runtime/vm/profiler_service.h - sdk - Git at Google

 // Copyright (c) 2015, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_PROFILER_SERVICE_H_
 #define RUNTIME_VM_PROFILER_SERVICE_H_

 #include "vm/allocation.h"
 #include "vm/code_observers.h"
 #include "vm/globals.h"
 #include "vm/growable_array.h"
 #include "vm/object.h"
 #include "vm/tags.h"
 #include "vm/thread_interrupter.h"
 #include "vm/token_position.h"

 // CPU Profile model and service protocol bits.
 // NOTE: For sampling and stack walking related code, see profiler.h.

 namespace dart {

 // Forward declarations.
 class Code;
 class Function;
 class JSONArray;
 class JSONStream;
 class ProfileFunctionTable;
 class ProfileCodeTable;
 class RawCode;
 class RawFunction;
 class SampleFilter;
 class ProcessedSample;
 class ProcessedSampleBuffer;

 class ProfileFunctionSourcePosition {
  public:
   explicit ProfileFunctionSourcePosition(TokenPosition token_pos);

   void Tick(bool exclusive);

   TokenPosition token_pos() const { return token_pos_; }
   intptr_t exclusive_ticks() const { return exclusive_ticks_; }
   intptr_t inclusive_ticks() const { return inclusive_ticks_; }

  private:
   TokenPosition token_pos_;
   intptr_t exclusive_ticks_;
   intptr_t inclusive_ticks_;

   DISALLOW_ALLOCATION();
 };

 // Profile data related to a |Function|.
 class ProfileFunction : public ZoneAllocated {
  public:
   enum Kind {
     kDartFunction,     // Dart function.
     kNativeFunction,   // Synthetic function for Native (C/C++).
     kTagFunction,      // Synthetic function for a VM or User tag.
     kStubFunction,     // Synthetic function for stub code.
     kUnknownFunction,  // A singleton function for unknown objects.
   };

   ProfileFunction(Kind kind,
                   const char* name,
                   const Function& function,
                   const intptr_t table_index);

   const char* name() const {
     ASSERT(name_ != NULL);
     return name_;
   }

   const char* Name() const;

   const Function* function() const { return &function_; }

   bool is_visible() const;

   intptr_t table_index() const { return table_index_; }

   Kind kind() const { return kind_; }

   intptr_t exclusive_ticks() const { return exclusive_ticks_; }
   intptr_t inclusive_ticks() const { return inclusive_ticks_; }

   void IncInclusiveTicks() { inclusive_ticks_++; }

   void Tick(bool exclusive,
             intptr_t inclusive_serial,
             TokenPosition token_position);

   static const char* KindToCString(Kind kind);

   void PrintToJSONArray(JSONArray* functions);

   // Returns true if the call was successful and |pfsp| is set.
   bool GetSinglePosition(ProfileFunctionSourcePosition* pfsp);

   void TickSourcePosition(TokenPosition token_position, bool exclusive);

   intptr_t NumSourcePositions() const {
     return source_position_ticks_.length();
   }

   const ProfileFunctionSourcePosition& GetSourcePosition(intptr_t i) const {
     return source_position_ticks_.At(i);
   }

  private:
   const Kind kind_;
   const char* name_;
   const Function& function_;
   const intptr_t table_index_;
   ZoneGrowableArray<intptr_t> profile_codes_;
   ZoneGrowableArray<ProfileFunctionSourcePosition> source_position_ticks_;

   intptr_t exclusive_ticks_;
   intptr_t inclusive_ticks_;
   intptr_t inclusive_serial_;

   void PrintToJSONObject(JSONObject* func);
   // A |ProfileCode| that contains this function.
   void AddProfileCode(intptr_t code_table_index);

   friend class ProfileCode;
   friend class ProfileBuilder;
 };

 class ProfileCodeAddress {
  public:
   explicit ProfileCodeAddress(uword pc);

   void Tick(bool exclusive);

   uword pc() const { return pc_; }
   intptr_t exclusive_ticks() const { return exclusive_ticks_; }
   intptr_t inclusive_ticks() const { return inclusive_ticks_; }

  private:
   uword pc_;
   intptr_t exclusive_ticks_;
   intptr_t inclusive_ticks_;
 };

 // Profile data related to a |Code|.
 class ProfileCode : public ZoneAllocated {
  public:
   enum Kind {
     kDartCode,       // Live Dart code.
     kCollectedCode,  // Dead Dart code.
     kNativeCode,     // Native code.
     kReusedCode,     // Dead Dart code that has been reused by new kDartCode.
     kTagCode,        // A special kind of code representing a tag.
   };

   ProfileCode(Kind kind,
               uword start,
               uword end,
               int64_t timestamp,
               const Code& code);

   Kind kind() const { return kind_; }

   uword start() const { return start_; }
   void set_start(uword start) { start_ = start; }

   uword end() const { return end_; }
   void set_end(uword end) { end_ = end; }

   void ExpandLower(uword start);
   void ExpandUpper(uword end);
   void TruncateLower(uword start);
   void TruncateUpper(uword end);

   bool Contains(uword pc) const { return (pc >= start_) && (pc < end_); }

   bool Overlaps(const ProfileCode* other) const;

   int64_t compile_timestamp() const { return compile_timestamp_; }
   void set_compile_timestamp(int64_t timestamp) {
     compile_timestamp_ = timestamp;
   }

   intptr_t exclusive_ticks() const { return exclusive_ticks_; }
   void set_exclusive_ticks(intptr_t exclusive_ticks) {
     exclusive_ticks_ = exclusive_ticks;
   }
   void IncExclusiveTicks() { exclusive_ticks_++; }

   intptr_t inclusive_ticks() const { return inclusive_ticks_; }
   void set_inclusive_ticks(intptr_t inclusive_ticks) {
     inclusive_ticks_ = inclusive_ticks;
   }
   void IncInclusiveTicks() { inclusive_ticks_++; }

   bool IsOptimizedDart() const;
   RawCode* code() const { return code_.raw(); }

   const char* name() const { return name_; }
   void SetName(const char* name);
   void GenerateAndSetSymbolName(const char* prefix);

   static const char* KindToCString(Kind kind);

   void PrintToJSONArray(JSONArray* codes);

  private:
   void Tick(uword pc, bool exclusive, intptr_t serial);
   void TickAddress(uword pc, bool exclusive);

   ProfileFunction* SetFunctionAndName(ProfileFunctionTable* table);

   ProfileFunction* function() const { return function_; }

   void PrintNativeCode(JSONObject* profile_code_obj);
   void PrintCollectedCode(JSONObject* profile_code_obj);
   void PrintOverwrittenCode(JSONObject* profile_code_obj);
   void PrintTagCode(JSONObject* profile_code_obj);

   void set_code_table_index(intptr_t index) { code_table_index_ = index; }
   intptr_t code_table_index() const { return code_table_index_; }

   const Kind kind_;
   uword start_;
   uword end_;
   intptr_t exclusive_ticks_;
   intptr_t inclusive_ticks_;
   intptr_t inclusive_serial_;

   const Code& code_;
   char* name_;
   int64_t compile_timestamp_;
   ProfileFunction* function_;
   intptr_t code_table_index_;
   ZoneGrowableArray<ProfileCodeAddress> address_ticks_;

   friend class ProfileBuilder;
 };

 class ProfileCodeTable : public ZoneAllocated {
  public:
   ProfileCodeTable() : table_(8) {}

   intptr_t length() const { return table_.length(); }

   ProfileCode* At(intptr_t index) const {
     ASSERT(index >= 0);
     ASSERT(index < length());
     return table_[index];
   }

   // Find the table index to the ProfileCode containing pc.
   // Returns < 0 if not found.
   intptr_t FindCodeIndexForPC(uword pc) const;

   ProfileCode* FindCodeForPC(uword pc) const {
     intptr_t index = FindCodeIndexForPC(pc);
     if (index < 0) {
       return NULL;
     }
     return At(index);
   }

   // Insert |new_code| into the table. Returns the table index where |new_code|
   // was inserted. Will merge with an overlapping ProfileCode if one is present.
   intptr_t InsertCode(ProfileCode* new_code);

  private:
   void FindNeighbors(uword pc,
                      intptr_t* lo,
                      intptr_t* hi,
                      ProfileCode** lo_code,
                      ProfileCode** hi_code) const;

   void VerifyOrder();
   void VerifyOverlap();

   ZoneGrowableArray<ProfileCode*> table_;
 };

 // Stack traces are organized in a trie. This holds information about one node
 // in the trie. A node in a tree represents a stack frame and a path in the tree
 // represents a stack trace. Each unique stack trace appears in the tree once
 // and each node has a count indicating how many times this has been observed.
 // The index can be used to look up a |ProfileFunction| or |ProfileCode|.
 // A node can have zero or more children. Depending on the kind of trie the
 // children are callers or callees of the current node.
 class ProfileTrieNode : public ZoneAllocated {
  public:
   explicit ProfileTrieNode(intptr_t index);
   virtual ~ProfileTrieNode();

   virtual void PrintToJSONArray(JSONArray* array) const = 0;

   // Index into function or code tables.
   intptr_t table_index() const { return table_index_; }

   intptr_t count() const { return count_; }

   void Tick(ProcessedSample* sample, bool exclusive = false);

   void IncrementAllocation(intptr_t allocation, bool exclusive) {
     ASSERT(allocation >= 0);
     if (exclusive) {
       exclusive_allocations_ += allocation;
     }
     inclusive_allocations_ += allocation;
   }

   intptr_t inclusive_allocations() const { return inclusive_allocations_; }
   intptr_t exclusive_allocations() const { return exclusive_allocations_; }

   intptr_t NumChildren() const { return children_.length(); }

   ProfileTrieNode* At(intptr_t i) { return children_.At(i); }

   intptr_t IndexOf(ProfileTrieNode* node);

   intptr_t frame_id() const { return frame_id_; }
   void set_frame_id(intptr_t id) {
     ASSERT(frame_id_ == -1);
     frame_id_ = id;
   }

  protected:
   void SortChildren();

   static int ProfileTrieNodeCompare(ProfileTrieNode* const* a,
                                     ProfileTrieNode* const* b) {
     ASSERT(a != NULL);
     ASSERT(b != NULL);
     return (*b)->count() - (*a)->count();
   }

   intptr_t table_index_;
   intptr_t count_;
   intptr_t exclusive_allocations_;
   intptr_t inclusive_allocations_;
   ZoneGrowableArray<ProfileTrieNode*> children_;
   intptr_t frame_id_;

   friend class ProfileBuilder;
 };

 // The model for a profile. Most of the model is zone allocated, therefore
 // a zone must be created that lives longer than this object.
 class Profile : public ValueObject {
  public:
   enum TagOrder { kNoTags, kUser, kUserVM, kVM, kVMUser };

   enum TrieKind {
     kExclusiveCode,
     kExclusiveFunction,
     kInclusiveCode,
     kInclusiveFunction,
     kNumTrieKinds,
   };

   static bool IsCodeTrie(TrieKind kind) {
     return (kind == kExclusiveCode) || (kind == kInclusiveCode);
   }

   static bool IsFunctionTrie(TrieKind kind) { return !IsCodeTrie(kind); }

   explicit Profile(Isolate* isolate);

   // Build a filtered model using |filter| with the specified |tag_order|.
   void Build(Thread* thread,
              SampleFilter* filter,
              SampleBuffer* sample_buffer,
              TagOrder tag_order,
              intptr_t extra_tags = 0);

   // After building:
   int64_t min_time() const { return min_time_; }
   int64_t max_time() const { return max_time_; }
   int64_t GetTimeSpan() const { return max_time() - min_time(); }
   intptr_t sample_count() const { return sample_count_; }

   intptr_t NumFunctions() const;

   ProfileFunction* GetFunction(intptr_t index);
   ProfileCode* GetCode(intptr_t index);
   ProfileTrieNode* GetTrieRoot(TrieKind trie_kind);

   void PrintProfileJSON(JSONStream* stream);
   void PrintTimelineJSON(JSONStream* stream);

   ProfileFunction* FindFunction(const Function& function);

  private:
   void PrintHeaderJSON(JSONObject* obj);
   void PrintTimelineFrameJSON(JSONObject* frames,
                               ProfileTrieNode* current,
                               ProfileTrieNode* parent,
                               intptr_t* next_id);

   Isolate* isolate_;
   Zone* zone_;
   ProcessedSampleBuffer* samples_;
   ProfileCodeTable* live_code_;
   ProfileCodeTable* dead_code_;
   ProfileCodeTable* tag_code_;
   ProfileFunctionTable* functions_;
   intptr_t dead_code_index_offset_;
   intptr_t tag_code_index_offset_;

   ProfileTrieNode* roots_[kNumTrieKinds];

   int64_t min_time_;
   int64_t max_time_;

   intptr_t sample_count_;

   friend class ProfileBuilder;
 };

 class ProfileTrieWalker : public ValueObject {
  public:
   explicit ProfileTrieWalker(Profile* profile)
       : profile_(profile), parent_(NULL), current_(NULL), code_trie_(false) {
     ASSERT(profile_ != NULL);
   }

   void Reset(Profile::TrieKind trie_kind);

   const char* CurrentName();
   // Return the current node's peer's inclusive tick count.
   intptr_t CurrentInclusiveTicks();
   // Return the current node's peer's exclusive tick count.
   intptr_t CurrentExclusiveTicks();
   // Return the current node's inclusive allocation count.
   intptr_t CurrentInclusiveAllocations();
   // Return the current node's exclusive allocation count.
   intptr_t CurrentExclusiveAllocations();
   // Return the current node's tick count.
   intptr_t CurrentNodeTickCount();
   // Return the number siblings (including yourself).
   intptr_t SiblingCount();

   // If the following conditions are met returns the current token:
   // 1) This is a function trie.
   // 2) There is only one token position for a given function.
   // Will return NULL otherwise.
   const char* CurrentToken();

   bool Down();
   bool NextSibling();

  private:
   Profile* profile_;
   ProfileTrieNode* parent_;
   ProfileTrieNode* current_;
   bool code_trie_;
 };

 class ProfilerService : public AllStatic {
  public:
   enum {
     kNoExtraTags = 0,
     kCodeTransitionTagsBit = (1 << 0),
   };

   static void PrintJSON(JSONStream* stream,
                         Profile::TagOrder tag_order,
                         intptr_t extra_tags,
                         int64_t time_origin_micros,
                         int64_t time_extent_micros);

   static void PrintAllocationJSON(JSONStream* stream,
                                   Profile::TagOrder tag_order,
                                   const Class& cls,
                                   int64_t time_origin_micros,
                                   int64_t time_extent_micros);

   static void PrintNativeAllocationJSON(JSONStream* stream,
                                         Profile::TagOrder tag_order,
                                         int64_t time_origin_micros,
                                         int64_t time_extent_micros);

   static void PrintTimelineJSON(JSONStream* stream,
                                 Profile::TagOrder tag_order,
                                 int64_t time_origin_micros,
                                 int64_t time_extent_micros);

   static void ClearSamples();

  private:
   static void PrintJSONImpl(Thread* thread,
                             JSONStream* stream,
                             Profile::TagOrder tag_order,
                             intptr_t extra_tags,
                             SampleFilter* filter,
                             SampleBuffer* sample_buffer,
                             bool as_timline);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_PROFILER_SERVICE_H_
	// Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_PROFILER_SERVICE_H_
	#define RUNTIME_VM_PROFILER_SERVICE_H_

	#include "vm/allocation.h"
	#include "vm/code_observers.h"
	#include "vm/globals.h"
	#include "vm/growable_array.h"
	#include "vm/object.h"
	#include "vm/tags.h"
	#include "vm/thread_interrupter.h"
	#include "vm/token_position.h"

	// CPU Profile model and service protocol bits.
	// NOTE: For sampling and stack walking related code, see profiler.h.

	namespace dart {

	// Forward declarations.
	class Code;
	class Function;
	class JSONArray;
	class JSONStream;
	class ProfileFunctionTable;
	class ProfileCodeTable;
	class RawCode;
	class RawFunction;
	class SampleFilter;
	class ProcessedSample;
	class ProcessedSampleBuffer;

	class ProfileFunctionSourcePosition {
	public:
	explicit ProfileFunctionSourcePosition(TokenPosition token_pos);

	void Tick(bool exclusive);

	TokenPosition token_pos() const { return token_pos_; }
	intptr_t exclusive_ticks() const { return exclusive_ticks_; }
	intptr_t inclusive_ticks() const { return inclusive_ticks_; }

	private:
	TokenPosition token_pos_;
	intptr_t exclusive_ticks_;
	intptr_t inclusive_ticks_;

	DISALLOW_ALLOCATION();
	};

	// Profile data related to a \|Function\|.
	class ProfileFunction : public ZoneAllocated {
	public:
	enum Kind {
	kDartFunction, // Dart function.
	kNativeFunction, // Synthetic function for Native (C/C++).
	kTagFunction, // Synthetic function for a VM or User tag.
	kStubFunction, // Synthetic function for stub code.
	kUnknownFunction, // A singleton function for unknown objects.
	};

	ProfileFunction(Kind kind,
	const char* name,
	const Function& function,
	const intptr_t table_index);

	const char* name() const {
	ASSERT(name_ != NULL);
	return name_;
	}

	const char* Name() const;

	const Function* function() const { return &function_; }

	bool is_visible() const;

	intptr_t table_index() const { return table_index_; }

	Kind kind() const { return kind_; }

	intptr_t exclusive_ticks() const { return exclusive_ticks_; }
	intptr_t inclusive_ticks() const { return inclusive_ticks_; }

	void IncInclusiveTicks() { inclusive_ticks_++; }

	void Tick(bool exclusive,
	intptr_t inclusive_serial,
	TokenPosition token_position);

	static const char* KindToCString(Kind kind);

	void PrintToJSONArray(JSONArray* functions);

	// Returns true if the call was successful and \|pfsp\| is set.
	bool GetSinglePosition(ProfileFunctionSourcePosition* pfsp);

	void TickSourcePosition(TokenPosition token_position, bool exclusive);

	intptr_t NumSourcePositions() const {
	return source_position_ticks_.length();
	}

	const ProfileFunctionSourcePosition& GetSourcePosition(intptr_t i) const {
	return source_position_ticks_.At(i);
	}

	private:
	const Kind kind_;
	const char* name_;
	const Function& function_;
	const intptr_t table_index_;
	ZoneGrowableArray<intptr_t> profile_codes_;
	ZoneGrowableArray<ProfileFunctionSourcePosition> source_position_ticks_;

	intptr_t exclusive_ticks_;
	intptr_t inclusive_ticks_;
	intptr_t inclusive_serial_;

	void PrintToJSONObject(JSONObject* func);
	// A \|ProfileCode\| that contains this function.
	void AddProfileCode(intptr_t code_table_index);

	friend class ProfileCode;
	friend class ProfileBuilder;
	};

	class ProfileCodeAddress {
	public:
	explicit ProfileCodeAddress(uword pc);

	void Tick(bool exclusive);

	uword pc() const { return pc_; }
	intptr_t exclusive_ticks() const { return exclusive_ticks_; }
	intptr_t inclusive_ticks() const { return inclusive_ticks_; }

	private:
	uword pc_;
	intptr_t exclusive_ticks_;
	intptr_t inclusive_ticks_;
	};

	// Profile data related to a \|Code\|.
	class ProfileCode : public ZoneAllocated {
	public:
	enum Kind {
	kDartCode, // Live Dart code.
	kCollectedCode, // Dead Dart code.
	kNativeCode, // Native code.
	kReusedCode, // Dead Dart code that has been reused by new kDartCode.
	kTagCode, // A special kind of code representing a tag.
	};

	ProfileCode(Kind kind,
	uword start,
	uword end,
	int64_t timestamp,
	const Code& code);

	Kind kind() const { return kind_; }

	uword start() const { return start_; }
	void set_start(uword start) { start_ = start; }

	uword end() const { return end_; }
	void set_end(uword end) { end_ = end; }

	void ExpandLower(uword start);
	void ExpandUpper(uword end);
	void TruncateLower(uword start);
	void TruncateUpper(uword end);

	bool Contains(uword pc) const { return (pc >= start_) && (pc < end_); }

	bool Overlaps(const ProfileCode* other) const;

	int64_t compile_timestamp() const { return compile_timestamp_; }
	void set_compile_timestamp(int64_t timestamp) {
	compile_timestamp_ = timestamp;
	}

	intptr_t exclusive_ticks() const { return exclusive_ticks_; }
	void set_exclusive_ticks(intptr_t exclusive_ticks) {
	exclusive_ticks_ = exclusive_ticks;
	}
	void IncExclusiveTicks() { exclusive_ticks_++; }

	intptr_t inclusive_ticks() const { return inclusive_ticks_; }
	void set_inclusive_ticks(intptr_t inclusive_ticks) {
	inclusive_ticks_ = inclusive_ticks;
	}
	void IncInclusiveTicks() { inclusive_ticks_++; }

	bool IsOptimizedDart() const;
	RawCode* code() const { return code_.raw(); }

	const char* name() const { return name_; }
	void SetName(const char* name);
	void GenerateAndSetSymbolName(const char* prefix);

	static const char* KindToCString(Kind kind);

	void PrintToJSONArray(JSONArray* codes);

	private:
	void Tick(uword pc, bool exclusive, intptr_t serial);
	void TickAddress(uword pc, bool exclusive);

	ProfileFunction* SetFunctionAndName(ProfileFunctionTable* table);

	ProfileFunction* function() const { return function_; }

	void PrintNativeCode(JSONObject* profile_code_obj);
	void PrintCollectedCode(JSONObject* profile_code_obj);
	void PrintOverwrittenCode(JSONObject* profile_code_obj);
	void PrintTagCode(JSONObject* profile_code_obj);

	void set_code_table_index(intptr_t index) { code_table_index_ = index; }
	intptr_t code_table_index() const { return code_table_index_; }

	const Kind kind_;
	uword start_;
	uword end_;
	intptr_t exclusive_ticks_;
	intptr_t inclusive_ticks_;
	intptr_t inclusive_serial_;

	const Code& code_;
	char* name_;
	int64_t compile_timestamp_;
	ProfileFunction* function_;
	intptr_t code_table_index_;
	ZoneGrowableArray<ProfileCodeAddress> address_ticks_;

	friend class ProfileBuilder;
	};

	class ProfileCodeTable : public ZoneAllocated {
	public:
	ProfileCodeTable() : table_(8) {}

	intptr_t length() const { return table_.length(); }

	ProfileCode* At(intptr_t index) const {
	ASSERT(index >= 0);
	ASSERT(index < length());
	return table_[index];
	}

	// Find the table index to the ProfileCode containing pc.
	// Returns < 0 if not found.
	intptr_t FindCodeIndexForPC(uword pc) const;

	ProfileCode* FindCodeForPC(uword pc) const {
	intptr_t index = FindCodeIndexForPC(pc);
	if (index < 0) {
	return NULL;
	}
	return At(index);
	}

	// Insert \|new_code\| into the table. Returns the table index where \|new_code\|
	// was inserted. Will merge with an overlapping ProfileCode if one is present.
	intptr_t InsertCode(ProfileCode* new_code);

	private:
	void FindNeighbors(uword pc,
	intptr_t* lo,
	intptr_t* hi,
	ProfileCode** lo_code,
	ProfileCode** hi_code) const;

	void VerifyOrder();
	void VerifyOverlap();

	ZoneGrowableArray<ProfileCode*> table_;
	};

	// Stack traces are organized in a trie. This holds information about one node
	// in the trie. A node in a tree represents a stack frame and a path in the tree
	// represents a stack trace. Each unique stack trace appears in the tree once
	// and each node has a count indicating how many times this has been observed.
	// The index can be used to look up a \|ProfileFunction\| or \|ProfileCode\|.
	// A node can have zero or more children. Depending on the kind of trie the
	// children are callers or callees of the current node.
	class ProfileTrieNode : public ZoneAllocated {
	public:
	explicit ProfileTrieNode(intptr_t index);
	virtual ~ProfileTrieNode();

	virtual void PrintToJSONArray(JSONArray* array) const = 0;

	// Index into function or code tables.
	intptr_t table_index() const { return table_index_; }

	intptr_t count() const { return count_; }

	void Tick(ProcessedSample* sample, bool exclusive = false);

	void IncrementAllocation(intptr_t allocation, bool exclusive) {
	ASSERT(allocation >= 0);
	if (exclusive) {
	exclusive_allocations_ += allocation;
	}
	inclusive_allocations_ += allocation;
	}

	intptr_t inclusive_allocations() const { return inclusive_allocations_; }
	intptr_t exclusive_allocations() const { return exclusive_allocations_; }

	intptr_t NumChildren() const { return children_.length(); }

	ProfileTrieNode* At(intptr_t i) { return children_.At(i); }

	intptr_t IndexOf(ProfileTrieNode* node);

	intptr_t frame_id() const { return frame_id_; }
	void set_frame_id(intptr_t id) {
	ASSERT(frame_id_ == -1);
	frame_id_ = id;
	}

	protected:
	void SortChildren();

	static int ProfileTrieNodeCompare(ProfileTrieNode* const* a,
	ProfileTrieNode* const* b) {
	ASSERT(a != NULL);
	ASSERT(b != NULL);
	return (b)->count() - (a)->count();
	}

	intptr_t table_index_;
	intptr_t count_;
	intptr_t exclusive_allocations_;
	intptr_t inclusive_allocations_;
	ZoneGrowableArray<ProfileTrieNode*> children_;
	intptr_t frame_id_;

	friend class ProfileBuilder;
	};

	// The model for a profile. Most of the model is zone allocated, therefore
	// a zone must be created that lives longer than this object.
	class Profile : public ValueObject {
	public:
	enum TagOrder { kNoTags, kUser, kUserVM, kVM, kVMUser };

	enum TrieKind {
	kExclusiveCode,
	kExclusiveFunction,
	kInclusiveCode,
	kInclusiveFunction,
	kNumTrieKinds,
	};

	static bool IsCodeTrie(TrieKind kind) {
	return (kind == kExclusiveCode) \|\| (kind == kInclusiveCode);
	}

	static bool IsFunctionTrie(TrieKind kind) { return !IsCodeTrie(kind); }

	explicit Profile(Isolate* isolate);

	// Build a filtered model using \|filter\| with the specified \|tag_order\|.
	void Build(Thread* thread,
	SampleFilter* filter,
	SampleBuffer* sample_buffer,
	TagOrder tag_order,
	intptr_t extra_tags = 0);

	// After building:
	int64_t min_time() const { return min_time_; }
	int64_t max_time() const { return max_time_; }
	int64_t GetTimeSpan() const { return max_time() - min_time(); }
	intptr_t sample_count() const { return sample_count_; }

	intptr_t NumFunctions() const;

	ProfileFunction* GetFunction(intptr_t index);
	ProfileCode* GetCode(intptr_t index);
	ProfileTrieNode* GetTrieRoot(TrieKind trie_kind);

	void PrintProfileJSON(JSONStream* stream);
	void PrintTimelineJSON(JSONStream* stream);

	ProfileFunction* FindFunction(const Function& function);

	private:
	void PrintHeaderJSON(JSONObject* obj);
	void PrintTimelineFrameJSON(JSONObject* frames,
	ProfileTrieNode* current,
	ProfileTrieNode* parent,
	intptr_t* next_id);

	Isolate* isolate_;
	Zone* zone_;
	ProcessedSampleBuffer* samples_;
	ProfileCodeTable* live_code_;
	ProfileCodeTable* dead_code_;
	ProfileCodeTable* tag_code_;
	ProfileFunctionTable* functions_;
	intptr_t dead_code_index_offset_;
	intptr_t tag_code_index_offset_;

	ProfileTrieNode* roots_[kNumTrieKinds];

	int64_t min_time_;
	int64_t max_time_;

	intptr_t sample_count_;

	friend class ProfileBuilder;
	};

	class ProfileTrieWalker : public ValueObject {
	public:
	explicit ProfileTrieWalker(Profile* profile)
	: profile_(profile), parent_(NULL), current_(NULL), code_trie_(false) {
	ASSERT(profile_ != NULL);
	}

	void Reset(Profile::TrieKind trie_kind);

	const char* CurrentName();
	// Return the current node's peer's inclusive tick count.
	intptr_t CurrentInclusiveTicks();
	// Return the current node's peer's exclusive tick count.
	intptr_t CurrentExclusiveTicks();
	// Return the current node's inclusive allocation count.
	intptr_t CurrentInclusiveAllocations();
	// Return the current node's exclusive allocation count.
	intptr_t CurrentExclusiveAllocations();
	// Return the current node's tick count.
	intptr_t CurrentNodeTickCount();
	// Return the number siblings (including yourself).
	intptr_t SiblingCount();

	// If the following conditions are met returns the current token:
	// 1) This is a function trie.
	// 2) There is only one token position for a given function.
	// Will return NULL otherwise.
	const char* CurrentToken();

	bool Down();
	bool NextSibling();

	private:
	Profile* profile_;
	ProfileTrieNode* parent_;
	ProfileTrieNode* current_;
	bool code_trie_;
	};

	class ProfilerService : public AllStatic {
	public:
	enum {
	kNoExtraTags = 0,
	kCodeTransitionTagsBit = (1 << 0),
	};

	static void PrintJSON(JSONStream* stream,
	Profile::TagOrder tag_order,
	intptr_t extra_tags,
	int64_t time_origin_micros,
	int64_t time_extent_micros);

	static void PrintAllocationJSON(JSONStream* stream,
	Profile::TagOrder tag_order,
	const Class& cls,
	int64_t time_origin_micros,
	int64_t time_extent_micros);

	static void PrintNativeAllocationJSON(JSONStream* stream,
	Profile::TagOrder tag_order,
	int64_t time_origin_micros,
	int64_t time_extent_micros);

	static void PrintTimelineJSON(JSONStream* stream,
	Profile::TagOrder tag_order,
	int64_t time_origin_micros,
	int64_t time_extent_micros);

	static void ClearSamples();

	private:
	static void PrintJSONImpl(Thread* thread,
	JSONStream* stream,
	Profile::TagOrder tag_order,
	intptr_t extra_tags,
	SampleFilter* filter,
	SampleBuffer* sample_buffer,
	bool as_timline);
	};

	} // namespace dart

	#endif // RUNTIME_VM_PROFILER_SERVICE_H_