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f4b47e15799f16cef4baef4c3ee2519878b0f37a
llvm/lldb/source/Target/Thread.cpp
Greg Clayton f4b47e1579 Abtracted the old "lldb_private::Thread::StopInfo" into an abtract class. 
This will allow debugger plug-ins to make any instance of "lldb_private::StopInfo"
that can completely describe any stop reason. It also provides a framework for
doing intelligent things with the stop info at important times in the lifetime
of the inferior. 

Examples include the signal stop info in StopInfoUnixSignal. It will check with
the process to see that the current action is for the signal. These actions
include wether to stop for the signal, wether the notify that the signal was
hit, and wether to pass the signal along to the inferior process. The 
StopInfoUnixSignal class overrides the "ShouldStop()" method of StopInfo and
this allows the stop info to determine if it should stop at the signal or 
continue the process. 


StopInfo subclasses must override the following functions:

    virtual lldb::StopReason
    GetStopReason () const = 0;

    virtual const char *
    GetDescription () = 0;


StopInfo subclasses can override the following functions:


    // If the subclass returns "false", the inferior will resume. The default
    // version of this function returns "true" which means the default stop
    // info will stop the process. The breakpoint subclass will check if
    // the breakpoint wants us to stop by calling any installed callback on
    // the breakpoint, and also checking if the breakpoint is for the current
    // thread. Signals will check if they should stop based off of the 
    // UnixSignal settings in the process.
    virtual bool
    ShouldStop (Event *event_ptr);

    // Sublasses can state if they want to notify the debugger when "ShouldStop"
    // returns false. This would be handy for breakpoints where you want to
    // log information and continue and is also used by the signal stop info
    // to notify that a signal was received (after it checks with the process
    // signal settings).
    virtual bool
    ShouldNotify (Event *event_ptr)
    {
        return false;
    }

    // Allow subclasses to do something intelligent right before we resume.
    // The signal class will figure out if the signal should be propagated
    // to the inferior process and pass that along to the debugger plug-ins.
    virtual void
    WillResume (lldb::StateType resume_state)
    {
        // By default, don't do anything
    }


The support the Mach exceptions was moved into the lldb/source/Plugins/Process/Utility
folder and now doesn't polute the lldb_private::Thread class with platform
specific code.

llvm-svn: 110184
2010-08-04 01:40:35 +00:00

865 lines
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//===-- Thread.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/lldb-private-log.h"
#include "lldb/Breakpoint/BreakpointLocation.h"
#include "lldb/Core/Log.h"
#include "lldb/Core/Stream.h"
#include "lldb/Core/StreamString.h"
#include "lldb/Host/Host.h"
#include "lldb/Target/DynamicLoader.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/StopInfo.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/Thread.h"
#include "lldb/Target/ThreadPlan.h"
#include "lldb/Target/ThreadPlanCallFunction.h"
#include "lldb/Target/ThreadPlanBase.h"
#include "lldb/Target/ThreadPlanStepInstruction.h"
#include "lldb/Target/ThreadPlanStepOut.h"
#include "lldb/Target/ThreadPlanStepOverBreakpoint.h"
#include "lldb/Target/ThreadPlanStepThrough.h"
#include "lldb/Target/ThreadPlanStepInRange.h"
#include "lldb/Target/ThreadPlanStepOverRange.h"
#include "lldb/Target/ThreadPlanRunToAddress.h"
#include "lldb/Target/ThreadPlanStepUntil.h"
#include "lldb/Target/ThreadSpec.h"
using namespace lldb;
using namespace lldb_private;
Thread::Thread (Process &process, lldb::tid_t tid) :
UserID (tid),
m_process (process),
m_public_stop_info_sp (),
m_actual_stop_info_sp (),
m_index_id (process.GetNextThreadIndexID ()),
m_reg_context_sp (),
m_state (eStateUnloaded),
m_plan_stack (),
m_immediate_plan_stack(),
m_completed_plan_stack(),
m_state_mutex (Mutex::eMutexTypeRecursive),
m_frames (),
m_current_frame_idx (0),
m_resume_signal (LLDB_INVALID_SIGNAL_NUMBER),
m_resume_state (eStateRunning)
{
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT);
if (log)
log->Printf ("%p Thread::Thread(tid = 0x%4.4x)", this, GetID());
QueueFundamentalPlan(true);
}
Thread::~Thread()
{
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT);
if (log)
log->Printf ("%p Thread::~Thread(tid = 0x%4.4x)", this, GetID());
}
int
Thread::GetResumeSignal () const
{
return m_resume_signal;
}
void
Thread::SetResumeSignal (int signal)
{
m_resume_signal = signal;
}
StateType
Thread::GetResumeState () const
{
return m_resume_state;
}
void
Thread::SetResumeState (StateType state)
{
m_resume_state = state;
}
StopInfo *
Thread::GetStopInfo ()
{
if (m_public_stop_info_sp.get() == NULL)
{
ThreadPlanSP plan_sp (GetCompletedPlan());
if (plan_sp)
m_public_stop_info_sp = StopInfo::CreateStopReasonWithPlan (plan_sp);
else
m_public_stop_info_sp = GetPrivateStopReason ();
}
return m_public_stop_info_sp.get();
}
bool
Thread::ThreadStoppedForAReason (void)
{
return GetPrivateStopReason () != NULL;
}
StateType
Thread::GetState() const
{
// If any other threads access this we will need a mutex for it
Mutex::Locker locker(m_state_mutex);
return m_state;
}
void
Thread::SetState(StateType state)
{
Mutex::Locker locker(m_state_mutex);
m_state = state;
}
void
Thread::WillStop()
{
ThreadPlan *current_plan = GetCurrentPlan();
// FIXME: I may decide to disallow threads with no plans. In which
// case this should go to an assert.
if (!current_plan)
return;
current_plan->WillStop();
}
void
Thread::SetupForResume ()
{
if (GetResumeState() != eStateSuspended)
{
// If we're at a breakpoint push the step-over breakpoint plan. Do this before
// telling the current plan it will resume, since we might change what the current
// plan is.
lldb::addr_t pc = GetRegisterContext()->GetPC();
BreakpointSiteSP bp_site_sp = GetProcess().GetBreakpointSiteList().FindByAddress(pc);
if (bp_site_sp && bp_site_sp->IsEnabled())
{
// Note, don't assume there's a ThreadPlanStepOverBreakpoint, the target may not require anything
// special to step over a breakpoint.
ThreadPlan *cur_plan = GetCurrentPlan();
if (cur_plan->GetKind() != ThreadPlan::eKindStepOverBreakpoint)
{
ThreadPlanStepOverBreakpoint *step_bp_plan = new ThreadPlanStepOverBreakpoint (*this);
if (step_bp_plan)
{
ThreadPlanSP step_bp_plan_sp;
step_bp_plan->SetPrivate (true);
if (GetCurrentPlan()->RunState() != eStateStepping)
{
step_bp_plan->SetAutoContinue(true);
}
step_bp_plan_sp.reset (step_bp_plan);
QueueThreadPlan (step_bp_plan_sp, false);
}
}
}
}
}
bool
Thread::WillResume (StateType resume_state)
{
// At this point clear the completed plan stack.
m_completed_plan_stack.clear();
m_discarded_plan_stack.clear();
StopInfo *stop_info = GetPrivateStopReason().get();
if (stop_info)
stop_info->WillResume (resume_state);
// Tell all the plans that we are about to resume in case they need to clear any state.
// We distinguish between the plan on the top of the stack and the lower
// plans in case a plan needs to do any special business before it runs.
ThreadPlan *plan_ptr = GetCurrentPlan();
plan_ptr->WillResume(resume_state, true);
while ((plan_ptr = GetPreviousPlan(plan_ptr)) != NULL)
{
plan_ptr->WillResume (resume_state, false);
}
m_public_stop_info_sp.reset();
m_actual_stop_info_sp.reset();
return true;
}
void
Thread::DidResume ()
{
SetResumeSignal (LLDB_INVALID_SIGNAL_NUMBER);
}
bool
Thread::ShouldStop (Event* event_ptr)
{
ThreadPlan *current_plan = GetCurrentPlan();
bool should_stop = true;
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_STEP);
if (log)
{
StreamString s;
DumpThreadPlans(&s);
log->PutCString (s.GetData());
}
if (current_plan->PlanExplainsStop())
{
bool over_ride_stop = current_plan->ShouldAutoContinue(event_ptr);
while (1)
{
should_stop = current_plan->ShouldStop(event_ptr);
if (current_plan->MischiefManaged())
{
if (should_stop)
current_plan->WillStop();
// If a Master Plan wants to stop, and wants to stick on the stack, we let it.
// Otherwise, see if the plan's parent wants to stop.
if (should_stop && current_plan->IsMasterPlan() && !current_plan->OkayToDiscard())
{
PopPlan();
break;
}
else
{
PopPlan();
current_plan = GetCurrentPlan();
if (current_plan == NULL)
{
break;
}
}
}
else
{
break;
}
}
if (over_ride_stop)
should_stop = false;
}
else
{
// If the current plan doesn't explain the stop, then, find one that
// does and let it handle the situation.
ThreadPlan *plan_ptr = current_plan;
while ((plan_ptr = GetPreviousPlan(plan_ptr)) != NULL)
{
if (plan_ptr->PlanExplainsStop())
{
should_stop = plan_ptr->ShouldStop (event_ptr);
break;
}
}
}
return should_stop;
}
Vote
Thread::ShouldReportStop (Event* event_ptr)
{
StateType thread_state = GetResumeState ();
if (thread_state == eStateSuspended
|| thread_state == eStateInvalid)
return eVoteNoOpinion;
if (m_completed_plan_stack.size() > 0)
{
// Don't use GetCompletedPlan here, since that suppresses private plans.
return m_completed_plan_stack.back()->ShouldReportStop (event_ptr);
}
else
return GetCurrentPlan()->ShouldReportStop (event_ptr);
}
Vote
Thread::ShouldReportRun (Event* event_ptr)
{
StateType thread_state = GetResumeState ();
if (thread_state == eStateSuspended
|| thread_state == eStateInvalid)
return eVoteNoOpinion;
if (m_completed_plan_stack.size() > 0)
{
// Don't use GetCompletedPlan here, since that suppresses private plans.
return m_completed_plan_stack.back()->ShouldReportRun (event_ptr);
}
else
return GetCurrentPlan()->ShouldReportRun (event_ptr);
}
bool
Thread::MatchesSpec (const ThreadSpec *spec)
{
if (spec == NULL)
return true;
return spec->ThreadPassesBasicTests(this);
}
void
Thread::PushPlan (ThreadPlanSP &thread_plan_sp)
{
if (thread_plan_sp)
{
if (thread_plan_sp->IsImmediate())
m_immediate_plan_stack.push_back (thread_plan_sp);
else
m_plan_stack.push_back (thread_plan_sp);
thread_plan_sp->DidPush();
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_STEP);
if (log)
{
StreamString s;
thread_plan_sp->GetDescription (&s, lldb::eDescriptionLevelFull);
log->Printf("Pushing plan: \"%s\" for thread: %d immediate: %s.",
s.GetData(),
thread_plan_sp->GetThread().GetID(),
thread_plan_sp->IsImmediate() ? "true" : "false");
}
}
}
void
Thread::PopPlan ()
{
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_STEP);
if (!m_immediate_plan_stack.empty())
{
ThreadPlanSP &plan = m_immediate_plan_stack.back();
if (log)
{
log->Printf("Popping plan: \"%s\" for thread: %d immediate: true.", plan->GetName(), plan->GetThread().GetID());
}
plan->WillPop();
m_immediate_plan_stack.pop_back();
}
else if (m_plan_stack.empty())
return;
else
{
ThreadPlanSP &plan = m_plan_stack.back();
if (log)
{
log->Printf("Popping plan: \"%s\" for thread: 0x%x immediate: false.", plan->GetName(), plan->GetThread().GetID());
}
m_completed_plan_stack.push_back (plan);
plan->WillPop();
m_plan_stack.pop_back();
}
}
void
Thread::DiscardPlan ()
{
if (m_plan_stack.size() > 1)
{
ThreadPlanSP &plan = m_plan_stack.back();
m_discarded_plan_stack.push_back (plan);
plan->WillPop();
m_plan_stack.pop_back();
}
}
ThreadPlan *
Thread::GetCurrentPlan ()
{
if (!m_immediate_plan_stack.empty())
return m_immediate_plan_stack.back().get();
else if (m_plan_stack.empty())
return NULL;
else
return m_plan_stack.back().get();
}
ThreadPlanSP
Thread::GetCompletedPlan ()
{
ThreadPlanSP empty_plan_sp;
if (!m_completed_plan_stack.empty())
{
for (int i = m_completed_plan_stack.size() - 1; i >= 0; i--)
{
ThreadPlanSP completed_plan_sp;
completed_plan_sp = m_completed_plan_stack[i];
if (!completed_plan_sp->GetPrivate ())
return completed_plan_sp;
}
}
return empty_plan_sp;
}
bool
Thread::IsThreadPlanDone (ThreadPlan *plan)
{
ThreadPlanSP empty_plan_sp;
if (!m_completed_plan_stack.empty())
{
for (int i = m_completed_plan_stack.size() - 1; i >= 0; i--)
{
if (m_completed_plan_stack[i].get() == plan)
return true;
}
}
return false;
}
bool
Thread::WasThreadPlanDiscarded (ThreadPlan *plan)
{
ThreadPlanSP empty_plan_sp;
if (!m_discarded_plan_stack.empty())
{
for (int i = m_discarded_plan_stack.size() - 1; i >= 0; i--)
{
if (m_discarded_plan_stack[i].get() == plan)
return true;
}
}
return false;
}
ThreadPlan *
Thread::GetPreviousPlan (ThreadPlan *current_plan)
{
if (current_plan == NULL)
return NULL;
int stack_size = m_completed_plan_stack.size();
for (int i = stack_size - 1; i > 0; i--)
{
if (current_plan == m_completed_plan_stack[i].get())
return m_completed_plan_stack[i-1].get();
}
if (stack_size > 0 && m_completed_plan_stack[0].get() == current_plan)
{
if (m_immediate_plan_stack.size() > 0)
return m_immediate_plan_stack.back().get();
else if (m_plan_stack.size() > 0)
return m_plan_stack.back().get();
else
return NULL;
}
stack_size = m_immediate_plan_stack.size();
for (int i = stack_size - 1; i > 0; i--)
{
if (current_plan == m_immediate_plan_stack[i].get())
return m_immediate_plan_stack[i-1].get();
}
if (stack_size > 0 && m_immediate_plan_stack[0].get() == current_plan)
{
if (m_plan_stack.size() > 0)
return m_plan_stack.back().get();
else
return NULL;
}
stack_size = m_plan_stack.size();
for (int i = stack_size - 1; i > 0; i--)
{
if (current_plan == m_plan_stack[i].get())
return m_plan_stack[i-1].get();
}
return NULL;
}
void
Thread::QueueThreadPlan (ThreadPlanSP &thread_plan_sp, bool abort_other_plans)
{
if (abort_other_plans)
DiscardThreadPlans(true);
PushPlan (thread_plan_sp);
}
void
Thread::DiscardThreadPlans(bool force)
{
// FIXME: It is not always safe to just discard plans. Some, like the step over
// breakpoint trap can't be discarded in general (though you can if you plan to
// force a return from a function, for instance.
// For now I'm just not clearing immediate plans, but I need a way for plans to
// say they really need to be kept on, and then a way to override that. Humm...
Log *log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_STEP);
if (log)
{
log->Printf("Discarding thread plans for thread: 0x%x: force %d.", GetID(), force);
}
if (force)
{
int stack_size = m_plan_stack.size();
for (int i = stack_size - 1; i > 0; i--)
{
DiscardPlan();
}
return;
}
while (1)
{
int master_plan_idx;
bool discard;
// Find the first master plan, see if it wants discarding, and if yes discard up to it.
for (master_plan_idx = m_plan_stack.size() - 1; master_plan_idx >= 0; master_plan_idx--)
{
if (m_plan_stack[master_plan_idx]->IsMasterPlan())
{
discard = m_plan_stack[master_plan_idx]->OkayToDiscard();
break;
}
}
if (discard)
{
// First pop all the dependent plans:
for (int i = m_plan_stack.size() - 1; i > master_plan_idx; i--)
{
// FIXME: Do we need a finalize here, or is the rule that "PrepareForStop"
// for the plan leaves it in a state that it is safe to pop the plan
// with no more notice?
DiscardPlan();
}
// Now discard the master plan itself.
// The bottom-most plan never gets discarded. "OkayToDiscard" for it means
// discard it's dependent plans, but not it...
if (master_plan_idx > 0)
{
DiscardPlan();
}
}
else
{
// If the master plan doesn't want to get discarded, then we're done.
break;
}
}
// FIXME: What should we do about the immediate plans?
}
ThreadPlan *
Thread::QueueFundamentalPlan (bool abort_other_plans)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanBase(*this));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepSingleInstruction (bool step_over, bool abort_other_plans, bool stop_other_threads)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanStepInstruction (*this, step_over, stop_other_threads, eVoteNoOpinion, eVoteNoOpinion));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepRange
(
bool abort_other_plans,
StepType type,
const AddressRange &range,
const SymbolContext &addr_context,
lldb::RunMode stop_other_threads,
bool avoid_code_without_debug_info
)
{
ThreadPlanSP thread_plan_sp;
if (type == eStepTypeInto)
{
ThreadPlanStepInRange *plan = new ThreadPlanStepInRange (*this, range, addr_context, stop_other_threads);
if (avoid_code_without_debug_info)
plan->GetFlags().Set (ThreadPlanShouldStopHere::eAvoidNoDebug);
else
plan->GetFlags().Clear (ThreadPlanShouldStopHere::eAvoidNoDebug);
thread_plan_sp.reset (plan);
}
else
thread_plan_sp.reset (new ThreadPlanStepOverRange (*this, range, addr_context, stop_other_threads));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepOverBreakpointPlan (bool abort_other_plans)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanStepOverBreakpoint (*this));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepOut (bool abort_other_plans, SymbolContext *addr_context, bool first_insn,
bool stop_other_threads, Vote stop_vote, Vote run_vote)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanStepOut (*this, addr_context, first_insn, stop_other_threads, stop_vote, run_vote));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepThrough (bool abort_other_plans, bool stop_other_threads)
{
ThreadPlanSP thread_plan_sp(GetProcess().GetDynamicLoader()->GetStepThroughTrampolinePlan (*this, stop_other_threads));
if (thread_plan_sp.get() == NULL)
{
thread_plan_sp.reset(new ThreadPlanStepThrough (*this, stop_other_threads));
if (thread_plan_sp && !thread_plan_sp->ValidatePlan (NULL))
return NULL;
}
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForCallFunction (bool abort_other_plans,
Address& function,
lldb::addr_t arg,
bool stop_other_threads,
bool discard_on_error)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanCallFunction (*this, function, arg, stop_other_threads, discard_on_error));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForCallFunction (bool abort_other_plans,
Address& function,
ValueList &args,
bool stop_other_threads,
bool discard_on_error)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanCallFunction (*this, function, args, stop_other_threads, discard_on_error));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForRunToAddress (bool abort_other_plans,
Address &target_addr,
bool stop_other_threads)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanRunToAddress (*this, target_addr, stop_other_threads));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
ThreadPlan *
Thread::QueueThreadPlanForStepUntil (bool abort_other_plans,
lldb::addr_t *address_list,
size_t num_addresses,
bool stop_other_threads)
{
ThreadPlanSP thread_plan_sp (new ThreadPlanStepUntil (*this, address_list, num_addresses, stop_other_threads));
QueueThreadPlan (thread_plan_sp, abort_other_plans);
return thread_plan_sp.get();
}
uint32_t
Thread::GetIndexID () const
{
return m_index_id;
}
void
Thread::DumpThreadPlans (lldb_private::Stream *s) const
{
uint32_t stack_size = m_plan_stack.size();
s->Printf ("Plan Stack for thread #%u: tid = 0x%4.4x - %d elements.\n", GetIndexID(), GetID(), stack_size);
for (int i = stack_size - 1; i > 0; i--)
{
s->Printf ("Element %d: ", i);
s->IndentMore();
m_plan_stack[i]->GetDescription (s, eDescriptionLevelFull);
s->IndentLess();
s->EOL();
}
stack_size = m_immediate_plan_stack.size();
s->Printf ("Immediate Plan Stack: %d elements.\n", stack_size);
for (int i = stack_size - 1; i > 0; i--)
{
s->Printf ("Element %d: ", i);
s->IndentMore();
m_immediate_plan_stack[i]->GetDescription (s, eDescriptionLevelFull);
s->IndentLess();
s->EOL();
}
stack_size = m_completed_plan_stack.size();
s->Printf ("Completed Plan Stack: %d elements.\n", stack_size);
for (int i = stack_size - 1; i > 0; i--)
{
s->Printf ("Element %d: ", i);
s->IndentMore();
m_completed_plan_stack[i]->GetDescription (s, eDescriptionLevelFull);
s->IndentLess();
s->EOL();
}
stack_size = m_discarded_plan_stack.size();
s->Printf ("Discarded Plan Stack: %d elements.\n", stack_size);
for (int i = stack_size - 1; i > 0; i--)
{
s->Printf ("Element %d: ", i);
s->IndentMore();
m_discarded_plan_stack[i]->GetDescription (s, eDescriptionLevelFull);
s->IndentLess();
s->EOL();
}
}
Target *
Thread::CalculateTarget ()
{
return m_process.CalculateTarget();
}
Process *
Thread::CalculateProcess ()
{
return &m_process;
}
Thread *
Thread::CalculateThread ()
{
return this;
}
StackFrame *
Thread::CalculateStackFrame ()
{
return NULL;
}
void
Thread::Calculate (ExecutionContext &exe_ctx)
{
m_process.Calculate (exe_ctx);
exe_ctx.thread = this;
exe_ctx.frame = NULL;
}
lldb::StackFrameSP
Thread::GetCurrentFrame ()
{
return GetStackFrameAtIndex (m_frames.GetCurrentFrameIndex());
}
uint32_t
Thread::SetCurrentFrame (lldb_private::StackFrame *frame)
{
return m_frames.SetCurrentFrame(frame);
}
void
Thread::SetCurrentFrameByIndex (uint32_t frame_idx)
{
m_frames.SetCurrentFrameByIndex(frame_idx);
}
void
Thread::DumpInfo
(
Stream &strm,
bool show_stop_reason,
bool show_name,
bool show_queue,
uint32_t frame_idx
)
{
strm.Printf("thread #%u: tid = 0x%4.4x", GetIndexID(), GetID());
if (frame_idx != LLDB_INVALID_INDEX32)
{
StackFrameSP frame_sp(GetStackFrameAtIndex (frame_idx));
if (frame_sp)
{
strm.PutCString(", ");
frame_sp->Dump (&strm, false);
}
}
if (show_stop_reason)
{
StopInfo *stop_info = GetStopInfo();
if (stop_info)
{
const char *stop_description = stop_info->GetDescription();
if (stop_description)
strm.Printf (", stop reason = %s", stop_description);
}
}
if (show_name)
{
const char *name = GetName();
if (name && name[0])
strm.Printf(", name = %s", name);
}
if (show_queue)
{
const char *queue = GetQueueName();
if (queue && queue[0])
strm.Printf(", queue = %s", queue);
}
}
lldb::ThreadSP
Thread::GetSP ()
{
return m_process.GetThreadList().GetThreadSPForThreadPtr(this);
}
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