#include <iostream>
#include <algorithm>
#include <map>
#include "ns3/object.h"
#include "ns3/pointer.h"
#include "ns3/object-vector.h"
#include "ns3/config.h"
#include "ns3/log.h"
#include "ns3/global-value.h"
#include "ns3/string.h"
#include "ns3/node-container.h"
#include "ns3/csma-channel.h"
using namespace ns3;
NS_LOG_COMPONENT_DEFINE ("PrintIntrospectedDoxygen");
namespace
{
std::string anchor; ///< hyperlink anchor
std::string boldStart; ///< start of bold span
std::string boldStop; ///< end of bold span
std::string breakBoth; ///< linebreak
std::string breakHtmlOnly; ///< linebreak for html output only
std::string breakTextOnly; ///< linebreak for text output only
std::string brief; ///< brief tag
std::string commentStart; ///< start of code comment
std::string commentStop; ///< end of code comment
std::string defgroupAttributeListStart; ///< start of AttributeList group
std::string defgroupAttributeListStop; ///< end of AttributeList group
std::string defgroupGlobalValueListStart; ///< start of GlobalValueList group
std::string defgroupGlobalValueListStop; ///< end of GlobalValueList group
std::string defgroupTraceSourceListStart; ///< start of TraceSourceList group
std::string defgroupTraceSourceListStop; ///< end of TraceSourceList group
std::string flagSpanStart; ///< start of Attribute flag value
std::string flagSpanStop; ///< end of Attribute flag value
std::string functionStart; ///< start of a class/function
std::string functionStop; ///< end of a class/function
std::string headingStart; ///< start of section heading (h3)
std::string headingStop; ///< end of section heading (h3)
std::string indentHtmlOnly; ///< small indent
std::string ingroupConstructs; ///< add to constructs group
std::string listStart; ///< start unordered list
std::string listStop; ///< end unordered list
std::string listLineStart; ///< start unordered list item
std::string listLineStop; ///< end unordered list item
std::string reference; ///< reference tag
std::string temporaryCharacter; ///< "%" placeholder
} // anonymous namespace
void
PrintAttributes (TypeId tid, std::ostream &os)
{
os << listStart << std::endl;
for (uint32_t j = 0; j < tid.GetAttributeN (); j++)
{
struct TypeId::AttributeInformation info = tid.GetAttribute(j);
os << listLineStart << boldStart << info.name << boldStop << ": "
<< info.help << std::endl;
os << " " << listStart << std::endl
<< " " << listLineStart << "Set with class: " << reference << info.checker->GetValueTypeName () << listLineStop << std::endl;
if (info.checker->HasUnderlyingTypeInformation ())
{
os << " " << listLineStart << "Underlying type: ";
if ( (info.checker->GetValueTypeName () != "ns3::EnumValue")
&& (info.checker->GetUnderlyingTypeInformation () != "std::string")
)
{
os << reference;
}
os << info.checker->GetUnderlyingTypeInformation () << listLineStop << std::endl;
}
if (info.flags & TypeId::ATTR_CONSTRUCT && info.accessor->HasSetter ())
{
os << " " << listLineStart << "Initial value: " << info.initialValue->SerializeToString (info.checker) << listLineStop << std::endl;
}
os << " " << listLineStart << "Flags: ";
if (info.flags & TypeId::ATTR_CONSTRUCT && info.accessor->HasSetter ())
{
os << flagSpanStart << "construct " << flagSpanStop;
}
if (info.flags & TypeId::ATTR_SET && info.accessor->HasSetter ())
{
os << flagSpanStart << "write " << flagSpanStop;
}
if (info.flags & TypeId::ATTR_GET && info.accessor->HasGetter ())
{
os << flagSpanStart << "read " << flagSpanStop;
}
os << listLineStop << std::endl;
os << " " << listStop << " " << std::endl;
}
os << listStop << std::endl;
}
void
PrintTraceSources (TypeId tid, std::ostream &os)
{
os << listStart << std::endl;
for (uint32_t i = 0; i < tid.GetTraceSourceN (); ++i)
{
struct TypeId::TraceSourceInformation info = tid.GetTraceSource (i);
os << listLineStart << boldStart << info.name << boldStop << ": "
<< info.help
<< std::endl;
os << listLineStop << std::endl;
}
os << listStop << std::endl;
}
/**
* Gather aggregation and configuration path information from registered types.
*/
class StaticInformation
{
public:
/**
* Record the a -> b aggregation relation.
*
* \param a [in] the source(?) TypeId name
* \param b [in] the destination(?) TypeId name
*/
void RecordAggregationInfo (std::string a, std::string b);
/**
* Gather aggregation and configuration path information for tid
*
* \param tid [in] the TypeId to gather information from
*/
void Gather (TypeId tid);
/**
* Print output in "a -> b" form on std::cout
*/
void Print (void) const;
/**
* \return the configuration paths for tid
*
* \param tid [in] the TypeId to return information for
*/
std::vector<std::string> Get (TypeId tid);
private:
/**
* \return the current configuration path
*/
std::string GetCurrentPath (void) const;
/**
* Gather attribute, configuration path information for tid
*
* \param tid [in] the TypeId to gather information from
*/
void DoGather (TypeId tid);
/**
* Record the current config path for tid.
*
* \param tid [in] the TypeId to record.
*/
void RecordOutput (TypeId tid);
/**
* \return whether the tid has already been processed
*
* \param tid [in] the TypeId to check.
*/
bool HasAlreadyBeenProcessed (TypeId tid) const;
/**
* (Inplace) find and replace all instances of string
*
* \param source [inout] string to search and replace in
* \param find [in] string to search for
* \param replace [in] string to insert in place of find
*/
void find_and_replace (std::string &source, const std::string find, std::string replace );
/**
* Configuration path for each TypeId
*/
std::vector<std::pair<TypeId,std::string> > m_output;
/**
* Current configuration path
*/
std::vector<std::string> m_currentPath;
/**
* List of TypeIds we've already processed
*/
std::vector<TypeId> m_alreadyProcessed;
/**
* List of aggregation relationships.
*/
std::vector<std::pair<TypeId,TypeId> > m_aggregates;
};
void
StaticInformation::RecordAggregationInfo (std::string a, std::string b)
{
m_aggregates.push_back (std::make_pair (TypeId::LookupByName (a), TypeId::LookupByName (b)));
}
void
StaticInformation::Print (void) const
{
for (std::vector<std::pair<TypeId,std::string> >::const_iterator i = m_output.begin (); i != m_output.end (); ++i)
{
std::pair<TypeId,std::string> item = *i;
std::cout << item.first.GetName () << " -> " << item.second << std::endl;
}
}
std::string
StaticInformation::GetCurrentPath (void) const
{
std::ostringstream oss;
for (std::vector<std::string>::const_iterator i = m_currentPath.begin (); i != m_currentPath.end (); ++i)
{
std::string item = *i;
oss << "/" << item;
}
return oss.str ();
}
void
StaticInformation::RecordOutput (TypeId tid)
{
m_output.push_back (std::make_pair (tid, GetCurrentPath ()));
}
bool
StaticInformation::HasAlreadyBeenProcessed (TypeId tid) const
{
for (uint32_t i = 0; i < m_alreadyProcessed.size (); ++i)
{
if (m_alreadyProcessed[i] == tid)
{
return true;
}
}
return false;
}
std::vector<std::string>
StaticInformation::Get (TypeId tid)
{
std::vector<std::string> paths;
for (uint32_t i = 0; i < m_output.size (); ++i)
{
std::pair<TypeId,std::string> tmp = m_output[i];
if (tmp.first == tid)
{
paths.push_back (tmp.second);
}
}
return paths;
}
void
StaticInformation::Gather (TypeId tid)
{
DoGather (tid);
std::sort (m_output.begin (), m_output.end ());
m_output.erase (std::unique (m_output.begin (), m_output.end ()), m_output.end ());
}
void
StaticInformation::DoGather (TypeId tid)
{
NS_LOG_FUNCTION (this);
if (HasAlreadyBeenProcessed (tid))
{
return;
}
RecordOutput (tid);
for (uint32_t i = 0; i < tid.GetAttributeN (); ++i)
{
struct TypeId::AttributeInformation info = tid.GetAttribute(i);
const PointerChecker *ptrChecker = dynamic_cast<const PointerChecker *> (PeekPointer (info.checker));
if (ptrChecker != 0)
{
TypeId pointee = ptrChecker->GetPointeeTypeId ();
// See if this is a pointer to an Object.
Ptr<Object> object = CreateObject<Object> ();
TypeId objectTypeId = object->GetTypeId ();
if (objectTypeId == pointee)
{
// Stop the recursion at this attribute if it is a
// pointer to an Object, which create too many spurious
// paths in the list of attribute paths because any
// Object can be in that part of the path.
continue;
}
m_currentPath.push_back (info.name);
m_alreadyProcessed.push_back (tid);
DoGather (pointee);
m_alreadyProcessed.pop_back ();
m_currentPath.pop_back ();
continue;
}
// attempt to cast to an object vector.
const ObjectPtrContainerChecker *vectorChecker = dynamic_cast<const ObjectPtrContainerChecker *> (PeekPointer (info.checker));
if (vectorChecker != 0)
{
TypeId item = vectorChecker->GetItemTypeId ();
m_currentPath.push_back (info.name + "/[i]");
m_alreadyProcessed.push_back (tid);
DoGather (item);
m_alreadyProcessed.pop_back ();
m_currentPath.pop_back ();
continue;
}
}
for (uint32_t j = 0; j < TypeId::GetRegisteredN (); j++)
{
TypeId child = TypeId::GetRegistered (j);
if (child.IsChildOf (tid))
{
//please take a look at the following note for an explanation
std::string childName = "$" + temporaryCharacter + child.GetName ();
std::string replaceWith = "::" + temporaryCharacter;
find_and_replace(childName,"::",replaceWith);
m_currentPath.push_back (childName);
m_alreadyProcessed.push_back (tid);
DoGather (child);
m_alreadyProcessed.pop_back ();
m_currentPath.pop_back ();
}
}
for (uint32_t k = 0; k < m_aggregates.size (); ++k)
{
std::pair<TypeId,TypeId> tmp = m_aggregates[k];
if (tmp.first == tid || tmp.second == tid)
{
TypeId other;
if (tmp.first == tid)
{
other = tmp.second;
}
if (tmp.second == tid)
{
other = tmp.first;
}
/**
* Note: for the Doxygen version only, we insert a % in the
* path below to ensure that doxygen does not attempt to
* resolve the typeid names included in the string. if the
* name contains ::, using the % sign will remove that sign
* resulting for instance in $ns3MobilityModel instead of
* $ns3::MobilityModel hence the output must be in the form
* $%ns3::%MobilityModel in order to show correctly
* $ns3::MobilityModel We add at the beginning of the name
* $% and we replace all the :: in the string by ::%.
*/
std::string name = "$" + temporaryCharacter + other.GetName ();
//finding and replacing :: by ::% (for Doxygen version only).
std::string replaceWith = "::" + temporaryCharacter;
find_and_replace(name,"::",replaceWith);
m_currentPath.push_back (name);
m_alreadyProcessed.push_back (tid);
DoGather (other);
m_alreadyProcessed.pop_back ();
m_currentPath.pop_back ();
}
}
}
void
StaticInformation::find_and_replace( std::string &source, const std::string find, std::string replace )
{
size_t j;
j = source.find (find);
while (j != std::string::npos )
{
source.replace (j, find.length (),replace);
j = source.find (find,j+1);
}
}
void
PrintHelp (const char *program_name)
{
std::cout << "Usage: " << program_name << " [options]" << std::endl
<< std::endl
<< "Options:" << std::endl
<< " --help : print these options" << std::endl
<< " --output-text : format output as plain text" << std::endl;
}
int main (int argc, char *argv[])
{
bool outputText = false;
char *programName = argv[0];
argv++;
while (*argv != 0)
{
char *arg = *argv;
if (strcmp (arg, "--help") == 0)
{
PrintHelp (programName);
return 0;
}
else if (strcmp(arg, "--output-text") == 0)
{
outputText = true;
}
else
{
// un-recognized command-line argument
PrintHelp (programName);
return 0;
}
argv++;
}
if (outputText)
{
anchor = "";
boldStart = "";
boldStop = "";
breakBoth = "\n";
breakHtmlOnly = "";
breakTextOnly = "\n";
brief = "";
commentStart = "===============================================================\n";
commentStop = "";
defgroupAttributeListStart = "";
defgroupAttributeListStop = "\n";
defgroupGlobalValueListStart = "";
defgroupGlobalValueListStop = "";
defgroupTraceSourceListStart = "";
defgroupTraceSourceListStop = "\n";
flagSpanStart = "";
flagSpanStop = "";
functionStart = "";
functionStop = "\n\n";
headingStart = "";
headingStop = "";
indentHtmlOnly = "";
ingroupConstructs = "";
listStart = "";
listStop = "";
listLineStart = " * ";
listLineStop = "";
reference = "";
temporaryCharacter = "";
}
else
{
anchor = "\\anchor ";
boldStart = "<b>";
boldStop = "</b>";
breakBoth = "<br>";
breakHtmlOnly = "<br>";
breakTextOnly = "";
brief = "\\brief ";
commentStart = "/*!";
commentStop = "*/";
defgroupAttributeListStart = "\\defgroup AttributeList ";
defgroupAttributeListStop = "";
defgroupGlobalValueListStart = "\\defgroup GlobalValueList ";
defgroupGlobalValueListStop = "";
defgroupTraceSourceListStart = "\\defgroup TraceSourceList ";
defgroupTraceSourceListStop = "";
flagSpanStart = "<span class=\"mlabel\">";
flagSpanStop = "</span>";
functionStart = "\\class ";
functionStop = "";
headingStart = "<h3>";
headingStop = "</h3>";
indentHtmlOnly = " ";
ingroupConstructs = "\\ingroup constructs\n";
listStart = "<ul>";
listStop = "</ul>";
listLineStart = "<li>";
listLineStop = "</li>";
reference = "\\ref ";
temporaryCharacter = "%";
}
NodeContainer c; c.Create (1);
// The below statements register typical aggregation relationships
// in ns-3 programs, that otherwise aren't picked up automatically
// by the creation of the above node. To manually list other common
// aggregation relationships that you would like to see show up in
// the list of configuration paths in the doxygen, add additional
// statements below.
StaticInformation info;
info.RecordAggregationInfo ("ns3::Node", "ns3::TcpSocketFactory");
info.RecordAggregationInfo ("ns3::Node", "ns3::UdpSocketFactory");
info.RecordAggregationInfo ("ns3::Node", "ns3::PacketSocketFactory");
info.RecordAggregationInfo ("ns3::Node", "ns3::olsr::RoutingProtocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::MobilityModel");
info.RecordAggregationInfo ("ns3::Node", "ns3::Ipv4L3Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::ArpL3Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::Icmpv4L4Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::UdpL4Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::Ipv6L3Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::Icmpv6L4Protocol");
info.RecordAggregationInfo ("ns3::Node", "ns3::TcpL4Protocol");
// Create a channel object so that channels appear in the namespace
// paths that will be generated here.
Ptr<CsmaChannel> csma;
csma = CreateObject<CsmaChannel> ();
for (uint32_t i = 0; i < Config::GetRootNamespaceObjectN (); ++i)
{
Ptr<Object> object = Config::GetRootNamespaceObject (i);
info.Gather (object->GetInstanceTypeId ());
}
std::map< std::string, uint32_t> nameMap;
std::map< std::string, uint32_t>::const_iterator nameMapIterator;
// Create a map from the class names to their index in the vector of
// TypeId's so that the names will end up in alphabetical order.
for (uint32_t i = 0; i < TypeId::GetRegisteredN (); i++)
{
TypeId tid = TypeId::GetRegistered (i);
if (tid.MustHideFromDocumentation ())
{
continue;
}
// Capitalize all of letters in the name so that it sorts
// correctly in the map.
std::string name = tid.GetName ();
for (uint32_t j = 0; j < name.length (); j++)
{
name[j] = toupper (name[j]);
}
// Save this name's index.
nameMap[name] = i;
}
// Iterate over the map, which will print the class names in
// alphabetical order.
for (nameMapIterator = nameMap.begin ();
nameMapIterator != nameMap.end ();
nameMapIterator++)
{
// Get the class's index out of the map;
uint32_t i = nameMapIterator->second;
std::cout << commentStart << std::endl;
TypeId tid = TypeId::GetRegistered (i);
if (tid.MustHideFromDocumentation ())
{
continue;
}
std::cout << functionStart << tid.GetName () << std::endl;
std::cout << std::endl;
std::vector<std::string> paths = info.Get (tid);
// Config --------------
if (paths.empty ())
{
std::cout << "Doxygen introspection did not find any typical Config paths."
<< breakBoth << std::endl;
}
else
{
std::cout << headingStart
<< "Config Paths"
<< headingStop << std::endl;
std::cout << std::endl;
std::cout << tid.GetName ()
<< " is accessible through the following paths"
<< " with Config::Set and Config::Connect:"
<< std::endl;
std::cout << listStart << std::endl;
for (uint32_t k = 0; k < paths.size (); ++k)
{
std::string path = paths[k];
std::cout << listLineStart << path
<< listLineStop << breakTextOnly << std::endl;
}
std::cout << listStop << std::endl;
} // Config
// Attributes ----------
if (tid.GetAttributeN () == 0)
{
std::cout << "No Attributes are defined for this type."
<< breakBoth << std::endl;
}
else
{
std::cout << headingStart << "Attributes"
<< headingStop << std::endl;
PrintAttributes (tid, std::cout);
TypeId tmp = tid.GetParent ();
while (tmp.GetParent () != tmp)
{
if (tmp.GetAttributeN () != 0)
{
std::cout << headingStart
<< "Attributes defined in parent class "
<< tmp.GetName ()
<< headingStop << std::endl;
PrintAttributes (tmp, std::cout);
}
tmp = tmp.GetParent ();
}
} // Attributes
// Tracing -------------
if (tid.GetTraceSourceN () == 0)
{
std::cout << "No TraceSources are defined for this type."
<< breakBoth << std::endl;
}
else
{
std::cout << headingStart << "TraceSources"
<< headingStop << std::endl;
PrintTraceSources (tid, std::cout);
}
{
TypeId tmp = tid.GetParent ();
while (tmp.GetParent () != tmp)
{
if (tmp.GetTraceSourceN () != 0)
{
std::cout << headingStart
<< "TraceSources defined in parent class "
<< tmp.GetName ()
<< headingStop << std::endl;
PrintTraceSources (tmp, std::cout);
}
tmp = tmp.GetParent ();
}
}
std::cout << commentStop << std::endl;
} // class documentation
std::cout << commentStart << std::endl
<< ingroupConstructs
<< defgroupTraceSourceListStart << "The list of all trace sources."
<< defgroupTraceSourceListStop << std::endl;
for (uint32_t i = 0; i < TypeId::GetRegisteredN (); ++i)
{
TypeId tid = TypeId::GetRegistered (i);
if (tid.GetTraceSourceN () == 0 ||
tid.MustHideFromDocumentation ())
{
continue;
}
std::cout << boldStart << tid.GetName ()
<< boldStop << breakHtmlOnly << std::endl
<< listStart << std::endl;
for (uint32_t j = 0; j < tid.GetTraceSourceN (); ++j)
{
struct TypeId::TraceSourceInformation info = tid.GetTraceSource(j);
std::cout << listLineStart << info.name << ": " << info.help
<< listLineStop << std::endl;
}
std::cout << listStop << std::endl;
}
std::cout << commentStop << std::endl;
std::cout << commentStart << std::endl
<< ingroupConstructs
<< defgroupAttributeListStart << "The list of all attributes."
<< defgroupAttributeListStop << std::endl;
for (uint32_t i = 0; i < TypeId::GetRegisteredN (); ++i)
{
TypeId tid = TypeId::GetRegistered (i);
if (tid.GetAttributeN () == 0 ||
tid.MustHideFromDocumentation ())
{
continue;
}
std::cout << boldStart << tid.GetName ()
<< boldStop << breakHtmlOnly << std::endl
<< listStart << std::endl;
for (uint32_t j = 0; j < tid.GetAttributeN (); ++j)
{
struct TypeId::AttributeInformation info = tid.GetAttribute(j);
std::cout << listLineStart << info.name << ": " << info.help
<< listLineStop << std::endl;
}
std::cout << listStop << std::endl;
}
std::cout << commentStop << std::endl;
std::cout << commentStart << std::endl
<< ingroupConstructs
<< defgroupGlobalValueListStart << "The list of all global values."
<< defgroupGlobalValueListStop << std::endl
<< listStart << std::endl;
for (GlobalValue::Iterator i = GlobalValue::Begin ();
i != GlobalValue::End ();
++i)
{
StringValue val;
(*i)->GetValue (val);
std::cout << indentHtmlOnly
<< listLineStart
<< boldStart
<< anchor
<< "GlobalValue" << (*i)->GetName () << " " << (*i)->GetName ()
<< boldStop
<< ": " << (*i)->GetHelp () << "(" << val.Get () << ")"
<< listLineStop << std::endl;
}
std::cout << listStop << std::endl
<< commentStop << std::endl;
return 0;
}