clang-r437112b/include/lldb/Target/ThreadPlanStack.h - platform/prebuilts/clang/host/darwin-x86 - Git at Google

 //===-- ThreadPlanStack.h ---------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLDB_TARGET_THREADPLANSTACK_H
 #define LLDB_TARGET_THREADPLANSTACK_H

 #include <mutex>
 #include <string>
 #include <unordered_map>
 #include <vector>

 #include "lldb/Target/Target.h"
 #include "lldb/Target/Thread.h"
 #include "lldb/lldb-private-forward.h"
 #include "lldb/lldb-private.h"

 namespace lldb_private {

 // The ThreadPlans have a thread for use when they are asked all the ThreadPlan
 // state machine questions, but they should never cache any pointers from their
 // owning lldb_private::Thread.  That's because we want to be able to detach
 // them from an owning thread, then reattach them by TID.
 // The ThreadPlanStack holds the ThreadPlans for a given TID.  All its methods
 // are private, and it should only be accessed through the owning thread.  When
 // it is detached from a thread, all you can do is reattach it or delete it.
 class ThreadPlanStack {
   friend class lldb_private::Thread;

 public:
   ThreadPlanStack(const Thread &thread, bool make_empty = false);
   ~ThreadPlanStack() = default;

   using PlanStack = std::vector<lldb::ThreadPlanSP>;

   void DumpThreadPlans(Stream &s, lldb::DescriptionLevel desc_level,
                        bool include_internal) const;

   size_t CheckpointCompletedPlans();

   void RestoreCompletedPlanCheckpoint(size_t checkpoint);

   void DiscardCompletedPlanCheckpoint(size_t checkpoint);

   void ThreadDestroyed(Thread *thread);

   void PushPlan(lldb::ThreadPlanSP new_plan_sp);

   lldb::ThreadPlanSP PopPlan();

   lldb::ThreadPlanSP DiscardPlan();

   // If the input plan is nullptr, discard all plans.  Otherwise make sure this
   // plan is in the stack, and if so discard up to and including it.
   void DiscardPlansUpToPlan(ThreadPlan *up_to_plan_ptr);

   void DiscardAllPlans();

   void DiscardConsultingMasterPlans();

   lldb::ThreadPlanSP GetCurrentPlan() const;

   lldb::ThreadPlanSP GetCompletedPlan(bool skip_private = true) const;

   lldb::ThreadPlanSP GetPlanByIndex(uint32_t plan_idx,
                                     bool skip_private = true) const;

   lldb::ValueObjectSP GetReturnValueObject() const;

   lldb::ExpressionVariableSP GetExpressionVariable() const;

   bool AnyPlans() const;

   bool AnyCompletedPlans() const;

   bool AnyDiscardedPlans() const;

   bool IsPlanDone(ThreadPlan *plan) const;

   bool WasPlanDiscarded(ThreadPlan *plan) const;

   ThreadPlan *GetPreviousPlan(ThreadPlan *current_plan) const;

   ThreadPlan *GetInnermostExpression() const;

   void WillResume();

   /// Clear the Thread* cache that each ThreadPlan contains.
   ///
   /// This is useful in situations like when a new Thread list is being
   /// generated.
   void ClearThreadCache();

 private:
   void PrintOneStack(Stream &s, llvm::StringRef stack_name,
                      const PlanStack &stack, lldb::DescriptionLevel desc_level,
                      bool include_internal) const;

   PlanStack m_plans;           ///< The stack of plans this thread is executing.
   PlanStack m_completed_plans; ///< Plans that have been completed by this
                                /// stop.  They get deleted when the thread
                                /// resumes.
   PlanStack m_discarded_plans; ///< Plans that have been discarded by this
                                /// stop.  They get deleted when the thread
                                /// resumes.
   size_t m_completed_plan_checkpoint = 0; // Monotonically increasing token for
                                           // completed plan checkpoints.
   std::unordered_map<size_t, PlanStack> m_completed_plan_store;
   mutable std::recursive_mutex m_stack_mutex;
 };

 class ThreadPlanStackMap {
 public:
   ThreadPlanStackMap(Process &process) : m_process(process) {}
   ~ThreadPlanStackMap() = default;

   // Prune the map using the current_threads list.
   void Update(ThreadList &current_threads, bool delete_missing,
               bool check_for_new = true);

   void AddThread(Thread &thread) {
     lldb::tid_t tid = thread.GetID();
     m_plans_list.emplace(tid, thread);
   }

   bool RemoveTID(lldb::tid_t tid) {
     auto result = m_plans_list.find(tid);
     if (result == m_plans_list.end())
       return false;
     result->second.ThreadDestroyed(nullptr);
     m_plans_list.erase(result);
     return true;
   }

   ThreadPlanStack *Find(lldb::tid_t tid) {
     auto result = m_plans_list.find(tid);
     if (result == m_plans_list.end())
       return nullptr;
     else
       return &result->second;
   }

   /// Clear the Thread* cache that each ThreadPlan contains.
   ///
   /// This is useful in situations like when a new Thread list is being
   /// generated.
   void ClearThreadCache() {
     for (auto &plan_list : m_plans_list)
       plan_list.second.ClearThreadCache();
   }

   void Clear() {
     for (auto &plan : m_plans_list)
       plan.second.ThreadDestroyed(nullptr);
     m_plans_list.clear();
   }

   // Implements Process::DumpThreadPlans
   void DumpPlans(Stream &strm, lldb::DescriptionLevel desc_level, bool internal,
                  bool ignore_boring, bool skip_unreported);

   // Implements Process::DumpThreadPlansForTID
   bool DumpPlansForTID(Stream &strm, lldb::tid_t tid,
                        lldb::DescriptionLevel desc_level, bool internal,
                        bool ignore_boring, bool skip_unreported);

   bool PrunePlansForTID(lldb::tid_t tid);

 private:
   Process &m_process;
   using PlansList = std::unordered_map<lldb::tid_t, ThreadPlanStack>;
   PlansList m_plans_list;
 };

 } // namespace lldb_private

 #endif // LLDB_TARGET_THREADPLANSTACK_H
	//===-- ThreadPlanStack.h ---------------------------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLDB_TARGET_THREADPLANSTACK_H
	#define LLDB_TARGET_THREADPLANSTACK_H

	#include <mutex>
	#include <string>
	#include <unordered_map>
	#include <vector>

	#include "lldb/Target/Target.h"
	#include "lldb/Target/Thread.h"
	#include "lldb/lldb-private-forward.h"
	#include "lldb/lldb-private.h"

	namespace lldb_private {

	// The ThreadPlans have a thread for use when they are asked all the ThreadPlan
	// state machine questions, but they should never cache any pointers from their
	// owning lldb_private::Thread. That's because we want to be able to detach
	// them from an owning thread, then reattach them by TID.
	// The ThreadPlanStack holds the ThreadPlans for a given TID. All its methods
	// are private, and it should only be accessed through the owning thread. When
	// it is detached from a thread, all you can do is reattach it or delete it.
	class ThreadPlanStack {
	friend class lldb_private::Thread;

	public:
	ThreadPlanStack(const Thread &thread, bool make_empty = false);
	~ThreadPlanStack() = default;

	using PlanStack = std::vector<lldb::ThreadPlanSP>;

	void DumpThreadPlans(Stream &s, lldb::DescriptionLevel desc_level,
	bool include_internal) const;

	size_t CheckpointCompletedPlans();

	void RestoreCompletedPlanCheckpoint(size_t checkpoint);

	void DiscardCompletedPlanCheckpoint(size_t checkpoint);

	void ThreadDestroyed(Thread *thread);

	void PushPlan(lldb::ThreadPlanSP new_plan_sp);

	lldb::ThreadPlanSP PopPlan();

	lldb::ThreadPlanSP DiscardPlan();

	// If the input plan is nullptr, discard all plans. Otherwise make sure this
	// plan is in the stack, and if so discard up to and including it.
	void DiscardPlansUpToPlan(ThreadPlan *up_to_plan_ptr);

	void DiscardAllPlans();

	void DiscardConsultingMasterPlans();

	lldb::ThreadPlanSP GetCurrentPlan() const;

	lldb::ThreadPlanSP GetCompletedPlan(bool skip_private = true) const;

	lldb::ThreadPlanSP GetPlanByIndex(uint32_t plan_idx,
	bool skip_private = true) const;

	lldb::ValueObjectSP GetReturnValueObject() const;

	lldb::ExpressionVariableSP GetExpressionVariable() const;

	bool AnyPlans() const;

	bool AnyCompletedPlans() const;

	bool AnyDiscardedPlans() const;

	bool IsPlanDone(ThreadPlan *plan) const;

	bool WasPlanDiscarded(ThreadPlan *plan) const;

	ThreadPlan GetPreviousPlan(ThreadPlan current_plan) const;

	ThreadPlan *GetInnermostExpression() const;

	void WillResume();

	/// Clear the Thread* cache that each ThreadPlan contains.
	///
	/// This is useful in situations like when a new Thread list is being
	/// generated.
	void ClearThreadCache();

	private:
	void PrintOneStack(Stream &s, llvm::StringRef stack_name,
	const PlanStack &stack, lldb::DescriptionLevel desc_level,
	bool include_internal) const;

	PlanStack m_plans; ///< The stack of plans this thread is executing.
	PlanStack m_completed_plans; ///< Plans that have been completed by this
	/// stop. They get deleted when the thread
	/// resumes.
	PlanStack m_discarded_plans; ///< Plans that have been discarded by this
	/// stop. They get deleted when the thread
	/// resumes.
	size_t m_completed_plan_checkpoint = 0; // Monotonically increasing token for
	// completed plan checkpoints.
	std::unordered_map<size_t, PlanStack> m_completed_plan_store;
	mutable std::recursive_mutex m_stack_mutex;
	};

	class ThreadPlanStackMap {
	public:
	ThreadPlanStackMap(Process &process) : m_process(process) {}
	~ThreadPlanStackMap() = default;

	// Prune the map using the current_threads list.
	void Update(ThreadList &current_threads, bool delete_missing,
	bool check_for_new = true);

	void AddThread(Thread &thread) {
	lldb::tid_t tid = thread.GetID();
	m_plans_list.emplace(tid, thread);
	}

	bool RemoveTID(lldb::tid_t tid) {
	auto result = m_plans_list.find(tid);
	if (result == m_plans_list.end())
	return false;
	result->second.ThreadDestroyed(nullptr);
	m_plans_list.erase(result);
	return true;
	}

	ThreadPlanStack *Find(lldb::tid_t tid) {
	auto result = m_plans_list.find(tid);
	if (result == m_plans_list.end())
	return nullptr;
	else
	return &result->second;
	}

	/// Clear the Thread* cache that each ThreadPlan contains.
	///
	/// This is useful in situations like when a new Thread list is being
	/// generated.
	void ClearThreadCache() {
	for (auto &plan_list : m_plans_list)
	plan_list.second.ClearThreadCache();
	}

	void Clear() {
	for (auto &plan : m_plans_list)
	plan.second.ThreadDestroyed(nullptr);
	m_plans_list.clear();
	}

	// Implements Process::DumpThreadPlans
	void DumpPlans(Stream &strm, lldb::DescriptionLevel desc_level, bool internal,
	bool ignore_boring, bool skip_unreported);

	// Implements Process::DumpThreadPlansForTID
	bool DumpPlansForTID(Stream &strm, lldb::tid_t tid,
	lldb::DescriptionLevel desc_level, bool internal,
	bool ignore_boring, bool skip_unreported);

	bool PrunePlansForTID(lldb::tid_t tid);

	private:
	Process &m_process;
	using PlansList = std::unordered_map<lldb::tid_t, ThreadPlanStack>;
	PlansList m_plans_list;
	};

	} // namespace lldb_private

	#endif // LLDB_TARGET_THREADPLANSTACK_H