num_cst, ilp_timer_elapsed_usec(t_cst) / 1000000.0));
}
+#if 0
static void create_proj_keep_constraints(be_ilpsched_env_t *env, lpp_t *lpp, be_ilpsched_irn_t *block_node) {
char buf[1024];
ir_node *irn;
DBG((env->dbg, LEVEL_1, "\t%u Proj and Keep constraints (%g sec)\n",
num_cst, ilp_timer_elapsed_usec(t_cst) / 1000000.0));
}
+#endif
/***************************************************
* _____ _ _____ _
/**
* Check if given unit is the generic dummy unit.
*/
-int be_machine_is_dummy_unit(be_execution_unit_t *unit) {
+int be_machine_is_dummy_unit(const be_execution_unit_t *unit) {
return unit == &be_machine_execution_units_DUMMY[0];
}
/**
* Check if given unit is the generic dummy unit type.
*/
-int be_machine_is_dummy_unit_type(be_execution_unit_type_t *tp) {
+int be_machine_is_dummy_unit_type(const be_execution_unit_type_t *tp) {
return tp == &be_machine_execution_unit_types[0];
}
/**
* Check if given unit is the generic dummy unit.
*/
-int be_machine_is_dummy_unit(be_execution_unit_t *unit);
+int be_machine_is_dummy_unit(const be_execution_unit_t *unit);
/**
* Check if given unit is the generic dummy unit type.
*/
-int be_machine_is_dummy_unit_type(be_execution_unit_type_t *tp);
+int be_machine_is_dummy_unit_type(const be_execution_unit_type_t *tp);
/**
* Get the number of available unit types in the given machine.