From 1838facc84fbc7a6fceab043371c93e244c5c204 Mon Sep 17 00:00:00 2001 From: Michael Beck Date: Wed, 11 Jan 2006 00:51:06 +0000 Subject: [PATCH] renamed all type 'type' to new ir_type intrinsic method property added [r7210] --- ir/tr/type.c | 420 +++++++++++++++++++++++++-------------------------- ir/tr/type.h | 320 ++++++++++++++++++++------------------- 2 files changed, 371 insertions(+), 369 deletions(-) diff --git a/ir/tr/type.c b/ir/tr/type.c index d2c79bf01..6ebb8936d 100644 --- a/ir/tr/type.c +++ b/ir/tr/type.c @@ -74,8 +74,8 @@ /** TYPE **/ /*-----------------------------------------------------------------*/ -type *firm_none_type; type *get_none_type(void) { return firm_none_type; } -type *firm_unknown_type; type *get_unknown_type(void) { return firm_unknown_type; } +ir_type *firm_none_type; ir_type *get_none_type(void) { return firm_none_type; } +ir_type *firm_unknown_type; ir_type *get_unknown_type(void) { return firm_unknown_type; } #ifdef DEBUG_libfirm @@ -124,15 +124,15 @@ void (inc_master_type_visited)(void) { _inc_master_type_visited(); /* * Creates a new type representation. */ -type * +ir_type * new_type(tp_op *type_op, ir_mode *mode, ident *name, dbg_info *db) { - type *res; + ir_type *res; int node_size; assert(type_op != type_id); assert(!id_contains_char(name, ' ') && "type name should not contain spaces"); - node_size = offsetof(type, attr) + type_op->attr_size; + node_size = offsetof(ir_type, attr) + type_op->attr_size; res = xmalloc(node_size); memset(res, 0, node_size); @@ -157,7 +157,7 @@ new_type(tp_op *type_op, ir_mode *mode, ident *name, dbg_info *db) { return res; } -void free_type(type *tp) { +void free_type(ir_type *tp) { const tp_op *op = get_type_tpop(tp); if ((get_type_tpop(tp) == tpop_none) || (get_type_tpop(tp) == tpop_unknown)) @@ -166,7 +166,7 @@ void free_type(type *tp) { remove_irp_type(tp); /* Free the attributes of the type. */ free_type_attrs(tp); - /* Free entities automatically allocated with the type */ + /* Free entities automatically allocated with the ir_type */ if (op->ops.free_auto_entities) op->ops.free_auto_entities(tp); /* And now the type itself... */ @@ -174,14 +174,14 @@ void free_type(type *tp) { free(tp); } -void free_type_entities(type *tp) { +void free_type_entities(ir_type *tp) { const tp_op *tpop = get_type_tpop(tp); if (tpop->ops.free_entities) tpop->ops.free_entities(tp); } -void free_type_attrs(type *tp) { +void free_type_attrs(ir_type *tp) { const tp_op *tpop = get_type_tpop(tp); if (tpop->ops.free_attrs) @@ -189,36 +189,36 @@ void free_type_attrs(type *tp) { } /* set/get the link field */ -void *(get_type_link)(const type *tp) { +void *(get_type_link)(const ir_type *tp) { return _get_type_link(tp); } -void (set_type_link)(type *tp, void *l) { +void (set_type_link)(ir_type *tp, void *l) { _set_type_link(tp, l); } -const tp_op *(get_type_tpop)(const type *tp) { +const tp_op *(get_type_tpop)(const ir_type *tp) { return _get_type_tpop(tp); } -ident *(get_type_tpop_nameid)(const type *tp) { +ident *(get_type_tpop_nameid)(const ir_type *tp) { return _get_type_tpop_nameid(tp); } -const char* get_type_tpop_name(const type *tp) { +const char* get_type_tpop_name(const ir_type *tp) { assert(tp && tp->kind == k_type); return get_id_str(tp->type_op->name); } -tp_opcode (get_type_tpop_code)(const type *tp) { +tp_opcode (get_type_tpop_code)(const ir_type *tp) { return _get_type_tpop_code(tp); } -ir_mode *(get_type_mode)(const type *tp) { +ir_mode *(get_type_mode)(const ir_type *tp) { return _get_type_mode(tp); } -void set_type_mode(type *tp, ir_mode *mode) { +void set_type_mode(ir_type *tp, ir_mode *mode) { const tp_op *tpop = get_type_tpop(tp); if (tpop->ops.set_type_mode) @@ -227,16 +227,16 @@ void set_type_mode(type *tp, ir_mode *mode) { assert(0 && "setting a mode is NOT allowed for this type"); } -ident *(get_type_ident)(const type *tp) { +ident *(get_type_ident)(const ir_type *tp) { return _get_type_ident(tp); } -void (set_type_ident)(type *tp, ident* id) { +void (set_type_ident)(ir_type *tp, ident* id) { _set_type_ident(tp, id); } /* Outputs a unique number for this node */ -long get_type_nr(const type *tp) { +long get_type_nr(const ir_type *tp) { assert(tp); #ifdef DEBUG_libfirm return tp->nr; @@ -245,21 +245,21 @@ long get_type_nr(const type *tp) { #endif } -const char* get_type_name(const type *tp) { +const char* get_type_name(const ir_type *tp) { assert(tp && tp->kind == k_type); return (get_id_str(tp->name)); } -int (get_type_size_bytes)(const type *tp) { +int (get_type_size_bytes)(const ir_type *tp) { return _get_type_size_bytes(tp); } -int (get_type_size_bits)(const type *tp) { +int (get_type_size_bits)(const ir_type *tp) { return _get_type_size_bits(tp); } -visibility get_type_visibility (const type *tp) { +visibility get_type_visibility (const ir_type *tp) { #if 0 visibility res = visibility_local; if (is_compound_type(tp)) { @@ -283,7 +283,7 @@ visibility get_type_visibility (const type *tp) { return tp->visibility; } -void set_type_visibility (type *tp, visibility v) { +void set_type_visibility (ir_type *tp, visibility v) { assert(is_type(tp)); #if 0 /* check for correctness */ @@ -310,7 +310,7 @@ void set_type_visibility (type *tp, visibility v) { } void -set_type_size_bits(type *tp, int size) { +set_type_size_bits(ir_type *tp, int size) { const tp_op *tpop = get_type_tpop(tp); if (tpop->ops.set_type_size) @@ -320,17 +320,17 @@ set_type_size_bits(type *tp, int size) { } void -set_type_size_bytes(type *tp, int size) { +set_type_size_bytes(ir_type *tp, int size) { set_type_size_bits(tp, 8*size); } -int get_type_alignment_bytes(type *tp) { +int get_type_alignment_bytes(ir_type *tp) { int align = get_type_alignment_bits(tp); return align < 0 ? align : (align + 7) >> 3; } -int get_type_alignment_bits(type *tp) { +int get_type_alignment_bits(ir_type *tp) { int align = 8; if (tp->align > 0) @@ -346,7 +346,7 @@ int get_type_alignment_bits(type *tp) { align = 0; for (i = 0; i < n; ++i) { - type *t = get_entity_type(get_compound_member(tp, i)); + ir_type *t = get_entity_type(get_compound_member(tp, i)); int a = get_type_alignment_bits(t); if (a > align) @@ -363,7 +363,7 @@ int get_type_alignment_bits(type *tp) { } void -set_type_alignment_bits(type *tp, int align) { +set_type_alignment_bits(ir_type *tp, int align) { assert(tp && tp->kind == k_type); /* Methods don't have an alignment. */ if (tp->type_op != type_method) { @@ -372,7 +372,7 @@ set_type_alignment_bits(type *tp, int align) { } void -set_type_alignment_bytes(type *tp, int align) { +set_type_alignment_bytes(ir_type *tp, int align) { set_type_alignment_bits(tp, 8*align); } @@ -388,12 +388,12 @@ const char *get_type_state_name(type_state s) { } -type_state (get_type_state)(const type *tp) { +type_state (get_type_state)(const ir_type *tp) { return _get_type_state(tp); } void -set_type_state(type *tp, type_state state) { +set_type_state(ir_type *tp, type_state state) { assert(tp && tp->kind == k_type); if ((tp->type_op == type_pointer) || (tp->type_op == type_primitive) || @@ -448,24 +448,24 @@ set_type_state(type *tp, type_state state) { tp->state = state; } -unsigned long (get_type_visited)(const type *tp) { +unsigned long (get_type_visited)(const ir_type *tp) { return _get_type_visited(tp); } -void (set_type_visited)(type *tp, unsigned long num) { +void (set_type_visited)(ir_type *tp, unsigned long num) { _set_type_visited(tp, num); } /* Sets visited field in type to type_visited. */ -void (mark_type_visited)(type *tp) { +void (mark_type_visited)(ir_type *tp) { _mark_type_visited(tp); } -int (type_visited)(const type *tp) { +int (type_visited)(const ir_type *tp) { return _type_visited(tp); } -int (type_not_visited)(const type *tp) { +int (type_not_visited)(const ir_type *tp) { return _type_not_visited(tp); } @@ -474,9 +474,9 @@ int (is_type)(const void *thing) { } /* Checks whether two types are structural equal.*/ -int equal_type(type *typ1, type *typ2) { +int equal_type(ir_type *typ1, ir_type *typ2) { entity **m; - type **t; + ir_type **t; int i, j; if (typ1 == typ2) return 1; @@ -518,9 +518,9 @@ int equal_type(type *typ1, type *typ2) { memset(t, 0, sizeof(entity *) * get_class_n_supertypes(typ1)); /* First sort the supertypes of typ2 */ for (i = 0; i < get_class_n_supertypes(typ1); i++) { - type *t1 = get_class_supertype(typ1, i); + ir_type *t1 = get_class_supertype(typ1, i); for (j = 0; j < get_class_n_supertypes(typ2); j++) { - type *t2 = get_class_supertype(typ2, j); + ir_type *t2 = get_class_supertype(typ2, j); if (get_type_ident(t2) == get_type_ident(t1)) t[i] = t2; } @@ -625,7 +625,7 @@ int equal_type(type *typ1, type *typ2) { } /* Checks whether two types are structural comparable. */ -int smaller_type (type *st, type *lt) { +int smaller_type (ir_type *st, ir_type *lt) { entity **m; int i, j; @@ -708,7 +708,7 @@ int smaller_type (type *st, type *lt) { } } break; case tpo_array: { - type *set, *let; /* small/large elt. type */ + ir_type *set, *let; /* small/large elt. ir_type */ if (get_array_n_dimensions(st) != get_array_n_dimensions(lt)) return 0; set = get_array_element_type(st); @@ -755,33 +755,33 @@ int smaller_type (type *st, type *lt) { /* TYPE_CLASS */ /*-----------------------------------------------------------------*/ -/* create a new class type */ -type *new_d_type_class (ident *name, dbg_info *db) { - type *res; +/* create a new class ir_type */ +ir_type *new_d_type_class (ident *name, dbg_info *db) { + ir_type *res; res = new_type(type_class, NULL, name, db); res->attr.ca.members = NEW_ARR_F (entity *, 0); - res->attr.ca.subtypes = NEW_ARR_F (type *, 0); - res->attr.ca.supertypes = NEW_ARR_F (type *, 0); + res->attr.ca.subtypes = NEW_ARR_F (ir_type *, 0); + res->attr.ca.supertypes = NEW_ARR_F (ir_type *, 0); res->attr.ca.peculiarity = peculiarity_existent; res->attr.ca.dfn = 0; hook_new_type(res); return res; } -type *new_type_class (ident *name) { +ir_type *new_type_class (ident *name) { return new_d_type_class (name, NULL); } -void free_class_entities(type *clss) { +void free_class_entities(ir_type *clss) { int i; assert(clss && (clss->type_op == type_class)); for (i = get_class_n_members(clss) - 1; i >= 0; --i) free_entity(get_class_member(clss, i)); } -void free_class_attrs(type *clss) { +void free_class_attrs(ir_type *clss) { assert(clss && (clss->type_op == type_class)); DEL_ARR_F(clss->attr.ca.members); DEL_ARR_F(clss->attr.ca.subtypes); @@ -789,17 +789,17 @@ void free_class_attrs(type *clss) { } /* manipulate private fields of class type */ -void add_class_member (type *clss, entity *member) { +void add_class_member (ir_type *clss, entity *member) { assert(clss && (clss->type_op == type_class)); assert(clss != get_entity_type(member) && "recursive type"); ARR_APP1 (entity *, clss->attr.ca.members, member); } -int (get_class_n_members) (const type *clss) { +int (get_class_n_members) (const ir_type *clss) { return _get_class_n_members(clss); } -int get_class_member_index(type *clss, entity *mem) { +int get_class_member_index(ir_type *clss, entity *mem) { int i; assert(clss && (clss->type_op == type_class)); for (i = 0; i < get_class_n_members(clss); i++) @@ -808,11 +808,11 @@ int get_class_member_index(type *clss, entity *mem) { return -1; } -entity *(get_class_member) (const type *clss, int pos) { +entity *(get_class_member) (const ir_type *clss, int pos) { return _get_class_member(clss, pos); } -entity *get_class_member_by_name(type *clss, ident *name) { +entity *get_class_member_by_name(ir_type *clss, ident *name) { int i, n_mem; assert(clss && (clss->type_op == type_class)); n_mem = get_class_n_members(clss); @@ -823,12 +823,12 @@ entity *get_class_member_by_name(type *clss, ident *name) { return NULL; } -void set_class_member (type *clss, entity *member, int pos) { +void set_class_member (ir_type *clss, entity *member, int pos) { assert(clss && (clss->type_op == type_class)); assert(pos >= 0 && pos < get_class_n_members(clss)); clss->attr.ca.members[pos] = member; } -void set_class_members (type *clss, entity **members, int arity) { +void set_class_members (ir_type *clss, entity **members, int arity) { int i; assert(clss && (clss->type_op == type_class)); DEL_ARR_F(clss->attr.ca.members); @@ -838,7 +838,7 @@ void set_class_members (type *clss, entity **members, int arity) { ARR_APP1 (entity *, clss->attr.ca.members, members[i]); } } -void remove_class_member(type *clss, entity *member) { +void remove_class_member(ir_type *clss, entity *member) { int i; assert(clss && (clss->type_op == type_class)); for (i = 0; i < (ARR_LEN (clss->attr.ca.members)); i++) { @@ -851,26 +851,26 @@ void remove_class_member(type *clss, entity *member) { } } -void add_class_subtype (type *clss, type *subtype) { +void add_class_subtype (ir_type *clss, ir_type *subtype) { int i; assert(clss && (clss->type_op == type_class)); - ARR_APP1 (type *, clss->attr.ca.subtypes, subtype); + ARR_APP1 (ir_type *, clss->attr.ca.subtypes, subtype); for (i = 0; i < get_class_n_supertypes(subtype); i++) if (get_class_supertype(subtype, i) == clss) /* Class already registered */ return; - ARR_APP1 (type *, subtype->attr.ca.supertypes, clss); + ARR_APP1 (ir_type *, subtype->attr.ca.supertypes, clss); } -int get_class_n_subtypes (const type *clss) { +int get_class_n_subtypes (const ir_type *clss) { assert(clss && (clss->type_op == type_class)); return (ARR_LEN (clss->attr.ca.subtypes)); } -type *get_class_subtype (type *clss, int pos) { +ir_type *get_class_subtype (ir_type *clss, int pos) { assert(clss && (clss->type_op == type_class)); assert(pos >= 0 && pos < get_class_n_subtypes(clss)); return clss->attr.ca.subtypes[pos] = skip_tid(clss->attr.ca.subtypes[pos]); } -int get_class_subtype_index(type *clss, const type *subclass) { +int get_class_subtype_index(ir_type *clss, const ir_type *subclass) { int i, n_subtypes = get_class_n_subtypes(clss); assert(is_Class_type(subclass)); for (i = 0; i < n_subtypes; ++i) { @@ -878,12 +878,12 @@ int get_class_subtype_index(type *clss, const type *subclass) { } return -1; } -void set_class_subtype (type *clss, type *subtype, int pos) { +void set_class_subtype (ir_type *clss, ir_type *subtype, int pos) { assert(clss && (clss->type_op == type_class)); assert(pos >= 0 && pos < get_class_n_subtypes(clss)); clss->attr.ca.subtypes[pos] = subtype; } -void remove_class_subtype(type *clss, type *subtype) { +void remove_class_subtype(ir_type *clss, ir_type *subtype) { int i; assert(clss && (clss->type_op == type_class)); for (i = 0; i < (ARR_LEN (clss->attr.ca.subtypes)); i++) @@ -895,22 +895,22 @@ void remove_class_subtype(type *clss, type *subtype) { } } -void add_class_supertype (type *clss, type *supertype) { +void add_class_supertype (ir_type *clss, ir_type *supertype) { int i; assert(clss && (clss->type_op == type_class)); assert(supertype && (supertype -> type_op == type_class)); - ARR_APP1 (type *, clss->attr.ca.supertypes, supertype); + ARR_APP1 (ir_type *, clss->attr.ca.supertypes, supertype); for (i = get_class_n_subtypes(supertype) - 1; i >= 0; --i) if (get_class_subtype(supertype, i) == clss) /* Class already registered */ return; - ARR_APP1 (type *, supertype->attr.ca.subtypes, clss); + ARR_APP1 (ir_type *, supertype->attr.ca.subtypes, clss); } -int get_class_n_supertypes (const type *clss) { +int get_class_n_supertypes (const ir_type *clss) { assert(clss && (clss->type_op == type_class)); return (ARR_LEN (clss->attr.ca.supertypes)); } -int get_class_supertype_index(type *clss, type *super_clss) { +int get_class_supertype_index(ir_type *clss, ir_type *super_clss) { int i, n_supertypes = get_class_n_supertypes(clss); assert(super_clss && (super_clss->type_op == type_class)); for (i = 0; i < n_supertypes; i++) @@ -918,17 +918,17 @@ int get_class_supertype_index(type *clss, type *super_clss) { return i; return -1; } -type *get_class_supertype (type *clss, int pos) { +ir_type *get_class_supertype (ir_type *clss, int pos) { assert(clss && (clss->type_op == type_class)); assert(pos >= 0 && pos < get_class_n_supertypes(clss)); return clss->attr.ca.supertypes[pos] = skip_tid(clss->attr.ca.supertypes[pos]); } -void set_class_supertype (type *clss, type *supertype, int pos) { +void set_class_supertype (ir_type *clss, ir_type *supertype, int pos) { assert(clss && (clss->type_op == type_class)); assert(pos >= 0 && pos < get_class_n_supertypes(clss)); clss->attr.ca.supertypes[pos] = supertype; } -void remove_class_supertype(type *clss, type *supertype) { +void remove_class_supertype(ir_type *clss, ir_type *supertype) { int i; assert(clss && (clss->type_op == type_class)); for (i = 0; i < (ARR_LEN (clss->attr.ca.supertypes)); i++) @@ -951,40 +951,40 @@ const char *get_peculiarity_string(peculiarity p) { return "invalid peculiarity"; } -peculiarity get_class_peculiarity (const type *clss) { +peculiarity get_class_peculiarity (const ir_type *clss) { assert(clss && (clss->type_op == type_class)); return clss->attr.ca.peculiarity; } -void set_class_peculiarity (type *clss, peculiarity pec) { +void set_class_peculiarity (ir_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.peculiarity = pec; } -void set_class_dfn (type *clss, int dfn) +void set_class_dfn (ir_type *clss, int dfn) { clss->attr.ca.dfn = dfn; } -int get_class_dfn (const type *clss) +int get_class_dfn (const ir_type *clss) { return (clss->attr.ca.dfn); } /* typecheck */ -int (is_Class_type)(const type *clss) { +int (is_Class_type)(const ir_type *clss) { return _is_class_type(clss); } -void set_class_mode(type *tp, ir_mode *mode) { +void set_class_mode(ir_type *tp, ir_mode *mode) { /* 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(mode) && "mode don't match class layout"); tp->mode = mode; } -void set_class_size_bits(type *tp, int size) { +void set_class_size_bits(ir_type *tp, int size) { /* argh: we must allow to set negative values as "invalid size" */ tp->size = (size >= 0) ? (size + 7) & ~7 : size; assert(tp->size == size && "setting a bit size is NOT allowed for this type"); @@ -995,36 +995,36 @@ void set_class_size_bits(type *tp, int size) { /*----------------------------------------------------------------**/ /* create a new type struct */ -type *new_d_type_struct(ident *name, dbg_info *db) { - type *res = new_type(type_struct, NULL, name, db); +ir_type *new_d_type_struct(ident *name, dbg_info *db) { + ir_type *res = new_type(type_struct, NULL, name, db); res->attr.sa.members = NEW_ARR_F(entity *, 0); hook_new_type(res); return res; } -type *new_type_struct (ident *name) { +ir_type *new_type_struct (ident *name) { return new_d_type_struct (name, NULL); } -void free_struct_entities (type *strct) { +void free_struct_entities (ir_type *strct) { int i; assert(strct && (strct->type_op == type_struct)); for (i = get_struct_n_members(strct)-1; i >= 0; --i) free_entity(get_struct_member(strct, i)); } -void free_struct_attrs (type *strct) { +void free_struct_attrs (ir_type *strct) { assert(strct && (strct->type_op == type_struct)); DEL_ARR_F(strct->attr.sa.members); } /* manipulate private fields of struct */ -int get_struct_n_members (const type *strct) { +int get_struct_n_members (const ir_type *strct) { assert(strct && (strct->type_op == type_struct)); return (ARR_LEN (strct->attr.sa.members)); } -void add_struct_member (type *strct, entity *member) { +void add_struct_member (ir_type *strct, entity *member) { assert(strct && (strct->type_op == type_struct)); assert(get_type_tpop(get_entity_type(member)) != type_method); /* @@@ lowerfirm geht nicht durch */ @@ -1032,13 +1032,13 @@ void add_struct_member (type *strct, entity *member) { ARR_APP1 (entity *, strct->attr.sa.members, member); } -entity *get_struct_member (const type *strct, int pos) { +entity *get_struct_member (const ir_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]; } -int get_struct_member_index(type *strct, entity *mem) { +int get_struct_member_index(ir_type *strct, entity *mem) { int i; assert(strct && (strct->type_op == type_struct)); for (i = 0; i < get_struct_n_members(strct); i++) @@ -1047,13 +1047,13 @@ int get_struct_member_index(type *strct, entity *mem) { return -1; } -void set_struct_member (type *strct, int pos, entity *member) { +void set_struct_member (ir_type *strct, int pos, entity *member) { assert(strct && (strct->type_op == type_struct)); assert(pos >= 0 && pos < get_struct_n_members(strct)); assert(get_entity_type(member)->type_op != type_method);/* @@@ lowerfirm !!*/ strct->attr.sa.members[pos] = member; } -void remove_struct_member(type *strct, entity *member) { +void remove_struct_member(ir_type *strct, entity *member) { int i; assert(strct && (strct->type_op == type_struct)); for (i = 0; i < (ARR_LEN (strct->attr.sa.members)); i++) @@ -1066,18 +1066,18 @@ void remove_struct_member(type *strct, entity *member) { } /* typecheck */ -int (is_Struct_type)(const type *strct) { +int (is_Struct_type)(const ir_type *strct) { return _is_struct_type(strct); } -void set_struct_mode(type *tp, ir_mode *mode) { +void set_struct_mode(ir_type *tp, ir_mode *mode) { /* 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(mode) && "mode don't match struct layout"); tp->mode = mode; } -void set_struct_size_bits(type *tp, int size) { +void set_struct_size_bits(ir_type *tp, int size) { /* argh: we must allow to set negative values as "invalid size" */ tp->size = (size >= 0) ? (size + 7) & ~7 : size; assert(tp->size == size && "setting a bit size is NOT allowed for this type"); @@ -1096,15 +1096,15 @@ void set_struct_size_bits(type *tp, int size) { * @param len number of fields * @param tps array of field types with length len */ -static INLINE type * +static INLINE ir_type * build_value_type(ident *name, int len, tp_ent_pair *tps) { int i; - type *res = new_type_struct(name); + ir_type *res = new_type_struct(name); /* Remove type from type list. Must be treated differently than other types. */ remove_irp_type(res); for (i = 0; i < len; i++) { /* use res as default if corresponding type is not yet set. */ - type *elt_type = tps[i].tp ? tps[i].tp : res; + ir_type *elt_type = tps[i].tp ? tps[i].tp : res; tps[i].ent = new_entity(res, mangle_u(name, get_type_ident(elt_type)), elt_type); } @@ -1113,8 +1113,8 @@ build_value_type(ident *name, int len, tp_ent_pair *tps) { /* Create a new method type. N_param is the number of parameters, n_res the number of results. */ -type *new_d_type_method(ident *name, int n_param, int n_res, dbg_info *db) { - type *res; +ir_type *new_d_type_method(ident *name, int n_param, int n_res, dbg_info *db) { + ir_type *res; assert((get_mode_size_bytes(mode_P_code) != -1) && "unorthodox modes not implemented"); res = new_type(type_method, mode_P_code, name, db); @@ -1133,16 +1133,16 @@ type *new_d_type_method(ident *name, int n_param, int n_res, dbg_info *db) { return res; } -type *new_type_method(ident *name, int n_param, int n_res) { +ir_type *new_type_method(ident *name, int n_param, int n_res) { return new_d_type_method(name, n_param, n_res, NULL); } -void free_method_entities(type *method) { +void free_method_entities(ir_type *method) { assert(method && (method->type_op == type_method)); } /* Attention: also frees entities in value parameter subtypes! */ -void free_method_attrs(type *method) { +void free_method_attrs(ir_type *method) { assert(method && (method->type_op == type_method)); free(method->attr.ma.param_type); free(method->attr.ma.res_type); @@ -1157,12 +1157,12 @@ void free_method_attrs(type *method) { } /* manipulate private fields of method. */ -int (get_method_n_params)(const type *method) { +int (get_method_n_params)(const ir_type *method) { return _get_method_n_params(method); } -type *get_method_param_type(type *method, int pos) { - type *res; +ir_type *get_method_param_type(ir_type *method, int pos) { + ir_type *res; assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_params(method)); res = method->attr.ma.param_type[pos].tp; @@ -1170,7 +1170,7 @@ type *get_method_param_type(type *method, int pos) { return method->attr.ma.param_type[pos].tp = skip_tid(res); } -void set_method_param_type(type *method, int pos, type* tp) { +void set_method_param_type(ir_type *method, int pos, ir_type *tp) { assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_params(method)); method->attr.ma.param_type[pos].tp = tp; @@ -1183,7 +1183,7 @@ void set_method_param_type(type *method, int pos, type* tp) { /* Returns an entity that represents the copied value argument. Only necessary for compounds passed by value. */ -entity *get_method_value_param_ent(type *method, int pos) { +entity *get_method_value_param_ent(ir_type *method, int pos) { assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_params(method)); @@ -1205,18 +1205,18 @@ entity *get_method_value_param_ent(type *method, int pos) { /* * Returns a type that represents the copied value arguments. */ -type *get_method_value_param_type(const type *method) +ir_type *get_method_value_param_type(const ir_type *method) { assert(method && (method->type_op == type_method)); return method->attr.ma.value_params; } -int (get_method_n_ress)(const type *method) { +int (get_method_n_ress)(const ir_type *method) { return _get_method_n_ress(method); } -type *get_method_res_type(type *method, int pos) { - type *res; +ir_type *get_method_res_type(ir_type *method, int pos) { + ir_type *res; assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_ress(method)); res = method->attr.ma.res_type[pos].tp; @@ -1224,10 +1224,10 @@ type *get_method_res_type(type *method, int pos) { return method->attr.ma.res_type[pos].tp = skip_tid(res); } -void set_method_res_type(type *method, int pos, type* tp) { +void set_method_res_type(ir_type *method, int pos, ir_type *tp) { assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_ress(method)); - /* set the result type */ + /* set the result ir_type */ method->attr.ma.res_type[pos].tp = tp; /* If information constructed set pass-by-value representation. */ if (method->attr.ma.value_ress) { @@ -1238,7 +1238,7 @@ void set_method_res_type(type *method, int pos, type* tp) { /* Returns an entity that represents the copied value result. Only necessary for compounds passed by value. */ -entity *get_method_value_res_ent(type *method, int pos) { +entity *get_method_value_res_ent(ir_type *method, int pos) { assert(method && (method->type_op == type_method)); assert(pos >= 0 && pos < get_method_n_ress(method)); @@ -1261,7 +1261,7 @@ entity *get_method_value_res_ent(type *method, int pos) { /* * Returns a type that represents the copied value results. */ -type *get_method_value_res_type(const type *method) { +ir_type *get_method_value_res_type(const ir_type *method) { assert(method && (method->type_op == type_method)); return method->attr.ma.value_ress; } @@ -1279,13 +1279,13 @@ const char *get_variadicity_name(variadicity vari) #undef X } -variadicity get_method_variadicity(const type *method) +variadicity get_method_variadicity(const ir_type *method) { assert(method && (method->type_op == type_method)); return method->attr.ma.variadicity; } -void set_method_variadicity(type *method, variadicity vari) +void set_method_variadicity(ir_type *method, variadicity vari) { assert(method && (method->type_op == type_method)); method->attr.ma.variadicity = vari; @@ -1297,7 +1297,7 @@ void set_method_variadicity(type *method, variadicity vari) * 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(const type *method) +int get_method_first_variadic_param_index(const ir_type *method) { assert(method && (method->type_op == type_method)); @@ -1315,7 +1315,7 @@ int get_method_first_variadic_param_index(const type *method) * but still have the knowledge, which parameter must be passed as * variadic one. */ -void set_method_first_variadic_param_index(type *method, int index) +void set_method_first_variadic_param_index(ir_type *method, int index) { assert(method && (method->type_op == type_method)); assert(index >= 0 && index <= get_method_n_params(method)); @@ -1323,30 +1323,30 @@ void set_method_first_variadic_param_index(type *method, int index) method->attr.ma.first_variadic_param = index; } -unsigned (get_method_additional_properties)(const type *method) { +unsigned (get_method_additional_properties)(const ir_type *method) { return _get_method_additional_properties(method); } -void (set_method_additional_properties)(type *method, unsigned mask) { +void (set_method_additional_properties)(ir_type *method, unsigned mask) { _set_method_additional_properties(method, mask); } -void (set_method_additional_property)(type *method, mtp_additional_property flag) { +void (set_method_additional_property)(ir_type *method, mtp_additional_property flag) { _set_method_additional_property(method, flag); } /* Returns the calling convention of an entities graph. */ -unsigned (get_method_calling_convention)(const type *method) { +unsigned (get_method_calling_convention)(const ir_type *method) { return _get_method_calling_convention(method); } /* Sets the calling convention of an entities graph. */ -void (set_method_calling_convention)(type *method, unsigned cc_mask) { +void (set_method_calling_convention)(ir_type *method, unsigned cc_mask) { _set_method_calling_convention(method, cc_mask); } /* Returns the number of registers parameters, 0 means default. */ -unsigned get_method_n_regparams(type *method) { +unsigned get_method_n_regparams(ir_type *method) { unsigned cc = get_method_calling_convention(method); assert(IS_FASTCALL(cc)); @@ -1354,7 +1354,7 @@ unsigned get_method_n_regparams(type *method) { } /* Sets the number of registers parameters, 0 means default. */ -void set_method_n_regparams(type *method, unsigned n_regs) { +void set_method_n_regparams(ir_type *method, unsigned n_regs) { unsigned cc = get_method_calling_convention(method); assert(IS_FASTCALL(cc)); @@ -1362,7 +1362,7 @@ void set_method_n_regparams(type *method, unsigned n_regs) { } /* typecheck */ -int (is_Method_type)(const type *method) { +int (is_Method_type)(const ir_type *method) { return _is_method_type(method); } @@ -1371,8 +1371,8 @@ int (is_Method_type)(const type *method) { /*-----------------------------------------------------------------*/ /* create a new type uni */ -type *new_d_type_union(ident *name, dbg_info *db) { - type *res = new_type(type_union, NULL, name, db); +ir_type *new_d_type_union(ident *name, dbg_info *db) { + ir_type *res = new_type(type_union, NULL, name, db); res->attr.ua.members = NEW_ARR_F(entity *, 0); hook_new_type(res); @@ -1383,39 +1383,39 @@ type *new_type_union(ident *name) { return new_d_type_union(name, NULL); } -void free_union_entities(type *uni) { +void free_union_entities(ir_type *uni) { int i; assert(uni && (uni->type_op == type_union)); for (i = get_union_n_members(uni) - 1; i >= 0; --i) free_entity(get_union_member(uni, i)); } -void free_union_attrs (type *uni) { +void free_union_attrs (ir_type *uni) { assert(uni && (uni->type_op == type_union)); DEL_ARR_F(uni->attr.ua.members); } /* manipulate private fields of union */ -int get_union_n_members (const type *uni) { +int get_union_n_members (const ir_type *uni) { assert(uni && (uni->type_op == type_union)); return (ARR_LEN (uni->attr.ua.members)); } -void add_union_member (type *uni, entity *member) { +void add_union_member (ir_type *uni, entity *member) { assert(uni && (uni->type_op == type_union)); assert(uni != get_entity_type(member) && "recursive type"); ARR_APP1 (entity *, uni->attr.ua.members, member); } -entity *get_union_member (const type *uni, int pos) { +entity *get_union_member (const ir_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]; } -void set_union_member (type *uni, int pos, entity *member) { +void set_union_member (ir_type *uni, int pos, entity *member) { assert(uni && (uni->type_op == type_union)); assert(pos >= 0 && pos < get_union_n_members(uni)); uni->attr.ua.members[pos] = member; } -void remove_union_member(type *uni, entity *member) { +void remove_union_member(ir_type *uni, entity *member) { int i; assert(uni && (uni->type_op == type_union)); for (i = 0; i < (ARR_LEN (uni->attr.ua.members)); i++) @@ -1428,11 +1428,11 @@ void remove_union_member(type *uni, entity *member) { } /* typecheck */ -int (is_Union_type)(const type *uni) { +int (is_Union_type)(const ir_type *uni) { return _is_union_type(uni); } -void set_union_size_bits(type *tp, int size) { +void set_union_size_bits(ir_type *tp, int size) { /* argh: we must allow to set negative values as "invalid size" */ tp->size = (size >= 0) ? (size + 7) & ~7 : size; assert(tp->size == size && "setting a bit size is NOT allowed for this type"); @@ -1444,8 +1444,8 @@ void set_union_size_bits(type *tp, int size) { /* create a new type array -- set dimension sizes independently */ -type *new_d_type_array(ident *name, int n_dimensions, type *element_type, dbg_info *db) { - type *res; +ir_type *new_d_type_array(ident *name, int n_dimensions, ir_type *element_type, dbg_info *db) { + ir_type *res; int i; ir_node *unk; ir_graph *rem = current_ir_graph; @@ -1473,33 +1473,33 @@ type *new_d_type_array(ident *name, int n_dimensions, type *element_type, dbg_in return res; } -type *new_type_array(ident *name, int n_dimensions, type *element_type) { +ir_type *new_type_array(ident *name, int n_dimensions, ir_type *element_type) { return new_d_type_array(name, n_dimensions, element_type, NULL); } -void free_array_automatic_entities(type *array) { +void free_array_automatic_entities(ir_type *array) { assert(array && (array->type_op == type_array)); free_entity(get_array_element_entity(array)); } -void free_array_entities (type *array) { +void free_array_entities (ir_type *array) { assert(array && (array->type_op == type_array)); } -void free_array_attrs (type *array) { +void free_array_attrs (ir_type *array) { assert(array && (array->type_op == type_array)); free(array->attr.aa.lower_bound); free(array->attr.aa.upper_bound); } -/* manipulate private fields of array type */ -int get_array_n_dimensions (const type *array) { +/* manipulate private fields of array ir_type */ +int get_array_n_dimensions (const ir_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, +set_array_bounds (ir_type *array, int dimension, ir_node * lower_bound, ir_node * upper_bound) { assert(array && (array->type_op == type_array)); assert(lower_bound && "lower_bound node may not be NULL."); @@ -1509,7 +1509,7 @@ set_array_bounds (type *array, int dimension, ir_node * lower_bound, array->attr.aa.upper_bound[dimension] = upper_bound; } void -set_array_bounds_int (type *array, int dimension, int lower_bound, +set_array_bounds_int (ir_type *array, int dimension, int lower_bound, int upper_bound) { ir_graph *rem = current_ir_graph; current_ir_graph = get_const_code_irg(); @@ -1519,12 +1519,12 @@ set_array_bounds_int (type *array, int dimension, int lower_bound, current_ir_graph = rem; } void -set_array_lower_bound (type *array, int dimension, ir_node * lower_bound) { +set_array_lower_bound (ir_type *array, int dimension, ir_node * lower_bound) { assert(array && (array->type_op == type_array)); assert(lower_bound && "lower_bound node may not be NULL."); array->attr.aa.lower_bound[dimension] = lower_bound; } -void set_array_lower_bound_int (type *array, int dimension, int lower_bound) { +void set_array_lower_bound_int (ir_type *array, int dimension, int lower_bound) { ir_graph *rem = current_ir_graph; current_ir_graph = get_const_code_irg(); set_array_lower_bound (array, dimension, @@ -1532,42 +1532,42 @@ void set_array_lower_bound_int (type *array, int dimension, int lower_bound) { current_ir_graph = rem; } void -set_array_upper_bound (type *array, int dimension, ir_node * upper_bound) { +set_array_upper_bound (ir_type *array, int dimension, ir_node * upper_bound) { assert(array && (array->type_op == type_array)); assert(upper_bound && "upper_bound node may not be NULL."); array->attr.aa.upper_bound[dimension] = upper_bound; } -void set_array_upper_bound_int (type *array, int dimension, int upper_bound) { +void set_array_upper_bound_int (ir_type *array, int dimension, int upper_bound) { 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))); current_ir_graph = rem; } -int has_array_lower_bound (const type *array, int dimension) { +int has_array_lower_bound (const ir_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 (const type *array, int dimension) { +ir_node *get_array_lower_bound (const ir_type *array, int dimension) { assert(array && (array->type_op == type_array)); return array->attr.aa.lower_bound[dimension]; } -long get_array_lower_bound_int (const type *array, int dimension) { +long get_array_lower_bound_int (const ir_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) { +int has_array_upper_bound (const ir_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 (const type *array, int dimension) { +ir_node * get_array_upper_bound (const ir_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) { +long get_array_upper_bound_int (const ir_type *array, int dimension) { ir_node *node; assert(array && (array->type_op == type_array)); node = array->attr.aa.upper_bound[dimension]; @@ -1575,17 +1575,17 @@ long get_array_upper_bound_int (const type *array, int dimension) { return get_tarval_long(get_Const_tarval(node)); } -void set_array_order (type *array, int dimension, int order) { +void set_array_order (ir_type *array, int dimension, int order) { assert(array && (array->type_op == type_array)); array->attr.aa.order[dimension] = order; } -int get_array_order (const type *array, int dimension) { +int get_array_order (const ir_type *array, int dimension) { assert(array && (array->type_op == type_array)); return array->attr.aa.order[dimension]; } -int find_array_dimension(const type *array, int order) { +int find_array_dimension(const ir_type *array, int order) { int dim; assert(array && (array->type_op == type_array)); @@ -1597,33 +1597,33 @@ int find_array_dimension(const type *array, int order) { return -1; } -void set_array_element_type (type *array, type *tp) { +void set_array_element_type (ir_type *array, ir_type *tp) { assert(array && (array->type_op == type_array)); assert(!is_Method_type(tp)); array->attr.aa.element_type = tp; } -type *get_array_element_type (type *array) { +ir_type *get_array_element_type (ir_type *array) { assert(array && (array->type_op == type_array)); return array->attr.aa.element_type = skip_tid(array->attr.aa.element_type); } -void set_array_element_entity (type *array, entity *ent) { +void set_array_element_entity (ir_type *array, entity *ent) { assert(array && (array->type_op == type_array)); assert((get_entity_type(ent)->type_op != type_method)); array->attr.aa.element_ent = ent; array->attr.aa.element_type = get_entity_type(ent); } -entity *get_array_element_entity (const type *array) { +entity *get_array_element_entity (const ir_type *array) { assert(array && (array->type_op == type_array)); return array->attr.aa.element_ent; } /* typecheck */ -int (is_Array_type)(const type *array) { +int (is_Array_type)(const ir_type *array) { return _is_array_type(array); } -void set_array_size_bits(type *tp, int size) { +void set_array_size_bits(ir_type *tp, int size) { /* FIXME: Here we should make some checks with the element type size */ tp->size = size; } @@ -1632,8 +1632,8 @@ void set_array_size_bits(type *tp, int size) { /*-----------------------------------------------------------------*/ /* create a new type enumeration -- set the enumerators independently */ -type *new_d_type_enumeration(ident *name, int n_enums, dbg_info *db) { - type *res = new_type(type_enumeration, NULL, name, db); +ir_type *new_d_type_enumeration(ident *name, int n_enums, dbg_info *db) { + ir_type *res = new_type(type_enumeration, NULL, name, db); res->attr.ea.n_enums = n_enums; res->attr.ea.enumer = xcalloc(n_enums, sizeof(res->attr.ea.enumer[0])); @@ -1642,56 +1642,56 @@ type *new_d_type_enumeration(ident *name, int n_enums, dbg_info *db) { return res; } -type *new_type_enumeration(ident *name, int n_enums) { +ir_type *new_type_enumeration(ident *name, int n_enums) { return new_d_type_enumeration(name, n_enums, NULL); } -void free_enumeration_entities(type *enumeration) { +void free_enumeration_entities(ir_type *enumeration) { assert(enumeration && (enumeration->type_op == type_enumeration)); } -void free_enumeration_attrs(type *enumeration) { +void free_enumeration_attrs(ir_type *enumeration) { assert(enumeration && (enumeration->type_op == type_enumeration)); free(enumeration->attr.ea.enumer); free(enumeration->attr.ea.enum_nameid); } /* manipulate fields of enumeration type. */ -int get_enumeration_n_enums (const type *enumeration) { +int get_enumeration_n_enums (const ir_type *enumeration) { assert(enumeration && (enumeration->type_op == type_enumeration)); return enumeration->attr.ea.n_enums; } -void set_enumeration_enum (type *enumeration, int pos, tarval *con) { +void set_enumeration_enum (ir_type *enumeration, int pos, tarval *con) { assert(enumeration && (enumeration->type_op == type_enumeration)); assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration)); enumeration->attr.ea.enumer[pos] = con; } -tarval *get_enumeration_enum (const type *enumeration, int pos) { +tarval *get_enumeration_enum (const ir_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]; } -void set_enumeration_nameid (type *enumeration, int pos, ident *id) { +void set_enumeration_nameid (ir_type *enumeration, int pos, ident *id) { assert(enumeration && (enumeration->type_op == type_enumeration)); assert(pos >= 0 && pos < get_enumeration_n_enums(enumeration)); enumeration->attr.ea.enum_nameid[pos] = id; } -ident *get_enumeration_nameid (const type *enumeration, int pos) { +ident *get_enumeration_nameid (const ir_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(const type *enumeration, int pos) { +const char *get_enumeration_name(const ir_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)(const type *enumeration) { +int (is_Enumeration_type)(const ir_type *enumeration) { return _is_enumeration_type(enumeration); } -void set_enumeration_mode(type *tp, ir_mode *mode) { +void set_enumeration_mode(ir_type *tp, ir_mode *mode) { assert(mode_is_int(mode) && "Modes of enumerations must be integers"); /* For pointer and enumeration size depends on the mode, but only byte size allowed. */ assert((get_mode_size_bits(mode) & 7) == 0 && "unorthodox modes not implemented"); @@ -1705,8 +1705,8 @@ void set_enumeration_mode(type *tp, ir_mode *mode) { /*-----------------------------------------------------------------*/ /* Create a new type pointer */ -type *new_d_type_pointer(ident *name, type *points_to, ir_mode *ptr_mode, dbg_info *db) { - type *res; +ir_type *new_d_type_pointer(ident *name, ir_type *points_to, ir_mode *ptr_mode, dbg_info *db) { + ir_type *res; assert(mode_is_reference(ptr_mode)); res = new_type(type_pointer, ptr_mode, name, db); @@ -1718,35 +1718,35 @@ type *new_d_type_pointer(ident *name, type *points_to, ir_mode *ptr_mode, dbg_in return res; } -type *new_type_pointer(ident *name, type *points_to, ir_mode *ptr_mode) { +ir_type *new_type_pointer(ident *name, ir_type *points_to, ir_mode *ptr_mode) { return new_d_type_pointer(name, points_to, ptr_mode, NULL); } -void free_pointer_entities (type *pointer) { +void free_pointer_entities (ir_type *pointer) { assert(pointer && (pointer->type_op == type_pointer)); } -void free_pointer_attrs (type *pointer) { +void free_pointer_attrs (ir_type *pointer) { assert(pointer && (pointer->type_op == type_pointer)); } /* manipulate fields of type_pointer */ -void set_pointer_points_to_type (type *pointer, type *tp) { +void set_pointer_points_to_type (ir_type *pointer, ir_type *tp) { assert(pointer && (pointer->type_op == type_pointer)); pointer->attr.pa.points_to = tp; } -type *get_pointer_points_to_type (type *pointer) { +ir_type *get_pointer_points_to_type (ir_type *pointer) { assert(pointer && (pointer->type_op == type_pointer)); return pointer->attr.pa.points_to = skip_tid(pointer->attr.pa.points_to); } /* typecheck */ -int (is_Pointer_type)(const type *pointer) { +int (is_Pointer_type)(const ir_type *pointer) { return _is_pointer_type(pointer); } -void set_pointer_mode(type *tp, ir_mode *mode) { +void set_pointer_mode(ir_type *tp, ir_mode *mode) { assert(mode_is_reference(mode) && "Modes of pointers must be references"); /* For pointer and enumeration size depends on the mode, but only byte size allowed. */ assert((get_mode_size_bits(mode) & 7) == 0 && "unorthodox modes not implemented"); @@ -1758,10 +1758,10 @@ void set_pointer_mode(type *tp, ir_mode *mode) { /* Returns the first pointer type that has as points_to tp. * Not efficient: O(#types). * If not found returns firm_unknown_type. */ -type *find_pointer_type_to_type (type *tp) { +ir_type *find_pointer_type_to_type (ir_type *tp) { int i; for (i = 0; i < get_irp_n_types(); ++i) { - type *found = get_irp_type(i); + ir_type *found = get_irp_type(i); if (is_Pointer_type(found) && get_pointer_points_to_type(found) == tp) return (found); } @@ -1774,8 +1774,8 @@ type *find_pointer_type_to_type (type *tp) { /*-----------------------------------------------------------------*/ /* create a new type primitive */ -type *new_d_type_primitive(ident *name, ir_mode *mode, dbg_info *db) { - type *res; +ir_type *new_d_type_primitive(ident *name, ir_mode *mode, dbg_info *db) { + ir_type *res; /* @@@ assert( mode_is_data(mode) && (!mode_is_reference(mode))); */ res = new_type(type_primitive, mode, name, db); res->size = get_mode_size_bits(mode); @@ -1784,16 +1784,16 @@ type *new_d_type_primitive(ident *name, ir_mode *mode, dbg_info *db) { return res; } -type *new_type_primitive(ident *name, ir_mode *mode) { +ir_type *new_type_primitive(ident *name, ir_mode *mode) { return new_d_type_primitive(name, mode, NULL); } /* typecheck */ -int (is_Primitive_type)(const type *primitive) { +int (is_Primitive_type)(const ir_type *primitive) { return _is_primitive_type(primitive); } -void set_primitive_mode(type *tp, ir_mode *mode) { +void set_primitive_mode(ir_type *tp, ir_mode *mode) { /* Modes of primitives must be data */ assert(mode_is_data(mode)); @@ -1808,14 +1808,14 @@ void set_primitive_mode(type *tp, ir_mode *mode) { /*-----------------------------------------------------------------*/ -int (is_atomic_type)(const type *tp) { +int (is_atomic_type)(const ir_type *tp) { return _is_atomic_type(tp); } /* * Gets the number of elements in a firm compound type. */ -int get_compound_n_members(const type *tp) +int get_compound_n_members(const ir_type *tp) { const tp_op *op = get_type_tpop(tp); int res = 0; @@ -1831,7 +1831,7 @@ int get_compound_n_members(const type *tp) /* * Gets the member of a firm compound type at position pos. */ -entity *get_compound_member(const type *tp, int pos) +entity *get_compound_member(const ir_type *tp, int pos) { const tp_op *op = get_type_tpop(tp); entity *res = NULL; @@ -1844,20 +1844,20 @@ entity *get_compound_member(const type *tp, int pos) return res; } -int is_compound_type(const type *tp) { +int is_compound_type(const ir_type *tp) { assert(tp && tp->kind == k_type); return tp->type_op->flags & TP_OP_FLAG_COMPOUND; } -/* Checks, whether a type is a frame type */ -int is_frame_type(const type *tp) { +/* Checks, whether a type is a frame ir_type */ +int is_frame_type(const ir_type *tp) { return tp->frame_type; } /* Makes a new frame type. */ -type *new_type_frame(ident *name) +ir_type *new_type_frame(ident *name) { - type *res = new_type_class(name); + ir_type *res = new_type_class(name); res->frame_type = 1; @@ -1867,7 +1867,7 @@ type *new_type_frame(ident *name) return res; } -/* set the type size for the unknown and none type */ -void set_default_size_bits(type *tp, int size) { +/* set the type size for the unknown and none ir_type */ +void set_default_size_bits(ir_type *tp, int size) { tp->size = size; } diff --git a/ir/tr/type.h b/ir/tr/type.h index 3165b76cd..b68d69eb6 100644 --- a/ir/tr/type.h +++ b/ir/tr/type.h @@ -103,9 +103,9 @@ * @todo * mode maybe not global field?? */ -#ifndef _TYPE_TYPEDEF_ -#define _TYPE_TYPEDEF_ -typedef struct ir_type type; +#ifndef _IR_TYPE_TYPEDEF_ +#define _IR_TYPE_TYPEDEF_ +typedef struct ir_type ir_type; #endif # include "type_or_entity.h" @@ -114,7 +114,7 @@ typedef struct ir_type type; Does not free array entity. Warning: make sure these entities are not referenced anywhere else. */ -void free_type_entities(type *tp); +void free_type_entities(ir_type *tp); /** Frees the memory used by the type. * @@ -124,16 +124,16 @@ void free_type_entities(type *tp); * param subtypes of method types!!! Make sure these are not * referenced any more. Further make sure there is no pointer type * that refers to this type. */ -void free_type(type *tp); +void free_type(ir_type *tp); -const tp_op*get_type_tpop(const type *tp); -ident* get_type_tpop_nameid(const type *tp); -const char* get_type_tpop_name(const type *tp); -tp_opcode get_type_tpop_code(const type *tp); +const tp_op*get_type_tpop(const ir_type *tp); +ident* get_type_tpop_nameid(const ir_type *tp); +const char* get_type_tpop_name(const ir_type *tp); +tp_opcode get_type_tpop_code(const ir_type *tp); -ident* get_type_ident(const type *tp); -void set_type_ident(type *tp, ident* id); -const char* get_type_name(const type *tp); +ident* get_type_ident(const ir_type *tp); +void set_type_ident(ir_type *tp, ident* id); +const char* get_type_name(const ir_type *tp); /** This enumeration flags the visibility of entities and types. * @@ -197,8 +197,8 @@ typedef enum { * Entities of types are never visibility_external_allocated (right?). * Else returns visibility_local. */ -visibility get_type_visibility (const type *tp); -void set_type_visibility (type *tp, visibility v); +visibility get_type_visibility (const ir_type *tp); +void set_type_visibility (ir_type *tp, visibility v); @@ -220,53 +220,53 @@ typedef enum { const char *get_type_state_name(type_state s); /** Returns the type layout state of a type. */ -type_state get_type_state(const type *tp); +type_state get_type_state(const ir_type *tp); /** Sets the type layout state of a type. * * For primitives, pointer and method types the layout is always fixed. * This call is legal but has no effect. */ -void set_type_state(type *tp, type_state state); +void set_type_state(ir_type *tp, type_state state); /** Returns the mode of a type. * * Returns NULL for all non atomic types. */ -ir_mode* get_type_mode(const type *tp); +ir_mode* get_type_mode(const ir_type *tp); /** Sets the mode of a type. * * Only has an effect on primitive, enumeration and pointer types. */ -void set_type_mode(type *tp, ir_mode* m); +void set_type_mode(ir_type *tp, ir_mode* m); /** Returns the size of a type in bytes, returns -1 if the size is NOT * a byte size, i.e. not dividable by 8. */ -int get_type_size_bytes(const type *tp); +int get_type_size_bytes(const ir_type *tp); /** Returns the size of a type in bits. */ -int get_type_size_bits(const type *tp); +int get_type_size_bits(const ir_type *tp); /** Sets the size of a type in bytes. * * For primitive, enumeration, pointer and method types the size * is always fixed. This call is legal but has no effect. */ -void set_type_size_bytes(type *tp, int size); +void set_type_size_bytes(ir_type *tp, int size); /** Sets the size of a type in bits. * * For primitive, enumeration, pointer and method types the size * is always fixed. This call is legal but has no effect. */ -void set_type_size_bits(type *tp, int size); +void set_type_size_bits(ir_type *tp, int size); /** Returns the alignment of a type in bytes. * * Returns -1 if the alignment is NOT * a byte size, i.e. not dividable by 8. Calls get_type_alignment_bits(). */ -int get_type_alignment_bytes(type *tp); +int get_type_alignment_bytes(ir_type *tp); /** Returns the alignment of a type in bits. * @@ -278,38 +278,38 @@ int get_type_alignment_bytes(type *tp); * -#.) method types return 0 here. * -#.) all other types return 8 here (i.e. aligned at byte). */ -int get_type_alignment_bits(type *tp); +int get_type_alignment_bits(ir_type *tp); /** Sets the alignment of a type in bytes. */ -void set_type_alignment_bytes(type *tp, int size); +void set_type_alignment_bytes(ir_type *tp, int size); /** Sets the alignment of a type in bits. * * For method types the alignment is always fixed. * This call is legal but has no effect. */ -void set_type_alignment_bits(type *tp, int size); +void set_type_alignment_bits(ir_type *tp, int size); -unsigned long get_type_visited(const type *tp); -void set_type_visited(type *tp, unsigned long num); +unsigned long get_type_visited(const ir_type *tp); +void set_type_visited(ir_type *tp, unsigned long num); /* Sets visited field in type to type_visited. */ -void mark_type_visited(type *tp); -int type_visited(const type *tp); -int type_not_visited(const type *tp); +void mark_type_visited(ir_type *tp); +int type_visited(const ir_type *tp); +int type_not_visited(const ir_type *tp); /** Returns the associated link field of a type. */ -void* get_type_link(const type *tp); +void* get_type_link(const ir_type *tp); /** Sets the associated link field of a type. */ -void set_type_link(type *tp, void *l); +void set_type_link(ir_type *tp, void *l); /** * Visited flag to traverse the type information. * * Increase this flag by one before traversing the type information * using inc_master_type_visited(). - * Mark type nodes as visited by mark_type_visited(type). - * Check whether node was already visited by type_visited(type) - * and type_not_visited(type). + * Mark type nodes as visited by mark_type_visited(ir_type). + * Check whether node was already visited by type_visited(ir_type) + * and type_not_visited(ir_type). * Or use the function to walk all types. * * @see typewalk @@ -326,7 +326,7 @@ void inc_master_type_visited(void); * @return * true if the thing is a type, else false */ -int is_type (const void *thing); +int is_type (const void *thing); /** * Checks whether two types are structurally equal. @@ -364,7 +364,7 @@ int is_type (const void *thing); * This is to avoid endless recursions; with pointer types cyclic * type graphs are possible.) */ -int equal_type(type *typ1, type *typ2); +int equal_type(ir_type *typ1, ir_type *typ2); /** * Checks whether two types are structural comparable. @@ -401,7 +401,7 @@ int equal_type(type *typ1, type *typ2); * @return smaller than the points_to type of lt. * */ -int smaller_type (type *st, type *lt); +int smaller_type (ir_type *st, ir_type *lt); /** * @page class_type Representation of a class type @@ -435,73 +435,73 @@ int smaller_type (type *st, type *lt); */ /** Creates a new class type. */ -type *new_type_class (ident *name); +ir_type *new_type_class (ident *name); /** Creates a new class type with debug information. */ -type *new_d_type_class (ident *name, dbg_info *db); +ir_type *new_d_type_class (ident *name, dbg_info *db); /* --- manipulate private fields of class type --- */ /** Adds the entity as member of the class. */ -void add_class_member (type *clss, entity *member); +void add_class_member (ir_type *clss, entity *member); /** Returns the number of members of this class. */ -int get_class_n_members (const type *clss); +int get_class_n_members (const ir_type *clss); /** Returns the member at position pos, 0 <= pos < n_member */ -entity *get_class_member (const type *clss, int pos); +entity *get_class_member (const ir_type *clss, int pos); /** Returns index of mem in clss, -1 if not contained. */ -int get_class_member_index(type *clss, entity *mem); +int get_class_member_index(ir_type *clss, entity *mem); /** Finds the member with name 'name'. If several members with the same * name returns one of them. Returns NULL if no member found. */ -entity *get_class_member_by_name(type *clss, ident *name); +entity *get_class_member_by_name(ir_type *clss, ident *name); /** Overwrites the member at position pos, 0 <= pos < n_member with * the passed entity. */ -void set_class_member (type *clss, entity *member, int pos); +void set_class_member (ir_type *clss, entity *member, int pos); /** Replaces complete member list in class type by the list passed. * * Copies the list passed. This function is necessary to reduce the number of members. * members is an array of entities, num the size of this array. Sets all * owners of the members passed to clss. */ -void set_class_members (type *clss, entity *members[], int arity); +void set_class_members (ir_type *clss, entity *members[], int arity); /** Finds member in the list of members and removes it. * * Shrinks the member list, so iterate from the end!!! * Does not deallocate the entity. */ -void remove_class_member(type *clss, entity *member); +void remove_class_member(ir_type *clss, entity *member); /** Adds subtype as subtype to clss. * * Checks whether clss is a supertype of subtype. If not * adds also clss as supertype to subtype. */ -void add_class_subtype (type *clss, type *subtype); +void add_class_subtype (ir_type *clss, ir_type *subtype); /** Returns the number of subtypes */ -int get_class_n_subtypes (const type *clss); +int get_class_n_subtypes (const ir_type *clss); /** Gets the subtype at position pos, 0 <= pos < n_subtype. */ -type *get_class_subtype (type *clss, int pos); +ir_type *get_class_subtype (ir_type *clss, int pos); /** Returns the index to access subclass as subtype of class. * * If subclass is no direct subtype of class returns -1. */ -int get_class_subtype_index(type *clss, const type *subclass); +int get_class_subtype_index(ir_type *clss, const ir_type *subclass); /** Sets the subtype at position pos, 0 <= pos < n_subtype. * * Does not set the corresponding supertype relation for subtype: this might * be a different position! */ -void set_class_subtype (type *clss, type *subtype, int pos); +void set_class_subtype (ir_type *clss, ir_type *subtype, int pos); /** Finds subtype in the list of subtypes and removes it */ -void remove_class_subtype(type *clss, type *subtype); +void remove_class_subtype(ir_type *clss, ir_type *subtype); /* Convenience macros */ #define add_class_derived_type(clss, drvtype) add_class_subtype(clss, drvtype) @@ -515,28 +515,28 @@ void remove_class_subtype(type *clss, type *subtype); * * Checks whether clss is a subtype of supertype. If not * adds also clss as subtype to supertype. */ -void add_class_supertype (type *clss, type *supertype); +void add_class_supertype (ir_type *clss, ir_type *supertype); /** Returns the number of supertypes */ -int get_class_n_supertypes (const type *clss); +int get_class_n_supertypes (const ir_type *clss); /** Returns the index to access superclass as supertype of class. * * If superclass is no direct supertype of class returns -1. */ -int get_class_supertype_index(type *clss, type *super_clss); +int get_class_supertype_index(ir_type *clss, ir_type *super_clss); /** Gets the supertype at position pos, 0 <= pos < n_supertype. */ -type *get_class_supertype (type *clss, int pos); +ir_type *get_class_supertype (ir_type *clss, int pos); /** Sets the supertype at position pos, 0 <= pos < n_supertype. * * Does not set the corresponding subtype relation for supertype: this might * be at a different position! */ -void set_class_supertype (type *clss, type *supertype, int pos); +void set_class_supertype (ir_type *clss, ir_type *supertype, int pos); /** Finds supertype in the list of supertypes and removes it */ -void remove_class_supertype(type *clss, type *supertype); +void remove_class_supertype(ir_type *clss, ir_type *supertype); /** Convenience macro */ #define add_class_base_type(clss, basetype) add_class_supertype(clss, basetype) @@ -573,17 +573,17 @@ typedef enum peculiarity { const char *get_peculiarity_string(peculiarity p); /** Returns the peculiarity of the class. */ -peculiarity get_class_peculiarity (const type *clss); +peculiarity get_class_peculiarity (const ir_type *clss); /** Sets the peculiarity of the class. */ -void set_class_peculiarity (type *clss, peculiarity pec); +void set_class_peculiarity (ir_type *clss, peculiarity pec); /* Set and get a class' dfn -- @todo This is an undocumented field, subject to change! */ -void set_class_dfn (type *clss, int dfn); -int get_class_dfn (const type *clss); +void set_class_dfn (ir_type *clss, int dfn); +int get_class_dfn (const ir_type *clss); /** Returns true if a type is a class type. */ -int is_Class_type(const type *clss); +int is_Class_type(const ir_type *clss); /** * @page struct_type Representation of a struct type @@ -601,33 +601,33 @@ int is_Class_type(const type *clss); * but not shrinked. */ /** Creates a new type struct */ -type *new_type_struct (ident *name); +ir_type *new_type_struct (ident *name); /** Creates a new type struct with debug information. */ -type *new_d_type_struct (ident *name, dbg_info* db); +ir_type *new_d_type_struct (ident *name, dbg_info* db); /* --- manipulate private fields of struct --- */ /** Adds the entity as member of the struct. */ -void add_struct_member (type *strct, entity *member); +void add_struct_member (ir_type *strct, entity *member); /** Returns the number of members of this struct. */ -int get_struct_n_members (const type *strct); +int get_struct_n_members (const ir_type *strct); /** Returns the member at position pos, 0 <= pos < n_member */ -entity *get_struct_member (const type *strct, int pos); +entity *get_struct_member (const ir_type *strct, int pos); /** Returns index of member in strct, -1 if not contained. */ -int get_struct_member_index(type *strct, entity *member); +int get_struct_member_index(ir_type *strct, entity *member); /** Overwrites the member at position pos, 0 <= pos < n_member with the passed entity. */ -void set_struct_member (type *strct, int pos, entity *member); +void set_struct_member (ir_type *strct, int pos, entity *member); /** Finds member in the list of members and removes it. */ -void remove_struct_member (type *strct, entity *member); +void remove_struct_member (ir_type *strct, entity *member); /** Returns true if a type is a struct type. */ -int is_Struct_type(const type *strct); +int is_Struct_type(const ir_type *strct); /** * @page method_type Representation of a method type @@ -677,7 +677,7 @@ int is_Struct_type(const type *strct); * The arrays for the parameter and result types are not initialized by * the constructor. */ -type *new_type_method (ident *name, int n_param, int n_res); +ir_type *new_type_method (ident *name, int n_param, int n_res); /** Create a new method type with debug information. * @@ -689,43 +689,43 @@ type *new_type_method (ident *name, int n_param, int n_res); * The arrays for the parameter and result types are not initialized by * the constructor. */ -type *new_d_type_method (ident *name, int n_param, int n_res, dbg_info* db); +ir_type *new_d_type_method (ident *name, int n_param, int n_res, dbg_info* db); /* -- manipulate private fields of method. -- */ /** Returns the number of parameters of this method. */ -int get_method_n_params (const type *method); +int get_method_n_params (const ir_type *method); /** Returns the type of the parameter at position pos of a method. */ -type *get_method_param_type(type *method, int pos); +ir_type *get_method_param_type(ir_type *method, int pos); /** Sets the type of the parameter at position pos of a method. Also changes the type in the pass-by-value representation by just changing the type of the corresponding entity if the representation is constructed. */ -void set_method_param_type(type *method, int pos, type* tp); +void set_method_param_type(ir_type *method, int pos, ir_type *tp); /** Returns an entity that represents the copied value argument. Only necessary for compounds passed by value. This information is constructed only on demand. */ -entity *get_method_value_param_ent(type *method, int pos); +entity *get_method_value_param_ent(ir_type *method, int pos); /** * Returns a type that represents the copied value arguments. */ -type *get_method_value_param_type(const type *method); +ir_type *get_method_value_param_type(const ir_type *method); /** Returns the number of results of a method type. */ -int get_method_n_ress (const type *method); +int get_method_n_ress (const ir_type *method); /** Returns the return type of a method type at position pos. */ -type *get_method_res_type(type *method, int pos); +ir_type *get_method_res_type(ir_type *method, int pos); /** Sets the type of the result at position pos of a method. Also changes the type in the pass-by-value representation by just changing the type of the corresponding entity if the representation is constructed. */ -void set_method_res_type(type *method, int pos, type* tp); +void set_method_res_type(ir_type *method, int pos, ir_type *tp); /** Returns an entity that represents the copied value result. Only necessary for compounds passed by value. This information is constructed only on demand. */ -entity *get_method_value_res_ent(type *method, int pos); +entity *get_method_value_res_ent(ir_type *method, int pos); /** * Returns a type that represents the copied value results. */ -type *get_method_value_res_type(const type *method); +ir_type *get_method_value_res_type(const ir_type *method); /** * This enum flags the variadicity of methods (methods with a @@ -741,10 +741,10 @@ typedef enum variadicity { const char *get_variadicity_name(variadicity vari); /** Returns the variadicity of a method. */ -variadicity get_method_variadicity(const type *method); +variadicity get_method_variadicity(const ir_type *method); /** Sets the variadicity of a method. */ -void set_method_variadicity(type *method, variadicity vari); +void set_method_variadicity(ir_type *method, variadicity vari); /** * Returns the first variadic parameter index of a type. @@ -752,7 +752,7 @@ void set_method_variadicity(type *method, variadicity vari); * 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(const type *method); +int get_method_first_variadic_param_index(const ir_type *method); /** * Sets the first variadic parameter index. This allows to specify @@ -760,7 +760,7 @@ int get_method_first_variadic_param_index(const type *method); * but still have the knowledge, which parameter must be passed as * variadic one. */ -void set_method_first_variadic_param_index(type *method, int index); +void set_method_first_variadic_param_index(ir_type *method, int index); /** * additional method type properties: @@ -785,18 +785,20 @@ typedef enum { GCC: __attribute__((naked)). */ mtp_property_malloc = 0x00000020, /**< This method returns newly allocate memory. GCC: __attribute__((malloc)). */ + mtp_property_intrinsic = 0x00000040, /**< This method is intrinsic. It is expected that + a lowering phase will remove all calls to it. */ mtp_property_inherited = 0x40000000 /**< used only in irg's, means property is inherited from type. */ } mtp_additional_property; /** Returns the mask of the additional graph properties. */ -unsigned get_method_additional_properties(const type *method); +unsigned get_method_additional_properties(const ir_type *method); /** Sets the mask of the additional graph properties. */ -void set_method_additional_properties(type *method, unsigned property_mask); +void set_method_additional_properties(ir_type *method, unsigned property_mask); /** Sets one additional graph property. */ -void set_method_additional_property(type *method, mtp_additional_property flag); +void set_method_additional_property(ir_type *method, mtp_additional_property flag); /** * calling conventions: lower 24 bits are the number of register parameters, @@ -860,19 +862,19 @@ unsigned get_default_cc_mask(void); #define SET_FASTCALL(cc_mask) (((cc_mask) & ~cc_bits) | cc_fastcall_set) /** Returns the calling convention of an entities graph. */ -unsigned get_method_calling_convention(const type *method); +unsigned get_method_calling_convention(const ir_type *method); /** Sets the calling convention of an entities graph. */ -void set_method_calling_convention(type *method, unsigned cc_mask); +void set_method_calling_convention(ir_type *method, unsigned cc_mask); /** Returns the number of registers parameters, 0 means default. */ -unsigned get_method_n_regparams(type *method); +unsigned get_method_n_regparams(ir_type *method); /** Sets the number of registers parameters, 0 means default. */ -void set_method_n_regparams(type *method, unsigned n_regs); +void set_method_n_regparams(ir_type *method, unsigned n_regs); /** Returns true if a type is a method type. */ -int is_Method_type (const type *method); +int is_Method_type (const ir_type *method); /** * @page union_type Representation of a union (variant) type. @@ -884,30 +886,30 @@ int is_Method_type (const type *method); * but not shrinked. */ /** Creates a new type union. */ -type *new_type_union (ident *name); +ir_type *new_type_union (ident *name); /** Creates a new type union with debug information. */ -type *new_d_type_union (ident *name, dbg_info* db); +ir_type *new_d_type_union (ident *name, dbg_info* db); /* --- manipulate private fields of struct --- */ /** Returns the number of unioned types of this union */ -int get_union_n_members (const type *uni); +int get_union_n_members (const ir_type *uni); /** Adds a new entity to a union type */ -void add_union_member (type *uni, entity *member); +void add_union_member (ir_type *uni, entity *member); /** Returns the entity at position pos of a union */ -entity *get_union_member (const type *uni, int pos); +entity *get_union_member (const ir_type *uni, int pos); /** Overwrites a entity at position pos in a union type. */ -void set_union_member (type *uni, int pos, entity *member); +void set_union_member (ir_type *uni, int pos, entity *member); /** Finds member in the list of members and removes it. */ -void remove_union_member (type *uni, entity *member); +void remove_union_member (ir_type *uni, entity *member); /** Returns true if a type is a union type. */ -int is_Union_type (const type *uni); +int is_Union_type (const ir_type *uni); /** * @page array_type Representation of an array type @@ -935,8 +937,8 @@ int is_Union_type (const type *uni); * The entity for array elements is built automatically. * Set dimension sizes after call to constructor with set_* routines. */ -type *new_type_array (ident *name, int n_dimensions, - type *element_type); +ir_type *new_type_array (ident *name, int n_dimensions, + ir_type *element_type); /** Create a new type array with debug information. * @@ -946,76 +948,76 @@ type *new_type_array (ident *name, int n_dimensions, * Set dimension sizes after call to constructor with set_* routines. * A legal array type must have at least one dimension set. */ -type *new_d_type_array (ident *name, int n_dimensions, - type *element_type, dbg_info* db); +ir_type *new_d_type_array (ident *name, int n_dimensions, + ir_type *element_type, dbg_info* db); /* --- manipulate private fields of array type --- */ /** Returns the number of array dimensions of this type. */ -int get_array_n_dimensions (const type *array); +int get_array_n_dimensions (const ir_type *array); /** * Allocates Const nodes of mode_I for one array dimension. * Upper bound in Firm is the element next to the last, i.e. [lower,upper[ */ -void set_array_bounds_int (type *array, int dimension, int lower_bound, +void set_array_bounds_int (ir_type *array, int dimension, int lower_bound, int upper_bound); /** * Sets the bounds for one array dimension. * Upper bound in Firm is the element next to the last, i.e. [lower,upper[ */ -void set_array_bounds (type *array, int dimension, ir_node *lower_bound, +void set_array_bounds (ir_type *array, int dimension, ir_node *lower_bound, ir_node *upper_bound); /** Sets the lower bound for one array dimension, i.e. [lower,upper[ */ -void set_array_lower_bound (type *array, int dimension, ir_node *lower_bound); +void set_array_lower_bound (ir_type *array, int dimension, ir_node *lower_bound); /** Allocates Const nodes of mode_I for the lower bound of an array dimension, i.e. [lower,upper[ */ -void set_array_lower_bound_int (type *array, int dimension, int lower_bound); +void set_array_lower_bound_int (ir_type *array, int dimension, int lower_bound); /** Sets the upper bound for one array dimension, i.e. [lower,upper[ */ -void set_array_upper_bound (type *array, int dimension, ir_node *upper_bound); +void set_array_upper_bound (ir_type *array, int dimension, ir_node *upper_bound); /** Allocates Const nodes of mode_I for the upper bound of an array dimension, i.e. [lower,upper[. */ -void set_array_upper_bound_int (type *array, int dimension, int upper_bound); +void set_array_upper_bound_int (ir_type *array, int dimension, int upper_bound); /** Returns true if lower bound != Unknown. */ -int has_array_lower_bound (const type *array, int dimension); +int has_array_lower_bound (const ir_type *array, int dimension); /** Returns the lower bound of an array. */ -ir_node * get_array_lower_bound (const type *array, int dimension); +ir_node * get_array_lower_bound (const ir_type *array, int dimension); /** Works only if bound is Const node with tarval that can be converted to long. */ -long get_array_lower_bound_int (const type *array, int dimension); +long get_array_lower_bound_int (const ir_type *array, int dimension); /** returns true if lower bound != Unknown */ -int has_array_upper_bound (const type *array, int dimension); +int has_array_upper_bound (const ir_type *array, int dimension); /** Returns the upper bound of an array. */ -ir_node * get_array_upper_bound (const type *array, int dimension); +ir_node * get_array_upper_bound (const ir_type *array, int dimension); /** Works only if bound is Const node with tarval that can be converted to long. */ -long get_array_upper_bound_int (const type *array, int dimension); +long get_array_upper_bound_int (const ir_type *array, int dimension); /** Sets an array dimension to a specific order. */ -void set_array_order (type *array, int dimension, int order); +void set_array_order (ir_type *array, int dimension, int order); /** Returns the order of an array dimension. */ -int get_array_order (const type *array, int dimension); +int get_array_order (const ir_type *array, int dimension); /** Find the array dimension that is placed at order ord. */ -int find_array_dimension(const type *array, int order); +int find_array_dimension(const ir_type *array, int order); /** Sets the array element type. */ -void set_array_element_type (type *array, type *tp); +void set_array_element_type (ir_type *array, ir_type* tp); /** Gets the array element type. */ -type *get_array_element_type (type *array); +ir_type *get_array_element_type (ir_type *array); /** Sets the array element entity. */ -void set_array_element_entity (type *array, entity *ent); +void set_array_element_entity (ir_type *array, entity *ent); /** Get the array element entity. */ -entity *get_array_element_entity (const type *array); +entity *get_array_element_entity (const ir_type *array); /** Returns true if a type is an array type. */ -int is_Array_type(const type *array); +int is_Array_type(const ir_type *array); /** * @page enumeration_type Representation of an enumeration type @@ -1030,33 +1032,33 @@ int is_Array_type(const type *array); * constants */ /** Create a new type enumeration -- set the enumerators independently. */ -type *new_type_enumeration (ident *name, int n_enums); +ir_type *new_type_enumeration (ident *name, int n_enums); /** Create a new type enumeration with debug information -- set the enumerators independently. */ -type *new_d_type_enumeration (ident *name, int n_enums, dbg_info* db); +ir_type *new_d_type_enumeration (ident *name, int n_enums, dbg_info* db); /* --- manipulate fields of enumeration type. --- */ /** Returns the number of enumeration values of this enumeration */ -int get_enumeration_n_enums (const type *enumeration); +int get_enumeration_n_enums (const ir_type *enumeration); /** Sets the enumeration value at a given position. */ -void set_enumeration_enum (type *enumeration, int pos, tarval *con); +void set_enumeration_enum (ir_type *enumeration, int pos, tarval *con); /** Returns the enumeration value at a given position. */ -tarval *get_enumeration_enum (const type *enumeration, int pos); +tarval *get_enumeration_enum (const ir_type *enumeration, int pos); /** Assign an ident to an enumeration value at a given position. */ -void set_enumeration_nameid (type *enumeration, int pos, ident *id); +void set_enumeration_nameid (ir_type *enumeration, int pos, ident *id); /** Returns the assigned ident of an enumeration value at a given position. */ -ident *get_enumeration_nameid (const type *enumeration, int pos); +ident *get_enumeration_nameid (const ir_type *enumeration, int pos); /** Returns the assigned name of an enumeration value at a given position. */ -const char *get_enumeration_name(const type *enumeration, int pos); +const char *get_enumeration_name(const ir_type *enumeration, int pos); /** Returns true if a type is a enumeration type. */ -int is_Enumeration_type (const type *enumeration); +int is_Enumeration_type (const ir_type *enumeration); /** * @page pointer_type Representation of a pointer type @@ -1068,26 +1070,26 @@ int is_Enumeration_type (const type *enumeration); */ /** Creates a new type pointer. */ -type *new_type_pointer (ident *name, type *points_to, ir_mode *ptr_mode); +ir_type *new_type_pointer (ident *name, ir_type *points_to, ir_mode *ptr_mode); /** Creates a new type pointer with debug information. */ -type *new_d_type_pointer (ident *name, type *points_to, ir_mode *ptr_mode, dbg_info* db); +ir_type *new_d_type_pointer (ident *name, ir_type *points_to, ir_mode *ptr_mode, dbg_info* db); /* --- manipulate fields of type_pointer --- */ /** Sets the type to which a pointer points to. */ -void set_pointer_points_to_type (type *pointer, type *tp); +void set_pointer_points_to_type (ir_type *pointer, ir_type *tp); /** Returns the type to which a pointer points to. */ -type *get_pointer_points_to_type (type *pointer); +ir_type *get_pointer_points_to_type (ir_type *pointer); /** Returns true if a type is a pointer type. */ -int is_Pointer_type (const type *pointer); +int is_Pointer_type (const ir_type *pointer); /** Returns the first pointer type that has as points_to tp. * Not efficient: O(#types). * If not found returns unknown_type. */ -type *find_pointer_type_to_type (type *tp); +ir_type *find_pointer_type_to_type (ir_type *tp); /** * @page primitive_type Representation of a primitive type @@ -1097,13 +1099,13 @@ type *find_pointer_type_to_type (type *tp); * important information they carry is held in the common mode field. */ /** Creates a new primitive type. */ -type *new_type_primitive (ident *name, ir_mode *mode); +ir_type *new_type_primitive (ident *name, ir_mode *mode); /** Creates a new primitive type with debug information. */ -type *new_d_type_primitive (ident *name, ir_mode *mode, dbg_info* db); +ir_type *new_d_type_primitive (ident *name, ir_mode *mode, dbg_info* db); /** Returns true if a type is a primitive type. */ -int is_Primitive_type (const type *primitive); +int is_Primitive_type (const ir_type *primitive); /** @@ -1126,7 +1128,7 @@ int is_Primitive_type (const type *primitive); /** A variable that contains the only none type. */ extern type *firm_none_type; /** Returns the none type */ -type *get_none_type(void); +ir_type *get_none_type(void); /** * @page unknown_type @@ -1148,7 +1150,7 @@ type *get_none_type(void); /** A variable that contains the only unknown type. */ extern type *firm_unknown_type; /** Returns the unknown type */ -type *get_unknown_type(void); +ir_type *get_unknown_type(void); /** @@ -1156,7 +1158,7 @@ type *get_unknown_type(void); * @param tp any type * @return true if type is primitive, pointer or enumeration */ -int is_atomic_type(const type *tp); +int is_atomic_type(const ir_type *tp); /* --- Support for compound types --- */ @@ -1171,7 +1173,7 @@ int is_atomic_type(const type *tp); * * @return Number of members in the compound type. */ -int get_compound_n_members(const type *tp); +int get_compound_n_members(const ir_type *tp); /** * Gets the member of a firm compound type at position pos. @@ -1183,7 +1185,7 @@ int get_compound_n_members(const type *tp); * * @see get_compound_n_members() for justification of existence. */ -entity *get_compound_member(const type *tp, int pos); +entity *get_compound_member(const ir_type *tp, int pos); /** * Checks whether a type is compound. @@ -1192,19 +1194,19 @@ entity *get_compound_member(const type *tp, int pos); * * @return true if the type is class, structure, union or array type. */ -int is_compound_type(const type *tp); +int is_compound_type(const ir_type *tp); /** * Checks, whether a type is a frame type */ -int is_frame_type(const type *tp); +int is_frame_type(const ir_type *tp); /** * Makes a new frame type. Frame types are class types, * so all class access functions work. * Frame types are not in the global list of types. */ -type *new_type_frame(ident *name); +ir_type *new_type_frame(ident *name); /*-----------------------------------------------------------------*/ /** Debug aides **/ @@ -1215,7 +1217,7 @@ type *new_type_frame(ident *name); * debugging, (configure with --enable-debug) else returns the address * of the type cast to long. */ -long get_type_nr(const type *tp); +long get_type_nr(const ir_type *tp); # endif /* _TYPE_H_ */ -- 2.20.1