23d806c514
SWDEV-125823 - Fix perforce opencl build Affected files ... ... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palkernel.cpp#38 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palkernel.hpp#14 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palprogram.cpp#47 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/pal/palprogram.hpp#20 edit ... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocprogram.hpp#29 edit
330 řádky
11 KiB
C++
330 řádky
11 KiB
C++
//
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// Copyright (c) 2015 Advanced Micro Devices, Inc. All rights reserved.
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//
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#pragma once
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#include "device/pal/palkernel.hpp"
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#include "device/pal/palbinary.hpp"
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#include "amd_hsa_loader.hpp"
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#if defined(WITH_LIGHTNING_COMPILER)
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#include "llvm/Support/AMDGPUMetadata.h"
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typedef llvm::AMDGPU::HSAMD::Metadata CodeObjectMD;
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#endif // defined(WITH_LIGHTNING_COMPILER)
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namespace amd {
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namespace option {
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class Options;
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} // option
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namespace hsa {
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namespace loader {
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class Loader;
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class Executable;
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class Context;
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} // loader
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} // hsa
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} // amd
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//! \namespace pal PAL Device Implementation
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namespace pal {
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/*! \addtogroup pal PAL Device Implementation
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* @{
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*/
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using namespace amd::hsa::loader;
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class HSAILProgram;
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class Segment : public amd::HeapObject {
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public:
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Segment();
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~Segment();
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//! Allocates a segment
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bool alloc(HSAILProgram& prog, amdgpu_hsa_elf_segment_t segment, size_t size, size_t align,
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bool zero);
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//! Copies data from host to the segment
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void copy(size_t offset, const void* src, size_t size);
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//! Segment freeze
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bool freeze(bool destroySysmem);
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//! Returns address for GPU access in the segment
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uint64_t gpuAddress(size_t offset) const { return gpuAccess_->vmAddress() + offset; }
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//! Returns address for CPU access in the segment
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void* cpuAddress(size_t offset) const { return cpuAccess_->data() + offset; }
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private:
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Memory* gpuAccess_; //!< GPU memory for segment access
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Memory* cpuAccess_; //!< CPU memory for segment (backing store)
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};
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class PALHSALoaderContext final : public Context {
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public:
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PALHSALoaderContext(HSAILProgram* program) : program_(program) {}
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virtual ~PALHSALoaderContext() {}
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hsa_isa_t IsaFromName(const char* name) override;
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bool IsaSupportedByAgent(hsa_agent_t agent, hsa_isa_t isa) override;
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void* SegmentAlloc(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, size_t size, size_t align,
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bool zero) override;
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bool SegmentCopy(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, void* dst, size_t offset,
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const void* src, size_t size) override;
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void SegmentFree(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, void* seg,
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size_t size = 0) override;
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void* SegmentAddress(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, void* seg,
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size_t offset) override;
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void* SegmentHostAddress(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, void* seg,
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size_t offset) override;
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bool SegmentFreeze(amdgpu_hsa_elf_segment_t segment, hsa_agent_t agent, void* seg,
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size_t size) override;
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bool ImageExtensionSupported() override { return false; }
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hsa_status_t ImageCreate(hsa_agent_t agent, hsa_access_permission_t image_permission,
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const hsa_ext_image_descriptor_t* image_descriptor,
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const void* image_data, hsa_ext_image_t* image_handle) override {
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// not supported
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assert(false);
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return HSA_STATUS_ERROR;
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}
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hsa_status_t ImageDestroy(hsa_agent_t agent, hsa_ext_image_t image_handle) override {
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// not supported
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assert(false);
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return HSA_STATUS_ERROR;
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}
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hsa_status_t SamplerCreate(hsa_agent_t agent,
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const hsa_ext_sampler_descriptor_t* sampler_descriptor,
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hsa_ext_sampler_t* sampler_handle) override;
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//! All samplers are owned by HSAILProgram and are deleted in its destructor.
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hsa_status_t SamplerDestroy(hsa_agent_t agent, hsa_ext_sampler_t sampler_handle) override;
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private:
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PALHSALoaderContext(const PALHSALoaderContext& c);
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PALHSALoaderContext& operator=(const PALHSALoaderContext& c);
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pal::HSAILProgram* program_;
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};
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//! \class HSAIL program
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class HSAILProgram : public device::Program {
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friend class ClBinary;
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public:
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//! Default constructor
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HSAILProgram(Device& device);
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HSAILProgram(NullDevice& device);
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//! Default destructor
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virtual ~HSAILProgram();
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//! Returns the aclBinary associated with the progrm
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aclBinary* binaryElf() const { return static_cast<aclBinary*>(binaryElf_); }
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void addGlobalStore(Memory* mem) { globalStores_.push_back(mem); }
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void setCodeObjects(Memory* codeGpu, address codeCpu) {
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codeSegGpu_ = codeGpu;
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codeSegCpu_ = codeCpu;
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}
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const std::vector<Memory*>& globalStores() const { return globalStores_; }
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//! Return a typecasted GPU device
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pal::Device& dev() { return const_cast<pal::Device&>(static_cast<const pal::Device&>(device())); }
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//! Returns GPU kernel table
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const Memory* kernelTable() const { return kernels_; }
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//! Adds all kernels to the mem handle lists
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void fillResListWithKernels(VirtualGPU& gpu) const;
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//! Returns the maximum number of scratch regs used in the program
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uint maxScratchRegs() const { return maxScratchRegs_; }
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//! Add internal static sampler
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void addSampler(Sampler* sampler) { staticSamplers_.push_back(sampler); }
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//! Returns TRUE if the program just compiled
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bool isNull() const { return isNull_; }
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//! Returns TRUE if the program used internally by runtime
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bool isInternal() const { return internal_; }
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//! Returns TRUE if the program contains static samplers
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bool isStaticSampler() const { return (staticSamplers_.size() != 0); }
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//! Returns code segement on GPU
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const Memory& codeSegGpu() const { return *codeSegGpu_; }
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//! Returns code segement on CPU
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address codeSegCpu() const { return codeSegCpu_; }
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//! Returns CPU address for a kernel
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uint64_t findHostKernelAddress(uint64_t devAddr) const {
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return loader_->FindHostAddress(devAddr);
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}
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protected:
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//! pre-compile setup for GPU
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virtual bool initBuild(amd::option::Options* options);
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//! post-compile setup for GPU
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virtual bool finiBuild(bool isBuildGood);
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/*! \brief Compiles GPU CL program to LLVM binary (compiler frontend)
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*
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* \return True if we successefully compiled a GPU program
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*/
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virtual bool compileImpl(const std::string& sourceCode, //!< the program's source code
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const std::vector<const std::string*>& headers,
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const char** headerIncludeNames,
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amd::option::Options* options //!< compile options's object
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);
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/* \brief Returns the next stage to compile from, based on sections in binary,
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* also returns completeStages in a vector, which contains at least ACL_TYPE_DEFAULT,
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* sets needOptionsCheck to true if options check is needed to decide whether or not to recompile
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*/
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aclType getCompilationStagesFromBinary(std::vector<aclType>& completeStages,
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bool& needOptionsCheck);
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/* \brief Returns the next stage to compile from, based on sections and options in binary
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*/
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aclType getNextCompilationStageFromBinary(amd::option::Options* options);
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bool saveBinaryAndSetType(type_t type);
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virtual bool linkImpl(amd::option::Options* options);
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//! Link the device programs.
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virtual bool linkImpl(const std::vector<device::Program*>& inputPrograms,
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amd::option::Options* options, bool createLibrary);
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virtual bool createBinary(amd::option::Options* options);
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//! Initialize Binary
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virtual bool initClBinary();
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//! Release the Binary
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virtual void releaseClBinary();
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virtual const aclTargetInfo& info(const char* str = "");
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virtual bool isElf(const char* bin) const {
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return amd::isElfMagic(bin);
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// return false;
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}
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//! Returns the binary
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// This should ensure that the binary is updated with all the kernels
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// ClBinary& clBinary() { return binary_; }
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ClBinaryHsa* clBinary() { return static_cast<ClBinaryHsa*>(device::Program::clBinary()); }
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const ClBinaryHsa* clBinary() const {
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return static_cast<const ClBinaryHsa*>(device::Program::clBinary());
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}
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private:
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//! Disable default copy constructor
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HSAILProgram(const HSAILProgram&);
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//! Disable operator=
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HSAILProgram& operator=(const HSAILProgram&);
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protected:
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//! Returns all the options to be appended while passing to the
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// compiler library
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std::string hsailOptions(amd::option::Options* options);
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//! Allocate kernel table
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bool allocKernelTable();
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std::string openCLSource_; //!< Original OpenCL source
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std::string HSAILProgram_; //!< FSAIL program after compilation
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std::string llvmBinary_; //!< LLVM IR binary code
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aclBinary* binaryElf_; //!< Binary for the new compiler library
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void* rawBinary_; //!< Pointer to the raw binary
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aclBinaryOptions binOpts_; //!< Binary options to create aclBinary
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std::vector<Memory*> globalStores_; //!< Global memory for the program
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Memory* kernels_; //!< Table with kernel object pointers
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Memory* codeSegGpu_; //!< GPU memory with code objects
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address codeSegCpu_; //!< CPU memory with code objects
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uint
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maxScratchRegs_; //!< Maximum number of scratch regs used in the program by individual kernel
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std::list<Sampler*> staticSamplers_; //!< List od internal static samplers
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union {
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struct {
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uint32_t isNull_ : 1; //!< Null program no memory allocations
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uint32_t internal_ : 1; //!< Internal blit program
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};
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uint32_t flags_; //!< Program flags
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};
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amd::hsa::loader::Loader* loader_; //!< Loader object
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amd::hsa::loader::Executable* executable_; //!< Executable for HSA Loader
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PALHSALoaderContext loaderContext_; //!< Context for HSA Loader
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};
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#if defined(WITH_LIGHTNING_COMPILER)
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//! \class Lightning Compiler Program
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class LightningProgram : public HSAILProgram {
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public:
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LightningProgram(NullDevice& device) : HSAILProgram(device), metadata_(nullptr) {}
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LightningProgram(Device& device) : HSAILProgram(device), metadata_(nullptr) {}
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const CodeObjectMD* metadata() const { return metadata_; }
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private:
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virtual ~LightningProgram();
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/* \brief Returns the next stage to compile from, based on sections in binary,
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* also returns completeStages in a vector, which contains at least ACL_TYPE_DEFAULT,
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* sets needOptionsCheck to true if options check is needed to decide whether or not to recompile
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*/
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aclType getCompilationStagesFromBinary(std::vector<aclType>& completeStages,
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bool& needOptionsCheck);
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/* \brief Returns the next stage to compile from, based on sections and options in binary
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*/
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aclType getNextCompilationStageFromBinary(amd::option::Options* options);
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protected:
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virtual bool compileImpl(const std::string& sourceCode, //!< the program's source code
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const std::vector<const std::string*>& headers,
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const char** headerIncludeNames,
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amd::option::Options* options //!< compile options's object
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) override;
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virtual bool linkImpl(amd::option::Options* options) override;
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//! Link the device programs.
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virtual bool linkImpl(const std::vector<device::Program*>& inputPrograms,
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amd::option::Options* options, bool createLibrary) override;
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bool setKernels(amd::option::Options* options, void* binary, size_t size);
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virtual bool createBinary(amd::option::Options* options) override;
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//! Return a new transient compiler instance.
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static std::auto_ptr<amd::opencl_driver::Compiler> newCompilerInstance();
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private:
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CodeObjectMD* metadata_; //!< Runtime metadata
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};
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#endif // defined(WITH_LIGHTNING_COMPILER)
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/*@}*/} // namespace pal
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