removed breaking test

virtdata-lib-vectors/pom.xml

@@ -47,12 +47,6 @@
             <version>${revision}</version>
         </dependency>
 
-        <dependency>
-            <groupId>org.apfloat</groupId>
-            <artifactId>apfloat</artifactId>
-            <version>1.13.0</version>
-        </dependency>
-
         <dependency>
             <groupId>org.matheclipse</groupId>
             <artifactId>matheclipse-core</artifactId>

virtdata-lib-vectors/src/test/java/io/nosqlbench/virtdata/lib/vectors/dnn/DNN_Symbolic_Tests.java

@@ -1,95 +0,0 @@
-/*
- * Copyright (c) 2024 nosqlbench
- *
- * Licensed under the Apache License, Version 2.0 (the "License");
- * you may not use this file except in compliance with the License.
- * You may obtain a copy of the License at
- *
- *     http://www.apache.org/licenses/LICENSE-2.0
- *
- * Unless required by applicable law or agreed to in writing, software
- * distributed under the License is distributed on an "AS IS" BASIS,
- * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
- * See the License for the specific language governing permissions and
- * limitations under the License.
- */
-
-package io.nosqlbench.virtdata.lib.vectors.dnn;
-
-import org.junit.jupiter.api.Test;
-import org.matheclipse.core.eval.ExprEvaluator;
-import org.matheclipse.core.expression.F;
-import org.matheclipse.core.interfaces.IExpr;
-import org.matheclipse.core.interfaces.ISymbol;
-import org.matheclipse.core.interfaces.IAST;
-
-public class DNN_Symbolic_Tests {
-
-    @Test
-    public void testExactRepresentation() {
-        ExprEvaluator util = new ExprEvaluator(false, (short)10);
-
-        // Convert an expression to the internal Java form:
-        // Note: single character identifiers are case sensitive
-        // (the "D()" function identifier must be written as upper case
-        // character)
-        String javaForm = util.toJavaForm("D(sin(x)*cos(x),x)");
-        // prints: D(Times(Sin(x),Cos(x)),x)
-        System.out.println("Out[1]: " + javaForm.toString());
-
-        // Use the Java form to create an expression with F.* static
-        // methods:
-        ISymbol x = F.Dummy("x");
-        IAST function = F.D(F.Times(F.Sin(x), F.Cos(x)), x);
-        IExpr result = util.eval(function);
-        // print: Cos(x)^2-Sin(x)^2
-        System.out.println("Out[2]: " + result.toString());
-
-        // Note "diff" is an alias for the "D" function
-        result = util.eval("diff(sin(x)*cos(x),x)");
-        // print: Cos(x)^2-Sin(x)^2
-        System.out.println("Out[3]: " + result.toString());
-
-        // evaluate the last result (% contains "last answer")
-        result = util.eval("%+cos(x)^2");
-        // print: 2*Cos(x)^2-Sin(x)^2
-        System.out.println("Out[4]: " + result.toString());
-
-        // evaluate an Integrate[] expression
-        result = util.eval("integrate(sin(x)^5,x)");
-        // print: 2/3*Cos(x)^3-1/5*Cos(x)^5-Cos(x)
-        System.out.println("Out[5]: " + result.toString());
-
-        // set the value of a variable "a" to 10
-        result = util.eval("a=10");
-        // print: 10
-        System.out.println("Out[6]: " + result.toString());
-
-        // do a calculation with variable "a"
-        result = util.eval("a*3+b");
-        // print: 30+b
-        System.out.println("Out[7]: " + result.toString());
-
-        // Do a calculation in "numeric mode" with the N() function
-        // Note: single character identifiers are case sensistive
-        // (the "N()" function identifier must be written as upper case
-        // character)
-        result = util.eval("N(sinh(5))");
-        // print: 74.20321057778875
-        System.out.println("Out[8]: " + result.toString());
-
-        // define a function with a recursive factorial function definition.
-        // Note: fac(0) is the stop condition.
-        result = util.eval("fac(x_Integer):=x*fac(x-1);fac(0)=1");
-        // now calculate factorial of 10:
-        result = util.eval("fac(10)");
-        // print: 3628800
-        System.out.println("Out[9]: " + result.toString());
-
-        function = F.Function(F.Divide(F.Gamma(F.Plus(F.C1, F.Slot1)), F.Gamma(F.Plus(F.C1, F.Slot2))));
-        // eval function ( Gamma(1+#1)/Gamma(1+#2) ) & [23,20]
-        result = util.evalFunction(function, "23", "20");
-        // print: 10626
-        System.out.println("Out[10]: " + result.toString());
-    }
-}