File: ExtensionArgAnalysis.cpp

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/*========================== begin_copyright_notice ============================

Copyright (C) 2017-2023 Intel Corporation

SPDX-License-Identifier: MIT

============================= end_copyright_notice ===========================*/

#include "Compiler/Optimizer/OpenCLPasses/ExtensionFuncs/ExtensionArgAnalysis.hpp"
#include "Compiler/IGCPassSupport.h"
#include "Compiler/Optimizer/OCLBIUtils.h"

#include "common/LLVMWarningsPush.hpp"
#include <llvm/IR/Function.h>
#include "common/LLVMWarningsPop.hpp"

using namespace llvm;
using namespace IGC;

// Register pass to igc-opt
#define PASS_FLAG "igc-extension-arg-analysis"
#define PASS_DESCRIPTION "Analyzes extension functions arguments"
#define PASS_CFG_ONLY false
#define PASS_ANALYSIS true
IGC_INITIALIZE_PASS_BEGIN(ExtensionArgAnalysis, PASS_FLAG, PASS_DESCRIPTION, PASS_CFG_ONLY, PASS_ANALYSIS)
IGC_INITIALIZE_PASS_DEPENDENCY(MetaDataUtilsWrapper)
IGC_INITIALIZE_PASS_END(ExtensionArgAnalysis, PASS_FLAG, PASS_DESCRIPTION, PASS_CFG_ONLY, PASS_ANALYSIS)

namespace IGC {

char ExtensionArgAnalysis::ID = 0;

// VME Functions:

enum VME_FUNCTIONS { VME_FUNCTION, ADVANCED_VME_FUNCTION, ADVANCED_VME_BIDIR_FUNCTION, NUM_VME_FUNCTIONS };

static const llvm::StringRef VME_FUNCTION_STRINGS[] = {"block_motion_estimate_intel",
                                                       "block_advanced_motion_estimate_check_intel",
                                                       "block_advanced_motion_estimate_bidirectional_check_intel"};

static_assert(sizeof(VME_FUNCTION_STRINGS) / sizeof(*VME_FUNCTION_STRINGS) == NUM_VME_FUNCTIONS,
              "VME_FUNCTION_STRINGS array needs to be in sync with VME_FUNCTIONS enum, fix me!");

// VA functions:

enum VA_FUNCTIONS {
  VA_FUNCTION_ERODE,
  VA_FUNCTION_DILATE,
  VA_FUNCTION_MIN_FILTER,
  VA_FUNCTION_MAX_FILTER,
  VA_FUNCTION_CONVOLVE,
  VA_FUNCTION_MINMAX,
  VA_FUNCTION_CENTROID,
  VA_FUNCTION_BOOL_CENTROID,
  VA_FUNCTION_BOOL_SUM,
  VA_FUNCTION_CONVOLVE_1D,
  VA_FUNCTION_CONVOLVE_PIXEL,
  VA_FUNCTION_LBP_IMAGE,
  VA_FUNCTION_LBP_CORRELATION,
  VA_FUNCTION_FLOODFILL,
  VA_FUNCTION_CORRELATION_SEARCH,
  NUM_VA_FUNCTIONS
};

static const llvm::StringRef VA_FUNCTION_STRINGS[] = {
    "erode_2d_intel",        "dilate_2d_intel",   "min_filter_2d_intel",      "max_filter_2d_intel",
    "convolve_2d_intel",     "minmax_2d_intel",   "centroid_2d_intel",        "bool_centroid_2d_intel",
    "bool_sum_2d_intel",     "convolve_1d_intel", "convolve_pixel_intel",     "lbp_image_intel",
    "lbp_correlation_intel", "floodfill_intel",   "correlation_search_intel",
};
static_assert(sizeof(VA_FUNCTION_STRINGS) / sizeof(*VA_FUNCTION_STRINGS) == NUM_VA_FUNCTIONS,
              "VA_FUNCTION_STRINGS array needs to be in sync with VA_FUNCTIONS enum, fix me!");

const ResourceExtensionTypeEnum VA_FUNCTION_SAMPLER_TYPES[] = {
    ResourceExtensionTypeEnum::MediaSamplerTypeErode,
    ResourceExtensionTypeEnum::MediaSamplerTypeDilate,
    ResourceExtensionTypeEnum::MediaSamplerTypeMinMaxFilter,
    ResourceExtensionTypeEnum::MediaSamplerTypeMinMaxFilter,
    ResourceExtensionTypeEnum::MediaSamplerTypeConvolve,
    ResourceExtensionTypeEnum::MediaSamplerTypeMinMax,
    ResourceExtensionTypeEnum::MediaSamplerTypeCentroid,
    ResourceExtensionTypeEnum::MediaSamplerTypeBoolCentroid,
    ResourceExtensionTypeEnum::MediaSamplerTypeBoolSum,
    // SKL+ functions:
    ResourceExtensionTypeEnum::MediaSamplerTypeConvolve,
    ResourceExtensionTypeEnum::MediaSamplerTypeConvolve,
    ResourceExtensionTypeEnum::MediaSamplerTypeLbp,
    ResourceExtensionTypeEnum::MediaSamplerTypeLbp,
    ResourceExtensionTypeEnum::MediaSamplerTypeFloodFill,
    ResourceExtensionTypeEnum::MediaSamplerTypeCorrelation,
};
static_assert(sizeof(VA_FUNCTION_SAMPLER_TYPES) / sizeof(*VA_FUNCTION_SAMPLER_TYPES) == NUM_VA_FUNCTIONS,
              "Sampler mapping array needs to be in sync with VA_FUNCTIONS enum, fix me!");

ExtensionArgAnalysis::ExtensionArgAnalysis() : FunctionPass(ID) {
  m_extensionType = ResourceExtensionTypeEnum::NonExtensionType;

  initializeExtensionArgAnalysisPass(*PassRegistry::getPassRegistry());
}

void ExtensionArgAnalysis::visitCallInst(llvm::CallInst &CI) {
  auto *F = CI.getCalledFunction();

  if (!F) {
    return;
  }

  auto SetExtension = [&](int argIndex, ResourceExtensionTypeEnum expected, SmallPtrSet<Argument *, 3> &Args) {
    if (auto *pArg = dyn_cast<Argument>(ValueTracker::track(&CI, argIndex))) {
      if (m_ExtensionMap.count(pArg) != 0) {
        if (m_ExtensionMap[pArg] != expected) {
          getAnalysis<CodeGenContextWrapper>().getCodeGenContext()->EmitError("Inconsistent use of image!", &CI);
          return;
        }
      } else {
        m_ExtensionMap[pArg] = expected;
        Args.insert(pArg);
      }
    }
  };

  //
  // If kernel has device-side VME built-ins, its simd size has to be 16 given that
  // those built-ins only work for SIMD16 kernels.
  //
  auto CheckandSetSIMD16 = [&]() {
    if (IGC::IGCMD::MetaDataUtils *pMdUtils = getAnalysis<MetaDataUtilsWrapper>().getMetaDataUtils()) {
      auto funcIter = pMdUtils->findFunctionsInfoItem(CI.getParent()->getParent());
      if (funcIter != pMdUtils->end_FunctionsInfo()) {
        IGC::IGCMD::SubGroupSizeMetaDataHandle subGroupSize = funcIter->second->getSubGroupSize();
        if (subGroupSize->hasValue()) {
          if (subGroupSize->getSIMDSize() != 16)
            getAnalysis<CodeGenContextWrapper>().getCodeGenContext()->EmitError("SIMD16 is expected", &CI);
        } else
          subGroupSize->setSIMDSize(16);
      }
    }
  };

  StringRef name = F->getName();

  if (name.startswith("__builtin_IB_media_block_") || name == "__builtin_IB_media_block_rectangle_read") {
    SetExtension(0, ResourceExtensionTypeEnum::MediaResourceBlockType, m_MediaBlockArgs);
  } else if (name == "__builtin_IB_vme_send_fbr" || name == "__builtin_IB_vme_send_ime") {
    SetExtension(3, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    SetExtension(4, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    CheckandSetSIMD16();
  } else if (name == "__builtin_IB_vme_send_sic") {
    SetExtension(3, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    SetExtension(4, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    SetExtension(5, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    CheckandSetSIMD16();
  } else if (name.startswith("__builtin_IB_vme_send_ime_new") || name == "__builtin_IB_vme_send_sic_new" ||
             name == "__builtin_IB_vme_send_fbr_new") {
    // Handle image args.
    SetExtension(1, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    SetExtension(2, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    SetExtension(3, ResourceExtensionTypeEnum::MediaResourceType, m_MediaArgs);
    // Handle sampler arg.
    SetExtension(4, ResourceExtensionTypeEnum::MediaSamplerType, m_MediaSamplerArgs);
    CheckandSetSIMD16();
  }
}

bool ExtensionArgAnalysis::runOnFunction(Function &F) {
  m_ExtensionMap.clear();
  m_MediaArgs.clear();
  m_MediaBlockArgs.clear();
  m_extensionType = ResourceExtensionTypeEnum::NonExtensionType;
  m_vaArgs.clear();
  m_MediaSamplerArgs.clear();
  visit(F);

  StringRef funcName = F.getName();

  if (funcName == VME_FUNCTION_STRINGS[VME_FUNCTION] || funcName == VME_FUNCTION_STRINGS[ADVANCED_VME_FUNCTION] ||
      funcName == VME_FUNCTION_STRINGS[ADVANCED_VME_BIDIR_FUNCTION]) {
    // First function arg is the sampler
    auto arg = F.arg_begin();
    m_MediaSamplerArgs.insert(&(*arg));
  }

  m_extensionType = ResourceExtensionTypeEnum::NonExtensionType;

  for (int func = VA_FUNCTION_ERODE; func < NUM_VA_FUNCTIONS; ++func) {
    if (funcName.equals(VA_FUNCTION_STRINGS[func])) {
      // First function arg is the src image, second is the sampler,
      // and third arg is output buffer (ignored by this analysis).
      auto arg = F.arg_begin();
      for (int i = 0; i < 2; ++i) {
        m_vaArgs.insert(&(*arg));
        arg++;
      }

      m_extensionType = VA_FUNCTION_SAMPLER_TYPES[func];
    }
  }

  return false;
}

} // namespace IGC