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package org.qedeq.kernel.bo.service.control; |
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import org.qedeq.base.test.QedeqTestCase; |
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import org.qedeq.kernel.bo.module.ModuleLabels; |
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import org.qedeq.kernel.bo.service.control.Element2LatexImpl; |
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import org.qedeq.kernel.se.base.list.Element; |
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import org.qedeq.kernel.se.dto.list.DefaultAtom; |
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import org.qedeq.kernel.se.dto.list.DefaultElementList; |
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@link |
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@author |
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| 100% |
Uncovered Elements: 0 (57) |
Complexity: 12 |
Complexity Density: 0.27 |
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public class Element2LatexImplTest extends QedeqTestCase { |
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private Element2LatexImpl transform; |
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| 100% |
Uncovered Elements: 0 (2) |
Complexity: 1 |
Complexity Density: 0.5 |
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protected void setUp() throws Exception {... |
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super.setUp(); |
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transform = new Element2LatexImpl(new ModuleLabels()); |
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} |
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| 100% |
Uncovered Elements: 0 (1) |
Complexity: 1 |
Complexity Density: 1 |
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protected void tearDown() throws Exception {... |
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super.tearDown(); |
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} |
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| 100% |
Uncovered Elements: 0 (8) |
Complexity: 1 |
Complexity Density: 0.12 |
1
PASS
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public void testVar() {... |
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final Element ele = new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x")}); |
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assertEquals("x", transform.getLatex(ele)); |
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final Element ele2 = new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("1")}); |
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assertEquals("x", transform.getLatex(ele2)); |
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final Element ele3 = new DefaultElementList("FUNVAR", new Element[] { |
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new DefaultAtom("psi"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("1"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("2"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("z"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("3"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("u"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("4"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("v"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("5"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("w"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("6"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("7"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("8"), |
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}) |
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}); |
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assertEquals("psi(x, x, y, y, z, z, u, u, v, v, w, w, x_1, x_2)", transform.getLatex(ele3)); |
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final Element ele4 = new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom(" 1")}); |
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assertEquals(" 1", transform.getLatex(ele4)); |
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} |
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| 100% |
Uncovered Elements: 0 (4) |
Complexity: 1 |
Complexity Density: 0.25 |
1
PASS
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public void testFuncon() {... |
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final Element ele = new DefaultElementList("FUNCON", new Element[] { |
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new DefaultAtom("RussellClass")}); |
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assertEquals("\\mathfrak{Ru}", transform.getLatex(ele)); |
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final Element ele2 = new DefaultElementList("FUNCON", new Element[] { |
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new DefaultAtom("phi")}); |
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assertEquals("phi_0()", transform.getLatex(ele2)); |
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} |
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| 100% |
Uncovered Elements: 0 (4) |
Complexity: 1 |
Complexity Density: 0.25 |
1
PASS
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public void testFunvar() {... |
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final Element ele = new DefaultElementList("FUNVAR", new Element[] { |
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new DefaultAtom("phi")}); |
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assertEquals("phi", transform.getLatex(ele)); |
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final Element ele2 = new DefaultElementList("FUNVAR", new Element[] { |
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new DefaultAtom("phi"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}); |
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assertEquals("phi(x)", transform.getLatex(ele2)); |
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} |
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| 100% |
Uncovered Elements: 0 (6) |
Complexity: 1 |
Complexity Density: 0.17 |
1
PASS
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public void testPredcon() {... |
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final Element ele = new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("isSet"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}); |
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assertEquals("\\mathfrak{M}(x)", transform.getLatex(ele)); |
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final Element ele2 = new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("isSet") |
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}); |
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assertEquals("isSet_0()", transform.getLatex(ele2)); |
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final Element ele3 = new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("isMyOwnPredcon") |
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}); |
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assertEquals("isMyOwnPredcon_0()", transform.getLatex(ele3)); |
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} |
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| 100% |
Uncovered Elements: 0 (4) |
Complexity: 1 |
Complexity Density: 0.25 |
1
PASS
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public void testPredvar() {... |
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final Element ele = new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("alpha")}); |
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assertEquals("alpha", transform.getLatex(ele)); |
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final Element ele2 = new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("alpha"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}); |
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assertEquals("alpha(x)", transform.getLatex(ele2)); |
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} |
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| 100% |
Uncovered Elements: 0 (3) |
Complexity: 1 |
Complexity Density: 0.33 |
1
PASS
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public void testVarious1() {... |
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Element ele = new DefaultElementList("EQUI", new Element[] { |
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new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("equal"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y"), |
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}), |
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new DefaultElementList("CLASS", new Element[] { |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}), |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\phi"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}) |
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}) |
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}), |
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new DefaultElementList("FORALL", new Element[] { |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("z"), |
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}), |
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new DefaultElementList("EQUI", new Element[] { |
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new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("in"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("z"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y"), |
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}) |
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}), |
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new DefaultElementList("PREDCON", new Element[] { |
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new DefaultAtom("in"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("z"), |
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}), |
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new DefaultElementList("CLASS", new Element[] { |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}), |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\phi"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}) |
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}) |
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}) |
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}) |
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}) |
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}); |
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assertEquals("y \\ = \\ \\{ x \\ | \\ \\phi(x) \\} \\ \\leftrightarrow\\ " |
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+ "\\forall z\\ (z \\in y\\ \\leftrightarrow\\ z \\in \\{ x \\ | \\ \\phi(x) \\} )", |
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transform.getLatex(ele)); |
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assertEquals("(y \\ = \\ \\{ x \\ | \\ \\phi(x) \\} \\ \\leftrightarrow\\ " |
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+ "\\forall z\\ (z \\in y\\ \\leftrightarrow\\ z \\in \\{ x \\ | \\ \\phi(x) \\} ))", |
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transform.getLatex(ele, false)); |
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} |
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| 100% |
Uncovered Elements: 0 (3) |
Complexity: 1 |
Complexity Density: 0.33 |
1
PASS
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public void testBinaryLogical() {... |
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Element ele = new DefaultElementList("AND", new Element[] { |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\alpha"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}) |
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}), |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\beta"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y") |
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}) |
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}), |
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new DefaultElementList("IMPL", new Element[] { |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\alpha"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x") |
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}) |
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}), |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\beta"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y") |
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}) |
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}) |
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}) |
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}); |
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assertEquals("\\alpha(x)\\ \\land\\ \\beta(y)\\ \\land\\ (\\alpha(x)\\ \\rightarrow\\ \\beta(y))", |
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transform.getLatex(ele)); |
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assertEquals("(\\alpha(x)\\ \\land\\ \\beta(y)\\ \\land\\ (\\alpha(x)\\ \\rightarrow\\ \\beta(y)))", |
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transform.getLatex(ele, false)); |
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} |
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| 100% |
Uncovered Elements: 0 (3) |
Complexity: 1 |
Complexity Density: 0.33 |
1
PASS
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public void testVarious2() {... |
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Element ele = new DefaultElementList("myOperator", new Element[] { |
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new DefaultAtom("Hello"), |
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new DefaultAtom("Again"), |
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new DefaultElementList("again", new Element[] { |
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new DefaultAtom("one"), |
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new DefaultAtom("two"), |
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new DefaultAtom("three") |
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}) |
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}); |
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assertEquals("myOperator(Hello, Again, again(one, two, three))", transform.getLatex(ele)); |
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assertEquals("myOperator(Hello, Again, again(one, two, three))", transform.getLatex(ele, false)); |
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} |
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| 100% |
Uncovered Elements: 0 (3) |
Complexity: 1 |
Complexity Density: 0.33 |
1
PASS
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public void testClass() {... |
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Element ele = new DefaultElementList("CLASS", new Element[] { |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}), |
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new DefaultElementList("PREDVAR", new Element[] { |
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new DefaultAtom("\\beta"), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y") |
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}) |
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}) |
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}); |
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1
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assertEquals("\\{ x \\ | \\ \\beta(y) \\} ", |
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transform.getLatex(ele)); |
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assertEquals("\\{ x \\ | \\ \\beta(y) \\} ", |
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transform.getLatex(ele, false)); |
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} |
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| 100% |
Uncovered Elements: 0 (4) |
Complexity: 1 |
Complexity Density: 0.25 |
1
PASS
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public void testClasslist() {... |
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Element ele = new DefaultElementList("CLASSLIST", new Element[] { |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("x"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("y"), |
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}), |
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new DefaultElementList("VAR", new Element[] { |
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new DefaultAtom("z"), |
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}) |
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}); |
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System.out.println(transform.getLatex(ele)); |
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1
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assertEquals("\\{ x, \\ y, \\ z \\} ", |
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transform.getLatex(ele)); |
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assertEquals("\\{ x, \\ y, \\ z \\} ", |
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transform.getLatex(ele, false)); |
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} |
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} |
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