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skia / skia / 89776b504a91d87586a7dd4824d82dc51bf31a3d / . / src / core / SkTraceEventCommon.h
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// 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
#include "include/core/SkTypes.h"
#include "include/utils/SkTraceEventPhase.h"
// Trace events are for tracking application performance and resource usage.
// Macros are provided to track:
// Duration of scoped regions
// Instantaneous events
// Counters
//
// The first two arguments to all TRACE macros are the category and name. Both are strings, and
// must have application lifetime (statics or literals). The same applies to arg_names, and string
// argument values. However, you can force a copy of a string argument value with TRACE_STR_COPY:
// TRACE_EVENT1("category", "name", "arg1", "literal string is only referenced");
// TRACE_EVENT1("category", "name", "arg1", TRACE_STR_COPY("string will be copied"));
//
//
// Categories are used to group events, and
// can be enabled or disabled by the tracing framework. The trace system will automatically add the
// process id, thread id, and microsecond timestamp to all events.
//
//
// The TRACE_EVENT[0-2] macros trace the duration of entire scopes:
// 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);
// ...
// }
//
//
// 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]);
// The tracing UI will show these counters in a single graph, as a summed area chart.
#if defined(TRACE_EVENT0)
#error "Another copy of this file has already been included."
#endif
// --- Temporary Perfetto migration shim preamble ---
// Tracing in the Android framework, and tracing with Perfetto, are both in a partially migrated
// state (but fully functional).
//
// See go/skia-perfetto
//
// For Android framework:
// ---
// 1. If SK_ANDROID_FRAMEWORK_USE_PERFETTO is not defined, then all tracing macros map to no-ops.
// This is only relevant to host-mode builds, where ATrace isn't supported anyway, and tracing with
// Perfetto seems unnecessary. Note that SkAndroidFrameworkTraceUtil is still defined (assuming
// SK_BUILD_FOR_ANDROID_FRAMEWORK is defined) to support HWUI referencing it in host-mode builds.
//
// 2. If SK_ANDROID_FRAMEWORK_USE_PERFETTO *is* defined, then the tracing backend can be switched
// between ATrace and Perfetto at runtime. This is currently *only* supported in Android framework.
// SkAndroidFrameworkTraceUtil::setEnableTracing(bool) will still control broad tracing overall, but
// SkAndroidFrameworkTraceUtil::setUsePerfettoTrackEvents(bool) will now determine whether that
// tracing is done with ATrace (default/false) or Perfetto (true).
//
// Note: if setUsePerfettoTrackEvents(true) is called, then Perfetto will remain initialized until
// the process ends. This means some minimal state overhead will remain even after subseqently
// switching the process back to ATrace, but individual trace events will be correctly routed to
// whichever system is active in the moment. However, trace events which have begun but have not yet
// ended when a switch occurs will likely be corrupted. Thus, it's best to minimize the frequency of
// switching backend tracing systems at runtime.
//
// For Perfetto outside of Android framework (e.g. tools):
// ---
// SK_USE_PERFETTO (mutually exclusive with SK_ANDROID_FRAMEWORK_USE_PERFETTO) can be used to unlock
// SkPerfettoTrace, which can be used for in-process tracing via the standard Skia tracing flow of
// SkEventTracer::SetInstance(...). This is enabled in tools with the `--trace perfetto` argument.
// See https://skia.org/docs/dev/tools/tracing/#tracing-with-perfetto for more on SK_USE_PERFETTO.
#ifdef SK_ANDROID_FRAMEWORK_USE_PERFETTO
// PERFETTO_TRACK_EVENT_NAMESPACE must be defined before including Perfetto. This allows Skia to
// maintain separate "track event" category storage, etc. from codebases linked into the same
// executable, and avoid symbol duplication errors.
//
// NOTE: A side-effect of this is we must use skia::TrackEvent instead of perfetto::TrackEvent.
#define PERFETTO_TRACK_EVENT_NAMESPACE skia
#include <perfetto/tracing.h>
#include <cutils/trace.h>
#include <stdarg.h>
#include <string_view>
// WARNING: this list must be kept up to date with every category we use for tracing!
//
// When adding a new category it's likely best to add both "new_category" and "new_category.always",
// though not strictly required. "new_category.always" is used internally when "new_category" is
// given to TRACE_EVENT0_ALWAYS macros, which are used for core events that should always show up in
// traces for the Android framework. Adding both to begin with will likely reduce churn if/when
// "new_category" is used across both normal tracing macros and _ALWAYS variants in the future, but
// it's not a strict requirement.
//
// See stages section of go/skia-perfetto for timeline of when this should improve.
//
// TODO(b/262718654): make this compilation failure happen sooner than the Skia -> Android roll.
//
// Currently kept entirely separate from SkPerfettoTrace for simplicity, which uses dynamic
// categories and doesn't need these static category definitions.
PERFETTO_DEFINE_CATEGORIES(
perfetto::Category("GM"),
perfetto::Category("skia"),
perfetto::Category("skia.android"),
perfetto::Category("skia.gpu"),
perfetto::Category("skia.gpu.cache"),
perfetto::Category("skia.objects"),
perfetto::Category("skia.shaders"),
perfetto::Category("skottie"),
perfetto::Category("test"),
perfetto::Category("test_cpu"),
perfetto::Category("test_ganesh"),
perfetto::Category("test_graphite"),
// ".always" variants are currently required for any category used in TRACE_EVENT0_ALWAYS.
perfetto::Category("GM.always").SetTags("skia.always"),
perfetto::Category("skia.always").SetTags("skia.always"),
perfetto::Category("skia.android.always").SetTags("skia.always"),
perfetto::Category("skia.gpu.always").SetTags("skia.always"),
perfetto::Category("skia.gpu.cache.always").SetTags("skia.always"),
perfetto::Category("skia.objects.always").SetTags("skia.always"),
perfetto::Category("skia.shaders.always").SetTags("skia.always"),
perfetto::Category("skottie.always").SetTags("skia.always"),
perfetto::Category("test.always").SetTags("skia.always"),
perfetto::Category("test_cpu.always").SetTags("skia.always"),
perfetto::Category("test_ganesh.always").SetTags("skia.always"),
perfetto::Category("test_graphite.always").SetTags("skia.always"),
);
#endif // SK_ANDROID_FRAMEWORK_USE_PERFETTO
#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
#define SK_ANDROID_FRAMEWORK_ATRACE_BUFFER_SIZE 256
class SkAndroidFrameworkTraceUtil {
public:
SkAndroidFrameworkTraceUtil() = delete;
// Controls whether broad tracing is enabled. Warning: not thread-safe!
//
// Some key trace events may still be recorded when this is disabled, if a relevant tracing
// session is active.
//
// ATrace is used by default, but can be replaced with Perfetto by calling
// setUsePerfettoTrackEvents(true)
static void setEnableTracing(bool enableAndroidTracing) {
gEnableAndroidTracing = enableAndroidTracing;
}
// Controls whether tracing uses Perfetto instead of ATrace. Warning: not thread-safe!
//
// Returns true if Skia was built with Perfetto, false otherwise.
static bool setUsePerfettoTrackEvents(bool usePerfettoTrackEvents) {
#ifdef SK_ANDROID_FRAMEWORK_USE_PERFETTO
// Ensure Perfetto is initialized if it wasn't already the preferred tracing backend.
if (!gUsePerfettoTrackEvents && usePerfettoTrackEvents) {
initPerfetto();
}
gUsePerfettoTrackEvents = usePerfettoTrackEvents;
return true;
#else // !SK_ANDROID_FRAMEWORK_USE_PERFETTO
// Note: please reach out to skia-android@google.com if you encounter this unexpectedly.
SkDebugf("Tracing Skia with Perfetto is not supported in this environment (host build?)");
return false;
#endif // SK_ANDROID_FRAMEWORK_USE_PERFETTO
}
static bool getEnableTracing() {
return gEnableAndroidTracing;
}
static bool getUsePerfettoTrackEvents() {
return gUsePerfettoTrackEvents;
}
private:
static bool gEnableAndroidTracing;
static bool gUsePerfettoTrackEvents;
#ifdef SK_ANDROID_FRAMEWORK_USE_PERFETTO
// Initializes tracing systems, and establishes a connection to the 'traced' daemon.
//
// Can be called multiple times.
static void initPerfetto() {
::perfetto::TracingInitArgs perfettoArgs;
perfettoArgs.backends |= perfetto::kSystemBackend;
::perfetto::Tracing::Initialize(perfettoArgs);
::skia::TrackEvent::Register();
}
#endif // SK_ANDROID_FRAMEWORK_USE_PERFETTO
};
#endif // SK_BUILD_FOR_ANDROID_FRAMEWORK
#ifdef SK_DEBUG
static void skprintf_like_noop(const char format[], ...) SK_PRINTF_LIKE(1, 2);
static inline void skprintf_like_noop(const char format[], ...) {}
static inline void sk_noop(...) {}
#define TRACE_EMPTY(...) do { sk_noop(__VA_ARGS__); } while (0)
#define TRACE_EMPTY_FMT(fmt, ...) do { skprintf_like_noop(fmt, ##__VA_ARGS__); } while (0)
#else
#define TRACE_EMPTY(...) do {} while (0)
#define TRACE_EMPTY_FMT(fmt, ...) do {} while (0)
#endif
#if defined(SK_DISABLE_TRACING) || \
(defined(SK_BUILD_FOR_ANDROID_FRAMEWORK) && !defined(SK_ANDROID_FRAMEWORK_USE_PERFETTO))
#define ATRACE_ANDROID_FRAMEWORK(fmt, ...) TRACE_EMPTY_FMT(fmt, ##__VA_ARGS__)
#define ATRACE_ANDROID_FRAMEWORK_ALWAYS(fmt, ...) TRACE_EMPTY_FMT(fmt, ##__VA_ARGS__)
#define TRACE_EVENT0(cg, n) TRACE_EMPTY(cg, n)
#define TRACE_EVENT0_ALWAYS(cg, n) TRACE_EMPTY(cg, n)
#define TRACE_EVENT1(cg, n, a1n, a1v) TRACE_EMPTY(cg, n, a1n, a1v)
#define TRACE_EVENT2(cg, n, a1n, a1v, a2n, a2v) TRACE_EMPTY(cg, n, a1n, a1v, a2n, a2v)
#define TRACE_EVENT_INSTANT0(cg, n, scope) TRACE_EMPTY(cg, n, scope)
#define TRACE_EVENT_INSTANT1(cg, n, scope, a1n, a1v) TRACE_EMPTY(cg, n, scope, a1n, a1v)
#define TRACE_EVENT_INSTANT2(cg, n, scope, a1n, a1v, a2n, a2v) \
TRACE_EMPTY(cg, n, scope, a1n, a1v, a2n, a2v)
#define TRACE_COUNTER1(cg, n, value) TRACE_EMPTY(cg, n, value)
#define TRACE_COUNTER2(cg, n, v1n, v1v, v2n, v2v) TRACE_EMPTY(cg, n, v1n, v1v, v2n, v2v)
#elif defined(SK_ANDROID_FRAMEWORK_USE_PERFETTO)
namespace skia_private {
// ATrace can't accept ::perfetto::DynamicString or ::perfetto::StaticString, so any trace event
// names that were wrapped in TRACE_STR_COPY or TRACE_STR_STATIC need to be unboxed back to
// char* before being passed to ATrace.
inline const char* UnboxPerfettoString(const ::perfetto::DynamicString& str) {
return str.value;
}
inline const char* UnboxPerfettoString(const ::perfetto::StaticString& str) {
return str.value;
}
inline const char* UnboxPerfettoString(const char* str) {
return str;
}
constexpr bool StrEndsWithAndLongerThan(const char* str, const char* suffix) {
auto strView = std::basic_string_view(str);
auto suffixView = std::basic_string_view(suffix);
// string_view::ends_with isn't available until C++20
return strView.size() > suffixView.size() &&
strView.compare(strView.size() - suffixView.size(),
std::string_view::npos, suffixView) == 0;
}
}
// Generate a unique variable name with a given prefix.
// The indirection in this multi-level macro lets __LINE__ expand at the right time/place to get
// prefix123 instead of prefix__LINE__.
#define SK_PERFETTO_INTERNAL_CONCAT2(a, b) a##b
#define SK_PERFETTO_INTERNAL_CONCAT(a, b) SK_PERFETTO_INTERNAL_CONCAT2(a, b)
#define SK_PERFETTO_UID(prefix) SK_PERFETTO_INTERNAL_CONCAT(prefix, __LINE__)
// Assuming there is an active tracing session, this call will create a trace event if tracing is
// enabled (with SkAndroidFrameworkTraceUtil::setEnableTracing(true)) or if force_always_trace is
// true. The event goes through ATrace by default, but can be routed to Perfetto instead by calling
// SkAndroidFrameworkTraceUtil::setUsePerfettoTrackEvents(true).
//
// If force_always_trace = true, then the caller *must* append the ".always" suffix to the provided
// category. This allows Perfetto tracing sessions to optionally filter to just the "skia.always"
// category tag. This requirement is enforced at compile time.
#define TRACE_EVENT_ATRACE_OR_PERFETTO_FORCEABLE(force_always_trace, category, name, ...) \
struct SK_PERFETTO_UID(ScopedEvent) { \
struct EventFinalizer { \
/* The ... parameter slot is an implementation detail. It allows the */ \
/* anonymous struct to use aggregate initialization to invoke the */ \
/* lambda (which emits the BEGIN event and returns an integer) */ \
/* with the proper reference capture for any */ \
/* TrackEventArgumentFunction in |__VA_ARGS__|. This is required so */ \
/* that the scoped event is exactly ONE line and can't escape the */ \
/* scope if used in a single line if statement. */ \
EventFinalizer(...) {} \
~EventFinalizer() { \
if (force_always_trace || \
CC_UNLIKELY(SkAndroidFrameworkTraceUtil::getEnableTracing())) { \
if (SkAndroidFrameworkTraceUtil::getUsePerfettoTrackEvents()) { \
TRACE_EVENT_END(category); \
} else { \
ATRACE_END(); \
} \
} \
} \
\
EventFinalizer(const EventFinalizer&) = delete; \
EventFinalizer& operator=(const EventFinalizer&) = delete; \
\
EventFinalizer(EventFinalizer&&) = default; \
EventFinalizer& operator=(EventFinalizer&&) = delete; \
} finalizer; \
} SK_PERFETTO_UID(scoped_event) { \
[&]() { \
static_assert(!force_always_trace || \
::skia_private::StrEndsWithAndLongerThan(category, ".always"), \
"[force_always_trace == true] requires [category] to end in '.always'"); \
if (force_always_trace || \
CC_UNLIKELY(SkAndroidFrameworkTraceUtil::getEnableTracing())) { \
if (SkAndroidFrameworkTraceUtil::getUsePerfettoTrackEvents()) { \
TRACE_EVENT_BEGIN(category, name, ##__VA_ARGS__); \
} else { \
ATRACE_BEGIN(::skia_private::UnboxPerfettoString(name)); \
} \
} \
return 0; \
}() \
}
// Records an event with the current tracing backend, if overall Skia tracing is also enabled.
#define TRACE_EVENT_ATRACE_OR_PERFETTO(category, name, ...) \
TRACE_EVENT_ATRACE_OR_PERFETTO_FORCEABLE( \
/* force_always_trace = */ false, category, name, ##__VA_ARGS__)
#define ATRACE_ANDROID_FRAMEWORK(fmt, ...) \
char SK_PERFETTO_UID(skTraceStrBuf)[SK_ANDROID_FRAMEWORK_ATRACE_BUFFER_SIZE]; \
if (SkAndroidFrameworkTraceUtil::getEnableTracing()) { \
snprintf(SK_PERFETTO_UID(skTraceStrBuf), SK_ANDROID_FRAMEWORK_ATRACE_BUFFER_SIZE, \
fmt, ##__VA_ARGS__); \
} \
TRACE_EVENT0("skia.android", TRACE_STR_COPY(SK_PERFETTO_UID(skTraceStrBuf)))
#define ATRACE_ANDROID_FRAMEWORK_ALWAYS(fmt, ...) \
char SK_PERFETTO_UID(skTraceStrBuf)[SK_ANDROID_FRAMEWORK_ATRACE_BUFFER_SIZE]; \
snprintf(SK_PERFETTO_UID(skTraceStrBuf), SK_ANDROID_FRAMEWORK_ATRACE_BUFFER_SIZE, \
fmt, ##__VA_ARGS__); \
TRACE_EVENT0_ALWAYS("skia.android", TRACE_STR_COPY(SK_PERFETTO_UID(skTraceStrBuf)))
// Records a pair of begin and end events called "name" for the current scope, with 0, 1 or 2
// associated arguments. Note that ATrace does not support trace arguments, so they are only
// recorded when Perfetto is set as the current tracing backend.
#define TRACE_EVENT0(category_group, name) \
TRACE_EVENT_ATRACE_OR_PERFETTO(category_group, name)
// Note: ".always" suffix appended to category_group in TRACE_EVENT0_ALWAYS.
#define TRACE_EVENT0_ALWAYS(category_group, name) TRACE_EVENT_ATRACE_OR_PERFETTO_FORCEABLE( \
/* force_always_trace = */ true, category_group ".always", name)
#define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
TRACE_EVENT_ATRACE_OR_PERFETTO(category_group, name, arg1_name, arg1_val)
#define TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name, arg2_val) \
TRACE_EVENT_ATRACE_OR_PERFETTO(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.
// Note that ATrace does not support trace arguments, so they are only recorded when Perfetto is set
// as the current tracing backend.
#define TRACE_EVENT_INSTANT0(category_group, name, scope) \
do { TRACE_EVENT_ATRACE_OR_PERFETTO(category_group, name); } while(0)
#define TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val) \
do { TRACE_EVENT_ATRACE_OR_PERFETTO(category_group, name, arg1_name, arg1_val); } while(0)
#define TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
arg2_name, arg2_val) \
do { TRACE_EVENT_ATRACE_OR_PERFETTO(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val); } while(0)
// Records the value of a counter called "name" immediately. Value
// must be representable as a 32 bit integer.
#define TRACE_COUNTER1(category_group, name, value) \
if (CC_UNLIKELY(SkAndroidFrameworkTraceUtil::getEnableTracing())) { \
if (SkAndroidFrameworkTraceUtil::getUsePerfettoTrackEvents()) { \
TRACE_COUNTER(category_group, name, value); \
} else { \
ATRACE_INT(name, value); \
} \
}
// Records the values of a multi-parted counter called "name" immediately.
// In Chrome, this macro produces a stacked bar chart. Perfetto doesn't support
// that (related: b/242349575), so this just produces two separate counters.
#define TRACE_COUNTER2(category_group, name, value1_name, value1_val, value2_name, value2_val) \
if (CC_UNLIKELY(SkAndroidFrameworkTraceUtil::getEnableTracing())) { \
if (SkAndroidFrameworkTraceUtil::getUsePerfettoTrackEvents()) { \
TRACE_COUNTER(category_group, name "-" value1_name, value1_val); \
TRACE_COUNTER(category_group, name "-" value2_name, value2_val); \
} else { \
ATRACE_INT(name "-" value1_name, value1_val); \
ATRACE_INT(name "-" value2_name, value2_val); \
} \
}
// ATrace has no object tracking, and would require a legacy shim for Perfetto (which likely no-ops
// here). Further, these don't appear to currently be used outside of tests.
#define TRACE_EVENT_OBJECT_CREATED_WITH_ID(category_group, name, id) \
TRACE_EMPTY(category_group, name, id)
#define TRACE_EVENT_OBJECT_SNAPSHOT_WITH_ID(category_group, name, id, snapshot) \
TRACE_EMPTY(category_group, name, id, snapshot)
#define TRACE_EVENT_OBJECT_DELETED_WITH_ID(category_group, name, id) \
TRACE_EMPTY(category_group, name, id)
// Macro to efficiently determine if a given category group is enabled. Only works with Perfetto.
// This is only used for some shader text logging that isn't supported in ATrace anyway.
#define TRACE_EVENT_CATEGORY_GROUP_ENABLED(category_group, ret) \
if (CC_UNLIKELY(SkAndroidFrameworkTraceUtil::getEnableTracing() && \
SkAndroidFrameworkTraceUtil::getUsePerfettoTrackEvents)) { \
*ret = TRACE_EVENT_CATEGORY_ENABLED(category_group); \
} else { \
*ret = false; \
}
#else // Route through SkEventTracer (!SK_DISABLE_TRACING && !SK_ANDROID_FRAMEWORK_USE_PERFETTO)
#define ATRACE_ANDROID_FRAMEWORK(fmt, ...) TRACE_EMPTY_FMT(fmt, ##__VA_ARGS__)
#define ATRACE_ANDROID_FRAMEWORK_ALWAYS(fmt, ...) TRACE_EMPTY_FMT(fmt, ##__VA_ARGS__)
// 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.
#define TRACE_EVENT0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)
#define TRACE_EVENT0_ALWAYS(category_group, name) \
INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)
#define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
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_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.
#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)
// Records the value of a counter called "name" immediately. Value
// must be representable as a 32 bit integer.
#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))
// 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.
#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_EVENT_ASYNC_BEGIN0(category, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
TRACE_EVENT_PHASE_ASYNC_BEGIN, category, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_ASYNC_BEGIN1(category, name, id, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_ASYNC_BEGIN2(category, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_ASYNC_END0(category, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_ASYNC_END1(category, name, id, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_ASYNC_END2(category, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val, arg2_name, arg2_val)
// Macros to track the life time and value of arbitrary client objects.
#define TRACE_EVENT_OBJECT_CREATED_WITH_ID(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
TRACE_EVENT_PHASE_CREATE_OBJECT, category_group, name, id, \
TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_OBJECT_SNAPSHOT_WITH_ID(category_group, name, id, \
snapshot) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
TRACE_EVENT_PHASE_SNAPSHOT_OBJECT, category_group, name, \
id, TRACE_EVENT_FLAG_NONE, "snapshot", snapshot)
#define TRACE_EVENT_OBJECT_DELETED_WITH_ID(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
TRACE_EVENT_PHASE_DELETE_OBJECT, category_group, name, id, \
TRACE_EVENT_FLAG_NONE)
// 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)
#endif
// 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