src/third_party/skia/src/core/SkTraceEventCommon.h - cobalt - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 #ifndef SkTraceEventCommon_DEFINED
 #define SkTraceEventCommon_DEFINED

 // This header file defines the set of trace_event macros without specifying
 // how the events actually get collected and stored. If you need to expose trace
 // events to some other universe, you can copy-and-paste this file as well as
 // trace_event.h, modifying the macros contained there as necessary for the
 // target platform. The end result is that multiple libraries can funnel events
 // through to a shared trace event collector.

 // IMPORTANT: To avoid conflicts, if you need to modify this file for a library,
 // land your change in base/ first, and then copy-and-paste it.

 // Trace events are for tracking application performance and resource usage.
 // Macros are provided to track:
 //    Begin and end of function calls
 //    Counters
 //
 // Events are issued against categories. Whereas LOG's
 // categories are statically defined, TRACE categories are created
 // implicitly with a string. For example:
 //   TRACE_EVENT_INSTANT0("MY_SUBSYSTEM", "SomeImportantEvent",
 //                        TRACE_EVENT_SCOPE_THREAD)
 //
 // It is often the case that one trace may belong in multiple categories at the
 // same time. The first argument to the trace can be a comma-separated list of
 // categories, forming a category group, like:
 //
 // TRACE_EVENT_INSTANT0("input,views", "OnMouseOver", TRACE_EVENT_SCOPE_THREAD)
 //
 // We can enable/disable tracing of OnMouseOver by enabling/disabling either
 // category.
 //
 // Events can be INSTANT, or can be pairs of BEGIN and END in the same scope:
 //   TRACE_EVENT_BEGIN0("MY_SUBSYSTEM", "SomethingCostly")
 //   doSomethingCostly()
 //   TRACE_EVENT_END0("MY_SUBSYSTEM", "SomethingCostly")
 // Note: our tools can't always determine the correct BEGIN/END pairs unless
 // these are used in the same scope. Use ASYNC_BEGIN/ASYNC_END macros if you
 // need them to be in separate scopes.
 //
 // A common use case is to trace entire function scopes. This
 // issues a trace BEGIN and END automatically:
 //   void doSomethingCostly() {
 //     TRACE_EVENT0("MY_SUBSYSTEM", "doSomethingCostly");
 //     ...
 //   }
 //
 // Additional parameters can be associated with an event:
 //   void doSomethingCostly2(int howMuch) {
 //     TRACE_EVENT1("MY_SUBSYSTEM", "doSomethingCostly",
 //         "howMuch", howMuch);
 //     ...
 //   }
 //
 // The trace system will automatically add to this information the
 // current process id, thread id, and a timestamp in microseconds.
 //
 // To trace an asynchronous procedure such as an IPC send/receive, use
 // ASYNC_BEGIN and ASYNC_END:
 //   [single threaded sender code]
 //     static int send_count = 0;
 //     ++send_count;
 //     TRACE_EVENT_ASYNC_BEGIN0("ipc", "message", send_count);
 //     Send(new MyMessage(send_count));
 //   [receive code]
 //     void OnMyMessage(send_count) {
 //       TRACE_EVENT_ASYNC_END0("ipc", "message", send_count);
 //     }
 // The third parameter is a unique ID to match ASYNC_BEGIN/ASYNC_END pairs.
 // ASYNC_BEGIN and ASYNC_END can occur on any thread of any traced process.
 // Pointers can be used for the ID parameter, and they will be mangled
 // internally so that the same pointer on two different processes will not
 // match. For example:
 //   class MyTracedClass {
 //    public:
 //     MyTracedClass() {
 //       TRACE_EVENT_ASYNC_BEGIN0("category", "MyTracedClass", this);
 //     }
 //     ~MyTracedClass() {
 //       TRACE_EVENT_ASYNC_END0("category", "MyTracedClass", this);
 //     }
 //   }
 //
 // Trace event also supports counters, which is a way to track a quantity
 // as it varies over time. Counters are created with the following macro:
 //   TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter", g_myCounterValue);
 //
 // Counters are process-specific. The macro itself can be issued from any
 // thread, however.
 //
 // Sometimes, you want to track two counters at once. You can do this with two
 // counter macros:
 //   TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter0", g_myCounterValue[0]);
 //   TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter1", g_myCounterValue[1]);
 // Or you can do it with a combined macro:
 //   TRACE_COUNTER2("MY_SUBSYSTEM", "myCounter",
 //       "bytesPinned", g_myCounterValue[0],
 //       "bytesAllocated", g_myCounterValue[1]);
 // This indicates to the tracing UI that these counters should be displayed
 // in a single graph, as a summed area chart.
 //
 // Since counters are in a global namespace, you may want to disambiguate with a
 // unique ID, by using the TRACE_COUNTER_ID* variations.
 //
 // By default, trace collection is compiled in, but turned off at runtime.
 // Collecting trace data is the responsibility of the embedding
 // application. In Chrome's case, navigating to about:tracing will turn on
 // tracing and display data collected across all active processes.
 //
 //
 // Memory scoping note:
 // Tracing copies the pointers, not the string content, of the strings passed
 // in for category_group, name, and arg_names.  Thus, the following code will
 // cause problems:
 //     char* str = strdup("importantName");
 //     TRACE_EVENT_INSTANT0("SUBSYSTEM", str);  // BAD!
 //     free(str);                   // Trace system now has dangling pointer
 //
 // To avoid this issue with the |name| and |arg_name| parameters, use the
 // TRACE_EVENT_COPY_XXX overloads of the macros at additional runtime overhead.
 // Notes: The category must always be in a long-lived char* (i.e. static const).
 //        The |arg_values|, when used, are always deep copied with the _COPY
 //        macros.
 //
 // When are string argument values copied:
 // const char* arg_values are only referenced by default:
 //     TRACE_EVENT1("category", "name",
 //                  "arg1", "literal string is only referenced");
 // Use TRACE_STR_COPY to force copying of a const char*:
 //     TRACE_EVENT1("category", "name",
 //                  "arg1", TRACE_STR_COPY("string will be copied"));
 // std::string arg_values are always copied:
 //     TRACE_EVENT1("category", "name",
 //                  "arg1", std::string("string will be copied"));
 //
 //
 // Convertable notes:
 // Converting a large data type to a string can be costly. To help with this,
 // the trace framework provides an interface ConvertableToTraceFormat. If you
 // inherit from it and implement the AppendAsTraceFormat method the trace
 // framework will call back to your object to convert a trace output time. This
 // means, if the category for the event is disabled, the conversion will not
 // happen.
 //
 //   class MyData : public base::trace_event::ConvertableToTraceFormat {
 //    public:
 //     MyData() {}
 //     void AppendAsTraceFormat(std::string* out) const override {
 //       out->append("{\"foo\":1}");
 //     }
 //    private:
 //     ~MyData() override {}
 //     DISALLOW_COPY_AND_ASSIGN(MyData);
 //   };
 //
 //   TRACE_EVENT1("foo", "bar", "data",
 //                scoped_refptr<ConvertableToTraceFormat>(new MyData()));
 //
 // The trace framework will take ownership if the passed pointer and it will
 // be free'd when the trace buffer is flushed.
 //
 // Note, we only do the conversion when the buffer is flushed, so the provided
 // data object should not be modified after it's passed to the trace framework.
 //
 //
 // Thread Safety:
 // A thread safe singleton and mutex are used for thread safety. Category
 // enabled flags are used to limit the performance impact when the system
 // is not enabled.
 //
 // TRACE_EVENT macros first cache a pointer to a category. The categories are
 // statically allocated and safe at all times, even after exit. Fetching a
 // category is protected by the TraceLog::lock_. Multiple threads initializing
 // the static variable is safe, as they will be serialized by the lock and
 // multiple calls will return the same pointer to the category.
 //
 // Then the category_group_enabled flag is checked. This is a unsigned char, and
 // not intended to be multithread safe. It optimizes access to AddTraceEvent
 // which is threadsafe internally via TraceLog::lock_. The enabled flag may
 // cause some threads to incorrectly call or skip calling AddTraceEvent near
 // the time of the system being enabled or disabled. This is acceptable as
 // we tolerate some data loss while the system is being enabled/disabled and
 // because AddTraceEvent is threadsafe internally and checks the enabled state
 // again under lock.
 //
 // Without the use of these static category pointers and enabled flags all
 // trace points would carry a significant performance cost of acquiring a lock
 // and resolving the category.

 #if defined(TRACE_EVENT0)
 #error "Another copy of this file has already been included."
 #endif

 // This will mark the trace event as disabled by default. The user will need
 // to explicitly enable the event.
 #define TRACE_DISABLED_BY_DEFAULT(name) "disabled-by-default-" name

 // Records a pair of begin and end events called "name" for the current
 // scope, with 0, 1 or 2 associated arguments. If the category is not
 // enabled, then this does nothing.
 // - category and name strings must have application lifetime (statics or
 //   literals). They may not include " chars.
 #define TRACE_EVENT0(category_group, name)    \
   INTERNAL_TRACE_MEMORY(category_group, name) \
   INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)

 #define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
   INTERNAL_TRACE_MEMORY(category_group, name)                   \
   INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, arg1_name, arg1_val)

 #define TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name,   \
                      arg2_val)                                               \
   INTERNAL_TRACE_MEMORY(category_group, name)                                \
   INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, arg1_name, arg1_val, \
                                   arg2_name, arg2_val)

 // Records a single event called "name" immediately, with 0, 1 or 2
 // associated arguments. If the category is not enabled, then this
 // does nothing.
 // - category and name strings must have application lifetime (statics or
 //   literals). They may not include " chars.
 #define TRACE_EVENT_INSTANT0(category_group, name, scope)                   \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
                            TRACE_EVENT_FLAG_NONE | scope)
 #define TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val) \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name,    \
                            TRACE_EVENT_FLAG_NONE | scope, arg1_name, arg1_val)
 #define TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
                              arg2_name, arg2_val)                              \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name,    \
                            TRACE_EVENT_FLAG_NONE | scope, arg1_name, arg1_val, \
                            arg2_name, arg2_val)
 #define TRACE_EVENT_COPY_INSTANT0(category_group, name, scope)              \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
                            TRACE_EVENT_FLAG_COPY | scope)
 #define TRACE_EVENT_COPY_INSTANT1(category_group, name, scope, arg1_name,   \
                                   arg1_val)                                 \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
                            TRACE_EVENT_FLAG_COPY | scope, arg1_name, arg1_val)
 #define TRACE_EVENT_COPY_INSTANT2(category_group, name, scope, arg1_name,      \
                                   arg1_val, arg2_name, arg2_val)               \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name,    \
                            TRACE_EVENT_FLAG_COPY | scope, arg1_name, arg1_val, \
                            arg2_name, arg2_val)

 // Records the value of a counter called "name" immediately. Value
 // must be representable as a 32 bit integer.
 // - category and name strings must have application lifetime (statics or
 //   literals). They may not include " chars.
 #define TRACE_COUNTER1(category_group, name, value)                         \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
                            TRACE_EVENT_FLAG_NONE, "value",                  \
                            static_cast<int>(value))
 #define TRACE_COPY_COUNTER1(category_group, name, value)                    \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
                            TRACE_EVENT_FLAG_COPY, "value",                  \
                            static_cast<int>(value))

 // Records the values of a multi-parted counter called "name" immediately.
 // The UI will treat value1 and value2 as parts of a whole, displaying their
 // values as a stacked-bar chart.
 // - category and name strings must have application lifetime (statics or
 //   literals). They may not include " chars.
 #define TRACE_COUNTER2(category_group, name, value1_name, value1_val,       \
                        value2_name, value2_val)                             \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
                            TRACE_EVENT_FLAG_NONE, value1_name,              \
                            static_cast<int>(value1_val), value2_name,       \
                            static_cast<int>(value2_val))
 #define TRACE_COPY_COUNTER2(category_group, name, value1_name, value1_val,  \
                             value2_name, value2_val)                        \
   INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
                            TRACE_EVENT_FLAG_COPY, value1_name,              \
                            static_cast<int>(value1_val), value2_name,       \
                            static_cast<int>(value2_val))

 // Macro to efficiently determine if a given category group is enabled.
 #define TRACE_EVENT_CATEGORY_GROUP_ENABLED(category_group, ret)             \
   do {                                                                      \
     INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group);                 \
     if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
       *ret = true;                                                          \
     } else {                                                                \
       *ret = false;                                                         \
     }                                                                       \
   } while (0)

 // Macro to efficiently determine, through polling, if a new trace has begun.
 #define TRACE_EVENT_IS_NEW_TRACE(ret)                                      \
   do {                                                                     \
     static int INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = 0;          \
     int num_traces_recorded = TRACE_EVENT_API_GET_NUM_TRACES_RECORDED();   \
     if (num_traces_recorded != -1 &&                                       \
         num_traces_recorded !=                                             \
             INTERNAL_TRACE_EVENT_UID(lastRecordingNumber)) {               \
       INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = num_traces_recorded; \
       *ret = true;                                                         \
     } else {                                                               \
       *ret = false;                                                        \
     }                                                                      \
   } while (0)

 // Notes regarding the following definitions:
 // New values can be added and propagated to third party libraries, but existing
 // definitions must never be changed, because third party libraries may use old
 // definitions.

 // Phase indicates the nature of an event entry. E.g. part of a begin/end pair.
 #define TRACE_EVENT_PHASE_BEGIN ('B')
 #define TRACE_EVENT_PHASE_END ('E')
 #define TRACE_EVENT_PHASE_COMPLETE ('X')
 #define TRACE_EVENT_PHASE_INSTANT ('I')
 #define TRACE_EVENT_PHASE_ASYNC_BEGIN ('S')
 #define TRACE_EVENT_PHASE_ASYNC_STEP_INTO ('T')
 #define TRACE_EVENT_PHASE_ASYNC_STEP_PAST ('p')
 #define TRACE_EVENT_PHASE_ASYNC_END ('F')
 #define TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN ('b')
 #define TRACE_EVENT_PHASE_NESTABLE_ASYNC_END ('e')
 #define TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT ('n')
 #define TRACE_EVENT_PHASE_FLOW_BEGIN ('s')
 #define TRACE_EVENT_PHASE_FLOW_STEP ('t')
 #define TRACE_EVENT_PHASE_FLOW_END ('f')
 #define TRACE_EVENT_PHASE_METADATA ('M')
 #define TRACE_EVENT_PHASE_COUNTER ('C')
 #define TRACE_EVENT_PHASE_SAMPLE ('P')
 #define TRACE_EVENT_PHASE_CREATE_OBJECT ('N')
 #define TRACE_EVENT_PHASE_SNAPSHOT_OBJECT ('O')
 #define TRACE_EVENT_PHASE_DELETE_OBJECT ('D')
 #define TRACE_EVENT_PHASE_MEMORY_DUMP ('v')
 #define TRACE_EVENT_PHASE_MARK ('R')

 // Flags for changing the behavior of TRACE_EVENT_API_ADD_TRACE_EVENT.
 #define TRACE_EVENT_FLAG_NONE (static_cast<unsigned int>(0))
 #define TRACE_EVENT_FLAG_COPY (static_cast<unsigned int>(1 << 0))
 #define TRACE_EVENT_FLAG_HAS_ID (static_cast<unsigned int>(1 << 1))
 #define TRACE_EVENT_FLAG_MANGLE_ID (static_cast<unsigned int>(1 << 2))
 #define TRACE_EVENT_FLAG_SCOPE_OFFSET (static_cast<unsigned int>(1 << 3))
 #define TRACE_EVENT_FLAG_SCOPE_EXTRA (static_cast<unsigned int>(1 << 4))
 #define TRACE_EVENT_FLAG_EXPLICIT_TIMESTAMP (static_cast<unsigned int>(1 << 5))
 #define TRACE_EVENT_FLAG_ASYNC_TTS (static_cast<unsigned int>(1 << 6))
 #define TRACE_EVENT_FLAG_BIND_TO_ENCLOSING (static_cast<unsigned int>(1 << 7))
 #define TRACE_EVENT_FLAG_FLOW_IN (static_cast<unsigned int>(1 << 8))
 #define TRACE_EVENT_FLAG_FLOW_OUT (static_cast<unsigned int>(1 << 9))
 #define TRACE_EVENT_FLAG_HAS_CONTEXT_ID (static_cast<unsigned int>(1 << 10))

 #define TRACE_EVENT_FLAG_SCOPE_MASK                          \
   (static_cast<unsigned int>(TRACE_EVENT_FLAG_SCOPE_OFFSET | \
                              TRACE_EVENT_FLAG_SCOPE_EXTRA))

 // Type values for identifying types in the TraceValue union.
 #define TRACE_VALUE_TYPE_BOOL (static_cast<unsigned char>(1))
 #define TRACE_VALUE_TYPE_UINT (static_cast<unsigned char>(2))
 #define TRACE_VALUE_TYPE_INT (static_cast<unsigned char>(3))
 #define TRACE_VALUE_TYPE_DOUBLE (static_cast<unsigned char>(4))
 #define TRACE_VALUE_TYPE_POINTER (static_cast<unsigned char>(5))
 #define TRACE_VALUE_TYPE_STRING (static_cast<unsigned char>(6))
 #define TRACE_VALUE_TYPE_COPY_STRING (static_cast<unsigned char>(7))
 #define TRACE_VALUE_TYPE_CONVERTABLE (static_cast<unsigned char>(8))

 // Enum reflecting the scope of an INSTANT event. Must fit within
 // TRACE_EVENT_FLAG_SCOPE_MASK.
 #define TRACE_EVENT_SCOPE_GLOBAL (static_cast<unsigned char>(0 << 3))
 #define TRACE_EVENT_SCOPE_PROCESS (static_cast<unsigned char>(1 << 3))
 #define TRACE_EVENT_SCOPE_THREAD (static_cast<unsigned char>(2 << 3))

 #define TRACE_EVENT_SCOPE_NAME_GLOBAL ('g')
 #define TRACE_EVENT_SCOPE_NAME_PROCESS ('p')
 #define TRACE_EVENT_SCOPE_NAME_THREAD ('t')
 #endif  // SkTraceEventCommon_DEFINED
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	#ifndef SkTraceEventCommon_DEFINED
	#define SkTraceEventCommon_DEFINED

	// This header file defines the set of trace_event macros without specifying
	// how the events actually get collected and stored. If you need to expose trace
	// events to some other universe, you can copy-and-paste this file as well as
	// trace_event.h, modifying the macros contained there as necessary for the
	// target platform. The end result is that multiple libraries can funnel events
	// through to a shared trace event collector.

	// IMPORTANT: To avoid conflicts, if you need to modify this file for a library,
	// land your change in base/ first, and then copy-and-paste it.

	// Trace events are for tracking application performance and resource usage.
	// Macros are provided to track:
	// Begin and end of function calls
	// Counters
	//
	// Events are issued against categories. Whereas LOG's
	// categories are statically defined, TRACE categories are created
	// implicitly with a string. For example:
	// TRACE_EVENT_INSTANT0("MY_SUBSYSTEM", "SomeImportantEvent",
	// TRACE_EVENT_SCOPE_THREAD)
	//
	// It is often the case that one trace may belong in multiple categories at the
	// same time. The first argument to the trace can be a comma-separated list of
	// categories, forming a category group, like:
	//
	// TRACE_EVENT_INSTANT0("input,views", "OnMouseOver", TRACE_EVENT_SCOPE_THREAD)
	//
	// We can enable/disable tracing of OnMouseOver by enabling/disabling either
	// category.
	//
	// Events can be INSTANT, or can be pairs of BEGIN and END in the same scope:
	// TRACE_EVENT_BEGIN0("MY_SUBSYSTEM", "SomethingCostly")
	// doSomethingCostly()
	// TRACE_EVENT_END0("MY_SUBSYSTEM", "SomethingCostly")
	// Note: our tools can't always determine the correct BEGIN/END pairs unless
	// these are used in the same scope. Use ASYNC_BEGIN/ASYNC_END macros if you
	// need them to be in separate scopes.
	//
	// A common use case is to trace entire function scopes. This
	// issues a trace BEGIN and END automatically:
	// void doSomethingCostly() {
	// TRACE_EVENT0("MY_SUBSYSTEM", "doSomethingCostly");
	// ...
	// }
	//
	// Additional parameters can be associated with an event:
	// void doSomethingCostly2(int howMuch) {
	// TRACE_EVENT1("MY_SUBSYSTEM", "doSomethingCostly",
	// "howMuch", howMuch);
	// ...
	// }
	//
	// The trace system will automatically add to this information the
	// current process id, thread id, and a timestamp in microseconds.
	//
	// To trace an asynchronous procedure such as an IPC send/receive, use
	// ASYNC_BEGIN and ASYNC_END:
	// [single threaded sender code]
	// static int send_count = 0;
	// ++send_count;
	// TRACE_EVENT_ASYNC_BEGIN0("ipc", "message", send_count);
	// Send(new MyMessage(send_count));
	// [receive code]
	// void OnMyMessage(send_count) {
	// TRACE_EVENT_ASYNC_END0("ipc", "message", send_count);
	// }
	// The third parameter is a unique ID to match ASYNC_BEGIN/ASYNC_END pairs.
	// ASYNC_BEGIN and ASYNC_END can occur on any thread of any traced process.
	// Pointers can be used for the ID parameter, and they will be mangled
	// internally so that the same pointer on two different processes will not
	// match. For example:
	// class MyTracedClass {
	// public:
	// MyTracedClass() {
	// TRACE_EVENT_ASYNC_BEGIN0("category", "MyTracedClass", this);
	// }
	// ~MyTracedClass() {
	// TRACE_EVENT_ASYNC_END0("category", "MyTracedClass", this);
	// }
	// }
	//
	// Trace event also supports counters, which is a way to track a quantity
	// as it varies over time. Counters are created with the following macro:
	// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter", g_myCounterValue);
	//
	// Counters are process-specific. The macro itself can be issued from any
	// thread, however.
	//
	// Sometimes, you want to track two counters at once. You can do this with two
	// counter macros:
	// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter0", g_myCounterValue[0]);
	// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter1", g_myCounterValue[1]);
	// Or you can do it with a combined macro:
	// TRACE_COUNTER2("MY_SUBSYSTEM", "myCounter",
	// "bytesPinned", g_myCounterValue[0],
	// "bytesAllocated", g_myCounterValue[1]);
	// This indicates to the tracing UI that these counters should be displayed
	// in a single graph, as a summed area chart.
	//
	// Since counters are in a global namespace, you may want to disambiguate with a
	// unique ID, by using the TRACE_COUNTER_ID* variations.
	//
	// By default, trace collection is compiled in, but turned off at runtime.
	// Collecting trace data is the responsibility of the embedding
	// application. In Chrome's case, navigating to about:tracing will turn on
	// tracing and display data collected across all active processes.
	//
	//
	// Memory scoping note:
	// Tracing copies the pointers, not the string content, of the strings passed
	// in for category_group, name, and arg_names. Thus, the following code will
	// cause problems:
	// char* str = strdup("importantName");
	// TRACE_EVENT_INSTANT0("SUBSYSTEM", str); // BAD!
	// free(str); // Trace system now has dangling pointer
	//
	// To avoid this issue with the \|name\| and \|arg_name\| parameters, use the
	// TRACE_EVENT_COPY_XXX overloads of the macros at additional runtime overhead.
	// Notes: The category must always be in a long-lived char* (i.e. static const).
	// The \|arg_values\|, when used, are always deep copied with the _COPY
	// macros.
	//
	// When are string argument values copied:
	// const char* arg_values are only referenced by default:
	// TRACE_EVENT1("category", "name",
	// "arg1", "literal string is only referenced");
	// Use TRACE_STR_COPY to force copying of a const char*:
	// TRACE_EVENT1("category", "name",
	// "arg1", TRACE_STR_COPY("string will be copied"));
	// std::string arg_values are always copied:
	// TRACE_EVENT1("category", "name",
	// "arg1", std::string("string will be copied"));
	//
	//
	// Convertable notes:
	// Converting a large data type to a string can be costly. To help with this,
	// the trace framework provides an interface ConvertableToTraceFormat. If you
	// inherit from it and implement the AppendAsTraceFormat method the trace
	// framework will call back to your object to convert a trace output time. This
	// means, if the category for the event is disabled, the conversion will not
	// happen.
	//
	// class MyData : public base::trace_event::ConvertableToTraceFormat {
	// public:
	// MyData() {}
	// void AppendAsTraceFormat(std::string* out) const override {
	// out->append("{\"foo\":1}");
	// }
	// private:
	// ~MyData() override {}
	// DISALLOW_COPY_AND_ASSIGN(MyData);
	// };
	//
	// TRACE_EVENT1("foo", "bar", "data",
	// scoped_refptr<ConvertableToTraceFormat>(new MyData()));
	//
	// The trace framework will take ownership if the passed pointer and it will
	// be free'd when the trace buffer is flushed.
	//
	// Note, we only do the conversion when the buffer is flushed, so the provided
	// data object should not be modified after it's passed to the trace framework.
	//
	//
	// Thread Safety:
	// A thread safe singleton and mutex are used for thread safety. Category
	// enabled flags are used to limit the performance impact when the system
	// is not enabled.
	//
	// TRACE_EVENT macros first cache a pointer to a category. The categories are
	// statically allocated and safe at all times, even after exit. Fetching a
	// category is protected by the TraceLog::lock_. Multiple threads initializing
	// the static variable is safe, as they will be serialized by the lock and
	// multiple calls will return the same pointer to the category.
	//
	// Then the category_group_enabled flag is checked. This is a unsigned char, and
	// not intended to be multithread safe. It optimizes access to AddTraceEvent
	// which is threadsafe internally via TraceLog::lock_. The enabled flag may
	// cause some threads to incorrectly call or skip calling AddTraceEvent near
	// the time of the system being enabled or disabled. This is acceptable as
	// we tolerate some data loss while the system is being enabled/disabled and
	// because AddTraceEvent is threadsafe internally and checks the enabled state
	// again under lock.
	//
	// Without the use of these static category pointers and enabled flags all
	// trace points would carry a significant performance cost of acquiring a lock
	// and resolving the category.

	#if defined(TRACE_EVENT0)
	#error "Another copy of this file has already been included."
	#endif

	// This will mark the trace event as disabled by default. The user will need
	// to explicitly enable the event.
	#define TRACE_DISABLED_BY_DEFAULT(name) "disabled-by-default-" name

	// Records a pair of begin and end events called "name" for the current
	// scope, with 0, 1 or 2 associated arguments. If the category is not
	// enabled, then this does nothing.
	// - category and name strings must have application lifetime (statics or
	// literals). They may not include " chars.
	#define TRACE_EVENT0(category_group, name) \
	INTERNAL_TRACE_MEMORY(category_group, name) \
	INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)

	#define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
	INTERNAL_TRACE_MEMORY(category_group, name) \
	INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, arg1_name, arg1_val)

	#define TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name, \
	arg2_val) \
	INTERNAL_TRACE_MEMORY(category_group, name) \
	INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, arg1_name, arg1_val, \
	arg2_name, arg2_val)

	// Records a single event called "name" immediately, with 0, 1 or 2
	// associated arguments. If the category is not enabled, then this
	// does nothing.
	// - category and name strings must have application lifetime (statics or
	// literals). They may not include " chars.
	#define TRACE_EVENT_INSTANT0(category_group, name, scope) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_NONE \| scope)
	#define TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_NONE \| scope, arg1_name, arg1_val)
	#define TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
	arg2_name, arg2_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_NONE \| scope, arg1_name, arg1_val, \
	arg2_name, arg2_val)
	#define TRACE_EVENT_COPY_INSTANT0(category_group, name, scope) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_COPY \| scope)
	#define TRACE_EVENT_COPY_INSTANT1(category_group, name, scope, arg1_name, \
	arg1_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_COPY \| scope, arg1_name, arg1_val)
	#define TRACE_EVENT_COPY_INSTANT2(category_group, name, scope, arg1_name, \
	arg1_val, arg2_name, arg2_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
	TRACE_EVENT_FLAG_COPY \| scope, arg1_name, arg1_val, \
	arg2_name, arg2_val)

	// Records the value of a counter called "name" immediately. Value
	// must be representable as a 32 bit integer.
	// - category and name strings must have application lifetime (statics or
	// literals). They may not include " chars.
	#define TRACE_COUNTER1(category_group, name, value) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
	TRACE_EVENT_FLAG_NONE, "value", \
	static_cast<int>(value))
	#define TRACE_COPY_COUNTER1(category_group, name, value) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
	TRACE_EVENT_FLAG_COPY, "value", \
	static_cast<int>(value))

	// Records the values of a multi-parted counter called "name" immediately.
	// The UI will treat value1 and value2 as parts of a whole, displaying their
	// values as a stacked-bar chart.
	// - category and name strings must have application lifetime (statics or
	// literals). They may not include " chars.
	#define TRACE_COUNTER2(category_group, name, value1_name, value1_val, \
	value2_name, value2_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
	TRACE_EVENT_FLAG_NONE, value1_name, \
	static_cast<int>(value1_val), value2_name, \
	static_cast<int>(value2_val))
	#define TRACE_COPY_COUNTER2(category_group, name, value1_name, value1_val, \
	value2_name, value2_val) \
	INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
	TRACE_EVENT_FLAG_COPY, value1_name, \
	static_cast<int>(value1_val), value2_name, \
	static_cast<int>(value2_val))

	// Macro to efficiently determine if a given category group is enabled.
	#define TRACE_EVENT_CATEGORY_GROUP_ENABLED(category_group, ret) \
	do { \
	INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
	if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
	*ret = true; \
	} else { \
	*ret = false; \
	} \
	} while (0)

	// Macro to efficiently determine, through polling, if a new trace has begun.
	#define TRACE_EVENT_IS_NEW_TRACE(ret) \
	do { \
	static int INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = 0; \
	int num_traces_recorded = TRACE_EVENT_API_GET_NUM_TRACES_RECORDED(); \
	if (num_traces_recorded != -1 && \
	num_traces_recorded != \
	INTERNAL_TRACE_EVENT_UID(lastRecordingNumber)) { \
	INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = num_traces_recorded; \
	*ret = true; \
	} else { \
	*ret = false; \
	} \
	} while (0)

	// Notes regarding the following definitions:
	// New values can be added and propagated to third party libraries, but existing
	// definitions must never be changed, because third party libraries may use old
	// definitions.

	// Phase indicates the nature of an event entry. E.g. part of a begin/end pair.
	#define TRACE_EVENT_PHASE_BEGIN ('B')
	#define TRACE_EVENT_PHASE_END ('E')
	#define TRACE_EVENT_PHASE_COMPLETE ('X')
	#define TRACE_EVENT_PHASE_INSTANT ('I')
	#define TRACE_EVENT_PHASE_ASYNC_BEGIN ('S')
	#define TRACE_EVENT_PHASE_ASYNC_STEP_INTO ('T')
	#define TRACE_EVENT_PHASE_ASYNC_STEP_PAST ('p')
	#define TRACE_EVENT_PHASE_ASYNC_END ('F')
	#define TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN ('b')
	#define TRACE_EVENT_PHASE_NESTABLE_ASYNC_END ('e')
	#define TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT ('n')
	#define TRACE_EVENT_PHASE_FLOW_BEGIN ('s')
	#define TRACE_EVENT_PHASE_FLOW_STEP ('t')
	#define TRACE_EVENT_PHASE_FLOW_END ('f')
	#define TRACE_EVENT_PHASE_METADATA ('M')
	#define TRACE_EVENT_PHASE_COUNTER ('C')
	#define TRACE_EVENT_PHASE_SAMPLE ('P')
	#define TRACE_EVENT_PHASE_CREATE_OBJECT ('N')
	#define TRACE_EVENT_PHASE_SNAPSHOT_OBJECT ('O')
	#define TRACE_EVENT_PHASE_DELETE_OBJECT ('D')
	#define TRACE_EVENT_PHASE_MEMORY_DUMP ('v')
	#define TRACE_EVENT_PHASE_MARK ('R')

	// Flags for changing the behavior of TRACE_EVENT_API_ADD_TRACE_EVENT.
	#define TRACE_EVENT_FLAG_NONE (static_cast<unsigned int>(0))
	#define TRACE_EVENT_FLAG_COPY (static_cast<unsigned int>(1 << 0))
	#define TRACE_EVENT_FLAG_HAS_ID (static_cast<unsigned int>(1 << 1))
	#define TRACE_EVENT_FLAG_MANGLE_ID (static_cast<unsigned int>(1 << 2))
	#define TRACE_EVENT_FLAG_SCOPE_OFFSET (static_cast<unsigned int>(1 << 3))
	#define TRACE_EVENT_FLAG_SCOPE_EXTRA (static_cast<unsigned int>(1 << 4))
	#define TRACE_EVENT_FLAG_EXPLICIT_TIMESTAMP (static_cast<unsigned int>(1 << 5))
	#define TRACE_EVENT_FLAG_ASYNC_TTS (static_cast<unsigned int>(1 << 6))
	#define TRACE_EVENT_FLAG_BIND_TO_ENCLOSING (static_cast<unsigned int>(1 << 7))
	#define TRACE_EVENT_FLAG_FLOW_IN (static_cast<unsigned int>(1 << 8))
	#define TRACE_EVENT_FLAG_FLOW_OUT (static_cast<unsigned int>(1 << 9))
	#define TRACE_EVENT_FLAG_HAS_CONTEXT_ID (static_cast<unsigned int>(1 << 10))

	#define TRACE_EVENT_FLAG_SCOPE_MASK \
	(static_cast<unsigned int>(TRACE_EVENT_FLAG_SCOPE_OFFSET \| \
	TRACE_EVENT_FLAG_SCOPE_EXTRA))

	// Type values for identifying types in the TraceValue union.
	#define TRACE_VALUE_TYPE_BOOL (static_cast<unsigned char>(1))
	#define TRACE_VALUE_TYPE_UINT (static_cast<unsigned char>(2))
	#define TRACE_VALUE_TYPE_INT (static_cast<unsigned char>(3))
	#define TRACE_VALUE_TYPE_DOUBLE (static_cast<unsigned char>(4))
	#define TRACE_VALUE_TYPE_POINTER (static_cast<unsigned char>(5))
	#define TRACE_VALUE_TYPE_STRING (static_cast<unsigned char>(6))
	#define TRACE_VALUE_TYPE_COPY_STRING (static_cast<unsigned char>(7))
	#define TRACE_VALUE_TYPE_CONVERTABLE (static_cast<unsigned char>(8))

	// Enum reflecting the scope of an INSTANT event. Must fit within
	// TRACE_EVENT_FLAG_SCOPE_MASK.
	#define TRACE_EVENT_SCOPE_GLOBAL (static_cast<unsigned char>(0 << 3))
	#define TRACE_EVENT_SCOPE_PROCESS (static_cast<unsigned char>(1 << 3))
	#define TRACE_EVENT_SCOPE_THREAD (static_cast<unsigned char>(2 << 3))

	#define TRACE_EVENT_SCOPE_NAME_GLOBAL ('g')
	#define TRACE_EVENT_SCOPE_NAME_PROCESS ('p')
	#define TRACE_EVENT_SCOPE_NAME_THREAD ('t')
	#endif // SkTraceEventCommon_DEFINED