0af2c7043c
SWDEV-102726 - [OCL-LC-ROCm] Open source OpenCL Runtime - Changes required to use the Khronos ICD sources instead of ours. Affected files ... ... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/CMakeLists.txt#3 edit ... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_gl.cpp#54 edit ... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_icd.cpp#29 edit ... //depot/stg/opencl/drivers/opencl/api/opencl/khronos/headers/opencl2.0/CL/cl_platform.h#7 edit ... //depot/stg/opencl/drivers/opencl/runtime/CMakeLists.txt#2 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/cpu/cpubinary.cpp#12 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/cpu/cpubinary.hpp#5 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpukernel.cpp#319 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpukernel.hpp#127 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpuprogram.cpp#233 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpuresource.cpp#239 edit ... //depot/stg/opencl/drivers/opencl/runtime/platform/object.hpp#18 edit
229 líneas
7.5 KiB
C++
229 líneas
7.5 KiB
C++
//
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// Copyright (c) 2008 Advanced Micro Devices, Inc. All rights reserved.
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//
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#ifndef OBJECT_HPP_
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#define OBJECT_HPP_
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#include "top.hpp"
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#include "os/alloc.hpp"
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#include "thread/monitor.hpp"
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#include "utils/util.hpp"
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#include <icd/icd_dispatch.h>
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#define KHR_CL_TYPES_DO(F) \
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/* OpenCL type Runtime type */ \
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F(cl_context, Context) \
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F(cl_event, Event) \
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F(cl_command_queue, CommandQueue) \
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F(cl_kernel, Kernel) \
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F(cl_program, Program) \
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F(cl_device_id, Device) \
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F(cl_mem, Memory) \
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F(cl_sampler, Sampler)
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#define AMD_CL_TYPES_DO(F) \
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F(cl_counter_amd, Counter) \
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F(cl_perfcounter_amd, PerfCounter) \
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F(cl_threadtrace_amd, ThreadTrace) \
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F(cl_file_amd, LiquidFlashFile)
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#define CL_TYPES_DO(F) \
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KHR_CL_TYPES_DO(F) \
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AMD_CL_TYPES_DO(F)
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// Forward declare ::cl_* types and amd::Class types
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//
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#define DECLARE_CL_TYPES(CL, AMD) \
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namespace amd { \
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class AMD; \
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}
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CL_TYPES_DO(DECLARE_CL_TYPES);
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#undef DECLARE_CL_TYPES
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struct KHRicdVendorDispatchRec;
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#define DECLARE_CL_TYPES(CL, AMD) \
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typedef struct _##CL { \
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struct KHRicdVendorDispatchRec* dispatch; \
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} * CL;
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AMD_CL_TYPES_DO(DECLARE_CL_TYPES);
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#undef DECLARE_CL_TYPES
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namespace amd {
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// Define the cl_*_type tokens for type checking.
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//
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#define DEFINE_CL_TOKENS(CL, ignored) T##CL,
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enum cl_token { Tinvalid = 0, CL_TYPES_DO(DEFINE_CL_TOKENS) numTokens };
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#undef DEFINE_CL_TOKENS
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const size_t RuntimeObjectAlignment = NextPowerOfTwo<numTokens>::value;
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//! \cond ignore
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template <typename T> struct as_internal { typedef void type; };
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template <typename T> struct as_external { typedef void type; };
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template <typename T> struct class_token { static const cl_token value = Tinvalid; };
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#define DEFINE_CL_TRAITS(CL, AMD) \
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\
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template <> struct class_token<AMD> { static const cl_token value = T##CL; }; \
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\
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template <> struct as_internal<_##CL> { typedef AMD type; }; \
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template <> struct as_internal<const _##CL> { typedef AMD const type; }; \
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\
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template <> struct as_external<AMD> { typedef _##CL type; }; \
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template <> struct as_external<const AMD> { typedef _##CL const type; };
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CL_TYPES_DO(DEFINE_CL_TRAITS);
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#undef DEFINE_CL_TRAITS
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//! \endcond
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struct ICDDispatchedObject {
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static struct KHRicdVendorDispatchRec icdVendorDispatch_[];
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const struct KHRicdVendorDispatchRec* const dispatch_;
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protected:
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ICDDispatchedObject() : dispatch_(icdVendorDispatch_) {}
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public:
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static bool isValidHandle(const void* handle) { return handle != NULL; }
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const void* handle() const { return static_cast<const ICDDispatchedObject*>(this); }
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void* handle() { return static_cast<ICDDispatchedObject*>(this); }
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template <typename T> static const T* fromHandle(const void* handle) {
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return static_cast<const T*>(reinterpret_cast<const ICDDispatchedObject*>(handle));
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}
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template <typename T> static T* fromHandle(void* handle) {
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return static_cast<T*>(reinterpret_cast<ICDDispatchedObject*>(handle));
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}
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};
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#define OCL_MAX_KEYS 8
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/*! The object metadata container.
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*/
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class ObjectMetadata {
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public:
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typedef size_t Key;
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typedef void* Value;
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private:
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typedef void(CL_CALLBACK* Destructor)(Value);
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static Atomic<Key> nextKey_;
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static Destructor destructors_[OCL_MAX_KEYS];
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Atomic<Value*> values_;
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public:
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static bool check(Key key);
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static Key createKey(Destructor destructor = NULL);
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ObjectMetadata() : values_(NULL) {}
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~ObjectMetadata();
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Value getValueForKey(Key key) const;
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bool setValueForKey(Key key, Value value);
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};
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/*! \brief For all OpenCL/Runtime objects.
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*/
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class RuntimeObject : public ReferenceCountedObject, public ICDDispatchedObject {
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private:
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ObjectMetadata metadata_;
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public:
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enum ObjectType {
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ObjectTypeContext = 0,
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ObjectTypeDevice = 1,
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ObjectTypeMemory = 2,
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ObjectTypeKernel = 3,
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ObjectTypeCounter = 4,
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ObjectTypePerfCounter = 5,
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ObjectTypeEvent = 6,
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ObjectTypeProgram = 7,
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ObjectTypeQueue = 8,
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ObjectTypeSampler = 9,
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ObjectTypeThreadTrace = 10,
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ObjectTypeLiquidFlashFile = 11
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};
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ObjectMetadata& metadata() { return metadata_; }
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virtual ObjectType objectType() const = 0;
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};
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template <typename T> class SharedReference : public EmbeddedObject {
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private:
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T& reference_;
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private:
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// do not copy shared references.
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SharedReference<T>& operator=(const SharedReference<T>& sref);
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public:
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explicit SharedReference(T& reference) : reference_(reference) { reference_.retain(); }
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~SharedReference() { reference_.release(); }
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T& operator()() const { return reference_; }
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};
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/*! \brief A 1,2 or 3D coordinate.
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*!
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*! Note, dimensionality is only defined for sizes, and is given by the number
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*! of non-zero elements. (i.e. a 1D line is not the same as a 2D plane with width 1)
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*/
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struct Coord3D {
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size_t c[3];
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Coord3D(size_t d0, size_t d1 = 0, size_t d2 = 0) {
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c[0] = d0;
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c[1] = d1;
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c[2] = d2;
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}
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const size_t& operator[](size_t idx) const {
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assert(idx < 3);
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return c[idx];
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}
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bool operator==(const Coord3D& rhs) const {
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return c[0] == rhs.c[0] && c[1] == rhs.c[1] && c[2] == rhs.c[2];
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}
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};
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} // namespace amd
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template <typename CL> typename amd::as_internal<CL>::type* as_amd(CL* cl_obj) {
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return cl_obj == NULL ? NULL
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: amd::RuntimeObject::fromHandle<typename amd::as_internal<CL>::type>(
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static_cast<void*>(cl_obj));
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}
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template <typename AMD> typename amd::as_external<AMD>::type* as_cl(AMD* amd_obj) {
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return amd_obj == NULL ? NULL
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: static_cast<typename amd::as_external<AMD>::type*>(amd_obj->handle());
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}
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template <typename CL> bool is_valid(CL* handle) {
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return amd::as_internal<CL>::type::isValidHandle(handle);
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}
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#endif /*OBJECT_HPP_*/
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