daisytuner / sdfglib / 17795528332

void InstrumentationPlan::update(const structured_control_flow::ControlFlowNode& node, InstrumentationEventType event_type) {

    this->nodes_[&node] = event_type;

}

void InstrumentationPlan::begin_instrumentation(const structured_control_flow::ControlFlowNode& node, PrettyPrinter& stream)

    std::string region_name = sdfg_.name() + "_" + std::to_string(node.element_id());

    auto& dbg_info = node.debug_info();

    std::string region_id_var = sdfg_.name() + "_" + std::to_string(node.element_id()) + "_id";

    std::string metadata_var = sdfg_.name() + "_" + std::to_string(node.element_id()) + "_md";

    stream << "__daisy_metadata_t " << metadata_var << ";" << std::endl;

    stream << metadata_var << ".region_name = \"" << region_name << "\";" << std::endl;

    stream << metadata_var << ".function_name = \"" << dbg_info.function() << "\";" << std::endl;

    stream << metadata_var << ".file_name = \"" << dbg_info.filename() << "\";" << std::endl;

    stream << metadata_var << ".line_begin = " << dbg_info.start_line() << ";" << std::endl;

    stream << metadata_var << ".line_end = " << dbg_info.end_line() << ";" << std::endl;

    stream << metadata_var << ".column_begin = " << dbg_info.start_column() << ";" << std::endl;

    stream << metadata_var << ".column_end = " << dbg_info.end_column() << ";" << std::endl;

    if (!(this->loopnest_indices_.empty())) {

        stream << metadata_var << ".loopnest_index = " << this->loopnest_indices_.at(&node) << ";" << std::endl;

    }

    if (this->nodes_.at(&node) == InstrumentationEventType::CPU) {

        stream << "long long " << region_id_var << " = __daisy_instrumentation_init(&" << metadata_var

               << ", __DAISY_EVENT_SET_CPU);" << std::endl;

        stream << "__daisy_instrumentation_enter(" << region_id_var << ");" << std::endl;

    } else {

        stream << "long long " << region_id_var << " = __daisy_instrumentation_init(&" << metadata_var

               << ", __DAISY_EVENT_SET_CUDA);" << std::endl;

        stream << "__daisy_instrumentation_enter(" << region_id_var << ");" << std::endl;

}

void InstrumentationPlan::end_instrumentation(const structured_control_flow::ControlFlowNode& node, PrettyPrinter& stream)

    std::string region_id_var = sdfg_.name() + "_" + std::to_string(node.element_id()) + "_id";

    if (this->nodes_.at(&node) == InstrumentationEventType::CPU) {

        stream << "__daisy_instrumentation_exit(" << region_id_var << ");" << std::endl;

    } else {

        stream << "__daisy_instrumentation_exit(" << region_id_var << ");" << std::endl;

}

}

std::unique_ptr<InstrumentationPlan> InstrumentationPlan::outermost_loops_plan(StructuredSDFG& sdfg) {

    analysis::AnalysisManager analysis_manager(sdfg);

    auto& loop_tree_analysis = analysis_manager.get<analysis::LoopAnalysis>();

    auto ols = loop_tree_analysis.outermost_loops();

    std::unordered_map<const structured_control_flow::ControlFlowNode*, InstrumentationEventType> nodes;

    std::unordered_map<const structured_control_flow::ControlFlowNode*, size_t> loopnest_indices;

    for (size_t i = 0; i < ols.size(); i++) {

        auto& loop = ols[i];

        if (auto map_node = dynamic_cast<const structured_control_flow::Map*>(loop)) {

            if (map_node->schedule_type().value() == "CUDA") {

                nodes.insert({loop, InstrumentationEventType::CUDA});

                continue;

        }

        loopnest_indices[loop] = i;

        nodes.insert({loop, InstrumentationEventType::CPU}); // Default to CPU if not CUDA

    }

    return std::make_unique<InstrumentationPlan>(sdfg, nodes, loopnest_indices);

}