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99558cc424fee346a4070b42ac9c62546d499333
clang-p2996/lldb/source/Target/StackFrame.cpp
Greg Clayton 99558cc424 Final bit of type system cleanup that abstracts declaration contexts into lldb_private::CompilerDeclContext and renames ClangType to CompilerType in many accessors and functions. 
Create a new "lldb_private::CompilerDeclContext" class that will replace all direct uses of "clang::DeclContext" when used in compiler agnostic code, yet still allow for conversion to clang::DeclContext subclasses by clang specific code. This completes the abstraction of type parsing by removing all "clang::" references from the SymbolFileDWARF. The new "lldb_private::CompilerDeclContext" class abstracts decl contexts found in compiler type systems so they can be used in internal API calls. The TypeSystem is required to support CompilerDeclContexts with new pure virtual functions that start with "DeclContext" in the member function names. Converted all code that used lldb_private::ClangNamespaceDecl over to use the new CompilerDeclContext class and removed the ClangNamespaceDecl.cpp and ClangNamespaceDecl.h files.

Removed direct use of clang APIs from SBType and now use the abstract type systems to correctly explore types.

Bulk renames for things that used to return a ClangASTType which is now CompilerType:

    "Type::GetClangFullType()" to "Type::GetFullCompilerType()"
    "Type::GetClangLayoutType()" to "Type::GetLayoutCompilerType()"
    "Type::GetClangForwardType()" to "Type::GetForwardCompilerType()"
    "Value::GetClangType()" to "Value::GetCompilerType()"
    "Value::SetClangType (const CompilerType &)" to "Value::SetCompilerType (const CompilerType &)"
    "ValueObject::GetClangType ()" to "ValueObject::GetCompilerType()"
    many more renames that are similar.

llvm-svn: 245905
2015-08-24 23:46:31 +00:00

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//===-- StackFrame.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/StackFrame.h"
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/Core/Module.h"
#include "lldb/Core/Debugger.h"
#include "lldb/Core/Disassembler.h"
#include "lldb/Core/FormatEntity.h"
#include "lldb/Core/Value.h"
#include "lldb/Core/ValueObjectVariable.h"
#include "lldb/Core/ValueObjectConstResult.h"
#include "lldb/Symbol/CompileUnit.h"
#include "lldb/Symbol/Function.h"
#include "lldb/Symbol/Symbol.h"
#include "lldb/Symbol/SymbolContextScope.h"
#include "lldb/Symbol/VariableList.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/Thread.h"
using namespace lldb;
using namespace lldb_private;
// The first bits in the flags are reserved for the SymbolContext::Scope bits
// so we know if we have tried to look up information in our internal symbol
// context (m_sc) already.
#define RESOLVED_FRAME_CODE_ADDR (uint32_t(eSymbolContextEverything + 1))
#define RESOLVED_FRAME_ID_SYMBOL_SCOPE (RESOLVED_FRAME_CODE_ADDR << 1)
#define GOT_FRAME_BASE (RESOLVED_FRAME_ID_SYMBOL_SCOPE << 1)
#define RESOLVED_VARIABLES (GOT_FRAME_BASE << 1)
#define RESOLVED_GLOBAL_VARIABLES (RESOLVED_VARIABLES << 1)
StackFrame::StackFrame (const ThreadSP &thread_sp,
user_id_t frame_idx,
user_id_t unwind_frame_index,
addr_t cfa,
bool cfa_is_valid,
addr_t pc,
uint32_t stop_id,
bool stop_id_is_valid,
bool is_history_frame,
const SymbolContext *sc_ptr) :
m_thread_wp (thread_sp),
m_frame_index (frame_idx),
m_concrete_frame_index (unwind_frame_index),
m_reg_context_sp (),
m_id (pc, cfa, NULL),
m_frame_code_addr (pc),
m_sc (),
m_flags (),
m_frame_base (),
m_frame_base_error (),
m_cfa_is_valid (cfa_is_valid),
m_stop_id (stop_id),
m_stop_id_is_valid (stop_id_is_valid),
m_is_history_frame (is_history_frame),
m_variable_list_sp (),
m_variable_list_value_objects (),
m_disassembly (),
m_mutex (Mutex::eMutexTypeRecursive)
{
// If we don't have a CFA value, use the frame index for our StackID so that recursive
// functions properly aren't confused with one another on a history stack.
if (m_is_history_frame && m_cfa_is_valid == false)
{
m_id.SetCFA (m_frame_index);
}
if (sc_ptr != NULL)
{
m_sc = *sc_ptr;
m_flags.Set(m_sc.GetResolvedMask ());
}
}
StackFrame::StackFrame (const ThreadSP &thread_sp,
user_id_t frame_idx,
user_id_t unwind_frame_index,
const RegisterContextSP &reg_context_sp,
addr_t cfa,
addr_t pc,
const SymbolContext *sc_ptr) :
m_thread_wp (thread_sp),
m_frame_index (frame_idx),
m_concrete_frame_index (unwind_frame_index),
m_reg_context_sp (reg_context_sp),
m_id (pc, cfa, NULL),
m_frame_code_addr (pc),
m_sc (),
m_flags (),
m_frame_base (),
m_frame_base_error (),
m_cfa_is_valid (true),
m_stop_id (0),
m_stop_id_is_valid (false),
m_is_history_frame (false),
m_variable_list_sp (),
m_variable_list_value_objects (),
m_disassembly (),
m_mutex (Mutex::eMutexTypeRecursive)
{
if (sc_ptr != NULL)
{
m_sc = *sc_ptr;
m_flags.Set(m_sc.GetResolvedMask ());
}
if (reg_context_sp && !m_sc.target_sp)
{
m_sc.target_sp = reg_context_sp->CalculateTarget();
if (m_sc.target_sp)
m_flags.Set (eSymbolContextTarget);
}
}
StackFrame::StackFrame (const ThreadSP &thread_sp,
user_id_t frame_idx,
user_id_t unwind_frame_index,
const RegisterContextSP &reg_context_sp,
addr_t cfa,
const Address& pc_addr,
const SymbolContext *sc_ptr) :
m_thread_wp (thread_sp),
m_frame_index (frame_idx),
m_concrete_frame_index (unwind_frame_index),
m_reg_context_sp (reg_context_sp),
m_id (pc_addr.GetLoadAddress (thread_sp->CalculateTarget().get()), cfa, NULL),
m_frame_code_addr (pc_addr),
m_sc (),
m_flags (),
m_frame_base (),
m_frame_base_error (),
m_cfa_is_valid (true),
m_stop_id (0),
m_stop_id_is_valid (false),
m_is_history_frame (false),
m_variable_list_sp (),
m_variable_list_value_objects (),
m_disassembly (),
m_mutex (Mutex::eMutexTypeRecursive)
{
if (sc_ptr != NULL)
{
m_sc = *sc_ptr;
m_flags.Set(m_sc.GetResolvedMask ());
}
if (m_sc.target_sp.get() == NULL && reg_context_sp)
{
m_sc.target_sp = reg_context_sp->CalculateTarget();
if (m_sc.target_sp)
m_flags.Set (eSymbolContextTarget);
}
ModuleSP pc_module_sp (pc_addr.GetModule());
if (!m_sc.module_sp || m_sc.module_sp != pc_module_sp)
{
if (pc_module_sp)
{
m_sc.module_sp = pc_module_sp;
m_flags.Set (eSymbolContextModule);
}
else
{
m_sc.module_sp.reset();
}
}
}
//----------------------------------------------------------------------
// Destructor
//----------------------------------------------------------------------
StackFrame::~StackFrame()
{
}
StackID&
StackFrame::GetStackID()
{
Mutex::Locker locker(m_mutex);
// Make sure we have resolved the StackID object's symbol context scope if
// we already haven't looked it up.
if (m_flags.IsClear (RESOLVED_FRAME_ID_SYMBOL_SCOPE))
{
if (m_id.GetSymbolContextScope ())
{
// We already have a symbol context scope, we just don't have our
// flag bit set.
m_flags.Set (RESOLVED_FRAME_ID_SYMBOL_SCOPE);
}
else
{
// Calculate the frame block and use this for the stack ID symbol
// context scope if we have one.
SymbolContextScope *scope = GetFrameBlock ();
if (scope == NULL)
{
// We don't have a block, so use the symbol
if (m_flags.IsClear (eSymbolContextSymbol))
GetSymbolContext (eSymbolContextSymbol);
// It is ok if m_sc.symbol is NULL here
scope = m_sc.symbol;
}
// Set the symbol context scope (the accessor will set the
// RESOLVED_FRAME_ID_SYMBOL_SCOPE bit in m_flags).
SetSymbolContextScope (scope);
}
}
return m_id;
}
uint32_t
StackFrame::GetFrameIndex () const
{
ThreadSP thread_sp = GetThread();
if (thread_sp)
return thread_sp->GetStackFrameList()->GetVisibleStackFrameIndex(m_frame_index);
else
return m_frame_index;
}
void
StackFrame::SetSymbolContextScope (SymbolContextScope *symbol_scope)
{
Mutex::Locker locker(m_mutex);
m_flags.Set (RESOLVED_FRAME_ID_SYMBOL_SCOPE);
m_id.SetSymbolContextScope (symbol_scope);
}
const Address&
StackFrame::GetFrameCodeAddress()
{
Mutex::Locker locker(m_mutex);
if (m_flags.IsClear(RESOLVED_FRAME_CODE_ADDR) && !m_frame_code_addr.IsSectionOffset())
{
m_flags.Set (RESOLVED_FRAME_CODE_ADDR);
// Resolve the PC into a temporary address because if ResolveLoadAddress
// fails to resolve the address, it will clear the address object...
ThreadSP thread_sp (GetThread());
if (thread_sp)
{
TargetSP target_sp (thread_sp->CalculateTarget());
if (target_sp)
{
if (m_frame_code_addr.SetOpcodeLoadAddress (m_frame_code_addr.GetOffset(), target_sp.get()))
{
ModuleSP module_sp (m_frame_code_addr.GetModule());
if (module_sp)
{
m_sc.module_sp = module_sp;
m_flags.Set(eSymbolContextModule);
}
}
}
}
}
return m_frame_code_addr;
}
bool
StackFrame::ChangePC (addr_t pc)
{
Mutex::Locker locker(m_mutex);
// We can't change the pc value of a history stack frame - it is immutable.
if (m_is_history_frame)
return false;
m_frame_code_addr.SetRawAddress(pc);
m_sc.Clear(false);
m_flags.Reset(0);
ThreadSP thread_sp (GetThread());
if (thread_sp)
thread_sp->ClearStackFrames ();
return true;
}
const char *
StackFrame::Disassemble ()
{
Mutex::Locker locker(m_mutex);
if (m_disassembly.GetSize() == 0)
{
ExecutionContext exe_ctx (shared_from_this());
Target *target = exe_ctx.GetTargetPtr();
if (target)
{
const char *plugin_name = NULL;
const char *flavor = NULL;
Disassembler::Disassemble (target->GetDebugger(),
target->GetArchitecture(),
plugin_name,
flavor,
exe_ctx,
0,
0,
0,
m_disassembly);
}
if (m_disassembly.GetSize() == 0)
return NULL;
}
return m_disassembly.GetData();
}
Block *
StackFrame::GetFrameBlock ()
{
if (m_sc.block == NULL && m_flags.IsClear (eSymbolContextBlock))
GetSymbolContext (eSymbolContextBlock);
if (m_sc.block)
{
Block *inline_block = m_sc.block->GetContainingInlinedBlock();
if (inline_block)
{
// Use the block with the inlined function info
// as the frame block we want this frame to have only the variables
// for the inlined function and its non-inlined block child blocks.
return inline_block;
}
else
{
// This block is not contained withing any inlined function blocks
// with so we want to use the top most function block.
return &m_sc.function->GetBlock (false);
}
}
return NULL;
}
//----------------------------------------------------------------------
// Get the symbol context if we already haven't done so by resolving the
// PC address as much as possible. This way when we pass around a
// StackFrame object, everyone will have as much information as
// possible and no one will ever have to look things up manually.
//----------------------------------------------------------------------
const SymbolContext&
StackFrame::GetSymbolContext (uint32_t resolve_scope)
{
Mutex::Locker locker(m_mutex);
// Copy our internal symbol context into "sc".
if ((m_flags.Get() & resolve_scope) != resolve_scope)
{
uint32_t resolved = 0;
// If the target was requested add that:
if (!m_sc.target_sp)
{
m_sc.target_sp = CalculateTarget();
if (m_sc.target_sp)
resolved |= eSymbolContextTarget;
}
// Resolve our PC to section offset if we haven't already done so
// and if we don't have a module. The resolved address section will
// contain the module to which it belongs
if (!m_sc.module_sp && m_flags.IsClear(RESOLVED_FRAME_CODE_ADDR))
GetFrameCodeAddress();
// If this is not frame zero, then we need to subtract 1 from the PC
// value when doing address lookups since the PC will be on the
// instruction following the function call instruction...
Address lookup_addr(GetFrameCodeAddress());
if (m_frame_index > 0 && lookup_addr.IsValid())
{
addr_t offset = lookup_addr.GetOffset();
if (offset > 0)
{
lookup_addr.SetOffset(offset - 1);
}
else
{
// lookup_addr is the start of a section. We need
// do the math on the actual load address and re-compute
// the section. We're working with a 'noreturn' function
// at the end of a section.
ThreadSP thread_sp (GetThread());
if (thread_sp)
{
TargetSP target_sp (thread_sp->CalculateTarget());
if (target_sp)
{
addr_t addr_minus_one = lookup_addr.GetLoadAddress(target_sp.get()) - 1;
lookup_addr.SetLoadAddress (addr_minus_one, target_sp.get());
}
else
{
lookup_addr.SetOffset(offset - 1);
}
}
}
}
if (m_sc.module_sp)
{
// We have something in our stack frame symbol context, lets check
// if we haven't already tried to lookup one of those things. If we
// haven't then we will do the query.
uint32_t actual_resolve_scope = 0;
if (resolve_scope & eSymbolContextCompUnit)
{
if (m_flags.IsClear (eSymbolContextCompUnit))
{
if (m_sc.comp_unit)
resolved |= eSymbolContextCompUnit;
else
actual_resolve_scope |= eSymbolContextCompUnit;
}
}
if (resolve_scope & eSymbolContextFunction)
{
if (m_flags.IsClear (eSymbolContextFunction))
{
if (m_sc.function)
resolved |= eSymbolContextFunction;
else
actual_resolve_scope |= eSymbolContextFunction;
}
}
if (resolve_scope & eSymbolContextBlock)
{
if (m_flags.IsClear (eSymbolContextBlock))
{
if (m_sc.block)
resolved |= eSymbolContextBlock;
else
actual_resolve_scope |= eSymbolContextBlock;
}
}
if (resolve_scope & eSymbolContextSymbol)
{
if (m_flags.IsClear (eSymbolContextSymbol))
{
if (m_sc.symbol)
resolved |= eSymbolContextSymbol;
else
actual_resolve_scope |= eSymbolContextSymbol;
}
}
if (resolve_scope & eSymbolContextLineEntry)
{
if (m_flags.IsClear (eSymbolContextLineEntry))
{
if (m_sc.line_entry.IsValid())
resolved |= eSymbolContextLineEntry;
else
actual_resolve_scope |= eSymbolContextLineEntry;
}
}
if (actual_resolve_scope)
{
// We might be resolving less information than what is already
// in our current symbol context so resolve into a temporary
// symbol context "sc" so we don't clear out data we have
// already found in "m_sc"
SymbolContext sc;
// Set flags that indicate what we have tried to resolve
resolved |= m_sc.module_sp->ResolveSymbolContextForAddress (lookup_addr, actual_resolve_scope, sc);
// Only replace what we didn't already have as we may have
// information for an inlined function scope that won't match
// what a standard lookup by address would match
if ((resolved & eSymbolContextCompUnit) && m_sc.comp_unit == NULL)
m_sc.comp_unit = sc.comp_unit;
if ((resolved & eSymbolContextFunction) && m_sc.function == NULL)
m_sc.function = sc.function;
if ((resolved & eSymbolContextBlock) && m_sc.block == NULL)
m_sc.block = sc.block;
if ((resolved & eSymbolContextSymbol) && m_sc.symbol == NULL)
m_sc.symbol = sc.symbol;
if ((resolved & eSymbolContextLineEntry) && !m_sc.line_entry.IsValid())
{
m_sc.line_entry = sc.line_entry;
if (m_sc.target_sp)
{
// Be sure to apply and file remappings to our file and line
// entries when handing out a line entry
FileSpec new_file_spec;
if (m_sc.target_sp->GetSourcePathMap().FindFile (m_sc.line_entry.file, new_file_spec))
m_sc.line_entry.file = new_file_spec;
}
}
}
}
else
{
// If we don't have a module, then we can't have the compile unit,
// function, block, line entry or symbol, so we can safely call
// ResolveSymbolContextForAddress with our symbol context member m_sc.
if (m_sc.target_sp)
{
resolved |= m_sc.target_sp->GetImages().ResolveSymbolContextForAddress (lookup_addr, resolve_scope, m_sc);
}
}
// Update our internal flags so we remember what we have tried to locate so
// we don't have to keep trying when more calls to this function are made.
// We might have dug up more information that was requested (for example
// if we were asked to only get the block, we will have gotten the
// compile unit, and function) so set any additional bits that we resolved
m_flags.Set (resolve_scope | resolved);
}
// Return the symbol context with everything that was possible to resolve
// resolved.
return m_sc;
}
VariableList *
StackFrame::GetVariableList (bool get_file_globals)
{
Mutex::Locker locker(m_mutex);
if (m_flags.IsClear(RESOLVED_VARIABLES))
{
m_flags.Set(RESOLVED_VARIABLES);
Block *frame_block = GetFrameBlock();
if (frame_block)
{
const bool get_child_variables = true;
const bool can_create = true;
const bool stop_if_child_block_is_inlined_function = true;
m_variable_list_sp.reset(new VariableList());
frame_block->AppendBlockVariables(can_create, get_child_variables, stop_if_child_block_is_inlined_function, m_variable_list_sp.get());
}
}
if (m_flags.IsClear(RESOLVED_GLOBAL_VARIABLES) &&
get_file_globals)
{
m_flags.Set(RESOLVED_GLOBAL_VARIABLES);
if (m_flags.IsClear (eSymbolContextCompUnit))
GetSymbolContext (eSymbolContextCompUnit);
if (m_sc.comp_unit)
{
VariableListSP global_variable_list_sp (m_sc.comp_unit->GetVariableList(true));
if (m_variable_list_sp)
m_variable_list_sp->AddVariables (global_variable_list_sp.get());
else
m_variable_list_sp = global_variable_list_sp;
}
}
return m_variable_list_sp.get();
}
VariableListSP
StackFrame::GetInScopeVariableList (bool get_file_globals)
{
Mutex::Locker locker(m_mutex);
// We can't fetch variable information for a history stack frame.
if (m_is_history_frame)
return VariableListSP();
VariableListSP var_list_sp(new VariableList);
GetSymbolContext (eSymbolContextCompUnit | eSymbolContextBlock);
if (m_sc.block)
{
const bool can_create = true;
const bool get_parent_variables = true;
const bool stop_if_block_is_inlined_function = true;
m_sc.block->AppendVariables (can_create,
get_parent_variables,
stop_if_block_is_inlined_function,
var_list_sp.get());
}
if (m_sc.comp_unit)
{
VariableListSP global_variable_list_sp (m_sc.comp_unit->GetVariableList(true));
if (global_variable_list_sp)
var_list_sp->AddVariables (global_variable_list_sp.get());
}
return var_list_sp;
}
ValueObjectSP
StackFrame::GetValueForVariableExpressionPath (const char *var_expr_cstr,
DynamicValueType use_dynamic,
uint32_t options,
VariableSP &var_sp,
Error &error)
{
// We can't fetch variable information for a history stack frame.
if (m_is_history_frame)
return ValueObjectSP();
if (var_expr_cstr && var_expr_cstr[0])
{
const bool check_ptr_vs_member = (options & eExpressionPathOptionCheckPtrVsMember) != 0;
const bool no_fragile_ivar = (options & eExpressionPathOptionsNoFragileObjcIvar) != 0;
const bool no_synth_child = (options & eExpressionPathOptionsNoSyntheticChildren) != 0;
//const bool no_synth_array = (options & eExpressionPathOptionsNoSyntheticArrayRange) != 0;
error.Clear();
bool deref = false;
bool address_of = false;
ValueObjectSP valobj_sp;
const bool get_file_globals = true;
// When looking up a variable for an expression, we need only consider the
// variables that are in scope.
VariableListSP var_list_sp (GetInScopeVariableList (get_file_globals));
VariableList *variable_list = var_list_sp.get();
if (variable_list)
{
// If first character is a '*', then show pointer contents
const char *var_expr = var_expr_cstr;
if (var_expr[0] == '*')
{
deref = true;
var_expr++; // Skip the '*'
}
else if (var_expr[0] == '&')
{
address_of = true;
var_expr++; // Skip the '&'
}
std::string var_path (var_expr);
size_t separator_idx = var_path.find_first_of(".-[=+~|&^%#@!/?,<>{}");
StreamString var_expr_path_strm;
ConstString name_const_string;
if (separator_idx == std::string::npos)
name_const_string.SetCString (var_path.c_str());
else
name_const_string.SetCStringWithLength (var_path.c_str(), separator_idx);
var_sp = variable_list->FindVariable(name_const_string, false);
bool synthetically_added_instance_object = false;
if (var_sp)
{
var_path.erase (0, name_const_string.GetLength ());
}
else if (options & eExpressionPathOptionsAllowDirectIVarAccess)
{
// Check for direct ivars access which helps us with implicit
// access to ivars with the "this->" or "self->"
GetSymbolContext(eSymbolContextFunction|eSymbolContextBlock);
lldb::LanguageType method_language = eLanguageTypeUnknown;
bool is_instance_method = false;
ConstString method_object_name;
if (m_sc.GetFunctionMethodInfo (method_language, is_instance_method, method_object_name))
{
if (is_instance_method && method_object_name)
{
var_sp = variable_list->FindVariable(method_object_name);
if (var_sp)
{
separator_idx = 0;
var_path.insert(0, "->");
synthetically_added_instance_object = true;
}
}
}
}
if (var_sp)
{
valobj_sp = GetValueObjectForFrameVariable (var_sp, use_dynamic);
if (!valobj_sp)
return valobj_sp;
// We are dumping at least one child
while (separator_idx != std::string::npos)
{
// Calculate the next separator index ahead of time
ValueObjectSP child_valobj_sp;
const char separator_type = var_path[0];
switch (separator_type)
{
case '-':
if (var_path.size() >= 2 && var_path[1] != '>')
return ValueObjectSP();
if (no_fragile_ivar)
{
// Make sure we aren't trying to deref an objective
// C ivar if this is not allowed
const uint32_t pointer_type_flags = valobj_sp->GetCompilerType().GetTypeInfo (NULL);
if ((pointer_type_flags & eTypeIsObjC) &&
(pointer_type_flags & eTypeIsPointer))
{
// This was an objective C object pointer and
// it was requested we skip any fragile ivars
// so return nothing here
return ValueObjectSP();
}
}
var_path.erase (0, 1); // Remove the '-'
// Fall through
case '.':
{
const bool expr_is_ptr = var_path[0] == '>';
var_path.erase (0, 1); // Remove the '.' or '>'
separator_idx = var_path.find_first_of(".-[");
ConstString child_name;
if (separator_idx == std::string::npos)
child_name.SetCString (var_path.c_str());
else
child_name.SetCStringWithLength(var_path.c_str(), separator_idx);
if (check_ptr_vs_member)
{
// We either have a pointer type and need to verify
// valobj_sp is a pointer, or we have a member of a
// class/union/struct being accessed with the . syntax
// and need to verify we don't have a pointer.
const bool actual_is_ptr = valobj_sp->IsPointerType ();
if (actual_is_ptr != expr_is_ptr)
{
// Incorrect use of "." with a pointer, or "->" with
// a class/union/struct instance or reference.
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
if (actual_is_ptr)
error.SetErrorStringWithFormat ("\"%s\" is a pointer and . was used to attempt to access \"%s\". Did you mean \"%s->%s\"?",
var_expr_path_strm.GetString().c_str(),
child_name.GetCString(),
var_expr_path_strm.GetString().c_str(),
var_path.c_str());
else
error.SetErrorStringWithFormat ("\"%s\" is not a pointer and -> was used to attempt to access \"%s\". Did you mean \"%s.%s\"?",
var_expr_path_strm.GetString().c_str(),
child_name.GetCString(),
var_expr_path_strm.GetString().c_str(),
var_path.c_str());
return ValueObjectSP();
}
}
child_valobj_sp = valobj_sp->GetChildMemberWithName (child_name, true);
if (!child_valobj_sp)
{
if (no_synth_child == false)
{
child_valobj_sp = valobj_sp->GetSyntheticValue();
if (child_valobj_sp)
child_valobj_sp = child_valobj_sp->GetChildMemberWithName (child_name, true);
}
if (no_synth_child || !child_valobj_sp)
{
// No child member with name "child_name"
if (synthetically_added_instance_object)
{
// We added a "this->" or "self->" to the beginning of the expression
// and this is the first pointer ivar access, so just return the normal
// error
error.SetErrorStringWithFormat("no variable or instance variable named '%s' found in this frame",
name_const_string.GetCString());
}
else
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
if (child_name)
{
error.SetErrorStringWithFormat ("\"%s\" is not a member of \"(%s) %s\"",
child_name.GetCString(),
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
else
{
error.SetErrorStringWithFormat ("incomplete expression path after \"%s\" in \"%s\"",
var_expr_path_strm.GetString().c_str(),
var_expr_cstr);
}
}
return ValueObjectSP();
}
}
synthetically_added_instance_object = false;
// Remove the child name from the path
var_path.erase(0, child_name.GetLength());
if (use_dynamic != eNoDynamicValues)
{
ValueObjectSP dynamic_value_sp(child_valobj_sp->GetDynamicValue(use_dynamic));
if (dynamic_value_sp)
child_valobj_sp = dynamic_value_sp;
}
}
break;
case '[':
// Array member access, or treating pointer as an array
if (var_path.size() > 2) // Need at least two brackets and a number
{
char *end = NULL;
long child_index = ::strtol (&var_path[1], &end, 0);
if (end && *end == ']'
&& *(end-1) != '[') // this code forces an error in the case of arr[]. as bitfield[] is not a good syntax we're good to go
{
if (valobj_sp->GetCompilerType().IsPointerToScalarType() && deref)
{
// what we have is *ptr[low]. the most similar C++ syntax is to deref ptr
// and extract bit low out of it. reading array item low
// would be done by saying ptr[low], without a deref * sign
Error error;
ValueObjectSP temp(valobj_sp->Dereference(error));
if (error.Fail())
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("could not dereference \"(%s) %s\"",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
return ValueObjectSP();
}
valobj_sp = temp;
deref = false;
}
else if (valobj_sp->GetCompilerType().IsArrayOfScalarType() && deref)
{
// what we have is *arr[low]. the most similar C++ syntax is to get arr[0]
// (an operation that is equivalent to deref-ing arr)
// and extract bit low out of it. reading array item low
// would be done by saying arr[low], without a deref * sign
Error error;
ValueObjectSP temp(valobj_sp->GetChildAtIndex (0, true));
if (error.Fail())
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("could not get item 0 for \"(%s) %s\"",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
return ValueObjectSP();
}
valobj_sp = temp;
deref = false;
}
bool is_incomplete_array = false;
if (valobj_sp->IsPointerType ())
{
bool is_objc_pointer = true;
if (valobj_sp->GetCompilerType().GetMinimumLanguage() != eLanguageTypeObjC)
is_objc_pointer = false;
else if (!valobj_sp->GetCompilerType().IsPointerType())
is_objc_pointer = false;
if (no_synth_child && is_objc_pointer)
{
error.SetErrorStringWithFormat("\"(%s) %s\" is an Objective-C pointer, and cannot be subscripted",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
return ValueObjectSP();
}
else if (is_objc_pointer)
{
// dereferencing ObjC variables is not valid.. so let's try and recur to synthetic children
ValueObjectSP synthetic = valobj_sp->GetSyntheticValue();
if (synthetic.get() == NULL /* no synthetic */
|| synthetic == valobj_sp) /* synthetic is the same as the original object */
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("\"(%s) %s\" is not an array type",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
else if (static_cast<uint32_t>(child_index) >= synthetic->GetNumChildren() /* synthetic does not have that many values */)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array index %ld is not valid for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
else
{
child_valobj_sp = synthetic->GetChildAtIndex(child_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array index %ld is not valid for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
}
else
{
child_valobj_sp = valobj_sp->GetSyntheticArrayMember (child_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("failed to use pointer as array for index %ld for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
}
else if (valobj_sp->GetCompilerType().IsArrayType (NULL, NULL, &is_incomplete_array))
{
// Pass false to dynamic_value here so we can tell the difference between
// no dynamic value and no member of this type...
child_valobj_sp = valobj_sp->GetChildAtIndex (child_index, true);
if (!child_valobj_sp && (is_incomplete_array || no_synth_child == false))
child_valobj_sp = valobj_sp->GetSyntheticArrayMember (child_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array index %ld is not valid for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
else if (valobj_sp->GetCompilerType().IsScalarType())
{
// this is a bitfield asking to display just one bit
child_valobj_sp = valobj_sp->GetSyntheticBitFieldChild(child_index, child_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("bitfield range %ld-%ld is not valid for \"(%s) %s\"",
child_index, child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
else
{
ValueObjectSP synthetic = valobj_sp->GetSyntheticValue();
if (no_synth_child /* synthetic is forbidden */ ||
synthetic.get() == NULL /* no synthetic */
|| synthetic == valobj_sp) /* synthetic is the same as the original object */
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("\"(%s) %s\" is not an array type",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
else if (static_cast<uint32_t>(child_index) >= synthetic->GetNumChildren() /* synthetic does not have that many values */)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array index %ld is not valid for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
else
{
child_valobj_sp = synthetic->GetChildAtIndex(child_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array index %ld is not valid for \"(%s) %s\"",
child_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
}
if (!child_valobj_sp)
{
// Invalid array index...
return ValueObjectSP();
}
// Erase the array member specification '[%i]' where
// %i is the array index
var_path.erase(0, (end - var_path.c_str()) + 1);
separator_idx = var_path.find_first_of(".-[");
if (use_dynamic != eNoDynamicValues)
{
ValueObjectSP dynamic_value_sp(child_valobj_sp->GetDynamicValue(use_dynamic));
if (dynamic_value_sp)
child_valobj_sp = dynamic_value_sp;
}
// Break out early from the switch since we were
// able to find the child member
break;
}
else if (end && *end == '-')
{
// this is most probably a BitField, let's take a look
char *real_end = NULL;
long final_index = ::strtol (end+1, &real_end, 0);
bool expand_bitfield = true;
if (real_end && *real_end == ']')
{
// if the format given is [high-low], swap range
if (child_index > final_index)
{
long temp = child_index;
child_index = final_index;
final_index = temp;
}
if (valobj_sp->GetCompilerType().IsPointerToScalarType() && deref)
{
// what we have is *ptr[low-high]. the most similar C++ syntax is to deref ptr
// and extract bits low thru high out of it. reading array items low thru high
// would be done by saying ptr[low-high], without a deref * sign
Error error;
ValueObjectSP temp(valobj_sp->Dereference(error));
if (error.Fail())
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("could not dereference \"(%s) %s\"",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
return ValueObjectSP();
}
valobj_sp = temp;
deref = false;
}
else if (valobj_sp->GetCompilerType().IsArrayOfScalarType() && deref)
{
// what we have is *arr[low-high]. the most similar C++ syntax is to get arr[0]
// (an operation that is equivalent to deref-ing arr)
// and extract bits low thru high out of it. reading array items low thru high
// would be done by saying arr[low-high], without a deref * sign
Error error;
ValueObjectSP temp(valobj_sp->GetChildAtIndex (0, true));
if (error.Fail())
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("could not get item 0 for \"(%s) %s\"",
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
return ValueObjectSP();
}
valobj_sp = temp;
deref = false;
}
/*else if (valobj_sp->IsArrayType() || valobj_sp->IsPointerType())
{
child_valobj_sp = valobj_sp->GetSyntheticArrayRangeChild(child_index, final_index, true);
expand_bitfield = false;
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("array range %i-%i is not valid for \"(%s) %s\"",
child_index, final_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}*/
if (expand_bitfield)
{
child_valobj_sp = valobj_sp->GetSyntheticBitFieldChild(child_index, final_index, true);
if (!child_valobj_sp)
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("bitfield range %ld-%ld is not valid for \"(%s) %s\"",
child_index, final_index,
valobj_sp->GetTypeName().AsCString("<invalid type>"),
var_expr_path_strm.GetString().c_str());
}
}
}
if (!child_valobj_sp)
{
// Invalid bitfield range...
return ValueObjectSP();
}
// Erase the bitfield member specification '[%i-%i]' where
// %i is the index
var_path.erase(0, (real_end - var_path.c_str()) + 1);
separator_idx = var_path.find_first_of(".-[");
if (use_dynamic != eNoDynamicValues)
{
ValueObjectSP dynamic_value_sp(child_valobj_sp->GetDynamicValue(use_dynamic));
if (dynamic_value_sp)
child_valobj_sp = dynamic_value_sp;
}
// Break out early from the switch since we were
// able to find the child member
break;
}
}
else
{
error.SetErrorStringWithFormat("invalid square bracket encountered after \"%s\" in \"%s\"",
var_expr_path_strm.GetString().c_str(),
var_path.c_str());
}
return ValueObjectSP();
default:
// Failure...
{
valobj_sp->GetExpressionPath (var_expr_path_strm, false);
error.SetErrorStringWithFormat ("unexpected char '%c' encountered after \"%s\" in \"%s\"",
separator_type,
var_expr_path_strm.GetString().c_str(),
var_path.c_str());
return ValueObjectSP();
}
}
if (child_valobj_sp)
valobj_sp = child_valobj_sp;
if (var_path.empty())
break;
}
if (valobj_sp)
{
if (deref)
{
ValueObjectSP deref_valobj_sp (valobj_sp->Dereference(error));
valobj_sp = deref_valobj_sp;
}
else if (address_of)
{
ValueObjectSP address_of_valobj_sp (valobj_sp->AddressOf(error));
valobj_sp = address_of_valobj_sp;
}
}
return valobj_sp;
}
else
{
error.SetErrorStringWithFormat("no variable named '%s' found in this frame",
name_const_string.GetCString());
}
}
}
else
{
error.SetErrorStringWithFormat("invalid variable path '%s'", var_expr_cstr);
}
return ValueObjectSP();
}
bool
StackFrame::GetFrameBaseValue (Scalar &frame_base, Error *error_ptr)
{
Mutex::Locker locker(m_mutex);
if (m_cfa_is_valid == false)
{
m_frame_base_error.SetErrorString("No frame base available for this historical stack frame.");
return false;
}
if (m_flags.IsClear(GOT_FRAME_BASE))
{
if (m_sc.function)
{
m_frame_base.Clear();
m_frame_base_error.Clear();
m_flags.Set(GOT_FRAME_BASE);
ExecutionContext exe_ctx (shared_from_this());
Value expr_value;
addr_t loclist_base_addr = LLDB_INVALID_ADDRESS;
if (m_sc.function->GetFrameBaseExpression().IsLocationList())
loclist_base_addr = m_sc.function->GetAddressRange().GetBaseAddress().GetLoadAddress (exe_ctx.GetTargetPtr());
if (m_sc.function->GetFrameBaseExpression().Evaluate(&exe_ctx, NULL, NULL, NULL, loclist_base_addr, NULL, expr_value, &m_frame_base_error) == false)
{
// We should really have an error if evaluate returns, but in case
// we don't, lets set the error to something at least.
if (m_frame_base_error.Success())
m_frame_base_error.SetErrorString("Evaluation of the frame base expression failed.");
}
else
{
m_frame_base = expr_value.ResolveValue(&exe_ctx);
}
}
else
{
m_frame_base_error.SetErrorString ("No function in symbol context.");
}
}
if (m_frame_base_error.Success())
frame_base = m_frame_base;
if (error_ptr)
*error_ptr = m_frame_base_error;
return m_frame_base_error.Success();
}
RegisterContextSP
StackFrame::GetRegisterContext ()
{
Mutex::Locker locker(m_mutex);
if (!m_reg_context_sp)
{
ThreadSP thread_sp (GetThread());
if (thread_sp)
m_reg_context_sp = thread_sp->CreateRegisterContextForFrame (this);
}
return m_reg_context_sp;
}
bool
StackFrame::HasDebugInformation ()
{
GetSymbolContext (eSymbolContextLineEntry);
return m_sc.line_entry.IsValid();
}
ValueObjectSP
StackFrame::GetValueObjectForFrameVariable (const VariableSP &variable_sp, DynamicValueType use_dynamic)
{
Mutex::Locker locker(m_mutex);
ValueObjectSP valobj_sp;
if (m_is_history_frame)
{
return valobj_sp;
}
VariableList *var_list = GetVariableList (true);
if (var_list)
{
// Make sure the variable is a frame variable
const uint32_t var_idx = var_list->FindIndexForVariable (variable_sp.get());
const uint32_t num_variables = var_list->GetSize();
if (var_idx < num_variables)
{
valobj_sp = m_variable_list_value_objects.GetValueObjectAtIndex (var_idx);
if (valobj_sp.get() == NULL)
{
if (m_variable_list_value_objects.GetSize() < num_variables)
m_variable_list_value_objects.Resize(num_variables);
valobj_sp = ValueObjectVariable::Create (this, variable_sp);
m_variable_list_value_objects.SetValueObjectAtIndex (var_idx, valobj_sp);
}
}
}
if (use_dynamic != eNoDynamicValues && valobj_sp)
{
ValueObjectSP dynamic_sp = valobj_sp->GetDynamicValue (use_dynamic);
if (dynamic_sp)
return dynamic_sp;
}
return valobj_sp;
}
ValueObjectSP
StackFrame::TrackGlobalVariable (const VariableSP &variable_sp, DynamicValueType use_dynamic)
{
Mutex::Locker locker(m_mutex);
if (m_is_history_frame)
return ValueObjectSP();
// Check to make sure we aren't already tracking this variable?
ValueObjectSP valobj_sp (GetValueObjectForFrameVariable (variable_sp, use_dynamic));
if (!valobj_sp)
{
// We aren't already tracking this global
VariableList *var_list = GetVariableList (true);
// If this frame has no variables, create a new list
if (var_list == NULL)
m_variable_list_sp.reset (new VariableList());
// Add the global/static variable to this frame
m_variable_list_sp->AddVariable (variable_sp);
// Now make a value object for it so we can track its changes
valobj_sp = GetValueObjectForFrameVariable (variable_sp, use_dynamic);
}
return valobj_sp;
}
bool
StackFrame::IsInlined ()
{
if (m_sc.block == NULL)
GetSymbolContext (eSymbolContextBlock);
if (m_sc.block)
return m_sc.block->GetContainingInlinedBlock() != NULL;
return false;
}
TargetSP
StackFrame::CalculateTarget ()
{
TargetSP target_sp;
ThreadSP thread_sp(GetThread());
if (thread_sp)
{
ProcessSP process_sp (thread_sp->CalculateProcess());
if (process_sp)
target_sp = process_sp->CalculateTarget();
}
return target_sp;
}
ProcessSP
StackFrame::CalculateProcess ()
{
ProcessSP process_sp;
ThreadSP thread_sp(GetThread());
if (thread_sp)
process_sp = thread_sp->CalculateProcess();
return process_sp;
}
ThreadSP
StackFrame::CalculateThread ()
{
return GetThread();
}
StackFrameSP
StackFrame::CalculateStackFrame ()
{
return shared_from_this();
}
void
StackFrame::CalculateExecutionContext (ExecutionContext &exe_ctx)
{
exe_ctx.SetContext (shared_from_this());
}
void
StackFrame::DumpUsingSettingsFormat (Stream *strm, const char *frame_marker)
{
if (strm == NULL)
return;
GetSymbolContext(eSymbolContextEverything);
ExecutionContext exe_ctx (shared_from_this());
StreamString s;
if (frame_marker)
s.PutCString(frame_marker);
const FormatEntity::Entry *frame_format = NULL;
Target *target = exe_ctx.GetTargetPtr();
if (target)
frame_format = target->GetDebugger().GetFrameFormat();
if (frame_format && FormatEntity::Format(*frame_format, s, &m_sc, &exe_ctx, NULL, NULL, false, false))
{
strm->Write(s.GetData(), s.GetSize());
}
else
{
Dump (strm, true, false);
strm->EOL();
}
}
void
StackFrame::Dump (Stream *strm, bool show_frame_index, bool show_fullpaths)
{
if (strm == NULL)
return;
if (show_frame_index)
strm->Printf("frame #%u: ", m_frame_index);
ExecutionContext exe_ctx (shared_from_this());
Target *target = exe_ctx.GetTargetPtr();
strm->Printf("0x%0*" PRIx64 " ",
target ? (target->GetArchitecture().GetAddressByteSize() * 2) : 16,
GetFrameCodeAddress().GetLoadAddress(target));
GetSymbolContext(eSymbolContextEverything);
const bool show_module = true;
const bool show_inline = true;
const bool show_function_arguments = true;
const bool show_function_name = true;
m_sc.DumpStopContext (strm,
exe_ctx.GetBestExecutionContextScope(),
GetFrameCodeAddress(),
show_fullpaths,
show_module,
show_inline,
show_function_arguments,
show_function_name);
}
void
StackFrame::UpdateCurrentFrameFromPreviousFrame (StackFrame &prev_frame)
{
Mutex::Locker locker(m_mutex);
assert (GetStackID() == prev_frame.GetStackID()); // TODO: remove this after some testing
m_variable_list_sp = prev_frame.m_variable_list_sp;
m_variable_list_value_objects.Swap (prev_frame.m_variable_list_value_objects);
if (!m_disassembly.GetString().empty())
m_disassembly.GetString().swap (m_disassembly.GetString());
}
void
StackFrame::UpdatePreviousFrameFromCurrentFrame (StackFrame &curr_frame)
{
Mutex::Locker locker(m_mutex);
assert (GetStackID() == curr_frame.GetStackID()); // TODO: remove this after some testing
m_id.SetPC (curr_frame.m_id.GetPC()); // Update the Stack ID PC value
assert (GetThread() == curr_frame.GetThread());
m_frame_index = curr_frame.m_frame_index;
m_concrete_frame_index = curr_frame.m_concrete_frame_index;
m_reg_context_sp = curr_frame.m_reg_context_sp;
m_frame_code_addr = curr_frame.m_frame_code_addr;
assert (m_sc.target_sp.get() == NULL || curr_frame.m_sc.target_sp.get() == NULL || m_sc.target_sp.get() == curr_frame.m_sc.target_sp.get());
assert (m_sc.module_sp.get() == NULL || curr_frame.m_sc.module_sp.get() == NULL || m_sc.module_sp.get() == curr_frame.m_sc.module_sp.get());
assert (m_sc.comp_unit == NULL || curr_frame.m_sc.comp_unit == NULL || m_sc.comp_unit == curr_frame.m_sc.comp_unit);
assert (m_sc.function == NULL || curr_frame.m_sc.function == NULL || m_sc.function == curr_frame.m_sc.function);
m_sc = curr_frame.m_sc;
m_flags.Clear(GOT_FRAME_BASE | eSymbolContextEverything);
m_flags.Set (m_sc.GetResolvedMask());
m_frame_base.Clear();
m_frame_base_error.Clear();
}
bool
StackFrame::HasCachedData () const
{
if (m_variable_list_sp.get())
return true;
if (m_variable_list_value_objects.GetSize() > 0)
return true;
if (!m_disassembly.GetString().empty())
return true;
return false;
}
bool
StackFrame::GetStatus (Stream& strm,
bool show_frame_info,
bool show_source,
const char *frame_marker)
{
if (show_frame_info)
{
strm.Indent();
DumpUsingSettingsFormat (&strm, frame_marker);
}
if (show_source)
{
ExecutionContext exe_ctx (shared_from_this());
bool have_source = false;
Debugger::StopDisassemblyType disasm_display = Debugger::eStopDisassemblyTypeNever;
Target *target = exe_ctx.GetTargetPtr();
if (target)
{
Debugger &debugger = target->GetDebugger();
const uint32_t source_lines_before = debugger.GetStopSourceLineCount(true);
const uint32_t source_lines_after = debugger.GetStopSourceLineCount(false);
disasm_display = debugger.GetStopDisassemblyDisplay ();
GetSymbolContext(eSymbolContextCompUnit | eSymbolContextLineEntry);
if (m_sc.comp_unit && m_sc.line_entry.IsValid())
{
have_source = true;
if (source_lines_before > 0 || source_lines_after > 0)
{
target->GetSourceManager().DisplaySourceLinesWithLineNumbers (m_sc.line_entry.file,
m_sc.line_entry.line,
source_lines_before,
source_lines_after,
"->",
&strm);
}
}
switch (disasm_display)
{
case Debugger::eStopDisassemblyTypeNever:
break;
case Debugger::eStopDisassemblyTypeNoSource:
if (have_source)
break;
// Fall through to next case
case Debugger::eStopDisassemblyTypeAlways:
if (target)
{
const uint32_t disasm_lines = debugger.GetDisassemblyLineCount();
if (disasm_lines > 0)
{
const ArchSpec &target_arch = target->GetArchitecture();
AddressRange pc_range;
pc_range.GetBaseAddress() = GetFrameCodeAddress();
pc_range.SetByteSize(disasm_lines * target_arch.GetMaximumOpcodeByteSize());
const char *plugin_name = NULL;
const char *flavor = NULL;
Disassembler::Disassemble (target->GetDebugger(),
target_arch,
plugin_name,
flavor,
exe_ctx,
pc_range,
disasm_lines,
0,
Disassembler::eOptionMarkPCAddress,
strm);
}
}
break;
}
}
}
return true;
}
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