source/Symbol/Function.cpp - fp2-dev/platform/external/lldb - Gitiles

 //===-- Function.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/Symbol/Function.h"
 #include "lldb/Core/Module.h"
 #include "lldb/Core/Section.h"
 #include "lldb/Symbol/CompileUnit.h"
 #include "lldb/Symbol/LineTable.h"
 #include "lldb/Symbol/SymbolVendor.h"
 #include "lldb/Symbol/ClangASTContext.h"
 #include "clang/AST/Type.h"
 #include "clang/AST/CanonicalType.h"

 using namespace lldb_private;

 //----------------------------------------------------------------------
 // Basic function information is contained in the FunctionInfo class.
 // It is designed to contain the name, linkage name, and declaration
 // location.
 //----------------------------------------------------------------------
 FunctionInfo::FunctionInfo (const char *name, const Declaration *decl_ptr) :
     m_name(name),
     m_declaration(decl_ptr)
 {
 }


 FunctionInfo::FunctionInfo (const ConstString& name, const Declaration *decl_ptr) :
     m_name(name),
     m_declaration(decl_ptr)
 {
 }


 FunctionInfo::~FunctionInfo()
 {
 }

 void
 FunctionInfo::Dump(Stream *s) const
 {
     if (m_name)
         *s << ", name = \"" << m_name << "\"";
     m_declaration.Dump(s);
 }


 int
 FunctionInfo::Compare(const FunctionInfo& a, const FunctionInfo& b)
 {
     int result = ConstString::Compare(a.GetName(), b.GetName());
     if (result)
         return result;

     return Declaration::Compare(a.m_declaration, b.m_declaration);
 }


 Declaration&
 FunctionInfo::GetDeclaration()
 {
     return m_declaration;
 }

 const Declaration&
 FunctionInfo::GetDeclaration() const
 {
     return m_declaration;
 }

 const ConstString&
 FunctionInfo::GetName() const
 {
     return m_name;
 }

 size_t
 FunctionInfo::MemorySize() const
 {
     return m_name.MemorySize() + m_declaration.MemorySize();
 }


 InlineFunctionInfo::InlineFunctionInfo
 (
     const char *name,
     const char *mangled,
     const Declaration *decl_ptr,
     const Declaration *call_decl_ptr
 ) :
     FunctionInfo(name, decl_ptr),
     m_mangled(mangled, true),
     m_call_decl (call_decl_ptr)
 {
 }

 InlineFunctionInfo::InlineFunctionInfo
 (
     const ConstString& name,
     const Mangled &mangled,
     const Declaration *decl_ptr,
     const Declaration *call_decl_ptr
 ) :
     FunctionInfo(name, decl_ptr),
     m_mangled(mangled),
     m_call_decl (call_decl_ptr)
 {
 }

 InlineFunctionInfo::~InlineFunctionInfo()
 {
 }

 int
 InlineFunctionInfo::Compare(const InlineFunctionInfo& a, const InlineFunctionInfo& b)
 {

     int result = FunctionInfo::Compare(a, b);
     if (result)
         return result;
     // only compare the mangled names if both have them
     return Mangled::Compare(a.m_mangled, a.m_mangled);
 }

 void
 InlineFunctionInfo::Dump(Stream *s) const
 {
     FunctionInfo::Dump(s);
     if (m_mangled)
         m_mangled.Dump(s);
 }

 void
 InlineFunctionInfo::DumpStopContext (Stream *s) const
 {
 //    s->Indent("[inlined] ");
     s->Indent();
     if (m_mangled)
         s->PutCString (m_mangled.GetName().AsCString());
     else
         s->PutCString (m_name.AsCString());
 }

 Declaration &
 InlineFunctionInfo::GetCallSite ()
 {
     return m_call_decl;
 }

 const Declaration &
 InlineFunctionInfo::GetCallSite () const
 {
     return m_call_decl;
 }


 Mangled&
 InlineFunctionInfo::GetMangled()
 {
     return m_mangled;
 }

 const Mangled&
 InlineFunctionInfo::GetMangled() const
 {
     return m_mangled;
 }

 size_t
 InlineFunctionInfo::MemorySize() const
 {
     return FunctionInfo::MemorySize() + m_mangled.MemorySize();
 }

 //----------------------------------------------------------------------
 //
 //----------------------------------------------------------------------
 Function::Function
 (
     CompileUnit *comp_unit,
     lldb::user_id_t func_uid,
     lldb::user_id_t type_uid,
     const Mangled &mangled,
     Type * type,
     const AddressRange& range
 ) :
     UserID(func_uid),
     m_comp_unit(comp_unit),
     m_type_uid(type_uid),
     m_type(type),
     m_mangled(mangled),
     m_blocks(this, range),
     m_frame_base(),
     m_flags(),
     m_prologue_byte_size(0)
 {
     assert(comp_unit != NULL);
 }

 Function::Function
 (
     CompileUnit *comp_unit,
     lldb::user_id_t func_uid,
     lldb::user_id_t type_uid,
     const char *mangled,
     Type *type,
     const AddressRange &range
 ) :
     UserID(func_uid),
     m_comp_unit(comp_unit),
     m_type_uid(type_uid),
     m_type(type),
     m_mangled(mangled, true),
     m_blocks(this, range),
     m_frame_base(),
     m_flags(),
     m_prologue_byte_size(0)
 {
     assert(comp_unit != NULL);
 }


 Function::~Function()
 {
 }

 const AddressRange &
 Function::GetAddressRange()
 {
     return GetBlocks(true).GetAddressRange();
 }

 BlockList &
 Function::GetBlocks(bool can_create)
 {
     if (m_blocks.IsEmpty() && can_create)
     {
         SymbolContext sc;
         CalculateSymbolContext(&sc);
         assert(sc.module_sp);
         sc.module_sp->GetSymbolVendor()->ParseFunctionBlocks(sc);
     }
     return m_blocks;
 }

 CompileUnit*
 Function::GetCompileUnit()
 {
     return m_comp_unit;
 }

 const CompileUnit*
 Function::GetCompileUnit() const
 {
     return m_comp_unit;
 }

 void
 Function::Dump(Stream *s, bool show_context) const
 {
     s->Printf("%.*p: ", (int)sizeof(void*) * 2, this);
     s->Indent();
     *s << "Function" << (const UserID&)*this;

     m_mangled.Dump(s);

 //  FunctionInfo::Dump(s);
     if (m_type)
     {
         *s << ", type = " << (void*)m_type;
         /// << " (";
         ///m_type->DumpTypeName(s);
         ///s->PutChar(')');
     }
     else if (m_type_uid != LLDB_INVALID_UID)
         *s << ", type_uid = " << m_type_uid;

     s->EOL();
     // Dump the root object
     if (!m_blocks.IsEmpty())
         m_blocks.Dump(s, Block::RootID, INT_MAX, show_context);
 }


 void
 Function::CalculateSymbolContext(SymbolContext* sc)
 {
     sc->function = this;
     m_comp_unit->CalculateSymbolContext(sc);
 }

 void
 Function::DumpSymbolContext(Stream *s)
 {
     m_comp_unit->DumpSymbolContext(s);
     s->Printf(", Function{0x%8.8x}", GetID());
 }

 size_t
 Function::MemorySize () const
 {
     size_t mem_size = sizeof(Function) + m_blocks.MemorySize();
     return mem_size;
 }

 Type*
 Function::GetType()
 {
     return m_type;
 }

 const Type*
 Function::GetType() const
 {
     return m_type;
 }

 Type
 Function::GetReturnType ()
 {
     clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
     assert (clang_type->isFunctionType());
     clang::FunctionType *function_type = dyn_cast<clang::FunctionType> (clang_type);
     clang::QualType fun_return_qualtype = function_type->getResultType();

     const ConstString fun_return_name(Type::GetClangTypeName(fun_return_qualtype.getAsOpaquePtr()));

     SymbolContext sc;
     CalculateSymbolContext (&sc);
     // Null out everything below the CompUnit 'cause we don't actually know these.

     size_t bit_size = ClangASTContext::GetTypeBitSize ((GetType()->GetClangASTContext().getASTContext()), &fun_return_qualtype);
     Type return_type (0, GetType()->GetSymbolFile(), fun_return_name, bit_size, sc.comp_unit, 0, Type::eTypeUIDSynthetic, Declaration(), fun_return_qualtype.getAsOpaquePtr());
     return return_type;
 }

 int
 Function::GetArgumentCount ()
 {
     clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
     assert (clang_type->isFunctionType());
     if (!clang_type->isFunctionProtoType())
         return -1;

     const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
     if (function_proto_type != NULL)
         return function_proto_type->getNumArgs();

     return 0;
 }

 const Type
 Function::GetArgumentTypeAtIndex (size_t idx)
 {
     clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
    assert (clang_type->isFunctionType());
    if (!clang_type->isFunctionProtoType())
         return Type();

     const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
     if (function_proto_type != NULL)
     {
         unsigned num_args = function_proto_type->getNumArgs();
         if (idx >= num_args)
             return Type();
         clang::QualType arg_qualtype = (function_proto_type->arg_type_begin())[idx];

         const ConstString arg_return_name(Type::GetClangTypeName(arg_qualtype.getAsOpaquePtr()));
         SymbolContext sc;
         CalculateSymbolContext (&sc);
         // Null out everything below the CompUnit 'cause we don't actually know these.

         size_t bit_size = ClangASTContext::GetTypeBitSize ((GetType()->GetClangASTContext().getASTContext()), &arg_qualtype);
         Type arg_type (0, GetType()->GetSymbolFile(), arg_return_name, bit_size, sc.comp_unit, 0, Type::eTypeUIDSynthetic, Declaration(), arg_qualtype.getAsOpaquePtr());
         return arg_type;
     }

     return Type();
 }

 const char *
 Function::GetArgumentNameAtIndex (size_t idx)
 {
    clang::Type *clang_type = static_cast<clang::QualType *>(GetType()->GetOpaqueClangQualType())->getTypePtr();
    assert (clang_type->isFunctionType());
    if (!clang_type->isFunctionProtoType())
        return NULL;
     return NULL;
 }

 bool
 Function::IsVariadic ()
 {
    const clang::Type *clang_type = static_cast<clang::QualType *>(GetType()->GetOpaqueClangQualType())->getTypePtr();
    assert (clang_type->isFunctionType());
    if (!clang_type->isFunctionProtoType())
         return false;

     const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
     if (function_proto_type != NULL)
     {
         return function_proto_type->isVariadic();
     }

     return false;
 }

 uint32_t
 Function::GetPrologueByteSize ()
 {
     if (m_prologue_byte_size == 0 && m_flags.IsClear(flagsCalculatedPrologueSize))
     {
         m_flags.Set(flagsCalculatedPrologueSize);
         LineTable* line_table = m_comp_unit->GetLineTable ();
         if (line_table)
         {
             LineEntry line_entry;
             if (line_table->FindLineEntryByAddress(GetAddressRange().GetBaseAddress(), line_entry))
                 m_prologue_byte_size = line_entry.range.GetByteSize();
         }
     }
     return m_prologue_byte_size;
 }
	//===-- Function.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/Symbol/Function.h"
	#include "lldb/Core/Module.h"
	#include "lldb/Core/Section.h"
	#include "lldb/Symbol/CompileUnit.h"
	#include "lldb/Symbol/LineTable.h"
	#include "lldb/Symbol/SymbolVendor.h"
	#include "lldb/Symbol/ClangASTContext.h"
	#include "clang/AST/Type.h"
	#include "clang/AST/CanonicalType.h"

	using namespace lldb_private;

	//----------------------------------------------------------------------
	// Basic function information is contained in the FunctionInfo class.
	// It is designed to contain the name, linkage name, and declaration
	// location.
	//----------------------------------------------------------------------
	FunctionInfo::FunctionInfo (const char name, const Declaration decl_ptr) :
	m_name(name),
	m_declaration(decl_ptr)
	{
	}


	FunctionInfo::FunctionInfo (const ConstString& name, const Declaration *decl_ptr) :
	m_name(name),
	m_declaration(decl_ptr)
	{
	}


	FunctionInfo::~FunctionInfo()
	{
	}

	void
	FunctionInfo::Dump(Stream *s) const
	{
	if (m_name)
	*s << ", name = \"" << m_name << "\"";
	m_declaration.Dump(s);
	}


	int
	FunctionInfo::Compare(const FunctionInfo& a, const FunctionInfo& b)
	{
	int result = ConstString::Compare(a.GetName(), b.GetName());
	if (result)
	return result;

	return Declaration::Compare(a.m_declaration, b.m_declaration);
	}


	Declaration&
	FunctionInfo::GetDeclaration()
	{
	return m_declaration;
	}

	const Declaration&
	FunctionInfo::GetDeclaration() const
	{
	return m_declaration;
	}

	const ConstString&
	FunctionInfo::GetName() const
	{
	return m_name;
	}

	size_t
	FunctionInfo::MemorySize() const
	{
	return m_name.MemorySize() + m_declaration.MemorySize();
	}


	InlineFunctionInfo::InlineFunctionInfo
	(
	const char *name,
	const char *mangled,
	const Declaration *decl_ptr,
	const Declaration *call_decl_ptr
	) :
	FunctionInfo(name, decl_ptr),
	m_mangled(mangled, true),
	m_call_decl (call_decl_ptr)
	{
	}

	InlineFunctionInfo::InlineFunctionInfo
	(
	const ConstString& name,
	const Mangled &mangled,
	const Declaration *decl_ptr,
	const Declaration *call_decl_ptr
	) :
	FunctionInfo(name, decl_ptr),
	m_mangled(mangled),
	m_call_decl (call_decl_ptr)
	{
	}

	InlineFunctionInfo::~InlineFunctionInfo()
	{
	}

	int
	InlineFunctionInfo::Compare(const InlineFunctionInfo& a, const InlineFunctionInfo& b)
	{

	int result = FunctionInfo::Compare(a, b);
	if (result)
	return result;
	// only compare the mangled names if both have them
	return Mangled::Compare(a.m_mangled, a.m_mangled);
	}

	void
	InlineFunctionInfo::Dump(Stream *s) const
	{
	FunctionInfo::Dump(s);
	if (m_mangled)
	m_mangled.Dump(s);
	}

	void
	InlineFunctionInfo::DumpStopContext (Stream *s) const
	{
	// s->Indent("[inlined] ");
	s->Indent();
	if (m_mangled)
	s->PutCString (m_mangled.GetName().AsCString());
	else
	s->PutCString (m_name.AsCString());
	}

	Declaration &
	InlineFunctionInfo::GetCallSite ()
	{
	return m_call_decl;
	}

	const Declaration &
	InlineFunctionInfo::GetCallSite () const
	{
	return m_call_decl;
	}


	Mangled&
	InlineFunctionInfo::GetMangled()
	{
	return m_mangled;
	}

	const Mangled&
	InlineFunctionInfo::GetMangled() const
	{
	return m_mangled;
	}

	size_t
	InlineFunctionInfo::MemorySize() const
	{
	return FunctionInfo::MemorySize() + m_mangled.MemorySize();
	}

	//----------------------------------------------------------------------
	//
	//----------------------------------------------------------------------
	Function::Function
	(
	CompileUnit *comp_unit,
	lldb::user_id_t func_uid,
	lldb::user_id_t type_uid,
	const Mangled &mangled,
	Type * type,
	const AddressRange& range
	) :
	UserID(func_uid),
	m_comp_unit(comp_unit),
	m_type_uid(type_uid),
	m_type(type),
	m_mangled(mangled),
	m_blocks(this, range),
	m_frame_base(),
	m_flags(),
	m_prologue_byte_size(0)
	{
	assert(comp_unit != NULL);
	}

	Function::Function
	(
	CompileUnit *comp_unit,
	lldb::user_id_t func_uid,
	lldb::user_id_t type_uid,
	const char *mangled,
	Type *type,
	const AddressRange &range
	) :
	UserID(func_uid),
	m_comp_unit(comp_unit),
	m_type_uid(type_uid),
	m_type(type),
	m_mangled(mangled, true),
	m_blocks(this, range),
	m_frame_base(),
	m_flags(),
	m_prologue_byte_size(0)
	{
	assert(comp_unit != NULL);
	}


	Function::~Function()
	{
	}

	const AddressRange &
	Function::GetAddressRange()
	{
	return GetBlocks(true).GetAddressRange();
	}

	BlockList &
	Function::GetBlocks(bool can_create)
	{
	if (m_blocks.IsEmpty() && can_create)
	{
	SymbolContext sc;
	CalculateSymbolContext(&sc);
	assert(sc.module_sp);
	sc.module_sp->GetSymbolVendor()->ParseFunctionBlocks(sc);
	}
	return m_blocks;
	}

	CompileUnit*
	Function::GetCompileUnit()
	{
	return m_comp_unit;
	}

	const CompileUnit*
	Function::GetCompileUnit() const
	{
	return m_comp_unit;
	}

	void
	Function::Dump(Stream *s, bool show_context) const
	{
	s->Printf("%.p: ", (int)sizeof(void) * 2, this);
	s->Indent();
	s << "Function" << (const UserID&)this;

	m_mangled.Dump(s);

	// FunctionInfo::Dump(s);
	if (m_type)
	{
	s << ", type = " << (void)m_type;
	/// << " (";
	///m_type->DumpTypeName(s);
	///s->PutChar(')');
	}
	else if (m_type_uid != LLDB_INVALID_UID)
	*s << ", type_uid = " << m_type_uid;

	s->EOL();
	// Dump the root object
	if (!m_blocks.IsEmpty())
	m_blocks.Dump(s, Block::RootID, INT_MAX, show_context);
	}


	void
	Function::CalculateSymbolContext(SymbolContext* sc)
	{
	sc->function = this;
	m_comp_unit->CalculateSymbolContext(sc);
	}

	void
	Function::DumpSymbolContext(Stream *s)
	{
	m_comp_unit->DumpSymbolContext(s);
	s->Printf(", Function{0x%8.8x}", GetID());
	}

	size_t
	Function::MemorySize () const
	{
	size_t mem_size = sizeof(Function) + m_blocks.MemorySize();
	return mem_size;
	}

	Type*
	Function::GetType()
	{
	return m_type;
	}

	const Type*
	Function::GetType() const
	{
	return m_type;
	}

	Type
	Function::GetReturnType ()
	{
	clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
	assert (clang_type->isFunctionType());
	clang::FunctionType *function_type = dyn_cast<clang::FunctionType> (clang_type);
	clang::QualType fun_return_qualtype = function_type->getResultType();

	const ConstString fun_return_name(Type::GetClangTypeName(fun_return_qualtype.getAsOpaquePtr()));

	SymbolContext sc;
	CalculateSymbolContext (&sc);
	// Null out everything below the CompUnit 'cause we don't actually know these.

	size_t bit_size = ClangASTContext::GetTypeBitSize ((GetType()->GetClangASTContext().getASTContext()), &fun_return_qualtype);
	Type return_type (0, GetType()->GetSymbolFile(), fun_return_name, bit_size, sc.comp_unit, 0, Type::eTypeUIDSynthetic, Declaration(), fun_return_qualtype.getAsOpaquePtr());
	return return_type;
	}

	int
	Function::GetArgumentCount ()
	{
	clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
	assert (clang_type->isFunctionType());
	if (!clang_type->isFunctionProtoType())
	return -1;

	const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
	if (function_proto_type != NULL)
	return function_proto_type->getNumArgs();

	return 0;
	}

	const Type
	Function::GetArgumentTypeAtIndex (size_t idx)
	{
	clang::QualType clang_type (clang::QualType::getFromOpaquePtr(GetType()->GetOpaqueClangQualType()));
	assert (clang_type->isFunctionType());
	if (!clang_type->isFunctionProtoType())
	return Type();

	const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
	if (function_proto_type != NULL)
	{
	unsigned num_args = function_proto_type->getNumArgs();
	if (idx >= num_args)
	return Type();
	clang::QualType arg_qualtype = (function_proto_type->arg_type_begin())[idx];

	const ConstString arg_return_name(Type::GetClangTypeName(arg_qualtype.getAsOpaquePtr()));
	SymbolContext sc;
	CalculateSymbolContext (&sc);
	// Null out everything below the CompUnit 'cause we don't actually know these.

	size_t bit_size = ClangASTContext::GetTypeBitSize ((GetType()->GetClangASTContext().getASTContext()), &arg_qualtype);
	Type arg_type (0, GetType()->GetSymbolFile(), arg_return_name, bit_size, sc.comp_unit, 0, Type::eTypeUIDSynthetic, Declaration(), arg_qualtype.getAsOpaquePtr());
	return arg_type;
	}

	return Type();
	}

	const char *
	Function::GetArgumentNameAtIndex (size_t idx)
	{
	clang::Type clang_type = static_cast<clang::QualType >(GetType()->GetOpaqueClangQualType())->getTypePtr();
	assert (clang_type->isFunctionType());
	if (!clang_type->isFunctionProtoType())
	return NULL;
	return NULL;
	}

	bool
	Function::IsVariadic ()
	{
	const clang::Type clang_type = static_cast<clang::QualType >(GetType()->GetOpaqueClangQualType())->getTypePtr();
	assert (clang_type->isFunctionType());
	if (!clang_type->isFunctionProtoType())
	return false;

	const clang::FunctionProtoType *function_proto_type = dyn_cast<clang::FunctionProtoType>(clang_type);
	if (function_proto_type != NULL)
	{
	return function_proto_type->isVariadic();
	}

	return false;
	}

	uint32_t
	Function::GetPrologueByteSize ()
	{
	if (m_prologue_byte_size == 0 && m_flags.IsClear(flagsCalculatedPrologueSize))
	{
	m_flags.Set(flagsCalculatedPrologueSize);
	LineTable* line_table = m_comp_unit->GetLineTable ();
	if (line_table)
	{
	LineEntry line_entry;
	if (line_table->FindLineEntryByAddress(GetAddressRange().GetBaseAddress(), line_entry))
	m_prologue_byte_size = line_entry.range.GetByteSize();
	}
	}
	return m_prologue_byte_size;
	}