public boolean runWithEntity(IEntity<?> entity) {
super.beforeRun();
boolean result = false;
/* Verifica se a entidade é compatível */
/* Verifica se a entidade passada eh um DocumentoCobranca ou pertence eh descendente */
if (ClassUtils.isAssignable(entity.getInfo().getType(), Contrato.class)) {
Contrato oContrato = (Contrato) entity.getObject();
this.cpfCnpj = oContrato.getPessoa().getDocumento();
/* Alguns dados poderao ser inicializados aqui */
this.categoriaContratoId = IDAO.ENTITY_UNSAVED;
/* Define as datas de vencimento e recebimento amplas */
Calendar dataInicial = CalendarUtils.getCalendar(1900, Calendar.JANUARY, 1);
Calendar dataAtual = CalendarUtils.getCalendar();
this.dataVencimentoInicial = (Calendar) dataInicial.clone();
this.dataVencimentoFinal = (Calendar) dataAtual.clone();
this.dataRecebimentoInicial = (Calendar) dataInicial.clone();
this.dataRecebimentoFinal = (Calendar) dataAtual.clone();
/* Não executa nada, pois o processo gera um PDF e é importante
* que o operador defina as propriedades do relatório antes de gerar o PDF */
result = true;
} else if (ClassUtils.isAssignable(entity.getInfo().getType(), Pessoa.class)) {
Pessoa oPessoa = (Pessoa) entity.getObject();
this.cpfCnpj = oPessoa.getDocumento();
/* Alguns dados poderao ser inicializados aqui */
this.categoriaContratoId = IDAO.ENTITY_UNSAVED;
/* Define as datas de vencimento e recebimento amplas */
Calendar dataInicial = CalendarUtils.getCalendar(1900, Calendar.JANUARY, 1);
Calendar dataAtual = CalendarUtils.getCalendar();
this.dataVencimentoInicial = (Calendar) dataInicial.clone();
this.dataVencimentoFinal = (Calendar) dataAtual.clone();
this.dataRecebimentoInicial = (Calendar) dataInicial.clone();
this.dataRecebimentoFinal = (Calendar) dataAtual.clone();
/* Não executa nada, pois o processo gera um PDF e é importante
* que o operador defina as propriedades do relatório antes de gerar o PDF */
result = true;
} else {
this.getMessageList()
.add(
new BusinessMessage(
IRunnableEntityProcess.class,
"ENTITY_NOT_COMPATIBLE",
PROCESS_NAME,
entity.getInfo().getType().getName()));
}
return result;
}
private static boolean shouldKeep(
Class type, Object extension, @Nullable Project project, @Nullable ExtensionMatcher matcher) {
boolean keep =
(ClassUtils.isAssignable(extension.getClass(), type)
|| (org.sonar.api.batch.Sensor.class.equals(type)
&& ClassUtils.isAssignable(extension.getClass(), Sensor.class)))
&& (matcher == null || matcher.accept(extension));
if (keep
&& project != null
&& ClassUtils.isAssignable(extension.getClass(), CheckProject.class)) {
keep = ((CheckProject) extension).shouldExecuteOnProject(project);
}
return keep;
}
public static <T> T create(String pClassName, Class<T> pClass)
throws IllegalAccessException, InstantiationException, ClassNotFoundException {
final Object o = create(pClassName);
if (ClassUtils.isAssignable(o.getClass(), pClass)) {
return (T) o;
} else {
throw new InstantiationException("Not of type: " + pClass.getName());
}
}
/**
* Find an accessible method that matches the given name and has compatible parameters. Compatible
* parameters mean that every method parameter is assignable from the given parameters. In other
* words, it finds a method with the given name that will take the parameters given.
*
* <p>
*
* <p>This method is used by {@link #invokeMethod(Object object, String methodName, Object[] args,
* Class[] parameterTypes)}.
*
* <p>This method can match primitive parameter by passing in wrapper classes. For example, a
* <code>Boolean</code> will match a primitive <code>boolean</code> parameter.
*
* @param cls find method in this class
* @param methodName find method with this name
* @param parameterTypes find method with most compatible parameters
* @return The accessible method
*/
public static Method getMatchingAccessibleMethod(
Class cls, String methodName, Class[] parameterTypes) {
try {
Method method = cls.getMethod(methodName, parameterTypes);
MemberUtils.setAccessibleWorkaround(method);
return method;
} catch (NoSuchMethodException e) {
/* SWALLOW */
}
// search through all methods
Method bestMatch = null;
Method[] methods = cls.getMethods();
for (int i = 0, size = methods.length; i < size; i++) {
if (methods[i].getName().equals(methodName)) {
// compare parameters
if (ClassUtils.isAssignable(parameterTypes, methods[i].getParameterTypes(), true)) {
// get accessible version of method
Method accessibleMethod = getAccessibleMethod(methods[i]);
if (accessibleMethod != null) {
if (bestMatch == null
|| MemberUtils.compareParameterTypes(
accessibleMethod.getParameterTypes(),
bestMatch.getParameterTypes(),
parameterTypes)
< 0) {
bestMatch = accessibleMethod;
}
}
}
}
}
if (bestMatch != null) {
MemberUtils.setAccessibleWorkaround(bestMatch);
}
return bestMatch;
}
