Exemple #1
0
TL::Source LoopBlocking::do_blocking()
{
    Source result, block_loops;

    result
        << block_loops
        ;

    ObjectList<ForStatement> nest_loops = _for_nest_info.get_nest_list();

    _nesting = std::min(_nest_factors.size(), nest_loops.size());

    TL::Source *current_innermost_part = &block_loops;
    // For every loop declare its block loop variable and the inter-block loop
    ObjectList<TL::Expression>::iterator current_factor = _nest_factors.begin();
    ObjectList<TL::ForStatement>::iterator current_for = nest_loops.begin();
    for (int current_nest = 0;
            current_nest < _nesting;
            current_nest++, current_for++, current_factor++)
    {
        TL::IdExpression induction_var = current_for->get_induction_variable();
        TL::Symbol sym = induction_var.get_symbol();
        TL::Type type = sym.get_type();

        std::string var = "_blk_" + sym.get_name();

        TL::Source *new_innermost_part = new TL::Source();
        (*current_innermost_part)
            << "for(" << type.get_declaration(sym.get_scope(), var) << " = " << current_for->get_lower_bound() << ";"
                      << var << current_for->get_bound_operator() << current_for->get_upper_bound() << ";"
                      << var << "+= ( " << current_for->get_step() << ") * " << current_factor->prettyprint() << ")" 
            << (*new_innermost_part)
            ;

        current_innermost_part = new_innermost_part;
    }

    // Now for every loop, declare the intra-loop
    current_factor = _nest_factors.begin();
    current_for = nest_loops.begin();
    for (int current_nest = 0;
            current_nest < _nesting;
            current_nest++, current_for++, current_factor++)
    {
        TL::IdExpression induction_var = current_for->get_induction_variable();
        TL::Symbol sym = induction_var.get_symbol();
        TL::Type type = sym.get_type();

        std::string var = induction_var.prettyprint();
        std::string init_var = var;
        // If the loop declares the iterator in the for statement
        // declare it again
        AST_t loop_init = current_for->get_iterating_init();
        if (Declaration::predicate(loop_init))
        {
            // Fix init_var to be a declaration
            init_var = type.get_declaration(sym.get_scope(), var);
        }

        std::string blk_var = "_blk_" + sym.get_name();

        TL::Source min_code;

        TL::Source *new_innermost_part = new TL::Source();
        (*current_innermost_part)
            << "for(" << init_var << " = " << blk_var << ";"
                      << var << current_for->get_bound_operator() << min_code  << ";"
                      << var << "+= ( " << current_for->get_step() << "))" 
            << (*new_innermost_part)
            ;

        TL::Source a, b;
        min_code
            << "((" << a << ") < (" << b << ") ? (" << a << ") : (" << b << "))"
            ;

        a << blk_var << " + (" << current_for->get_step() << ") * (" << current_factor->prettyprint() << " - 1 )";
        b << current_for->get_upper_bound();

        current_innermost_part = new_innermost_part;
    }

    // And now the innermost loop
    (*current_innermost_part)
        << nest_loops[_nesting - 1].get_loop_body()
        ;

    return result;
}
TL::Source LoopUnroll::do_unroll()
{
	if (!_for_stmt.regular_loop())
	{
		return silly_unroll();
	}
	
    // Get parts of the loop
    IdExpression induction_var = _for_stmt.get_induction_variable();
    Expression lower_bound = _for_stmt.get_lower_bound();
    Expression upper_bound = _for_stmt.get_upper_bound();
    Expression step = _for_stmt.get_step();
    TL::Source operator_bound = _for_stmt.get_bound_operator();

    Statement loop_body = _for_stmt.get_loop_body();

    TL::Source result, epilogue, 
        main, induction_var_decl,
        before_main, after_main;

    std::stringstream ss;
    ss << _factor;

    result
        << "{"
        << induction_var_decl
        << before_main
        << main
        << after_main
        << epilogue
        << "}"
        ;

	Source replicated_body;
	Source epilogue_body;
	if (_factor > 1)
	{
		AST_t init = _for_stmt.get_iterating_init();
		if (Declaration::predicate(init))
		{
			TL::Symbol sym = induction_var.get_symbol();
			TL::Type type = sym.get_type();
			// Declare it since it will have local scope
			induction_var_decl
				<< type.get_declaration(sym.get_scope(), sym.get_name()) << ";"
				;
		}

		main
			<< "for (" << induction_var << " = " << lower_bound << ";"
			<< induction_var << operator_bound << "((" << upper_bound << ") - (" << _factor << " - 1)* (" << step << "));"
			<< induction_var << "+= (" << step << ") * " << _factor << ")"
			<< "{"
			<< replicated_body
			<< "}"
			;

		// FIXME - It could help to initialize here another variable and make both loops independent
		epilogue
			<< "for ( ; "  // No initialization, keep using the old induction var
			<< induction_var << operator_bound << upper_bound << ";"
			<< induction_var << "+= (" << step << "))"
			<< epilogue_body
			;

		if (!_remove_tasks)
		{
			epilogue_body << loop_body;
		}
		else
		{
			std::cerr << "Do not create task " << __FILE__ << ":" << __LINE__ << std::endl;
            running_error("Path not supported yet", 0);
			// epilogue_body << loop_body.get_ast().prettyprint_with_callback(functor(ignore_tasks));
		}
	}
	else
	{
		// Leave it as is
		main << "for(" << _for_stmt.get_iterating_init().prettyprint()
			<< _for_stmt.get_iterating_condition() << ";"
			<< _for_stmt.get_iterating_expression() << ")"
			<< "{"
			<< replicated_body
			<< "}"
			;
	}

    // Replicate the body
    bool consider_omp = false;

    if (TaskAggregation::contains_relevant_openmp(loop_body))
    {
        consider_omp = true;
    }

    if (_ignore_omp || !consider_omp)
    {
        simple_replication(_factor, replicated_body, epilogue_body,
                induction_var, loop_body);
    }
    else
    {
        omp_replication(_factor, replicated_body, epilogue_body,
                induction_var, loop_body, before_main, after_main);
    }

    return result;
}