*/
#ifdef HAVE_CONFIG_H
-# include <config.h>
+# include "config.h"
+#endif
+
+#ifdef HAVE_ALLOCA_H
+#include <alloca.h>
+#endif
+#ifdef HAVE_MALLOC_H
+#include <malloc.h>
+#endif
+#ifdef HAVE_STRING_H
+# include <string.h>
#endif
# include <stdlib.h>
# include <stddef.h>
-# include <string.h>
# include "type_t.h"
+# include "xmalloc.h"
# include "irprog_t.h"
# include "ircons.h"
# include "tpop_t.h"
assert(!id_contains_char(name, ' ') && "type name should not contain spaces");
node_size = offsetof(type, attr) + type_op->attr_size;
- res = (type *) xmalloc (node_size);
+ res = xmalloc (node_size);
+ memset(res, 0, node_size);
add_irp_type(res); /* Remember the new type global. */
res->kind = k_type;
res->name = name;
res->state = layout_undefined;
res->size = -1;
+ res->align = -1;
res->visit = 0;
res -> link = NULL;
#ifdef DEBUG_libfirm
res->nr = get_irp_new_node_nr();
-#endif
+#endif /* defined DEBUG_libfirm */
return res;
}
}
/* set/get the link field */
-void *(get_type_link)(type *tp)
+void *(get_type_link)(const type *tp)
{
return __get_type_link(tp);
}
__set_type_link(tp, l);
}
-tp_op *(get_type_tpop)(type *tp) {
+const tp_op *(get_type_tpop)(const type *tp) {
return __get_type_tpop(tp);
}
-ident *(get_type_tpop_nameid)(type *tp) {
+ident *(get_type_tpop_nameid)(const type *tp) {
return __get_type_tpop_nameid(tp);
}
-const char* get_type_tpop_name(type *tp) {
+const char* get_type_tpop_name(const type *tp) {
assert(tp && tp->kind == k_type);
return get_id_str(tp->type_op->name);
}
-tp_opcode (get_type_tpop_code)(type *tp) {
+tp_opcode (get_type_tpop_code)(const type *tp) {
return __get_type_tpop_code(tp);
}
-ir_mode *(get_type_mode)(type *tp) {
+ir_mode *(get_type_mode)(const type *tp) {
return __get_type_mode(tp);
}
assert(tp && tp->kind == k_type);
assert(((tp->type_op != type_primitive) || mode_is_data(m)) &&
- /* Modes of primitives must be data */
- ((tp->type_op != type_enumeration) || mode_is_int(m)) &&
+ /* Modes of primitives must be data */
+ ((tp->type_op != type_enumeration) || mode_is_int(m)) &&
/* Modes of enumerations must be integers */
- ((tp->type_op != type_pointer) || mode_is_reference(m)) );
- /* Modes of pointers must be references. */
+ ((tp->type_op != type_pointer) || mode_is_reference(m)) );
+ /* Modes of pointers must be references. */
switch (get_type_tpop_code(tp)) {
case tpo_primitive:
case tpo_class:
/* for classes and structs we allow to set a mode if the layout is fixed AND the size matches */
assert(get_type_state(tp) == layout_fixed &&
- tp->size == get_mode_size_bits(m) &&
- "mode don't match struct/class layout");
+ tp->size == get_mode_size_bits(m) &&
+ "mode don't match struct/class layout");
tp->mode = m;
break;
default:
}
}
-ident *(get_type_ident)(type *tp) {
+ident *(get_type_ident)(const type *tp) {
return __get_type_ident(tp);
}
}
/* Outputs a unique number for this node */
-long (get_type_nr)(type *tp) {
+long (get_type_nr)(const type *tp) {
return __get_type_nr(tp);
}
-const char* get_type_name(type *tp) {
+const char* get_type_name(const type *tp) {
assert(tp && tp->kind == k_type);
return (get_id_str(tp->name));
}
-int (get_type_size_bytes)(type *tp) {
+int (get_type_size_bytes)(const type *tp) {
return __get_type_size_bytes(tp);
}
-int (get_type_size_bits)(type *tp) {
+int (get_type_size_bits)(const type *tp) {
return __get_type_size_bits(tp);
}
set_type_size_bits(tp, 8*size);
}
-type_state (get_type_state)(type *tp) {
+int get_type_alignment_bytes(type *tp) {
+ int align = get_type_alignment_bits(tp);
+
+ return align < 0 ? align : (align + 7) >> 3;
+}
+
+int get_type_alignment_bits(type *tp) {
+ int align = 8;
+
+ if (tp->align > 0)
+ return tp->align;
+
+ /* alignment NOT set calculate it "on demand" */
+ if (tp->mode)
+ align = get_mode_size_bits(tp->mode);
+ else if (is_array_type(tp))
+ align = get_type_alignment_bits(get_array_element_type(tp));
+ else if (is_compound_type(tp)) {
+ int i, n = get_compound_n_members(tp);
+
+ align = 0;
+ for (i = 0; i < n; ++i) {
+ type *t = get_entity_type(get_compound_member(tp, i));
+ int a = get_type_alignment_bits(t);
+
+ if (a > align)
+ align = a;
+ }
+ }
+ else if (is_method_type(tp))
+ align = 0;
+
+ /* write back */
+ tp->align = align;
+
+ return align;
+}
+
+void
+set_type_alignment_bits(type *tp, int align) {
+ assert(tp && tp->kind == k_type);
+ /* Methods don't have an alignment. */
+ if (tp->type_op != type_method) {
+ tp->align = align;
+ }
+}
+
+void
+set_type_alignment_bytes(type *tp, int align) {
+ set_type_size_bits(tp, 8*align);
+}
+
+type_state (get_type_state)(const type *tp) {
return __get_type_state(tp);
}
switch (get_type_tpop_code(tp)) {
case tpo_class:
{
- assert(get_type_size_bits(tp) > -1);
- if (tp != get_glob_type()) {
- int n_mem = get_class_n_members(tp);
- for (i = 0; i < n_mem; i++) {
- if (get_entity_offset_bits(get_class_member(tp, i)) <= -1)
- { DDMT(tp); DDME(get_class_member(tp, i)); }
- assert(get_entity_offset_bits(get_class_member(tp, i)) > -1);
+ assert(get_type_size_bits(tp) > -1);
+ if (tp != get_glob_type()) {
+ int n_mem = get_class_n_members(tp);
+ for (i = 0; i < n_mem; i++) {
+ if (get_entity_offset_bits(get_class_member(tp, i)) <= -1)
+ { DDMT(tp); DDME(get_class_member(tp, i)); }
+ assert(get_entity_offset_bits(get_class_member(tp, i)) > -1);
/* TR ??
- assert(is_method_type(get_entity_type(get_class_member(tp, i))) ||
- (get_entity_allocation(get_class_member(tp, i)) == allocation_automatic));
+ assert(is_method_type(get_entity_type(get_class_member(tp, i))) ||
+ (get_entity_allocation(get_class_member(tp, i)) == allocation_automatic));
*/
- }
- }
+ }
+ }
} break;
case tpo_struct:
{
- assert(get_type_size_bits(tp) > -1);
- for (i = 0; i < get_struct_n_members(tp); i++) {
- assert(get_entity_offset_bits(get_struct_member(tp, i)) > -1);
- assert((get_entity_allocation(get_struct_member(tp, i)) == allocation_automatic));
- }
+ assert(get_type_size_bits(tp) > -1);
+ for (i = 0; i < get_struct_n_members(tp); i++) {
+ assert(get_entity_offset_bits(get_struct_member(tp, i)) > -1);
+ assert((get_entity_allocation(get_struct_member(tp, i)) == allocation_automatic));
+ }
} break;
case tpo_union:
{ /* ?? */
} break;
case tpo_array:
{ /* ??
- Check order?
- Assure that only innermost dimension is dynamic? */
+ Check order?
+ Assure that only innermost dimension is dynamic? */
} break;
case tpo_enumeration:
{
- assert(get_type_mode != NULL);
- for (i = 0; i < get_enumeration_n_enums(tp); i++)
- assert(get_enumeration_enum(tp, i) != NULL);
+ assert(get_type_mode != NULL);
+ for (i = 0; i < get_enumeration_n_enums(tp); i++)
+ assert(get_enumeration_enum(tp, i) != NULL);
} break;
default: break;
} /* switch (tp) */
tp->state = state;
}
-unsigned long (get_type_visited)(type *tp) {
+unsigned long (get_type_visited)(const type *tp) {
return __get_type_visited(tp);
}
}
/* @@@ name clash with master flag
-int (type_visited)(type *tp) {
+int (type_visited)(const type *tp) {
return __type_visited(tp);
}*/
-int (type_not_visited)(type *tp) {
+int (type_not_visited)(const type *tp) {
return __type_not_visited(tp);
}
-int (is_type)(void *thing) {
+int (is_type)(const void *thing) {
return __is_type(thing);
}
for (i = 0; i < get_class_n_members(typ1); i++) {
entity *e1 = get_class_member(typ1, i);
for (j = 0; j < get_class_n_members(typ2); j++) {
- entity *e2 = get_class_member(typ2, j);
- if (get_entity_name(e1) == get_entity_name(e2))
- m[i] = e2;
+ entity *e2 = get_class_member(typ2, j);
+ if (get_entity_name(e1) == get_entity_name(e2))
+ m[i] = e2;
}
}
for (i = 0; i < get_class_n_members(typ1); i++) {
if (!m[i] || /* Found no counterpart */
- !equal_entity(get_class_member(typ1, i), m[i]))
- return false;
+ !equal_entity(get_class_member(typ1, i), m[i]))
+ return false;
}
/** Compare the supertypes **/
t = alloca(sizeof(entity *) * get_class_n_supertypes(typ1));
for (i = 0; i < get_class_n_supertypes(typ1); i++) {
type *t1 = get_class_supertype(typ1, i);
for (j = 0; j < get_class_n_supertypes(typ2); j++) {
- type *t2 = get_class_supertype(typ2, j);
- if (get_type_ident(t2) == get_type_ident(t1))
- t[i] = t2;
+ type *t2 = get_class_supertype(typ2, j);
+ if (get_type_ident(t2) == get_type_ident(t1))
+ t[i] = t2;
}
}
for (i = 0; i < get_class_n_supertypes(typ1); i++) {
if (!t[i] || /* Found no counterpart */
- get_class_supertype(typ1, i) != t[i])
- return false;
+ get_class_supertype(typ1, i) != t[i])
+ return false;
}
} break;
case tpo_struct: {
for (i = 0; i < get_struct_n_members(typ1); i++) {
entity *e1 = get_struct_member(typ1, i);
for (j = 0; j < get_struct_n_members(typ2); j++) {
- entity *e2 = get_struct_member(typ2, j);
- if (get_entity_name(e1) == get_entity_name(e2))
- m[i] = e2;
+ entity *e2 = get_struct_member(typ2, j);
+ if (get_entity_name(e1) == get_entity_name(e2))
+ m[i] = e2;
}
}
for (i = 0; i < get_struct_n_members(typ1); i++) {
if (!m[i] || /* Found no counterpart */
- !equal_entity(get_struct_member(typ1, i), m[i]))
- return false;
+ !equal_entity(get_struct_member(typ1, i), m[i]))
+ return false;
}
} break;
case tpo_method: {
for (i = 0; i < n_param1; i++) {
if (!equal_type(get_method_param_type(typ1, i), get_method_param_type(typ2, i)))
- return false;
+ return false;
}
for (i = 0; i < get_method_n_ress(typ1); i++) {
if (!equal_type(get_method_res_type(typ1, i), get_method_res_type(typ2, i)))
- return false;
+ return false;
}
} break;
case tpo_union: {
for (i = 0; i < get_union_n_members(typ1); i++) {
entity *e1 = get_union_member(typ1, i);
for (j = 0; j < get_union_n_members(typ2); j++) {
- entity *e2 = get_union_member(typ2, j);
- if (get_entity_name(e1) == get_entity_name(e2))
- m[i] = e2;
+ entity *e2 = get_union_member(typ2, j);
+ if (get_entity_name(e1) == get_entity_name(e2))
+ m[i] = e2;
}
}
for (i = 0; i < get_union_n_members(typ1); i++) {
if (!m[i] || /* Found no counterpart */
- !equal_entity(get_union_member(typ1, i), m[i]))
- return false;
+ !equal_entity(get_union_member(typ1, i), m[i]))
+ return false;
}
} break;
case tpo_array: {
return false;
for(i = 0; i < get_array_n_dimensions(typ1); i++) {
if (get_array_lower_bound(typ1, i) != get_array_lower_bound(typ2, i) ||
- get_array_upper_bound(typ1, i) != get_array_upper_bound(typ2, i))
- return false;
+ get_array_upper_bound(typ1, i) != get_array_upper_bound(typ2, i))
+ return false;
if (get_array_order(typ1, i) != get_array_order(typ2, i))
- assert(0 && "type compare with different dimension orders not implemented");
+ assert(0 && "type compare with different dimension orders not implemented");
}
} break;
case tpo_enumeration: {
for (i = 0; i < get_struct_n_members(st); i++) {
entity *se = get_struct_member(st, i);
for (j = 0; j < get_struct_n_members(lt); j++) {
- entity *le = get_struct_member(lt, j);
- if (get_entity_name(le) == get_entity_name(se))
- m[i] = le;
+ entity *le = get_struct_member(lt, j);
+ if (get_entity_name(le) == get_entity_name(se))
+ m[i] = le;
}
}
for (i = 0; i < get_struct_n_members(st); i++) {
if (!m[i] || /* Found no counterpart */
- !smaller_type(get_entity_type(get_struct_member(st, i)),
- get_entity_type(m[i])))
- return false;
+ !smaller_type(get_entity_type(get_struct_member(st, i)),
+ get_entity_type(m[i])))
+ return false;
}
} break;
case tpo_method: {
if (get_method_n_ress(st) != get_method_n_ress(lt)) return false;
for (i = 0; i < get_method_n_params(st); i++) {
if (!smaller_type(get_method_param_type(st, i), get_method_param_type(lt, i)))
- return false;
+ return false;
}
for (i = 0; i < get_method_n_ress(st); i++) {
if (!smaller_type(get_method_res_type(st, i), get_method_res_type(lt, i)))
- return false;
+ return false;
}
} break;
case tpo_union: {
for (i = 0; i < get_union_n_members(st); i++) {
entity *se = get_union_member(st, i);
for (j = 0; j < get_union_n_members(lt); j++) {
- entity *le = get_union_member(lt, j);
- if (get_entity_name(le) == get_entity_name(se))
- m[i] = le;
- }
+ entity *le = get_union_member(lt, j);
+ if (get_entity_name(le) == get_entity_name(se))
+ m[i] = le;
+ }
}
for (i = 0; i < get_union_n_members(st); i++) {
if (!m[i] || /* Found no counterpart */
- !smaller_type(get_entity_type(get_union_member(st, i)),
- get_entity_type(m[i])))
- return false;
+ !smaller_type(get_entity_type(get_union_member(st, i)),
+ get_entity_type(m[i])))
+ return false;
}
} break;
case tpo_array: {
let = get_array_element_type(lt);
if (set != let) {
/* If the elt types are different, set must be convertible
- to let, and they must have the same size so that address
- computations work out. To have a size the layout must
- be fixed. */
+ to let, and they must have the same size so that address
+ computations work out. To have a size the layout must
+ be fixed. */
if ((get_type_state(set) != layout_fixed) ||
- (get_type_state(let) != layout_fixed))
- return false;
+ (get_type_state(let) != layout_fixed))
+ return false;
if (!smaller_type(set, let) ||
- get_type_size_bits(set) != get_type_size_bits(let))
- return false;
+ get_type_size_bits(set) != get_type_size_bits(let))
+ return false;
}
for(i = 0; i < get_array_n_dimensions(st); i++) {
if (get_array_lower_bound(lt, i))
- if(get_array_lower_bound(st, i) != get_array_lower_bound(lt, i))
- return false;
+ if(get_array_lower_bound(st, i) != get_array_lower_bound(lt, i))
+ return false;
if (get_array_upper_bound(lt, i))
- if(get_array_upper_bound(st, i) != get_array_upper_bound(lt, i))
- return false;
+ if(get_array_upper_bound(st, i) != get_array_upper_bound(lt, i))
+ return false;
}
} break;
case tpo_enumeration: {
} break;
case tpo_pointer: {
if (!smaller_type(get_pointer_points_to_type(st),
- get_pointer_points_to_type(lt)))
+ get_pointer_points_to_type(lt)))
return false;
} break;
case tpo_primitive: {
ARR_APP1 (entity *, clss->attr.ca.members, member);
}
-int (get_class_n_members) (type *clss) {
+int (get_class_n_members) (const type *clss) {
return __get_class_n_members(clss);
}
return -1;
}
-entity *(get_class_member) (type *clss, int pos) {
+entity *(get_class_member) (const type *clss, int pos) {
return __get_class_member(clss, pos);
}
for (i = 0; i < (ARR_LEN (clss->attr.ca.members)); i++) {
if (clss->attr.ca.members[i] == member) {
for(; i < (ARR_LEN (clss->attr.ca.members)) - 1; i++)
- clss->attr.ca.members[i] = clss->attr.ca.members[i + 1];
+ clss->attr.ca.members[i] = clss->attr.ca.members[i + 1];
ARR_SETLEN(entity*, clss->attr.ca.members, ARR_LEN(clss->attr.ca.members) - 1);
break;
}
return;
ARR_APP1 (type *, subtype->attr.ca.supertypes, clss);
}
-int get_class_n_subtypes (type *clss) {
+int get_class_n_subtypes (const type *clss) {
assert(clss && (clss->type_op == type_class));
return (ARR_LEN (clss->attr.ca.subtypes));
}
for (i = 0; i < (ARR_LEN (clss->attr.ca.subtypes)); i++)
if (clss->attr.ca.subtypes[i] == subtype) {
for(; i < (ARR_LEN (clss->attr.ca.subtypes))-1; i++)
- clss->attr.ca.subtypes[i] = clss->attr.ca.subtypes[i+1];
+ clss->attr.ca.subtypes[i] = clss->attr.ca.subtypes[i+1];
ARR_SETLEN(entity*, clss->attr.ca.subtypes, ARR_LEN(clss->attr.ca.subtypes) - 1);
break;
}
return;
ARR_APP1 (type *, supertype->attr.ca.subtypes, clss);
}
-int get_class_n_supertypes (type *clss) {
+int get_class_n_supertypes (const type *clss) {
assert(clss && (clss->type_op == type_class));
return (ARR_LEN (clss->attr.ca.supertypes));
}
for (i = 0; i < (ARR_LEN (clss->attr.ca.supertypes)); i++)
if (clss->attr.ca.supertypes[i] == supertype) {
for(; i < (ARR_LEN (clss->attr.ca.supertypes))-1; i++)
- clss->attr.ca.supertypes[i] = clss->attr.ca.supertypes[i+1];
+ clss->attr.ca.supertypes[i] = clss->attr.ca.supertypes[i+1];
ARR_SETLEN(entity*, clss->attr.ca.supertypes, ARR_LEN(clss->attr.ca.supertypes) - 1);
break;
}
}
-char *get_peculiarity_string(peculiarity p) {
- if (p == peculiarity_description)
+const char *get_peculiarity_string(peculiarity p) {
+ switch (p) {
+ case peculiarity_description:
return "peculiarity_description";
- if (p == peculiarity_inherited)
+ case peculiarity_inherited:
return "peculiarity_inherited";
- return "peculiarity_existent";
+ default:
+ return "peculiarity_existent";
+ }
}
-peculiarity get_class_peculiarity (type *clss) {
+peculiarity get_class_peculiarity (const type *clss) {
assert(clss && (clss->type_op == type_class));
return clss->attr.ca.peculiarity;
}
+
void set_class_peculiarity (type *clss, peculiarity pec) {
assert(clss && (clss->type_op == type_class));
assert(pec != peculiarity_inherited); /* There is no inheritance of types in libFirm. */
clss->attr.ca.dfn = dfn;
}
-int get_class_dfn (type *clss)
+int get_class_dfn (const type *clss)
{
return (clss->attr.ca.dfn);
}
/* typecheck */
-int (is_class_type)(type *clss) {
+int (is_class_type)(const type *clss) {
return __is_class_type(clss);
}
}
/* manipulate private fields of struct */
-int get_struct_n_members (type *strct) {
+int get_struct_n_members (const type *strct) {
assert(strct && (strct->type_op == type_struct));
return (ARR_LEN (strct->attr.sa.members));
}
ARR_APP1 (entity *, strct->attr.sa.members, member);
}
-entity *get_struct_member (type *strct, int pos) {
+entity *get_struct_member (const type *strct, int pos) {
assert(strct && (strct->type_op == type_struct));
assert(pos >= 0 && pos < get_struct_n_members(strct));
return strct->attr.sa.members[pos];
for (i = 0; i < (ARR_LEN (strct->attr.sa.members)); i++)
if (strct->attr.sa.members[i] == member) {
for(; i < (ARR_LEN (strct->attr.sa.members))-1; i++)
- strct->attr.sa.members[i] = strct->attr.sa.members[i+1];
+ strct->attr.sa.members[i] = strct->attr.sa.members[i+1];
ARR_SETLEN(entity*, strct->attr.sa.members, ARR_LEN(strct->attr.sa.members) - 1);
break;
}
}
/* typecheck */
-int (is_struct_type)(type *strct) {
+int (is_struct_type)(const type *strct) {
return __is_struct_type(strct);
}
res->state = layout_fixed;
res->size = get_mode_size_bits(mode_P_mach);
res->attr.ma.n_params = n_param;
- res->attr.ma.param_type = (type **) xmalloc (sizeof (type *) * n_param);
+ res->attr.ma.param_type = xcalloc(n_param, sizeof(res->attr.ma.param_type[0]));
res->attr.ma.value_params = NULL;
res->attr.ma.n_res = n_res;
- res->attr.ma.res_type = (type **) xmalloc (sizeof (type *) * n_res);
+ res->attr.ma.res_type = xcalloc(n_res, sizeof(res->attr.ma.res_type[0]));
res->attr.ma.value_ress = NULL;
res->attr.ma.variadicity = variadicity_non_variadic;
res->attr.ma.first_variadic_param = -1;
}
/* manipulate private fields of method. */
-int get_method_n_params (type *method) {
+int get_method_n_params (const type *method) {
assert(method && (method->type_op == type_method));
return method->attr.ma.n_params;
}
if (!method->attr.ma.value_params)
method->attr.ma.value_params
= build_value_type(mangle_u(get_type_ident(method), value_params_suffix),
- get_method_n_params(method), method->attr.ma.param_type);
+ get_method_n_params(method), method->attr.ma.param_type);
assert((get_entity_type(get_struct_member(method->attr.ma.value_params, pos))
- != method->attr.ma.value_params)
- && "param type not yet set");
+ != method->attr.ma.value_params)
+ && "param type not yet set");
return get_struct_member(method->attr.ma.value_params, pos);
}
/*
* Returns a type that represents the copied value arguments.
*/
-type *get_method_value_param_type(type *method)
+type *get_method_value_param_type(const type *method)
{
assert(method && (method->type_op == type_method));
return method->attr.ma.value_params;
}
-int get_method_n_ress (type *method) {
+int get_method_n_ress (const type *method) {
assert(method && (method->type_op == type_method));
return method->attr.ma.n_res;
}
if (!method->attr.ma.value_ress)
method->attr.ma.value_ress
= build_value_type(mangle_u(get_type_ident(method), value_ress_suffix),
- get_method_n_ress(method), method->attr.ma.res_type);
+ get_method_n_ress(method), method->attr.ma.res_type);
assert((get_entity_type(get_struct_member(method->attr.ma.value_ress, pos)) != method->attr.ma.value_ress)
- && "result type not yet set");
+ && "result type not yet set");
return get_struct_member(method->attr.ma.value_ress, pos);
}
/*
* Returns a type that represents the copied value results.
*/
-type *get_method_value_res_type(type *method) {
+type *get_method_value_res_type(const type *method) {
assert(method && (method->type_op == type_method));
return method->attr.ma.value_ress;
}
/* Returns the null-terminated name of this variadicity. */
const char *get_variadicity_name(variadicity vari)
{
-#define X(a) case a: return #a
+#define X(a) case a: return #a
switch (vari) {
X(variadicity_non_variadic);
X(variadicity_variadic);
#undef X
}
-variadicity get_method_variadicity(type *method)
+variadicity get_method_variadicity(const type *method)
{
assert(method && (method->type_op == type_method));
return method->attr.ma.variadicity;
* of the method type plus one is returned for variadic functions.
* Non-variadic function types always return -1 here.
*/
-int get_method_first_variadic_param_index(type *method)
+int get_method_first_variadic_param_index(const type *method)
{
assert(method && (method->type_op == type_method));
}
/* typecheck */
-int (is_method_type)(type *method) {
+int (is_method_type)(const type *method) {
return __is_method_type(method);
}
type *new_type_union (ident *name) {
type *res;
res = new_type(type_union, NULL, name);
- /*res->attr.ua.unioned_type = (type **) xmalloc (sizeof (type *) * n_types);
- res->attr.ua.delim_names = (ident **) xmalloc (sizeof (ident *) * n_types); */
+ /*res->attr.ua.unioned_type = xcalloc(n_types, sizeof(res->attr.ua.unioned_type[0]));
+ res->attr.ua.delim_names = xcalloc(n_types, sizeof(res->attr.ua.delim_names[0])); */
res->attr.ua.members = NEW_ARR_F (entity *, 0);
return res;
}
uni->attr.ua.delim_names[pos] = id;
}
#endif
-int get_union_n_members (type *uni) {
+int get_union_n_members (const type *uni) {
assert(uni && (uni->type_op == type_union));
return (ARR_LEN (uni->attr.ua.members));
}
assert(uni && (uni->type_op == type_union));
ARR_APP1 (entity *, uni->attr.ua.members, member);
}
-entity *get_union_member (type *uni, int pos) {
+entity *get_union_member (const type *uni, int pos) {
assert(uni && (uni->type_op == type_union));
assert(pos >= 0 && pos < get_union_n_members(uni));
return uni->attr.ua.members[pos];
for (i = 0; i < (ARR_LEN (uni->attr.ua.members)); i++)
if (uni->attr.ua.members[i] == member) {
for(; i < (ARR_LEN (uni->attr.ua.members))-1; i++)
- uni->attr.ua.members[i] = uni->attr.ua.members[i+1];
+ uni->attr.ua.members[i] = uni->attr.ua.members[i+1];
ARR_SETLEN(entity*, uni->attr.ua.members, ARR_LEN(uni->attr.ua.members) - 1);
break;
}
}
/* typecheck */
-int (is_union_type)(type *uni) {
+int (is_union_type)(const type *uni) {
return __is_union_type(uni);
}
/* create a new type array -- set dimension sizes independently */
type *new_type_array (ident *name, int n_dimensions,
- type *element_type) {
+ type *element_type) {
type *res;
int i;
ir_graph *rem = current_ir_graph;
res = new_type(type_array, NULL, name);
res->attr.aa.n_dimensions = n_dimensions;
- res->attr.aa.lower_bound = (ir_node **) xmalloc (sizeof (ir_node *) * n_dimensions);
- res->attr.aa.upper_bound = (ir_node **) xmalloc (sizeof (ir_node *) * n_dimensions);
- res->attr.aa.order = (int *) xmalloc (sizeof (int) * n_dimensions);
+ res->attr.aa.lower_bound = xcalloc(n_dimensions, sizeof(*res->attr.aa.lower_bound));
+ res->attr.aa.upper_bound = xcalloc(n_dimensions, sizeof(*res->attr.aa.upper_bound));
+ res->attr.aa.order = xcalloc(n_dimensions, sizeof(*res->attr.aa.order));
current_ir_graph = get_const_code_irg();
for (i = 0; i < n_dimensions; i++) {
current_ir_graph = rem;
res->attr.aa.element_type = element_type;
- new_entity(res, mangle_u(name, id_from_str("elem_ent", 8)), element_type);
+ new_entity(res, mangle_u(name, new_id_from_chars("elem_ent", 8)), element_type);
return res;
}
type *new_d_type_array (ident *name, int n_dimensions,
- type *element_type, dbg_info* db) {
+ type *element_type, dbg_info* db) {
type *res = new_type_array (name, n_dimensions, element_type);
set_type_dbg_info(res, db);
return res;
}
/* manipulate private fields of array type */
-int get_array_n_dimensions (type *array) {
+int get_array_n_dimensions (const type *array) {
assert(array && (array->type_op == type_array));
return array->attr.aa.n_dimensions;
}
void
set_array_bounds (type *array, int dimension, ir_node * lower_bound,
- ir_node * upper_bound) {
+ ir_node * upper_bound) {
assert(array && (array->type_op == type_array));
assert(lower_bound && "lower_bound node may not be NULL.");
assert(upper_bound && "upper_bound node may not be NULL.");
}
void
set_array_bounds_int (type *array, int dimension, int lower_bound,
- int upper_bound) {
+ int upper_bound) {
ir_graph *rem = current_ir_graph;
current_ir_graph = get_const_code_irg();
set_array_bounds (array, dimension,
- new_Const(mode_Iu, new_tarval_from_long (lower_bound, mode_Iu)),
- new_Const(mode_Iu, new_tarval_from_long (upper_bound, mode_Iu )));
+ new_Const(mode_Iu, new_tarval_from_long (lower_bound, mode_Iu)),
+ new_Const(mode_Iu, new_tarval_from_long (upper_bound, mode_Iu )));
current_ir_graph = rem;
}
void
ir_graph *rem = current_ir_graph;
current_ir_graph = get_const_code_irg();
set_array_lower_bound (array, dimension,
- new_Const(mode_Iu, new_tarval_from_long (lower_bound, mode_Iu)));
+ new_Const(mode_Iu, new_tarval_from_long (lower_bound, mode_Iu)));
current_ir_graph = rem;
}
void
ir_graph *rem = current_ir_graph;
current_ir_graph = get_const_code_irg();
set_array_upper_bound (array, dimension,
- new_Const(mode_Iu, new_tarval_from_long (upper_bound, mode_Iu)));
+ new_Const(mode_Iu, new_tarval_from_long (upper_bound, mode_Iu)));
current_ir_graph = rem;
}
-int has_array_lower_bound (type *array, int dimension) {
+int has_array_lower_bound (const type *array, int dimension) {
assert(array && (array->type_op == type_array));
return (get_irn_op(array->attr.aa.lower_bound[dimension]) != op_Unknown);
}
-ir_node * get_array_lower_bound (type *array, int dimension) {
+ir_node *get_array_lower_bound (const type *array, int dimension) {
assert(array && (array->type_op == type_array));
return array->attr.aa.lower_bound[dimension];
}
-int has_array_upper_bound (type *array, int dimension) {
+long get_array_lower_bound_int (const type *array, int dimension) {
+ ir_node *node;
+ assert(array && (array->type_op == type_array));
+ node = array->attr.aa.lower_bound[dimension];
+ assert(get_irn_op(node) == op_Const);
+ return get_tarval_long(get_Const_tarval(node));
+}
+int has_array_upper_bound (const type *array, int dimension) {
assert(array && (array->type_op == type_array));
return (get_irn_op(array->attr.aa.upper_bound[dimension]) != op_Unknown);
}
-ir_node * get_array_upper_bound (type *array, int dimension) {
+ir_node * get_array_upper_bound (const type *array, int dimension) {
assert(array && (array->type_op == type_array));
return array->attr.aa.upper_bound[dimension];
}
+long get_array_upper_bound_int (const type *array, int dimension) {
+ ir_node *node;
+ assert(array && (array->type_op == type_array));
+ node = array->attr.aa.upper_bound[dimension];
+ assert(get_irn_op(node) == op_Const);
+ return get_tarval_long(get_Const_tarval(node));
+}
void set_array_order (type *array, int dimension, int order) {
assert(array && (array->type_op == type_array));
array->attr.aa.order[dimension] = order;
}
-int get_array_order (type *array, int dimension) {
+int get_array_order (const type *array, int dimension) {
assert(array && (array->type_op == type_array));
return array->attr.aa.order[dimension];
}
array->attr.aa.element_ent = ent;
array->attr.aa.element_type = get_entity_type(ent);
}
-entity *get_array_element_entity (type *array) {
+entity *get_array_element_entity (const type *array) {
assert(array && (array->type_op == type_array));
return array->attr.aa.element_ent;
}
/* typecheck */
-int (is_array_type)(type *array) {
+int (is_array_type)(const type *array) {
return __is_array_type(array);
}
type *res;
res = new_type(type_enumeration, NULL, name);
res->attr.ea.n_enums = n_enums;
- res->attr.ea.enumer = (tarval **)xmalloc(sizeof(res->attr.ea.enumer[0]) * n_enums);
- res->attr.ea.enum_nameid = (ident **)xmalloc(sizeof(res->attr.ea.enum_nameid[0]) * n_enums);
- memset(res->attr.ea.enumer, 0, sizeof(res->attr.ea.enumer[0]) * n_enums);
- memset(res->attr.ea.enum_nameid, 0, sizeof(res->attr.ea.enum_nameid[0]) * n_enums);
+ res->attr.ea.enumer = xcalloc(n_enums, sizeof(res->attr.ea.enumer[0]));
+ res->attr.ea.enum_nameid = xcalloc(n_enums, sizeof(res->attr.ea.enum_nameid[0]));
return res;
}
type *new_d_type_enumeration (ident *name, int n_enums, dbg_info* db) {
}
/* manipulate fields of enumeration type. */
-int get_enumeration_n_enums (type *enumeration) {
+int get_enumeration_n_enums (const type *enumeration) {
assert(enumeration && (enumeration->type_op == type_enumeration));
return enumeration->attr.ea.n_enums;
}
assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration));
enumeration->attr.ea.enumer[pos] = con;
}
-tarval *get_enumeration_enum (type *enumeration, int pos) {
+tarval *get_enumeration_enum (const type *enumeration, int pos) {
assert(enumeration && (enumeration->type_op == type_enumeration));
assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration));
return enumeration->attr.ea.enumer[pos];
assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration));
enumeration->attr.ea.enum_nameid[pos] = id;
}
-ident *get_enumeration_nameid (type *enumeration, int pos) {
+ident *get_enumeration_nameid (const type *enumeration, int pos) {
assert(enumeration && (enumeration->type_op == type_enumeration));
assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration));
return enumeration->attr.ea.enum_nameid[pos];
}
-const char *get_enumeration_name(type *enumeration, int pos) {
+const char *get_enumeration_name(const type *enumeration, int pos) {
assert(enumeration && (enumeration->type_op == type_enumeration));
assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration));
return get_id_str(enumeration->attr.ea.enum_nameid[pos]);
}
/* typecheck */
-int (is_enumeration_type)(type *enumeration) {
+int (is_enumeration_type)(const type *enumeration) {
return __is_enumeration_type(enumeration);
}
}
/* typecheck */
-int (is_pointer_type)(type *pointer) {
+int (is_pointer_type)(const type *pointer) {
return __is_pointer_type(pointer);
}
}
/* typecheck */
-int (is_primitive_type)(type *primitive) {
+int (is_primitive_type)(const type *primitive) {
return __is_primitive_type(primitive);
}
/*-----------------------------------------------------------------*/
-int (is_atomic_type)(type *tp) {
+int (is_atomic_type)(const type *tp) {
return __is_atomic_type(tp);
}
/*
* Gets the number of elements in a firm compound type.
*/
-int get_compound_n_members(type *tp)
+int get_compound_n_members(const type *tp)
{
int res = 0;
/*
* Gets the member of a firm compound type at position pos.
*/
-entity *get_compound_member(type *tp, int pos)
+entity *get_compound_member(const type *tp, int pos)
{
entity *res;
else
{
assert(0 && "need struct, union or class to get a member");
- res=NULL;
+ res = NULL;
}
return res;
}
-int is_compound_type(type *tp) {
+int is_compound_type(const type *tp) {
assert(tp && tp->kind == k_type);
- return (is_class_type(tp) || is_struct_type(tp) ||
- is_array_type(tp) || is_union_type(tp));
-}
-
-
-#ifdef DEBUG_libfirm
-int dump_node_opcode(FILE *F, ir_node *n); /* from irdump.c */
-
-void dump_type (type *tp) {
- int i;
-
- printf("%s type %s (%ld)", get_tpop_name(get_type_tpop(tp)), get_type_name(tp), get_type_nr(tp));
-
- switch (get_type_tpop_code(tp)) {
-
- case tpo_class:
- printf("\n members: ");
- for (i = 0; i < get_class_n_members(tp); ++i) {
- entity *mem = get_class_member(tp, i);
- printf("\n (%3d) %s:\t %s",
- get_entity_offset_bits(mem), get_type_name(get_entity_type(mem)), get_entity_name(mem));
- }
- printf("\n supertypes: ");
- for (i = 0; i < get_class_n_supertypes(tp); ++i) {
- type *stp = get_class_supertype(tp, i);
- printf("\n %s", get_type_name(stp));
- }
- printf("\n subtypes: ");
- for (i = 0; i < get_class_n_subtypes(tp); ++i) {
- type *stp = get_class_subtype(tp, i);
- printf("\n %s", get_type_name(stp));
- }
-
- printf("\n peculiarity: %s", get_peculiarity_string(get_class_peculiarity(tp)));
- break;
-
- case tpo_union:
- case tpo_struct:
- printf("\n members: ");
- for (i = 0; i < get_compound_n_members(tp); ++i) {
- entity *mem = get_compound_member(tp, i);
- printf("\n (%3d) %s:\t %s",
- get_entity_offset_bits(mem), get_type_name(get_entity_type(mem)), get_entity_name(mem));
- }
- break;
-
- case tpo_pointer: {
- type *tt = get_pointer_points_to_type(tp);
-
- printf("\n points to %s (%ld)", get_type_name(tt), get_type_nr(tt));
- } break;
-
- default:
- printf(": details not implemented\n");
- }
- printf("\n\n");
+ return tp->type_op->flags & TP_OP_FLAG_COMPOUND;
}
-#else /* DEBUG_libfirm */
-void dump_type (type *tp) {}
-#endif /* DEBUG_libfirm */
projects / libfirm / blobdiff