const std::string &Type::name() const {
auto i = names.find(type_id);
if(i!=names.end())
return i->second;
else if(is_vector()) {
std::stringstream s;
s << vector_of().name() << vector_size();
names.insert(std::pair<int, std::string>(type_id, s.str()));
return names[type_id];
} else if(is_pointer()) {
std::stringstream s;
s << "__global " << pointer_to().name() << " *";
names.insert(std::pair<int, std::string>(type_id, s.str()));
return names[type_id];
} else {
assert(!"Invalid type.");
}
}
FileSetBlock *CreateSuifComplexInputPass::build_file_set_block() {
SuifEnv *suif = get_suif_env();
// Build a blank fileset
FileSetBlock *the_file_set_block = build_the_file_set_block(suif);
_suif_env->set_file_set_block( the_file_set_block );
SymbolTable* ext_table = the_file_set_block->get_external_symbol_table();
_tb = (TypeBuilder*)suif->get_object_factory(TypeBuilder::get_class_name());
suif_assert_message(_tb, ("Could not initialize typebuilder"));
// build the types
_char_type =
_tb->get_integer_type( sizeof(char),sizeof(char),true);
// ext_table -> append_symbol_table_object( _char_type );
_q_char_type = _tb->get_qualified_type(_char_type);
_fpt = _tb->get_floating_point_type( 64 ,64);
_q_fpt = _tb->get_qualified_type(_fpt);
// ext_table -> append_symbol_table_object( _fpt );
_argc_type = _tb->get_integer_type(sizeof(int),sizeof(int)*8,true);
_q_argc_type = _tb->get_qualified_type(_argc_type);
list<QualifiedType *> ql;
_printf_type =
_tb->get_c_procedure_type(_argc_type, ql, false,true,sizeof(int));
// ext_table -> append_symbol_table_object( _printf_type );
// Expression *i0 = create_int_constant(suif, 0, 0);
// Expression *i1 = create_int_constant(suif, 0, strlen(HELLO_STRING) + 1);
_string_literal_type =
_tb->get_array_type( //IInteger((strlen(HELLO_STRING) + 1) * sizeof(char)),
// (int)sizeof(char),
_q_char_type,
0, strlen(HELLO_STRING)+1);
// i0,i1);
// ext_table -> append_symbol_table_object( _string_literal_type );
// _argc_type = create_integer_type(suif, sizeof(int),sizeof(int)*8,true);
// ext_table -> append_symbol_table_object( _argc_type );
// _q_argc_type = tb->get_qualified_type(_argc_type);
_argv_type = _tb->get_pointer_type(_tb->get_pointer_type(_char_type));
_q_argv_type = _tb->get_qualified_type(_argv_type);
list<QualifiedType *> qlist;
qlist.push_back(_q_argc_type);
qlist.push_back(_q_argv_type);
_main_type =
_tb->get_c_procedure_type( _argc_type, qlist, false,true,sizeof(int));
// _main_type->append_argument( _q_argc_type );
// _main_type->append_argument( _q_argv_type );
// ext_table -> append_symbol_table_object( _main_type );
// Build a blank main routine.
ProcedureDefinition *main_definition =
build_main( "complex_input.c");
// Pull info out of main.
ParameterSymbol *argc_symbol =
main_definition->get_formal_parameter(0);
CProcedureType *main_type =
to<CProcedureType>(main_definition->get_procedure_symbol()->get_type());
StatementList *main_body =
to<StatementList>(main_definition->get_body());
// Now create the printf statement and add it in
main_type->append_argument(_tb->get_qualified_type(_tb->get_pointer_type(_char_type)));
ProcedureSymbol *printf_symbol =
create_procedure_symbol(suif, _printf_type, "printf", true );
the_file_set_block->get_external_symbol_table()->
add_symbol(printf_symbol);
VariableSymbol *float_literal_symbol =
create_variable_symbol( suif, _q_fpt, " float symbol", true );
ext_table -> add_symbol(float_literal_symbol );
MultiValueBlock *float_literal_initialization =
create_multi_value_block( _suif_env, _fpt);
float_literal_initialization->add_sub_block(0,
create_expression_value_block( _suif_env,
create_float_constant(_suif_env, _fpt, 7.0)));
VariableDefinition *float_literal_definition =
create_variable_definition(suif, float_literal_symbol,sizeof(float),
float_literal_initialization, true);
main_definition->get_definition_block()->
append_variable_definition(float_literal_definition);
VariableSymbol *string_literal_symbol =
create_variable_symbol(suif, _q_string_literal_type, emptyLString, true );
main_definition->get_symbol_table()->append_symbol_table_object(string_literal_symbol);
MultiValueBlock *string_literal_initialization =
create_multi_value_block(suif, _string_literal_type);
for (size_t char_num = 0; char_num <= strlen(HELLO_STRING); ++char_num)
{
string_literal_initialization->
add_sub_block(char_num,
create_expression_value_block( _suif_env,
create_int_constant( _suif_env, _char_type, HELLO_STRING[char_num] )));
}
VariableDefinition *string_literal_definition =
create_variable_definition( _suif_env, string_literal_symbol,sizeof(char),
string_literal_initialization, true);
main_definition->get_definition_block()->
append_variable_definition(string_literal_definition);
SymbolAddressExpression* printf_address_expression =
create_symbol_address_expression( _suif_env,
pointer_to( _suif_env, _printf_type),
printf_symbol );
SymbolAddressExpression* printf_argument_expression =
create_symbol_address_expression( _suif_env,
pointer_to(_suif_env, _char_type),
string_literal_symbol );
CallStatement *printf_call =
create_call_statement( _suif_env,
NULL,
// _argc_type,
printf_address_expression );
printf_call->append_argument(printf_argument_expression);
// EvalStatement *printf_statement = create_eval_statement( _suif_env );
// printf_statement->append_expression(printf_call);
main_body->append_statement(printf_call);
Expression *condition =
create_load_variable_expression(_suif_env,
unqualify_data_type(argc_symbol->get_type()),
argc_symbol);
StatementList *then_part =
create_statement_list(suif);
Statement* s = deep_suif_clone( _suif_env, printf_call);
then_part->append_statement( s );
StatementList *else_part = create_statement_list( _suif_env );
else_part->append_statement(deep_suif_clone<Statement>( _suif_env, printf_call));
else_part->append_statement(deep_suif_clone<Statement>( _suif_env, printf_call));
IfStatement *the_if =
create_if_statement( _suif_env,
condition,
then_part,
else_part);
main_body->append_statement(the_if);
return the_file_set_block;
}
