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llvm-project/openmp/tools/omptest/include/InternalEventCommon.h
Michael Halkenhäuser 7c1d2467f1
Reland: [OpenMP] Add ompTest library to OpenMP (#154786) 
Reland of https://github.com/llvm/llvm-project/pull/147381

Added changes to fix observed BuildBot failures:
 * CMake version (reduced minimum to `3.20`, was: `3.22`)
 * GoogleTest linking (missing `./build/lib/libllvm_gtest.a`)
* Related header issue (missing `#include
"llvm/Support/raw_os_ostream.h"`)

Original message

Description
===========
OpenMP Tooling Interface Testing Library (ompTest) ompTest is a unit testing framework for testing OpenMP implementations. It offers a simple-to-use framework that allows a tester to check for OMPT events in addition to regular unit testing code, supported by linking against GoogleTest by default. It also facilitates writing concise tests while bridging the semantic gap between the unit under test and the OMPT-event testing.

Background
==========
This library has been developed to provide the means of testing OMPT implementations with reasonable effort. Especially, asynchronous or unordered events are supported and can be verified with ease, which may prove to be challenging with LIT-based tests. Additionally, since the assertions are part of the code being tested, ompTest can reference all corresponding variables during assertion.

Basic Usage
===========
OMPT event assertions are placed before the code, which shall be tested. These assertion can either be provided as one block or interleaved with the test code. There are two types of asserters: (1) sequenced "order-sensitive" and (2) set "unordered" assserters. Once the test is being run, the corresponding events are triggered by the OpenMP runtime and can be observed. Each of these observed events notifies asserters, which then determine if the test should pass or fail.

Example (partial, interleaved)
==============================
```c++
  int N = 100000;
  int a[N];
  int b[N];

  OMPT_ASSERT_SEQUENCE(Target, TARGET, BEGIN, 0);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, ALLOC, N * sizeof(int)); // a ?
  OMPT_ASSERT_SEQUENCE(TargetDataOp, H2D, N * sizeof(int), &a);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, ALLOC, N * sizeof(int)); // b ?
  OMPT_ASSERT_SEQUENCE(TargetDataOp, H2D, N * sizeof(int), &b);
  OMPT_ASSERT_SEQUENCE(TargetSubmit, 1);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, D2H, N * sizeof(int), nullptr, &b);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, D2H, N * sizeof(int), nullptr, &a);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, DELETE);
  OMPT_ASSERT_SEQUENCE(TargetDataOp, DELETE);
  OMPT_ASSERT_SEQUENCE(Target, TARGET, END, 0);

#pragma omp target parallel for
  {
    for (int j = 0; j < N; j++)
      a[j] = b[j];
  }
```

References
==========
This work has been presented at SC'24 workshops, see: https://ieeexplore.ieee.org/document/10820689

Current State and Future Work
=============================
ompTest's development was mostly device-centric and aimed at OMPT device callbacks and device-side tracing. Consequentially, a substantial part of host-related events or features may not be supported in its current state. However, we are confident that the related functionality can be added and ompTest provides a general foundation for future OpenMP and especially OMPT testing. This PR will allow us to upstream the corresponding features, like OMPT device-side tracing in the future with significantly reduced risk of introducing regressions in the process.

Build
=====
ompTest is linked against LLVM's GoogleTest by default, but can also be built 'standalone'. Additionally, it comes with a set of unit tests, which in turn require GoogleTest (overriding a standalone build). The unit tests are added to the `check-openmp` target.

Use the following parameters to perform the corresponding build: 
`LIBOMPTEST_BUILD_STANDALONE` (Default: ${OPENMP_STANDALONE_BUILD})
`LIBOMPTEST_BUILD_UNITTESTS` (Default: OFF)

---------

Co-authored-by: Jan-Patrick Lehr <JanPatrick.Lehr@amd.com>
Co-authored-by: Joachim <protze@rz.rwth-aachen.de>
Co-authored-by: Joachim Jenke <jenke@itc.rwth-aachen.de>
2025-08-22 13:56:12 +02:00

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//===- InternalEventCommon.h - Common internal event basics -----*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
///
/// \file
/// Provides event types, and class/operator declaration macros.
///
//===----------------------------------------------------------------------===//
#ifndef OPENMP_TOOLS_OMPTEST_INCLUDE_INTERNALEVENTCOMMON_H
#define OPENMP_TOOLS_OMPTEST_INCLUDE_INTERNALEVENTCOMMON_H
#include "omp-tools.h"
#include <cassert>
#include <string>
namespace omptest {
namespace internal {
/// Enum values are used for comparison of observed and asserted events
/// List is based on OpenMP 5.2 specification, table 19.2 (page 447)
enum class EventTy {
None, // not part of OpenMP spec, used for implementation
AssertionSyncPoint, // not part of OpenMP spec, used for implementation
AssertionSuspend, // not part of OpenMP spec, used for implementation
BufferRecord, // not part of OpenMP spec, used for implementation
BufferRecordDeallocation, // not part of OpenMP spec, used for implementation
ThreadBegin,
ThreadEnd,
ParallelBegin,
ParallelEnd,
Work,
Dispatch,
TaskCreate, // TODO: Implement
Dependences, // TODO: Implement
TaskDependence, // TODO: Implement
TaskSchedule, // TODO: Implement
ImplicitTask, // TODO: Implement
Masked, // TODO: Implement
SyncRegion,
MutexAcquire, // TODO: Implement
Mutex, // TODO: Implement
NestLock, // TODO: Implement
Flush, // TODO: Implement
Cancel, // TODO: Implement
DeviceInitialize,
DeviceFinalize,
DeviceLoad,
DeviceUnload,
BufferRequest,
BufferComplete,
TargetDataOp,
TargetDataOpEmi,
Target,
TargetEmi,
TargetSubmit,
TargetSubmitEmi,
ControlTool
};
/// Base event class
/// Offers default CTOR, DTOR and CTOR which assigns the actual event type.
struct InternalEvent {
InternalEvent() : Type(EventTy::None) {}
InternalEvent(EventTy T) : Type(T) {}
virtual ~InternalEvent() = default;
virtual bool equals(const InternalEvent *o) const {
assert(false && "Base class implementation");
return false;
};
virtual std::string toString() const {
std::string S{"InternalEvent: Type="};
S.append(std::to_string((uint32_t)Type));
return S;
}
/// Identifying event type
EventTy Type;
};
/// Specialize EventType member for each derived internal event type.
/// Effectively selecting an event type as initialization value.
template <typename EventType> struct EventTypeOf;
/// Actual definition macro for EventTypeOf.
#define event_type_trait(EvTy) \
template <> struct EventTypeOf<EvTy> { \
static constexpr EventTy Value = EventTy::EvTy; \
};
/// CRTP (Curiously Recurring Template Pattern) intermediate class
/// Adding a new event type can be achieved by inheriting from an EventBase
/// template instantiation of the new class' name, like this:
/// struct NewEventType : public EventBase<NewEventType>
template <typename Derived> class EventBase : public InternalEvent {
public:
static constexpr EventTy EventType = EventTypeOf<Derived>::Value;
EventBase() : InternalEvent(EventType) {}
virtual ~EventBase() = default;
/// Equals method to cast and dispatch to the specific class operator==
virtual bool equals(const InternalEvent *o) const override {
// Note: When the if-condition evaluates to true, the event types are
// trivially identical. Otherwise, a cast to the Derived pointer would have
// been impossible.
if (const auto Other = dynamic_cast<const Derived *>(o))
return operator==(*static_cast<const Derived *>(this), *Other);
return false;
}
/// Basic toString method, which may be overridden with own implementations.
virtual std::string toString() const override {
std::string S{"EventBase: Type="};
S.append(std::to_string((uint32_t)Type));
return S;
}
};
} // namespace internal
} // namespace omptest
#endif
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