/** ir_prog */
struct ir_prog {
- firm_kind kind;
+ firm_kind kind; /**< must be k_ir_prog */
ident *name; /**< A file name or the like. */
ir_graph *main_irg; /**< entry point to the compiled program
@@@ or a list, in case we compile a library or the like? */
ir_graph **graphs; /**< all graphs in the ir */
ir_graph **pseudo_graphs; /**< all pseudo graphs in the ir. See pseudo_irg.c */
ir_graph *const_code_irg; /**< This ir graph gives the proper environment
- to allocate nodes the represent values
- of constant entities. It is not meant as
- a procedure. */
- type *glob_type; /**< global type. Must be a class as it can
- have fields and procedures. */
- type **types; /**< all types in the ir */
+ to allocate nodes the represent values
+ of constant entities. It is not meant as
+ a procedure. */
+ ir_type *glob_type; /**< global type. Must be a class as it can
+ have fields and procedures. */
+ ir_type **types; /**< all types in the ir */
+ ir_mode **modes; /**< all modes in the ir */
+ ir_op **opcodes; /**< all opcodes in the ir */
/* -- states of and access to generated information -- */
irg_phase_state phase_state; /**< State of construction. */
irg_outs_state outs_state; /**< State of out edges of ir nodes. */
ir_node **ip_outedges; /**< Huge Array that contains all out edges
- in interprocedural view. */
+ in interprocedural view. */
irg_outs_state trouts_state; /**< State of out edges of type information. */
irg_callee_info_state callee_info_state; /**< Validity of callee information.
inh_transitive_closure_state inh_trans_closure_state; /**< trans closure of inh relations. */
irp_callgraph_state callgraph_state; /**< State of the callgraph. */
- struct ir_loop *outermost_cg_loop; /**< For callgraph analysis: entry point
+ ir_loop *outermost_cg_loop; /**< For callgraph analysis: entry point
to looptree over callgraph. */
int max_callgraph_loop_depth; /**< needed in callgraph. */
int max_callgraph_recursion_depth; /**< needed in callgraph. */
- int max_method_execution_frequency; /**< needed in callgraph. */
+ double max_method_execution_frequency; /**< needed in callgraph. */
irp_temperature_state temperature_state; /**< accumulated temperatures computed? */
exec_freq_state execfreq_state; /**< State of execution freqency information */
loop_nesting_depth_state lnd_state; /**< State of loop nesting depth information. */
ir_class_cast_state class_cast_state; /**< kind of cast operations in code. */
#ifdef DEBUG_libfirm
- long max_node_nr; /**< to generate unique numbers for nodes. */
+ long max_node_nr; /**< to generate unique numbers for nodes. */
#endif
};
-void remove_irp_type_from_list (type *typ);
+/** Adds mode to the list of modes in irp. */
+void add_irp_mode(ir_mode *mode);
-static INLINE type *
-__get_glob_type(void) {
+/* INLINE functions */
+
+static INLINE ir_type *
+_get_glob_type(void) {
assert(irp);
return irp->glob_type = skip_tid(irp->glob_type);
}
static INLINE int
-__get_irp_n_irgs(void) {
+_get_irp_n_irgs(void) {
assert (irp && irp->graphs);
if (get_visit_pseudo_irgs()) return get_irp_n_allirgs();
- return (ARR_LEN((irp)->graphs));
+ return ARR_LEN(irp->graphs);
}
static INLINE ir_graph *
-__get_irp_irg(int pos){
+_get_irp_irg(int pos){
if (get_visit_pseudo_irgs()) return get_irp_allirg(pos);
- assert(0 <= pos && pos <= get_irp_n_irgs());
+ assert(0 <= pos && pos <= _get_irp_n_irgs());
return irp->graphs[pos];
}
static INLINE int
-__get_irp_n_types (void) {
+_get_irp_n_types (void) {
assert (irp && irp->types);
- return (ARR_LEN((irp)->types));
+ return ARR_LEN(irp->types);
}
-static INLINE type *
-__get_irp_type(int pos) {
+static INLINE ir_type *
+_get_irp_type(int pos) {
assert (irp && irp->types);
/* Don't set the skip_tid result so that no double entries are generated. */
return skip_tid(irp->types[pos]);
}
+static INLINE int
+_get_irp_n_modes(void) {
+ assert (irp && irp->modes);
+ return ARR_LEN(irp->modes);
+}
+
+static INLINE ir_mode *
+_get_irp_mode(int pos) {
+ assert (irp && irp->modes);
+ return irp->modes[pos];
+}
+
+static INLINE int
+_get_irp_n_opcodes(void) {
+ assert (irp && irp->opcodes);
+ return ARR_LEN(irp->opcodes);
+}
+
+static INLINE ir_op *
+_get_irp_opcode(int pos) {
+ assert (irp && irp->opcodes);
+ return irp->opcodes[pos];
+}
+
#ifdef DEBUG_libfirm
/** Returns a new, unique number to number nodes or the like. */
-int get_irp_new_node_nr(void);
-#endif
+static INLINE long
+get_irp_new_node_nr(void) {
+ assert(irp);
+ return irp->max_node_nr++;
+}
+#endif /* DEBUG_libfirm */
static INLINE ir_graph *
-__get_const_code_irg(void)
-{
+_get_const_code_irg(void) {
return irp->const_code_irg;
}
void set_irp_ip_outedges(ir_node ** ip_outedges);
ir_node** get_irp_ip_outedges(void);
-/** initializes ir_prog. Calls the constructor for an ir_prog. */
-void init_irprog(void);
-
-#define get_irp_n_irgs() __get_irp_n_irgs()
-#define get_irp_irg(pos) __get_irp_irg(pos)
-#define get_irp_n_types() __get_irp_n_types()
-#define get_irp_type(pos) __get_irp_type(pos)
-#define get_const_code_irg() __get_const_code_irg()
-#define get_glob_type() __get_glob_type()
+/** initializes ir_prog. Constructs only the basic lists */
+void init_irprog_1(void);
+
+/** Completes ir_prog. */
+void init_irprog_2(void);
+
+#define get_irp_n_irgs() _get_irp_n_irgs()
+#define get_irp_irg(pos) _get_irp_irg(pos)
+#define get_irp_n_types() _get_irp_n_types()
+#define get_irp_type(pos) _get_irp_type(pos)
+#define get_irp_n_modes() _get_irp_n_modes()
+#define get_irp_mode(pos) _get_irp_mode(pos)
+#define get_irp_n_opcodes() _get_irp_n_opcodes()
+#define get_irp_opcode(pos) _get_irp_opcode(pos)
+#define get_const_code_irg() _get_const_code_irg()
+#define get_glob_type() _get_glob_type()
#endif /* ifndef _IRPROG_T_H_ */