void Core::ompss_target_handler_pre(TL::PragmaCustomStatement ctr) { Nodecl::NodeclBase nested_pragma = ctr.get_statements(); if (!nested_pragma.is_null() && nested_pragma.is<Nodecl::List>()) { nested_pragma = nested_pragma.as<Nodecl::List>().front(); ERROR_CONDITION(!nested_pragma.is<Nodecl::Context>(), "Invalid node\n", 0); nested_pragma = nested_pragma.as<Nodecl::Context>().get_in_context().as<Nodecl::List>().front(); } if (nested_pragma.is_null() || !PragmaUtils::is_pragma_construct("omp", "task", nested_pragma)) { warn_printf_at(ctr.get_locus(), "'#pragma omp target' must precede a '#pragma omp task' in this context\n"); warn_printf_at(ctr.get_locus(), "skipping the whole '#pragma omp target'\n"); return; } PragmaCustomLine pragma_line = ctr.get_pragma_line(); OmpSs::TargetContext target_ctx; if (target_ctx.has_implements) { warn_printf_at(ctr.get_locus(), "'#pragma omp target' cannot have an 'implements' clause in this context\n"); warn_printf_at(ctr.get_locus(), "skipping the whole '#pragma omp target'\n"); return; } ompss_common_target_handler_pre(pragma_line, target_ctx, ctr.retrieve_context(), /* is_pragma_task */ false); _target_context.push(target_ctx); }
void loop_hlt_handler_post(TL::PragmaCustomStatement construct) { TL::PragmaCustomLine pragma_line = construct.get_pragma_line(); TL::PragmaCustomClause collapse = construct.get_pragma_line().get_clause("collapse"); if (!collapse.is_defined()) return; TL::ObjectList<Nodecl::NodeclBase> expr_list = collapse.get_arguments_as_expressions(construct); if (expr_list.size() != 1) { error_printf_at(construct.get_locus(), "'collapse' clause needs exactly one argument\n"); return; } Nodecl::NodeclBase expr = expr_list[0]; if (!expr.is_constant() || !is_any_int_type(expr.get_type().get_internal_type())) { error_printf_at(construct.get_locus(), "'collapse' clause requires an integer constant expression\n"); return; } int collapse_factor = const_value_cast_to_signed_int(expr.get_constant()); if (collapse_factor <= 0) { error_printf_at( construct.get_locus(), "Non-positive factor (%d) is not allowed in the 'collapse' clause\n", collapse_factor); } else if (collapse_factor == 1) { // Removing the collapse clause from the pragma pragma_line.remove_clause("collapse"); } else if (collapse_factor > 1) { Nodecl::NodeclBase loop = get_statement_from_pragma(construct); HLT::LoopCollapse loop_collapse; loop_collapse.set_loop(loop); loop_collapse.set_pragma_context(construct.retrieve_context()); loop_collapse.set_collapse_factor(collapse_factor); loop_collapse.collapse(); Nodecl::NodeclBase transformed_code = loop_collapse.get_whole_transformation(); TL::ObjectList<TL::Symbol> capture_symbols = loop_collapse.get_omp_capture_symbols(); // We may need to add some symbols that are used to implement the collapse clause to the pragma std::string names; for (TL::ObjectList<TL::Symbol>::iterator it = capture_symbols.begin(); it != capture_symbols.end(); it++) { if (it != capture_symbols.begin()) names += ","; names += it->get_name(); } Nodecl::List clauses = pragma_line.get_clauses().as<Nodecl::List>(); clauses.append(Nodecl::PragmaCustomClause::make(Nodecl::List::make(Nodecl::PragmaClauseArg::make(names)), "firstprivate")); // Removing the collapse clause from the pragma pragma_line.remove_clause("collapse"); // Create a new pragma over the new for stmt ERROR_CONDITION(!transformed_code.is<Nodecl::Context>(), "Unexpected node\n", 0); Nodecl::NodeclBase compound_statement = transformed_code.as<Nodecl::Context>().get_in_context().as<Nodecl::List>().front(); ERROR_CONDITION(!compound_statement.is<Nodecl::CompoundStatement>(), "Unexpected node\n", 0); Nodecl::Context context_for_stmt = compound_statement.as<Nodecl::CompoundStatement>().get_statements() .as<Nodecl::List>().find_first<Nodecl::Context>(); Nodecl::Utils::remove_from_enclosing_list(context_for_stmt); Nodecl::List stmt_list = compound_statement.as<Nodecl::CompoundStatement>().get_statements().as<Nodecl::List>(); ERROR_CONDITION(stmt_list.is_null(), "Unreachable code\n", 0); Nodecl::PragmaCustomStatement new_pragma = Nodecl::PragmaCustomStatement::make(pragma_line, Nodecl::List::make(context_for_stmt), construct.get_text(), construct.get_locus()); stmt_list.append(new_pragma); construct.replace(transformed_code); } }