/* Copyright (C) 2005-2019 Intel Corporation SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause */ /** * Zero Cost Annotations (ZCA) * * Intel Compiler supports two intrinsics that could be used for code annotations * without incurring significant run-time costs when the tools are not in use. * Each annotation is more than a mere mark in the instruction stream. * It can accept an expression argument like a call to a routine does. * There are two forms of the intrinsic, with the following signatures: * * extern "C" void __notify_intrinsic( const char *annotation, const volatile void *tag); * extern "C" void __notify_zc_intrinsic(const char *annotation, const volatile void *tag); * * The string annotation must be a compile-time constant. It specifies the type of the annotation. * The pointer tag is computed at run time. It specifies the data associated with the annotation. * Each intrinsic implies a compiler fence: the compiler must not move any memory * operation across it. The reason for this restriction is that annotation might denote an * event that must be precisely placed with respect to memory operations. * * The difference between the two intrinsics is that __notify_intrinsic must leave a * probe-ready instruction sequence in the instruction stream where the instrinsic * occurs. The __notify_zc_intrinsic does not leave such a sequence, and hence is closer to "zero cost". **/ #pragma once #include "ittnotify.h" #ifndef INTEL_NO_ITTNOTIFY_API #if (defined(__INTEL_COMPILER) || defined(__INTEL_LLVM_COMPILER)) && (ITT_PLATFORM == ITT_PLATFORM_WIN || ITT_PLATFORM == ITT_PLATFORM_POSIX) #define ITT_ENABLE_LOW_OVERHEAD_ANNOTATIONS #else #error Zero cost (low overhead) annotations are not supported on this platform #endif #endif /** * Zero cost annotations for memory allocation and deallocation **/ #ifdef ITT_ENABLE_LOW_OVERHEAD_ANNOTATIONS #pragma pack(push, 1) typedef struct ___itt_zca_allocation_info { size_t size; /*!< Size of allocated memory */ void** ptr; /*!< Pointer to allocated memory pointer */ int initialized; /*!< Is allocated memory initialized */ } __itt_zca_allocation_info; #pragma pack(pop) #define __itt_zca_mem_allocate_begin() __notify_intrinsic((char*)"mem_allocate_begin", 0) #define __itt_zca_mem_allocate_end(ptr, size, init) { __itt_zca_allocation_info __itt_zca_alloc_info = { size, ptr, init }; __notify_intrinsic((char*)"mem_allocate_end", (void*)&__itt_zca_alloc_info); } #define __itt_zca_mem_free_begin(ptr) __notify_intrinsic((char*)"mem_free_begin", (void*)ptr) #define __itt_zca_mem_free_end() __notify_intrinsic((char*)"mem_free_end", 0) #else #define __itt_zca_mem_allocate_begin() #define __itt_zca_mem_allocate_end(ptr, size, init) #define __itt_zca_mem_free_begin(ptr) #define __itt_zca_mem_free_end() #endif /** * Zero cost annotations for threading **/ #ifdef ITT_ENABLE_LOW_OVERHEAD_ANNOTATIONS #define __itt_zca_suppress_push(id) __notify_zc_intrinsic((char*)"__itt_suppress_push", (void*)id); #define __itt_zca_suppress_pop(id) __notify_zc_intrinsic((char*)"__itt_suppress_pop", (void*)id); #define __itt_zca_sync_create(id) __notify_zc_intrinsic((char*)"__itt_sync_create", (void*)id) #define __itt_zca_sync_acquired(id) __notify_zc_intrinsic((char*)"__itt_sync_acquired", (void*)id) #define __itt_zca_sync_releasing(id) __notify_zc_intrinsic((char*)"__itt_sync_releasing", (void*)id) #define __itt_zca_sync_destroy(id) __notify_zc_intrinsic((char*)"__itt_sync_destroy", (void*)id) #else #define __itt_zca_suppress_push(id) #define __itt_zca_suppress_pop(id) #define __itt_zca_sync_create(id) #define __itt_zca_sync_acquired(id) #define __itt_zca_sync_releasing(id) #define __itt_zca_sync_destroy(id) #endif