lldb/source/Symbol/TypeMap.cpp - llvm-project - Git at Google

 //===-- TypeMap.cpp -------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include <vector>

 #include "llvm/Support/FormattedStream.h"
 #include "llvm/Support/raw_ostream.h"

 #include "lldb/Symbol/SymbolFile.h"
 #include "lldb/Symbol/SymbolVendor.h"
 #include "lldb/Symbol/Type.h"
 #include "lldb/Symbol/TypeMap.h"

 using namespace lldb;
 using namespace lldb_private;

 TypeMap::TypeMap() : m_types() {}

 // Destructor
 TypeMap::~TypeMap() = default;

 void TypeMap::Insert(const TypeSP &type_sp) {
   // Just push each type on the back for now. We will worry about uniquing
   // later
   if (type_sp)
     m_types.insert(std::make_pair(type_sp->GetID(), type_sp));
 }

 bool TypeMap::InsertUnique(const TypeSP &type_sp) {
   if (type_sp) {
     user_id_t type_uid = type_sp->GetID();
     iterator pos, end = m_types.end();

     for (pos = m_types.find(type_uid);
          pos != end && pos->second->GetID() == type_uid; ++pos) {
       if (pos->second.get() == type_sp.get())
         return false;
     }
     Insert(type_sp);
   }
   return true;
 }

 // Find a base type by its unique ID.
 // TypeSP
 // TypeMap::FindType(lldb::user_id_t uid)
 //{
 //    iterator pos = m_types.find(uid);
 //    if (pos != m_types.end())
 //        return pos->second;
 //    return TypeSP();
 //}

 // Find a type by name.
 // TypeMap
 // TypeMap::FindTypes (ConstString name)
 //{
 //    // Do we ever need to make a lookup by name map? Here we are doing
 //    // a linear search which isn't going to be fast.
 //    TypeMap types(m_ast.getTargetInfo()->getTriple().getTriple().c_str());
 //    iterator pos, end;
 //    for (pos = m_types.begin(), end = m_types.end(); pos != end; ++pos)
 //        if (pos->second->GetName() == name)
 //            types.Insert (pos->second);
 //    return types;
 //}

 void TypeMap::Clear() { m_types.clear(); }

 uint32_t TypeMap::GetSize() const { return m_types.size(); }

 bool TypeMap::Empty() const { return m_types.empty(); }

 // GetTypeAtIndex isn't used a lot for large type lists, currently only for
 // type lists that are returned for "image dump -t TYPENAME" commands and other
 // simple symbol queries that grab the first result...

 TypeSP TypeMap::GetTypeAtIndex(uint32_t idx) {
   iterator pos, end;
   uint32_t i = idx;
   for (pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
     if (i == 0)
       return pos->second;
     --i;
   }
   return TypeSP();
 }

 void TypeMap::ForEach(
     std::function<bool(const lldb::TypeSP &type_sp)> const &callback) const {
   for (auto pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
     if (!callback(pos->second))
       break;
   }
 }

 void TypeMap::ForEach(
     std::function<bool(lldb::TypeSP &type_sp)> const &callback) {
   for (auto pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
     if (!callback(pos->second))
       break;
   }
 }

 bool TypeMap::Remove(const lldb::TypeSP &type_sp) {
   if (type_sp) {
     lldb::user_id_t uid = type_sp->GetID();
     for (iterator pos = m_types.find(uid), end = m_types.end();
          pos != end && pos->first == uid; ++pos) {
       if (pos->second == type_sp) {
         m_types.erase(pos);
         return true;
       }
     }
   }
   return false;
 }

 void TypeMap::Dump(Stream *s, bool show_context, lldb::DescriptionLevel level) {
   for (iterator pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
     pos->second->Dump(s, show_context, level);
   }
 }

 void TypeMap::RemoveMismatchedTypes(const char *qualified_typename,
                                     bool exact_match) {
   llvm::StringRef type_scope;
   llvm::StringRef type_basename;
   TypeClass type_class = eTypeClassAny;
   if (!Type::GetTypeScopeAndBasename(qualified_typename, type_scope,
                                      type_basename, type_class)) {
     type_basename = qualified_typename;
     type_scope = "";
   }
   return RemoveMismatchedTypes(std::string(type_scope),
                                std::string(type_basename), type_class,
                                exact_match);
 }

 void TypeMap::RemoveMismatchedTypes(const std::string &type_scope,
                                     const std::string &type_basename,
                                     TypeClass type_class, bool exact_match) {
   // Our "collection" type currently is a std::map which doesn't have any good
   // way to iterate and remove items from the map so we currently just make a
   // new list and add all of the matching types to it, and then swap it into
   // m_types at the end
   collection matching_types;

   iterator pos, end = m_types.end();

   for (pos = m_types.begin(); pos != end; ++pos) {
     Type *the_type = pos->second.get();
     bool keep_match = false;
     TypeClass match_type_class = eTypeClassAny;

     if (type_class != eTypeClassAny) {
       match_type_class = the_type->GetForwardCompilerType().GetTypeClass();
       if ((match_type_class & type_class) == 0)
         continue;
     }

     ConstString match_type_name_const_str(the_type->GetQualifiedName());
     if (match_type_name_const_str) {
       const char *match_type_name = match_type_name_const_str.GetCString();
       llvm::StringRef match_type_scope;
       llvm::StringRef match_type_basename;
       if (Type::GetTypeScopeAndBasename(match_type_name, match_type_scope,
                                         match_type_basename,
                                         match_type_class)) {
         if (match_type_basename == type_basename) {
           const size_t type_scope_size = type_scope.size();
           const size_t match_type_scope_size = match_type_scope.size();
           if (exact_match || (type_scope_size == match_type_scope_size)) {
             keep_match = match_type_scope == type_scope;
           } else {
             if (match_type_scope_size > type_scope_size) {
               const size_t type_scope_pos = match_type_scope.rfind(type_scope);
               if (type_scope_pos == match_type_scope_size - type_scope_size) {
                 if (type_scope_pos >= 2) {
                   // Our match scope ends with the type scope we were looking
                   // for, but we need to make sure what comes before the
                   // matching type scope is a namespace boundary in case we are
                   // trying to match: type_basename = "d" type_scope = "b::c::"
                   // We want to match:
                   //  match_type_scope "a::b::c::"
                   // But not:
                   //  match_type_scope "a::bb::c::"
                   // So below we make sure what comes before "b::c::" in
                   // match_type_scope is "::", or the namespace boundary
                   if (match_type_scope[type_scope_pos - 1] == ':' &&
                       match_type_scope[type_scope_pos - 2] == ':') {
                     keep_match = true;
                   }
                 }
               }
             }
           }
         }
       } else {
         // The type we are currently looking at doesn't exists in a namespace
         // or class, so it only matches if there is no type scope...
         keep_match = type_scope.empty() && type_basename == match_type_name;
       }
     }

     if (keep_match) {
       matching_types.insert(*pos);
     }
   }
   m_types.swap(matching_types);
 }

 void TypeMap::RemoveMismatchedTypes(TypeClass type_class) {
   if (type_class == eTypeClassAny)
     return;

   // Our "collection" type currently is a std::map which doesn't have any good
   // way to iterate and remove items from the map so we currently just make a
   // new list and add all of the matching types to it, and then swap it into
   // m_types at the end
   collection matching_types;

   iterator pos, end = m_types.end();

   for (pos = m_types.begin(); pos != end; ++pos) {
     Type *the_type = pos->second.get();
     TypeClass match_type_class =
         the_type->GetForwardCompilerType().GetTypeClass();
     if (match_type_class & type_class)
       matching_types.insert(*pos);
   }
   m_types.swap(matching_types);
 }
	//===-- TypeMap.cpp -------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include <vector>

	#include "llvm/Support/FormattedStream.h"
	#include "llvm/Support/raw_ostream.h"

	#include "lldb/Symbol/SymbolFile.h"
	#include "lldb/Symbol/SymbolVendor.h"
	#include "lldb/Symbol/Type.h"
	#include "lldb/Symbol/TypeMap.h"

	using namespace lldb;
	using namespace lldb_private;

	TypeMap::TypeMap() : m_types() {}

	// Destructor
	TypeMap::~TypeMap() = default;

	void TypeMap::Insert(const TypeSP &type_sp) {
	// Just push each type on the back for now. We will worry about uniquing
	// later
	if (type_sp)
	m_types.insert(std::make_pair(type_sp->GetID(), type_sp));
	}

	bool TypeMap::InsertUnique(const TypeSP &type_sp) {
	if (type_sp) {
	user_id_t type_uid = type_sp->GetID();
	iterator pos, end = m_types.end();

	for (pos = m_types.find(type_uid);
	pos != end && pos->second->GetID() == type_uid; ++pos) {
	if (pos->second.get() == type_sp.get())
	return false;
	}
	Insert(type_sp);
	}
	return true;
	}

	// Find a base type by its unique ID.
	// TypeSP
	// TypeMap::FindType(lldb::user_id_t uid)
	//{
	// iterator pos = m_types.find(uid);
	// if (pos != m_types.end())
	// return pos->second;
	// return TypeSP();
	//}

	// Find a type by name.
	// TypeMap
	// TypeMap::FindTypes (ConstString name)
	//{
	// // Do we ever need to make a lookup by name map? Here we are doing
	// // a linear search which isn't going to be fast.
	// TypeMap types(m_ast.getTargetInfo()->getTriple().getTriple().c_str());
	// iterator pos, end;
	// for (pos = m_types.begin(), end = m_types.end(); pos != end; ++pos)
	// if (pos->second->GetName() == name)
	// types.Insert (pos->second);
	// return types;
	//}

	void TypeMap::Clear() { m_types.clear(); }

	uint32_t TypeMap::GetSize() const { return m_types.size(); }

	bool TypeMap::Empty() const { return m_types.empty(); }

	// GetTypeAtIndex isn't used a lot for large type lists, currently only for
	// type lists that are returned for "image dump -t TYPENAME" commands and other
	// simple symbol queries that grab the first result...

	TypeSP TypeMap::GetTypeAtIndex(uint32_t idx) {
	iterator pos, end;
	uint32_t i = idx;
	for (pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
	if (i == 0)
	return pos->second;
	--i;
	}
	return TypeSP();
	}

	void TypeMap::ForEach(
	std::function<bool(const lldb::TypeSP &type_sp)> const &callback) const {
	for (auto pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
	if (!callback(pos->second))
	break;
	}
	}

	void TypeMap::ForEach(
	std::function<bool(lldb::TypeSP &type_sp)> const &callback) {
	for (auto pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
	if (!callback(pos->second))
	break;
	}
	}

	bool TypeMap::Remove(const lldb::TypeSP &type_sp) {
	if (type_sp) {
	lldb::user_id_t uid = type_sp->GetID();
	for (iterator pos = m_types.find(uid), end = m_types.end();
	pos != end && pos->first == uid; ++pos) {
	if (pos->second == type_sp) {
	m_types.erase(pos);
	return true;
	}
	}
	}
	return false;
	}

	void TypeMap::Dump(Stream *s, bool show_context, lldb::DescriptionLevel level) {
	for (iterator pos = m_types.begin(), end = m_types.end(); pos != end; ++pos) {
	pos->second->Dump(s, show_context, level);
	}
	}

	void TypeMap::RemoveMismatchedTypes(const char *qualified_typename,
	bool exact_match) {
	llvm::StringRef type_scope;
	llvm::StringRef type_basename;
	TypeClass type_class = eTypeClassAny;
	if (!Type::GetTypeScopeAndBasename(qualified_typename, type_scope,
	type_basename, type_class)) {
	type_basename = qualified_typename;
	type_scope = "";
	}
	return RemoveMismatchedTypes(std::string(type_scope),
	std::string(type_basename), type_class,
	exact_match);
	}

	void TypeMap::RemoveMismatchedTypes(const std::string &type_scope,
	const std::string &type_basename,
	TypeClass type_class, bool exact_match) {
	// Our "collection" type currently is a std::map which doesn't have any good
	// way to iterate and remove items from the map so we currently just make a
	// new list and add all of the matching types to it, and then swap it into
	// m_types at the end
	collection matching_types;

	iterator pos, end = m_types.end();

	for (pos = m_types.begin(); pos != end; ++pos) {
	Type *the_type = pos->second.get();
	bool keep_match = false;
	TypeClass match_type_class = eTypeClassAny;

	if (type_class != eTypeClassAny) {
	match_type_class = the_type->GetForwardCompilerType().GetTypeClass();
	if ((match_type_class & type_class) == 0)
	continue;
	}

	ConstString match_type_name_const_str(the_type->GetQualifiedName());
	if (match_type_name_const_str) {
	const char *match_type_name = match_type_name_const_str.GetCString();
	llvm::StringRef match_type_scope;
	llvm::StringRef match_type_basename;
	if (Type::GetTypeScopeAndBasename(match_type_name, match_type_scope,
	match_type_basename,
	match_type_class)) {
	if (match_type_basename == type_basename) {
	const size_t type_scope_size = type_scope.size();
	const size_t match_type_scope_size = match_type_scope.size();
	if (exact_match \|\| (type_scope_size == match_type_scope_size)) {
	keep_match = match_type_scope == type_scope;
	} else {
	if (match_type_scope_size > type_scope_size) {
	const size_t type_scope_pos = match_type_scope.rfind(type_scope);
	if (type_scope_pos == match_type_scope_size - type_scope_size) {
	if (type_scope_pos >= 2) {
	// Our match scope ends with the type scope we were looking
	// for, but we need to make sure what comes before the
	// matching type scope is a namespace boundary in case we are
	// trying to match: type_basename = "d" type_scope = "b::c::"
	// We want to match:
	// match_type_scope "a::b::c::"
	// But not:
	// match_type_scope "a::bb::c::"
	// So below we make sure what comes before "b::c::" in
	// match_type_scope is "::", or the namespace boundary
	if (match_type_scope[type_scope_pos - 1] == ':' &&
	match_type_scope[type_scope_pos - 2] == ':') {
	keep_match = true;
	}
	}
	}
	}
	}
	}
	} else {
	// The type we are currently looking at doesn't exists in a namespace
	// or class, so it only matches if there is no type scope...
	keep_match = type_scope.empty() && type_basename == match_type_name;
	}
	}

	if (keep_match) {
	matching_types.insert(*pos);
	}
	}
	m_types.swap(matching_types);
	}

	void TypeMap::RemoveMismatchedTypes(TypeClass type_class) {
	if (type_class == eTypeClassAny)
	return;

	// Our "collection" type currently is a std::map which doesn't have any good
	// way to iterate and remove items from the map so we currently just make a
	// new list and add all of the matching types to it, and then swap it into
	// m_types at the end
	collection matching_types;

	iterator pos, end = m_types.end();

	for (pos = m_types.begin(); pos != end; ++pos) {
	Type *the_type = pos->second.get();
	TypeClass match_type_class =
	the_type->GetForwardCompilerType().GetTypeClass();
	if (match_type_class & type_class)
	matching_types.insert(*pos);
	}
	m_types.swap(matching_types);
	}