void UmlNode::write(FileOut & out)
{
const char * k = (_uml_20) ? "ownedMember" : "packagedElement";
out.indent();
out << "<" << k << " xmi:type=\""
<< ((stereotype() == "device\"") ? "uml:Device" : "uml:Node\"");
out.id(this);
out << " name=\"";
out.quote((const char *)name()); //[jasa] ambiguous call
out << "\">\n";
out.indent(+1);
write_description_properties(out);
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
unload();
}
void UmlClass::write_actor(FileOut & out)
{
out.indent();
out << "<UML:Actor name=\"" << name() << '"';
out.id(this);
out << " visibility=\"public\" isAbstract=\""
<< ((isAbstract()) ? "true" : "false")
<< "\" isActive=\"false\" >\n";
out.indent(+1);
if (stereotype() != "actor")
write_stereotype(out);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</UML:Actor>\n";
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
if (ch[i]->kind() == aRelation)
ch[i]->write_if_needed(out);
}
void UmlClassView::write(FileOut & out)
{
if (_gen_views) {
out.indent();
out << ((_uml_20) ? "<ownedMember" : "<packagedElement")
<< " xmi:type=\"uml:Package\"";
out.id(this);
out << " name =\"class view ";
out.quote(name());
out << "\">\n";
out.indent(+1);
write_description_properties(out);
}
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
if (_gen_views) {
while (! _relations.isEmpty())
_relations.takeAt(0)->write(out, FALSE);
out.indent(-1);
out.indent();
out << ((_uml_20) ? "</ownedMember>\n" : "</packagedElement>\n");
}
}
void UmlActivityPartition::write(FileOut & out) {
const char * p = (parent()->kind() == aPartition)
? "subpartition" : "group";
out.indent();
out << "<" << p << " xmi:type=\"uml:ActivityPartition\" name=\"";
out.quote((const char*)name());//[jasa] ambiguous call
out << '"';
out.id(this);
if (isDimension())
out << " isDimension=\"true\"";
if (isExternal())
out << " isExternal=\"true\"";
if (represents() != 0)
out.ref(represents(), "represents");
out << ">\n";
out.indent(+1);
write_description_properties(out);
const Q3PtrVector<UmlItem> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
out.indent(-1);
out.indent();
out << "</" << p << ">\n";
unload();
}
bool UmlComponent::write_if_needed(FileOut & out)
{
parent()->write(out);
out.indent();
out << "<UML:Component name=\"";
out.quote(name());
out << '"';
out.id(this);
out << " visibility=\"public\" isAbstract=\"false\" isActive=\"false\" >\n";
out.indent(+1);
write_stereotype(out);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</UML:Component>\n";
const Q3PtrVector<UmlItem> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write_if_needed(out);
unload();
return TRUE;
}
void UmlRegion::write(FileOut & out) {
out.indent();
out << "<region xmi:type=\"uml:Region\"";
out.id(this);
out << " name=\"";
out.quote(name());
out << "\">\n";
out.indent(+1);
write_description_properties(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
unsigned i;
for (i = 0; i != n; i += 1)
ch[i]->write(out);
#if 0
// to bypass Eclipse's bug this is done by the parent state
while (! _trans.isEmpty())
_trans.take(0)->write_it(out);
#endif
out.indent(-1);
out.indent();
out << "</region>\n";
unload();
}
void UmlNcRelation::write(FileOut & out)
{
if ((relationKind() == aDependency) &&
(parent()->kind() == anUseCase) &&
(target()->kind() == anUseCase)) {
const char * t;
const char * r;
if (stereotype() == "include") {
t = "Include";
r = "addition";
}
else if (stereotype() == "extend") {
t = "Extend";
r = "extendedCase";
}
else {
write(out, TRUE);
return;
}
out.indent();
out << "<" << stereotype() << " xmi:type=\"uml:" << t << "\"";
out.id(this);
out.ref(target(), r);
out << ">\n";
out.indent(+1);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</" << stereotype() << ">\n";
}
else
write(out, TRUE);
}
void UmlPseudoState::write(FileOut & out) {
out.indent();
out << "<subvertex xmi:type=\"uml:Pseudostate\"";
out.id(this);
if (! name().isEmpty()) {
out << " name=\"";
out.quote(name());
out << '"';
}
out << " kind=\"" << sKind() << "\">\n";
out.indent(+1);
write_description_properties(out);
while (! _incoming_trans.isEmpty())
_incoming_trans.take(0)->write_in(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
unsigned i;
for (i = 0; i != n; i += 1)
ch[i]->write(out);
out.indent(-1);
out.indent();
out << "</subvertex>\n";
unload();
}
void UmlArtifact::write(FileOut & out)
{
const char * k = (_uml_20) ? "ownedMember" : "packagedElement";
out.indent();
out << "<" << k << " xmi:type=\"uml:Artifact\"";
out.id(this);
out << " name=\"";
out.quote((const char *)name()); //[jasa] ambiguous call
out << "\">\n";
out.indent(+1);
write_description_properties(out);
const Q3PtrVector<UmlItem> ch = children();
unsigned i;
unsigned n = ch.size();
unsigned rank = 0;
for (i = 0; i != n; i += 1) {
UmlItem * x = ch[i];
if ((x->kind() == aNcRelation) &&
(x->stereotype() == "manifest") &&
(((UmlNcRelation *) x)->relationKind() == aDependency))
write_manifest(out, ((UmlNcRelation *) x)->target(), "dependency", ++rank);
else
ch[i]->write(out);
}
if (stereotype() == "source") {
const Q3PtrVector<UmlClass> & cls = associatedClasses();
n = cls.size();
for (i = 0; i != n; i += 1)
write_manifest(out, cls[i], "source", ++rank);
}
else {
const Q3PtrVector<UmlArtifact> & arts = associatedArtifacts();
n = arts.size();
for (i = 0; i != n; i += 1)
write_manifest(out, arts[i], 0, ++rank);
}
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
unload();
}
void UmlActivityAction::write_end(FileOut & out, bool dontclose) {
out << ">\n";
out.indent(+1);
Q3CString s = constraint();
if (! s.isEmpty()) {
out.indent();
out << "<ownedRule xmi:type=\"uml:Constraint\"";
out.id_prefix(this, "CONSTRAINT_");
out.ref(this, "constrainedElement");
out << ">\n";
out.indent();
out << "\t<specification xmi:type=\"uml:OpaqueExpression\"";
out.id_prefix(this, "CSPEC_");
out << ">\n";
out.indent();
out << "\t\t<body>";
out.quote(s);
out << "</body>\n";
out.indent();
out << "\t</specification>\n";
out.indent();
out << "</ownedRule>\n";
}
write_description_properties(out);
switch (_lang) {
case Uml:
write_condition(out, preCondition(), TRUE);
write_condition(out, postCondition(), FALSE);
break;
case Cpp:
write_condition(out, cppPreCondition(), TRUE);
write_condition(out, cppPostCondition(), FALSE);
break;
default:
// java
write_condition(out, javaPreCondition(), TRUE);
write_condition(out, javaPostCondition(), FALSE);
}
const Q3PtrVector<UmlItem> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
write_incoming_flows(out);
if (!dontclose)
write_close(out);
}
void UmlActivityParameter::write(FileOut & out) {
// write parameter def
out.indent();
out << "<ownedParameter name=\"";
out.quote(name());
out << '"';
out.id(this);
write_dir(out);
write_effect(out);
write_flags(out);
out << ">\n";
out.indent(+1);
write_description_properties(out);
write_multiplicity(out, multiplicity(), this);
write_default_value(out, defaultValue(), this);
UmlItem::write_type(out, type());
out.indent(-1);
out.indent();
out << "</ownedParameter>\n";
//write parameter node
out.indent();
out << "<node xmi:type=\"uml:ActivityParameterNode\" name =\"";
out.quote(name());
out << '"';
out.id_prefix(this, "PARAMETER_NODE_");
if (isControlType())
out << " isControlType=\"true\"";
write_ordering(out);
write_selection(out);
write_in_state(out);
out << ">\n";
out.indent(+1);
UmlItem::write_type(out, type());
const Q3PtrVector<UmlItem> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
out.indent(-1);
out.indent();
out << "</node>\n";
unload();
}
void UmlActivityObject::write(FileOut & out)
{
const char * k = (parent()->kind() == anActivity)
? "node" : "containedNode";
out.indent();
out << '<' << k << " xmi:type=\"uml:";
WrapperStr st = stereotype();
if (st == "datastore")
out << "DataStoreNode";
else if (st == "centralBuffer")
out << "CentralBufferNode";
else
out << "ObjectNode";
out << "\" name=\"";
out.quote(name());
out << '"';
out.id(this);
if (isControlType())
out << " isControlType=\"true\"";
write_ordering(out);
write_selection(out);
write_in_state(out);
out << ">\n";
out.indent(+1);
write_description_properties(out);
write_multiplicity(out, multiplicity(), this);
UmlItem::write_type(out, type());
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
write_incoming_flows(out);
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
unload();
}
void UmlRelation::write_dependency(FileOut & out) {
const char * k = (_uml_20) ? "ownedElement" : "packagedElement";
out.indent();
out << '<' << k << " xmi:type=\"uml:Dependency\"";
out.id(this);
out.ref(parent(), "client");
out.ref(roleType(), "supplier");
out << ">\n";
out.indent(+1);
write_constraint(out);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
}
void UmlNcRelation::write_dependency(FileOut & out)
{
const char * k = (_uml_20) ? "ownedElement" : "packagedElement";
out.indent();
out << '<' << k <<
(((parent()->kind() == anArtifact) && (stereotype() == "manifest"))
? " xmi:type=\"uml:Manifestation\"" : " xmi:type=\"uml:Dependency\"");
out.id(this);
out.ref(parent(), "client");
out.ref(target(), "supplier");
out << ">\n";
out.indent(+1);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
}
void UmlEntryPointPseudoState::write(FileOut & out) {
UmlEntryPointPseudoState * ref = reference();
out.indent();
if (ref != 0)
out << "<connection";
else
out << "<subvertex xmi:type=\"uml:Pseudostate\"";
out.id(this);
if (! name().isEmpty()) {
out << " name=\"";
out.quote(name());
out << '"';
}
if (ref != 0) {
out.ref(ref, "entry");
out << ">\n";
}
else
out << " kind=\"entryPoint\">\n";
out.indent(+1);
write_description_properties(out);
while (! _incoming_trans.isEmpty())
_incoming_trans.take(0)->write_in(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
unsigned i;
for (i = 0; i != n; i += 1)
ch[i]->write(out);
out.indent(-1);
out.indent();
if (ref != 0)
out << "</connection>\n";
else
out << "</subvertex>\n";
unload();
}
void UmlFinalState::write(FileOut & out)
{
out.indent();
out << "<subvertex xmi:type=\"uml:FinalState\"";
out.id(this);
out << " name=\"Final\">\n";
out.indent(+1);
write_description_properties(out);
while (! _incoming_trans.isEmpty())
_incoming_trans.take(0)->write_in(out);
out.indent(-1);
out.indent();
out << "</subvertex>\n";
unload();
}
void UmlClassView::write(FileOut & out) {
if (!_written) {
_written = TRUE;
parent()->write(out);
if (_gen_views) {
out.indent();
out << "<UML:Package";
out.id(this);
out << " name =\"Class View ";
out.quote(name());
out << "\">\n";
out.indent(+1);
write_stereotype(out);
write_description_properties(out);
out.indent();
out << "<UML:Namespace.ownedElement>\n";
out.indent(+1);
}
}
}
void UmlInterruptibleActivityRegion::write(FileOut & out) {
out.indent();
out << "<group xmi:type=\"uml:InterruptibleActivityRegion\"";
out.id(this);
out << ">\n";
out.indent(+1);
write_description_properties(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
for (unsigned i = 0; i != n; i += 1)
ch[i]->write(out);
write_flows(out);
out.indent(-1);
out.indent();
out << "</group>\n";
unload();
}
bool UmlOperation::write_if_needed(FileOut & out) {
QCString decl;
switch (_lang) {
case Uml:
parent()->write(out);
out.indent();
out << "<UML:Operation name=\"";
out.quote(name());
break;
case Cpp:
decl = cppDecl();
if (decl.isEmpty())
return FALSE;
remove_comments(decl);
parent()->write(out);
out.indent();
out << "<UML:Operation name=\"";
out.quote(true_name(cppDecl()));
break;
default: // Java
decl = javaDecl();
if (decl.isEmpty())
return FALSE;
remove_comments(decl);
parent()->write(out);
out.indent();
out << "<UML:Operation name=\"";
out.quote(true_name(javaDecl()));
break;
}
out << '"';
out.id(this);
switch (_lang) {
case Uml:
write_visibility(out);
break;
case Cpp:
write_visibility(out,
(cppVisibility() == DefaultVisibility)
? visibility() : cppVisibility());
break;
default: // Java
if (javaDecl().find("${visibility}") != -1)
write_visibility(out, visibility());
break;
}
write_scope(out);
out << " isAbstract=\""
<< ((isAbstract()) ? "true" : "false")
<< "\">\n";
out.indent(+1);
write_stereotype(out);
write_annotation(out);
write_description_properties(out);
out.indent();
out << "<UML:BehavioralFeature.parameter>\n";
out.indent(+1);
write_return_type(out, decl);
if (_lang == Uml)
write_uml_params(out);
else
write_cpp_java_params(out, decl);
out.indent(-1);
out.indent();
out << "</UML:BehavioralFeature.parameter>\n";
out.indent(-1);
out.indent();
out << "</UML:Operation>\n";
unload();
return TRUE;
}
void UmlComponent::write(FileOut & out)
{
const char * k = (parent()->kind() == anUseCase)
? "ownedUseCase"
: ((_uml_20) ? "ownedMember" : "packagedElement");
out.indent();
out << "<" << k << " xmi:type=\"uml:Component\"";
out.id(this);
out << " name=\"";
out.quote((const char *)name()); //[jasa] ambiguous call
out << "\">\n";
out.indent(+1);
write_description_properties(out);
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
unsigned index;
for (index = 0; index != n; index += 1)
ch[index]->write(out);
// provided
const QVector< UmlClass* > & prov = providedClasses();
n = prov.size();
for (index = 0; index != n; index += 1) {
UmlClass * cl = prov[index];
out.indent();
out << "<interfaceRealization xmi:type=\"uml:InterfaceRealization\"";
out.id_prefix(this, "PROV_", index);
out.ref(cl, "supplier");
out.ref(this, "client");
out.ref(cl, "contract");
out << "/>\n";
}
// realizing
const QVector< UmlClass* > & rea = realizingClasses();
n = rea.size();
for (index = 0; index != n; index += 1) {
UmlClass * cl = rea[index];
out.indent();
out << "<realization xmi:type=\"uml:ComponentRealization\"";
out.id_prefix(this, "REA_", index);
out.ref(cl, "supplier");
out.ref(this, "client");
out.ref(cl, "realizingClassifier");
out << "/>\n";
}
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
// required
const QVector< UmlClass* > & req = requiredClasses();
n = req.size();
for (index = 0; index != n; index += 1) {
UmlClass * cl = req[index];
out.indent();
out << "<" << k << " xmi:type=\"uml:Usage\"";
out.id_prefix(this, "REQ_", index);
out.ref(cl, "supplier");
out.ref(this, "client");
out << "/>\n";
}
unload();
}
void UmlRelation::write_relation_as_attribute(FileOut & out) {
UmlRelation * first = side(TRUE);
Q3CString s;
UmlClass * base;
if ((first->parent()->stereotype() == "stereotype") &&
(first->roleType()->stereotype() == "metaclass")) {
if (this != first)
return;
base = first->roleType();
s = "base_" + base->name();
}
else {
base = 0;
switch (_lang) {
case Uml:
s = roleName();
break;
case Cpp:
if (cppDecl().isEmpty())
return;
s = true_name(roleName(), cppDecl());
break;
default: // Java
if (javaDecl().isEmpty())
return;
s = true_name(roleName(), javaDecl());
}
}
out.indent();
out << "<ownedAttribute xmi:type=\"uml:Property\" name=\"" << s << '"';
out.id(this);
if (base != 0)
out.ref(first, "association", "EXT_");
else {
write_visibility(out);
write_scope(out);
if (isReadOnly())
out << " isReadOnly=\"true\"";
if (isDerived()) {
out << " isDerived=\"true\"";
if (isDerivedUnion())
out << " isDerivedUnion=\"true\"";
}
if (isOrdered())
out << " isOrdered=\"true\"";
if (isUnique())
out << " isUnique=\"true\"";
if (first->_assoc_class != 0)
out.ref(first->_assoc_class, "association");
else
out.ref(first, "association", "ASSOC_");
out << " aggregation=\"";
if (this == first) {
parent()->memo_relation(this);
if (_gen_eclipse) {
switch (relationKind()) {
case anAggregation:
case aDirectionalAggregation:
out << "shared";
break;
case anAggregationByValue:
case aDirectionalAggregationByValue:
out << "composite";
break;
default:
out << "none";
}
}
else
out << "none";
}
else if (_gen_eclipse)
out << "none";
else {
switch (relationKind()) {
case anAggregation:
case aDirectionalAggregation:
out << "shared";
break;
case anAggregationByValue:
case aDirectionalAggregationByValue:
out << "composite";
break;
default:
out << "none";
}
}
out << '"';
}
out << ">\n";
out.indent(+1);
out.indent();
out << "<type xmi:type=\"uml:Class\"";
if (base != 0) {
if (! base->propertyValue("metaclassPath", s))
s = (_uml_20) ? "http://schema.omg.org/spec/UML/2.0/uml.xml"
: "http://schema.omg.org/spec/UML/2.1/uml.xml";
out << " href=\"" << s << '#' << base->name() << '"';
}
else
out.idref(roleType());
out << "/>\n";
write_multiplicity(out, multiplicity(), this);
write_default_value(out, defaultValue(), this);
write_constraint(out);
write_annotation(out);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</ownedAttribute>\n";
unload();
}
bool UmlAttribute::write_if_needed(FileOut & out)
{
switch (_lang) {
case Uml:
parent()->write(out);
out.indent();
out << "<UML:Attribute name=\"" << name() << '"';
break;
case Cpp:
if (cppDecl().isEmpty())
return FALSE;
parent()->write(out);
out.indent();
out << "<UML:Attribute name=\"" << true_name(cppDecl()) << '"';
break;
default: // Java
if (javaDecl().isEmpty())
return FALSE;
parent()->write(out);
out.indent();
out << "<UML:Attribute name=\"" << true_name(javaDecl()) << '"';
break;
}
out.id(this);
switch (_lang) {
case Uml:
write_visibility(out);
break;
case Cpp:
write_visibility(out,
(cppVisibility() == DefaultVisibility)
? visibility() : cppVisibility());
break;
default: // Java
if (javaDecl().find("${visibility}") != -1)
write_visibility(out, visibility());
break;
}
write_scope(out);
out << ">\n";
out.indent(+1);
const UmlTypeSpec & t = type();
if ((t.type != 0) || !t.explicit_type.isEmpty()) {
out.indent();
out << "<UML:StructuralFeature.type>\n";
out.indent();
out << "\t<UML:DataType";
switch (_lang) {
case Uml:
if (t.type != 0)
out.idref(t.type);
else
out.idref_datatype(t.explicit_type);
break;
case Cpp:
write_cpp_type(out);
break;
default: // java
write_java_type(out);
}
out << "/>\n";
out.indent();
out << "</UML:StructuralFeature.type>\n";
}
write_stereotype(out);
write_annotation(out);
write_description_properties(out);
out.indent(-1);
out.indent();
out << "</UML:Attribute>\n";
unload();
return TRUE;
}
void UmlTransition::write_it(FileOut & out)
{
out.indent();
out << "<transition xmi:type=\"uml:Transition\"";
out.id(this);
if (!name().isEmpty() && (name() != "<transition>")) {
out << " name=\"";
out.quote(name());
out << '"';
}
out.ref(parent(), "source");
out.ref(target(), "target");
if (parent() == target())
out << " kind=\"" << ((isExternal()) ? "external" : "internal") << '"';
out << ">\n";
out.indent(+1);
write_description_properties(out);
WrapperStr trig;
WrapperStr grd;
WrapperStr effect;
switch (_lang) {
case Uml:
trig = trigger();
grd = guard();
effect = activity();
break;
case Cpp:
trig = cppTrigger();
grd = cppGuard();
effect = cppActivity();
break;
default: // Java
trig = javaTrigger();
grd = javaGuard();
effect = javaActivity();
break;
}
if (! trig.isEmpty()) {
out.indent();
out << "<trigger xmi:type=\"uml:Trigger\"";
out.id_prefix(this, "TRIGGER_");
out << " name=\"";
out.quote(trig);
out << "\"/>\n";
}
if (! grd.isEmpty()) {
out.indent();
out << "<guard xmi:type=\"uml:Constraint\"";
out.id_prefix(this, "GUARD_");
out << ">\n";
out.indent();
out << "\t<specification xmi:type=\"uml:OpaqueExpression\"";
out.id_prefix(this, "GUARD_EXPR_");
out << ">\n";
out.indent();
out << "\t\t<body>";
out.quote(grd);
out << "</body>\n";
out.indent();
out << "\t</specification>\n";
out.indent();
out << "</guard>\n";
}
if (! effect.isEmpty()) {
out.indent();
out << "<effect xmi:type=\"uml:Activity\"";
out.id_prefix(this, "EFFECT_");
out << ">\n";
out.indent();
out << "\t<body>";
out.quote(effect);
out << "</body>\n";
out.indent();
out << "</effect>\n";
}
out.indent(-1);
out.indent();
out << "</transition>\n";
unload();
}
bool UmlClass::write_if_needed(FileOut & out)
{
// even if the class doen't have children
parent()->write(out);
if ((stereotype() == "actor") ||
((parent()->kind() != aClassView) &&
(parent()->kind() != aClass)))
// force it to be an actor
write_actor(out);
else {
switch (_lang) {
case Cpp:
if (cppDecl().isEmpty())
return FALSE;
break;
case Java:
if (javaDecl().isEmpty())
return FALSE;
default:
break;
}
bool interf = (stereotype() == "interface");
out.indent();
out << ((interf) ? "<UML:Interface name=\"" : "<UML:Class name=\"");
out.quote(name());
out << '"';
out.id(this);
out << " visibility=\"public\" isAbstract=\""
<< ((isAbstract()) ? "true" : "false")
<< "\" isActive=\"false\" >\n";
out.indent(+1);
if (! interf)
write_stereotype(out);
write_annotation(out);
write_description_properties(out);
const QVector<UmlItem*> ch = children();
unsigned n = ch.size();
bool used = FALSE;
bool haveRel = FALSE;
for (unsigned i = 0; i != n; i += 1) {
switch (ch[i]->kind()) {
case aNcRelation:
break;
case aRelation:
haveRel = TRUE;
break;
default:
used |= ch[i]->write_if_needed(out);
}
}
if (used) {
out.indent(-1);
out.indent();
out << "</UML:Classifier.feature>\n";
}
out.indent(-1);
out.indent();
out << ((interf) ? "</UML:Interface>\n" : "</UML:Class>\n");
if (haveRel) {
for (unsigned i = 0; i != n; i += 1)
if (ch[i]->kind() == aRelation)
used |= ch[i]->write_if_needed(out);
}
}
unload();
return TRUE;
}
void UmlState::write(FileOut & out) {
anItemKind pkind = parent()->kind();
bool mach = (pkind != aState) && (pkind != aRegion);
UmlState * ref = reference();
const char * k;
if (mach) {
k = (_uml_20) ? "ownedMember" : "packagedElement";
memo_incoming_trans();
}
else
k = "subvertex";
out.indent();
out << "<" << k << " xmi:type=\"uml:"
<< ((mach || (stereotype() == "machine")) ? "StateMachine" : "State")
<< '"';
out.id(this);
out << " name=\"";
out.quote(name());
out << '"';
if (ref != 0)
out.ref(ref, "submachine");
else {
if (specification() != 0)
out.ref(specification(), "specification");
if (isActive())
out << " isActive=\"true\"";
}
out << ">\n";
out.indent(+1);
write_description_properties(out);
if (ref == 0) {
QCString doentry;
QCString doactivity;
QCString doexit;
switch (_lang) {
case Uml:
doentry = entryBehavior();
doactivity = doActivity();
doexit = exitBehavior();
break;
case Cpp:
doentry = cppEntryBehavior();
doactivity = cppDoActivity();
doexit = cppExitBehavior();
break;
default: // Java
doentry = javaEntryBehavior();
doactivity = javaDoActivity();
doexit = javaExitBehavior();
break;
}
if (! doentry.isEmpty()) {
out.indent();
out << "<entry xmi:type=\"uml:Activity\"";
out.id_prefix(this, "ENTRY_");
out << ">\n";
out.indent();
out << "\t<body>";
out.quote(doentry);
out << "</body>\n";
out.indent();
out << "</entry>\n";
}
if (! doactivity.isEmpty()) {
out.indent();
out << "<doActivity xmi:type=\"uml:Activity\"";
out.id_prefix(this, "DOACTIVITY_");
out << ">\n";
out.indent();
out << "\t<body>";
out.quote(doactivity);
out << "</body>\n";
out.indent();
out << "</doActivity>\n";
}
if (! doexit.isEmpty()) {
out.indent();
out << "<exit xmi:type=\"uml:Activity\"";
out.id_prefix(this, "EXIT_");
out << ">\n";
out.indent();
out << "\t<body>";
out.quote(doexit);
out << "</body>\n";
out.indent();
out << "</exit>\n";
}
}
while (! _incoming_trans.isEmpty())
_incoming_trans.take(0)->write_in(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
unsigned i;
bool need_region = FALSE;
for (i = 0; i != n; i += 1) {
if (ch[i]->kind() != aRegion) {
need_region = TRUE;
break;
}
}
if (need_region) {
if (ref == 0) {
out.indent();
out << "<region xmi:type=\"uml:Region\"";
out.id_prefix(this, "IMPLICIT_REGION_");
out << " name=\"Bouml_Implicit_Region\">\n";
out.indent(+1);
}
for (i = 0; i != n; i += 1)
if (ch[i]->kind() != aRegion)
ch[i]->write(out);
#if 0
// to bypass Eclipse's bug
while (! _trans.isEmpty())
_trans.take(0)->write_it(out);
#endif
if (ref == 0) {
out.indent(-1);
out.indent();
out << "</region>\n";
}
}
if (ref == 0) {
for (i = 0; i != n; i += 1)
if (ch[i]->kind() == aRegion)
ch[i]->write(out);
}
#if 1
// to bypass Eclipse's bug
while (! _trans.isEmpty())
_trans.take(0)->write_it(out);
#endif
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
unload();
}
void UmlClass::write(FileOut & out) {
QCString st = stereotype();
if (st == "metaclass")
return;
bool is_actor = (st == "actor");
bool is_enum = (st == "enum");
bool is_stereotype =
(st == "stereotype") &&
(parent()->parent()->kind() == aPackage) &&
(parent()->parent()->stereotype() == "profile");
if (!is_actor) {
switch (_lang) {
case Cpp:
if (cppDecl().isEmpty())
return;
break;
case Java:
if (javaDecl().isEmpty())
return;
default:
break;
}
}
const char * k = (parent()->kind() == aClass)
? "nestedClassifier"
: ((!_uml_20)
? "packagedElement"
: ((is_stereotype) ? "ownedStereotype" : "ownedMember"));
bool is_assoc_class = (_assoc != 0);
out.indent();
out << "<" << k << " xmi:type=\"uml:"
<< ((is_actor)
? "Actor"
: ((is_assoc_class)
? "AssociationClass"
: ((st == "interface")
? "Interface"
: ((is_enum)
?"Enumeration"
: ((is_stereotype) ? "Stereotype" : "Class")))))
<< "\" name=\"";
out.quote(name());
out << '"';
out.id(this);
write_visibility(out);
if (isAbstract())
out << " isAbstract=\"true\"";
if (isActive())
out << " isActive=\"true\"";
out << ">\n";
if (is_assoc_class)
_assoc->write_ends(out);
out.indent(+1);
write_constraint(out);
write_annotation(out);
write_description_properties(out);
if (_gen_extension && (st == "typedef")) {
const UmlTypeSpec & base = baseType();
if ((base.type != 0) || !base.explicit_type.isEmpty()) {
out.indent();
out << "<xmi:Extension extender=\"Bouml\">\n";
out.indent();
out << "\t<typedef>\n";
out.indent(+2);
UmlItem::write_type(out, base, "base");
out.indent(-2);
out.indent();
out << "\t</typedef>\n";
out.indent();
out << "</xmi:Extension>\n";
}
}
write_formals(out);
write_actuals(out);
const QVector<UmlItem> ch = children();
unsigned n = ch.size();
unsigned i;
for (i = 0; i != n; i += 1)
ch[i]->write(out);
if (is_stereotype) {
QCString path;
if (propertyValue("stereotypeIconPath", path) && !path.isEmpty()) {
out.indent();
out << "<icon xmi:type=\"uml:Image\"";
out.id_prefix(this, "Icon_");
out << " location=\"" << path << "\"/>\n";
}
}
out.indent(-1);
out.indent();
out << "</" << k << ">\n";
if (is_stereotype)
for (i = 0; i != n; i += 1)
if (ch[i]->kind() == aRelation)
((UmlRelation *) ch[i])->write_extension(out);
unload();
}
void UmlOperation::write(FileOut & out)
{
WrapperStr decl;
switch (_lang) {
case Uml:
out.indent();
out << "<ownedOperation xmi:type=\"uml:Operation\" name=\"";
out.quote((const char *)name()); //[jasa] ambiguous call
break;
case Cpp:
decl = cppDecl();
if (decl.isEmpty())
return;
remove_comments(decl);
out.indent();
out << "<ownedOperation xmi:type=\"uml:Operation\" name=\"";
out.quote((const char *)true_name(name(), cppDecl())); //[jasa] ambiguous call
break;
default: // Java
decl = javaDecl();
if (decl.isEmpty())
return;
remove_comments(decl);
out.indent();
out << "<ownedOperation xmi:type=\"uml:Operation\" name=\"";
out.quote((const char *)true_name(name(), javaDecl())); //[jasa] ambiguous call
break;
}
out << '"';
out.id(this);
write_visibility(out);
write_scope(out);
if ((_lang == Cpp) && isCppConst())
out << " isQuery=\"true\"";
out << " isAbstract=\""
<< ((isAbstract()) ? "true" : "false")
<< "\">\n";
out.indent(+1);
write_constraint(out);
write_annotation(out);
write_description_properties(out);
write_exceptions(out);
write_return_type(out, decl);
if (_lang == Uml)
write_uml_params(out);
else
write_cpp_java_params(out, decl);
out.indent(-1);
out.indent();
out << "</ownedOperation>\n";
unload();
}
