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clang-p2996/lldb/source/Plugins/SymbolFile/Symtab/SymbolFileSymtab.cpp
Greg Clayton 526e5afb2d Modified the lldb_private::Type clang type resolving code to handle three 
cases when getting the clang type:
- need only a forward declaration
- need a clang type that can be used for layout (members and args/return types)
- need a full clang type

This allows us to partially parse the clang types and be as lazy as possible.
The first case is when we just need to declare a type and we will complete it
later. The forward declaration happens only for class/union/structs and enums.
The layout type allows us to resolve the full clang type _except_ if we have
any modifiers on a pointer or reference (both R and L value). In this case
when we are adding members or function args or return types, we only need to
know how the type will be laid out and we can defer completing the pointee
type until we later need it. The last type means we need a full definition for
the clang type.

Did some renaming of some enumerations to get rid of the old "DC" prefix (which
stands for DebugCore which is no longer around).

Modified the clang namespace support to be almost ready to be fed to the
expression parser. I made a new ClangNamespaceDecl class that can carry around
the AST and the namespace decl so we can copy it into the expression AST. I
modified the symbol vendor and symbol file plug-ins to use this new class.

llvm-svn: 118976
2010-11-13 03:52:47 +00:00

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//===-- SymbolFileSymtab.cpp ------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "SymbolFileSymtab.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/PluginManager.h"
#include "lldb/Core/RegularExpression.h"
#include "lldb/Core/Timer.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/Symtab.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/Symbol.h"
#include "lldb/Symbol/CompileUnit.h"
#include "lldb/Symbol/SymbolContext.h"
#include "lldb/Symbol/Function.h"
using namespace lldb;
using namespace lldb_private;
void
SymbolFileSymtab::Initialize()
{
PluginManager::RegisterPlugin (GetPluginNameStatic(),
GetPluginDescriptionStatic(),
CreateInstance);
}
void
SymbolFileSymtab::Terminate()
{
PluginManager::UnregisterPlugin (CreateInstance);
}
const char *
SymbolFileSymtab::GetPluginNameStatic()
{
return "symbol-file.symtab";
}
const char *
SymbolFileSymtab::GetPluginDescriptionStatic()
{
return "Reads debug symbols from an object file's symbol table.";
}
SymbolFile*
SymbolFileSymtab::CreateInstance (ObjectFile* obj_file)
{
return new SymbolFileSymtab(obj_file);
}
SymbolFileSymtab::SymbolFileSymtab(ObjectFile* obj_file) :
SymbolFile(obj_file),
m_source_indexes(),
m_func_indexes(),
m_code_indexes(),
m_data_indexes(),
m_addr_indexes()
{
}
SymbolFileSymtab::~SymbolFileSymtab()
{
}
uint32_t
SymbolFileSymtab::GetAbilities ()
{
uint32_t abilities = 0;
const Symtab *symtab = m_obj_file->GetSymtab();
if (symtab)
{
//----------------------------------------------------------------------
// The snippet of code below will get the indexes the module symbol
// table entries that are code, data, or function related (debug info),
// sort them by value (address) and dump the sorted symbols.
//----------------------------------------------------------------------
symtab->AppendSymbolIndexesWithType(eSymbolTypeSourceFile, m_source_indexes);
if (!m_source_indexes.empty())
{
abilities |= CompileUnits;
}
symtab->AppendSymbolIndexesWithType(eSymbolTypeCode, Symtab::eDebugYes, Symtab::eVisibilityAny, m_func_indexes);
if (!m_func_indexes.empty())
{
symtab->SortSymbolIndexesByValue(m_func_indexes, true);
abilities |= Functions;
}
symtab->AppendSymbolIndexesWithType(eSymbolTypeCode, Symtab::eDebugNo, Symtab::eVisibilityAny, m_code_indexes);
if (!m_code_indexes.empty())
{
symtab->SortSymbolIndexesByValue(m_code_indexes, true);
abilities |= Labels;
}
symtab->AppendSymbolIndexesWithType(eSymbolTypeData, m_data_indexes);
if (!m_data_indexes.empty())
{
symtab->SortSymbolIndexesByValue(m_data_indexes, true);
abilities |= GlobalVariables;
}
}
return abilities;
}
uint32_t
SymbolFileSymtab::GetNumCompileUnits()
{
// If we don't have any source file symbols we will just have one compile unit for
// the entire object file
if (m_source_indexes.empty())
return 1;
// If we have any source file symbols we will logically orgnize the object symbols
// using these.
return m_source_indexes.size();
}
CompUnitSP
SymbolFileSymtab::ParseCompileUnitAtIndex(uint32_t idx)
{
CompUnitSP cu_sp;
// If we don't have any source file symbols we will just have one compile unit for
// the entire object file
if (m_source_indexes.empty())
{
const FileSpec &obj_file_spec = m_obj_file->GetFileSpec();
if (obj_file_spec)
cu_sp.reset(new CompileUnit(m_obj_file->GetModule(), NULL, obj_file_spec, 0, eLanguageTypeUnknown));
}
else if (idx < m_source_indexes.size())
{
const Symbol *cu_symbol = m_obj_file->GetSymtab()->SymbolAtIndex(m_source_indexes[idx]);
if (cu_symbol)
cu_sp.reset(new CompileUnit(m_obj_file->GetModule(), NULL, cu_symbol->GetMangled().GetName().AsCString(), 0, eLanguageTypeUnknown));
}
return cu_sp;
}
size_t
SymbolFileSymtab::ParseCompileUnitFunctions (const SymbolContext &sc)
{
size_t num_added = 0;
// We must at least have a valid compile unit
assert (sc.comp_unit != NULL);
const Symtab *symtab = m_obj_file->GetSymtab();
const Symbol *curr_symbol = NULL;
const Symbol *next_symbol = NULL;
// const char *prefix = m_obj_file->SymbolPrefix();
// if (prefix == NULL)
// prefix == "";
//
// const uint32_t prefix_len = strlen(prefix);
// If we don't have any source file symbols we will just have one compile unit for
// the entire object file
if (m_source_indexes.empty())
{
// The only time we will have a user ID of zero is when we don't have
// and source file symbols and we declare one compile unit for the
// entire object file
if (!m_func_indexes.empty())
{
}
if (!m_code_indexes.empty())
{
// StreamFile s(stdout);
// symtab->Dump(&s, m_code_indexes);
uint32_t idx = 0; // Index into the indexes
const uint32_t num_indexes = m_code_indexes.size();
for (idx = 0; idx < num_indexes; ++idx)
{
uint32_t symbol_idx = m_code_indexes[idx];
curr_symbol = symtab->SymbolAtIndex(symbol_idx);
if (curr_symbol)
{
// Union of all ranges in the function DIE (if the function is discontiguous)
AddressRange func_range(curr_symbol->GetValue(), 0);
if (func_range.GetBaseAddress().IsSectionOffset())
{
uint32_t symbol_size = curr_symbol->GetByteSize();
if (symbol_size != 0 && !curr_symbol->GetSizeIsSibling())
func_range.SetByteSize(symbol_size);
else if (idx + 1 < num_indexes)
{
next_symbol = symtab->SymbolAtIndex(m_code_indexes[idx + 1]);
if (next_symbol)
{
func_range.SetByteSize(next_symbol->GetValue().GetOffset() - curr_symbol->GetValue().GetOffset());
}
}
FunctionSP func_sp(new Function(sc.comp_unit,
symbol_idx, // UserID is the DIE offset
LLDB_INVALID_UID, // We don't have any type info for this function
curr_symbol->GetMangled(), // Linker/mangled name
NULL, // no return type for a code symbol...
func_range)); // first address range
if (func_sp.get() != NULL)
{
sc.comp_unit->AddFunction(func_sp);
++num_added;
}
}
}
}
}
}
else
{
// We assume we
}
return num_added;
}
bool
SymbolFileSymtab::ParseCompileUnitLineTable (const SymbolContext &sc)
{
return false;
}
bool
SymbolFileSymtab::ParseCompileUnitSupportFiles (const SymbolContext& sc, FileSpecList &support_files)
{
return false;
}
size_t
SymbolFileSymtab::ParseFunctionBlocks (const SymbolContext &sc)
{
return 0;
}
size_t
SymbolFileSymtab::ParseTypes (const SymbolContext &sc)
{
return 0;
}
size_t
SymbolFileSymtab::ParseVariablesForContext (const SymbolContext& sc)
{
return 0;
}
Type*
SymbolFileSymtab::ResolveTypeUID(lldb::user_id_t type_uid)
{
return NULL;
}
lldb::clang_type_t
SymbolFileSymtab::ResolveClangOpaqueTypeDefinition (lldb::clang_type_t clang_Type)
{
return NULL;
}
ClangNamespaceDecl
SymbolFileSymtab::FindNamespace (const SymbolContext& sc, const ConstString &name)
{
return ClangNamespaceDecl();
}
uint32_t
SymbolFileSymtab::ResolveSymbolContext (const Address& so_addr, uint32_t resolve_scope, SymbolContext& sc)
{
if (m_obj_file->GetSymtab() == NULL)
return 0;
uint32_t resolved_flags = 0;
if (resolve_scope & eSymbolContextSymbol)
{
sc.symbol = m_obj_file->GetSymtab()->FindSymbolContainingFileAddress(so_addr.GetFileAddress());
if (sc.symbol)
resolved_flags |= eSymbolContextSymbol;
}
return resolved_flags;
}
uint32_t
SymbolFileSymtab::ResolveSymbolContext (const FileSpec& file_spec, uint32_t line, bool check_inlines, uint32_t resolve_scope, SymbolContextList& sc_list)
{
return 0;
}
uint32_t
SymbolFileSymtab::FindGlobalVariables(const ConstString &name, bool append, uint32_t max_matches, VariableList& variables)
{
return 0;
}
uint32_t
SymbolFileSymtab::FindGlobalVariables(const RegularExpression& regex, bool append, uint32_t max_matches, VariableList& variables)
{
return 0;
}
uint32_t
SymbolFileSymtab::FindFunctions(const ConstString &name, uint32_t name_type_mask, bool append, SymbolContextList& sc_list)
{
Timer scoped_timer (__PRETTY_FUNCTION__,
"SymbolFileSymtab::FindFunctions (name = '%s')",
name.GetCString());
Symtab *symtab = m_obj_file->GetSymtab();
if (symtab)
{
const uint32_t start_size = sc_list.GetSize();
std::vector<uint32_t> symbol_indexes;
symtab->FindAllSymbolsWithNameAndType (name, eSymbolTypeCode, Symtab::eDebugAny, Symtab::eVisibilityAny, symbol_indexes);
const uint32_t num_matches = symbol_indexes.size();
if (num_matches)
{
SymbolContext sc(m_obj_file->GetModule());
for (uint32_t i=0; i<num_matches; i++)
{
sc.symbol = symtab->SymbolAtIndex(symbol_indexes[i]);
sc_list.Append(sc);
}
}
return sc_list.GetSize() - start_size;
}
return 0;
}
uint32_t
SymbolFileSymtab::FindFunctions(const RegularExpression& regex, bool append, SymbolContextList& sc_list)
{
Timer scoped_timer (__PRETTY_FUNCTION__,
"SymbolFileSymtab::FindFunctions (regex = '%s')",
regex.GetText());
return 0;
}
uint32_t
SymbolFileSymtab::FindTypes (const lldb_private::SymbolContext& sc, const lldb_private::ConstString &name, bool append, uint32_t max_matches, lldb_private::TypeList& types)
{
if (!append)
types.Clear();
return 0;
}
//
//uint32_t
//SymbolFileSymtab::FindTypes(const SymbolContext& sc, const RegularExpression& regex, bool append, uint32_t max_matches, TypeList& types)
//{
// return 0;
//}
//------------------------------------------------------------------
// PluginInterface protocol
//------------------------------------------------------------------
const char *
SymbolFileSymtab::GetPluginName()
{
return "SymbolFileSymtab";
}
const char *
SymbolFileSymtab::GetShortPluginName()
{
return GetPluginNameStatic();
}
uint32_t
SymbolFileSymtab::GetPluginVersion()
{
return 1;
}
void
SymbolFileSymtab::GetPluginCommandHelp (const char *command, Stream *strm)
{
}
Error
SymbolFileSymtab::ExecutePluginCommand (Args &command, Stream *strm)
{
Error error;
error.SetErrorString("No plug-in command are currently supported.");
return error;
}
Log *
SymbolFileSymtab::EnablePluginLogging (Stream *strm, Args &command)
{
return NULL;
}
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