Example #1
0
    // We redefine the visitor of Nodecl::FunctionCode because  we need to
    // visit first the internal functions and later the statements
    void LoweringVisitor::visit(const Nodecl::FunctionCode& function_code)
    {
        Nodecl::List stmts = function_code.get_statements().as<Nodecl::List>();

        // First, traverse nested functions
        for (Nodecl::List::iterator it = stmts.begin();
                it != stmts.end();
                it++)
        {
            if (it->is<Nodecl::FunctionCode>())
            {
                walk(*it);
            }
        }
        // Second, remaining statements
        for (Nodecl::List::iterator it = stmts.begin();
                it != stmts.end();
                it++)
        {
            if (!it->is<Nodecl::FunctionCode>())
            {
                walk(*it);
            }
        }
    }
Example #2
0
        void NeonVectorBackend::visit(const Nodecl::FunctionCode& n)
        {
            bool contains_vector_nodes = TL::Vectorization::Utils::contains_vector_nodes(n);

            if (contains_vector_nodes)
            {
                // Initialize analisys
                TL::Optimizations::canonicalize_and_fold(
                        n, /*_fast_math_enabled*/ false);

                walk(n.get_statements());
            }
        }
Example #3
0
        void VectorizerVisitorFunction::visit(const Nodecl::FunctionCode& function_code)
        {
            // Set up enviroment
            _environment._external_scope =
                function_code.retrieve_context();
            _environment._local_scope_list.push_back(
                    function_code.get_statements().retrieve_context());

            // Get analysis info
            Vectorizer::initialize_analysis(function_code);

            // Push FunctionCode as scope for analysis
            _environment._analysis_scopes.push_back(function_code);

            //Vectorize function type and parameters
            TL::Symbol vect_func_sym = function_code.get_symbol();
            TL::Type func_type = vect_func_sym.get_type();
            TL::ObjectList<TL::Symbol> parameters = vect_func_sym.get_function_parameters();
            TL::ObjectList<TL::Type> parameters_type = func_type.parameters();

            TL::ObjectList<TL::Type> parameters_vector_type;
            
            TL::ObjectList<TL::Type>::iterator it_type;
            TL::ObjectList<TL::Symbol>::iterator it_param_sym;
            
            for(it_param_sym = parameters.begin(), it_type = parameters_type.begin();
                    it_type != parameters_type.end();
                    it_param_sym++, it_type++)
            {
                TL::Type sym_type = get_qualified_vector_to((*it_type), _environment._vector_length);

                // Set type to parameter TL::Symbol
                (*it_param_sym).set_type(sym_type);

                parameters_vector_type.append(sym_type);
            }


            if(_masked_version)
            {
                TL::Scope scope = vect_func_sym.get_related_scope();

                // Create mask parameter
                TL::Symbol mask_sym = scope.new_symbol("__mask_param");
                mask_sym.get_internal_symbol()->kind = SK_VARIABLE;
                mask_sym.get_internal_symbol()->entity_specs.is_user_declared = 1;
                mask_sym.set_type(TL::Type::get_mask_type(_environment._mask_size));
               
                symbol_set_as_parameter_of_function(mask_sym.get_internal_symbol(), 
                        vect_func_sym.get_internal_symbol(),
                        parameters.size());

                // Add mask symbol and type to parameters
                parameters.append(mask_sym);
                parameters_vector_type.append(mask_sym.get_type());
                vect_func_sym.set_related_symbols(parameters);

                // Take care of default_argument_info_t*
                //TODO: Move this into a function
                {
                int num_parameters =
                    vect_func_sym.get_internal_symbol()->entity_specs.num_parameters;
                default_argument_info_t** default_argument_info =
                    vect_func_sym.get_internal_symbol()->entity_specs.default_argument_info;

                num_parameters++;
                default_argument_info = (default_argument_info_t**)xrealloc(default_argument_info,
                        num_parameters * sizeof(*default_argument_info));
                default_argument_info[num_parameters-1] = NULL;

                vect_func_sym.get_internal_symbol()->entity_specs.default_argument_info = default_argument_info;
                vect_func_sym.get_internal_symbol()->entity_specs.num_parameters = num_parameters;
                }

                Nodecl::Symbol mask_nodecl_sym = 
                    mask_sym.make_nodecl(true, function_code.get_locus());

                _environment._mask_list.push_back(mask_nodecl_sym);
            }
            else // Add MaskLiteral to mask_list
            {
                Nodecl::MaskLiteral all_one_mask =
                    Nodecl::MaskLiteral::make(
                            TL::Type::get_mask_type(_environment._mask_size),
                            const_value_get_minus_one(_environment._mask_size, 1),
                            make_locus("", 0, 0));

                _environment._mask_list.push_back(all_one_mask);
            }

            vect_func_sym.set_type(get_qualified_vector_to(func_type.returns(), 
                        _environment._vector_length).get_function_returning(parameters_vector_type));

            // Vectorize function statements
            VectorizerVisitorStatement visitor_stmt(_environment);
            visitor_stmt.walk(function_code.get_statements());

            // Add final return if multi-return function
            if (_environment._function_return.is_valid())
            {
                // Return value
                Nodecl::Symbol return_value= _environment._function_return.make_nodecl(
                        false, function_code.get_locus());

//                VectorizerVisitorExpression visitor_sym(_environment);
//                visitor_sym.walk(return_value);

                // Return value at the end of the Compound Statement
                Nodecl::ReturnStatement return_stmt =
                    Nodecl::ReturnStatement::make(return_value, function_code.get_locus());

                function_code.get_statements().as<Nodecl::Context>().get_in_context().as<Nodecl::List>()
                    .front().as<Nodecl::CompoundStatement>().get_statements()
                    .as<Nodecl::List>().append(return_stmt);
            }
            

            _environment._analysis_scopes.pop_back();
            _environment._mask_list.pop_back();

            // Analysis in functions won't be reused anywhere so it must be freed
            Vectorizer::finalize_analysis();
        }