forked from OSchip/llvm-project
435 lines
17 KiB
C++
435 lines
17 KiB
C++
//===-- ThreadPlanStepOverRange.cpp -----------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// C Includes
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// C++ Includes
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// Other libraries and framework includes
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// Project includes
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#include "lldb/Target/ThreadPlanStepOverRange.h"
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#include "lldb/Core/Log.h"
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#include "lldb/Core/Stream.h"
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#include "lldb/Symbol/Block.h"
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#include "lldb/Symbol/CompileUnit.h"
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#include "lldb/Symbol/Function.h"
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#include "lldb/Symbol/LineTable.h"
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#include "lldb/Target/Process.h"
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#include "lldb/Target/RegisterContext.h"
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#include "lldb/Target/Target.h"
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#include "lldb/Target/Thread.h"
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#include "lldb/Target/ThreadPlanStepOut.h"
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#include "lldb/Target/ThreadPlanStepThrough.h"
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using namespace lldb_private;
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using namespace lldb;
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uint32_t ThreadPlanStepOverRange::s_default_flag_values = 0;
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//----------------------------------------------------------------------
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// ThreadPlanStepOverRange: Step through a stack range, either stepping over or
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// into
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// based on the value of \a type.
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//----------------------------------------------------------------------
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ThreadPlanStepOverRange::ThreadPlanStepOverRange(
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Thread &thread, const AddressRange &range,
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const SymbolContext &addr_context, lldb::RunMode stop_others,
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LazyBool step_out_avoids_code_without_debug_info)
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: ThreadPlanStepRange(ThreadPlan::eKindStepOverRange,
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"Step range stepping over", thread, range,
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addr_context, stop_others),
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ThreadPlanShouldStopHere(this), m_first_resume(true) {
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SetFlagsToDefault();
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SetupAvoidNoDebug(step_out_avoids_code_without_debug_info);
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}
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ThreadPlanStepOverRange::~ThreadPlanStepOverRange() = default;
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void ThreadPlanStepOverRange::GetDescription(Stream *s,
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lldb::DescriptionLevel level) {
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if (level == lldb::eDescriptionLevelBrief) {
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s->Printf("step over");
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return;
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}
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s->Printf("Stepping over");
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bool printed_line_info = false;
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if (m_addr_context.line_entry.IsValid()) {
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s->Printf(" line ");
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m_addr_context.line_entry.DumpStopContext(s, false);
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printed_line_info = true;
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}
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if (!printed_line_info || level == eDescriptionLevelVerbose) {
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s->Printf(" using ranges: ");
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DumpRanges(s);
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}
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s->PutChar('.');
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}
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void ThreadPlanStepOverRange::SetupAvoidNoDebug(
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LazyBool step_out_avoids_code_without_debug_info) {
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bool avoid_nodebug = true;
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switch (step_out_avoids_code_without_debug_info) {
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case eLazyBoolYes:
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avoid_nodebug = true;
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break;
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case eLazyBoolNo:
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avoid_nodebug = false;
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break;
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case eLazyBoolCalculate:
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avoid_nodebug = m_thread.GetStepOutAvoidsNoDebug();
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break;
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}
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if (avoid_nodebug)
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GetFlags().Set(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
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else
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GetFlags().Clear(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
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// Step Over plans should always avoid no-debug on step in. Seems like you
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// shouldn't
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// have to say this, but a tail call looks more like a step in that a step
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// out, so
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// we want to catch this case.
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GetFlags().Set(ThreadPlanShouldStopHere::eStepInAvoidNoDebug);
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}
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bool ThreadPlanStepOverRange::IsEquivalentContext(
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const SymbolContext &context) {
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// Match as much as is specified in the m_addr_context:
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// This is a fairly loose sanity check. Note, sometimes the target doesn't
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// get filled
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// in so I left out the target check. And sometimes the module comes in as
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// the .o file from the
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// inlined range, so I left that out too...
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if (m_addr_context.comp_unit) {
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if (m_addr_context.comp_unit == context.comp_unit) {
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if (m_addr_context.function &&
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m_addr_context.function == context.function) {
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// It is okay to return to a different block of a straight function, we
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// only have to
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// be more careful if returning from one inlined block to another.
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if (m_addr_context.block->GetInlinedFunctionInfo() == nullptr &&
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context.block->GetInlinedFunctionInfo() == nullptr)
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return true;
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if (m_addr_context.block && m_addr_context.block == context.block)
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return true;
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}
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}
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} else if (m_addr_context.symbol && m_addr_context.symbol == context.symbol) {
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return true;
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}
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return false;
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}
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bool ThreadPlanStepOverRange::ShouldStop(Event *event_ptr) {
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Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
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if (log) {
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StreamString s;
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s.Address(
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m_thread.GetRegisterContext()->GetPC(),
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m_thread.CalculateTarget()->GetArchitecture().GetAddressByteSize());
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log->Printf("ThreadPlanStepOverRange reached %s.", s.GetData());
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}
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// If we're out of the range but in the same frame or in our caller's frame
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// then we should stop.
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// When stepping out we only stop others if we are forcing running one thread.
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bool stop_others = (m_stop_others == lldb::eOnlyThisThread);
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ThreadPlanSP new_plan_sp;
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FrameComparison frame_order = CompareCurrentFrameToStartFrame();
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if (frame_order == eFrameCompareOlder) {
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// If we're in an older frame then we should stop.
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//
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// A caveat to this is if we think the frame is older but we're actually in
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// a trampoline.
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// I'm going to make the assumption that you wouldn't RETURN to a
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// trampoline. So if we are
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// in a trampoline we think the frame is older because the trampoline
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// confused the backtracer.
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// As below, we step through first, and then try to figure out how to get
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// back out again.
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new_plan_sp =
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m_thread.QueueThreadPlanForStepThrough(m_stack_id, false, stop_others);
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if (new_plan_sp && log)
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log->Printf(
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"Thought I stepped out, but in fact arrived at a trampoline.");
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} else if (frame_order == eFrameCompareYounger) {
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// Make sure we really are in a new frame. Do that by unwinding and seeing
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// if the
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// start function really is our start function...
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for (uint32_t i = 1;; ++i) {
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StackFrameSP older_frame_sp = m_thread.GetStackFrameAtIndex(i);
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if (!older_frame_sp) {
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// We can't unwind the next frame we should just get out of here &
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// stop...
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break;
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}
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const SymbolContext &older_context =
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older_frame_sp->GetSymbolContext(eSymbolContextEverything);
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if (IsEquivalentContext(older_context)) {
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new_plan_sp = m_thread.QueueThreadPlanForStepOutNoShouldStop(
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false, nullptr, true, stop_others, eVoteNo, eVoteNoOpinion, 0,
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true);
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break;
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} else {
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new_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
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stop_others);
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// If we found a way through, then we should stop recursing.
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if (new_plan_sp)
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break;
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}
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}
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} else {
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// If we're still in the range, keep going.
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if (InRange()) {
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SetNextBranchBreakpoint();
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return false;
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}
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if (!InSymbol()) {
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// This one is a little tricky. Sometimes we may be in a stub or
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// something similar,
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// in which case we need to get out of there. But if we are in a stub
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// then it's
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// likely going to be hard to get out from here. It is probably easiest
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// to step into the
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// stub, and then it will be straight-forward to step out.
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new_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
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stop_others);
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} else {
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// The current clang (at least through 424) doesn't always get the address
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// range for the
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// DW_TAG_inlined_subroutines right, so that when you leave the inlined
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// range the line table says
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// you are still in the source file of the inlining function. This is
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// bad, because now you are missing
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// the stack frame for the function containing the inlining, and if you
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// sensibly do "finish" to get
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// out of this function you will instead exit the containing function.
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// To work around this, we check whether we are still in the source file
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// we started in, and if not assume
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// it is an error, and push a plan to get us out of this line and back to
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// the containing file.
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if (m_addr_context.line_entry.IsValid()) {
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SymbolContext sc;
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StackFrameSP frame_sp = m_thread.GetStackFrameAtIndex(0);
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sc = frame_sp->GetSymbolContext(eSymbolContextEverything);
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if (sc.line_entry.IsValid()) {
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if (sc.line_entry.original_file !=
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m_addr_context.line_entry.original_file &&
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sc.comp_unit == m_addr_context.comp_unit &&
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sc.function == m_addr_context.function) {
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// Okay, find the next occurrence of this file in the line table:
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LineTable *line_table = m_addr_context.comp_unit->GetLineTable();
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if (line_table) {
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Address cur_address = frame_sp->GetFrameCodeAddress();
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uint32_t entry_idx;
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LineEntry line_entry;
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if (line_table->FindLineEntryByAddress(cur_address, line_entry,
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&entry_idx)) {
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LineEntry next_line_entry;
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bool step_past_remaining_inline = false;
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if (entry_idx > 0) {
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// We require the previous line entry and the current line
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// entry come
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// from the same file.
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// The other requirement is that the previous line table entry
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// be part of an
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// inlined block, we don't want to step past cases where
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// people have inlined
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// some code fragment by using #include <source-fragment.c>
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// directly.
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LineEntry prev_line_entry;
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if (line_table->GetLineEntryAtIndex(entry_idx - 1,
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prev_line_entry) &&
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prev_line_entry.original_file ==
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line_entry.original_file) {
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SymbolContext prev_sc;
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Address prev_address =
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prev_line_entry.range.GetBaseAddress();
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prev_address.CalculateSymbolContext(&prev_sc);
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if (prev_sc.block) {
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Block *inlined_block =
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prev_sc.block->GetContainingInlinedBlock();
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if (inlined_block) {
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AddressRange inline_range;
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inlined_block->GetRangeContainingAddress(prev_address,
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inline_range);
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if (!inline_range.ContainsFileAddress(cur_address)) {
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step_past_remaining_inline = true;
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}
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}
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}
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}
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}
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if (step_past_remaining_inline) {
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uint32_t look_ahead_step = 1;
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while (line_table->GetLineEntryAtIndex(
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entry_idx + look_ahead_step, next_line_entry)) {
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// Make sure we haven't wandered out of the function we
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// started from...
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Address next_line_address =
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next_line_entry.range.GetBaseAddress();
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Function *next_line_function =
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next_line_address.CalculateSymbolContextFunction();
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if (next_line_function != m_addr_context.function)
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break;
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if (next_line_entry.original_file ==
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m_addr_context.line_entry.original_file) {
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const bool abort_other_plans = false;
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const RunMode stop_other_threads = RunMode::eAllThreads;
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lldb::addr_t cur_pc = m_thread.GetStackFrameAtIndex(0)
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->GetRegisterContext()
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->GetPC();
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AddressRange step_range(
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cur_pc,
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next_line_address.GetLoadAddress(&GetTarget()) -
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cur_pc);
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new_plan_sp = m_thread.QueueThreadPlanForStepOverRange(
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abort_other_plans, step_range, sc,
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stop_other_threads);
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break;
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}
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look_ahead_step++;
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}
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}
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}
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}
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}
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}
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}
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}
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}
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// If we get to this point, we're not going to use a previously set "next
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// branch" breakpoint, so delete it:
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ClearNextBranchBreakpoint();
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// If we haven't figured out something to do yet, then ask the ShouldStopHere
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// callback:
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if (!new_plan_sp) {
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new_plan_sp = CheckShouldStopHereAndQueueStepOut(frame_order);
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}
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if (!new_plan_sp)
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m_no_more_plans = true;
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else {
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// Any new plan will be an implementation plan, so mark it private:
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new_plan_sp->SetPrivate(true);
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m_no_more_plans = false;
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}
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if (!new_plan_sp) {
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// For efficiencies sake, we know we're done here so we don't have to do
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// this
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// calculation again in MischiefManaged.
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SetPlanComplete();
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return true;
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} else
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return false;
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}
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bool ThreadPlanStepOverRange::DoPlanExplainsStop(Event *event_ptr) {
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// For crashes, breakpoint hits, signals, etc, let the base plan (or some plan
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// above us)
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// handle the stop. That way the user can see the stop, step around, and then
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// when they
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// are done, continue and have their step complete. The exception is if we've
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// hit our
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// "run to next branch" breakpoint.
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// Note, unlike the step in range plan, we don't mark ourselves complete if we
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// hit an
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// unexplained breakpoint/crash.
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Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
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StopInfoSP stop_info_sp = GetPrivateStopInfo();
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bool return_value;
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if (stop_info_sp) {
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StopReason reason = stop_info_sp->GetStopReason();
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if (reason == eStopReasonTrace) {
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return_value = true;
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} else if (reason == eStopReasonBreakpoint) {
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return_value = NextRangeBreakpointExplainsStop(stop_info_sp);
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} else {
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if (log)
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log->PutCString("ThreadPlanStepInRange got asked if it explains the "
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"stop for some reason other than step.");
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return_value = false;
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}
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} else
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return_value = true;
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return return_value;
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}
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bool ThreadPlanStepOverRange::DoWillResume(lldb::StateType resume_state,
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bool current_plan) {
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if (resume_state != eStateSuspended && m_first_resume) {
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m_first_resume = false;
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if (resume_state == eStateStepping && current_plan) {
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// See if we are about to step over an inlined call in the middle of the
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// inlined stack, if so figure
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// out its extents and reset our range to step over that.
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bool in_inlined_stack = m_thread.DecrementCurrentInlinedDepth();
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if (in_inlined_stack) {
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Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
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if (log)
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log->Printf("ThreadPlanStepInRange::DoWillResume: adjusting range to "
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"the frame at inlined depth %d.",
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m_thread.GetCurrentInlinedDepth());
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StackFrameSP stack_sp = m_thread.GetStackFrameAtIndex(0);
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if (stack_sp) {
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Block *frame_block = stack_sp->GetFrameBlock();
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lldb::addr_t curr_pc = m_thread.GetRegisterContext()->GetPC();
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AddressRange my_range;
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if (frame_block->GetRangeContainingLoadAddress(
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curr_pc, m_thread.GetProcess()->GetTarget(), my_range)) {
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m_address_ranges.clear();
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m_address_ranges.push_back(my_range);
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if (log) {
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StreamString s;
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const InlineFunctionInfo *inline_info =
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frame_block->GetInlinedFunctionInfo();
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const char *name;
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if (inline_info)
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name =
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inline_info
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->GetName(frame_block->CalculateSymbolContextFunction()
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->GetLanguage())
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.AsCString();
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else
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name = "<unknown-notinlined>";
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s.Printf(
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"Stepping over inlined function \"%s\" in inlined stack: ",
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name);
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DumpRanges(&s);
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log->PutCString(s.GetData());
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}
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}
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}
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}
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}
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}
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return true;
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}
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