void marshalArgumentList(StorageIntf *s,ArgumentList *argList)
{
if (argList==0)
{
marshalUInt(s,NULL_LIST); // null pointer representation
}
else
{
marshalUInt(s,argList->count());
if (argList->count()>0)
{
ArgumentListIterator ali(*argList);
Argument *a;
for (ali.toFirst();(a=ali.current());++ali)
{
marshalQCString(s,a->attrib);
marshalQCString(s,a->type);
marshalQCString(s,a->canType);
marshalQCString(s,a->name);
marshalQCString(s,a->array);
marshalQCString(s,a->defval);
marshalQCString(s,a->docs);
}
}
marshalBool(s,argList->constSpecifier);
marshalBool(s,argList->volatileSpecifier);
marshalBool(s,argList->pureSpecifier);
}
}
/*! the argument list is documented if one of its
* arguments is documented
*/
bool ArgumentList::hasDocumentation() const
{
bool hasDocs=FALSE;
ArgumentListIterator ali(*this);
Argument *a;
for (ali.toFirst();!hasDocs && (a=ali.current());++ali)
{
hasDocs = hasDocs || a->hasDocumentation();
}
return hasDocs;
}
void align_template(Iterator begin, Iterator end,
int gap, score_matrix const & matrix,
Callable & callfunc)
{
typedef std::pair<std::string, simple_matrix2i> node_cache_type;
std::string query(begin, end);
alicont ali(query, gap, matrix);
trie<node_cache_type>* tmp;
copyTrie(&tmp);
std::string target;
std::stack<size_t> index_stack;
for (trie<node_cache_type>::iterator i = tmp->begin() + 1;
i != tmp->end();
++i)
{
target.push_back(i.symbol());
if (!index_stack.empty() && i.prev().fork() &&
i.prev().index() != index_stack.top())
{
while (!index_stack.empty() && index_stack.top() != i.prev().index())
{
*(tmp->iter(index_stack.top())) = node_cache_type();
index_stack.pop();
ali.pop();
}
}
if (i.leaf())
{
*i = std::move(std::make_pair(target, ali.score(target)));
ali.push(i->first, &(i->second));
index_stack.push(i.index());
target.clear();
alignment_result res = ali.alignment();
res.target_id = iter(i.index())->back().record;
if (!callfunc(std::move(res)))
{
break;
}
}
else if (i.fork())
{
*i = std::move(std::make_pair(target, ali.score(target)));
ali.push(i->first, &(i->second));
index_stack.push(i.index());
target.clear();
}
}
delete tmp;
}
void marshalArgumentLists(StorageIntf *s,QList<ArgumentList> *argLists)
{
if (argLists==0)
{
marshalUInt(s,NULL_LIST); // null pointer representation
}
else
{
marshalUInt(s,argLists->count());
QListIterator<ArgumentList> ali(*argLists);
ArgumentList *al;
for (ali.toFirst();(al=ali.current());++ali)
{
marshalArgumentList(s,al);
}
}
}
ArgumentList *ArgumentList::deepCopy() const
{
ArgumentList *argList = new ArgumentList;
argList->setAutoDelete(TRUE);
QListIterator<Argument> ali(*this);
Argument *a;
for (;(a=ali.current());++ali)
{
argList->append(new Argument(*a));
}
argList->constSpecifier = constSpecifier;
argList->volatileSpecifier = volatileSpecifier;
argList->pureSpecifier = pureSpecifier;
argList->trailingReturnType = trailingReturnType;
argList->isDeleted = isDeleted;
return argList;
}
static void writeTemplateArgumentList(sqlite3* /*db*/,
ArgumentList * /*al*/,
Definition * /*scope*/,
FileDef * /*fileScope*/,
int /*indent*/)
{
#if 0
QCString indentStr;
indentStr.fill(' ',indent);
if (al)
{
t << indentStr << "<templateparamlist>" << endl;
ArgumentListIterator ali(*al);
Argument *a;
for (ali.toFirst();(a=ali.current());++ali)
{
t << indentStr << " <param>" << endl;
if (!a->type.isEmpty())
{
t << indentStr << " <type>";
linkifyText(TextGeneratorXMLImpl(t),scope,fileScope,0,a->type);
t << "</type>" << endl;
}
if (!a->name.isEmpty())
{
t << indentStr << " <declname>" << a->name << "</declname>" << endl;
t << indentStr << " <defname>" << a->name << "</defname>" << endl;
}
if (!a->defval.isEmpty())
{
t << indentStr << " <defval>";
linkifyText(TextGeneratorXMLImpl(t),scope,fileScope,0,a->defval);
t << "</defval>" << endl;
}
t << indentStr << " </param>" << endl;
}
t << indentStr << "</templateparamlist>" << endl;
}
#endif
}
void generateDEFForMember(MemberDef *md,
FTextStream &t,
Definition *def,
const char* Prefix)
{
QCString memPrefix;
// + declaration
// - reimplements
// - reimplementedBy
// - exceptions
// - const/volatile specifiers
// - examples
// + source definition
// - source references
// - source referenced by
// - include code
if (md->memberType()==MemberDef::EnumValue) return;
QCString scopeName;
if (md->getClassDef())
scopeName=md->getClassDef()->name();
else if (md->getNamespaceDef())
scopeName=md->getNamespaceDef()->name();
t << " " << Prefix << "-member = {" << endl;
memPrefix = " ";
memPrefix.append( Prefix );
memPrefix.append( "-mem-" );
QCString memType;
bool isFunc=FALSE;
switch (md->memberType())
{
case MemberDef::Define: memType="define"; break;
case MemberDef::EnumValue: ASSERT(0); break;
case MemberDef::Property: memType="property"; break;
case MemberDef::Event: memType="event"; break;
case MemberDef::Variable: memType="variable"; break;
case MemberDef::Typedef: memType="typedef"; break;
case MemberDef::Enumeration: memType="enum"; break;
case MemberDef::Function: memType="function"; isFunc=TRUE; break;
case MemberDef::Signal: memType="signal"; isFunc=TRUE; break;
case MemberDef::Friend: memType="friend"; isFunc=TRUE; break;
case MemberDef::DCOP: memType="dcop"; isFunc=TRUE; break;
case MemberDef::Slot: memType="slot"; isFunc=TRUE; break;
}
t << memPrefix << "kind = '" << memType << "';" << endl;
t << memPrefix << "id = '"
<< md->getOutputFileBase() << "_1" << md->anchor()
<< "';" << endl;
t << memPrefix << "virt = ";
switch (md->virtualness())
{
case Normal: t << "normal;" << endl; break;
case Virtual: t << "virtual;" << endl; break;
case Pure: t << "pure-virtual;" << endl; break;
default: ASSERT(0);
}
t << memPrefix << "prot = ";
switch(md->protection())
{
case Public: t << "public;" << endl; break;
case Protected: t << "protected;" << endl; break;
case Private: t << "private;" << endl; break;
case Package: t << "package;" << endl; break;
}
if (md->memberType()!=MemberDef::Define &&
md->memberType()!=MemberDef::Enumeration
)
{
QCString typeStr = replaceAnonymousScopes(md->typeString());
t << memPrefix << "type = <<_EnD_oF_dEf_TeXt_" << endl << typeStr << endl
<< "_EnD_oF_dEf_TeXt_;" << endl;
}
t << memPrefix << "name = '" << md->name() << "';" << endl;
if (isFunc) //function
{
ArgumentList *declAl = new ArgumentList;
LockingPtr<ArgumentList> defAl = md->argumentList();
stringToArgumentList(md->argsString(),declAl);
QCString fcnPrefix = " " + memPrefix + "param-";
if (declAl->count()>0)
{
ArgumentListIterator declAli(*declAl);
ArgumentListIterator defAli(*defAl);
Argument *a;
for (declAli.toFirst();(a=declAli.current());++declAli)
{
Argument *defArg = defAli.current();
t << memPrefix << "param = {" << endl;
if (!a->attrib.isEmpty())
{
t << fcnPrefix << "attributes = ";
writeDEFString(t,a->attrib);
t << ';' << endl;
}
if (!a->type.isEmpty())
{
t << fcnPrefix << "type = <<_EnD_oF_dEf_TeXt_" << endl
<< a->type << endl << "_EnD_oF_dEf_TeXt_;" << endl;
}
if (!a->name.isEmpty())
{
t << fcnPrefix << "declname = ";
writeDEFString(t,a->name);
t << ';' << endl;
}
if (defArg && !defArg->name.isEmpty() && defArg->name!=a->name)
{
t << fcnPrefix << "defname = ";
writeDEFString(t,defArg->name);
t << ';' << endl;
}
if (!a->array.isEmpty())
{
t << fcnPrefix << "array = ";
writeDEFString(t,a->array);
t << ';' << endl;
}
if (!a->defval.isEmpty())
{
t << fcnPrefix << "defval = <<_EnD_oF_dEf_TeXt_" << endl
<< a->defval << endl << "_EnD_oF_dEf_TeXt_;" << endl;
}
if (defArg) ++defAli;
t << " }; /*" << fcnPrefix << "-param */" << endl;
}
}
delete declAl;
}
else if ( md->memberType()==MemberDef::Define
&& md->argsString()!=0)
{
ArgumentListIterator ali(*md->argumentList());
Argument *a;
QCString defPrefix = " " + memPrefix + "def-";
for (ali.toFirst();(a=ali.current());++ali)
{
t << memPrefix << "param = {" << endl;
t << defPrefix << "name = '" << a->type << "';" << endl;
t << " }; /*" << defPrefix << "-param */" << endl;
}
}
if (!md->initializer().isEmpty())
{
t << memPrefix << "initializer = <<_EnD_oF_dEf_TeXt_" << endl
<< md->initializer() << endl << "_EnD_oF_dEf_TeXt_;" << endl;
}
// TODO: exceptions, const volatile
if (md->memberType()==MemberDef::Enumeration) // enum
{
LockingPtr<MemberList> enumList = md->enumFieldList();
if (enumList!=0)
{
MemberListIterator emli(*enumList);
MemberDef *emd;
for (emli.toFirst();(emd=emli.current());++emli)
{
t << memPrefix << "enum = { enum-name = " << emd->name() << ';';
if (!emd->initializer().isEmpty())
{
t << " enum-value = ";
writeDEFString(t,emd->initializer());
t << ';';
}
t << " };" << endl;
}
}
}
t << memPrefix << "desc-file = '" << md->getDefFileName() << "';" << endl;
t << memPrefix << "desc-line = '" << md->getDefLine() << "';" << endl;
t << memPrefix << "briefdesc = <<_EnD_oF_dEf_TeXt_" << endl
<< md->briefDescription() << endl << "_EnD_oF_dEf_TeXt_;" << endl;
t << memPrefix << "documentation = <<_EnD_oF_dEf_TeXt_" << endl
<< md->documentation() << endl << "_EnD_oF_dEf_TeXt_;" << endl;
//printf("md->getReferencesMembers()=%p\n",md->getReferencesMembers());
LockingPtr<MemberSDict> mdict = md->getReferencesMembers();
if (!mdict.isNull())
{
MemberSDict::Iterator mdi(*mdict);
MemberDef *rmd;
QCString refPrefix = " " + memPrefix + "ref-";
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
if (rmd->getStartBodyLine()!=-1 && rmd->getBodyDef())
{
t << memPrefix << "referenceto = {" << endl;
t << refPrefix << "id = '"
<< rmd->getBodyDef()->getOutputFileBase()
<< "_1" // encoded `:' character (see util.cpp:convertNameToFile)
<< rmd->anchor() << "';" << endl;
t << refPrefix << "line = '"
<< rmd->getStartBodyLine() << "';" << endl;
QCString scope = rmd->getScopeString();
QCString name = rmd->name();
if (!scope.isEmpty() && scope!=def->name())
{
name.prepend(scope+"::");
}
t << refPrefix << "name = ";
writeDEFString(t,name);
t << ';' << endl << " };" << endl;
}
} /* for (mdi.toFirst...) */
}
mdict = md->getReferencedByMembers();
if (!mdict.isNull())
{
MemberSDict::Iterator mdi(*mdict);
MemberDef *rmd;
QCString refPrefix = " " + memPrefix + "ref-";
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
if (rmd->getStartBodyLine()!=-1 && rmd->getBodyDef())
{
t << memPrefix << "referenceby = {" << endl;
t << refPrefix << "id = '"
<< rmd->getBodyDef()->getOutputFileBase()
<< "_1" // encoded `:' character (see util.cpp:convertNameToFile)
<< rmd->anchor() << "';" << endl;
t << refPrefix << "line = '"
<< rmd->getStartBodyLine() << "';" << endl;
QCString scope = rmd->getScopeString();
QCString name = rmd->name();
if (!scope.isEmpty() && scope!=def->name())
{
name.prepend(scope+"::");
}
t << refPrefix << "name = ";
writeDEFString(t,name);
t << ';' << endl << " };" << endl;
}
} /* for (mdi.toFirst...) */
}
t << " }; /* " << Prefix << "-member */" << endl;
}
static void generateSqlite3ForMember(sqlite3*db,MemberDef *md,Definition *def)
{
// + declaration/definition arg lists
// + reimplements
// + reimplementedBy
// + exceptions
// + const/volatile specifiers
// - examples
// + source definition
// + source references
// + source referenced by
// - body code
// + template arguments
// (templateArguments(), definitionTemplateParameterLists())
// - call graph
// enum values are written as part of the enum
if (md->memberType()==MemberType_EnumValue) return;
if (md->isHidden()) return;
//if (md->name().at(0)=='@') return; // anonymous member
// group members are only visible in their group
//if (def->definitionType()!=Definition::TypeGroup && md->getGroupDef()) return;
QCString memType;
#if 0
// member
idx = sqlite3_bind_parameter_index(stmt, ":refid");
sqlite3_bind_text(stmt, idx, memberOutputFileBase(md).data(),-1,SQLITE_TRANSIENT);
idx = sqlite3_bind_parameter_index(stmt,":kind");
sqlite3_bind_int(stmt, idx, md->memberType());
idx = sqlite3_bind_parameter_index(stmt, ":name");
sqlite3_bind_text(stmt, idx, md->name().data(),-1,SQLITE_TRANSIENT);
#endif
// memberdef
bindTextParameter(i_s_memberdef,":refid",md->anchor());
bindIntParameter(i_s_memberdef,":kind",md->memberType());
bindIntParameter(i_s_memberdef,":prot",md->protection());
bindIntParameter(i_s_memberdef,":static",md->isStatic());
bool isFunc=FALSE;
switch (md->memberType())
{
case MemberType_Function: // fall through
case MemberType_Signal: // fall through
case MemberType_Friend: // fall through
case MemberType_DCOP: // fall through
case MemberType_Slot:
isFunc=TRUE;
break;
default:
break;
}
if (isFunc)
{
LockingPtr<ArgumentList> al = md->argumentList();
if (al!=0 && al->constSpecifier)
{
bindIntParameter(i_s_memberdef,":const",al->constSpecifier);
}
bindIntParameter(i_s_memberdef,":explicit",md->isExplicit());
bindIntParameter(i_s_memberdef,":inline",md->isInline());
bindIntParameter(i_s_memberdef,":final",md->isFinal());
bindIntParameter(i_s_memberdef,":sealed",md->isSealed());
bindIntParameter(i_s_memberdef,":new",md->isNew());
bindIntParameter(i_s_memberdef,":optional",md->isOptional());
bindIntParameter(i_s_memberdef,":required",md->isRequired());
bindIntParameter(i_s_memberdef,":virt",md->virtualness());
}
// place in the arguments and linkify the arguments
if (md->memberType() == MemberType_Variable)
{
bindIntParameter(i_s_memberdef,":mutable",md->isMutable());
bindIntParameter(i_s_memberdef,":initonly",md->isInitonly());
}
else if (md->memberType() == MemberType_Property)
{
bindIntParameter(i_s_memberdef,":readable",md->isReadable());
bindIntParameter(i_s_memberdef,":writable",md->isWritable());
bindIntParameter(i_s_memberdef,":gettable",md->isGettable());
bindIntParameter(i_s_memberdef,":settable",md->isSettable());
if (md->isAssign() || md->isCopy() || md->isRetain())
{
int accessor = md->isAssign() ? md->isAssign() :
(md->isCopy() ? md->isCopy() : md->isRetain()) ;
bindIntParameter(i_s_memberdef,":accessor",accessor);
}
}
else if (md->memberType() == MemberType_Event)
{
bindIntParameter(i_s_memberdef,":addable",md->isAddable());
bindIntParameter(i_s_memberdef,":removable",md->isRemovable());
bindIntParameter(i_s_memberdef,":raisable",md->isRaisable());
}
if (md->memberType()!=MemberType_Define &&
md->memberType()!=MemberType_Enumeration
)
{
QCString typeStr = md->typeString();
stripQualifiers(typeStr);
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,typeStr);
if (typeStr.data())
{
bindTextParameter(i_s_memberdef,":type",typeStr);
}
if (md->definition())
{
bindTextParameter(i_s_memberdef,":definition",md->definition());
}
if (md->argsString())
{
bindTextParameter(i_s_memberdef,":argsstring",md->argsString());
}
}
bindTextParameter(i_s_memberdef,":name",md->name());
if (md->memberType() == MemberType_Property)
{
if (md->isReadable())
{
DBG_CTX(("<read>\n"));
}
if (md->isWritable())
{
DBG_CTX(("<write>\n"));
}
}
#if 0
if (md->memberType()==MemberType_Variable && md->bitfieldString())
{
QCString bitfield = md->bitfieldString();
if (bitfield.at(0)==':') bitfield=bitfield.mid(1);
t << " <bitfield>" << bitfield << "</bitfield>" << endl;
}
MemberDef *rmd = md->reimplements();
if (rmd)
{
t << " <reimplements refid=\""
<< memberOutputFileBase(rmd) << "_1" << rmd->anchor() << "\">"
<< convertToXML(rmd->name()) << "</reimplements>" << endl;
}
LockingPtr<MemberList> rbml = md->reimplementedBy();
if (rbml!=0)
{
MemberListIterator mli(*rbml);
for (mli.toFirst();(rmd=mli.current());++mli)
{
t << " <reimplementedby refid=\""
<< memberOutputFileBase(rmd) << "_1" << rmd->anchor() << "\">"
<< convertToXML(rmd->name()) << "</reimplementedby>" << endl;
}
}
#endif
if (isFunc) //function
{
LockingPtr<ArgumentList> declAl = md->declArgumentList();
LockingPtr<ArgumentList> defAl = md->argumentList();
if (declAl!=0 && declAl->count()>0)
{
ArgumentListIterator declAli(*declAl);
ArgumentListIterator defAli(*defAl);
Argument *a;
for (declAli.toFirst();(a=declAli.current());++declAli)
{
Argument *defArg = defAli.current();
DBG_CTX(("<param>\n"));
if (!a->attrib.isEmpty())
{
DBG_CTX(("<attributes>:%s\n",a->attrib.data()));
}
if (!a->type.isEmpty())
{
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,a->type);
QCString *s=l.first();
while (s)
{
insertMemberReference(db,md->anchor().data(),s->data(),def->getDefFileName().data(),md->getDefLine(),1);
s=l.next();
}
}
if (!a->name.isEmpty())
{
DBG_CTX(("<declname>%s\n",a->name.data()));
}
if (defArg && !defArg->name.isEmpty() && defArg->name!=a->name)
{
DBG_CTX(("<defname>%s\n",defArg->name.data()));
}
if (!a->array.isEmpty())
{
DBG_CTX(("<array>%s",a->array.data()));
}
if (!a->defval.isEmpty())
{
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,a->defval);
}
if (defArg) ++defAli;
}
}
}
else if (md->memberType()==MemberType_Define &&
md->argsString()) // define
{
if (md->argumentList()->count()==0) // special case for "foo()" to
// disguish it from "foo".
{
DBG_CTX(("no params\n"));
}
else
{
ArgumentListIterator ali(*md->argumentList());
Argument *a;
for (ali.toFirst();(a=ali.current());++ali)
{
DBG_CTX(("<param><defname>%s\n",a->type.data()));
}
}
}
// Extract references from initializer
// avoid that extremely large tables are written to the output.
// todo: it's better to adhere to MAX_INITIALIZER_LINES.
// drm_mod_register_buffer,
if (!md->initializer().isEmpty() && md->initializer().length()<2000)
{
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,md->initializer());
QCString *s=l.first();
while (s)
{
DBG_CTX(("initializer:%s %s %s %d\n",
md->anchor().data(),
s->data(),
md->getBodyDef()->getDefFileName().data(),
md->getStartBodyLine()));
insertMemberReference(db,md->anchor().data(),s->data(),md->getBodyDef()->getDefFileName().data(),md->getStartBodyLine(),1);
s=l.next();
}
}
#if 0
if (md->excpString())
{
linkifyText(TextGeneratorXMLImpl(t),def,md->getBodyDef(),md,md->excpString());
}
#endif
if ( md->getScopeString() )
{
bindTextParameter(i_s_memberdef,":scope",md->getScopeString());
}
// File location
if (md->getDefLine() != -1)
{
int id_file = insertFile(db,md->getDefFileName());
if (id_file!=-1)
{
bindIntParameter(i_s_memberdef,":id_file",id_file);
bindIntParameter(i_s_memberdef,":line",md->getDefLine());
bindIntParameter(i_s_memberdef,":column",md->getDefColumn());
if (md->getStartBodyLine()!=-1)
{
int id_bfile = insertFile(db,md->getBodyDef()->absFilePath());
if (id_bfile == -1) exit(-1);
bindIntParameter(i_s_memberdef,":id_ibfile",id_bfile);
bindIntParameter(i_s_memberdef,":bline",md->getStartBodyLine());
// XXX implement getStartBodyColumn
bindIntParameter(i_s_memberdef,":bcolumn",1);
}
}
}
step(db,i_s_memberdef);
/*int id_src =*/ sqlite3_last_insert_rowid(db);
// + cross-references
// The cross-references in initializers only work when both the src and dst
// are defined.
LockingPtr<MemberSDict> mdict = md->getReferencesMembers();
// references
if (mdict!=0)
{
MemberSDict::IteratorDict mdi(*mdict);
MemberDef *rmd;
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
insertMemberReference(db,md,rmd,mdi.currentKey());
}
}
mdict = md->getReferencedByMembers();
// referencedby
if (mdict!=0)
{
MemberSDict::IteratorDict mdi(*mdict);
MemberDef *rmd;
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
insertMemberReference(db,rmd,md,mdi.currentKey());
}
}
}
void nl80211::setup_family(boost::system::error_code& ec)
{
genetlink::message msg;
msg.flags(netlink::message::request | netlink::message::ack);
msg.command(genetlink::message::cmd_get_family);
msg.version(1);
msg.push_attr(genetlink::message::attr_family_name, "nl80211", 8);
_gnl.send(msg.cbuffer());
size_t rbytes = _gnl.receive(boost::asio::buffer(_buffer));
for (netlink::message_iterator mit(_buffer, rbytes); mit; ++mit) {
if (mit.type() == netlink::message::error) {
ec = boost::system::error_code(mit.error(), boost::system::system_category());
return;
}
if (mit.type() == netlink::message::min_type) {
genetlink::message rmsg(mit.get());
for (netlink::attribute_iterator ai(rmsg); ai; ++ai) {
switch (ai.type()) {
case genetlink::message::attr_family_id:
_family = *ai.get<uint16>();
break;
case genetlink::message::attr_family_name:
BOOST_ASSERT(!strcmp(ai.get<const char>(), "nl80211"));
break;
case genetlink::message::attr_version:
_version = *ai.get<uint32>();
break;
case genetlink::message::attr_hdrsize:
_hdrsize = *ai.get<uint32>();
break;
case genetlink::message::attr_mcast_groups:
for (netlink::attribute_iterator ali(rmsg, ai); ali; ++ali) {
const char* name = nullptr;
uint32 id = 0;
for (netlink::attribute_iterator aei(rmsg, ali); aei; ++aei) {
switch (aei.type()) {
case genetlink::message::attr_mcast_name:
name = aei.get<const char>();
break;
case genetlink::message::attr_mcast_id:
id = *aei.get<uint32>();
break;
}
}
if (name && !strcmp(name, "mlme")) {
_mlne_mcast_id = id;
break;
}
}
break;
}
}
break;
}
}
}
Entry::Entry(const Entry &e)
{
num++;
section = e.section;
protection = e.protection;
mtype = e.mtype;
stat = e.stat;
explicitExternal = e.explicitExternal;
virt = e.virt;
parent = e.parent;
type = e.type.copy();
name = e.name.copy();
args = e.args.copy();
bitfields = e.bitfields.copy();
exception = e.exception.copy();
program = e.program.copy();
includeFile = e.includeFile.copy();
includeName = e.includeFile.copy();
doc = e.doc.copy();
docLine = e.docLine;
docFile = e.docFile.copy();
relates = e.relates.copy();
relatesDup = e.relatesDup;
read = e.read.copy();
write = e.write.copy();
brief = e.brief.copy();
briefLine = e.briefLine;
briefFile = e.briefFile.copy();
inbodyDocs = e.inbodyDocs.copy();
inbodyLine = e.inbodyLine;
inbodyFile = e.inbodyFile.copy();
inside = e.inside.copy();
fileName = e.fileName.copy();
startLine = e.startLine;
mGrpId = e.mGrpId;
bodyLine = e.bodyLine;
endBodyLine = e.endBodyLine;
memSpec = e.memSpec;
initializer = e.initializer;
initLines = e.initLines;
callGraph = e.callGraph;
callerGraph = e.callerGraph;
objc = e.objc;
tagInfo = e.tagInfo;
hidden = e.hidden;
sublist = new QList<Entry>;
sublist->setAutoDelete(TRUE);
extends = new QList<BaseInfo>;
extends->setAutoDelete(TRUE);
groups = new QList<Grouping>;
groups->setAutoDelete(TRUE);
anchors = new QList<SectionInfo>;
argList = new ArgumentList;
argList->setAutoDelete(TRUE);
tArgLists = 0;
groupDocType = e.groupDocType;
// deep copy of the child entry list
QListIterator<Entry> eli(*e.sublist);
Entry *cur;
for (;(cur=eli.current());++eli)
{
sublist->append(new Entry(*cur));
}
// deep copy base class list
QListIterator<BaseInfo> bli(*e.extends);
BaseInfo *bi;
for (;(bi=bli.current());++bli)
{
extends->append(new BaseInfo(*bi));
}
// deep copy group list
QListIterator<Grouping> gli(*e.groups);
Grouping *g;
for (;(g=gli.current());++gli)
{
groups->append(new Grouping(*g));
}
QListIterator<SectionInfo> sli2(*e.anchors);
SectionInfo *s;
for (;(s=sli2.current());++sli2)
{
anchors->append(new SectionInfo(*s));
}
// deep copy argument list
QListIterator<Argument> ali(*e.argList);
Argument *a;
for (;(a=ali.current());++ali)
{
argList->append(new Argument(*a));
}
argList->constSpecifier = e.argList->constSpecifier;
argList->volatileSpecifier = e.argList->volatileSpecifier;
argList->pureSpecifier = e.argList->pureSpecifier;
// deep copy template argument lists
if (e.tArgLists)
{
tArgLists = copyArgumentLists(e.tArgLists);
}
if (e.sli)
{
sli = new QList<ListItemInfo>;
sli->setAutoDelete(TRUE);
QListIterator<ListItemInfo> slii(*e.sli);
ListItemInfo *ili;
for (slii.toFirst();(ili=slii.current());++slii)
{
sli->append(new ListItemInfo(*ili));
}
}
else
{
sli=0;
}
}
static void generateSqlite3ForMember(sqlite3*db,MemberDef *md,Definition *def)
{
// + declaration/definition arg lists
// + reimplements
// + reimplementedBy
// + exceptions
// + const/volatile specifiers
// - examples
// + source definition
// + source references
// + source referenced by
// - body code
// + template arguments
// (templateArguments(), definitionTemplateParameterLists())
// - call graph
// enum values are written as part of the enum
if (md->memberType()==MemberType_EnumValue) return;
if (md->isHidden()) return;
//if (md->name().at(0)=='@') return; // anonymous member
// group members are only visible in their group
//if (def->definitionType()!=Definition::TypeGroup && md->getGroupDef()) return;
QCString memType;
// memberdef
bindTextParameter(i_s_memberdef,":refid",md->anchor().data(),FALSE);
bindIntParameter(i_s_memberdef,":kind",md->memberType());
bindIntParameter(i_s_memberdef,":prot",md->protection());
bindIntParameter(i_s_memberdef,":static",md->isStatic());
bool isFunc=FALSE;
switch (md->memberType())
{
case MemberType_Function: // fall through
case MemberType_Signal: // fall through
case MemberType_Friend: // fall through
case MemberType_DCOP: // fall through
case MemberType_Slot:
isFunc=TRUE;
break;
default:
break;
}
if (isFunc)
{
ArgumentList *al = md->argumentList();
if (al!=0 && al->constSpecifier)
{
bindIntParameter(i_s_memberdef,":const",al->constSpecifier);
}
bindIntParameter(i_s_memberdef,":explicit",md->isExplicit());
bindIntParameter(i_s_memberdef,":inline",md->isInline());
bindIntParameter(i_s_memberdef,":final",md->isFinal());
bindIntParameter(i_s_memberdef,":sealed",md->isSealed());
bindIntParameter(i_s_memberdef,":new",md->isNew());
bindIntParameter(i_s_memberdef,":optional",md->isOptional());
bindIntParameter(i_s_memberdef,":required",md->isRequired());
bindIntParameter(i_s_memberdef,":virt",md->virtualness());
}
// place in the arguments and linkify the arguments
if (md->memberType() == MemberType_Variable)
{
bindIntParameter(i_s_memberdef,":mutable",md->isMutable());
bindIntParameter(i_s_memberdef,":initonly",md->isInitonly());
}
else if (md->memberType() == MemberType_Property)
{
bindIntParameter(i_s_memberdef,":readable",md->isReadable());
bindIntParameter(i_s_memberdef,":writable",md->isWritable());
bindIntParameter(i_s_memberdef,":gettable",md->isGettable());
bindIntParameter(i_s_memberdef,":settable",md->isSettable());
if (md->isAssign() || md->isCopy() || md->isRetain())
{
int accessor = md->isAssign() ? md->isAssign() :
(md->isCopy() ? md->isCopy() : md->isRetain()) ;
bindIntParameter(i_s_memberdef,":accessor",accessor);
}
}
else if (md->memberType() == MemberType_Event)
{
bindIntParameter(i_s_memberdef,":addable",md->isAddable());
bindIntParameter(i_s_memberdef,":removable",md->isRemovable());
bindIntParameter(i_s_memberdef,":raisable",md->isRaisable());
}
// + declaration/definition arg lists
if (md->memberType()!=MemberType_Define &&
md->memberType()!=MemberType_Enumeration
)
{
QCString typeStr = md->typeString();
stripQualifiers(typeStr);
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,typeStr);
if (typeStr.data())
{
bindTextParameter(i_s_memberdef,":type",typeStr.data(),FALSE);
}
if (md->definition())
{
bindTextParameter(i_s_memberdef,":definition",md->definition());
}
if (md->argsString())
{
bindTextParameter(i_s_memberdef,":argsstring",md->argsString());
}
}
bindTextParameter(i_s_memberdef,":name",md->name());
if (md->memberType() == MemberType_Property)
{
if (md->isReadable())
{
DBG_CTX(("<read>\n"));
}
if (md->isWritable())
{
DBG_CTX(("<write>\n"));
}
}
if (isFunc) //function
{
ArgumentList *declAl = md->declArgumentList();
ArgumentList *defAl = md->argumentList();
if (declAl!=0 && declAl->count()>0)
{
ArgumentListIterator declAli(*declAl);
ArgumentListIterator defAli(*defAl);
Argument *a;
for (declAli.toFirst();(a=declAli.current());++declAli)
{
Argument *defArg = defAli.current();
DBG_CTX(("<param>\n"));
if (!a->attrib.isEmpty())
{
DBG_CTX(("<attributes>:%s\n",a->attrib.data()));
}
if (!a->type.isEmpty())
{
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,a->type);
StringListIterator li(l);
QCString *s;
while ((s=li.current()))
{
insertMemberReference(db,md->anchor().data(),s->data(),def->getDefFileName().data(),md->getDefLine(),1);
++li;
}
}
if (!a->name.isEmpty())
{
DBG_CTX(("<declname>%s\n",a->name.data()));
}
if (defArg && !defArg->name.isEmpty() && defArg->name!=a->name)
{
DBG_CTX(("<defname>%s\n",defArg->name.data()));
}
if (!a->array.isEmpty())
{
DBG_CTX(("<array>%s",a->array.data()));
}
if (!a->defval.isEmpty())
{
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,a->defval);
}
if (defArg) ++defAli;
}
}
}
else if (md->memberType()==MemberType_Define &&
md->argsString()) // define
{
if (md->argumentList()->count()==0) // special case for "foo()" to
// disguish it from "foo".
{
DBG_CTX(("no params\n"));
}
else
{
ArgumentListIterator ali(*md->argumentList());
Argument *a;
for (ali.toFirst();(a=ali.current());++ali)
{
DBG_CTX(("<param><defname>%s\n",a->type.data()));
}
}
}
// Extract references from initializer
// avoid that extremely large tables are written to the output.
// todo: it's better to adhere to MAX_INITIALIZER_LINES.
// drm_mod_register_buffer,
if (!md->initializer().isEmpty() && md->initializer().length()<2000)
{
bindTextParameter(i_s_memberdef,":initializer",md->initializer().data());
StringList l;
linkifyText(TextGeneratorSqlite3Impl(l),def,md->getBodyDef(),md,md->initializer());
StringListIterator li(l);
QCString *s;
while ((s=li.current()))
{
if (md->getBodyDef())
{
DBG_CTX(("initializer:%s %s %s %d\n",
md->anchor().data(),
s->data(),
md->getBodyDef()->getDefFileName().data(),
md->getStartBodyLine()));
insertMemberReference(db,md->anchor().data(),s->data(),md->getBodyDef()->getDefFileName().data(),md->getStartBodyLine(),1);
}
++li;
}
}
if ( md->getScopeString() )
{
bindTextParameter(i_s_memberdef,":scope",md->getScopeString().data(),FALSE);
}
// Brief and detail description
bindTextParameter(i_s_memberdef,":briefdescription",md->briefDescription(),FALSE);
bindTextParameter(i_s_memberdef,":detaileddescription",md->documentation(),FALSE);
bindTextParameter(i_s_memberdef,":inbodydescription",md->inbodyDocumentation(),FALSE);
// File location
if (md->getDefLine() != -1)
{
int id_file = insertFile(db,md->getDefFileName());
if (id_file!=-1)
{
bindIntParameter(i_s_memberdef,":id_file",id_file);
bindIntParameter(i_s_memberdef,":line",md->getDefLine());
bindIntParameter(i_s_memberdef,":column",md->getDefColumn());
if (md->getStartBodyLine()!=-1)
{
int id_bodyfile = insertFile(db,md->getBodyDef()->absFilePath());
if (id_bodyfile == -1)
{
sqlite3_clear_bindings(i_s_memberdef);
}
else
{
bindIntParameter(i_s_memberdef,":id_bodyfile",id_bodyfile);
bindIntParameter(i_s_memberdef,":bodystart",md->getStartBodyLine());
bindIntParameter(i_s_memberdef,":bodyend",md->getEndBodyLine());
}
}
}
}
if (-1==step(db,i_s_memberdef))
{
sqlite3_clear_bindings(i_s_memberdef);
}
sqlite3_last_insert_rowid(db);
// + source references
// The cross-references in initializers only work when both the src and dst
// are defined.
MemberSDict *mdict = md->getReferencesMembers();
if (mdict!=0)
{
MemberSDict::IteratorDict mdi(*mdict);
MemberDef *rmd;
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
insertMemberReference(db,md,rmd,mdi.currentKey());
}
}
// + source referenced by
mdict = md->getReferencedByMembers();
if (mdict!=0)
{
MemberSDict::IteratorDict mdi(*mdict);
MemberDef *rmd;
for (mdi.toFirst();(rmd=mdi.current());++mdi)
{
insertMemberReference(db,rmd,md,mdi.currentKey());
}
}
}
Entry::Entry(const Entry &e)
{
//printf("Entry::Entry(%p):copy\n",this);
num++;
section = e.section;
type = e.type;
name = e.name;
tagInfo = e.tagInfo;
protection = e.protection;
mtype = e.mtype;
spec = e.spec;
initLines = e.initLines;
stat = e.stat;
explicitExternal = e.explicitExternal;
proto = e.proto;
subGrouping = e.subGrouping;
callGraph = e.callGraph;
callerGraph = e.callerGraph;
virt = e.virt;
args = e.args;
bitfields = e.bitfields;
argList = new ArgumentList;
argList->setAutoDelete(TRUE);
tArgLists = 0;
program = e.program;
initializer = e.initializer;
includeFile = e.includeFile;
includeName = e.includeName;
doc = e.doc;
docLine = e.docLine;
docFile = e.docFile;
brief = e.brief;
briefLine = e.briefLine;
briefFile = e.briefFile;
inbodyDocs = e.inbodyDocs;
inbodyLine = e.inbodyLine;
inbodyFile = e.inbodyFile;
relates = e.relates;
relatesType = e.relatesType;
read = e.read;
write = e.write;
inside = e.inside;
exception = e.exception;
typeConstr = 0;
bodyLine = e.bodyLine;
endBodyLine = e.endBodyLine;
mGrpId = e.mGrpId;
extends = new QList<BaseInfo>;
extends->setAutoDelete(TRUE);
groups = new QList<Grouping>;
groups->setAutoDelete(TRUE);
anchors = new QList<SectionInfo>;
fileName = e.fileName;
startLine = e.startLine;
if (e.sli)
{
sli = new QList<ListItemInfo>;
sli->setAutoDelete(TRUE);
QListIterator<ListItemInfo> slii(*e.sli);
ListItemInfo *ili;
for (slii.toFirst();(ili=slii.current());++slii)
{
sli->append(new ListItemInfo(*ili));
}
}
else
{
sli=0;
}
lang = e.lang;
hidden = e.hidden;
artificial = e.artificial;
groupDocType = e.groupDocType;
m_parent = e.m_parent;
m_sublist = new QList<Entry>;
m_sublist->setAutoDelete(TRUE);
// deep copy of the child entry list
QListIterator<Entry> eli(*e.m_sublist);
Entry *cur;
for (;(cur=eli.current());++eli)
{
m_sublist->append(new Entry(*cur));
}
// deep copy base class list
QListIterator<BaseInfo> bli(*e.extends);
BaseInfo *bi;
for (;(bi=bli.current());++bli)
{
extends->append(new BaseInfo(*bi));
}
// deep copy group list
QListIterator<Grouping> gli(*e.groups);
Grouping *g;
for (;(g=gli.current());++gli)
{
groups->append(new Grouping(*g));
}
QListIterator<SectionInfo> sli2(*e.anchors);
SectionInfo *s;
for (;(s=sli2.current());++sli2)
{
anchors->append(new SectionInfo(*s));
}
// deep copy argument list
QListIterator<Argument> ali(*e.argList);
Argument *a;
for (;(a=ali.current());++ali)
{
argList->append(new Argument(*a));
}
argList->constSpecifier = e.argList->constSpecifier;
argList->volatileSpecifier = e.argList->volatileSpecifier;
argList->pureSpecifier = e.argList->pureSpecifier;
// deep copy type contraint list
if (e.typeConstr)
{
typeConstr = new ArgumentList;
typeConstr->setAutoDelete(TRUE);
QListIterator<Argument> tcli(*e.typeConstr);
for (;(a=tcli.current());++tcli)
{
typeConstr->append(new Argument(*a));
}
}
// deep copy template argument lists
if (e.tArgLists)
{
tArgLists = copyArgumentLists(e.tArgLists);
}
}
bool
TjSummaryReport::generateReport()
{
QString text;
text = i18n("<p><h1>Summary for Project %1 (Version %2)</h1></p><hr/>")
.arg(project->getName())
.arg(project->getVersion());
int disabledScenarios = 0;
for (ScenarioListIterator sli(project->getScenarioIterator()); *sli; ++sli)
if (!(*sli)->getEnabled())
disabledScenarios++;
text += "<table>";
text += i18n("<tr><td><b>Scenarios:</b></td><td>%1 (%2 disabled)</td></tr>")
.arg(project->getMaxScenarios())
.arg(disabledScenarios);
int groups= 0;
int workers = 0;
int other = 0;
for (ResourceListIterator rli(project->getResourceListIterator()); *rli;
++rli)
if ((*rli)->hasSubs())
groups++;
else if ((*rli)->getEfficiency() > 0.0)
workers++;
else
other++;
text += i18n("<tr><td><b>Resources:</b></td>"
"<td>%1 (%2 Groups, %3 Workers, %4 Other)</td></tr>")
.arg(project->resourceCount())
.arg(groups).arg(workers).arg(other);
int summaryAccounts = 0;
int cost = 0;
int revenue = 0;
for (AccountListIterator ali(project->getAccountListIterator()); *ali;
++ali)
if ((*ali)->hasSubs())
summaryAccounts++;
else if ((*ali)->getAcctType() == Cost)
cost++;
else
revenue++;
text += i18n("<tr><td><b>Accounts:</b></td>"
"<td>%1 (%2 Summary Accounts, %3 Cost Accounts, "
"%4 Revenue Accounts)</td></tr>")
.arg(project->accountCount())
.arg(summaryAccounts).arg(cost).arg(revenue);
int containers = 0;
int leafs = 0;
int milestones = 0;
for (TaskListIterator tli(project->getTaskListIterator()); *tli; ++tli)
if ((*tli)->hasSubs())
containers++;
else if ((*tli)->isMilestone())
milestones++;
else
leafs++;
text += i18n("<tr><td><b>Tasks:</b></td><td>%1 "
"(%2 Containers, %3 Milestones, %4 Leaves)</td></tr>"
"</table><hr/>")
.arg(project->taskCount())
.arg(containers).arg(milestones).arg(leafs);
textBrowser->setText(text);
return true;
}
void writeFunctionProto(OutputList& ol,const ArgumentList* al,const MemberDef* mdef)
{
if (al==0) return;
ArgumentListIterator ali(*al);
Argument *arg;
bool sem=FALSE;
int len=al->count();
ol.startBold();
ol.docify(" ( ");
ol.endBold();
if (len>2)
{
//ol.lineBreak();
ol.docify("\n ");;
}
for (;(arg=ali.current());++ali)
{
ol.startBold();
if (sem && len < 3)
{
ol.docify(" , ");
}
QCString nn=arg->name.simplifyWhiteSpace();
VerilogDocGen::adjustOpName(nn);
// nn+=" ";
VhdlDocGen::formatString(nn,ol,mdef);
QCString qargs=arg->type.simplifyWhiteSpace();
QCString att=arg->defval.simplifyWhiteSpace();
if (!att.isEmpty())
{
const QCString* str=VerilogDocGen::findKeyWord(att.data());
// att+=" ";
if (str==0)
VhdlDocGen::formatString(att,ol,mdef);
else
startFonts(att,str->data(),ol);
}
ol.docify(":");
//VhdlDocGen::startFonts("in ","stringliteral",ol);
const QCString* str=VerilogDocGen::findKeyWord(qargs.data());
// ol.startEmphasis();
if (str==0)
VhdlDocGen::formatString(qargs,ol,mdef);
else
startFonts(qargs,str->data(),ol);
// ol.endEmphasis();
sem=TRUE;
ol.endBold();
if (len > 2)
{
ol.docify("\n");;
//ol.lineBreak();
}
}
ol.startBold();
ol.docify(" )");
const char *exp=mdef->excpString();
if(exp)
{
ol.insertMemberAlign();
ol.docify("[ ");
ol.docify(exp);
ol.docify(" ]");
}
ol.endBold();
}
