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# 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()
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# define MP_THREAD_LOCAL thread_local
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# define MP_STRCASECMP _stricmp
# define MP_GETCURRENTTHREADID() GetCurrentThreadId()
typedef uint32_t ThreadIdType ;
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# elif !defined(_WIN32)
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# 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)
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# define MICROPROFILE_TOKEN(var) g_mp_##var
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# 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
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# ifndef _WIN32
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typedef pthread_t MicroProfileThread ;
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# elif defined(_MSC_VER)
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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 M icroProfileGroupInfo
{
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 )
{
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return ( int ) ( ( ( MP_LOG_BEGIN_MASK & Index ) > > 62 ) & 0x3ULL ) ;
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}
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 ) ;
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MP_ASSERT ( ( uint64_t ) t = = nBegin ) ;
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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 )
{
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return ( int64_t ) ( fMs * 0.001f * ( float ) nTicksPerSecond ) ;
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}
inline float MicroProfileTickToMsMultiplier ( int64_t nTicksPerSecond )
{
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return 1000.f / ( float ) nTicksPerSecond ;
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}
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 * ) ;
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# ifndef _WIN32
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typedef pthread_t MicroProfileThread ;
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inline void MicroProfileThreadStart ( MicroProfileThread * pThread , MicroProfileThreadFunc Func )
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{
pthread_attr_t Attr ;
int r = pthread_attr_init ( & Attr ) ;
MP_ASSERT ( r = = 0 ) ;
pthread_create ( pThread , & Attr , Func , 0 ) ;
}
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inline void MicroProfileThreadJoin ( MicroProfileThread * pThread )
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{
int r = pthread_join ( * pThread , 0 ) ;
MP_ASSERT ( r = = 0 ) ;
}
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# elif defined(_MSC_VER)
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typedef HANDLE MicroProfileThread ;
DWORD _stdcall ThreadTrampoline ( void * pFunc )
{
MicroProfileThreadFunc F = ( MicroProfileThreadFunc ) pFunc ;
return ( uint32_t ) F ( 0 ) ;
}
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inline void MicroProfileThreadStart ( MicroProfileThread * pThread , MicroProfileThreadFunc Func )
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{
* pThread = CreateThread ( 0 , 0 , ThreadTrampoline , Func , 0 , 0 ) ;
}
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inline void MicroProfileThreadJoin ( MicroProfileThread * pThread )
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{
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
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# ifndef _WIN32
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# 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
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inline MicroProfileThreadLog * MicroProfileGetThreadLog ( )
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{
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 ;
}
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inline uint16_t MicroProfileGetGroup ( const char * pGroup , MicroProfileTokenType Type )
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{
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 ;
}
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inline void MicroProfileRegisterGroup ( const char * pGroup , const char * pCategory , uint32_t nColor )
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{
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 ) ;
}
}
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inline void MicroProfileContextSwitchPut ( MicroProfileContextSwitch * pContextSwitch )
2015-08-17 21:25:21 +00:00
{
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 ( ) ;
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if ( pFrameNext - > nFrameStartGpu ! = - 1 )
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pFrameNext - > nFrameStartGpu = MicroProfileGpuGetTimeStamp ( ( uint32_t ) pFrameNext - > nFrameStartGpu ) ;
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if ( pFrameCurrent - > nFrameStartGpu = = - 1 )
2015-08-17 21:25:21 +00:00
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 ;
}
2020-04-17 02:43:33 +00:00
inline void MicroProfileEnableCategory ( const char * pCategory , bool bEnabled )
2015-08-17 21:25:21 +00:00
{
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 ) ;
}
2020-04-17 02:43:33 +00:00
inline void MicroProfileCalcAllTimers ( float * pTimers , float * pAverage , float * pMax , float * pCallAverage , float * pExclusive , float * pAverageExclusive , float * pMaxExclusive , float * pTotal , uint32_t nSize )
2015-08-17 21:25:21 +00:00
{
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 , " \n var 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 , " \n var 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 , " \n var 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 , " \n var 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 , " \n var 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 , " \n var 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 <!-- \n Marker 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