void ClausesInfo::set_locus_info(AST_t directive)
{
_directive_clauses_map[directive].file = directive.get_file();
std::stringstream line;
line << directive.get_line();
_directive_clauses_map[directive].line = line.str();
}
void InstrumentCalls::InstrumentCallsFunctor::postorder(Context ctx, AST_t node)
{
ScopeLink scope_link = ctx.scope_link;
AST_t called_expression_tree = node.get_attribute(LANG_CALLED_EXPRESSION);
AST_t arguments_tree = node.get_attribute(LANG_FUNCTION_ARGUMENTS);
Expression called_expression(called_expression_tree, scope_link);
// Only function-names are considered here
if (!called_expression.is_id_expression())
{
// std::cerr << "Called expression is not an id expression" << std::endl;
return;
}
IdExpression called_id_expression = called_expression.get_id_expression();
if (!_instrument_filter.match(called_id_expression.prettyprint()))
return;
std::string shadow_function_name =
"_" + called_id_expression.mangle_id_expression() + "_instr";
if (defined_shadows.find(shadow_function_name) == defined_shadows.end())
{
// The shadow has not been defined, define it here
if (!define_shadow(called_id_expression, shadow_function_name))
{
// Ignore this shadow
return;
}
defined_shadows.insert(shadow_function_name);
}
// Now replace the arguments
Source replaced_arguments;
replaced_arguments
<< "\"" << node.get_file() << "\""
<< ","
<< node.get_line()
;
if (arguments_tree.prettyprint() != "")
{
replaced_arguments << "," << arguments_tree.prettyprint(/*commas=*/true);
}
// Now create an expression tree
Source shadow_function_call;
shadow_function_call
<< shadow_function_name << "(" << replaced_arguments << ")"
;
AST_t shadow_function_call_tree =
shadow_function_call.parse_expression(node, scope_link);
node.replace(shadow_function_call_tree);
}
/**
*
* @param function_def function that contains function calls that will be inlined.
* This means that this function will is actually the callsite
* of the called functions, and that this is the place were
* the code (from the inlined functions) will be written to
* @param scope_link
*/
void InlinePhase::find_functions(FunctionDefinition function_def, ScopeLink scope_link) {
FunctionCallsPred function_calls_pred(scope_link);
Statement function_body = function_def.get_function_body();
ObjectList<AST_t> list_of_calls = function_body.get_ast().depth_subtrees(function_calls_pred);
for (ObjectList<AST_t>::iterator it = list_of_calls.begin(); it != list_of_calls.end(); it++, _callNum++) {
// cout<<_callNum<<endl;
AST_t element = *it;
Expression expr(element, scope_link);
// We already know it is a function call, no need to check again
Expression _function_call = expr.get_called_expression();
Expression last_function_call = _function_call;
set_FCall(&_function_call);
// cin.get();
if (_function_call.is_id_expression()) {
IdExpression id_expr = _function_call.get_id_expression();
Symbol called_sym = id_expr.get_symbol();
Symbol last_called_sym = called_sym;
set_FSym(&called_sym);
if (called_sym.is_valid() && called_sym.is_function() && called_sym.is_defined()) {
// cout << "\nFinding if necessary forward inline for function '" << id_expr << "' in " << element.get_locus() << "\n";
_functionName = called_sym.get_name();
_rowOfCall = element.get_line();
int fnd = 0;
for(int fN = 0; fN<_inlinedFunctions.size(); ++fN) {
if(_inlinedFunctions[fN].get_name().compare(std::string(_functionName))==0) {
fnd = 1;
break;
}
}
if(!fnd) {
_inlinedFunctions.push_back(called_sym);
// cout << "\nForward inline of "<<called_sym.get_name()<<" called on: "<<function_def.get_function_name().get_symbol().get_name()<<" \n";
ObjectList<AST_t> list_of_fun_defs = _translation_unit.depth_subtrees(_function_def_pred);
for (ObjectList<AST_t>::iterator it = list_of_fun_defs.begin(); it != list_of_fun_defs.end(); it++) {
FunctionDefinition function_defNF(*it, scope_link);
TL::Symbol function_sym = function_defNF.get_function_symbol();
if(function_sym.get_name().compare(called_sym.get_name())==0) {
find_functions(function_defNF,scope_link);
set_FCall(&last_function_call);
set_FSym(&last_called_sym);
}
}
}
// cout << "\nApplying inlining for function" << called_sym.get_name() << "\n {";
inlineFunction(called_sym, expr);
// cout<<"} \n";
} else if(called_sym.is_defined()) {
cerr << "************************************"<<
"\n You can not use "<<called_sym.get_name()<<"inside HMPP codelet.\n"
<< "************************************";
exit(-1);
}
}
}
if(list_of_calls.size()==0) {
cout<<"No function calls in : "<<function_def.get_function_name().get_symbol().get_name()<<endl;
} else {
cout<<function_def.get_function_name().get_symbol().get_name()<< " finished -------------"<<endl;
}
}
