lldb/source/Target/CPPLanguageRuntime.cpp - llvm-project - Git at Google

 //===-- CPPLanguageRuntime.cpp -------------------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "lldb/Target/CPPLanguageRuntime.h"

 #include "lldb/Core/PluginManager.h"
 #include "lldb/Core/UniqueCStringMap.h"
 #include "lldb/Target/ExecutionContext.h"

 using namespace lldb;
 using namespace lldb_private;

 class CPPRuntimeEquivalents
 {
 public:
     CPPRuntimeEquivalents ()
     {

         m_impl.Append(ConstString("std::basic_string<char, std::char_traits<char>, std::allocator<char> >").AsCString(), ConstString("basic_string<char>"));

         // these two (with a prefixed std::) occur when c++stdlib string class occurs as a template argument in some STL container
         m_impl.Append(ConstString("std::basic_string<char, std::char_traits<char>, std::allocator<char> >").AsCString(), ConstString("std::basic_string<char>"));

         m_impl.Sort();
     }

     void
     Add (ConstString& type_name,
          ConstString& type_equivalent)
     {
         m_impl.Insert(type_name.AsCString(), type_equivalent);
     }

     uint32_t
     FindExactMatches (ConstString& type_name,
                       std::vector<ConstString>& equivalents)
     {

         uint32_t count = 0;

         for (ImplData match = m_impl.FindFirstValueForName(type_name.AsCString());
              match != NULL;
              match = m_impl.FindNextValueForName(match))
         {
             equivalents.push_back(match->value);
             count++;
         }

         return count;
     }

     // partial matches can occur when a name with equivalents is a template argument.
     // e.g. we may have "class Foo" be a match for "struct Bar". if we have a typename
     // such as "class Templatized<class Foo, Anything>" we want this to be replaced with
     // "class Templatized<struct Bar, Anything>". Since partial matching is time consuming
     // once we get a partial match, we add it to the exact matches list for faster retrieval
     uint32_t
     FindPartialMatches (ConstString& type_name,
                         std::vector<ConstString>& equivalents)
     {

         uint32_t count = 0;

         const char* type_name_cstr = type_name.AsCString();

         size_t items_count = m_impl.GetSize();

         for (size_t item = 0; item < items_count; item++)
         {
             const char* key_cstr = m_impl.GetCStringAtIndex(item);
             if ( strstr(type_name_cstr,key_cstr) )
             {
                 count += AppendReplacements(type_name_cstr,
                                             key_cstr,
                                             equivalents);
             }
         }

         return count;

     }

 private:

     std::string& replace (std::string& target,
                           std::string& pattern,
                           std::string& with)
     {
         size_t pos;
         size_t pattern_len = pattern.size();

         while ( (pos = target.find(pattern)) != std::string::npos )
             target.replace(pos, pattern_len, with);

         return target;
     }

     uint32_t
     AppendReplacements (const char* original,
                         const char *matching_key,
                         std::vector<ConstString>& equivalents)
     {

         std::string matching_key_str(matching_key);
         ConstString original_const(original);

         uint32_t count = 0;

         for (ImplData match = m_impl.FindFirstValueForName(matching_key);
              match != NULL;
              match = m_impl.FindNextValueForName(match))
         {
             std::string target(original);
             std::string equiv_class(match->value.AsCString());

             replace (target, matching_key_str, equiv_class);

             ConstString target_const(target.c_str());

 // you will most probably want to leave this off since it might make this map grow indefinitely
 #ifdef ENABLE_CPP_EQUIVALENTS_MAP_TO_GROW
             Add(original_const, target_const);
 #endif
             equivalents.push_back(target_const);

             count++;
         }

         return count;
     }

     typedef UniqueCStringMap<ConstString> Impl;
     typedef const Impl::Entry* ImplData;
     Impl m_impl;
 };

 static CPPRuntimeEquivalents&
 GetEquivalentsMap ()
 {
     static CPPRuntimeEquivalents g_equivalents_map;
     return g_equivalents_map;
 }

 //----------------------------------------------------------------------
 // Destructor
 //----------------------------------------------------------------------
 CPPLanguageRuntime::~CPPLanguageRuntime()
 {
 }

 CPPLanguageRuntime::CPPLanguageRuntime (Process *process) :
     LanguageRuntime (process)
 {

 }

 bool
 CPPLanguageRuntime::GetObjectDescription (Stream &str, ValueObject &object)
 {
     // C++ has no generic way to do this.
     return false;
 }

 bool
 CPPLanguageRuntime::GetObjectDescription (Stream &str, Value &value, ExecutionContextScope *exe_scope)
 {
     // C++ has no generic way to do this.
     return false;
 }

 bool
 CPPLanguageRuntime::IsCPPMangledName (const char *name)
 {
     // FIXME, we should really run through all the known C++ Language plugins and ask each one if
     // this is a C++ mangled name, but we can put that off till there is actually more than one
     // we care about.

     if (name && name[0] == '_' && name[1] == 'Z')
         return true;
     else
         return false;
 }

 bool
 CPPLanguageRuntime::StripNamespacesFromVariableName (const char *name, const char *&base_name_start, const char *&base_name_end)
 {
   if (base_name_end == NULL)
     base_name_end = name + strlen (name);

   const char *last_colon = NULL;
   for (const char *ptr = base_name_end; ptr != name; ptr--)
     {
       if (*ptr == ':')
         {
           last_colon = ptr;
           break;
         }
     }

   if (last_colon == NULL)
     {
       base_name_start = name;
       return true;
     }

   // Can't have a C++ name that begins with a single ':', nor contains an internal single ':'
   if (last_colon == name)
     return false;
   else if (last_colon[-1] != ':')
     return false;
   else
     {
       // FIXME: should check if there is
       base_name_start = last_colon + 1;
       return true;
     }
 }
 bool
 CPPLanguageRuntime::IsPossibleCPPCall (const char *name, const char *&base_name_start, const char *&base_name_end)
 {
     if (!name)
       return false;
     // For now, I really can't handle taking template names apart, so if you
     // have < or > I'll say "could be CPP but leave the base_name empty which
     // means I couldn't figure out what to use for that.
     // FIXME: Do I need to do more sanity checking here?

     if (strchr(name, '>') != NULL || strchr (name, '>') != NULL)
       return true;

     size_t name_len = strlen (name);

     if (name[name_len - 1] == ')')
     {
         // We've got arguments.
         base_name_end = strchr (name, '(');
         if (base_name_end == NULL)
           return false;

         // FIXME: should check that this parenthesis isn't a template specialized
         // on a function type or something gross like that...
     }
     else
         base_name_end = name + strlen (name);

     return StripNamespacesFromVariableName (name, base_name_start, base_name_end);
 }

 uint32_t
 CPPLanguageRuntime::FindEquivalentNames(ConstString type_name, std::vector<ConstString>& equivalents)
 {
     uint32_t count = GetEquivalentsMap().FindExactMatches(type_name, equivalents);

     bool might_have_partials=
         ( count == 0 )  // if we have a full name match just use it
         && (strchr(type_name.AsCString(), '<') != NULL  // we should only have partial matches when templates are involved, check that we have
             && strchr(type_name.AsCString(), '>') != NULL); // angle brackets in the type_name before trying to scan for partial matches

     if ( might_have_partials )
         count = GetEquivalentsMap().FindPartialMatches(type_name, equivalents);

     return count;
 }
	//===-- CPPLanguageRuntime.cpp -------------------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "lldb/Target/CPPLanguageRuntime.h"

	#include "lldb/Core/PluginManager.h"
	#include "lldb/Core/UniqueCStringMap.h"
	#include "lldb/Target/ExecutionContext.h"

	using namespace lldb;
	using namespace lldb_private;

	class CPPRuntimeEquivalents
	{
	public:
	CPPRuntimeEquivalents ()
	{

	m_impl.Append(ConstString("std::basic_string<char, std::char_traits<char>, std::allocator<char> >").AsCString(), ConstString("basic_string<char>"));

	// these two (with a prefixed std::) occur when c++stdlib string class occurs as a template argument in some STL container
	m_impl.Append(ConstString("std::basic_string<char, std::char_traits<char>, std::allocator<char> >").AsCString(), ConstString("std::basic_string<char>"));

	m_impl.Sort();
	}

	void
	Add (ConstString& type_name,
	ConstString& type_equivalent)
	{
	m_impl.Insert(type_name.AsCString(), type_equivalent);
	}

	uint32_t
	FindExactMatches (ConstString& type_name,
	std::vector<ConstString>& equivalents)
	{

	uint32_t count = 0;

	for (ImplData match = m_impl.FindFirstValueForName(type_name.AsCString());
	match != NULL;
	match = m_impl.FindNextValueForName(match))
	{
	equivalents.push_back(match->value);
	count++;
	}

	return count;
	}

	// partial matches can occur when a name with equivalents is a template argument.
	// e.g. we may have "class Foo" be a match for "struct Bar". if we have a typename
	// such as "class Templatized<class Foo, Anything>" we want this to be replaced with
	// "class Templatized<struct Bar, Anything>". Since partial matching is time consuming
	// once we get a partial match, we add it to the exact matches list for faster retrieval
	uint32_t
	FindPartialMatches (ConstString& type_name,
	std::vector<ConstString>& equivalents)
	{

	uint32_t count = 0;

	const char* type_name_cstr = type_name.AsCString();

	size_t items_count = m_impl.GetSize();

	for (size_t item = 0; item < items_count; item++)
	{
	const char* key_cstr = m_impl.GetCStringAtIndex(item);
	if ( strstr(type_name_cstr,key_cstr) )
	{
	count += AppendReplacements(type_name_cstr,
	key_cstr,
	equivalents);
	}
	}

	return count;

	}

	private:

	std::string& replace (std::string& target,
	std::string& pattern,
	std::string& with)
	{
	size_t pos;
	size_t pattern_len = pattern.size();

	while ( (pos = target.find(pattern)) != std::string::npos )
	target.replace(pos, pattern_len, with);

	return target;
	}

	uint32_t
	AppendReplacements (const char* original,
	const char *matching_key,
	std::vector<ConstString>& equivalents)
	{

	std::string matching_key_str(matching_key);
	ConstString original_const(original);

	uint32_t count = 0;

	for (ImplData match = m_impl.FindFirstValueForName(matching_key);
	match != NULL;
	match = m_impl.FindNextValueForName(match))
	{
	std::string target(original);
	std::string equiv_class(match->value.AsCString());

	replace (target, matching_key_str, equiv_class);

	ConstString target_const(target.c_str());

	// you will most probably want to leave this off since it might make this map grow indefinitely
	#ifdef ENABLE_CPP_EQUIVALENTS_MAP_TO_GROW
	Add(original_const, target_const);
	#endif
	equivalents.push_back(target_const);

	count++;
	}

	return count;
	}

	typedef UniqueCStringMap<ConstString> Impl;
	typedef const Impl::Entry* ImplData;
	Impl m_impl;
	};

	static CPPRuntimeEquivalents&
	GetEquivalentsMap ()
	{
	static CPPRuntimeEquivalents g_equivalents_map;
	return g_equivalents_map;
	}

	//----------------------------------------------------------------------
	// Destructor
	//----------------------------------------------------------------------
	CPPLanguageRuntime::~CPPLanguageRuntime()
	{
	}

	CPPLanguageRuntime::CPPLanguageRuntime (Process *process) :
	LanguageRuntime (process)
	{

	}

	bool
	CPPLanguageRuntime::GetObjectDescription (Stream &str, ValueObject &object)
	{
	// C++ has no generic way to do this.
	return false;
	}

	bool
	CPPLanguageRuntime::GetObjectDescription (Stream &str, Value &value, ExecutionContextScope *exe_scope)
	{
	// C++ has no generic way to do this.
	return false;
	}

	bool
	CPPLanguageRuntime::IsCPPMangledName (const char *name)
	{
	// FIXME, we should really run through all the known C++ Language plugins and ask each one if
	// this is a C++ mangled name, but we can put that off till there is actually more than one
	// we care about.

	if (name && name[0] == '_' && name[1] == 'Z')
	return true;
	else
	return false;
	}

	bool
	CPPLanguageRuntime::StripNamespacesFromVariableName (const char name, const char &base_name_start, const char *&base_name_end)
	{
	if (base_name_end == NULL)
	base_name_end = name + strlen (name);

	const char *last_colon = NULL;
	for (const char *ptr = base_name_end; ptr != name; ptr--)
	{
	if (*ptr == ':')
	{
	last_colon = ptr;
	break;
	}
	}

	if (last_colon == NULL)
	{
	base_name_start = name;
	return true;
	}

	// Can't have a C++ name that begins with a single ':', nor contains an internal single ':'
	if (last_colon == name)
	return false;
	else if (last_colon[-1] != ':')
	return false;
	else
	{
	// FIXME: should check if there is
	base_name_start = last_colon + 1;
	return true;
	}
	}
	bool
	CPPLanguageRuntime::IsPossibleCPPCall (const char name, const char &base_name_start, const char *&base_name_end)
	{
	if (!name)
	return false;
	// For now, I really can't handle taking template names apart, so if you
	// have < or > I'll say "could be CPP but leave the base_name empty which
	// means I couldn't figure out what to use for that.
	// FIXME: Do I need to do more sanity checking here?

	if (strchr(name, '>') != NULL \|\| strchr (name, '>') != NULL)
	return true;

	size_t name_len = strlen (name);

	if (name[name_len - 1] == ')')
	{
	// We've got arguments.
	base_name_end = strchr (name, '(');
	if (base_name_end == NULL)
	return false;

	// FIXME: should check that this parenthesis isn't a template specialized
	// on a function type or something gross like that...
	}
	else
	base_name_end = name + strlen (name);

	return StripNamespacesFromVariableName (name, base_name_start, base_name_end);
	}

	uint32_t
	CPPLanguageRuntime::FindEquivalentNames(ConstString type_name, std::vector<ConstString>& equivalents)
	{
	uint32_t count = GetEquivalentsMap().FindExactMatches(type_name, equivalents);

	bool might_have_partials=
	( count == 0 ) // if we have a full name match just use it
	&& (strchr(type_name.AsCString(), '<') != NULL // we should only have partial matches when templates are involved, check that we have
	&& strchr(type_name.AsCString(), '>') != NULL); // angle brackets in the type_name before trying to scan for partial matches

	if ( might_have_partials )
	count = GetEquivalentsMap().FindPartialMatches(type_name, equivalents);

	return count;
	}