000, [nat7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000000;
         if (MathFunctions.abs(reg - value) <= 500)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 367:
         expStr = "mini(i, 1, 10000000, [nat7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 500)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 368:
         expStr = "maxi(i, 1, 10000000, [nat8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000000;
         if (MathFunctions.abs(reg - value) <= 5000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 369:
         expStr = "mini(i, 1, 10000000, [nat8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 5000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 370:
         expStr = "maxi(i, 1, 10000000, [nat9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000000;
         if (MathFunctions.abs(reg - value) <= 50000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 371:
         expStr = "mini(i, 1, 10000000, [nat9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 50000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 372:
         expStr = "maxi(i, 1, 10000000, [nat])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2147483647;
         if (MathFunctions.abs(reg - value) <= 112374)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 373:
         expStr = "mini(i, 1, 10000000, [nat])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 112374)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 374:
         expStr = "maxi(i, 1, 100000, [Nat1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 375:
         expStr = "mini(i, 1, 100000, [Nat1])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 376:
         expStr = "maxi(i, 1, 100000, [Nat2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 377:
         expStr = "mini(i, 1, 100000, [Nat2])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 378:
         expStr = "maxi(i, 1, 100000, [Nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 379:
         expStr = "mini(i, 1, 100000, [Nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 380:
         expStr = "maxi(i, 1, 1000000, [Nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 381:
         expStr = "mini(i, 1, 1000000, [Nat3])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 382:
         expStr = "maxi(i, 1, 10000000, [Nat4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 383:
         expStr = "mini(i, 1, 10000000, [Nat4])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) < 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 384:
         expStr = "maxi(i, 1, 10000000, [Nat5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000;
         if (MathFunctions.abs(reg - value) <= 5)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 385:
         expStr = "mini(i, 1, 10000000, [Nat5])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 5)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 386:
         expStr = "maxi(i, 1, 10000000, [Nat6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000;
         if (MathFunctions.abs(reg - value) <= 50)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 387:
         expStr = "mini(i, 1, 10000000, [Nat6])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 50)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 388:
         expStr = "maxi(i, 1, 10000000, [Nat7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 10000000;
         if (MathFunctions.abs(reg - value) <= 500)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 389:
         expStr = "mini(i, 1, 10000000, [Nat7])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 500)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 390:
         expStr = "maxi(i, 1, 10000000, [Nat8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 100000000;
         if (MathFunctions.abs(reg - value) <= 5000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 391:
         expStr = "mini(i, 1, 10000000, [Nat8])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 5000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 392:
         expStr = "maxi(i, 1, 10000000, [Nat9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1000000000;
         if (MathFunctions.abs(reg - value) <= 50000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 393:
         expStr = "mini(i, 1, 10000000, [Nat9])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 50000)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 394:
         expStr = "maxi(i, 1, 10000000, [Nat])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2147483647;
         if (MathFunctions.abs(reg - value) <= 112374)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 395:
         expStr = "mini(i, 1, 10000000, [Nat])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 112374)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 396:
         expStr = "int( pUni(x, -1, 3), x, -1, 3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 397:
         x = new Argument("x = rUni(-1, 3)");
         expStr = "der( cUni(x, -1, 3), x) - pUni(x, -1, 3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 398:
         x = new Argument("x = rUni(-1, 3)");
         expStr = "x - qUni( cUni(x, -1, 3), -1, 3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 399:
         expStr = "mini(i, 1, 1000000, rUni(-1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = -1;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 400:
         expStr = "maxi(i, 1, 1000000, rUni(-1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 401:
         expStr = "mini(i, 1, 1000000, pUni( rUni(-10, 10), -1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 402:
         expStr = "maxi(i, 1, 1000000, pUni( rUni(-10, 10), -1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1.0 / 4.0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 403:
         expStr = "mini(i, 1, 1000000, cUni( rUni(-10, 10), -1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 404:
         expStr = "maxi(i, 1, 1000000, cUni( rUni(-10, 10), -1, 3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1.0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 405:
         x = new Argument("x = rUni(-2,4)");
         y = new Argument("y = rUni(-2,4)");
         expStr = "cUni( min(x, y), -1, 3) <= cUni( max(x, y), -1, 3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, y);
         value = exp[testId].calculate();
         reg = 1.0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 406:
         expStr = "round(2.2, 0)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.0;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 407:
         expStr = "round(2.6, 0)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.0;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 408:
         expStr = "round(2.66, 1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.7;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 409:
         expStr = "round(2.123456, 5)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.12346;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 410:
         expStr = "avg(i, 1, 1000000, [Nor])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 411:
         expStr = "stdi(i, 1, 1000000, [Nor])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 412:
         expStr = "vari(i, 1, 1000000, [Nor])";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 413:
         expStr = "avg(i, 1, 1000000, rNor(1,5) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 414:
         expStr = "stdi(i, 1, 1000000, rNor(3,3) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3;
         if (MathFunctions.abs(reg - value) <= 0.01)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 415:
         expStr = "vari(i, 1, 1000000, rNor(-10, 5) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 25;
         if (MathFunctions.abs(reg - value) <= 0.2)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 416:
         expStr = "int( pNor(x, 0, 1), x, -10, 0.5) - cNor( 0.5, 0, 1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.0001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 417:
         x = new Argument("x = 0.5");
         expStr = "der( cNor(x, 1, 2), x) - pNor(x, 1, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 418:
         expStr = "int( pNor(x, 1, 2), x, 0.5, 1.5) - ( cNor(1.5, 1, 2) - cNor(0.5, 1, 2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 419:
         x = new Argument("x = [Nor]");
         expStr = "pNor(x, 0, 1) - pNor(-x, 0, 1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 420:
         x = new Argument("x = [Uni]");
         expStr = "cNor(2-x, 2, 2) - ( 1 - cNor(2+x, 2, 2) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 421:
         x = new Argument("x = [Nor]");
         expStr = "qNor(0.5, -4, 5) + 4";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 422:
         x = new Argument("x = rUni(-10,10)");
         y = new Argument("y = rUni(-10,10)");
         expStr = "cNor( min(x, y), -1, 3) <= cNor( max(x, y), -1, 3)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr, x, y);
         value = exp[testId].calculate();
         reg = 1.0;
         if (MathFunctions.abs(reg - value) <= 0.002)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 423:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[5]:= SetPrecision[Sum[ExpIntegralEi[x], {x, 0.01, 10, 0.01}], 20]
          * Out[5]= 290933.27886809571646
          */
         expStr = "290933.27886809571646 - sum(x, 0.01, 10, Ei(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.0000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 424:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[12]:= SetPrecision[Sum[ExpIntegralEi[x], {x, -10, -0.01, 0.01}], 20]
          * Out[12]= -97.065869924036363159
          */
         expStr = "-97.065869924036363159 - sum(x, -10, -0.01, Ei(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 425:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[26]:= SetPrecision[Sum[Erf[x], {x, 0, 2, 0.01}], 20]
          * Out[26]= 144.17558195220803441
          */
         expStr = "144.17558195220803441 - sum(x, 0, 2, erf(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 426:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[27]:= SetPrecision[Sum[Erf[x], {x, -2, 0, 0.01}], 20]
          * Out[27]= -144.17558195220797757
          */
         expStr = "-144.17558195220797757 - sum(x, -2, 0, erf(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 427:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[37]:= SetPrecision[Sum[Erfc[x], {x, 0, 2, 0.01}], 20]
          * Out[37]= 56.824418047792065067
          */
         expStr = "56.824418047792065067 - sum(x, 0, 2, erfc(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 428:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[36]:= SetPrecision[Sum[Erfc[x], {x, -2, 0, 0.01}], 20]
          * Out[36]= 345.17558195220811967
          */
         expStr = "345.17558195220811967 - sum(x, -2, 0, erfc(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 429:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[38]:= SetPrecision[Sum[InverseErf[x], {x, 0, 0.9, 0.01}], 20]
          * Out[38]= 42.417037259662720317
          */
         expStr = "42.417037259662720317 - sum(x, 0, 0.9, erfInv(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 430:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[39]:= SetPrecision[Sum[InverseErf[x], {x, -0.9, 0, 0.01}], 20]
          * Out[39]= -42.417037259662699000
          */
         expStr = "-42.417037259662699000 - sum(x, -0.9, 0, erfInv(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 431:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[40]:= SetPrecision[Sum[InverseErfc[x], {x, 0.01, 1, 0.01}], 20]
          * Out[40]= 55.303894660741931943
          */
         expStr = "55.303894660741931943 - sum(x, 0.01, 1, erfcInv(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 432:
         /* Wolfram Language (Raspberry Pi Pilot Release)
          * Information & help: wolfram.com/raspi
          *
          * In[41]:= SetPrecision[Sum[InverseErfc[x], {x, 1, 1.99, 0.01}], 20]
          * Out[41]= -55.303894660741946154
          */
         expStr = "-55.303894660741946154 - sum(x, 1, 1.99, erfcInv(x), 0.01)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 0.0;
         if (MathFunctions.abs(reg - value) <= 0.00000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 433:
         expStr = "round(2.125, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.13;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 434:
         expStr = "round(2.135, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.14;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 435:
         expStr = "round(2.145, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2.15;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 436:
         expStr = "round(3.125, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.13;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 437:
         expStr = "round(3.135, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.14;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 438:
         expStr = "round(3.145, 2)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 3.15;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 439:
         expStr = "rList(1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 440:
         expStr = "rList(1, 1, 1, 1, 1, 1)";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 1;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 441:
         expStr = "mini(i, 1, 10000, rList(3, 2, 7, 6, 10, 15, 12) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 2;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     case 442:
         expStr = "maxi(i, 1, 10000, rList(3, 2, 7, 6, 10, 15, 12) )";
         mXparser.consolePrint(expStr + " ...... ");
         exp[testId] = new Expression(expStr);
         value = exp[testId].calculate();
         reg = 15;
         if (MathFunctions.abs(reg - value) <= 0.0000000000001)
             testResult = true;
         mXparser.consolePrint(value + " reg ... " + reg + " --> ");
         break;
     }
     if (testResult == true)
         mXparser.consolePrint("OK");
     else
         mXparser.consolePrint("ERROR");
     return testResult;
 }