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authorYuri Kunde Schlesner <yuriks@yuriks.net>2015-08-17 23:25:21 +0200
committerYuri Kunde Schlesner <yuriks@yuriks.net>2015-08-25 03:16:28 +0200
commit0fcabd2b11a5b1d4d16f6f6bdf1efd54d2c45237 (patch)
treea1651d48113413e2de1e6e309362511b1ff7ffa8 /externals/microprofile/microprofile.h
parentcitra-qt: Add helper function to get a monospace QFont (diff)
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Diffstat (limited to 'externals/microprofile/microprofile.h')
-rw-r--r--externals/microprofile/microprofile.h3571
1 files changed, 3571 insertions, 0 deletions
diff --git a/externals/microprofile/microprofile.h b/externals/microprofile/microprofile.h
new file mode 100644
index 000000000..d1ae0c1c2
--- /dev/null
+++ b/externals/microprofile/microprofile.h
@@ -0,0 +1,3571 @@
+#pragma once
+// This is free and unencumbered software released into the public domain.
+// Anyone is free to copy, modify, publish, use, compile, sell, or
+// distribute this software, either in source code form or as a compiled
+// binary, for any purpose, commercial or non-commercial, and by any
+// means.
+// In jurisdictions that recognize copyright laws, the author or authors
+// of this software dedicate any and all copyright interest in the
+// software to the public domain. We make this dedication for the benefit
+// of the public at large and to the detriment of our heirs and
+// successors. We intend this dedication to be an overt act of
+// relinquishment in perpetuity of all present and future rights to this
+// software under copyright law.
+// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+// IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
+// OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
+// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+// OTHER DEALINGS IN THE SOFTWARE.
+// For more information, please refer to <http://unlicense.org/>
+//
+// ***********************************************************************
+//
+//
+//
+//
+// Howto:
+// Call these functions from your code:
+// MicroProfileOnThreadCreate
+// MicroProfileMouseButton
+// MicroProfileMousePosition
+// MicroProfileModKey
+// MicroProfileFlip <-- Call this once per frame
+// MicroProfileDraw <-- Call this once per frame
+// MicroProfileToggleDisplayMode <-- Bind to a key to toggle profiling
+// MicroProfileTogglePause <-- Bind to a key to toggle pause
+//
+// Use these macros in your code in blocks you want to time:
+//
+// MICROPROFILE_DECLARE
+// MICROPROFILE_DEFINE
+// MICROPROFILE_DECLARE_GPU
+// MICROPROFILE_DEFINE_GPU
+// MICROPROFILE_SCOPE
+// MICROPROFILE_SCOPEI
+// MICROPROFILE_SCOPEGPU
+// MICROPROFILE_SCOPEGPUI
+// MICROPROFILE_META
+//
+//
+// Usage:
+//
+// {
+// MICROPROFILE_SCOPEI("GroupName", "TimerName", nColorRgb):
+// ..Code to be timed..
+// }
+//
+// MICROPROFILE_DECLARE / MICROPROFILE_DEFINE allows defining groups in a shared place, to ensure sorting of the timers
+//
+// (in global scope)
+// MICROPROFILE_DEFINE(g_ProfileFisk, "Fisk", "Skalle", nSomeColorRgb);
+//
+// (in some other file)
+// MICROPROFILE_DECLARE(g_ProfileFisk);
+//
+// void foo(){
+// MICROPROFILE_SCOPE(g_ProfileFisk);
+// }
+//
+// Once code is instrumented the gui is activeted by calling MicroProfileToggleDisplayMode or by clicking in the upper left corner of
+// the screen
+//
+// The following functions must be implemented before the profiler is usable
+// debug render:
+// void MicroProfileDrawText(int nX, int nY, uint32_t nColor, const char* pText, uint32_t nNumCharacters);
+// void MicroProfileDrawBox(int nX, int nY, int nX1, int nY1, uint32_t nColor, MicroProfileBoxType = MicroProfileBoxTypeFlat);
+// void MicroProfileDrawLine2D(uint32_t nVertices, float* pVertices, uint32_t nColor);
+// Gpu time stamps: (See below for d3d/opengl helper)
+// uint32_t MicroProfileGpuInsertTimeStamp();
+// uint64_t MicroProfileGpuGetTimeStamp(uint32_t nKey);
+// uint64_t MicroProfileTicksPerSecondGpu();
+// threading:
+// const char* MicroProfileGetThreadName(); Threadnames in detailed view
+//
+// Default implementations of Gpu timestamp functions:
+// Opengl:
+// in .c file where MICROPROFILE_IMPL is defined:
+// #define MICROPROFILE_GPU_TIMERS_GL
+// call MicroProfileGpuInitGL() on startup
+// D3D11:
+// in .c file where MICROPROFILE_IMPL is defined:
+// #define MICROPROFILE_GPU_TIMERS_D3D11
+// call MICROPROFILE_GPU_TIMERS_D3D11(). Pass Device & ImmediateContext
+//
+// Limitations:
+// GPU timestamps can only be inserted from one thread.
+
+
+
+#ifndef MICROPROFILE_ENABLED
+#define MICROPROFILE_ENABLED 1
+#endif
+
+#include <stdint.h>
+typedef uint64_t MicroProfileToken;
+typedef uint16_t MicroProfileGroupId;
+
+#if 0 == MICROPROFILE_ENABLED
+
+#define MICROPROFILE_DECLARE(var)
+#define MICROPROFILE_DEFINE(var, group, name, color)
+#define MICROPROFILE_REGISTER_GROUP(group, color, category)
+#define MICROPROFILE_DECLARE_GPU(var)
+#define MICROPROFILE_DEFINE_GPU(var, name, color)
+#define MICROPROFILE_SCOPE(var) do{}while(0)
+#define MICROPROFILE_SCOPEI(group, name, color) do{}while(0)
+#define MICROPROFILE_SCOPEGPU(var) do{}while(0)
+#define MICROPROFILE_SCOPEGPUI( name, color) do{}while(0)
+#define MICROPROFILE_META_CPU(name, count)
+#define MICROPROFILE_META_GPU(name, count)
+#define MICROPROFILE_FORCEENABLECPUGROUP(s) do{} while(0)
+#define MICROPROFILE_FORCEDISABLECPUGROUP(s) do{} while(0)
+#define MICROPROFILE_FORCEENABLEGPUGROUP(s) do{} while(0)
+#define MICROPROFILE_FORCEDISABLEGPUGROUP(s) do{} while(0)
+#define MICROPROFILE_SCOPE_TOKEN(token)
+
+#define MicroProfileGetTime(group, name) 0.f
+#define MicroProfileOnThreadCreate(foo) do{}while(0)
+#define MicroProfileFlip() do{}while(0)
+#define MicroProfileSetAggregateFrames(a) do{}while(0)
+#define MicroProfileGetAggregateFrames() 0
+#define MicroProfileGetCurrentAggregateFrames() 0
+#define MicroProfileTogglePause() do{}while(0)
+#define MicroProfileToggleAllGroups() do{} while(0)
+#define MicroProfileDumpTimers() do{}while(0)
+#define MicroProfileShutdown() do{}while(0)
+#define MicroProfileSetForceEnable(a) do{} while(0)
+#define MicroProfileGetForceEnable() false
+#define MicroProfileSetEnableAllGroups(a) do{} while(0)
+#define MicroProfileEnableCategory(a) do{} while(0)
+#define MicroProfileDisableCategory(a) do{} while(0)
+#define MicroProfileGetEnableAllGroups() false
+#define MicroProfileSetForceMetaCounters(a)
+#define MicroProfileGetForceMetaCounters() 0
+#define MicroProfileEnableMetaCounter(c) do{}while(0)
+#define MicroProfileDisableMetaCounter(c) do{}while(0)
+#define MicroProfileDumpFile(html,csv) do{} while(0)
+#define MicroProfileWebServerPort() ((uint32_t)-1)
+
+#else
+
+#include <stdint.h>
+#include <string.h>
+#include <thread>
+#include <mutex>
+#include <atomic>
+
+#ifndef MICROPROFILE_API
+#define MICROPROFILE_API
+#endif
+
+MICROPROFILE_API int64_t MicroProfileTicksPerSecondCpu();
+
+
+#if defined(__APPLE__)
+#include <mach/mach.h>
+#include <mach/mach_time.h>
+#include <unistd.h>
+#include <libkern/OSAtomic.h>
+#include <TargetConditionals.h>
+#if TARGET_OS_IPHONE
+#define MICROPROFILE_IOS
+#endif
+
+#define MP_TICK() mach_absolute_time()
+inline int64_t MicroProfileTicksPerSecondCpu()
+{
+ static int64_t nTicksPerSecond = 0;
+ if(nTicksPerSecond == 0)
+ {
+ mach_timebase_info_data_t sTimebaseInfo;
+ mach_timebase_info(&sTimebaseInfo);
+ nTicksPerSecond = 1000000000ll * sTimebaseInfo.denom / sTimebaseInfo.numer;
+ }
+ return nTicksPerSecond;
+}
+inline uint64_t MicroProfileGetCurrentThreadId()
+{
+ uint64_t tid;
+ pthread_threadid_np(pthread_self(), &tid);
+ return tid;
+}
+
+#define MP_BREAK() __builtin_trap()
+#define MP_THREAD_LOCAL __thread
+#define MP_STRCASECMP strcasecmp
+#define MP_GETCURRENTTHREADID() MicroProfileGetCurrentThreadId()
+typedef uint64_t ThreadIdType;
+#elif defined(_WIN32)
+int64_t MicroProfileGetTick();
+#define MP_TICK() MicroProfileGetTick()
+#define MP_BREAK() __debugbreak()
+#define MP_THREAD_LOCAL __declspec(thread)
+#define MP_STRCASECMP _stricmp
+#define MP_GETCURRENTTHREADID() GetCurrentThreadId()
+typedef uint32_t ThreadIdType;
+
+#elif defined(__linux__)
+#include <unistd.h>
+#include <time.h>
+inline int64_t MicroProfileTicksPerSecondCpu()
+{
+ return 1000000000ll;
+}
+
+inline int64_t MicroProfileGetTick()
+{
+ timespec ts;
+ clock_gettime(CLOCK_REALTIME, &ts);
+ return 1000000000ll * ts.tv_sec + ts.tv_nsec;
+}
+#define MP_TICK() MicroProfileGetTick()
+#define MP_BREAK() __builtin_trap()
+#define MP_THREAD_LOCAL __thread
+#define MP_STRCASECMP strcasecmp
+#define MP_GETCURRENTTHREADID() (uint64_t)pthread_self()
+typedef uint64_t ThreadIdType;
+#endif
+
+
+#ifndef MP_GETCURRENTTHREADID
+#define MP_GETCURRENTTHREADID() 0
+typedef uint32_t ThreadIdType;
+#endif
+
+
+#define MP_ASSERT(a) do{if(!(a)){MP_BREAK();} }while(0)
+#define MICROPROFILE_DECLARE(var) extern MicroProfileToken g_mp_##var
+#define MICROPROFILE_DEFINE(var, group, name, color) MicroProfileToken g_mp_##var = MicroProfileGetToken(group, name, color, MicroProfileTokenTypeCpu)
+#define MICROPROFILE_REGISTER_GROUP(group, category, color) MicroProfileRegisterGroup(group, category, color)
+#define MICROPROFILE_DECLARE_GPU(var) extern MicroProfileToken g_mp_##var
+#define MICROPROFILE_DEFINE_GPU(var, name, color) MicroProfileToken g_mp_##var = MicroProfileGetToken("GPU", name, color, MicroProfileTokenTypeGpu)
+#define MICROPROFILE_TOKEN_PASTE0(a, b) a ## b
+#define MICROPROFILE_TOKEN_PASTE(a, b) MICROPROFILE_TOKEN_PASTE0(a,b)
+#define MICROPROFILE_SCOPE(var) MicroProfileScopeHandler MICROPROFILE_TOKEN_PASTE(foo, __LINE__)(g_mp_##var)
+#define MICROPROFILE_SCOPE_TOKEN(token) MicroProfileScopeHandler MICROPROFILE_TOKEN_PASTE(foo, __LINE__)(token)
+#define MICROPROFILE_SCOPEI(group, name, color) static MicroProfileToken MICROPROFILE_TOKEN_PASTE(g_mp,__LINE__) = MicroProfileGetToken(group, name, color, MicroProfileTokenTypeCpu); MicroProfileScopeHandler MICROPROFILE_TOKEN_PASTE(foo,__LINE__)( MICROPROFILE_TOKEN_PASTE(g_mp,__LINE__))
+#define MICROPROFILE_SCOPEGPU(var) MicroProfileScopeGpuHandler MICROPROFILE_TOKEN_PASTE(foo, __LINE__)(g_mp_##var)
+#define MICROPROFILE_SCOPEGPUI(name, color) static MicroProfileToken MICROPROFILE_TOKEN_PASTE(g_mp,__LINE__) = MicroProfileGetToken("GPU", name, color, MicroProfileTokenTypeGpu); MicroProfileScopeGpuHandler MICROPROFILE_TOKEN_PASTE(foo,__LINE__)( MICROPROFILE_TOKEN_PASTE(g_mp,__LINE__))
+#define MICROPROFILE_META_CPU(name, count) static MicroProfileToken MICROPROFILE_TOKEN_PASTE(g_mp_meta,__LINE__) = MicroProfileGetMetaToken(name); MicroProfileMetaUpdate(MICROPROFILE_TOKEN_PASTE(g_mp_meta,__LINE__), count, MicroProfileTokenTypeCpu)
+#define MICROPROFILE_META_GPU(name, count) static MicroProfileToken MICROPROFILE_TOKEN_PASTE(g_mp_meta,__LINE__) = MicroProfileGetMetaToken(name); MicroProfileMetaUpdate(MICROPROFILE_TOKEN_PASTE(g_mp_meta,__LINE__), count, MicroProfileTokenTypeGpu)
+
+
+#ifndef MICROPROFILE_USE_THREAD_NAME_CALLBACK
+#define MICROPROFILE_USE_THREAD_NAME_CALLBACK 0
+#endif
+
+#ifndef MICROPROFILE_PER_THREAD_BUFFER_SIZE
+#define MICROPROFILE_PER_THREAD_BUFFER_SIZE (2048<<10)
+#endif
+
+#ifndef MICROPROFILE_MAX_FRAME_HISTORY
+#define MICROPROFILE_MAX_FRAME_HISTORY 512
+#endif
+
+#ifndef MICROPROFILE_PRINTF
+#define MICROPROFILE_PRINTF printf
+#endif
+
+#ifndef MICROPROFILE_META_MAX
+#define MICROPROFILE_META_MAX 8
+#endif
+
+#ifndef MICROPROFILE_WEBSERVER_PORT
+#define MICROPROFILE_WEBSERVER_PORT 1338
+#endif
+
+#ifndef MICROPROFILE_WEBSERVER
+#define MICROPROFILE_WEBSERVER 1
+#endif
+
+#ifndef MICROPROFILE_WEBSERVER_MAXFRAMES
+#define MICROPROFILE_WEBSERVER_MAXFRAMES 30
+#endif
+
+#ifndef MICROPROFILE_WEBSERVER_SOCKET_BUFFER_SIZE
+#define MICROPROFILE_WEBSERVER_SOCKET_BUFFER_SIZE (16<<10)
+#endif
+
+#ifndef MICROPROFILE_GPU_TIMERS
+#define MICROPROFILE_GPU_TIMERS 1
+#endif
+
+#ifndef MICROPROFILE_GPU_FRAME_DELAY
+#define MICROPROFILE_GPU_FRAME_DELAY 3 //must be > 0
+#endif
+
+
+#ifndef MICROPROFILE_NAME_MAX_LEN
+#define MICROPROFILE_NAME_MAX_LEN 64
+#endif
+
+#define MICROPROFILE_FORCEENABLECPUGROUP(s) MicroProfileForceEnableGroup(s, MicroProfileTokenTypeCpu)
+#define MICROPROFILE_FORCEDISABLECPUGROUP(s) MicroProfileForceDisableGroup(s, MicroProfileTokenTypeCpu)
+#define MICROPROFILE_FORCEENABLEGPUGROUP(s) MicroProfileForceEnableGroup(s, MicroProfileTokenTypeGpu)
+#define MICROPROFILE_FORCEDISABLEGPUGROUP(s) MicroProfileForceDisableGroup(s, MicroProfileTokenTypeGpu)
+
+#define MICROPROFILE_INVALID_TICK ((uint64_t)-1)
+#define MICROPROFILE_GROUP_MASK_ALL 0xffffffffffff
+
+
+#define MICROPROFILE_INVALID_TOKEN (uint64_t)-1
+
+enum MicroProfileTokenType
+{
+ MicroProfileTokenTypeCpu,
+ MicroProfileTokenTypeGpu,
+};
+
+enum MicroProfileBoxType
+{
+ MicroProfileBoxTypeBar,
+ MicroProfileBoxTypeFlat,
+};
+
+
+
+struct MicroProfile;
+
+MICROPROFILE_API void MicroProfileInit();
+MICROPROFILE_API void MicroProfileShutdown();
+MICROPROFILE_API MicroProfileToken MicroProfileFindToken(const char* sGroup, const char* sName);
+MICROPROFILE_API MicroProfileToken MicroProfileGetToken(const char* sGroup, const char* sName, uint32_t nColor, MicroProfileTokenType Token = MicroProfileTokenTypeCpu);
+MICROPROFILE_API MicroProfileToken MicroProfileGetMetaToken(const char* pName);
+MICROPROFILE_API void MicroProfileMetaUpdate(MicroProfileToken, int nCount, MicroProfileTokenType eTokenType);
+MICROPROFILE_API uint64_t MicroProfileEnter(MicroProfileToken nToken);
+MICROPROFILE_API void MicroProfileLeave(MicroProfileToken nToken, uint64_t nTick);
+MICROPROFILE_API uint64_t MicroProfileGpuEnter(MicroProfileToken nToken);
+MICROPROFILE_API void MicroProfileGpuLeave(MicroProfileToken nToken, uint64_t nTick);
+inline uint16_t MicroProfileGetTimerIndex(MicroProfileToken t){ return (t&0xffff); }
+inline uint64_t MicroProfileGetGroupMask(MicroProfileToken t){ return ((t>>16)&MICROPROFILE_GROUP_MASK_ALL);}
+inline MicroProfileToken MicroProfileMakeToken(uint64_t nGroupMask, uint16_t nTimer){ return (nGroupMask<<16) | nTimer;}
+
+MICROPROFILE_API void MicroProfileFlip(); //! call once per frame.
+MICROPROFILE_API void MicroProfileTogglePause();
+MICROPROFILE_API void MicroProfileForceEnableGroup(const char* pGroup, MicroProfileTokenType Type);
+MICROPROFILE_API void MicroProfileForceDisableGroup(const char* pGroup, MicroProfileTokenType Type);
+MICROPROFILE_API float MicroProfileGetTime(const char* pGroup, const char* pName);
+MICROPROFILE_API void MicroProfileContextSwitchSearch(uint32_t* pContextSwitchStart, uint32_t* pContextSwitchEnd, uint64_t nBaseTicksCpu, uint64_t nBaseTicksEndCpu);
+MICROPROFILE_API void MicroProfileOnThreadCreate(const char* pThreadName); //should be called from newly created threads
+MICROPROFILE_API void MicroProfileOnThreadExit(); //call on exit to reuse log
+MICROPROFILE_API void MicroProfileInitThreadLog();
+MICROPROFILE_API void MicroProfileSetForceEnable(bool bForceEnable);
+MICROPROFILE_API bool MicroProfileGetForceEnable();
+MICROPROFILE_API void MicroProfileSetEnableAllGroups(bool bEnable);
+MICROPROFILE_API void MicroProfileEnableCategory(const char* pCategory);
+MICROPROFILE_API void MicroProfileDisableCategory(const char* pCategory);
+MICROPROFILE_API bool MicroProfileGetEnableAllGroups();
+MICROPROFILE_API void MicroProfileSetForceMetaCounters(bool bEnable);
+MICROPROFILE_API bool MicroProfileGetForceMetaCounters();
+MICROPROFILE_API void MicroProfileEnableMetaCounter(const char* pMet);
+MICROPROFILE_API void MicroProfileDisableMetaCounter(const char* pMet);
+MICROPROFILE_API void MicroProfileSetAggregateFrames(int frames);
+MICROPROFILE_API int MicroProfileGetAggregateFrames();
+MICROPROFILE_API int MicroProfileGetCurrentAggregateFrames();
+MICROPROFILE_API MicroProfile* MicroProfileGet();
+MICROPROFILE_API void MicroProfileGetRange(uint32_t nPut, uint32_t nGet, uint32_t nRange[2][2]);
+MICROPROFILE_API std::recursive_mutex& MicroProfileGetMutex();
+MICROPROFILE_API void MicroProfileStartContextSwitchTrace();
+MICROPROFILE_API void MicroProfileStopContextSwitchTrace();
+MICROPROFILE_API bool MicroProfileIsLocalThread(uint32_t nThreadId);
+
+
+#if MICROPROFILE_WEBSERVER
+MICROPROFILE_API void MicroProfileDumpFile(const char* pHtml, const char* pCsv);
+MICROPROFILE_API uint32_t MicroProfileWebServerPort();
+#else
+#define MicroProfileDumpFile(c) do{} while(0)
+#define MicroProfileWebServerPort() ((uint32_t)-1)
+#endif
+
+
+
+
+#if MICROPROFILE_GPU_TIMERS
+MICROPROFILE_API uint32_t MicroProfileGpuInsertTimeStamp();
+MICROPROFILE_API uint64_t MicroProfileGpuGetTimeStamp(uint32_t nKey);
+MICROPROFILE_API uint64_t MicroProfileTicksPerSecondGpu();
+MICROPROFILE_API int MicroProfileGetGpuTickReference(int64_t* pOutCPU, int64_t* pOutGpu);
+#else
+#define MicroProfileGpuInsertTimeStamp() 1
+#define MicroProfileGpuGetTimeStamp(a) 0
+#define MicroProfileTicksPerSecondGpu() 1
+#define MicroProfileGetGpuTickReference(a,b) 0
+#endif
+
+#if MICROPROFILE_GPU_TIMERS_D3D11
+#define MICROPROFILE_D3D_MAX_QUERIES (8<<10)
+MICROPROFILE_API void MicroProfileGpuInitD3D11(void* pDevice, void* pDeviceContext);
+#endif
+
+#if MICROPROFILE_GPU_TIMERS_GL
+#define MICROPROFILE_GL_MAX_QUERIES (8<<10)
+MICROPROFILE_API void MicroProfileGpuInitGL();
+#endif
+
+
+
+#if MICROPROFILE_USE_THREAD_NAME_CALLBACK
+MICROPROFILE_API const char* MicroProfileGetThreadName();
+#else
+#define MicroProfileGetThreadName() "<implement MicroProfileGetThreadName to get threadnames>"
+#endif
+
+#if !defined(MICROPROFILE_THREAD_NAME_FROM_ID)
+#define MICROPROFILE_THREAD_NAME_FROM_ID(a) ""
+#endif
+
+
+struct MicroProfileScopeHandler
+{
+ MicroProfileToken nToken;
+ uint64_t nTick;
+ MicroProfileScopeHandler(MicroProfileToken Token):nToken(Token)
+ {
+ nTick = MicroProfileEnter(nToken);
+ }
+ ~MicroProfileScopeHandler()
+ {
+ MicroProfileLeave(nToken, nTick);
+ }
+};
+
+struct MicroProfileScopeGpuHandler
+{
+ MicroProfileToken nToken;
+ uint64_t nTick;
+ MicroProfileScopeGpuHandler(MicroProfileToken Token):nToken(Token)
+ {
+ nTick = MicroProfileGpuEnter(nToken);
+ }
+ ~MicroProfileScopeGpuHandler()
+ {
+ MicroProfileGpuLeave(nToken, nTick);
+ }
+};
+
+
+
+#define MICROPROFILE_MAX_TIMERS 1024
+#define MICROPROFILE_MAX_GROUPS 48 //dont bump! no. of bits used it bitmask
+#define MICROPROFILE_MAX_CATEGORIES 16
+#define MICROPROFILE_MAX_GRAPHS 5
+#define MICROPROFILE_GRAPH_HISTORY 128
+#define MICROPROFILE_BUFFER_SIZE ((MICROPROFILE_PER_THREAD_BUFFER_SIZE)/sizeof(MicroProfileLogEntry))
+#define MICROPROFILE_MAX_CONTEXT_SWITCH_THREADS 256
+#define MICROPROFILE_STACK_MAX 32
+//#define MICROPROFILE_MAX_PRESETS 5
+#define MICROPROFILE_ANIM_DELAY_PRC 0.5f
+#define MICROPROFILE_GAP_TIME 50 //extra ms to fetch to close timers from earlier frames
+
+
+#ifndef MICROPROFILE_MAX_THREADS
+#define MICROPROFILE_MAX_THREADS 32
+#endif
+
+#ifndef MICROPROFILE_UNPACK_RED
+#define MICROPROFILE_UNPACK_RED(c) ((c)>>16)
+#endif
+
+#ifndef MICROPROFILE_UNPACK_GREEN
+#define MICROPROFILE_UNPACK_GREEN(c) ((c)>>8)
+#endif
+
+#ifndef MICROPROFILE_UNPACK_BLUE
+#define MICROPROFILE_UNPACK_BLUE(c) ((c))
+#endif
+
+#ifndef MICROPROFILE_DEFAULT_PRESET
+#define MICROPROFILE_DEFAULT_PRESET "Default"
+#endif
+
+
+#ifndef MICROPROFILE_CONTEXT_SWITCH_TRACE
+#if defined(_WIN32)
+#define MICROPROFILE_CONTEXT_SWITCH_TRACE 1
+#elif defined(__APPLE__)
+#define MICROPROFILE_CONTEXT_SWITCH_TRACE 0 //disabled until dtrace script is working.
+#else
+#define MICROPROFILE_CONTEXT_SWITCH_TRACE 0
+#endif
+#endif
+
+#if MICROPROFILE_CONTEXT_SWITCH_TRACE
+#define MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE (128*1024) //2mb with 16 byte entry size
+#else
+#define MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE (1)
+#endif
+
+#ifndef MICROPROFILE_MINIZ
+#define MICROPROFILE_MINIZ 0
+#endif
+
+#ifdef _WIN32
+#include <basetsd.h>
+typedef UINT_PTR MpSocket;
+#else
+typedef int MpSocket;
+#endif
+
+
+#if defined(__APPLE__) || defined(__linux__)
+typedef pthread_t MicroProfileThread;
+#elif defined(_WIN32)
+typedef HANDLE MicroProfileThread;
+#else
+typedef std::thread* MicroProfileThread;
+#endif
+
+
+
+enum MicroProfileDrawMask
+{
+ MP_DRAW_OFF = 0x0,
+ MP_DRAW_BARS = 0x1,
+ MP_DRAW_DETAILED = 0x2,
+ MP_DRAW_HIDDEN = 0x3,
+};
+
+enum MicroProfileDrawBarsMask
+{
+ MP_DRAW_TIMERS = 0x1,
+ MP_DRAW_AVERAGE = 0x2,
+ MP_DRAW_MAX = 0x4,
+ MP_DRAW_CALL_COUNT = 0x8,
+ MP_DRAW_TIMERS_EXCLUSIVE = 0x10,
+ MP_DRAW_AVERAGE_EXCLUSIVE = 0x20,
+ MP_DRAW_MAX_EXCLUSIVE = 0x40,
+ MP_DRAW_META_FIRST = 0x80,
+ MP_DRAW_ALL = 0xffffffff,
+
+};
+
+typedef uint64_t MicroProfileLogEntry;
+
+struct MicroProfileTimer
+{
+ uint64_t nTicks;
+ uint32_t nCount;
+};
+
+struct MicroProfileCategory
+{
+ char pName[MICROPROFILE_NAME_MAX_LEN];
+ uint64_t nGroupMask;
+};
+
+struct MicroProfileGroupInfo
+{
+ char pName[MICROPROFILE_NAME_MAX_LEN];
+ uint32_t nNameLen;
+ uint32_t nGroupIndex;
+ uint32_t nNumTimers;
+ uint32_t nMaxTimerNameLen;
+ uint32_t nColor;
+ uint32_t nCategory;
+ MicroProfileTokenType Type;
+};
+
+struct MicroProfileTimerInfo
+{
+ MicroProfileToken nToken;
+ uint32_t nTimerIndex;
+ uint32_t nGroupIndex;
+ char pName[MICROPROFILE_NAME_MAX_LEN];
+ uint32_t nNameLen;
+ uint32_t nColor;
+ bool bGraph;
+};
+
+struct MicroProfileGraphState
+{
+ int64_t nHistory[MICROPROFILE_GRAPH_HISTORY];
+ MicroProfileToken nToken;
+ int32_t nKey;
+};
+
+struct MicroProfileContextSwitch
+{
+ ThreadIdType nThreadOut;
+ ThreadIdType nThreadIn;
+ int64_t nCpu : 8;
+ int64_t nTicks : 56;
+};
+
+
+struct MicroProfileFrameState
+{
+ int64_t nFrameStartCpu;
+ int64_t nFrameStartGpu;
+ uint32_t nLogStart[MICROPROFILE_MAX_THREADS];
+};
+
+struct MicroProfileThreadLog
+{
+ MicroProfileLogEntry Log[MICROPROFILE_BUFFER_SIZE];
+
+ std::atomic<uint32_t> nPut;
+ std::atomic<uint32_t> nGet;
+ uint32_t nActive;
+ uint32_t nGpu;
+ ThreadIdType nThreadId;
+
+ uint32_t nStack[MICROPROFILE_STACK_MAX];
+ int64_t nChildTickStack[MICROPROFILE_STACK_MAX];
+ uint32_t nStackPos;
+
+
+ uint8_t nGroupStackPos[MICROPROFILE_MAX_GROUPS];
+ int64_t nGroupTicks[MICROPROFILE_MAX_GROUPS];
+ int64_t nAggregateGroupTicks[MICROPROFILE_MAX_GROUPS];
+ enum
+ {
+ THREAD_MAX_LEN = 64,
+ };
+ char ThreadName[64];
+ int nFreeListNext;
+};
+
+#if MICROPROFILE_GPU_TIMERS_D3D11
+struct MicroProfileD3D11Frame
+{
+ uint32_t m_nQueryStart;
+ uint32_t m_nQueryCount;
+ uint32_t m_nRateQueryStarted;
+ void* m_pRateQuery;
+};
+
+struct MicroProfileGpuTimerState
+{
+ uint32_t bInitialized;
+ void* m_pDevice;
+ void* m_pDeviceContext;
+ void* m_pQueries[MICROPROFILE_D3D_MAX_QUERIES];
+ int64_t m_nQueryResults[MICROPROFILE_D3D_MAX_QUERIES];
+ uint32_t m_nQueryPut;
+ uint32_t m_nQueryGet;
+ uint32_t m_nQueryFrame;
+ int64_t m_nQueryFrequency;
+ MicroProfileD3D11Frame m_QueryFrames[MICROPROFILE_GPU_FRAME_DELAY];
+};
+#elif MICROPROFILE_GPU_TIMERS_GL
+struct MicroProfileGpuTimerState
+{
+ uint32_t GLTimers[MICROPROFILE_GL_MAX_QUERIES];
+ uint32_t GLTimerPos;
+};
+#else
+struct MicroProfileGpuTimerState{};
+#endif
+
+struct MicroProfile
+{
+ uint32_t nTotalTimers;
+ uint32_t nGroupCount;
+ uint32_t nCategoryCount;
+ uint32_t nAggregateClear;
+ uint32_t nAggregateFlip;
+ uint32_t nAggregateFlipCount;
+ uint32_t nAggregateFrames;
+
+ uint64_t nAggregateFlipTick;
+
+ uint32_t nDisplay;
+ uint32_t nBars;
+ uint64_t nActiveGroup;
+ uint32_t nActiveBars;
+
+ uint64_t nForceGroup;
+ uint32_t nForceEnable;
+ uint32_t nForceMetaCounters;
+
+ uint64_t nForceGroupUI;
+ uint64_t nActiveGroupWanted;
+ uint32_t nAllGroupsWanted;
+ uint32_t nAllThreadsWanted;
+
+ uint32_t nOverflow;
+
+ uint64_t nGroupMask;
+ uint32_t nRunning;
+ uint32_t nToggleRunning;
+ uint32_t nMaxGroupSize;
+ uint32_t nDumpFileNextFrame;
+ uint32_t nAutoClearFrames;
+ char HtmlDumpPath[512];
+ char CsvDumpPath[512];
+
+ int64_t nPauseTicks;
+
+ float fReferenceTime;
+ float fRcpReferenceTime;
+
+ MicroProfileCategory CategoryInfo[MICROPROFILE_MAX_CATEGORIES];
+ MicroProfileGroupInfo GroupInfo[MICROPROFILE_MAX_GROUPS];
+ MicroProfileTimerInfo TimerInfo[MICROPROFILE_MAX_TIMERS];
+ uint8_t TimerToGroup[MICROPROFILE_MAX_TIMERS];
+
+ MicroProfileTimer AccumTimers[MICROPROFILE_MAX_TIMERS];
+ uint64_t AccumMaxTimers[MICROPROFILE_MAX_TIMERS];
+ uint64_t AccumTimersExclusive[MICROPROFILE_MAX_TIMERS];
+ uint64_t AccumMaxTimersExclusive[MICROPROFILE_MAX_TIMERS];
+
+ MicroProfileTimer Frame[MICROPROFILE_MAX_TIMERS];
+ uint64_t FrameExclusive[MICROPROFILE_MAX_TIMERS];
+
+ MicroProfileTimer Aggregate[MICROPROFILE_MAX_TIMERS];
+ uint64_t AggregateMax[MICROPROFILE_MAX_TIMERS];
+ uint64_t AggregateExclusive[MICROPROFILE_MAX_TIMERS];
+ uint64_t AggregateMaxExclusive[MICROPROFILE_MAX_TIMERS];
+
+
+ uint64_t FrameGroup[MICROPROFILE_MAX_GROUPS];
+ uint64_t AccumGroup[MICROPROFILE_MAX_GROUPS];
+ uint64_t AccumGroupMax[MICROPROFILE_MAX_GROUPS];
+
+ uint64_t AggregateGroup[MICROPROFILE_MAX_GROUPS];
+ uint64_t AggregateGroupMax[MICROPROFILE_MAX_GROUPS];
+
+
+ struct
+ {
+ uint64_t nCounters[MICROPROFILE_MAX_TIMERS];
+
+ uint64_t nAccum[MICROPROFILE_MAX_TIMERS];
+ uint64_t nAccumMax[MICROPROFILE_MAX_TIMERS];
+
+ uint64_t nAggregate[MICROPROFILE_MAX_TIMERS];
+ uint64_t nAggregateMax[MICROPROFILE_MAX_TIMERS];
+
+ uint64_t nSum;
+ uint64_t nSumAccum;
+ uint64_t nSumAccumMax;
+ uint64_t nSumAggregate;
+ uint64_t nSumAggregateMax;
+
+ const char* pName;
+ } MetaCounters[MICROPROFILE_META_MAX];
+
+ MicroProfileGraphState Graph[MICROPROFILE_MAX_GRAPHS];
+ uint32_t nGraphPut;
+
+ uint32_t nThreadActive[MICROPROFILE_MAX_THREADS];
+ MicroProfileThreadLog* Pool[MICROPROFILE_MAX_THREADS];
+ uint32_t nNumLogs;
+ uint32_t nMemUsage;
+ int nFreeListHead;
+
+ uint32_t nFrameCurrent;
+ uint32_t nFrameCurrentIndex;
+ uint32_t nFramePut;
+ uint64_t nFramePutIndex;
+
+ MicroProfileFrameState Frames[MICROPROFILE_MAX_FRAME_HISTORY];
+
+ uint64_t nFlipTicks;
+ uint64_t nFlipAggregate;
+ uint64_t nFlipMax;
+ uint64_t nFlipAggregateDisplay;
+ uint64_t nFlipMaxDisplay;
+
+ MicroProfileThread ContextSwitchThread;
+ bool bContextSwitchRunning;
+ bool bContextSwitchStop;
+ bool bContextSwitchAllThreads;
+ bool bContextSwitchNoBars;
+ uint32_t nContextSwitchUsage;
+ uint32_t nContextSwitchLastPut;
+
+ int64_t nContextSwitchHoverTickIn;
+ int64_t nContextSwitchHoverTickOut;
+ uint32_t nContextSwitchHoverThread;
+ uint32_t nContextSwitchHoverThreadBefore;
+ uint32_t nContextSwitchHoverThreadAfter;
+ uint8_t nContextSwitchHoverCpu;
+ uint8_t nContextSwitchHoverCpuNext;
+
+ uint32_t nContextSwitchPut;
+ MicroProfileContextSwitch ContextSwitch[MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE];
+
+
+ MpSocket ListenerSocket;
+ uint32_t nWebServerPort;
+
+ char WebServerBuffer[MICROPROFILE_WEBSERVER_SOCKET_BUFFER_SIZE];
+ uint32_t WebServerPut;
+
+ uint64_t nWebServerDataSent;
+
+ MicroProfileGpuTimerState GPU;
+
+
+};
+
+#define MP_LOG_TICK_MASK 0x0000ffffffffffff
+#define MP_LOG_INDEX_MASK 0x3fff000000000000
+#define MP_LOG_BEGIN_MASK 0xc000000000000000
+#define MP_LOG_GPU_EXTRA 0x3
+#define MP_LOG_META 0x2
+#define MP_LOG_ENTER 0x1
+#define MP_LOG_LEAVE 0x0
+
+
+inline int MicroProfileLogType(MicroProfileLogEntry Index)
+{
+ return ((MP_LOG_BEGIN_MASK & Index)>>62) & 0x3;
+}
+
+inline uint64_t MicroProfileLogTimerIndex(MicroProfileLogEntry Index)
+{
+ return (0x3fff&(Index>>48));
+}
+
+inline MicroProfileLogEntry MicroProfileMakeLogIndex(uint64_t nBegin, MicroProfileToken nToken, int64_t nTick)
+{
+ MicroProfileLogEntry Entry = (nBegin<<62) | ((0x3fff&nToken)<<48) | (MP_LOG_TICK_MASK&nTick);
+ int t = MicroProfileLogType(Entry);
+ uint64_t nTimerIndex = MicroProfileLogTimerIndex(Entry);
+ MP_ASSERT(t == nBegin);
+ MP_ASSERT(nTimerIndex == (nToken&0x3fff));
+ return Entry;
+
+}
+
+inline int64_t MicroProfileLogTickDifference(MicroProfileLogEntry Start, MicroProfileLogEntry End)
+{
+ uint64_t nStart = Start;
+ uint64_t nEnd = End;
+ int64_t nDifference = ((nEnd<<16) - (nStart<<16));
+ return nDifference >> 16;
+}
+
+inline int64_t MicroProfileLogGetTick(MicroProfileLogEntry e)
+{
+ return MP_LOG_TICK_MASK & e;
+}
+
+inline int64_t MicroProfileLogSetTick(MicroProfileLogEntry e, int64_t nTick)
+{
+ return (MP_LOG_TICK_MASK & nTick) | (e & ~MP_LOG_TICK_MASK);
+}
+
+template<typename T>
+T MicroProfileMin(T a, T b)
+{ return a < b ? a : b; }
+
+template<typename T>
+T MicroProfileMax(T a, T b)
+{ return a > b ? a : b; }
+
+inline int64_t MicroProfileMsToTick(float fMs, int64_t nTicksPerSecond)
+{
+ return (int64_t)(fMs*0.001f*nTicksPerSecond);
+}
+
+inline float MicroProfileTickToMsMultiplier(int64_t nTicksPerSecond)
+{
+ return 1000.f / nTicksPerSecond;
+}
+
+inline uint16_t MicroProfileGetGroupIndex(MicroProfileToken t)
+{
+ return (uint16_t)MicroProfileGet()->TimerToGroup[MicroProfileGetTimerIndex(t)];
+}
+
+
+
+#ifdef MICROPROFILE_IMPL
+
+#ifdef _WIN32
+#include <windows.h>
+#define snprintf _snprintf
+
+#pragma warning(push)
+#pragma warning(disable: 4244)
+int64_t MicroProfileTicksPerSecondCpu()
+{
+ static int64_t nTicksPerSecond = 0;
+ if(nTicksPerSecond == 0)
+ {
+ QueryPerformanceFrequency((LARGE_INTEGER*)&nTicksPerSecond);
+ }
+ return nTicksPerSecond;
+}
+int64_t MicroProfileGetTick()
+{
+ int64_t ticks;
+ QueryPerformanceCounter((LARGE_INTEGER*)&ticks);
+ return ticks;
+}
+
+#endif
+
+#if defined(MICROPROFILE_WEBSERVER) || defined(MICROPROFILE_CONTEXT_SWITCH_TRACE)
+
+
+typedef void* (*MicroProfileThreadFunc)(void*);
+
+#if defined(__APPLE__) || defined(__linux__)
+typedef pthread_t MicroProfileThread;
+void MicroProfileThreadStart(MicroProfileThread* pThread, MicroProfileThreadFunc Func)
+{
+ pthread_attr_t Attr;
+ int r = pthread_attr_init(&Attr);
+ MP_ASSERT(r == 0);
+ pthread_create(pThread, &Attr, Func, 0);
+}
+void MicroProfileThreadJoin(MicroProfileThread* pThread)
+{
+ int r = pthread_join(*pThread, 0);
+ MP_ASSERT(r == 0);
+}
+#elif defined(_WIN32)
+typedef HANDLE MicroProfileThread;
+DWORD _stdcall ThreadTrampoline(void* pFunc)
+{
+ MicroProfileThreadFunc F = (MicroProfileThreadFunc)pFunc;
+ return (uint32_t)F(0);
+}
+
+void MicroProfileThreadStart(MicroProfileThread* pThread, MicroProfileThreadFunc Func)
+{
+ *pThread = CreateThread(0, 0, ThreadTrampoline, Func, 0, 0);
+}
+void MicroProfileThreadJoin(MicroProfileThread* pThread)
+{
+ WaitForSingleObject(*pThread, INFINITE);
+ CloseHandle(*pThread);
+}
+#else
+#include <thread>
+typedef std::thread* MicroProfileThread;
+inline void MicroProfileThreadStart(MicroProfileThread* pThread, MicroProfileThreadFunc Func)
+{
+ *pThread = new std::thread(Func, nullptr);
+}
+inline void MicroProfileThreadJoin(MicroProfileThread* pThread)
+{
+ (*pThread)->join();
+ delete *pThread;
+}
+#endif
+#endif
+
+#if MICROPROFILE_WEBSERVER
+
+#ifdef _WIN32
+#define MP_INVALID_SOCKET(f) (f == INVALID_SOCKET)
+#endif
+
+#if defined(__APPLE__)
+#include <sys/socket.h>
+#include <netinet/in.h>
+#include <fcntl.h>
+#define MP_INVALID_SOCKET(f) (f < 0)
+#endif
+
+
+void MicroProfileWebServerStart();
+void MicroProfileWebServerStop();
+bool MicroProfileWebServerUpdate();
+void MicroProfileDumpToFile();
+
+#else
+
+#define MicroProfileWebServerStart() do{}while(0)
+#define MicroProfileWebServerStop() do{}while(0)
+#define MicroProfileWebServerUpdate() false
+#define MicroProfileDumpToFile() do{} while(0)
+#endif
+
+
+#if MICROPROFILE_GPU_TIMERS_D3D11
+void MicroProfileGpuFlip();
+void MicroProfileGpuShutdown();
+#else
+#define MicroProfileGpuFlip() do{}while(0)
+#define MicroProfileGpuShutdown() do{}while(0)
+#endif
+
+
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+#include <algorithm>
+
+
+#ifndef MICROPROFILE_DEBUG
+#define MICROPROFILE_DEBUG 0
+#endif
+
+
+#define S g_MicroProfile
+
+MicroProfile g_MicroProfile;
+MicroProfileThreadLog* g_MicroProfileGpuLog = 0;
+#ifdef MICROPROFILE_IOS
+// iOS doesn't support __thread
+static pthread_key_t g_MicroProfileThreadLogKey;
+static pthread_once_t g_MicroProfileThreadLogKeyOnce = PTHREAD_ONCE_INIT;
+static void MicroProfileCreateThreadLogKey()
+{
+ pthread_key_create(&g_MicroProfileThreadLogKey, NULL);
+}
+#else
+MP_THREAD_LOCAL MicroProfileThreadLog* g_MicroProfileThreadLog = 0;
+#endif
+static bool g_bUseLock = false; /// This is used because windows does not support using mutexes under dll init(which is where global initialization is handled)
+
+
+MICROPROFILE_DEFINE(g_MicroProfileFlip, "MicroProfile", "MicroProfileFlip", 0x3355ee);
+MICROPROFILE_DEFINE(g_MicroProfileThreadLoop, "MicroProfile", "ThreadLoop", 0x3355ee);
+MICROPROFILE_DEFINE(g_MicroProfileClear, "MicroProfile", "Clear", 0x3355ee);
+MICROPROFILE_DEFINE(g_MicroProfileAccumulate, "MicroProfile", "Accumulate", 0x3355ee);
+MICROPROFILE_DEFINE(g_MicroProfileContextSwitchSearch,"MicroProfile", "ContextSwitchSearch", 0xDD7300);
+
+inline std::recursive_mutex& MicroProfileMutex()
+{
+ static std::recursive_mutex Mutex;
+ return Mutex;
+}
+std::recursive_mutex& MicroProfileGetMutex()
+{
+ return MicroProfileMutex();
+}
+
+MICROPROFILE_API MicroProfile* MicroProfileGet()
+{
+ return &g_MicroProfile;
+}
+
+
+MicroProfileThreadLog* MicroProfileCreateThreadLog(const char* pName);
+
+
+void MicroProfileInit()
+{
+ std::recursive_mutex& mutex = MicroProfileMutex();
+ bool bUseLock = g_bUseLock;
+ if(bUseLock)
+ mutex.lock();
+ static bool bOnce = true;
+ if(bOnce)
+ {
+ S.nMemUsage += sizeof(S);
+ bOnce = false;
+ memset(&S, 0, sizeof(S));
+ for(int i = 0; i < MICROPROFILE_MAX_GROUPS; ++i)
+ {
+ S.GroupInfo[i].pName[0] = '\0';
+ }
+ for(int i = 0; i < MICROPROFILE_MAX_CATEGORIES; ++i)
+ {
+ S.CategoryInfo[i].pName[0] = '\0';
+ S.CategoryInfo[i].nGroupMask = 0;
+ }
+ strcpy(&S.CategoryInfo[0].pName[0], "default");
+ S.nCategoryCount = 1;
+ for(int i = 0; i < MICROPROFILE_MAX_TIMERS; ++i)
+ {
+ S.TimerInfo[i].pName[0] = '\0';
+ }
+ S.nGroupCount = 0;
+ S.nAggregateFlipTick = MP_TICK();
+ S.nActiveGroup = 0;
+ S.nActiveBars = 0;
+ S.nForceGroup = 0;
+ S.nAllGroupsWanted = 0;
+ S.nActiveGroupWanted = 0;
+ S.nAllThreadsWanted = 1;
+ S.nAggregateFlip = 0;
+ S.nTotalTimers = 0;
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_GRAPHS; ++i)
+ {
+ S.Graph[i].nToken = MICROPROFILE_INVALID_TOKEN;
+ }
+ S.nRunning = 1;
+ S.fReferenceTime = 33.33f;
+ S.fRcpReferenceTime = 1.f / S.fReferenceTime;
+ S.nFreeListHead = -1;
+ int64_t nTick = MP_TICK();
+ for(int i = 0; i < MICROPROFILE_MAX_FRAME_HISTORY; ++i)
+ {
+ S.Frames[i].nFrameStartCpu = nTick;
+ S.Frames[i].nFrameStartGpu = -1;
+ }
+
+ MicroProfileThreadLog* pGpu = MicroProfileCreateThreadLog("GPU");
+ g_MicroProfileGpuLog = pGpu;
+ MP_ASSERT(S.Pool[0] == pGpu);
+ pGpu->nGpu = 1;
+ pGpu->nThreadId = 0;
+
+ S.nWebServerDataSent = (uint64_t)-1;
+ }
+ if(bUseLock)
+ mutex.unlock();
+}
+
+void MicroProfileShutdown()
+{
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ MicroProfileWebServerStop();
+ MicroProfileStopContextSwitchTrace();
+ MicroProfileGpuShutdown();
+}
+
+#ifdef MICROPROFILE_IOS
+inline MicroProfileThreadLog* MicroProfileGetThreadLog()
+{
+ pthread_once(&g_MicroProfileThreadLogKeyOnce, MicroProfileCreateThreadLogKey);
+ return (MicroProfileThreadLog*)pthread_getspecific(g_MicroProfileThreadLogKey);
+}
+
+inline void MicroProfileSetThreadLog(MicroProfileThreadLog* pLog)
+{
+ pthread_once(&g_MicroProfileThreadLogKeyOnce, MicroProfileCreateThreadLogKey);
+ pthread_setspecific(g_MicroProfileThreadLogKey, pLog);
+}
+#else
+MicroProfileThreadLog* MicroProfileGetThreadLog()
+{
+ return g_MicroProfileThreadLog;
+}
+inline void MicroProfileSetThreadLog(MicroProfileThreadLog* pLog)
+{
+ g_MicroProfileThreadLog = pLog;
+}
+#endif
+
+
+MicroProfileThreadLog* MicroProfileCreateThreadLog(const char* pName)
+{
+ MicroProfileThreadLog* pLog = 0;
+ if(S.nFreeListHead != -1)
+ {
+ pLog = S.Pool[S.nFreeListHead];
+ MP_ASSERT(pLog->nPut.load() == 0);
+ MP_ASSERT(pLog->nGet.load() == 0);
+ S.nFreeListHead = S.Pool[S.nFreeListHead]->nFreeListNext;
+ }
+ else
+ {
+ pLog = new MicroProfileThreadLog;
+ S.nMemUsage += sizeof(MicroProfileThreadLog);
+ S.Pool[S.nNumLogs++] = pLog;
+ }
+ memset(pLog, 0, sizeof(*pLog));
+ int len = (int)strlen(pName);
+ int maxlen = sizeof(pLog->ThreadName)-1;
+ len = len < maxlen ? len : maxlen;
+ memcpy(&pLog->ThreadName[0], pName, len);
+ pLog->ThreadName[len] = '\0';
+ pLog->nThreadId = MP_GETCURRENTTHREADID();
+ pLog->nFreeListNext = -1;
+ pLog->nActive = 1;
+ return pLog;
+}
+
+void MicroProfileOnThreadCreate(const char* pThreadName)
+{
+ g_bUseLock = true;
+ MicroProfileInit();
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ MP_ASSERT(MicroProfileGetThreadLog() == 0);
+ MicroProfileThreadLog* pLog = MicroProfileCreateThreadLog(pThreadName ? pThreadName : MicroProfileGetThreadName());
+ MP_ASSERT(pLog);
+ MicroProfileSetThreadLog(pLog);
+}
+
+void MicroProfileOnThreadExit()
+{
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ MicroProfileThreadLog* pLog = MicroProfileGetThreadLog();
+ if(pLog)
+ {
+ int32_t nLogIndex = -1;
+ for(int i = 0; i < MICROPROFILE_MAX_THREADS; ++i)
+ {
+ if(pLog == S.Pool[i])
+ {
+ nLogIndex = i;
+ break;
+ }
+ }
+ MP_ASSERT(nLogIndex < MICROPROFILE_MAX_THREADS && nLogIndex > 0);
+ pLog->nFreeListNext = S.nFreeListHead;
+ pLog->nActive = 0;
+ pLog->nPut.store(0);
+ pLog->nGet.store(0);
+ S.nFreeListHead = nLogIndex;
+ for(int i = 0; i < MICROPROFILE_MAX_FRAME_HISTORY; ++i)
+ {
+ S.Frames[i].nLogStart[nLogIndex] = 0;
+ }
+ memset(pLog->nGroupStackPos, 0, sizeof(pLog->nGroupStackPos));
+ memset(pLog->nGroupTicks, 0, sizeof(pLog->nGroupTicks));
+ }
+}
+
+void MicroProfileInitThreadLog()
+{
+ MicroProfileOnThreadCreate(nullptr);
+}
+
+
+struct MicroProfileScopeLock
+{
+ bool bUseLock;
+ std::recursive_mutex& m;
+ MicroProfileScopeLock(std::recursive_mutex& m) : bUseLock(g_bUseLock), m(m)
+ {
+ if(bUseLock)
+ m.lock();
+ }
+ ~MicroProfileScopeLock()
+ {
+ if(bUseLock)
+ m.unlock();
+ }
+};
+
+MicroProfileToken MicroProfileFindToken(const char* pGroup, const char* pName)
+{
+ MicroProfileInit();
+ MicroProfileScopeLock L(MicroProfileMutex());
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ if(!MP_STRCASECMP(pName, S.TimerInfo[i].pName) && !MP_STRCASECMP(pGroup, S.GroupInfo[S.TimerToGroup[i]].pName))
+ {
+ return S.TimerInfo[i].nToken;
+ }
+ }
+ return MICROPROFILE_INVALID_TOKEN;
+}
+
+uint16_t MicroProfileGetGroup(const char* pGroup, MicroProfileTokenType Type)
+{
+ for(uint32_t i = 0; i < S.nGroupCount; ++i)
+ {
+ if(!MP_STRCASECMP(pGroup, S.GroupInfo[i].pName))
+ {
+ return i;
+ }
+ }
+ uint16_t nGroupIndex = 0xffff;
+ uint32_t nLen = (uint32_t)strlen(pGroup);
+ if(nLen > MICROPROFILE_NAME_MAX_LEN-1)
+ nLen = MICROPROFILE_NAME_MAX_LEN-1;
+ memcpy(&S.GroupInfo[S.nGroupCount].pName[0], pGroup, nLen);
+ S.GroupInfo[S.nGroupCount].pName[nLen] = '\0';
+ S.GroupInfo[S.nGroupCount].nNameLen = nLen;
+ S.GroupInfo[S.nGroupCount].nNumTimers = 0;
+ S.GroupInfo[S.nGroupCount].nGroupIndex = S.nGroupCount;
+ S.GroupInfo[S.nGroupCount].Type = Type;
+ S.GroupInfo[S.nGroupCount].nMaxTimerNameLen = 0;
+ S.GroupInfo[S.nGroupCount].nColor = 0x88888888;
+ S.GroupInfo[S.nGroupCount].nCategory = 0;
+ S.CategoryInfo[0].nGroupMask |= (1ll << (uint64_t)S.nGroupCount);
+ nGroupIndex = S.nGroupCount++;
+ S.nGroupMask = (S.nGroupMask<<1)|1;
+ MP_ASSERT(nGroupIndex < MICROPROFILE_MAX_GROUPS);
+ return nGroupIndex;
+}
+
+void MicroProfileRegisterGroup(const char* pGroup, const char* pCategory, uint32_t nColor)
+{
+ int nCategoryIndex = -1;
+ for(uint32_t i = 0; i < S.nCategoryCount; ++i)
+ {
+ if(!MP_STRCASECMP(pCategory, S.CategoryInfo[i].pName))
+ {
+ nCategoryIndex = (int)i;
+ break;
+ }
+ }
+ if(-1 == nCategoryIndex && S.nCategoryCount < MICROPROFILE_MAX_CATEGORIES)
+ {
+ MP_ASSERT(S.CategoryInfo[S.nCategoryCount].pName[0] == '\0');
+ nCategoryIndex = (int)S.nCategoryCount++;
+ uint32_t nLen = (uint32_t)strlen(pCategory);
+ if(nLen > MICROPROFILE_NAME_MAX_LEN-1)
+ nLen = MICROPROFILE_NAME_MAX_LEN-1;
+ memcpy(&S.CategoryInfo[nCategoryIndex].pName[0], pCategory, nLen);
+ S.CategoryInfo[nCategoryIndex].pName[nLen] = '\0';
+ }
+ uint16_t nGroup = MicroProfileGetGroup(pGroup, 0 != MP_STRCASECMP(pGroup, "gpu")?MicroProfileTokenTypeCpu : MicroProfileTokenTypeGpu);
+ S.GroupInfo[nGroup].nColor = nColor;
+ if(nCategoryIndex >= 0)
+ {
+ uint64_t nBit = 1ll << nGroup;
+ uint32_t nOldCategory = S.GroupInfo[nGroup].nCategory;
+ S.CategoryInfo[nOldCategory].nGroupMask &= ~nBit;
+ S.CategoryInfo[nCategoryIndex].nGroupMask |= nBit;
+ S.GroupInfo[nGroup].nCategory = nCategoryIndex;
+ }
+}
+
+MicroProfileToken MicroProfileGetToken(const char* pGroup, const char* pName, uint32_t nColor, MicroProfileTokenType Type)
+{
+ MicroProfileInit();
+ MicroProfileScopeLock L(MicroProfileMutex());
+ MicroProfileToken ret = MicroProfileFindToken(pGroup, pName);
+ if(ret != MICROPROFILE_INVALID_TOKEN)
+ return ret;
+ uint16_t nGroupIndex = MicroProfileGetGroup(pGroup, Type);
+ uint16_t nTimerIndex = (uint16_t)(S.nTotalTimers++);
+ uint64_t nGroupMask = 1ll << nGroupIndex;
+ MicroProfileToken nToken = MicroProfileMakeToken(nGroupMask, nTimerIndex);
+ S.GroupInfo[nGroupIndex].nNumTimers++;
+ S.GroupInfo[nGroupIndex].nMaxTimerNameLen = MicroProfileMax(S.GroupInfo[nGroupIndex].nMaxTimerNameLen, (uint32_t)strlen(pName));
+ MP_ASSERT(S.GroupInfo[nGroupIndex].Type == Type); //dont mix cpu & gpu timers in the same group
+ S.nMaxGroupSize = MicroProfileMax(S.nMaxGroupSize, S.GroupInfo[nGroupIndex].nNumTimers);
+ S.TimerInfo[nTimerIndex].nToken = nToken;
+ uint32_t nLen = (uint32_t)strlen(pName);
+ if(nLen > MICROPROFILE_NAME_MAX_LEN-1)
+ nLen = MICROPROFILE_NAME_MAX_LEN-1;
+ memcpy(&S.TimerInfo[nTimerIndex].pName, pName, nLen);
+ S.TimerInfo[nTimerIndex].pName[nLen] = '\0';
+ S.TimerInfo[nTimerIndex].nNameLen = nLen;
+ S.TimerInfo[nTimerIndex].nColor = nColor&0xffffff;
+ S.TimerInfo[nTimerIndex].nGroupIndex = nGroupIndex;
+ S.TimerInfo[nTimerIndex].nTimerIndex = nTimerIndex;
+ S.TimerToGroup[nTimerIndex] = nGroupIndex;
+ return nToken;
+}
+
+MicroProfileToken MicroProfileGetMetaToken(const char* pName)
+{
+ MicroProfileInit();
+ MicroProfileScopeLock L(MicroProfileMutex());
+ for(uint32_t i = 0; i < MICROPROFILE_META_MAX; ++i)
+ {
+ if(!S.MetaCounters[i].pName)
+ {
+ S.MetaCounters[i].pName = pName;
+ return i;
+ }
+ else if(!MP_STRCASECMP(pName, S.MetaCounters[i].pName))
+ {
+ return i;
+ }
+ }
+ MP_ASSERT(0);//out of slots, increase MICROPROFILE_META_MAX
+ return (MicroProfileToken)-1;
+}
+
+
+inline void MicroProfileLogPut(MicroProfileToken nToken_, uint64_t nTick, uint64_t nBegin, MicroProfileThreadLog* pLog)
+{
+ MP_ASSERT(pLog != 0); //this assert is hit if MicroProfileOnCreateThread is not called
+ MP_ASSERT(pLog->nActive);
+ uint32_t nPos = pLog->nPut.load(std::memory_order_relaxed);
+ uint32_t nNextPos = (nPos+1) % MICROPROFILE_BUFFER_SIZE;
+ if(nNextPos == pLog->nGet.load(std::memory_order_relaxed))
+ {
+ S.nOverflow = 100;
+ }
+ else
+ {
+ pLog->Log[nPos] = MicroProfileMakeLogIndex(nBegin, nToken_, nTick);
+ pLog->nPut.store(nNextPos, std::memory_order_release);
+ }
+}
+
+uint64_t MicroProfileEnter(MicroProfileToken nToken_)
+{
+ if(MicroProfileGetGroupMask(nToken_) & S.nActiveGroup)
+ {
+ if(!MicroProfileGetThreadLog())
+ {
+ MicroProfileInitThreadLog();
+ }
+ uint64_t nTick = MP_TICK();
+ MicroProfileLogPut(nToken_, nTick, MP_LOG_ENTER, MicroProfileGetThreadLog());
+ return nTick;
+ }
+ return MICROPROFILE_INVALID_TICK;
+}
+
+void MicroProfileMetaUpdate(MicroProfileToken nToken, int nCount, MicroProfileTokenType eTokenType)
+{
+ if((MP_DRAW_META_FIRST<<nToken) & S.nActiveBars)
+ {
+ MicroProfileThreadLog* pLog = MicroProfileTokenTypeCpu == eTokenType ? MicroProfileGetThreadLog() : g_MicroProfileGpuLog;
+ if(pLog)
+ {
+ MP_ASSERT(nToken < MICROPROFILE_META_MAX);
+ MicroProfileLogPut(nToken, nCount, MP_LOG_META, pLog);
+ }
+ }
+}
+
+
+void MicroProfileLeave(MicroProfileToken nToken_, uint64_t nTickStart)
+{
+ if(MICROPROFILE_INVALID_TICK != nTickStart)
+ {
+ if(!MicroProfileGetThreadLog())
+ {
+ MicroProfileInitThreadLog();
+ }
+ uint64_t nTick = MP_TICK();
+ MicroProfileThreadLog* pLog = MicroProfileGetThreadLog();
+ MicroProfileLogPut(nToken_, nTick, MP_LOG_LEAVE, pLog);
+ }
+}
+
+
+uint64_t MicroProfileGpuEnter(MicroProfileToken nToken_)
+{
+ if(MicroProfileGetGroupMask(nToken_) & S.nActiveGroup)
+ {
+ uint64_t nTimer = MicroProfileGpuInsertTimeStamp();
+ MicroProfileLogPut(nToken_, nTimer, MP_LOG_ENTER, g_MicroProfileGpuLog);
+ MicroProfileLogPut(nToken_, MP_TICK(), MP_LOG_GPU_EXTRA, g_MicroProfileGpuLog);
+ return 1;
+ }
+ return 0;
+}
+
+void MicroProfileGpuLeave(MicroProfileToken nToken_, uint64_t nTickStart)
+{
+ if(nTickStart)
+ {
+ uint64_t nTimer = MicroProfileGpuInsertTimeStamp();
+ MicroProfileLogPut(nToken_, nTimer, MP_LOG_LEAVE, g_MicroProfileGpuLog);
+ MicroProfileLogPut(nToken_, MP_TICK(), MP_LOG_GPU_EXTRA, g_MicroProfileGpuLog);
+ }
+}
+
+void MicroProfileContextSwitchPut(MicroProfileContextSwitch* pContextSwitch)
+{
+ if(S.nRunning || pContextSwitch->nTicks <= S.nPauseTicks)
+ {
+ uint32_t nPut = S.nContextSwitchPut;
+ S.ContextSwitch[nPut] = *pContextSwitch;
+ S.nContextSwitchPut = (S.nContextSwitchPut+1) % MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE;
+ }
+}
+
+
+void MicroProfileGetRange(uint32_t nPut, uint32_t nGet, uint32_t nRange[2][2])
+{
+ if(nPut > nGet)
+ {
+ nRange[0][0] = nGet;
+ nRange[0][1] = nPut;
+ nRange[1][0] = nRange[1][1] = 0;
+ }
+ else if(nPut != nGet)
+ {
+ MP_ASSERT(nGet != MICROPROFILE_BUFFER_SIZE);
+ uint32_t nCountEnd = MICROPROFILE_BUFFER_SIZE - nGet;
+ nRange[0][0] = nGet;
+ nRange[0][1] = nGet + nCountEnd;
+ nRange[1][0] = 0;
+ nRange[1][1] = nPut;
+ }
+}
+
+void MicroProfileFlip()
+{
+ #if 0
+ //verify LogEntry wraps correctly
+ MicroProfileLogEntry c = MP_LOG_TICK_MASK-5000;
+ for(int i = 0; i < 10000; ++i, c += 1)
+ {
+ MicroProfileLogEntry l2 = (c+2500) & MP_LOG_TICK_MASK;
+ MP_ASSERT(2500 == MicroProfileLogTickDifference(c, l2));
+ }
+ #endif
+ MICROPROFILE_SCOPE(g_MicroProfileFlip);
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+
+
+ MicroProfileGpuFlip();
+
+ if(S.nToggleRunning)
+ {
+ S.nRunning = !S.nRunning;
+ if(!S.nRunning)
+ S.nPauseTicks = MP_TICK();
+ S.nToggleRunning = 0;
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_THREADS; ++i)
+ {
+ MicroProfileThreadLog* pLog = S.Pool[i];
+ if(pLog)
+ {
+ pLog->nStackPos = 0;
+ }
+ }
+ }
+ uint32_t nAggregateClear = S.nAggregateClear || S.nAutoClearFrames, nAggregateFlip = 0;
+ if(S.nDumpFileNextFrame)
+ {
+ MicroProfileDumpToFile();
+ S.nDumpFileNextFrame = 0;
+ S.nAutoClearFrames = MICROPROFILE_GPU_FRAME_DELAY + 3; //hide spike from dumping webpage
+ }
+ if(S.nWebServerDataSent == (uint64_t)-1)
+ {
+ MicroProfileWebServerStart();
+ S.nWebServerDataSent = 0;
+ }
+
+ if(MicroProfileWebServerUpdate())
+ {
+ S.nAutoClearFrames = MICROPROFILE_GPU_FRAME_DELAY + 3; //hide spike from dumping webpage
+ }
+
+ if(S.nAutoClearFrames)
+ {
+ nAggregateClear = 1;
+ nAggregateFlip = 1;
+ S.nAutoClearFrames -= 1;
+ }
+
+
+ if(S.nRunning || S.nForceEnable)
+ {
+ S.nFramePutIndex++;
+ S.nFramePut = (S.nFramePut+1) % MICROPROFILE_MAX_FRAME_HISTORY;
+ MP_ASSERT((S.nFramePutIndex % MICROPROFILE_MAX_FRAME_HISTORY) == S.nFramePut);
+ S.nFrameCurrent = (S.nFramePut + MICROPROFILE_MAX_FRAME_HISTORY - MICROPROFILE_GPU_FRAME_DELAY - 1) % MICROPROFILE_MAX_FRAME_HISTORY;
+ S.nFrameCurrentIndex++;
+ uint32_t nFrameNext = (S.nFrameCurrent+1) % MICROPROFILE_MAX_FRAME_HISTORY;
+
+ uint32_t nContextSwitchPut = S.nContextSwitchPut;
+ if(S.nContextSwitchLastPut < nContextSwitchPut)
+ {
+ S.nContextSwitchUsage = (nContextSwitchPut - S.nContextSwitchLastPut);
+ }
+ else
+ {
+ S.nContextSwitchUsage = MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE - S.nContextSwitchLastPut + nContextSwitchPut;
+ }
+ S.nContextSwitchLastPut = nContextSwitchPut;
+
+ MicroProfileFrameState* pFramePut = &S.Frames[S.nFramePut];
+ MicroProfileFrameState* pFrameCurrent = &S.Frames[S.nFrameCurrent];
+ MicroProfileFrameState* pFrameNext = &S.Frames[nFrameNext];
+
+ pFramePut->nFrameStartCpu = MP_TICK();
+ pFramePut->nFrameStartGpu = (uint32_t)MicroProfileGpuInsertTimeStamp();
+ if(pFrameNext->nFrameStartGpu != (uint64_t)-1)
+ pFrameNext->nFrameStartGpu = MicroProfileGpuGetTimeStamp((uint32_t)pFrameNext->nFrameStartGpu);
+
+ if(pFrameCurrent->nFrameStartGpu == (uint64_t)-1)
+ pFrameCurrent->nFrameStartGpu = pFrameNext->nFrameStartGpu + 1;
+
+ uint64_t nFrameStartCpu = pFrameCurrent->nFrameStartCpu;
+ uint64_t nFrameEndCpu = pFrameNext->nFrameStartCpu;
+
+ {
+ uint64_t nTick = nFrameEndCpu - nFrameStartCpu;
+ S.nFlipTicks = nTick;
+ S.nFlipAggregate += nTick;
+ S.nFlipMax = MicroProfileMax(S.nFlipMax, nTick);
+ }
+
+ uint8_t* pTimerToGroup = &S.TimerToGroup[0];
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_THREADS; ++i)
+ {
+ MicroProfileThreadLog* pLog = S.Pool[i];
+ if(!pLog)
+ {
+ pFramePut->nLogStart[i] = 0;
+ }
+ else
+ {
+ uint32_t nPut = pLog->nPut.load(std::memory_order_acquire);
+ pFramePut->nLogStart[i] = nPut;
+ MP_ASSERT(nPut< MICROPROFILE_BUFFER_SIZE);
+ //need to keep last frame around to close timers. timers more than 1 frame old is ditched.
+ pLog->nGet.store(nPut, std::memory_order_relaxed);
+ }
+ }
+
+ if(S.nRunning)
+ {
+ uint64_t* pFrameGroup = &S.FrameGroup[0];
+ {
+ MICROPROFILE_SCOPE(g_MicroProfileClear);
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ S.Frame[i].nTicks = 0;
+ S.Frame[i].nCount = 0;
+ S.FrameExclusive[i] = 0;
+ }
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_GROUPS; ++i)
+ {
+ pFrameGroup[i] = 0;
+ }
+ for(uint32_t j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName && 0 != (S.nActiveBars & (MP_DRAW_META_FIRST<<j)))
+ {
+ auto& Meta = S.MetaCounters[j];
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ Meta.nCounters[i] = 0;
+ }
+ }
+ }
+
+ }
+ {
+ MICROPROFILE_SCOPE(g_MicroProfileThreadLoop);
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_THREADS; ++i)
+ {
+ MicroProfileThreadLog* pLog = S.Pool[i];
+ if(!pLog)
+ continue;
+
+ uint8_t* pGroupStackPos = &pLog->nGroupStackPos[0];
+ int64_t nGroupTicks[MICROPROFILE_MAX_GROUPS] = {0};
+
+
+ uint32_t nPut = pFrameNext->nLogStart[i];
+ uint32_t nGet = pFrameCurrent->nLogStart[i];
+ uint32_t nRange[2][2] = { {0, 0}, {0, 0}, };
+ MicroProfileGetRange(nPut, nGet, nRange);
+
+
+ //fetch gpu results.
+ if(pLog->nGpu)
+ {
+ for(uint32_t j = 0; j < 2; ++j)
+ {
+ uint32_t nStart = nRange[j][0];
+ uint32_t nEnd = nRange[j][1];
+ for(uint32_t k = nStart; k < nEnd; ++k)
+ {
+ MicroProfileLogEntry L = pLog->Log[k];
+ if(MicroProfileLogType(L) < MP_LOG_META)
+ {
+ pLog->Log[k] = MicroProfileLogSetTick(L, MicroProfileGpuGetTimeStamp((uint32_t)MicroProfileLogGetTick(L)));
+ }
+ }
+ }
+ }
+
+
+ uint32_t* pStack = &pLog->nStack[0];
+ int64_t* pChildTickStack = &pLog->nChildTickStack[0];
+ uint32_t nStackPos = pLog->nStackPos;
+
+ for(uint32_t j = 0; j < 2; ++j)
+ {
+ uint32_t nStart = nRange[j][0];
+ uint32_t nEnd = nRange[j][1];
+ for(uint32_t k = nStart; k < nEnd; ++k)
+ {
+ MicroProfileLogEntry LE = pLog->Log[k];
+ int nType = MicroProfileLogType(LE);
+
+ if(MP_LOG_ENTER == nType)
+ {
+ int nTimer = MicroProfileLogTimerIndex(LE);
+ uint8_t nGroup = pTimerToGroup[nTimer];
+ MP_ASSERT(nStackPos < MICROPROFILE_STACK_MAX);
+ MP_ASSERT(nGroup < MICROPROFILE_MAX_GROUPS);
+ pGroupStackPos[nGroup]++;
+ pStack[nStackPos++] = k;
+ pChildTickStack[nStackPos] = 0;
+
+ }
+ else if(MP_LOG_META == nType)
+ {
+ if(nStackPos)
+ {
+ int64_t nMetaIndex = MicroProfileLogTimerIndex(LE);
+ int64_t nMetaCount = MicroProfileLogGetTick(LE);
+ MP_ASSERT(nMetaIndex < MICROPROFILE_META_MAX);
+ int64_t nCounter = MicroProfileLogTimerIndex(pLog->Log[pStack[nStackPos-1]]);
+ S.MetaCounters[nMetaIndex].nCounters[nCounter] += nMetaCount;
+ }
+ }
+ else if(MP_LOG_LEAVE == nType)
+ {
+ int nTimer = MicroProfileLogTimerIndex(LE);
+ uint8_t nGroup = pTimerToGroup[nTimer];
+ MP_ASSERT(nGroup < MICROPROFILE_MAX_GROUPS);
+ if(nStackPos)
+ {
+ int64_t nTickStart = pLog->Log[pStack[nStackPos-1]];
+ int64_t nTicks = MicroProfileLogTickDifference(nTickStart, LE);
+ int64_t nChildTicks = pChildTickStack[nStackPos];
+ nStackPos--;
+ pChildTickStack[nStackPos] += nTicks;
+
+ uint32_t nTimerIndex = MicroProfileLogTimerIndex(LE);
+ S.Frame[nTimerIndex].nTicks += nTicks;
+ S.FrameExclusive[nTimerIndex] += (nTicks-nChildTicks);
+ S.Frame[nTimerIndex].nCount += 1;
+
+ MP_ASSERT(nGroup < MICROPROFILE_MAX_GROUPS);
+ uint8_t nGroupStackPos = pGroupStackPos[nGroup];
+ if(nGroupStackPos)
+ {
+ nGroupStackPos--;
+ if(0 == nGroupStackPos)
+ {
+ nGroupTicks[nGroup] += nTicks;
+ }
+ pGroupStackPos[nGroup] = nGroupStackPos;
+ }
+ }
+ }
+ }
+ }
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_GROUPS; ++i)
+ {
+ pLog->nGroupTicks[i] += nGroupTicks[i];
+ pFrameGroup[i] += nGroupTicks[i];
+ }
+ pLog->nStackPos = nStackPos;
+ }
+ }
+ {
+ MICROPROFILE_SCOPE(g_MicroProfileAccumulate);
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ S.AccumTimers[i].nTicks += S.Frame[i].nTicks;
+ S.AccumTimers[i].nCount += S.Frame[i].nCount;
+ S.AccumMaxTimers[i] = MicroProfileMax(S.AccumMaxTimers[i], S.Frame[i].nTicks);
+ S.AccumTimersExclusive[i] += S.FrameExclusive[i];
+ S.AccumMaxTimersExclusive[i] = MicroProfileMax(S.AccumMaxTimersExclusive[i], S.FrameExclusive[i]);
+ }
+
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_GROUPS; ++i)
+ {
+ S.AccumGroup[i] += pFrameGroup[i];
+ S.AccumGroupMax[i] = MicroProfileMax(S.AccumGroupMax[i], pFrameGroup[i]);
+ }
+
+ for(uint32_t j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName && 0 != (S.nActiveBars & (MP_DRAW_META_FIRST<<j)))
+ {
+ auto& Meta = S.MetaCounters[j];
+ uint64_t nSum = 0;;
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ uint64_t nCounter = Meta.nCounters[i];
+ Meta.nAccumMax[i] = MicroProfileMax(Meta.nAccumMax[i], nCounter);
+ Meta.nAccum[i] += nCounter;
+ nSum += nCounter;
+ }
+ Meta.nSumAccum += nSum;
+ Meta.nSumAccumMax = MicroProfileMax(Meta.nSumAccumMax, nSum);
+ }
+ }
+ }
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_GRAPHS; ++i)
+ {
+ if(S.Graph[i].nToken != MICROPROFILE_INVALID_TOKEN)
+ {
+ MicroProfileToken nToken = S.Graph[i].nToken;
+ S.Graph[i].nHistory[S.nGraphPut] = S.Frame[MicroProfileGetTimerIndex(nToken)].nTicks;
+ }
+ }
+ S.nGraphPut = (S.nGraphPut+1) % MICROPROFILE_GRAPH_HISTORY;
+
+ }
+
+
+ if(S.nRunning && S.nAggregateFlip <= ++S.nAggregateFlipCount)
+ {
+ nAggregateFlip = 1;
+ if(S.nAggregateFlip) // if 0 accumulate indefinitely
+ {
+ nAggregateClear = 1;
+ }
+ }
+ }
+ if(nAggregateFlip)
+ {
+ memcpy(&S.Aggregate[0], &S.AccumTimers[0], sizeof(S.Aggregate[0]) * S.nTotalTimers);
+ memcpy(&S.AggregateMax[0], &S.AccumMaxTimers[0], sizeof(S.AggregateMax[0]) * S.nTotalTimers);
+ memcpy(&S.AggregateExclusive[0], &S.AccumTimersExclusive[0], sizeof(S.AggregateExclusive[0]) * S.nTotalTimers);
+ memcpy(&S.AggregateMaxExclusive[0], &S.AccumMaxTimersExclusive[0], sizeof(S.AggregateMaxExclusive[0]) * S.nTotalTimers);
+
+ memcpy(&S.AggregateGroup[0], &S.AccumGroup[0], sizeof(S.AggregateGroup));
+ memcpy(&S.AggregateGroupMax[0], &S.AccumGroupMax[0], sizeof(S.AggregateGroup));
+
+ for(uint32_t i = 0; i < MICROPROFILE_MAX_THREADS; ++i)
+ {
+ MicroProfileThreadLog* pLog = S.Pool[i];
+ if(!pLog)
+ continue;
+
+ memcpy(&pLog->nAggregateGroupTicks[0], &pLog->nGroupTicks[0], sizeof(pLog->nAggregateGroupTicks));
+
+ if(nAggregateClear)
+ {
+ memset(&pLog->nGroupTicks[0], 0, sizeof(pLog->nGroupTicks));
+ }
+ }
+
+ for(uint32_t j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName && 0 != (S.nActiveBars & (MP_DRAW_META_FIRST<<j)))
+ {
+ auto& Meta = S.MetaCounters[j];
+ memcpy(&Meta.nAggregateMax[0], &Meta.nAccumMax[0], sizeof(Meta.nAggregateMax[0]) * S.nTotalTimers);
+ memcpy(&Meta.nAggregate[0], &Meta.nAccum[0], sizeof(Meta.nAggregate[0]) * S.nTotalTimers);
+ Meta.nSumAggregate = Meta.nSumAccum;
+ Meta.nSumAggregateMax = Meta.nSumAccumMax;
+ if(nAggregateClear)
+ {
+ memset(&Meta.nAccumMax[0], 0, sizeof(Meta.nAccumMax[0]) * S.nTotalTimers);
+ memset(&Meta.nAccum[0], 0, sizeof(Meta.nAccum[0]) * S.nTotalTimers);
+ Meta.nSumAccum = 0;
+ Meta.nSumAccumMax = 0;
+ }
+ }
+ }
+
+
+
+
+
+ S.nAggregateFrames = S.nAggregateFlipCount;
+ S.nFlipAggregateDisplay = S.nFlipAggregate;
+ S.nFlipMaxDisplay = S.nFlipMax;
+ if(nAggregateClear)
+ {
+ memset(&S.AccumTimers[0], 0, sizeof(S.Aggregate[0]) * S.nTotalTimers);
+ memset(&S.AccumMaxTimers[0], 0, sizeof(S.AccumMaxTimers[0]) * S.nTotalTimers);
+ memset(&S.AccumTimersExclusive[0], 0, sizeof(S.AggregateExclusive[0]) * S.nTotalTimers);
+ memset(&S.AccumMaxTimersExclusive[0], 0, sizeof(S.AccumMaxTimersExclusive[0]) * S.nTotalTimers);
+ memset(&S.AccumGroup[0], 0, sizeof(S.AggregateGroup));
+ memset(&S.AccumGroupMax[0], 0, sizeof(S.AggregateGroup));
+
+ S.nAggregateFlipCount = 0;
+ S.nFlipAggregate = 0;
+ S.nFlipMax = 0;
+
+ S.nAggregateFlipTick = MP_TICK();
+ }
+ }
+ S.nAggregateClear = 0;
+
+ uint64_t nNewActiveGroup = 0;
+ if(S.nForceEnable || (S.nDisplay && S.nRunning))
+ nNewActiveGroup = S.nAllGroupsWanted ? S.nGroupMask : S.nActiveGroupWanted;
+ nNewActiveGroup |= S.nForceGroup;
+ nNewActiveGroup |= S.nForceGroupUI;
+ if(S.nActiveGroup != nNewActiveGroup)
+ S.nActiveGroup = nNewActiveGroup;
+ uint32_t nNewActiveBars = 0;
+ if(S.nDisplay && S.nRunning)
+ nNewActiveBars = S.nBars;
+ if(S.nForceMetaCounters)
+ {
+ for(int i = 0; i < MICROPROFILE_META_MAX; ++i)
+ {
+ if(S.MetaCounters[i].pName)
+ {
+ nNewActiveBars |= (MP_DRAW_META_FIRST<<i);
+ }
+ }
+ }
+ if(nNewActiveBars != S.nActiveBars)
+ S.nActiveBars = nNewActiveBars;
+}
+
+void MicroProfileSetForceEnable(bool bEnable)
+{
+ S.nForceEnable = bEnable ? 1 : 0;
+}
+bool MicroProfileGetForceEnable()
+{
+ return S.nForceEnable != 0;
+}
+
+void MicroProfileSetEnableAllGroups(bool bEnableAllGroups)
+{
+ S.nAllGroupsWanted = bEnableAllGroups ? 1 : 0;
+}
+
+void MicroProfileEnableCategory(const char* pCategory, bool bEnabled)
+{
+ int nCategoryIndex = -1;
+ for(uint32_t i = 0; i < S.nCategoryCount; ++i)
+ {
+ if(!MP_STRCASECMP(pCategory, S.CategoryInfo[i].pName))
+ {
+ nCategoryIndex = (int)i;
+ break;
+ }
+ }
+ if(nCategoryIndex >= 0)
+ {
+ if(bEnabled)
+ {
+ S.nActiveGroupWanted |= S.CategoryInfo[nCategoryIndex].nGroupMask;
+ }
+ else
+ {
+ S.nActiveGroupWanted &= ~S.CategoryInfo[nCategoryIndex].nGroupMask;
+ }
+ }
+}
+
+
+void MicroProfileEnableCategory(const char* pCategory)
+{
+ MicroProfileEnableCategory(pCategory, true);
+}
+void MicroProfileDisableCategory(const char* pCategory)
+{
+ MicroProfileEnableCategory(pCategory, false);
+}
+
+bool MicroProfileGetEnableAllGroups()
+{
+ return 0 != S.nAllGroupsWanted;
+}
+
+void MicroProfileSetForceMetaCounters(bool bForce)
+{
+ S.nForceMetaCounters = bForce ? 1 : 0;
+}
+
+bool MicroProfileGetForceMetaCounters()
+{
+ return 0 != S.nForceMetaCounters;
+}
+
+void MicroProfileEnableMetaCounter(const char* pMeta)
+{
+ for(uint32_t i = 0; i < MICROPROFILE_META_MAX; ++i)
+ {
+ if(S.MetaCounters[i].pName && 0 == MP_STRCASECMP(S.MetaCounters[i].pName, pMeta))
+ {
+ S.nBars |= (MP_DRAW_META_FIRST<<i);
+ return;
+ }
+ }
+}
+void MicroProfileDisableMetaCounter(const char* pMeta)
+{
+ for(uint32_t i = 0; i < MICROPROFILE_META_MAX; ++i)
+ {
+ if(S.MetaCounters[i].pName && 0 == MP_STRCASECMP(S.MetaCounters[i].pName, pMeta))
+ {
+ S.nBars &= ~(MP_DRAW_META_FIRST<<i);
+ return;
+ }
+ }
+}
+
+
+void MicroProfileSetAggregateFrames(int nFrames)
+{
+ S.nAggregateFlip = (uint32_t)nFrames;
+ if(0 == nFrames)
+ {
+ S.nAggregateClear = 1;
+ }
+}
+
+int MicroProfileGetAggregateFrames()
+{
+ return S.nAggregateFlip;
+}
+
+int MicroProfileGetCurrentAggregateFrames()
+{
+ return int(S.nAggregateFlip ? S.nAggregateFlip : S.nAggregateFlipCount);
+}
+
+
+void MicroProfileForceEnableGroup(const char* pGroup, MicroProfileTokenType Type)
+{
+ MicroProfileInit();
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ uint16_t nGroup = MicroProfileGetGroup(pGroup, Type);
+ S.nForceGroup |= (1ll << nGroup);
+}
+
+void MicroProfileForceDisableGroup(const char* pGroup, MicroProfileTokenType Type)
+{
+ MicroProfileInit();
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ uint16_t nGroup = MicroProfileGetGroup(pGroup, Type);
+ S.nForceGroup &= ~(1ll << nGroup);
+}
+
+
+void MicroProfileCalcAllTimers(float* pTimers, float* pAverage, float* pMax, float* pCallAverage, float* pExclusive, float* pAverageExclusive, float* pMaxExclusive, float* pTotal, uint32_t nSize)
+{
+ for(uint32_t i = 0; i < S.nTotalTimers && i < nSize; ++i)
+ {
+ const uint32_t nGroupId = S.TimerInfo[i].nGroupIndex;
+ const float fToMs = MicroProfileTickToMsMultiplier(S.GroupInfo[nGroupId].Type == MicroProfileTokenTypeGpu ? MicroProfileTicksPerSecondGpu() : MicroProfileTicksPerSecondCpu());
+ uint32_t nTimer = i;
+ uint32_t nIdx = i * 2;
+ uint32_t nAggregateFrames = S.nAggregateFrames ? S.nAggregateFrames : 1;
+ uint32_t nAggregateCount = S.Aggregate[nTimer].nCount ? S.Aggregate[nTimer].nCount : 1;
+ float fToPrc = S.fRcpReferenceTime;
+ float fMs = fToMs * (S.Frame[nTimer].nTicks);
+ float fPrc = MicroProfileMin(fMs * fToPrc, 1.f);
+ float fAverageMs = fToMs * (S.Aggregate[nTimer].nTicks / nAggregateFrames);
+ float fAveragePrc = MicroProfileMin(fAverageMs * fToPrc, 1.f);
+ float fMaxMs = fToMs * (S.AggregateMax[nTimer]);
+ float fMaxPrc = MicroProfileMin(fMaxMs * fToPrc, 1.f);
+ float fCallAverageMs = fToMs * (S.Aggregate[nTimer].nTicks / nAggregateCount);
+ float fCallAveragePrc = MicroProfileMin(fCallAverageMs * fToPrc, 1.f);
+ float fMsExclusive = fToMs * (S.FrameExclusive[nTimer]);
+ float fPrcExclusive = MicroProfileMin(fMsExclusive * fToPrc, 1.f);
+ float fAverageMsExclusive = fToMs * (S.AggregateExclusive[nTimer] / nAggregateFrames);
+ float fAveragePrcExclusive = MicroProfileMin(fAverageMsExclusive * fToPrc, 1.f);
+ float fMaxMsExclusive = fToMs * (S.AggregateMaxExclusive[nTimer]);
+ float fMaxPrcExclusive = MicroProfileMin(fMaxMsExclusive * fToPrc, 1.f);
+ float fTotalMs = fToMs * S.Aggregate[nTimer].nTicks;
+ pTimers[nIdx] = fMs;
+ pTimers[nIdx+1] = fPrc;
+ pAverage[nIdx] = fAverageMs;
+ pAverage[nIdx+1] = fAveragePrc;
+ pMax[nIdx] = fMaxMs;
+ pMax[nIdx+1] = fMaxPrc;
+ pCallAverage[nIdx] = fCallAverageMs;
+ pCallAverage[nIdx+1] = fCallAveragePrc;
+ pExclusive[nIdx] = fMsExclusive;
+ pExclusive[nIdx+1] = fPrcExclusive;
+ pAverageExclusive[nIdx] = fAverageMsExclusive;
+ pAverageExclusive[nIdx+1] = fAveragePrcExclusive;
+ pMaxExclusive[nIdx] = fMaxMsExclusive;
+ pMaxExclusive[nIdx+1] = fMaxPrcExclusive;
+ pTotal[nIdx] = fTotalMs;
+ pTotal[nIdx+1] = 0.f;
+ }
+}
+
+void MicroProfileTogglePause()
+{
+ S.nToggleRunning = 1;
+}
+
+float MicroProfileGetTime(const char* pGroup, const char* pName)
+{
+ MicroProfileToken nToken = MicroProfileFindToken(pGroup, pName);
+ if(nToken == MICROPROFILE_INVALID_TOKEN)
+ {
+ return 0.f;
+ }
+ uint32_t nTimerIndex = MicroProfileGetTimerIndex(nToken);
+ uint32_t nGroupIndex = MicroProfileGetGroupIndex(nToken);
+ float fToMs = MicroProfileTickToMsMultiplier(S.GroupInfo[nGroupIndex].Type == MicroProfileTokenTypeGpu ? MicroProfileTicksPerSecondGpu() : MicroProfileTicksPerSecondCpu());
+ return S.Frame[nTimerIndex].nTicks * fToMs;
+}
+
+
+void MicroProfileContextSwitchSearch(uint32_t* pContextSwitchStart, uint32_t* pContextSwitchEnd, uint64_t nBaseTicksCpu, uint64_t nBaseTicksEndCpu)
+{
+ MICROPROFILE_SCOPE(g_MicroProfileContextSwitchSearch);
+ uint32_t nContextSwitchPut = S.nContextSwitchPut;
+ uint64_t nContextSwitchStart, nContextSwitchEnd;
+ nContextSwitchStart = nContextSwitchEnd = (nContextSwitchPut + MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE - 1) % MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE;
+ int64_t nSearchEnd = nBaseTicksEndCpu + MicroProfileMsToTick(30.f, MicroProfileTicksPerSecondCpu());
+ int64_t nSearchBegin = nBaseTicksCpu - MicroProfileMsToTick(30.f, MicroProfileTicksPerSecondCpu());
+ for(uint32_t i = 0; i < MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE; ++i)
+ {
+ uint32_t nIndex = (nContextSwitchPut + MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE - (i+1)) % MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE;
+ MicroProfileContextSwitch& CS = S.ContextSwitch[nIndex];
+ if(CS.nTicks > nSearchEnd)
+ {
+ nContextSwitchEnd = nIndex;
+ }
+ if(CS.nTicks > nSearchBegin)
+ {
+ nContextSwitchStart = nIndex;
+ }
+ }
+ *pContextSwitchStart = nContextSwitchStart;
+ *pContextSwitchEnd = nContextSwitchEnd;
+}
+
+
+
+#if MICROPROFILE_WEBSERVER
+
+#define MICROPROFILE_EMBED_HTML
+
+extern const char* g_MicroProfileHtml_begin[];
+extern size_t g_MicroProfileHtml_begin_sizes[];
+extern size_t g_MicroProfileHtml_begin_count;
+extern const char* g_MicroProfileHtml_end[];
+extern size_t g_MicroProfileHtml_end_sizes[];
+extern size_t g_MicroProfileHtml_end_count;
+
+typedef void MicroProfileWriteCallback(void* Handle, size_t size, const char* pData);
+
+uint32_t MicroProfileWebServerPort()
+{
+ return S.nWebServerPort;
+}
+
+void MicroProfileDumpFile(const char* pHtml, const char* pCsv)
+{
+ S.nDumpFileNextFrame = 0;
+ if(pHtml)
+ {
+ uint32_t nLen = strlen(pHtml);
+ if(nLen > sizeof(S.HtmlDumpPath)-1)
+ {
+ return;
+ }
+ memcpy(S.HtmlDumpPath, pHtml, nLen+1);
+ S.nDumpFileNextFrame |= 1;
+ }
+ if(pCsv)
+ {
+ uint32_t nLen = strlen(pCsv);
+ if(nLen > sizeof(S.CsvDumpPath)-1)
+ {
+ return;
+ }
+ memcpy(S.CsvDumpPath, pCsv, nLen+1);
+ S.nDumpFileNextFrame |= 2;
+ }
+}
+
+void MicroProfilePrintf(MicroProfileWriteCallback CB, void* Handle, const char* pFmt, ...)
+{
+ char buffer[32*1024];
+ va_list args;
+ va_start (args, pFmt);
+#ifdef _WIN32
+ size_t size = vsprintf_s(buffer, pFmt, args);
+#else
+ size_t size = vsnprintf(buffer, sizeof(buffer)-1, pFmt, args);
+#endif
+ CB(Handle, size, &buffer[0]);
+ va_end (args);
+}
+
+#define printf(...) MicroProfilePrintf(CB, Handle, __VA_ARGS__)
+void MicroProfileDumpCsv(MicroProfileWriteCallback CB, void* Handle, int nMaxFrames)
+{
+ uint32_t nAggregateFrames = S.nAggregateFrames ? S.nAggregateFrames : 1;
+ float fToMsCPU = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondCpu());
+ float fToMsGPU = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondGpu());
+
+ printf("frames,%d\n", nAggregateFrames);
+ printf("group,name,average,max,callaverage\n");
+
+ uint32_t nNumTimers = S.nTotalTimers;
+ uint32_t nBlockSize = 2 * nNumTimers;
+ float* pTimers = (float*)alloca(nBlockSize * 8 * sizeof(float));
+ float* pAverage = pTimers + nBlockSize;
+ float* pMax = pTimers + 2 * nBlockSize;
+ float* pCallAverage = pTimers + 3 * nBlockSize;
+ float* pTimersExclusive = pTimers + 4 * nBlockSize;
+ float* pAverageExclusive = pTimers + 5 * nBlockSize;
+ float* pMaxExclusive = pTimers + 6 * nBlockSize;
+ float* pTotal = pTimers + 7 * nBlockSize;
+
+ MicroProfileCalcAllTimers(pTimers, pAverage, pMax, pCallAverage, pTimersExclusive, pAverageExclusive, pMaxExclusive, pTotal, nNumTimers);
+
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ uint32_t nIdx = i * 2;
+ printf("\"%s\",\"%s\",%f,%f,%f\n", S.TimerInfo[i].pName, S.GroupInfo[S.TimerInfo[i].nGroupIndex].pName, pAverage[nIdx], pMax[nIdx], pCallAverage[nIdx]);
+ }
+
+ printf("\n\n");
+
+ printf("group,average,max,total\n");
+ for(uint32_t j = 0; j < MICROPROFILE_MAX_GROUPS; ++j)
+ {
+ const char* pGroupName = S.GroupInfo[j].pName;
+ float fToMs = S.GroupInfo[j].Type == MicroProfileTokenTypeGpu ? fToMsGPU : fToMsCPU;
+ if(pGroupName[0] != '\0')
+ {
+ printf("\"%s\",%.3f,%.3f,%.3f\n", pGroupName, fToMs * S.AggregateGroup[j] / nAggregateFrames, fToMs * S.AggregateGroup[j] / nAggregateFrames, fToMs * S.AggregateGroup[j]);
+ }
+ }
+
+ printf("\n\n");
+ printf("group,thread,average,total\n");
+ for(uint32_t j = 0; j < MICROPROFILE_MAX_GROUPS; ++j)
+ {
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ const char* pThreadName = &S.Pool[i]->ThreadName[0];
+ // MicroProfilePrintf(CB, Handle, "var ThreadGroupTime%d = [", i);
+ float fToMs = S.Pool[i]->nGpu ? fToMsGPU : fToMsCPU;
+ {
+ uint64_t nTicks = S.Pool[i]->nAggregateGroupTicks[j];
+ float fTime = nTicks / nAggregateFrames * fToMs;
+ float fTimeTotal = nTicks * fToMs;
+ if(fTimeTotal > 0.01f)
+ {
+ const char* pGroupName = S.GroupInfo[j].pName;
+ printf("\"%s\",\"%s\",%.3f,%.3f\n", pGroupName, pThreadName, fTime, fTimeTotal);
+ }
+ }
+ }
+ }
+ }
+
+ printf("\n\n");
+ printf("frametimecpu\n");
+
+ const uint32_t nCount = MICROPROFILE_MAX_FRAME_HISTORY - MICROPROFILE_GPU_FRAME_DELAY - 3;
+ const uint32_t nStart = S.nFrameCurrent;
+ for(uint32_t i = nCount; i > 0; i--)
+ {
+ uint32_t nFrame = (nStart + MICROPROFILE_MAX_FRAME_HISTORY - i) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint32_t nFrameNext = (nStart + MICROPROFILE_MAX_FRAME_HISTORY - i + 1) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint64_t nTicks = S.Frames[nFrameNext].nFrameStartCpu - S.Frames[nFrame].nFrameStartCpu;
+ printf("%f,", nTicks * fToMsCPU);
+ }
+ printf("\n");
+
+ printf("\n\n");
+ printf("frametimegpu\n");
+
+ for(uint32_t i = nCount; i > 0; i--)
+ {
+ uint32_t nFrame = (nStart + MICROPROFILE_MAX_FRAME_HISTORY - i) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint32_t nFrameNext = (nStart + MICROPROFILE_MAX_FRAME_HISTORY - i + 1) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint64_t nTicks = S.Frames[nFrameNext].nFrameStartGpu - S.Frames[nFrame].nFrameStartGpu;
+ printf("%f,", nTicks * fToMsGPU);
+ }
+ printf("\n\n");
+ printf("Meta\n");//only single frame snapshot
+ printf("name,average,max,total\n");
+ for(int j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName)
+ {
+ printf("\"%s\",%f,%lld,%lld\n",S.MetaCounters[j].pName, S.MetaCounters[j].nSumAggregate / (float)nAggregateFrames, S.MetaCounters[j].nSumAggregateMax,S.MetaCounters[j].nSumAggregate);
+ }
+ }
+}
+#undef printf
+
+void MicroProfileDumpHtml(MicroProfileWriteCallback CB, void* Handle, int nMaxFrames, const char* pHost)
+{
+ uint32_t nRunning = S.nRunning;
+ S.nRunning = 0;
+ //stall pushing of timers
+ uint64_t nActiveGroup = S.nActiveGroup;
+ S.nActiveGroup = 0;
+ S.nPauseTicks = MP_TICK();
+
+
+ for(size_t i = 0; i < g_MicroProfileHtml_begin_count; ++i)
+ {
+ CB(Handle, g_MicroProfileHtml_begin_sizes[i]-1, g_MicroProfileHtml_begin[i]);
+ }
+ //dump info
+ uint64_t nTicks = MP_TICK();
+
+ float fToMsCPU = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondCpu());
+ float fToMsGPU = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondGpu());
+ float fAggregateMs = fToMsCPU * (nTicks - S.nAggregateFlipTick);
+ MicroProfilePrintf(CB, Handle, "var DumpHost = '%s';\n", pHost ? pHost : "");
+ time_t CaptureTime;
+ time(&CaptureTime);
+ MicroProfilePrintf(CB, Handle, "var DumpUtcCaptureTime = %ld;\n", CaptureTime);
+ MicroProfilePrintf(CB, Handle, "var AggregateInfo = {'Frames':%d, 'Time':%f};\n", S.nAggregateFrames, fAggregateMs);
+
+ //categories
+ MicroProfilePrintf(CB, Handle, "var CategoryInfo = Array(%d);\n",S.nCategoryCount);
+ for(uint32_t i = 0; i < S.nCategoryCount; ++i)
+ {
+ MicroProfilePrintf(CB, Handle, "CategoryInfo[%d] = \"%s\";\n", i, S.CategoryInfo[i].pName);
+ }
+
+ //groups
+ MicroProfilePrintf(CB, Handle, "var GroupInfo = Array(%d);\n\n",S.nGroupCount);
+ uint32_t nAggregateFrames = S.nAggregateFrames ? S.nAggregateFrames : 1;
+ float fRcpAggregateFrames = 1.f / nAggregateFrames;
+ for(uint32_t i = 0; i < S.nGroupCount; ++i)
+ {
+ MP_ASSERT(i == S.GroupInfo[i].nGroupIndex);
+ float fToMs = S.GroupInfo[i].Type == MicroProfileTokenTypeCpu ? fToMsCPU : fToMsGPU;
+ MicroProfilePrintf(CB, Handle, "GroupInfo[%d] = MakeGroup(%d, \"%s\", %d, %d, %d, %f, %f, %f, '#%02x%02x%02x');\n",
+ S.GroupInfo[i].nGroupIndex,
+ S.GroupInfo[i].nGroupIndex,
+ S.GroupInfo[i].pName,
+ S.GroupInfo[i].nCategory,
+ S.GroupInfo[i].nNumTimers,
+ S.GroupInfo[i].Type == MicroProfileTokenTypeGpu?1:0,
+ fToMs * S.AggregateGroup[i],
+ fToMs * S.AggregateGroup[i] / nAggregateFrames,
+ fToMs * S.AggregateGroupMax[i],
+ MICROPROFILE_UNPACK_RED(S.GroupInfo[i].nColor) & 0xff,
+ MICROPROFILE_UNPACK_GREEN(S.GroupInfo[i].nColor) & 0xff,
+ MICROPROFILE_UNPACK_BLUE(S.GroupInfo[i].nColor) & 0xff);
+ }
+ //timers
+
+ uint32_t nNumTimers = S.nTotalTimers;
+ uint32_t nBlockSize = 2 * nNumTimers;
+ float* pTimers = (float*)alloca(nBlockSize * 8 * sizeof(float));
+ float* pAverage = pTimers + nBlockSize;
+ float* pMax = pTimers + 2 * nBlockSize;
+ float* pCallAverage = pTimers + 3 * nBlockSize;
+ float* pTimersExclusive = pTimers + 4 * nBlockSize;
+ float* pAverageExclusive = pTimers + 5 * nBlockSize;
+ float* pMaxExclusive = pTimers + 6 * nBlockSize;
+ float* pTotal = pTimers + 7 * nBlockSize;
+
+ MicroProfileCalcAllTimers(pTimers, pAverage, pMax, pCallAverage, pTimersExclusive, pAverageExclusive, pMaxExclusive, pTotal, nNumTimers);
+
+ MicroProfilePrintf(CB, Handle, "\nvar TimerInfo = Array(%d);\n\n", S.nTotalTimers);
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ uint32_t nIdx = i * 2;
+ MP_ASSERT(i == S.TimerInfo[i].nTimerIndex);
+ MicroProfilePrintf(CB, Handle, "var Meta%d = [", i);
+ bool bOnce = true;
+ for(int j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName)
+ {
+ uint32_t lala = S.MetaCounters[j].nCounters[i];
+ MicroProfilePrintf(CB, Handle, bOnce ? "%d" : ",%d", lala);
+ bOnce = false;
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ MicroProfilePrintf(CB, Handle, "var MetaAvg%d = [", i);
+ bOnce = true;
+ for(int j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName)
+ {
+ MicroProfilePrintf(CB, Handle, bOnce ? "%f" : ",%f", fRcpAggregateFrames * S.MetaCounters[j].nAggregate[i]);
+ bOnce = false;
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ MicroProfilePrintf(CB, Handle, "var MetaMax%d = [", i);
+ bOnce = true;
+ for(int j = 0; j < MICROPROFILE_META_MAX; ++j)
+ {
+ if(S.MetaCounters[j].pName)
+ {
+ MicroProfilePrintf(CB, Handle, bOnce ? "%d" : ",%d", S.MetaCounters[j].nAggregateMax[i]);
+ bOnce = false;
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+
+ uint32_t nColor = S.TimerInfo[i].nColor;
+ uint32_t nColorDark = (nColor >> 1) & ~0x80808080;
+ MicroProfilePrintf(CB, Handle, "TimerInfo[%d] = MakeTimer(%d, \"%s\", %d, '#%02x%02x%02x','#%02x%02x%02x', %f, %f, %f, %f, %f, %d, %f, Meta%d, MetaAvg%d, MetaMax%d);\n", S.TimerInfo[i].nTimerIndex, S.TimerInfo[i].nTimerIndex, S.TimerInfo[i].pName, S.TimerInfo[i].nGroupIndex,
+ MICROPROFILE_UNPACK_RED(nColor) & 0xff,
+ MICROPROFILE_UNPACK_GREEN(nColor) & 0xff,
+ MICROPROFILE_UNPACK_BLUE(nColor) & 0xff,
+ MICROPROFILE_UNPACK_RED(nColorDark) & 0xff,
+ MICROPROFILE_UNPACK_GREEN(nColorDark) & 0xff,
+ MICROPROFILE_UNPACK_BLUE(nColorDark) & 0xff,
+ pAverage[nIdx],
+ pMax[nIdx],
+ pAverageExclusive[nIdx],
+ pMaxExclusive[nIdx],
+ pCallAverage[nIdx],
+ S.Aggregate[i].nCount,
+ pTotal[nIdx],
+ i,i,i);
+
+ }
+
+ MicroProfilePrintf(CB, Handle, "\nvar ThreadNames = [");
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ MicroProfilePrintf(CB, Handle, "'%s',", S.Pool[i]->ThreadName);
+ }
+ else
+ {
+ MicroProfilePrintf(CB, Handle, "'Thread %d',", i);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n\n");
+
+
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ MicroProfilePrintf(CB, Handle, "var ThreadGroupTime%d = [", i);
+ float fToMs = S.Pool[i]->nGpu ? fToMsGPU : fToMsCPU;
+ for(uint32_t j = 0; j < MICROPROFILE_MAX_GROUPS; ++j)
+ {
+ MicroProfilePrintf(CB, Handle, "%f,", S.Pool[i]->nAggregateGroupTicks[j]/nAggregateFrames * fToMs);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "\nvar ThreadGroupTimeArray = [");
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ MicroProfilePrintf(CB, Handle, "ThreadGroupTime%d,", i);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ MicroProfilePrintf(CB, Handle, "var ThreadGroupTimeTotal%d = [", i);
+ float fToMs = S.Pool[i]->nGpu ? fToMsGPU : fToMsCPU;
+ for(uint32_t j = 0; j < MICROPROFILE_MAX_GROUPS; ++j)
+ {
+ MicroProfilePrintf(CB, Handle, "%f,", S.Pool[i]->nAggregateGroupTicks[j] * fToMs);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "\nvar ThreadGroupTimeTotalArray = [");
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ MicroProfilePrintf(CB, Handle, "ThreadGroupTimeTotal%d,", i);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];");
+
+
+
+
+ MicroProfilePrintf(CB, Handle, "\nvar ThreadIds = [");
+ for(uint32_t i = 0; i < S.nNumLogs; ++i)
+ {
+ if(S.Pool[i])
+ {
+ ThreadIdType ThreadId = S.Pool[i]->nThreadId;
+ if(!ThreadId)
+ {
+ ThreadId = (ThreadIdType)-1;
+ }
+ MicroProfilePrintf(CB, Handle, "%d,", ThreadId);
+ }
+ else
+ {
+ MicroProfilePrintf(CB, Handle, "-1,", i);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n\n");
+
+ MicroProfilePrintf(CB, Handle, "\nvar MetaNames = [");
+ for(int i = 0; i < MICROPROFILE_META_MAX; ++i)
+ {
+ if(S.MetaCounters[i].pName)
+ {
+ MicroProfilePrintf(CB, Handle, "'%s',", S.MetaCounters[i].pName);
+ }
+ }
+
+
+ MicroProfilePrintf(CB, Handle, "];\n\n");
+
+
+
+ uint32_t nNumFrames = (MICROPROFILE_MAX_FRAME_HISTORY - MICROPROFILE_GPU_FRAME_DELAY - 3); //leave a few to not overwrite
+ nNumFrames = MicroProfileMin(nNumFrames, (uint32_t)nMaxFrames);
+
+
+ uint32_t nFirstFrame = (S.nFrameCurrent + MICROPROFILE_MAX_FRAME_HISTORY - nNumFrames) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint32_t nLastFrame = (nFirstFrame + nNumFrames) % MICROPROFILE_MAX_FRAME_HISTORY;
+ MP_ASSERT(nLastFrame == (S.nFrameCurrent % MICROPROFILE_MAX_FRAME_HISTORY));
+ MP_ASSERT(nFirstFrame < MICROPROFILE_MAX_FRAME_HISTORY);
+ MP_ASSERT(nLastFrame < MICROPROFILE_MAX_FRAME_HISTORY);
+ const int64_t nTickStart = S.Frames[nFirstFrame].nFrameStartCpu;
+ const int64_t nTickEnd = S.Frames[nLastFrame].nFrameStartCpu;
+ int64_t nTickStartGpu = S.Frames[nFirstFrame].nFrameStartGpu;
+
+ int64_t nTickReferenceCpu, nTickReferenceGpu;
+ int64_t nTicksPerSecondCpu = MicroProfileTicksPerSecondCpu();
+ int64_t nTicksPerSecondGpu = MicroProfileTicksPerSecondGpu();
+ int nTickReference = 0;
+ if(MicroProfileGetGpuTickReference(&nTickReferenceCpu, &nTickReferenceGpu))
+ {
+ nTickStartGpu = (nTickStart - nTickReferenceCpu) * nTicksPerSecondGpu / nTicksPerSecondCpu + nTickReferenceGpu;
+ nTickReference = 1;
+ }
+
+
+#if MICROPROFILE_DEBUG
+ printf("dumping %d frames\n", nNumFrames);
+ printf("dumping frame %d to %d\n", nFirstFrame, nLastFrame);
+#endif
+
+
+ uint32_t* nTimerCounter = (uint32_t*)alloca(sizeof(uint32_t)* S.nTotalTimers);
+ memset(nTimerCounter, 0, sizeof(uint32_t) * S.nTotalTimers);
+
+ MicroProfilePrintf(CB, Handle, "var Frames = Array(%d);\n", nNumFrames);
+ for(uint32_t i = 0; i < nNumFrames; ++i)
+ {
+ uint32_t nFrameIndex = (nFirstFrame + i) % MICROPROFILE_MAX_FRAME_HISTORY;
+ uint32_t nFrameIndexNext = (nFrameIndex + 1) % MICROPROFILE_MAX_FRAME_HISTORY;
+
+ for(uint32_t j = 0; j < S.nNumLogs; ++j)
+ {
+ MicroProfileThreadLog* pLog = S.Pool[j];
+ int64_t nStartTickBase = pLog->nGpu ? nTickStartGpu : nTickStart;
+ uint32_t nLogStart = S.Frames[nFrameIndex].nLogStart[j];
+ uint32_t nLogEnd = S.Frames[nFrameIndexNext].nLogStart[j];
+
+ float fToMsCpu = MicroProfileTickToMsMultiplier(nTicksPerSecondCpu);
+ float fToMsBase = MicroProfileTickToMsMultiplier(pLog->nGpu ? nTicksPerSecondGpu : nTicksPerSecondCpu);
+ MicroProfilePrintf(CB, Handle, "var ts_%d_%d = [", i, j);
+ if(nLogStart != nLogEnd)
+ {
+ uint32_t k = nLogStart;
+ uint32_t nLogType = MicroProfileLogType(pLog->Log[k]);
+ float fToMs = nLogType == MP_LOG_GPU_EXTRA ? fToMsCpu : fToMsBase;
+ int64_t nStartTick = nLogType == MP_LOG_GPU_EXTRA ? nTickStart : nStartTickBase;
+ float fTime = nLogType == MP_LOG_META ? 0.f : MicroProfileLogTickDifference(nStartTick, pLog->Log[k]) * fToMs;
+ MicroProfilePrintf(CB, Handle, "%f", fTime);
+ for(k = (k+1) % MICROPROFILE_BUFFER_SIZE; k != nLogEnd; k = (k+1) % MICROPROFILE_BUFFER_SIZE)
+ {
+ uint32_t nLogType = MicroProfileLogType(pLog->Log[k]);
+ float fToMs = nLogType == MP_LOG_GPU_EXTRA ? fToMsCpu : fToMsBase;
+ nStartTick = nLogType == MP_LOG_GPU_EXTRA ? nTickStart : nStartTickBase;
+ float fTime = nLogType == MP_LOG_META ? 0.f : MicroProfileLogTickDifference(nStartTick, pLog->Log[k]) * fToMs;
+ MicroProfilePrintf(CB, Handle, ",%f", fTime);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ MicroProfilePrintf(CB, Handle, "var tt_%d_%d = [", i, j);
+ if(nLogStart != nLogEnd)
+ {
+ uint32_t k = nLogStart;
+ MicroProfilePrintf(CB, Handle, "%d", MicroProfileLogType(pLog->Log[k]));
+ for(k = (k+1) % MICROPROFILE_BUFFER_SIZE; k != nLogEnd; k = (k+1) % MICROPROFILE_BUFFER_SIZE)
+ {
+ uint32_t nLogType = MicroProfileLogType(pLog->Log[k]);
+ if(nLogType == MP_LOG_META)
+ {
+ //for meta, store the count + 3, which is the tick part
+ nLogType = 3 + MicroProfileLogGetTick(pLog->Log[k]);
+ }
+ MicroProfilePrintf(CB, Handle, ",%d", nLogType);
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+ MicroProfilePrintf(CB, Handle, "var ti_%d_%d = [", i, j);
+ if(nLogStart != nLogEnd)
+ {
+ uint32_t k = nLogStart;
+ MicroProfilePrintf(CB, Handle, "%d", (uint32_t)MicroProfileLogTimerIndex(pLog->Log[k]));
+ for(k = (k+1) % MICROPROFILE_BUFFER_SIZE; k != nLogEnd; k = (k+1) % MICROPROFILE_BUFFER_SIZE)
+ {
+ uint32_t nTimerIndex = (uint32_t)MicroProfileLogTimerIndex(pLog->Log[k]);
+ MicroProfilePrintf(CB, Handle, ",%d", nTimerIndex);
+ nTimerCounter[nTimerIndex]++;
+ }
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+ }
+
+ MicroProfilePrintf(CB, Handle, "var ts%d = [", i);
+ for(uint32_t j = 0; j < S.nNumLogs; ++j)
+ {
+ MicroProfilePrintf(CB, Handle, "ts_%d_%d,", i, j);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ MicroProfilePrintf(CB, Handle, "var tt%d = [", i);
+ for(uint32_t j = 0; j < S.nNumLogs; ++j)
+ {
+ MicroProfilePrintf(CB, Handle, "tt_%d_%d,", i, j);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+ MicroProfilePrintf(CB, Handle, "var ti%d = [", i);
+ for(uint32_t j = 0; j < S.nNumLogs; ++j)
+ {
+ MicroProfilePrintf(CB, Handle, "ti_%d_%d,", i, j);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+
+
+ int64_t nFrameStart = S.Frames[nFrameIndex].nFrameStartCpu;
+ int64_t nFrameEnd = S.Frames[nFrameIndexNext].nFrameStartCpu;
+
+ float fToMs = MicroProfileTickToMsMultiplier(nTicksPerSecondCpu);
+ float fFrameMs = MicroProfileLogTickDifference(nTickStart, nFrameStart) * fToMs;
+ float fFrameEndMs = MicroProfileLogTickDifference(nTickStart, nFrameEnd) * fToMs;
+ float fFrameGpuMs = 0;
+ float fFrameGpuEndMs = 0;
+ if(nTickReference)
+ {
+ fFrameGpuMs = MicroProfileLogTickDifference(nTickStartGpu, S.Frames[nFrameIndex].nFrameStartGpu) * fToMsGPU;
+ fFrameGpuEndMs = MicroProfileLogTickDifference(nTickStartGpu, S.Frames[nFrameIndexNext].nFrameStartGpu) * fToMsGPU;
+ }
+ MicroProfilePrintf(CB, Handle, "Frames[%d] = MakeFrame(%d, %f, %f, %f, %f, ts%d, tt%d, ti%d);\n", i, 0, fFrameMs, fFrameEndMs, fFrameGpuMs, fFrameGpuEndMs, i, i, i);
+ }
+
+ uint32_t nContextSwitchStart = 0;
+ uint32_t nContextSwitchEnd = 0;
+ MicroProfileContextSwitchSearch(&nContextSwitchStart, &nContextSwitchEnd, nTickStart, nTickEnd);
+
+ uint32_t nWrittenBefore = S.nWebServerDataSent;
+ MicroProfilePrintf(CB, Handle, "var CSwitchThreadInOutCpu = [");
+ for(uint32_t j = nContextSwitchStart; j != nContextSwitchEnd; j = (j+1) % MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE)
+ {
+ MicroProfileContextSwitch CS = S.ContextSwitch[j];
+ int nCpu = CS.nCpu;
+ MicroProfilePrintf(CB, Handle, "%d,%d,%d,", CS.nThreadIn, CS.nThreadOut, nCpu);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ MicroProfilePrintf(CB, Handle, "var CSwitchTime = [");
+ float fToMsCpu = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondCpu());
+ for(uint32_t j = nContextSwitchStart; j != nContextSwitchEnd; j = (j+1) % MICROPROFILE_CONTEXT_SWITCH_BUFFER_SIZE)
+ {
+ MicroProfileContextSwitch CS = S.ContextSwitch[j];
+ float fTime = MicroProfileLogTickDifference(nTickStart, CS.nTicks) * fToMsCpu;
+ MicroProfilePrintf(CB, Handle, "%f,", fTime);
+ }
+ MicroProfilePrintf(CB, Handle, "];\n");
+ uint32_t nWrittenAfter = S.nWebServerDataSent;
+ MicroProfilePrintf(CB, Handle, "//CSwitch Size %d\n", nWrittenAfter - nWrittenBefore);
+
+
+ for(size_t i = 0; i < g_MicroProfileHtml_end_count; ++i)
+ {
+ CB(Handle, g_MicroProfileHtml_end_sizes[i]-1, g_MicroProfileHtml_end[i]);
+ }
+
+ uint32_t* nGroupCounter = (uint32_t*)alloca(sizeof(uint32_t)* S.nGroupCount);
+
+ memset(nGroupCounter, 0, sizeof(uint32_t) * S.nGroupCount);
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ uint32_t nGroupIndex = S.TimerInfo[i].nGroupIndex;
+ nGroupCounter[nGroupIndex] += nTimerCounter[i];
+ }
+
+ uint32_t* nGroupCounterSort = (uint32_t*)alloca(sizeof(uint32_t)* S.nGroupCount);
+ uint32_t* nTimerCounterSort = (uint32_t*)alloca(sizeof(uint32_t)* S.nTotalTimers);
+ for(uint32_t i = 0; i < S.nGroupCount; ++i)
+ {
+ nGroupCounterSort[i] = i;
+ }
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ nTimerCounterSort[i] = i;
+ }
+ std::sort(nGroupCounterSort, nGroupCounterSort + S.nGroupCount,
+ [nGroupCounter](const uint32_t l, const uint32_t r)
+ {
+ return nGroupCounter[l] > nGroupCounter[r];
+ }
+ );
+
+ std::sort(nTimerCounterSort, nTimerCounterSort + S.nTotalTimers,
+ [nTimerCounter](const uint32_t l, const uint32_t r)
+ {
+ return nTimerCounter[l] > nTimerCounter[r];
+ }
+ );
+
+ MicroProfilePrintf(CB, Handle, "\n<!--\nMarker Per Group\n");
+ for(uint32_t i = 0; i < S.nGroupCount; ++i)
+ {
+ uint32_t idx = nGroupCounterSort[i];
+ MicroProfilePrintf(CB, Handle, "%8d:%s\n", nGroupCounter[idx], S.GroupInfo[idx].pName);
+ }
+ MicroProfilePrintf(CB, Handle, "Marker Per Timer\n");
+ for(uint32_t i = 0; i < S.nTotalTimers; ++i)
+ {
+ uint32_t idx = nTimerCounterSort[i];
+ MicroProfilePrintf(CB, Handle, "%8d:%s(%s)\n", nTimerCounter[idx], S.TimerInfo[idx].pName, S.GroupInfo[S.TimerInfo[idx].nGroupIndex].pName);
+ }
+ MicroProfilePrintf(CB, Handle, "\n-->\n");
+
+ S.nActiveGroup = nActiveGroup;
+ S.nRunning = nRunning;
+
+#if MICROPROFILE_DEBUG
+ int64_t nTicksEnd = MP_TICK();
+ float fMs = fToMsCpu * (nTicksEnd - S.nPauseTicks);
+ printf("html dump took %6.2fms\n", fMs);
+#endif
+
+
+}
+
+void MicroProfileWriteFile(void* Handle, size_t nSize, const char* pData)
+{
+ fwrite(pData, nSize, 1, (FILE*)Handle);
+}
+
+void MicroProfileDumpToFile()
+{
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ if(S.nDumpFileNextFrame&1)
+ {
+ FILE* F = fopen(S.HtmlDumpPath, "w");
+ if(F)
+ {
+ MicroProfileDumpHtml(MicroProfileWriteFile, F, MICROPROFILE_WEBSERVER_MAXFRAMES, S.HtmlDumpPath);
+ fclose(F);
+ }
+ }
+ if(S.nDumpFileNextFrame&2)
+ {
+ FILE* F = fopen(S.CsvDumpPath, "w");
+ if(F)
+ {
+ MicroProfileDumpCsv(MicroProfileWriteFile, F, MICROPROFILE_WEBSERVER_MAXFRAMES);
+ fclose(F);
+ }
+ }
+}
+
+void MicroProfileFlushSocket(MpSocket Socket)
+{
+ send(Socket, &S.WebServerBuffer[0], S.WebServerPut, 0);
+ S.WebServerPut = 0;
+
+}
+
+void MicroProfileWriteSocket(void* Handle, size_t nSize, const char* pData)
+{
+ S.nWebServerDataSent += nSize;
+ MpSocket Socket = *(MpSocket*)Handle;
+ if(nSize > MICROPROFILE_WEBSERVER_SOCKET_BUFFER_SIZE / 2)
+ {
+ MicroProfileFlushSocket(Socket);
+ send(Socket, pData, nSize, 0);
+
+ }
+ else
+ {
+ memcpy(&S.WebServerBuffer[S.WebServerPut], pData, nSize);
+ S.WebServerPut += nSize;
+ if(S.WebServerPut > MICROPROFILE_WEBSERVER_SOCKET_BUFFER_SIZE/2)
+ {
+ MicroProfileFlushSocket(Socket);
+ }
+ }
+}
+
+#if MICROPROFILE_MINIZ
+#ifndef MICROPROFILE_COMPRESS_BUFFER_SIZE
+#define MICROPROFILE_COMPRESS_BUFFER_SIZE (256<<10)
+#endif
+
+#define MICROPROFILE_COMPRESS_CHUNK (MICROPROFILE_COMPRESS_BUFFER_SIZE/2)
+struct MicroProfileCompressedSocketState
+{
+ unsigned char DeflateOut[MICROPROFILE_COMPRESS_CHUNK];
+ unsigned char DeflateIn[MICROPROFILE_COMPRESS_CHUNK];
+ mz_stream Stream;
+ MpSocket Socket;
+ uint32_t nSize;
+ uint32_t nCompressedSize;
+ uint32_t nFlushes;
+ uint32_t nMemmoveBytes;
+};
+
+void MicroProfileCompressedSocketFlush(MicroProfileCompressedSocketState* pState)
+{
+ mz_stream& Stream = pState->Stream;
+ unsigned char* pSendStart = &pState->DeflateOut[0];
+ unsigned char* pSendEnd = &pState->DeflateOut[MICROPROFILE_COMPRESS_CHUNK - Stream.avail_out];
+ if(pSendStart != pSendEnd)
+ {
+ send(pState->Socket, (const char*)pSendStart, pSendEnd - pSendStart, 0);
+ pState->nCompressedSize += pSendEnd - pSendStart;
+ }
+ Stream.next_out = &pState->DeflateOut[0];
+ Stream.avail_out = MICROPROFILE_COMPRESS_CHUNK;
+
+}
+void MicroProfileCompressedSocketStart(MicroProfileCompressedSocketState* pState, MpSocket Socket)
+{
+ mz_stream& Stream = pState->Stream;
+ memset(&Stream, 0, sizeof(Stream));
+ Stream.next_out = &pState->DeflateOut[0];
+ Stream.avail_out = MICROPROFILE_COMPRESS_CHUNK;
+ Stream.next_in = &pState->DeflateIn[0];
+ Stream.avail_in = 0;
+ mz_deflateInit(&Stream, Z_DEFAULT_COMPRESSION);
+ pState->Socket = Socket;
+ pState->nSize = 0;
+ pState->nCompressedSize = 0;
+ pState->nFlushes = 0;
+ pState->nMemmoveBytes = 0;
+
+}
+void MicroProfileCompressedSocketFinish(MicroProfileCompressedSocketState* pState)
+{
+ mz_stream& Stream = pState->Stream;
+ MicroProfileCompressedSocketFlush(pState);
+ int r = mz_deflate(&Stream, MZ_FINISH);
+ MP_ASSERT(r == MZ_STREAM_END);
+ MicroProfileCompressedSocketFlush(pState);
+ r = mz_deflateEnd(&Stream);
+ MP_ASSERT(r == MZ_OK);
+}
+
+void MicroProfileCompressedWriteSocket(void* Handle, size_t nSize, const char* pData)
+{
+ MicroProfileCompressedSocketState* pState = (MicroProfileCompressedSocketState*)Handle;
+ mz_stream& Stream = pState->Stream;
+ const unsigned char* pDeflateInEnd = Stream.next_in + Stream.avail_in;
+ const unsigned char* pDeflateInStart = &pState->DeflateIn[0];
+ const unsigned char* pDeflateInRealEnd = &pState->DeflateIn[MICROPROFILE_COMPRESS_CHUNK];
+ pState->nSize += nSize;
+ if(nSize <= pDeflateInRealEnd - pDeflateInEnd)
+ {
+ memcpy((void*)pDeflateInEnd, pData, nSize);
+ Stream.avail_in += nSize;
+ MP_ASSERT(Stream.next_in + Stream.avail_in <= pDeflateInRealEnd);
+ return;
+ }
+ int Flush = 0;
+ while(nSize)
+ {
+ pDeflateInEnd = Stream.next_in + Stream.avail_in;
+ if(Flush)
+ {
+ pState->nFlushes++;
+ MicroProfileCompressedSocketFlush(pState);
+ pDeflateInRealEnd = &pState->DeflateIn[MICROPROFILE_COMPRESS_CHUNK];
+ if(pDeflateInEnd == pDeflateInRealEnd)
+ {
+ if(Stream.avail_in)
+ {
+ MP_ASSERT(pDeflateInStart != Stream.next_in);
+ memmove((void*)pDeflateInStart, Stream.next_in, Stream.avail_in);
+ pState->nMemmoveBytes += Stream.avail_in;
+ }
+ Stream.next_in = pDeflateInStart;
+ pDeflateInEnd = Stream.next_in + Stream.avail_in;
+ }
+ }
+ size_t nSpace = pDeflateInRealEnd - pDeflateInEnd;
+ size_t nBytes = MicroProfileMin(nSpace, nSize);
+ MP_ASSERT(nBytes + pDeflateInEnd <= pDeflateInRealEnd);
+ memcpy((void*)pDeflateInEnd, pData, nBytes);
+ Stream.avail_in += nBytes;
+ nSize -= nBytes;
+ pData += nBytes;
+ int r = mz_deflate(&Stream, MZ_NO_FLUSH);
+ Flush = r == MZ_BUF_ERROR || nBytes == 0 || Stream.avail_out == 0 ? 1 : 0;
+ MP_ASSERT(r == MZ_BUF_ERROR || r == MZ_OK);
+ if(r == MZ_BUF_ERROR)
+ {
+ r = mz_deflate(&Stream, MZ_SYNC_FLUSH);
+ }
+ }
+}
+#endif
+
+
+#ifndef MicroProfileSetNonBlocking //fcntl doesnt work on a some unix like platforms..
+void MicroProfileSetNonBlocking(MpSocket Socket, int NonBlocking)
+{
+#ifdef _WIN32
+ u_long nonBlocking = NonBlocking ? 1 : 0;
+ ioctlsocket(Socket, FIONBIO, &nonBlocking);
+#else
+ int Options = fcntl(Socket, F_GETFL);
+ if(NonBlocking)
+ {
+ fcntl(Socket, F_SETFL, Options|O_NONBLOCK);
+ }
+ else
+ {
+ fcntl(Socket, F_SETFL, Options&(~O_NONBLOCK));
+ }
+#endif
+}
+#endif
+
+void MicroProfileWebServerStart()
+{
+#ifdef _WIN32
+ WSADATA wsa;
+ if(WSAStartup(MAKEWORD(2, 2), &wsa))
+ {
+ S.ListenerSocket = -1;
+ return;
+ }
+#endif
+
+ S.ListenerSocket = socket(PF_INET, SOCK_STREAM, 6);
+ MP_ASSERT(!MP_INVALID_SOCKET(S.ListenerSocket));
+ MicroProfileSetNonBlocking(S.ListenerSocket, 1);
+
+ S.nWebServerPort = (uint32_t)-1;
+ struct sockaddr_in Addr;
+ Addr.sin_family = AF_INET;
+ Addr.sin_addr.s_addr = INADDR_ANY;
+ for(int i = 0; i < 20; ++i)
+ {
+ Addr.sin_port = htons(MICROPROFILE_WEBSERVER_PORT+i);
+ if(0 == bind(S.ListenerSocket, (sockaddr*)&Addr, sizeof(Addr)))
+ {
+ S.nWebServerPort = MICROPROFILE_WEBSERVER_PORT+i;
+ break;
+ }
+ }
+ listen(S.ListenerSocket, 8);
+}
+
+void MicroProfileWebServerStop()
+{
+#ifdef _WIN32
+ closesocket(S.ListenerSocket);
+ WSACleanup();
+#else
+ close(S.ListenerSocket);
+#endif
+}
+
+int MicroProfileParseGet(const char* pGet)
+{
+ const char* pStart = pGet;
+ while(*pGet != '\0')
+ {
+ if(*pGet < '0' || *pGet > '9')
+ return 0;
+ pGet++;
+ }
+ int nFrames = atoi(pStart);
+ if(nFrames)
+ {
+ return nFrames;
+ }
+ else
+ {
+ return MICROPROFILE_WEBSERVER_MAXFRAMES;
+ }
+}
+bool MicroProfileWebServerUpdate()
+{
+ MICROPROFILE_SCOPEI("MicroProfile", "Webserver-update", -1);
+ MpSocket Connection = accept(S.ListenerSocket, 0, 0);
+ bool bServed = false;
+ if(!MP_INVALID_SOCKET(Connection))
+ {
+ std::lock_guard<std::recursive_mutex> Lock(MicroProfileMutex());
+ char Req[8192];
+ MicroProfileSetNonBlocking(Connection, 0);
+ int nReceived = recv(Connection, Req, sizeof(Req)-1, 0);
+ if(nReceived > 0)
+ {
+ Req[nReceived] = '\0';
+#if MICROPROFILE_MINIZ
+#define MICROPROFILE_HTML_HEADER "HTTP/1.0 200 OK\r\nContent-Type: text/html\r\nContent-Encoding: deflate\r\nExpires: Tue, 01 Jan 2199 16:00:00 GMT\r\n\r\n"
+#else
+#define MICROPROFILE_HTML_HEADER "HTTP/1.0 200 OK\r\nContent-Type: text/html\r\nExpires: Tue, 01 Jan 2199 16:00:00 GMT\r\n\r\n"
+#endif
+ char* pHttp = strstr(Req, "HTTP/");
+ char* pGet = strstr(Req, "GET /");
+ char* pHost = strstr(Req, "Host: ");
+ auto Terminate = [](char* pString)
+ {
+ char* pEnd = pString;
+ while(*pEnd != '\0')
+ {
+ if(*pEnd == '\r' || *pEnd == '\n' || *pEnd == ' ')
+ {
+ *pEnd = '\0';
+ return;
+ }
+ pEnd++;
+ }
+ };
+ if(pHost)
+ {
+ pHost += sizeof("Host: ")-1;
+ Terminate(pHost);
+ }
+
+ if(pHttp && pGet)
+ {
+ *pHttp = '\0';
+ pGet += sizeof("GET /")-1;
+ Terminate(pGet);
+ int nFrames = MicroProfileParseGet(pGet);
+ if(nFrames)
+ {
+ uint64_t nTickStart = MP_TICK();
+ send(Connection, MICROPROFILE_HTML_HEADER, sizeof(MICROPROFILE_HTML_HEADER)-1, 0);
+ uint64_t nDataStart = S.nWebServerDataSent;
+ S.WebServerPut = 0;
+ #if 0 == MICROPROFILE_MINIZ
+ MicroProfileDumpHtml(MicroProfileWriteSocket, &Connection, nFrames, pHost);
+ uint64_t nDataEnd = S.nWebServerDataSent;
+ uint64_t nTickEnd = MP_TICK();
+ uint64_t nDiff = (nTickEnd - nTickStart);
+ float fMs = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondCpu()) * nDiff;
+ int nKb = ((nDataEnd-nDataStart)>>10) + 1;
+ int nCompressedKb = nKb;
+ MicroProfilePrintf(MicroProfileWriteSocket, &Connection, "\n<!-- Sent %dkb in %.2fms-->\n\n",nKb, fMs);
+ MicroProfileFlushSocket(Connection);
+ #else
+ MicroProfileCompressedSocketState CompressState;
+ MicroProfileCompressedSocketStart(&CompressState, Connection);
+ MicroProfileDumpHtml(MicroProfileCompressedWriteSocket, &CompressState, nFrames, pHost);
+ S.nWebServerDataSent += CompressState.nSize;
+ uint64_t nDataEnd = S.nWebServerDataSent;
+ uint64_t nTickEnd = MP_TICK();
+ uint64_t nDiff = (nTickEnd - nTickStart);
+ float fMs = MicroProfileTickToMsMultiplier(MicroProfileTicksPerSecondCpu()) * nDiff;
+ int nKb = ((nDataEnd-nDataStart)>>10) + 1;
+ int nCompressedKb = ((CompressState.nCompressedSize)>>10) + 1;
+ MicroProfilePrintf(MicroProfileCompressedWriteSocket, &CompressState, "\n<!-- Sent %dkb(compressed %dkb) in %.2fms-->\n\n", nKb, nCompressedKb, fMs);
+ MicroProfileCompressedSocketFinish(&CompressState);
+ MicroProfileFlushSocket(Connection);
+ #endif
+
+ #if MICROPROFILE_DEBUG
+ printf("\n<!-- Sent %dkb(compressed %dkb) in %.2fms-->\n\n", nKb, nCompressedKb, fMs);
+ #endif
+ }
+ }
+ }
+#ifdef _WIN32
+ closesocket(Connection);
+#else
+ close(Connection);
+#endif
+ }
+ return bServed;
+}
+#endif
+
+
+
+
+#if MICROPROFILE_CONTEXT_SWITCH_TRACE
+//functions that need to be implemented per platform.
+void* MicroProfileTraceThread(void* unused);
+bool MicroProfileIsLocalThread(uint32_t nThreadId);
+
+
+void MicroProfileStartContextSwitchTrace()
+{
+ if(!S.bContextSwitchRunning)
+ {
+ S.bContextSwitchRunning = true;
+ S.bContextSwitchStop = false;
+ MicroProfileThreadStart(&S.ContextSwitchThread, MicroProfileTraceThread);
+ }
+}
+
+void MicroProfileStopContextSwitchTrace()
+{
+ if(S.bContextSwitchRunning)
+ {
+ S.bContextSwitchStop = true;
+ MicroProfileThreadJoin(&S.ContextSwitchThread);
+ }
+}
+
+
+#ifdef _WIN32
+#define INITGUID
+#include <evntrace.h>
+#include <evntcons.h>
+#include <strsafe.h>
+
+
+static GUID g_MicroProfileThreadClassGuid = { 0x3d6fa8d1, 0xfe05, 0x11d0, 0x9d, 0xda, 0x00, 0xc0, 0x4f, 0xd7, 0xba, 0x7c };
+
+struct MicroProfileSCSwitch
+{
+ uint32_t NewThreadId;
+ uint32_t OldThreadId;
+ int8_t NewThreadPriority;
+ int8_t OldThreadPriority;
+ uint8_t PreviousCState;
+ int8_t SpareByte;
+ int8_t OldThreadWaitReason;
+ int8_t OldThreadWaitMode;
+ int8_t OldThreadState;
+ int8_t OldThreadWaitIdealProcessor;
+ uint32_t NewThreadWaitTime;
+ uint32_t Reserved;
+};
+
+
+VOID WINAPI MicroProfileContextSwitchCallback(PEVENT_TRACE pEvent)
+{
+ if (pEvent->Header.Guid == g_MicroProfileThreadClassGuid)
+ {
+ if (pEvent->Header.Class.Type == 36)
+ {
+ MicroProfileSCSwitch* pCSwitch = (MicroProfileSCSwitch*) pEvent->MofData;
+ if ((pCSwitch->NewThreadId != 0) || (pCSwitch->OldThreadId != 0))
+ {
+ MicroProfileContextSwitch Switch;
+ Switch.nThreadOut = pCSwitch->OldThreadId;
+ Switch.nThreadIn = pCSwitch->NewThreadId;
+ Switch.nCpu = pEvent->BufferContext.ProcessorNumber;
+ Switch.nTicks = pEvent->Header.TimeStamp.QuadPart;
+ MicroProfileContextSwitchPut(&Switch);
+ }
+ }
+ }
+}
+
+ULONG WINAPI MicroProfileBufferCallback(PEVENT_TRACE_LOGFILE Buffer)
+{
+ return (S.bContextSwitchStop || !S.bContextSwitchRunning) ? FALSE : TRUE;
+}
+
+
+struct MicroProfileKernelTraceProperties : public EVENT_TRACE_PROPERTIES
+{
+ char dummy[sizeof(KERNEL_LOGGER_NAME)];
+};
+
+void MicroProfileContextSwitchShutdownTrace()
+{
+ TRACEHANDLE SessionHandle = 0;
+ MicroProfileKernelTraceProperties sessionProperties;
+
+ ZeroMemory(&sessionProperties, sizeof(sessionProperties));
+ sessionProperties.Wnode.BufferSize = sizeof(sessionProperties);
+ sessionProperties.Wnode.Flags = WNODE_FLAG_TRACED_GUID;
+ sessionProperties.Wnode.ClientContext = 1; //QPC clock resolution
+ sessionProperties.Wnode.Guid = SystemTraceControlGuid;
+ sessionProperties.BufferSize = 1;
+ sessionProperties.NumberOfBuffers = 128;
+ sessionProperties.EnableFlags = EVENT_TRACE_FLAG_CSWITCH;
+ sessionProperties.LogFileMode = EVENT_TRACE_REAL_TIME_MODE;
+ sessionProperties.MaximumFileSize = 0;
+ sessionProperties.LoggerNameOffset = sizeof(EVENT_TRACE_PROPERTIES);
+ sessionProperties.LogFileNameOffset = 0;
+
+ EVENT_TRACE_LOGFILE log;
+ ZeroMemory(&log, sizeof(log));
+ log.LoggerName = KERNEL_LOGGER_NAME;
+ log.ProcessTraceMode = 0;
+ TRACEHANDLE hLog = OpenTrace(&log);
+ if (hLog)
+ {
+ ControlTrace(SessionHandle, KERNEL_LOGGER_NAME, &sessionProperties, EVENT_TRACE_CONTROL_STOP);
+ }
+ CloseTrace(hLog);
+
+
+}
+
+void* MicroProfileTraceThread(void* unused)
+{
+
+ MicroProfileContextSwitchShutdownTrace();
+ ULONG status = ERROR_SUCCESS;
+ TRACEHANDLE SessionHandle = 0;
+ MicroProfileKernelTraceProperties sessionProperties;
+
+ ZeroMemory(&sessionProperties, sizeof(sessionProperties));
+ sessionProperties.Wnode.BufferSize = sizeof(sessionProperties);
+ sessionProperties.Wnode.Flags = WNODE_FLAG_TRACED_GUID;
+ sessionProperties.Wnode.ClientContext = 1; //QPC clock resolution
+ sessionProperties.Wnode.Guid = SystemTraceControlGuid;
+ sessionProperties.BufferSize = 1;
+ sessionProperties.NumberOfBuffers = 128;
+ sessionProperties.EnableFlags = EVENT_TRACE_FLAG_CSWITCH|EVENT_TRACE_FLAG_PROCESS;
+ sessionProperties.LogFileMode = EVENT_TRACE_REAL_TIME_MODE;
+ sessionProperties.MaximumFileSize = 0;
+ sessionProperties.LoggerNameOffset = sizeof(EVENT_TRACE_PROPERTIES);
+ sessionProperties.LogFileNameOffset = 0;
+
+
+ status = StartTrace((PTRACEHANDLE) &SessionHandle, KERNEL_LOGGER_NAME, &sessionProperties);
+
+ if (ERROR_SUCCESS != status)
+ {
+ S.bContextSwitchRunning = false;
+ return 0;
+ }
+
+ EVENT_TRACE_LOGFILE log;
+ ZeroMemory(&log, sizeof(log));
+
+ log.LoggerName = KERNEL_LOGGER_NAME;
+ log.ProcessTraceMode = PROCESS_TRACE_MODE_REAL_TIME | PROCESS_TRACE_MODE_RAW_TIMESTAMP;
+ log.EventCallback = MicroProfileContextSwitchCallback;
+ log.BufferCallback = MicroProfileBufferCallback;
+
+ TRACEHANDLE hLog = OpenTrace(&log);
+ ProcessTrace(&hLog, 1, 0, 0);
+ CloseTrace(hLog);
+ MicroProfileContextSwitchShutdownTrace();
+
+ S.bContextSwitchRunning = false;
+ return 0;
+}
+
+bool MicroProfileIsLocalThread(uint32_t nThreadId)
+{
+ HANDLE h = OpenThread(THREAD_QUERY_LIMITED_INFORMATION, FALSE, nThreadId);
+ if(h == NULL)
+ return false;
+ DWORD hProcess = GetProcessIdOfThread(h);
+ CloseHandle(h);
+ return GetCurrentProcessId() == hProcess;
+}
+
+#elif defined(__APPLE__)
+#include <sys/time.h>
+void* MicroProfileTraceThread(void* unused)
+{
+ FILE* pFile = fopen("mypipe", "r");
+ if(!pFile)
+ {
+ printf("CONTEXT SWITCH FAILED TO OPEN FILE: make sure to run dtrace script\n");
+ S.bContextSwitchRunning = false;
+ return 0;
+ }
+ printf("STARTING TRACE THREAD\n");
+ char* pLine = 0;
+ size_t cap = 0;
+ size_t len = 0;
+ struct timeval tv;
+
+ gettimeofday(&tv, NULL);
+
+ uint64_t nsSinceEpoch = ((uint64_t)(tv.tv_sec) * 1000000 + (uint64_t)(tv.tv_usec)) * 1000;
+ uint64_t nTickEpoch = MP_TICK();
+ uint32_t nLastThread[MICROPROFILE_MAX_CONTEXT_SWITCH_THREADS] = {0};
+ mach_timebase_info_data_t sTimebaseInfo;
+ mach_timebase_info(&sTimebaseInfo);
+ S.bContextSwitchRunning = true;
+
+ uint64_t nProcessed = 0;
+ uint64_t nProcessedLast = 0;
+ while((len = getline(&pLine, &cap, pFile))>0 && !S.bContextSwitchStop)
+ {
+ nProcessed += len;
+ if(nProcessed - nProcessedLast > 10<<10)
+ {
+ nProcessedLast = nProcessed;
+ printf("processed %llukb %llukb\n", (nProcessed-nProcessedLast)>>10,nProcessed >>10);
+ }
+
+ char* pX = strchr(pLine, 'X');
+ if(pX)
+ {
+ int cpu = atoi(pX+1);
+ char* pX2 = strchr(pX + 1, 'X');
+ char* pX3 = strchr(pX2 + 1, 'X');
+ int thread = atoi(pX2+1);
+ char* lala;
+ int64_t timestamp = strtoll(pX3 + 1, &lala, 10);
+ MicroProfileContextSwitch Switch;
+
+ //convert to ticks.
+ uint64_t nDeltaNsSinceEpoch = timestamp - nsSinceEpoch;
+ uint64_t nDeltaTickSinceEpoch = sTimebaseInfo.numer * nDeltaNsSinceEpoch / sTimebaseInfo.denom;
+ uint64_t nTicks = nDeltaTickSinceEpoch + nTickEpoch;
+ if(cpu < MICROPROFILE_MAX_CONTEXT_SWITCH_THREADS)
+ {
+ Switch.nThreadOut = nLastThread[cpu];
+ Switch.nThreadIn = thread;
+ nLastThread[cpu] = thread;
+ Switch.nCpu = cpu;
+ Switch.nTicks = nTicks;
+ MicroProfileContextSwitchPut(&Switch);
+ }
+ }
+ }
+ printf("EXITING TRACE THREAD\n");
+ S.bContextSwitchRunning = false;
+ return 0;
+}
+
+bool MicroProfileIsLocalThread(uint32_t nThreadId)
+{
+ return false;
+}
+
+#endif
+#else
+
+bool MicroProfileIsLocalThread(uint32_t nThreadId){return false;}
+void MicroProfileStopContextSwitchTrace(){}
+void MicroProfileStartContextSwitchTrace(){}
+
+#endif
+
+
+
+
+#if MICROPROFILE_GPU_TIMERS_D3D11
+uint32_t MicroProfileGpuInsertTimeStamp()
+{
+ MicroProfileD3D11Frame& Frame = S.GPU.m_QueryFrames[S.GPU.m_nQueryFrame];
+ if(Frame.m_nRateQueryStarted)
+ {
+ uint32_t nCurrent = (Frame.m_nQueryStart + Frame.m_nQueryCount) % MICROPROFILE_D3D_MAX_QUERIES;
+ uint32_t nNext = (nCurrent + 1) % MICROPROFILE_D3D_MAX_QUERIES;
+ if(nNext != S.GPU.m_nQueryGet)
+ {
+ Frame.m_nQueryCount++;
+ ID3D11Query* pQuery = (ID3D11Query*)S.GPU.m_pQueries[nCurrent];
+ ID3D11DeviceContext* pContext = (ID3D11DeviceContext*)S.GPU.m_pDeviceContext;
+ pContext->End(pQuery);
+ S.GPU.m_nQueryPut = nNext;
+ return nCurrent;
+ }
+ }
+ return (uint32_t)-1;
+}
+
+uint64_t MicroProfileGpuGetTimeStamp(uint32_t nIndex)
+{
+ if(nIndex == (uint32_t)-1)
+ {
+ return (uint64_t)-1;
+ }
+ int64_t nResult = S.GPU.m_nQueryResults[nIndex];
+ MP_ASSERT(nResult != -1);
+ return nResult;
+}
+
+bool MicroProfileGpuGetData(void* pQuery, void* pData, uint32_t nDataSize)
+{
+ HRESULT hr;
+ do
+ {
+ hr = ((ID3D11DeviceContext*)S.GPU.m_pDeviceContext)->GetData((ID3D11Query*)pQuery, pData, nDataSize, 0);
+ }while(hr == S_FALSE);
+ switch(hr)
+ {
+ case DXGI_ERROR_DEVICE_REMOVED:
+ case DXGI_ERROR_INVALID_CALL:
+ case E_INVALIDARG:
+ MP_BREAK();
+ return false;
+
+ }
+ return true;
+}
+
+uint64_t MicroProfileTicksPerSecondGpu()
+{
+ return S.GPU.m_nQueryFrequency;
+}
+
+void MicroProfileGpuFlip()
+{
+ MicroProfileD3D11Frame& CurrentFrame = S.GPU.m_QueryFrames[S.GPU.m_nQueryFrame];
+ ID3D11DeviceContext* pContext = (ID3D11DeviceContext*)S.GPU.m_pDeviceContext;
+ if(CurrentFrame.m_nRateQueryStarted)
+ {
+ pContext->End((ID3D11Query*)CurrentFrame.m_pRateQuery);
+ }
+ uint32_t nNextFrame = (S.GPU.m_nQueryFrame + 1) % MICROPROFILE_GPU_FRAME_DELAY;
+ MicroProfileD3D11Frame& OldFrame = S.GPU.m_QueryFrames[nNextFrame];
+ if(OldFrame.m_nRateQueryStarted)
+ {
+ struct RateQueryResult
+ {
+ uint64_t nFrequency;
+ BOOL bDisjoint;
+ };
+ RateQueryResult Result;
+ if(MicroProfileGpuGetData(OldFrame.m_pRateQuery, &Result, sizeof(Result)))
+ {
+ if(S.GPU.m_nQueryFrequency != (int64_t)Result.nFrequency)
+ {
+ if(S.GPU.m_nQueryFrequency)
+ {
+ OutputDebugString("Query freq changing");
+ }
+ S.GPU.m_nQueryFrequency = Result.nFrequency;
+ }
+ uint32_t nStart = OldFrame.m_nQueryStart;
+ uint32_t nCount = OldFrame.m_nQueryCount;
+ for(uint32_t i = 0; i < nCount; ++i)
+ {
+ uint32_t nIndex = (i + nStart) % MICROPROFILE_D3D_MAX_QUERIES;
+
+
+
+ if(!MicroProfileGpuGetData(S.GPU.m_pQueries[nIndex], &S.GPU.m_nQueryResults[nIndex], sizeof(uint64_t)))
+ {
+ S.GPU.m_nQueryResults[nIndex] = -1;
+ }
+ }
+ }
+ else
+ {
+ uint32_t nStart = OldFrame.m_nQueryStart;
+ uint32_t nCount = OldFrame.m_nQueryCount;
+ for(uint32_t i = 0; i < nCount; ++i)
+ {
+ uint32_t nIndex = (i + nStart) % MICROPROFILE_D3D_MAX_QUERIES;
+ S.GPU.m_nQueryResults[nIndex] = -1;
+ }
+ }
+ S.GPU.m_nQueryGet = (OldFrame.m_nQueryStart + OldFrame.m_nQueryCount) % MICROPROFILE_D3D_MAX_QUERIES;
+ }
+
+ S.GPU.m_nQueryFrame = nNextFrame;
+ MicroProfileD3D11Frame& NextFrame = S.GPU.m_QueryFrames[nNextFrame];
+ pContext->Begin((ID3D11Query*)NextFrame.m_pRateQuery);
+ NextFrame.m_nQueryStart = S.GPU.m_nQueryPut;
+ NextFrame.m_nQueryCount = 0;
+
+ NextFrame.m_nRateQueryStarted = 1;
+}
+
+void MicroProfileGpuInitD3D11(void* pDevice_, void* pDeviceContext_)
+{
+ ID3D11Device* pDevice = (ID3D11Device*)pDevice_;
+ ID3D11DeviceContext* pDeviceContext = (ID3D11DeviceContext*)pDeviceContext_;
+ S.GPU.m_pDeviceContext = pDeviceContext_;
+
+ D3D11_QUERY_DESC Desc;
+ Desc.MiscFlags = 0;
+ Desc.Query = D3D11_QUERY_TIMESTAMP;
+ for(uint32_t i = 0; i < MICROPROFILE_D3D_MAX_QUERIES; ++i)
+ {
+ HRESULT hr = pDevice->CreateQuery(&Desc, (ID3D11Query**)&S.GPU.m_pQueries[i]);
+ MP_ASSERT(hr == S_OK);
+ S.GPU.m_nQueryResults[i] = -1;
+ }
+ S.GPU.m_nQueryPut = 0;
+ S.GPU.m_nQueryGet = 0;
+ S.GPU.m_nQueryFrame = 0;
+ S.GPU.m_nQueryFrequency = 0;
+ Desc.Query = D3D11_QUERY_TIMESTAMP_DISJOINT;
+ for(uint32_t i = 0; i < MICROPROFILE_GPU_FRAME_DELAY; ++i)
+ {
+ S.GPU.m_QueryFrames[i].m_nQueryStart = 0;
+ S.GPU.m_QueryFrames[i].m_nQueryCount = 0;
+ S.GPU.m_QueryFrames[i].m_nRateQueryStarted = 0;
+ HRESULT hr = pDevice->CreateQuery(&Desc, (ID3D11Query**)&S.GPU.m_QueryFrames[i].m_pRateQuery);
+ MP_ASSERT(hr == S_OK);
+ }
+}
+
+
+void MicroProfileGpuShutdown()
+{
+ for(uint32_t i = 0; i < MICROPROFILE_D3D_MAX_QUERIES; ++i)
+ {
+ ((ID3D11Query*)&S.GPU.m_pQueries[i])->Release();
+ S.GPU.m_pQueries[i] = 0;
+ }
+ for(uint32_t i = 0; i < MICROPROFILE_GPU_FRAME_DELAY; ++i)
+ {
+ ((ID3D11Query*)S.GPU.m_QueryFrames[i].m_pRateQuery)->Release();
+ S.GPU.m_QueryFrames[i].m_pRateQuery = 0;
+ }
+}
+
+int MicroProfileGetGpuTickReference(int64_t* pOutCPU, int64_t* pOutGpu)
+{
+ return 0;
+}
+
+
+#elif MICROPROFILE_GPU_TIMERS_GL
+void MicroProfileGpuInitGL()
+{
+ S.GPU.GLTimerPos = 0;
+ glGenQueries(MICROPROFILE_GL_MAX_QUERIES, &S.GPU.GLTimers[0]);
+}
+
+uint32_t MicroProfileGpuInsertTimeStamp()
+{
+ uint32_t nIndex = (S.GPU.GLTimerPos+1)%MICROPROFILE_GL_MAX_QUERIES;
+ glQueryCounter(S.GPU.GLTimers[nIndex], GL_TIMESTAMP);
+ S.GPU.GLTimerPos = nIndex;
+ return nIndex;
+}
+uint64_t MicroProfileGpuGetTimeStamp(uint32_t nKey)
+{
+ uint64_t result;
+ glGetQueryObjectui64v(S.GPU.GLTimers[nKey], GL_QUERY_RESULT, &result);
+ return result;
+}
+
+uint64_t MicroProfileTicksPerSecondGpu()
+{
+ return 1000000000ll;
+}
+
+int MicroProfileGetGpuTickReference(int64_t* pOutCpu, int64_t* pOutGpu)
+{
+ int64_t nGpuTimeStamp;
+ glGetInteger64v(GL_TIMESTAMP, &nGpuTimeStamp);
+ if(nGpuTimeStamp)
+ {
+ *pOutCpu = MP_TICK();
+ *pOutGpu = nGpuTimeStamp;
+ #if 0 //debug test if timestamp diverges
+ static int64_t nTicksPerSecondCpu = MicroProfileTicksPerSecondCpu();
+ static int64_t nTicksPerSecondGpu = MicroProfileTicksPerSecondGpu();
+ static int64_t nGpuStart = 0;
+ static int64_t nCpuStart = 0;
+ if(!nCpuStart)
+ {
+ nCpuStart = *pOutCpu;
+ nGpuStart = *pOutGpu;
+ }
+ static int nCountDown = 100;
+ if(0 == nCountDown--)
+ {
+ int64_t nCurCpu = *pOutCpu;
+ int64_t nCurGpu = *pOutGpu;
+ double fDistanceCpu = (nCurCpu - nCpuStart) / (double)nTicksPerSecondCpu;
+ double fDistanceGpu = (nCurGpu - nGpuStart) / (double)nTicksPerSecondGpu;
+
+ char buf[254];
+ snprintf(buf, sizeof(buf)-1,"Distance %f %f diff %f\n", fDistanceCpu, fDistanceGpu, fDistanceCpu-fDistanceGpu);
+ OutputDebugString(buf);
+ nCountDown = 100;
+ }
+ #endif
+ return 1;
+ }
+ return 0;
+}
+
+
+#endif
+
+#undef S
+
+#ifdef _WIN32
+#pragma warning(pop)
+#endif
+
+
+
+
+
+#endif
+#endif
+#ifdef MICROPROFILE_EMBED_HTML
+#include "microprofile_html.h"
+#endif