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org.hibernate.beanvalidation.tck.tests.metadata.CrossParameterDescriptorTest Maven / Gradle / Ivy
/**
* Bean Validation TCK
*
* License: Apache License, Version 2.0
* See the license.txt file in the root directory or .
*/
package org.hibernate.beanvalidation.tck.tests.metadata;
import static org.testng.Assert.assertEquals;
import static org.testng.Assert.assertFalse;
import static org.testng.Assert.assertTrue;
import java.util.Set;
import javax.validation.metadata.ConstraintDescriptor;
import javax.validation.metadata.CrossParameterDescriptor;
import javax.validation.metadata.Scope;
import org.hibernate.beanvalidation.tck.beanvalidation.Sections;
import org.hibernate.beanvalidation.tck.tests.AbstractTCKTest;
import org.hibernate.beanvalidation.tck.tests.metadata.CustomerService.MyCrossParameterConstraint;
import org.jboss.arquillian.container.test.api.Deployment;
import org.jboss.shrinkwrap.api.spec.WebArchive;
import org.jboss.test.audit.annotations.SpecAssertion;
import org.jboss.test.audit.annotations.SpecVersion;
import org.testng.annotations.Test;
/**
* @author Gunnar Morling
*/
@SpecVersion(spec = "beanvalidation", version = "2.0.0")
public class CrossParameterDescriptorTest extends AbstractTCKTest {
@Deployment
public static WebArchive createTestArchive() {
return webArchiveBuilder()
.withTestClassPackage( CrossParameterDescriptorTest.class )
.build();
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "a")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_CROSSPARAMETERDESCRIPTOR, id = "a")
public void testGetElementClass() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedMethod()
.getCrossParameterDescriptor();
assertEquals( descriptor.getElementClass(), Object[].class );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "c")
public void testHasConstraintsForMethod() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedMethod()
.getCrossParameterDescriptor();
assertTrue( descriptor.hasConstraints(), "Should have constraints" );
}
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "c")
public void testHasConstraintsForUnconstrainedMethod() {
CrossParameterDescriptor descriptor = Executables.unconstrainedMethod()
.getCrossParameterDescriptor();
assertFalse( descriptor.hasConstraints(), "Should have no constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "c")
public void testHasConstraintsForConstructor() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedConstructor()
.getCrossParameterDescriptor();
assertTrue( descriptor.hasConstraints(), "Should have constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "c")
public void testHasConstraintsForConstructorWithoutCrossParameterConstraints() {
CrossParameterDescriptor descriptor = Executables.returnValueConstrainedConstructor()
.getCrossParameterDescriptor();
assertFalse( descriptor.hasConstraints(), "Should have no constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_CONSTRAINTDESCRIPTOR, id = "a")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "b")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testGetConstraintsForMethod() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedMethod()
.getCrossParameterDescriptor();
Set> constraints = descriptor.getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "b")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testGetConstraintsForMethodWithoutCrossParameterConstraints() {
CrossParameterDescriptor descriptor = Executables.returnValueConstrainedMethod()
.getCrossParameterDescriptor();
Set> constraints = descriptor.getConstraintDescriptors();
assertEquals( constraints.size(), 0, "Should have no constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "b")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testGetConstraintsForConstructor() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedConstructor()
.getCrossParameterDescriptor();
Set> constraints = descriptor.getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "b")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testGetConstraintsForConstructorWithoutCrossParameterConstraints() {
CrossParameterDescriptor descriptor = Executables.returnValueConstrainedConstructor()
.getCrossParameterDescriptor();
Set> constraints = descriptor.getConstraintDescriptors();
assertEquals( constraints.size(), 0, "Should have no constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "d")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForMethod() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedMethod()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints().getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "g")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForMethodLookingAt() {
CrossParameterDescriptor descriptor = Executables.methodOverridingCrossParameterConstrainedMethod()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints()
.lookingAt( Scope.LOCAL_ELEMENT )
.getConstraintDescriptors();
assertEquals(
constraints.size(),
0,
"Should have no local constraints"
);
constraints = descriptor.findConstraints()
.lookingAt( Scope.HIERARCHY )
.getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "g")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForMethodDefinedOnSuperTypeLookingAt() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedMethodFromSuperType()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints()
.lookingAt( Scope.LOCAL_ELEMENT )
.getConstraintDescriptors();
assertEquals(
constraints.size(),
0,
"Should have no local constraints"
);
constraints = descriptor.findConstraints()
.lookingAt( Scope.HIERARCHY )
.getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "d")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForMethodWithoutCrossParameterConstraints() {
CrossParameterDescriptor descriptor = Executables.returnValueConstrainedMethod()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints().getConstraintDescriptors();
assertEquals( constraints.size(), 0, "Should have no constraints" );
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "d")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForConstructor() {
CrossParameterDescriptor descriptor = Executables.crossParameterConstrainedConstructor()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints().getConstraintDescriptors();
assertEquals( constraints.size(), 1, "Should have constraints" );
ConstraintDescriptor constraint = constraints.iterator().next();
assertEquals(
constraint.getAnnotation().annotationType(),
MyCrossParameterConstraint.class,
"Wrong constraint type"
);
}
@Test
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "d")
@SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "c")
public void testFindConstraintsForConstructorWithoutCrossParameterConstraints() {
CrossParameterDescriptor descriptor = Executables.returnValueConstrainedConstructor()
.getCrossParameterDescriptor();
Set> constraints = descriptor.findConstraints().getConstraintDescriptors();
assertEquals( constraints.size(), 0, "Should have no constraints" );
}
}
