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dpctl_sycl_context_interface.cpp
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213 lines (194 loc) · 6.53 KB
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//===- dpctl_sycl_context_interface.cpp - Implements C API for sycl::context =//
//
// Data Parallel Control (dpctl)
//
// Copyright 2020-2024 Intel Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// This file implements the data types and functions declared in
/// dpctl_sycl_context_interface.h.
///
//===----------------------------------------------------------------------===//
#include "dpctl_sycl_context_interface.h"
#include "Config/dpctl_config.h"
#include "dpctl_error_handlers.h"
#include "dpctl_sycl_type_casters.hpp"
#include <sycl/sycl.hpp>
#include <utility>
#include <vector>
using namespace sycl;
namespace
{
static_assert(__SYCL_COMPILER_VERSION >= __SYCL_COMPILER_VERSION_REQUIRED,
"The compiler does not meet minimum version requirement");
using namespace dpctl::syclinterface;
} // end of anonymous namespace
__dpctl_give DPCTLSyclContextRef
DPCTLContext_Create(__dpctl_keep const DPCTLSyclDeviceRef DRef,
error_handler_callback *handler,
int /**/)
{
DPCTLSyclContextRef CRef = nullptr;
auto Device = unwrap<device>(DRef);
if (!Device) {
error_handler("Cannot create device from DPCTLSyclDeviceRef"
"as input is a nullptr.",
__FILE__, __func__, __LINE__);
return nullptr;
}
try {
CRef = wrap<context>(
new context(*Device, DPCTL_AsyncErrorHandler(handler)));
} catch (std::exception const &e) {
error_handler(e, __FILE__, __func__, __LINE__);
}
return CRef;
}
__dpctl_give DPCTLSyclContextRef
DPCTLContext_CreateFromDevices(__dpctl_keep const DPCTLDeviceVectorRef DVRef,
error_handler_callback *handler,
int /**/)
{
DPCTLSyclContextRef CRef = nullptr;
std::vector<device> Devices;
auto DeviceRefs = unwrap<std::vector<DPCTLSyclDeviceRef>>(DVRef);
if (!DeviceRefs) {
error_handler("Cannot create device reference from DPCTLDeviceVectorRef"
"as input is a nullptr.",
__FILE__, __func__, __LINE__);
return CRef;
}
Devices.reserve(DeviceRefs->size());
for (auto const &DRef : *DeviceRefs) {
Devices.emplace_back(*unwrap<device>(DRef));
}
try {
CRef = wrap<context>(
new context(std::move(Devices), DPCTL_AsyncErrorHandler(handler)));
} catch (std::exception const &e) {
error_handler(e, __FILE__, __func__, __LINE__);
}
return CRef;
}
bool DPCTLContext_AreEq(__dpctl_keep const DPCTLSyclContextRef CtxRef1,
__dpctl_keep const DPCTLSyclContextRef CtxRef2)
{
if (!(CtxRef1 && CtxRef2)) {
error_handler("DPCTLSyclContextRefs are nullptr.", __FILE__, __func__,
__LINE__);
return false;
}
return (*unwrap<context>(CtxRef1) == *unwrap<context>(CtxRef2));
}
__dpctl_give DPCTLSyclContextRef
DPCTLContext_Copy(__dpctl_keep const DPCTLSyclContextRef CRef)
{
auto Context = unwrap<context>(CRef);
if (!Context) {
error_handler("Cannot copy DPCTLSyclContextRef as input is a nullptr.",
__FILE__, __func__, __LINE__);
return nullptr;
}
try {
auto CopiedContext = new context(*Context);
return wrap<context>(CopiedContext);
} catch (std::exception const &e) {
error_handler(e, __FILE__, __func__, __LINE__);
return nullptr;
}
}
__dpctl_give DPCTLDeviceVectorRef
DPCTLContext_GetDevices(__dpctl_keep const DPCTLSyclContextRef CRef)
{
auto Context = unwrap<context>(CRef);
if (!Context) {
error_handler("Cannot retrieve devices from DPCTLSyclContextRef as "
"input is a nullptr.",
__FILE__, __func__, __LINE__);
return nullptr;
}
using vecTy = std::vector<DPCTLSyclDeviceRef>;
vecTy *DevicesVectorPtr = nullptr;
try {
DevicesVectorPtr = new vecTy();
} catch (std::exception const &e) {
delete DevicesVectorPtr;
error_handler(e, __FILE__, __func__, __LINE__);
return nullptr;
}
try {
auto Devices = Context->get_devices();
DevicesVectorPtr->reserve(Devices.size());
for (const auto &Dev : Devices) {
DevicesVectorPtr->emplace_back(
wrap<device>(new device(std::move(Dev))));
}
return wrap<vecTy>(DevicesVectorPtr);
} catch (std::exception const &e) {
delete DevicesVectorPtr;
error_handler(e, __FILE__, __func__, __LINE__);
return nullptr;
}
}
size_t DPCTLContext_DeviceCount(__dpctl_keep const DPCTLSyclContextRef CRef)
{
auto Context = unwrap<context>(CRef);
if (!Context) {
error_handler("Cannot retrieve devices from DPCTLSyclContextRef as "
"input is a nullptr.",
__FILE__, __func__, __LINE__);
return 0;
}
const auto Devices = Context->get_devices();
return Devices.size();
}
void DPCTLContext_Delete(__dpctl_take DPCTLSyclContextRef CtxRef)
{
delete unwrap<context>(CtxRef);
}
DPCTLSyclBackendType
DPCTLContext_GetBackend(__dpctl_keep const DPCTLSyclContextRef CtxRef)
{
if (!CtxRef) {
return DPCTL_UNKNOWN_BACKEND;
}
auto BE = unwrap<context>(CtxRef)->get_platform().get_backend();
switch (BE) {
case backend::opencl:
return DPCTL_OPENCL;
case backend::ext_oneapi_level_zero:
return DPCTL_LEVEL_ZERO;
case backend::ext_oneapi_cuda:
return DPCTL_CUDA;
case backend::ext_oneapi_hip:
return DPCTL_HIP;
default:
return DPCTL_UNKNOWN_BACKEND;
}
}
size_t DPCTLContext_Hash(__dpctl_keep const DPCTLSyclContextRef CtxRef)
{
if (CtxRef) {
auto C = unwrap<context>(CtxRef);
std::hash<context> hash_fn;
return hash_fn(*C);
}
else {
error_handler("Argument CtxRef is null.", __FILE__, __func__, __LINE__);
return 0;
}
}