/* GOB C Preprocessor
- * Copyright (C) 1999 the Free Software Foundation.
+ * Copyright (C) 1999,2000 the Free Software Foundation.
+ * Copyright (C) 2000 Eazel, Inc.
*
* Author: George Lebl
*
static char *ptypebase;
static int signals = 0; /* number of signals */
-static int arguments = 0; /* number of named arguments */
+static int set_arguments = 0; /* number of named (set) arguments */
+static int get_arguments = 0; /* number of named (get) arguments */
static int overrides = 0; /* number of override methods */
static int privates = 0; /* number of private data members */
static int protecteds = 0; /* number of protected methods */
static gboolean special_array[SPECIAL_LAST] = {0};
static gboolean any_special = FALSE;
+static gboolean need_destroy = FALSE;
+static Method * destroy_handler = NULL;
+
+static gboolean need_finalize = FALSE;
+static Method * finalize_handler = NULL;
+
FILE *out = NULL;
FILE *outh = NULL;
FILE *outph = NULL;
gboolean no_extern_c = FALSE;
gboolean no_write = FALSE;
gboolean no_lines = FALSE;
+gboolean no_self_alias = FALSE;
+gboolean no_kill_underscores = FALSE;
+gboolean always_private_struct = FALSE;
+
+int method_unique_id = 1;
static void
make_bases(void)
}
static char *
-get_type(Type *t, gboolean postfix_to_stars)
+get_type(const Type *t, gboolean postfix_to_stars)
{
char *s;
int i;
extra = 0;
if(postfix_to_stars) {
- char *p;
+ const char *p;
/*XXX: this is ugly perhaps we can do this whole postfix thing
in a nicer way, we just count the number of '[' s and from
that we deduce the number of dimensions, so that we can print
if(*p == '[') extra++;
}
g_string_append_c(gs, ' ');
-
- for(i=0; i<(t->stars+extra); i++)
- g_string_append_c(gs, '*');
+ if(t->pointer) {
+ g_string_append(gs, t->pointer);
+ for(i=0; i < extra; i++)
+ g_string_append_c(gs, '*');
+ g_string_append_c(gs, ' ');
+ }
+
s = gs->str;
g_string_free(gs, FALSE);
return s;
}
static char *
-get_gtk_doc(char *id)
+get_gtk_doc(const char *id)
{
- char *val, *s;
+ char *val;
if(!gtk_doc_hash)
return NULL;
val = g_hash_table_lookup(gtk_doc_hash, id);
if(val)
return g_strdup_printf("/**\n * %s_%s:\n%s **/\n",
- funcbase, id, val);
- s = g_strconcat(funcbase, "_", id, NULL);
- val = g_hash_table_lookup(gtk_doc_hash, s);
- g_free(s);
+ funcbase, get_real_id(id), val);
+ val = g_hash_table_lookup(gtk_doc_hash, get_real_id(id));
if(val)
return g_strdup_printf("/**\n * %s_%s:\n%s **/\n",
- funcbase, id, val);
+ funcbase, get_real_id(id), val);
return NULL;
}
static void
-print_type(FILE *fp, Type *t, gboolean postfix_to_stars)
+print_type(FILE *fp, const Type *t, gboolean postfix_to_stars)
{
char *s;
static void
-print_method(FILE *fp, char *typeprefix, char *nameprefix,
- char *subnameprefix,
- char *namepostfix, char *postfix, Method *m,
+print_method(FILE *fp, const char *typeprefix, const char *nameprefix,
+ const char *subnameprefix,
+ const char *namepostfix, const char *postfix, const Method *m,
gboolean one_arg_per_line,
- gboolean no_funcbase)
+ gboolean no_funcbase,
+ gboolean kill_underscore)
{
GList *li;
+ const char *id;
out_printf(fp, "%s", typeprefix);
print_type(fp, m->mtype, TRUE);
+
+ if(kill_underscore)
+ id = get_real_id(m->id);
+ else
+ id = m->id;
+
if(no_funcbase)
out_printf(fp, "%s%s%s%s(",
- nameprefix, subnameprefix, m->id, namepostfix);
+ nameprefix, subnameprefix, id, namepostfix);
else
out_printf(fp, "%s%s_%s%s%s(",
- nameprefix, funcbase, subnameprefix, m->id,
+ nameprefix, funcbase, subnameprefix, id,
namepostfix);
if(m->args) {
print_type(fp, arg->atype, FALSE);
if(li->next)
out_printf(fp, "%s%s,%s", arg->name,
- arg->atype->postfix?
- arg->atype->postfix:"",
- one_arg_per_line?"\n\t\t\t\t\t":" ");
+ arg->atype->postfix ?
+ arg->atype->postfix : "",
+ one_arg_per_line ? "\n\t\t\t\t\t" : " ");
else
out_printf(fp, "%s%s", arg->name,
- arg->atype->postfix?
- arg->atype->postfix:"");
+ arg->atype->postfix ?
+ arg->atype->postfix : "");
}
if(m->vararg)
out_printf(fp, ",%s...",
- one_arg_per_line?"\n\t\t\t\t\t":" ");
+ one_arg_per_line ? "\n\t\t\t\t\t" : " ");
} else {
out_printf(fp, "void");
}
}
+/* just the vararg macros, we use the same func pointers for these as in non-gnu */
static void
make_method_gnu_aliases(Class *c)
{
GList *li;
- for(li=c->nodes;li;li=g_list_next(li)) {
+ for(li = c->nodes; li != NULL; li = li->next) {
Node *node = li->data;
if(node->type == METHOD_NODE) {
Method *m = (Method *)node;
if(for_cpp && strcmp(m->id, "new")==0)
continue;
- out_printf(out, "static const typeof(&%s_%s) %s "
- "__attribute__ ((__unused__)) "
- "= %s_%s;\n", funcbase, m->id, m->id,
- funcbase, m->id);
- out_printf(out, "#define %s(args...) "
- "%s_%s(##args)\n", m->id, funcbase, m->id);
+ if(m->args != NULL)
+ out_printf(out, "#define %s(args...) "
+ "%s_%s(##args)\n", m->id,
+ funcbase, get_real_id(m->id));
+ else
+ out_printf(out, "#define %s() "
+ "%s_%s()\n", m->id,
+ funcbase, get_real_id(m->id));
}
}
}
make_method_nongnu_aliases(Class *c)
{
GList *li;
+
+ gboolean local_made_aliases = FALSE;
for(li=c->nodes; li; li=g_list_next(li)) {
Node *node = li->data;
if(for_cpp && strcmp(m->id, "new")==0)
continue;
- print_method(out, "static ", "(* ", "", ") ", "",
- m, FALSE, TRUE);
- out_printf(out, " = %s_%s;\n", funcbase, m->id);
+ if( ! local_made_aliases)
+ out_printf(out, "\n/* Short form pointers */\n");
+
+ print_method(out, "static ", "(* const ", "", ") ", "",
+ m, FALSE, TRUE, FALSE);
+ out_printf(out, " = %s_%s;\n", funcbase,
+ get_real_id(m->id));
- made_aliases = TRUE;
+ local_made_aliases = TRUE;
}
}
+ if(local_made_aliases) {
+ out_printf(out, "\n");
+ made_aliases = TRUE;
+ }
}
static void
GList *li;
/* if we haven't had any methods, just return */
- if(!made_aliases)
+ if( ! made_aliases)
return;
- if(!no_gnu)
- out_printf(out, "\n\n#ifndef __GNUC__\n");
+ if( ! no_gnu)
+ out_printf(out, "\n\n#if (!defined __GNUC__) || (defined __GNUC__ && defined __STRICT_ANSI__)\n");
out_printf(out,
"/*REALLY BAD HACK\n"
" This is to avoid unused warnings if you don't call\n"
out_printf(out, "\t___%s_really_bad_hack_to_avoid_warnings();\n",
funcbase);
if(!no_gnu)
- out_printf(out, "}\n#endif /* __GNUC__ */\n\n");
+ out_printf(out, "}\n#endif /* !__GNUC__ || (__GNUC__ && __STRICT_ANSI__) */\n\n");
else
out_printf(out, "}\n\n");
}
}
static void
-put_vs_method(Method *m)
+put_vs_method(const Method *m)
{
if(m->method != SIGNAL_LAST_METHOD &&
m->method != SIGNAL_FIRST_METHOD &&
/* if a signal mark it as such */
if(m->method != VIRTUAL_METHOD)
- print_method(outh, "\t/*signal*/", "(* ", "", ") ", ";\n", m,
- FALSE, TRUE);
+ print_method(outh, "\t/*signal*/", "(* ", "", ") ", ";\n",
+ m, FALSE, TRUE, TRUE);
else
- print_method(outh, "\t", "(* ", "", ") ", ";\n", m, FALSE, TRUE);
+ print_method(outh, "\t", "(* ", "", ") ", ";\n",
+ m, FALSE, TRUE, TRUE);
}
static void
-put_pub_method(Method *m)
+put_pub_method(const Method *m)
{
if(m->scope != PUBLIC_SCOPE)
return;
- print_method(outh, "", "\t", "", "\t", ";\n", m, TRUE, FALSE);
+ print_method(outh, "", "\t", "", "\t", ";\n", m, TRUE, FALSE, TRUE);
}
/* I'm starting not to like this idea */
static void
-put_prot_method(Method *m)
+put_prot_method(const Method *m)
{
if(m->scope != PROTECTED_SCOPE)
return;
if(outph)
- print_method(outph, "", "\t", "", "\t", ";\n", m, FALSE, FALSE);
+ print_method(outph, "", "\t", "", "\t", ";\n",
+ m, FALSE, FALSE, TRUE);
else
- print_method(out, "", "\t", "", "\t", ";\n", m, FALSE, FALSE);
+ print_method(out, "", "\t", "", "\t", ";\n",
+ m, FALSE, FALSE, TRUE);
}
static void
if(m->cbuf)
print_method(out,
"static ", "___real_", "", " ", ";\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
}
+ /* no else, here, it might still have a private prototype, it's not
+ * exclusive */
- if(m->scope == PRIVATE_SCOPE ||
- m->method == INIT_METHOD ||
- m->method == CLASS_INIT_METHOD ||
- (m->method == OVERRIDE_METHOD &&
- m->cbuf))
+ if((m->method == OVERRIDE_METHOD &&
+ m->cbuf)) {
+ /* add unique ID */
+ char *s = g_strdup_printf("___%x_", (guint)m->unique_id);
+ print_method(out, "static ", s, "", " ",
+ no_gnu?";\n":" G_GNUC_UNUSED;\n",
+ m, FALSE, FALSE, FALSE);
+ g_free(s);
+ } else if(m->scope == PRIVATE_SCOPE ||
+ m->method == INIT_METHOD ||
+ m->method == CLASS_INIT_METHOD)
print_method(out, "static ", "", "", " ",
no_gnu?";\n":" G_GNUC_UNUSED;\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
}
static GList *
else
tn = g_strdup(typename);
- type = new_type(1, tn, NULL);
+ type = new_type(tn, g_strdup("*"), NULL);
node = new_funcarg((Type *)type, name, NULL);
return g_list_prepend(NULL, node);
}
Method *m = (Method *)n;
if(m->method == INIT_METHOD) {
if(got_init)
- print_error(FALSE, "init defined more then once", m->line_no);
+ error_print(GOB_ERROR, m->line_no, "init defined more then once");
got_init = TRUE;
} else if(m->method == CLASS_INIT_METHOD) {
if(got_class_init)
- print_error(FALSE, "class_init defined more then once", m->line_no);
+ error_print(GOB_ERROR, m->line_no, "class_init defined more then once");
got_class_init = TRUE;
}
}
}
if(!got_class_init) {
node = new_method(NO_SCOPE, CLASS_INIT_METHOD,
- (Type *)new_type(0, g_strdup("void"), NULL),
+ (Type *)new_type(g_strdup("void"),
+ NULL, NULL),
NULL, NULL, NULL, g_strdup("class_init"),
make_func_arg(cl->otype, TRUE, g_strdup("c")),
- NULL, NULL, NULL, 0, 0, FALSE);
+ NULL, NULL, NULL, 0, 0, FALSE,
+ method_unique_id++);
cl->nodes = g_list_prepend(cl->nodes, node);
}
if(!got_init) {
node = new_method(NO_SCOPE, INIT_METHOD,
- (Type *)new_type(0, g_strdup("void"), NULL),
+ (Type *)new_type(g_strdup("void"),
+ NULL, NULL),
NULL, NULL, NULL, g_strdup("init"),
make_func_arg(cl->otype, FALSE, g_strdup("o")),
- NULL, NULL, NULL, 0, 0, FALSE);
+ NULL, NULL, NULL, 0, 0, FALSE,
+ method_unique_id++);
cl->nodes = g_list_prepend(cl->nodes, node);
}
}
static void
-make_finalize(Class *cl)
+find_destroy(Class *cl)
{
- int got_finalize = FALSE;
GList *li;
- Node *node;
+
+ destroy_handler = NULL;
for(li=cl->nodes;li;li=g_list_next(li)) {
Node *n = li->data;
if(n->type == METHOD_NODE) {
Method *m = (Method *)n;
if(m->method == OVERRIDE_METHOD &&
- strcmp(m->id, "finalize")==0) {
- if(strcmp(m->otype, "Gtk:Object")==0) {
- got_finalize = TRUE;
- break;
+ strcmp(m->id, "destroy")==0) {
+ if(strcmp(m->otype, "Gtk:Object") != 0) {
+ error_print(GOB_ERROR, m->line_no,
+ "destroy method override "
+ "of class other then "
+ "Gtk:Object");
}
- print_error(FALSE, "finalize method override "
- "of class other then Gtk:Object",
- m->line_no);
+ if(g_list_length(m->args) != 1) {
+ error_print(GOB_ERROR, m->line_no,
+ "destroy method override "
+ "with more then one "
+ "parameter");
+ }
+ destroy_handler = m;
+ break;
}
}
}
- if(!got_finalize) {
- node = new_method(NO_SCOPE, OVERRIDE_METHOD,
- (Type *)new_type(0, g_strdup("void"), NULL),
- g_strdup("Gtk:Object"),
- NULL, NULL, g_strdup("finalize"),
- make_func_arg("Gtk:Object", FALSE, g_strdup("o")),
- NULL, NULL,
- g_strdup("PARENT_HANDLER (o);\n"),
- 0, 0, FALSE);
- cl->nodes = g_list_append(cl->nodes, node);
- overrides++;
+}
+
+static void
+find_finalize(Class *cl)
+{
+ GList *li;
+
+ finalize_handler = NULL;
+ for(li=cl->nodes;li;li=g_list_next(li)) {
+ Node *n = li->data;
+ if(n->type == METHOD_NODE) {
+ Method *m = (Method *)n;
+ if(m->method == OVERRIDE_METHOD &&
+ strcmp(m->id, "finalize")==0) {
+ if(strcmp(m->otype, "Gtk:Object") != 0 &&
+ strcmp(m->otype, "G:Object") != 0) {
+ error_print(GOB_ERROR, m->line_no,
+ "finalize method override "
+ "of class other then "
+ "Gtk:Object (or G:Object"
+ "for GTK+ 2.0)");
+ }
+ if(g_list_length(m->args) != 1) {
+ error_print(GOB_ERROR, m->line_no,
+ "finalize method override "
+ "with more then one "
+ "parameter");
+ }
+ finalize_handler = m;
+ break;
+ }
+ }
}
}
Method *m = (Method *)n;
if(m->method == SIGNAL_LAST_METHOD ||
m->method == SIGNAL_FIRST_METHOD) {
- char *s = g_strdup(m->id);
+ char *s = g_strdup(get_real_id(m->id));
g_strup(s);
out_printf(out, "\t%s_SIGNAL,\n", s);
g_free(s);
}
out_printf(out, "\tLAST_SIGNAL\n};\n\n");
}
- if(arguments>0) {
+ if(set_arguments > 0 || get_arguments > 0) {
out_printf(out, "enum {\n\tARG_0");
for(li=c->nodes;li;li=g_list_next(li)) {
Node *n = li->data;
static void
add_get_type(void)
{
- out_printf(out, "guint\n"
- "%s_get_type (void)\n"
- "{\n"
- "\tstatic guint type = 0;\n\n"
- "\tif (!type) {\n"
- "\t\tstatic const GtkTypeInfo info = {\n"
- "\t\t\t\"%s\",\n"
- "\t\t\tsizeof (%s),\n"
- "\t\t\tsizeof (%sClass),\n"
- "\t\t\t(GtkClassInitFunc) %s_class_init,\n"
- "\t\t\t(GtkObjectInitFunc) %s_init,\n"
- "\t\t\t/* reserved_1 */ NULL,\n"
- "\t\t\t/* reserved_2 */ NULL,\n"
- "\t\t\t(GtkClassInitFunc) NULL,\n"
- "\t\t};\n\n"
- "\t\ttype = gtk_type_unique (%s_get_type(), &info);\n"
- "\t}\n\n"
- "\treturn type;\n"
- "}\n\n",
- funcbase, typebase, typebase, typebase,
- funcbase, funcbase, pfuncbase);
+ char *chunk_size = ((Class*)class)->chunk_size;
+
+ out_printf(out,
+ "GtkType\n"
+ "%s_get_type (void)\n"
+ "{\n"
+ "\tstatic guint type = 0;\n\n"
+ "\tif ( ! type) {\n"
+ "\t\tstatic const GtkTypeInfo info = {\n"
+ "\t\t\t\"%s\",\n"
+ "\t\t\tsizeof (%s),\n"
+ "\t\t\tsizeof (%sClass),\n"
+ "\t\t\t(GtkClassInitFunc) %s_class_init,\n"
+ "\t\t\t(GtkObjectInitFunc) %s_init,\n"
+ "\t\t\t/* reserved_1 */ NULL,\n"
+ "\t\t\t/* reserved_2 */ NULL,\n"
+ "\t\t\t(GtkClassInitFunc) NULL\n"
+ "\t\t};\n\n"
+ "\t\ttype = gtk_type_unique (%s_get_type(), &info);\n",
+ funcbase, typebase, typebase, typebase,
+ funcbase, funcbase, pfuncbase);
+ if(chunk_size) {
+ out_printf(out,
+ "#if %s > 0\n"
+ "\t\tgtk_type_set_chunk_alloc(type, %s);\n"
+ "#endif\n",
+ chunk_size, chunk_size);
+ }
+ out_printf(out,
+ "\t}\n\n"
+ "\treturn type;\n"
+ "}\n\n");
}
static void
-add_overrides(Class *c, char *oname, gboolean did_gtk_obj)
+add_overrides(Class *c, const char *oname, gboolean did_base_obj)
{
GList *li;
GHashTable *done;
char *s;
done = g_hash_table_new(g_str_hash, g_str_equal);
- if(did_gtk_obj) {
+ if(did_base_obj) {
s = g_strdup("GtkObject"); /* This was already done */
g_hash_table_insert(done, s, s);
+ s = g_strdup("GObject"); /* This was probably already done as well (if using Gtk/Glib 1.3/2.0) */
+ g_hash_table_insert(done, s, s);
}
for(li=c->nodes; li; li=g_list_next(li)) {
Node *n = li->data;
if(n->type != METHOD_NODE ||
m->method != OVERRIDE_METHOD)
continue;
-
+
s = remove_sep(m->otype);
if(g_hash_table_lookup(done, s)) {
g_strdown(f);
out_printf(out, "\t%sClass *%s_class = (%sClass *)%s;\n",
- s, f, s, oname);
+ s, f, s, oname);
g_free(f);
}
break;
}
/* if we haven't found it in our list */
- if(!flags[i]) {
- char *s;
- s = g_strdup_printf("Unknown flag '%s' used, "
- "perhaps it was misspelled",
- flag);
- print_error(TRUE, s, m->line_no);
- g_free(s);
+ if( ! flags[i]) {
+ error_printf(GOB_WARN, m->line_no,
+ "Unknown flag '%s' used, "
+ "perhaps it was misspelled",
+ flag);
}
g_string_sprintfa(gs, " | GTK_RUN_%s", flag);
}
mar = g_strdup("gtk_signal_default_marshaller");
is_none = (strcmp(m->gtktypes->next->data, "NONE")==0);
-
- sig = g_strdup(m->id);
+
+ sig = g_strdup(get_real_id(m->id));
g_strup(sig);
flags = make_run_signal_flags(m, last);
out_printf(out, "\tobject_signals[%s_SIGNAL] =\n"
"\t\tgtk_signal_new (\"%s\",\n"
"\t\t\t(GtkSignalRunType)(%s),\n"
- "\t\t\tgtk_object_class->type,\n"
+ "\t\t\tGTK_CLASS_TYPE(gtk_object_class),\n"
"\t\t\tGTK_SIGNAL_OFFSET (%sClass, %s),\n"
"\t\t\t%s,\n"
"\t\t\tGTK_TYPE_%s, %d",
- sig, m->id,
+ sig, get_real_id(m->id),
flags,
- typebase, m->id, mar, (char *)m->gtktypes->data,
- is_none?0:g_list_length(m->gtktypes->next));
+ typebase, get_real_id(m->id), mar,
+ (char *)m->gtktypes->data,
+ is_none ? 0 : g_list_length(m->gtktypes->next));
g_free(mar);
g_free(sig);
g_free(flags);
- if(!is_none) {
+ if( ! is_none) {
GList *l;
- for(l=m->gtktypes->next;l;l=g_list_next(l))
+ for(l = m->gtktypes->next; l != NULL; l = l->next)
out_printf(out, ",\n\t\t\tGTK_TYPE_%s",
(char *)l->data);
}
out_printf(out, ");\n");
+
+ if(strcmp(m->gtktypes->data, "NONE") != 0 ||
+ ! is_none) {
+ GList *gl, *al;
+ char *sep = "";
+ out_printf(out, "\tif(");
+ if(strcmp(m->gtktypes->data, "NONE") != 0) {
+ out_printf(out, "%s sizeof(", sep);
+ print_type(out, m->mtype, FALSE);
+ out_printf(out, "%s",
+ m->mtype->postfix ?
+ m->mtype->postfix : "");
+ out_printf(out, ") != sizeof(%s)",
+ get_cast(m->gtktypes->data, FALSE));
+
+ sep = " || ";
+ }
+
+ for(al = m->args->next, gl = m->gtktypes->next;
+ al != NULL && gl != NULL;
+ al = al->next, gl = gl->next) {
+ FuncArg *arg = al->data;
+ char *gtkarg = gl->data;
+
+ out_printf(out, "%ssizeof(", sep);
+ print_type(out, arg->atype, FALSE);
+ out_printf(out, "%s",
+ arg->atype->postfix ?
+ arg->atype->postfix : "");
+ out_printf(out, ") != sizeof(%s)",
+ get_cast(gtkarg, FALSE));
+
+ sep = " || ";
+ }
+ out_printf(out, ") {\n"
+ "\t\tg_error(\"%s line %d: Type mismatch "
+ "of \\\"%s\\\" signal signature\");\n"
+ "\t}\n",
+ filename, m->line_no, get_real_id(m->id));
+
+ }
}
out_printf(out, "\tgtk_object_class_add_signals (gtk_object_class,\n"
"\t\tobject_signals, LAST_SIGNAL);\n\n");
}
static void
-set_def_handlers(Class *c, char *oname)
+set_def_handlers(Class *c, const char *oname)
{
GList *li;
gboolean set_line = FALSE;
out_printf(out, "\n");
- for(li=c->nodes;li;li=g_list_next(li)) {
+ for(li = c->nodes; li; li = g_list_next(li)) {
Node *n = li->data;
Method *m = (Method *)n;
+
if(n->type != METHOD_NODE ||
(m->method != SIGNAL_FIRST_METHOD &&
m->method != SIGNAL_LAST_METHOD &&
set_line = FALSE;
}
+
if(m->method == OVERRIDE_METHOD) {
char *s;
s = replace_sep(m->otype, '_');
g_strdown(s);
- if(m->cbuf)
- out_printf(out, "\t%s_class->%s = %s_%s;\n",
- s, m->id, funcbase, m->id);
+
+ if(need_destroy &&
+ destroy_handler &&
+ strcmp(get_real_id(m->id), "destroy") == 0)
+ out_printf(out, "\tgtk_object_class->destroy "
+ "= ___destroy;\n");
+ else if(need_finalize &&
+ finalize_handler &&
+ strcmp(get_real_id(m->id), "finalize") == 0)
+ out_printf(out,
+ "#ifdef G_OBJECT_CLASS\n"
+ "\tg_object_class->finalize = ___finalize;\n"
+ "#else /* !G_OBJECT_CLASS */\n"
+ "\tgtk_object_class->finalize = ___finalize;\n"
+ "#endif /* G_OBJECT_CLASS */\n");
+ else if(m->cbuf)
+ out_printf(out,
+ "\t%s_class->%s = ___%x_%s_%s;\n",
+ s, get_real_id(m->id), (guint)m->unique_id,
+ funcbase, get_real_id(m->id));
else
out_printf(out, "\t%s_class->%s = NULL;\n",
- s, m->id);
+ s, get_real_id(m->id));
} else {
if(m->cbuf)
out_printf(out, "\t%s->%s = ___real_%s_%s;\n",
- oname, m->id, funcbase, m->id);
+ oname, get_real_id(m->id),
+ funcbase, get_real_id(m->id));
else
out_printf(out, "\t%s->%s = NULL;\n",
- oname, m->id);
+ oname, get_real_id(m->id));
}
}
if(set_line)
flags = g_string_new("GTK_ARG_READABLE");
else
flags = g_string_new("GTK_ARG_WRITABLE");
+
+ g_assert(a->get || a->set);
for(l=a->flags;l;l=g_list_next(l)) {
char *flag = l->data;
if(strcmp(flag, "READWRITE")==0 ||
strcmp(flag, "READABLE")==0 ||
strcmp(flag, "WRITABLE")==0) {
- print_error(TRUE, "READWRITE, READABLE and "
+ error_print(GOB_WARN, a->line_no,
+ "READWRITE, READABLE and "
"WRITABLE argument flags are "
- "set automatically", a->line_no);
+ "set automatically");
continue;
}
- for(i=0;argflags[i];i++) {
+ for(i = 0; argflags[i]; i++) {
if(strcmp(argflags[i], flag)==0)
break;
}
/* if we haven't found it in our list */
- if(!argflags[i]) {
- char *s;
- s = g_strdup_printf("Unknown flag '%s' used, "
- "perhaps it was misspelled",
- flag);
- print_error(TRUE, s, a->line_no);
- g_free(s);
+ if( ! argflags[i]) {
+ error_printf(GOB_WARN, a->line_no,
+ "Unknown flag '%s' used, "
+ "perhaps it was misspelled", flag);
}
g_string_sprintfa(flags, " | GTK_ARG_%s", flag);
}
g_string_free(flags, TRUE);
}
- out_printf(out,
- "\n\tgtk_object_class->set_arg = ___object_set_arg;\n"
- "\tgtk_object_class->get_arg = ___object_get_arg;\n");
+ out_printf(out, "\n");
+ if(get_arguments > 0)
+ out_printf(out, "\tgtk_object_class->get_arg = ___object_get_arg;\n");
+ if(set_arguments > 0)
+ out_printf(out, "\tgtk_object_class->set_arg = ___object_set_arg;\n");
}
static void
g_free(root);
}
+static void
+print_destructor(Variable *v)
+{
+ char *root;
+
+ if(v->destructor == NULL)
+ return;
+
+ if(v->scope == PRIVATE_SCOPE)
+ root = "self->_priv";
+ else
+ root = "self";
+
+ if(v->destructor_simple) {
+ if(v->destructor_line > 0)
+ out_addline_infile(out, v->destructor_line);
+
+ out_printf(out, "\tif(%s->%s) { "
+ "((*(void (*)(void *))%s)) (%s->%s); "
+ "%s->%s = NULL; }\n",
+ root, v->id, v->destructor, root, v->id,
+ root, v->id);
+
+ if(v->destructor_line > 0)
+ out_addline_outfile(out);
+ } else {
+ out_printf(out, "#define VAR (%s->%s)\n", root, v->id);
+ out_printf(out, "\t{\n");
+ if(v->destructor_line > 0)
+ out_addline_infile(out, v->destructor_line);
+
+ out_printf(out, "\t%s}\n", v->destructor);
+
+ if(v->destructor_line > 0)
+ out_addline_outfile(out);
+ out_printf(out, "\tmemset(&VAR, 0, sizeof(VAR));\n");
+ out_printf(out, "#undef VAR\n");
+ }
+}
+
+static void
+add_destroy(Class *c)
+{
+ out_printf(out, "\nstatic void\n"
+ "___destroy(GtkObject *obj_self)\n"
+ "{\n");
+ out_printf(out,
+ "#define __GOB_FUNCTION__ \"%s::destroy\"\n",
+ c->otype);
+
+ if(destructors > 0) {
+ out_printf(out, "\t%s *self = %s (obj_self);\n",
+ typebase, macrobase);
+ }
+
+ if(destroy_handler) {
+ /* so we get possible bad argument warning */
+ if(destroy_handler->line_no > 0)
+ out_addline_infile(out, destroy_handler->line_no);
+ out_printf(out, "\t___%x_%s_destroy(obj_self);\n",
+ (guint)destroy_handler->unique_id, funcbase);
+ if(destroy_handler->line_no > 0)
+ out_addline_outfile(out);
+ } else {
+ out_printf(out,
+ "\tif(GTK_OBJECT_CLASS(parent_class)->destroy) \\\n"
+ "\t\t(* GTK_OBJECT_CLASS(parent_class)->destroy)(obj_self);\n");
+ }
+
+ if(destructors > 0) {
+ GList *li;
+ for(li = ((Class *)class)->nodes;
+ li != NULL;
+ li = li->next) {
+ Node *n = li->data;
+ Variable *v = (Variable *)n;
+ if(n->type == VARIABLE_NODE &&
+ v->scope != CLASS_SCOPE)
+ print_destructor(v);
+ }
+ }
+
+ out_printf(out, "\treturn;\n");
+ if(destructors > 0)
+ out_printf(out, "\tself = NULL;\n");
+ out_printf(out, "}\n"
+ "#undef __GOB_FUNCTION__\n\n");
+}
+
+static void
+add_finalize(Class *c)
+{
+ /* Sort of a hack to make it work with gtk+ 1.3/2.0 */
+ out_printf(out,
+ "\n#ifdef G_OBJECT_CLASS\n"
+ "static void\n"
+ "___finalize(GObject *obj_self)\n"
+ "#else /* !G_OBJECT_CLASS */\n"
+ "static void\n"
+ "___finalize(GtkObject *obj_self)\n"
+ "#endif /* G_OBJECT_CLASS */\n"
+ "{\n");
+ out_printf(out,
+ "#define __GOB_FUNCTION__ \"%s::finalize\"\n",
+ c->otype);
+
+ if(privates > 0) {
+ out_printf(out, "\t%s *self = %s (obj_self);\n",
+ typebase, macrobase);
+ out_printf(out, "\tgpointer priv = self->_priv;\n");
+ }
+
+ if(finalize_handler) {
+ /* so we get possible bad argument warning */
+ if(finalize_handler->line_no > 0)
+ out_addline_infile(out, finalize_handler->line_no);
+ out_printf(out, "\t___%x_%s_finalize(obj_self);\n",
+ (guint)finalize_handler->unique_id, funcbase);
+ if(finalize_handler->line_no > 0)
+ out_addline_outfile(out);
+ } else {
+ /* Sort of a hack to make it work with gtk+ 1.3/2.0 */
+ out_printf(out,
+ "#ifdef G_OBJECT_CLASS\n"
+ "\tif(G_OBJECT_CLASS(parent_class)->finalize) \\\n"
+ "\t\t(* G_OBJECT_CLASS(parent_class)->finalize)(obj_self);\n"
+ "#else /* !G_OBJECT_CLASS */\n"
+ "\tif(GTK_OBJECT_CLASS(parent_class)->finalize) \\\n"
+ "\t\t(* GTK_OBJECT_CLASS(parent_class)->finalize)(obj_self);\n"
+ "#endif /* G_OBJECT_CLASS */\n");
+ }
+
+ if(privates > 0) {
+ out_printf(out, "\tg_free(priv);\n");
+ }
+
+ out_printf(out, "}\n"
+ "#undef __GOB_FUNCTION__\n\n");
+}
+
static void
add_inits(Class *c)
{
for(li=c->nodes;li;li=g_list_next(li)) {
Node *n = li->data;
Method *m;
+
+ gboolean add_unused_class = FALSE;
+
if(n->type != METHOD_NODE)
continue;
m = (Method *)n;
if(m->line_no > 0)
out_addline_infile(out, m->line_no);
print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
if(m->line_no > 0)
out_addline_outfile(out);
- out_printf(out, "{\n");
+ out_printf(out, "{\n"
+ "#define __GOB_FUNCTION__ \"%s::init\"\n",
+ c->otype);
if(privates > 0) {
out_printf(out, "\t%s->_priv = "
"g_new0 (%sPrivate, 1);\n",
((FuncArg *)m->args->data)->name,
typebase);
+ } else if(always_private_struct) {
+ out_printf(out, "\t%s->_priv = NULL;\n",
+ ((FuncArg *)m->args->data)->name);
}
if(initializers > 0) {
GList *li;
}
}
} else if(m->method == CLASS_INIT_METHOD) {
+ gboolean did_base_obj = FALSE;
+
if(m->line_no > 0)
out_addline_infile(out, m->line_no);
print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
if(m->line_no > 0)
out_addline_outfile(out);
- out_printf(out, "{\n");
- if(signals>0 ||
- arguments>0)
+ out_printf(out, "{\n"
+ "#define __GOB_FUNCTION__ \"%s::class_init\"\n",
+ c->otype);
+ if(signals > 0 ||
+ set_arguments > 0 ||
+ get_arguments > 0 ||
+ need_destroy ||
+ need_finalize) {
+ add_unused_class = TRUE;
out_printf(out,
"\tGtkObjectClass *"
"gtk_object_class = "
"(GtkObjectClass*) %s;\n",
((FuncArg *)m->args->data)->name);
+ out_printf(out,
+ "#ifdef G_OBJECT_CLASS\n"
+ "\tGObjectClass *"
+ "g_object_class = "
+ "(GObjectClass*) %s;\n"
+ "#endif /* G_OBJECT_CLASS */\n",
+ ((FuncArg *)m->args->data)->name);
+ did_base_obj = TRUE;
+ }
- if(overrides>0)
+ if(overrides > 0)
add_overrides(c,
((FuncArg *)m->args->data)->name,
- (signals>0 || arguments>0));
+ did_base_obj);
if(initializers > 0) {
GList *li;
li = li->next) {
Node *n = li->data;
Variable *v = (Variable *)n;
- if(n->type != VARIABLE_NODE ||
- v->scope != CLASS_SCOPE)
- continue;
- print_initializer(m, v);
+ if(n->type == VARIABLE_NODE &&
+ v->scope == CLASS_SCOPE)
+ print_initializer(m, v);
}
}
out_printf(out, "gtk_type_class (%s_get_type ());\n",
pfuncbase);
- if(signals>0)
+ if(signals > 0)
add_signals(c);
set_def_handlers(c, ((FuncArg *)m->args->data)->name);
+
+ /* if there are no handlers for these things, we
+ * need to set them up here */
+ if(need_destroy && !destroy_handler)
+ out_printf(out, "\tgtk_object_class->destroy "
+ "= ___destroy;\n");
+ if(need_finalize && !finalize_handler)
+ out_printf(out,
+ "#ifdef G_OBJECT_CLASS\n"
+ "\tg_object_class->finalize = ___finalize;\n"
+ "#else /* !G_OBJECT_CLASS */\n"
+ "\tgtk_object_class->finalize = ___finalize;\n"
+ "#endif /* G_OBJECT_CLASS */\n");
- if(arguments>0)
+ if(get_arguments > 0 || set_arguments > 0)
make_arguments(c);
} else
out_printf(out, "%s\n", m->cbuf);
out_addline_outfile(out);
out_printf(out, " }\n");
- } else {
- out_printf(out, "return;\n");
}
- out_printf(out, "}\n");
+ out_printf(out, "\treturn;\n");
+ out_printf(out,
+ "\t%s = NULL;\n",
+ ((FuncArg *)m->args->data)->name);
+ if(add_unused_class) {
+ out_printf(out,
+ "\tgtk_object_class = NULL;\n"
+ "#ifdef G_OBJECT_CLASS\n"
+ "\tg_object_class = NULL;\n"
+ "#endif /* G_OBJECT_CLASS */\n");
+ }
+ out_printf(out, "}\n"
+ "#undef __GOB_FUNCTION__\n");
}
}
"___object_%s_arg (GtkObject *object,\n"
"\tGtkArg *arg,\n"
"\tguint arg_id)\n"
+ "#define __GOB_FUNCTION__ \"%s::%s_arg\"\n"
"{\n"
"\t%s *self;\n\n"
"\tself = %s (object);\n\n"
"\tswitch (arg_id) {\n",
- is_set?"set":"get", typebase, macrobase);
+ is_set ? "set" : "get",
+ c->otype, is_set ? "set" : "get",
+ typebase, macrobase);
for(li=c->nodes;li;li=g_list_next(li)) {
Node *n = li->data;
"((%s)GTK_VALUE_%s(*arg))\n",
cast, a->gtktype);
} else {
- out_printf(out, "#ifdef __GNUC__\n");
+ out_printf(out, "#if defined(__GNUC__) && !defined(__STRICT_ANSI__)\n");
if(strcmp(a->gtktype, "OBJECT")==0) {
out_printf(out, "#define ARG "
"({%s foo = "
"foo; })\n",
cast, a->gtktype);
}
- out_printf(out, "#else /* __GNUC__ */\n");
+ out_printf(out, "#else /* __GNUC__ && !__STRICT_ANSI__ */\n");
out_printf(out, "#define ARG "
"((%s)GTK_VALUE_%s(*arg))\n",
cast, a->gtktype);
- out_printf(out, "#endif /* __GNUC__ */\n\n");
+ out_printf(out, "#endif /* __GNUC__ && !__STRICT_ANSI__ */\n\n");
}
out_printf(out, "\t\t{\n");
g_free(cast);
out_printf(out, "\t\t}\n\t\tbreak;\n"
"#undef ARG\n");
}
- out_printf(out, "\tdefault:\n\t\tbreak;\n\t}\n}\n");
+ out_printf(out, "\tdefault:\n\t\tbreak;\n\t}\n"
+ "\treturn;\n\tself = NULL;\n\targ = NULL;\n}\n"
+ "#undef __GOB_FUNCTION__\n");
}
static void
gboolean is_void;
gboolean checked_null = FALSE;
is_void = (strcmp(m->mtype->name, "void")==0 &&
- m->mtype->stars == 0);
+ m->mtype->pointer == NULL);
- for(li=fa->checks;li;li=g_list_next(li)) {
+ for(li = fa->checks; li; li = g_list_next(li)) {
Check *ch = li->data;
char *s;
/* point to the method prot in .gob for failed checks */
out_addline_outfile(out);
}
-static void
-print_destructor(char *self_id, Variable *v)
-{
- char *root;
-
- if(v->destructor == NULL)
- return;
-
- if(v->scope == PRIVATE_SCOPE)
- root = g_strconcat(self_id, "->_priv", NULL);
- else
- root = g_strdup(self_id);
-
- if(v->destructor_simple) {
- if(v->destructor_line > 0)
- out_addline_infile(out, v->destructor_line);
-
- out_printf(out, "\tif(%s->%s) "
- "((*(void (*)(void *))%s)) (%s->%s);\n",
- root, v->id, v->destructor, root, v->id);
-
- if(v->destructor_line > 0)
- out_addline_outfile(out);
- } else {
- out_printf(out, "#define VAR (%s->%s)\n", root, v->id);
- out_printf(out, "\t{\n\t%s *self G_GNUC_UNUSED = %s;\n",
- typebase, self_id);
- if(v->destructor_line > 0)
- out_addline_infile(out, v->destructor_line);
-
- out_printf(out, "\t%s}\n", v->destructor);
-
- if(v->destructor_line > 0)
- out_addline_outfile(out);
- out_printf(out, "#undef VAR\n");
- }
-
- g_free(root);
-}
-
-/* put in code if it's needed */
-static void
-put_in_gen_code(Method *m)
-{
- if(m->method == OVERRIDE_METHOD &&
- strcmp(m->id, "finalize")==0) {
- if(privates > 0 || destructors > 0) {
- out_printf(out, "\t%s *___self = %s (%s);\n",
- typebase, macrobase,
- ((FuncArg *)m->args->data)->name);
- }
- if(destructors > 0) {
- GList *li;
- for(li = ((Class *)class)->nodes;
- li != NULL;
- li = li->next) {
- Node *n = li->data;
- Variable *v = (Variable *)n;
- if(n->type == VARIABLE_NODE &&
- v->scope != CLASS_SCOPE)
- print_destructor("___self", v);
- }
- }
- if(privates > 0) {
- out_printf(out, "\tg_free (___self->_priv);\n"
- "\t___self->_priv = NULL;\n",
- macrobase,
- ((FuncArg *)m->args->data)->name,
- macrobase,
- ((FuncArg *)m->args->data)->name);
- }
- }
-}
-
static void
print_method_body(Method *m, int pre)
{
- out_printf(out, "{\n");
+ out_printf(out, "{\n"
+ "#define __GOB_FUNCTION__ \"%s::%s\"\n",
+ ((Class *)class)->otype,
+ get_real_id(m->id));
if(pre)
print_preconditions(m);
- put_in_gen_code(m);
-
/* Note: the trailing }'s are on one line, this is so
that we get the no return warning correctly and point to
the correct line in the .gob file, yes this is slightly
out_printf(out, "\t%s}", m->cbuf);
}
+ /* Note, there is no \n between the last } and this } so that
+ * errors/warnings reported on the end of the body get pointed to the
+ * right line in the .gob source */
out_printf(out, "}\n");
if(m->cbuf)
out_addline_outfile(out);
+ out_printf(out, "#undef __GOB_FUNCTION__\n");
}
static void
char *s, *args, *doc;
gboolean is_void;
is_void = (strcmp(m->mtype->name, "void")==0 &&
- m->mtype->stars == 0);
+ m->mtype->pointer == NULL);
out_printf(out, "\n");
- doc = get_gtk_doc(m->id);
- if(doc) {
- out_printf(out, "%s", doc);
- g_free(doc);
+ if(m->method != OVERRIDE_METHOD) {
+ doc = get_gtk_doc(m->id);
+ if(doc) {
+ out_printf(out, "%s", doc);
+ g_free(doc);
+ }
}
switch(m->method) {
case REGULAR_METHOD:
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
if(m->scope == PRIVATE_SCOPE)
print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
else /* PUBLIC, PROTECTED */
print_method(out, "", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
print_method_body(m, TRUE);
+ /* the outfile line was added above */
break;
case SIGNAL_FIRST_METHOD:
case SIGNAL_LAST_METHOD:
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
if(m->scope == PRIVATE_SCOPE)
print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
else /* PUBLIC, PROTECTED */
- print_method(out, "", "\n", "", " ", "\n", m, FALSE, FALSE);
+ print_method(out, "", "\n", "", " ", "\n",
+ m, FALSE, FALSE, TRUE);
out_addline_outfile(out);
out_printf(out, "{\n");
- s = g_strdup(m->id);
+ s = g_strdup(get_real_id(m->id));
g_strup(s);
- if(strcmp(m->mtype->name, "void")==0 &&
- m->mtype->stars==0) {
+ if(strcmp(m->mtype->name, "void") == 0 &&
+ m->mtype->pointer == NULL) {
print_preconditions(m);
if(((FuncArg *)m->args->data)->name)
out_printf(out, "\tgtk_signal_emit (GTK_OBJECT (%s),\n"
if(!m->cbuf)
break;
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
print_method(out, "static ", "\n___real_", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
print_method_body(m, FALSE);
+ /* the outfile line was added above */
break;
case VIRTUAL_METHOD:
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
if(m->scope==PRIVATE_SCOPE)
print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
else /* PUBLIC, PROTECTED */
- print_method(out, "", "\n", "", " ", "\n", m, FALSE, FALSE);
+ print_method(out, "", "\n", "", " ", "\n",
+ m, FALSE, FALSE, TRUE);
out_addline_outfile(out);
out_printf(out, "{\n"
"\t%sClass *klass;\n", typebase);
print_preconditions(m);
- out_printf(out, "\tklass = %s_CLASS(GTK_OBJECT(%s)->klass);\n\n"
+ out_printf(out, "\tklass = %s_GET_CLASS(%s);\n\n"
"\tif(klass->%s)\n",
- macrobase, ((FuncArg *)m->args->data)->name, m->id);
- if(strcmp(m->mtype->name, "void")==0 &&
- m->mtype->stars==0) {
+ macrobase, ((FuncArg *)m->args->data)->name,
+ get_real_id(m->id));
+ if(strcmp(m->mtype->name, "void") == 0 &&
+ m->mtype->pointer == NULL) {
GList *li;
- out_printf(out, "\t\t(*klass->%s)(%s", m->id,
+ out_printf(out, "\t\t(*klass->%s)(%s",
+ get_real_id(m->id),
((FuncArg *)m->args->data)->name);
for(li=m->args->next;li;li=g_list_next(li)) {
FuncArg *fa = li->data;
out_printf(out, ");\n}\n");
} else {
GList *li;
- out_printf(out, "\t\treturn (*klass->%s)(%s", m->id,
+ out_printf(out, "\t\treturn (*klass->%s)(%s",
+ get_real_id(m->id),
((FuncArg *)m->args->data)->name);
for(li=m->args->next;li;li=g_list_next(li)) {
FuncArg *fa = li->data;
if(!m->cbuf)
break;
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
print_method(out, "static ", "\n___real_", "", " ", "\n",
- m, FALSE, FALSE);
+ m, FALSE, FALSE, TRUE);
print_method_body(m, FALSE);
+ /* the outfile line was added above */
break;
case OVERRIDE_METHOD:
if(!m->cbuf)
break;
- if(m->line_no>0)
+ if(m->line_no > 0)
out_addline_infile(out, m->line_no);
- print_method(out, "static ", "\n", "", " ", "\n",
- m, FALSE, FALSE);
+ s = g_strdup_printf("\n___%x_", (guint)m->unique_id);
+ print_method(out, "static ", s, "", " ", "\n",
+ m, FALSE, FALSE, FALSE);
+ g_free(s);
+ out_addline_outfile(out);
s = replace_sep(m->otype, '_');
g_strup(s);
args = get_arg_names_for_macro(m);
out_printf(out, "#define PARENT_HANDLER(%s) \\\n"
"\t{ if(%s_CLASS(parent_class)->%s) \\\n"
"\t\t(* %s_CLASS(parent_class)->%s)(%s); }\n",
- args, s, m->id, s, m->id, args);
+ args, s, get_real_id(m->id), s, get_real_id(m->id), args);
} else {
out_printf(out, "#define PARENT_HANDLER(%s) \\\n"
"\t((%s_CLASS(parent_class)->%s)? \\\n"
"\t\t(* %s_CLASS(parent_class)->%s)(%s): \\\n"
"\t\t(",
- args, s, m->id, s, m->id, args);
+ args, s, get_real_id(m->id), s, get_real_id(m->id), args);
out_printf(out, "(");
print_type(out, m->mtype, TRUE);
out_printf(out, ")%s))\n",
g_free(args);
g_free(s);
print_method_body(m, TRUE);
+ /* the outfile line was added above */
out_printf(out, "#undef PARENT_HANDLER\n");
break;
default:
if((privates > 0 || protecteds > 0 ||
private_header == PRIVATE_HEADER_ALWAYS) &&
- !private_header != PRIVATE_HEADER_NEVER)
+ private_header != PRIVATE_HEADER_NEVER)
outfileph = g_strconcat(filebase, "-private.h", NULL);
else
outfileph = NULL;
{
GList *li;
- if(arguments<0)
+ if(get_arguments < 0 && set_arguments < 0)
return;
for(li=c->nodes;li;li=g_list_next(li)) {
{
GList *li;
- if(arguments<0)
+ if(get_arguments < 0 && set_arguments < 0)
return;
for(li=c->nodes;li;li=g_list_next(li)) {
"(%s_get_type())\n",
macrotype, funcbase);
out_printf(outh, "#define %s(obj)\t"
- "GTK_CHECK_CAST((obj), %s_get_type(),%s)\n",
+ "GTK_CHECK_CAST((obj), %s_get_type(), %s)\n",
macrobase, funcbase, typebase);
+ out_printf(outh, "#define %s_CONST(obj)\t"
+ "GTK_CHECK_CAST((obj), %s_get_type(), %s const)\n",
+ macrobase, funcbase, typebase);
out_printf(outh, "#define %s_CLASS(klass)\t"
- "GTK_CHECK_CLASS_CAST((klass),%s_get_type(),%sClass)\n",
+ "GTK_CHECK_CLASS_CAST((klass), %s_get_type(), %sClass)\n",
macrobase, funcbase, typebase);
out_printf(outh, "#define %s(obj)\t"
- "GTK_CHECK_TYPE((obj),%s_get_type ())\n\n",
+ "GTK_CHECK_TYPE((obj), %s_get_type ())\n\n",
macrois, funcbase);
+ out_printf(outh, "#ifdef GTK_CHECK_GET_CLASS\n"
+ "#define %s_GET_CLASS(obj)\t"
+ "GTK_CHECK_GET_CLASS((obj), %s_get_type(), %sClass)\n",
+ macrobase, funcbase, typebase);
+ out_printf(outh, "#else /* !GTK_CHECK_GET_CLASS */\n"
+ "#define %s_GET_CLASS(obj)\t"
+ "((%sClass *)GTK_OBJECT(obj)->klass)\n"
+ "#endif /* GTK_CHECK_GET_CLASS */\n",
+ macrobase, typebase);
+
+ if( ! no_self_alias) {
+ out_printf(out, "/* self casting macros */\n");
+ out_printf(out, "#define SELF(x) %s(x)\n", macrobase);
+ out_printf(out, "#define SELF_CONST(x) %s_CONST(x)\n", macrobase);
+ out_printf(out, "#define IS_SELF(x) %s(x)\n", macrois);
+ out_printf(out, "#define SELF_CLASS(x) %s_CLASS(x)\n\n",
+ macrobase);
+ out_printf(out, "#define SELF_GET_CLASS(x) %s_GET_CLASS(x)\n\n",
+ macrobase);
+
+ out_printf(out, "/* self typedefs */\n");
+ out_printf(out, "typedef %s Self;\n", typebase);
+ out_printf(out, "typedef %sClass SelfClass;\n\n", typebase);
+ }
+
+ out_printf(out, "/* GTK_CLASS_TYPE for 1.2<->1.3/2.0 GTK+ compatibility */\n");
+ out_printf(out,
+ "#ifndef GTK_CLASS_TYPE\n"
+ "#define GTK_CLASS_TYPE(x) (GTK_OBJECT_CLASS(x)->type)\n"
+ "#endif /* GTK_CLASS_TYPE */\n\n");
- out_printf(out, "/* self casting macros */\n");
- out_printf(out, "#define SELF(x) %s(x)\n", macrobase);
- out_printf(out, "#define IS_SELF(x) %s(x)\n", macrois);
- out_printf(out, "#define SELF_CLASS(x) %s_CLASS(x)\n\n", macrobase);
-
- if(privates>0) {
+ if(privates > 0 || always_private_struct) {
out_printf(outh, "\n/* Private structure type */\n");
out_printf(outh, "typedef struct _%sPrivate %sPrivate;\n",
typebase, typebase);
+ if(privates == 0)
+ out_printf(outh, "/* There are no privates, this "
+ "structure is thus never defined */\n");
}
out_printf(outh, "\n/*\n"
"#endif\n", typebase, typebase);
out_printf(outh, "struct _%s {\n\t%s __parent__;\n",
typebase, ptypebase);
- for(l=c->nodes;l;l=g_list_next(l)) {
+ for(l=c->nodes; l; l=g_list_next(l)) {
static gboolean printed_public = FALSE;
Node *n = l->data;
Variable *v = (Variable *)n;
if(n->type == VARIABLE_NODE &&
v->scope == PUBLIC_SCOPE) {
- if(!printed_public) {
+ if( ! printed_public) {
out_printf(outh, "\t/*< public >*/\n");
printed_public = TRUE;
}
}
}
/* put protecteds always AFTER publics */
- for(l=c->nodes;l;l=g_list_next(l)) {
+ for(l=c->nodes; l; l=g_list_next(l)) {
Node *n = l->data;
Variable *v = (Variable *)n;
if(n->type == VARIABLE_NODE &&
v->scope == PROTECTED_SCOPE) {
- if(!printed_private) {
+ if( ! printed_private) {
out_printf(outh, "\t/*< private >*/\n");
printed_private = TRUE;
}
put_variable((Variable *)n, outh);
}
}
- if(privates>0) {
- if(!printed_private)
+ if(privates > 0 || always_private_struct) {
+ if( ! printed_private)
out_printf(outh, "\t/*< private >*/\n");
out_printf(outh, "\t%sPrivate *_priv;\n", typebase);
}
out_printf(outh, "};\n");
- if(privates>0) {
+ if(privates > 0) {
FILE *outfp;
/* if we are to stick this into the private
out_printf(outfp, "struct _%sPrivate {\n",
typebase);
- for(l=c->nodes;l;l=l->next) {
+ for(l=c->nodes; l; l=l->next) {
Node *n = l->data;
Variable *v = (Variable *)n;
if(n->type == VARIABLE_NODE &&
out_printf(outh,
"struct _%sClass {\n\t%sClass __parent__;\n",
typebase, ptypebase);
- for(l=c->nodes;l;l=g_list_next(l)) {
+ for(l = c->nodes; l != NULL; l = l->next) {
Node *n = l->data;
if(n->type == METHOD_NODE)
put_vs_method((Method *)n);
}
/* put class scope variables */
- for(l=c->nodes;l;l=g_list_next(l)) {
+ for(l = c->nodes; l != NULL; l = l->next) {
Node *n = l->data;
Variable *v = (Variable *)n;
if(n->type == VARIABLE_NODE &&
out_printf(outh, "};\n\n");
out_printf(out, "/* here are local prototypes */\n");
- if(arguments>0) {
+ if(set_arguments > 0) {
out_printf(out, "static void ___object_set_arg "
"(GtkObject *object, GtkArg *arg, "
- "guint arg_id);\n"
- "static void ___object_get_arg "
+ "guint arg_id);\n");
+ }
+ if(get_arguments > 0) {
+ out_printf(out, "static void ___object_get_arg "
"(GtkObject *object, GtkArg *arg, "
"guint arg_id);\n");
}
" * Public methods\n"
" */\n");
- out_printf(outh, "guint\t%s_get_type\t(void);\n", funcbase);
- for(l=c->nodes;l;l=g_list_next(l)) {
+ out_printf(outh, "GtkType\t%s_get_type\t(void)", funcbase);
+ if ( ! no_gnu) {
+ out_printf(outh, " G_GNUC_CONST;\n");
+ } else {
+ out_printf(outh, ";\n");
+ }
+
+ for(l = c->nodes; l != NULL; l = l->next) {
Node *n = l->data;
if(n->type == METHOD_NODE) {
put_pub_method((Method *)n);
/* argument wrapping macros */
- if(arguments>0 && !no_gnu) {
- out_printf(outh, "\n/*\n"
- " * Argument wrapping macros\n"
- " */\n");
- out_printf(outh, "#ifdef __GNUC__\n");
- put_argument_gnu_wrappers(c);
- out_printf(outh, "#else /* __GNUC__ */\n");
- put_argument_nongnu_wrappers(c);
- out_printf(outh, "#endif /* __GNUC__ */\n\n");
- } else if(arguments>0 && no_gnu) {
- out_printf(outh, "\n/*\n"
- " * Argument wrapping macros\n"
- " */\n");
- put_argument_nongnu_wrappers(c);
+ if(get_arguments > 0 || set_arguments > 0) {
+ if( ! no_gnu) {
+ out_printf(outh, "\n/*\n"
+ " * Argument wrapping macros\n"
+ " */\n");
+ out_printf(outh, "#if defined(__GNUC__) && !defined(__STRICT_ANSI__)\n");
+ put_argument_gnu_wrappers(c);
+ out_printf(outh, "#else /* __GNUC__ && !__STRICT_ANSI__ */\n");
+ put_argument_nongnu_wrappers(c);
+ out_printf(outh, "#endif /* __GNUC__ && !__STRICT_ANSI__ */\n\n");
+ } else {
+ out_printf(outh, "\n/*\n"
+ " * Argument wrapping macros\n"
+ " */\n");
+ put_argument_nongnu_wrappers(c);
+ }
}
- if(signals>0) {
- for(l=c->nodes;l;l=g_list_next(l)) {
+ if(signals > 0) {
+ for(l = c->nodes; l != NULL; l = l->next) {
Node *n = l->data;
if(n->type == METHOD_NODE)
add_signal_prots((Method *)n);
add_get_type();
if(any_method_to_alias(c)) {
- if(no_gnu)
- make_method_nongnu_aliases(c);
- else {
- out_printf(out, "\n#ifdef __GNUC__\n");
+ if( ! no_gnu) {
+ out_printf(out, "/* Short form macros */\n");
+ out_printf(out, "#if defined(__GNUC__) && !defined(__STRICT_ANSI__)\n");
make_method_gnu_aliases(c);
- out_printf(out, "#else /* __GNUC__ */\n");
- make_method_nongnu_aliases(c);
- out_printf(out, "#endif /* __GNUC__ */\n\n");
+ out_printf(out, "#endif /* __GNUC__ && !__STRICT_ANSI__ */\n");
}
+ make_method_nongnu_aliases(c);
}
out_printf(out, "/* a macro for creating a new object of our type */\n");
"#define GET_NEW ((%s *)gtk_type_new(%s_get_type()))\n\n",
typebase, funcbase);
+ if(need_destroy)
+ add_destroy(c);
+
+ if(need_finalize)
+ add_finalize(c);
+
add_inits(c);
- if(arguments>0) {
+ if(set_arguments > 0) {
add_getset_arg(c, TRUE);
+ }
+
+ if(get_arguments > 0) {
add_getset_arg(c, FALSE);
}
- for(l=c->nodes;l;l=g_list_next(l)) {
+ for(l = c->nodes; l != NULL; l = l->next) {
Node *n = l->data;
if(n->type == METHOD_NODE)
put_method((Method *)n);
out_printf(out, "/* Generated by GOB (v%s) on %s"
" (do not edit directly) */\n\n",
VERSION, ctime(&curtime));
+
+ out_printf(out, "/* End world hunger, donate to the World Food Programme, http://www.wfp.org */\n\n");
}
static void
gboolean found_header;
char *p;
+ /* We may need string.h for memset */
+ if(destructors > 0 &&
+ ! g_list_find_custom(include_files, "string.h", (GCompareFunc)strcmp)) {
+ out_printf(out, "#include <string.h> /* memset() */\n\n");
+ }
+
p = g_strconcat(filebase, ".h", NULL);
found_header = TRUE;
- if(!g_list_find_custom(include_files, p, (GCompareFunc)strcmp)) {
+ if( ! g_list_find_custom(include_files, p, (GCompareFunc)strcmp)) {
out_printf(out, "#include \"%s.h\"\n\n", filebase);
found_header = FALSE;
}
/* if we are creating a private header see if it was included */
if(outph) {
p = g_strconcat(filebase, "-private.h", NULL);
- if(!g_list_find_custom(include_files, p, (GCompareFunc)strcmp)) {
+ if( ! g_list_find_custom(include_files, p,
+ (GCompareFunc)strcmp)) {
out_printf(out, "#include \"%s-private.h\"\n\n",
filebase);
if(found_header)
- print_error(TRUE,
+ error_printf(GOB_WARN, 0,
"Implicit private header include "
"added to top of\n"
"\tsource file, while public "
"you should\n"
"\texplicitly include "
"the private header below the "
- "public one.", 0);
+ "public one.");
}
g_free(p);
}
"#include \"%s.h\"\n\n", p, p, filebase);
g_free(p);
- if(!no_extern_c) {
+ if( ! no_extern_c) {
out_printf(outh, "#ifdef __cplusplus\n"
"extern \"C\" {\n"
"#endif /* __cplusplus */\n\n");
static void
print_header_postfixes(void)
{
- if(!no_extern_c)
+ if( ! no_extern_c)
out_printf(outh, "\n#ifdef __cplusplus\n"
"}\n"
"#endif /* __cplusplus */\n");
out_printf(outh, "\n#endif\n");
if(outph) {
- if(!no_extern_c)
+ if( ! no_extern_c)
out_printf(outph, "\n#ifdef __cplusplus\n"
"}\n"
"#endif /* __cplusplus */\n");
GList *li;
/* print the AT_CCODE blocks */
- for(li=nodes;li;li=g_list_next(li)) {
+ for(li = nodes; li != NULL; li = li->next) {
Node *node = li->data;
if(node->type == CCODE_NODE) {
CCode *cc = (CCode *)node;
- if(cc->cctype==AT_CCODE)
+ if(cc->cctype == AT_CCODE)
print_ccode_block((CCode *)node);
}
}
Node *node = li->data;
if(node->type == CCODE_NODE) {
CCode *cc = (CCode *)node;
- if(cc->cctype==HT_CCODE)
+ if(cc->cctype == HT_CCODE)
print_ccode_block((CCode *)node);
}
}
Node *node = li->data;
if(node->type == CCODE_NODE) {
CCode *cc = (CCode *)node;
- if(cc->cctype!=HT_CCODE)
+ if(cc->cctype != HT_CCODE &&
+ cc->cctype != AT_CCODE)
print_ccode_block((CCode *)node);
} else if(node->type == CLASS_NODE) {
print_class_block((Class *)node);
print_help(void)
{
fprintf(stderr, "Gob version %s\n\n", VERSION);
+ fprintf(stderr, "gob [options] file.gob\n\n");
fprintf(stderr, "Options:\n"
"\t--help,-h,-? Display this help\n"
"\t--version Display version\n"
"put private\n"
"\t structure and protected "
"prototypes inside c file\n"
+ "\t--always-private-struct Always create a private pointer "
+ "in\n"
+ "\t the object structure\n"
"\t--no-write,-n Don't write output files, just "
"check syntax\n"
- "\t--no-lines Don't print '#line' to output\n");
+ "\t--no-lines Don't print '#line' to output\n"
+ "\t--no-self-alias Don't create self type and macro "
+ "aliases\n"
+ "\t--no-kill-underscores Don't remove the leading underscore "
+ "from\n"
+ "\t short id names\n");
}
static void
filename = NULL;
- for(i=1;i<argc;i++) {
- if(no_opts || argv[i][0]!='-') {
+ for(i = 1 ; i < argc; i++) {
+ if(no_opts ||
+ argv[i][0] != '-') {
/*must be a file*/
if(got_file) {
fprintf(stderr, "Specify only one file!\n");
} else if(strcmp(argv[i], "--no-touch-headers")==0) {
no_touch_headers = TRUE;
} else if(strcmp(argv[i], "--ondemand-private-header")==0) {
- private_header == PRIVATE_HEADER_ONDEMAND;
+ private_header = PRIVATE_HEADER_ONDEMAND;
} else if(strcmp(argv[i], "--always-private-header")==0) {
- private_header == PRIVATE_HEADER_ALWAYS;
+ private_header = PRIVATE_HEADER_ALWAYS;
} else if(strcmp(argv[i], "--no-private-header")==0) {
- private_header == PRIVATE_HEADER_NEVER;
+ private_header = PRIVATE_HEADER_NEVER;
} else if(strcmp(argv[i], "--no-gnu")==0) {
no_gnu = TRUE;
} else if(strcmp(argv[i], "--no-extern-c")==0) {
no_write = TRUE;
} else if(strcmp(argv[i], "--no-lines")==0) {
no_lines = TRUE;
+ } else if(strcmp(argv[i], "--no-self-alias")==0) {
+ no_self_alias = TRUE;
+ } else if(strcmp(argv[i], "--no-kill-underscores")==0) {
+ no_kill_underscores = TRUE;
+ } else if(strcmp(argv[i], "--always-private-struct")==0) {
+ always_private_struct = TRUE;
} else if(strcmp(argv[i], "--")==0) {
/*further arguments are files*/
no_opts = TRUE;
} else {
/*by now we know we have a string starting with
- which is a short option string*/
- char *p = argv[i]+1;
- for(p=argv[i]+1; *p; p++) {
+ char *p;
+ for(p = argv[i] + 1; *p; p++) {
switch(*p) {
case 'w':
exit_on_warn=TRUE;
char *hfnew = g_strconcat("#gob#", filebase, ".h#gob#", NULL);
char *hf = g_strconcat(filebase, ".h", NULL);
struct stat s;
- if(stat(hf, &s)==0) {
+ if(stat(hf, &s) == 0) {
char *s;
s = g_strdup_printf("cmp '%s' '%s' > /dev/null", hf, hfnew);
- if(system(s)==0) {
- if(unlink(hfnew)!=0)
- print_error(FALSE,
- "Can't remove new header file", 0);
+ if(system(s) == 0) {
+ if(unlink(hfnew) != 0)
+ error_printf(GOB_ERROR, 0,
+ "Can't remove new header file");
g_free(hfnew);
g_free(hf);
g_free(s);
return;
}
g_free(s);
- if(unlink(hf)!=0)
- print_error(FALSE, "Can't remove old header file", 0);
+ if(unlink(hf) != 0)
+ error_printf(GOB_ERROR, 0,
+ "Can't remove old header file");
}
- if(rename(hfnew, hf)!=0)
- print_error(FALSE, "Can't rename new header file", 0);
+ if(rename(hfnew, hf) != 0)
+ error_printf(GOB_ERROR, 0,
+ "Can't rename new header file");
g_free(hfnew);
g_free(hf);
}
} else
filename = "stdin";
+ /* This is where parsing is done */
/*yydebug = 1;*/
- if(yyparse()!=0)
+ if(yyparse() != 0)
g_error("Parsing errors, quitting");
- if(!class)
- print_error(FALSE, " no class defined", 0);
+
+ if( ! class)
+ error_print(GOB_ERROR, 0, " no class defined");
exit_on_error = FALSE;
signals = count_signals((Class *)class);
- arguments = count_arguments((Class *)class);
+ set_arguments = count_set_arguments((Class *)class);
+ get_arguments = count_get_arguments((Class *)class);
overrides = count_overrides((Class *)class);
privates = count_privates((Class *)class);
protecteds = count_protecteds((Class *)class);
make_bases();
make_inits((Class *)class);
- if(privates>0)
- make_finalize((Class *)class);
+ if(destructors > 0) {
+ need_destroy = TRUE;
+ find_destroy((Class *)class);
+ }
+ if(privates > 0) {
+ need_finalize = TRUE;
+ find_finalize((Class *)class);
+ }
check_bad_symbols((Class *)class);
check_duplicate_symbols((Class *)class);
+ check_duplicate_overrides((Class *)class);
check_duplicate_signals_args((Class *)class);
check_public_new((Class *)class);
check_vararg((Class *)class);
check_nonvoidempty((Class *)class);
check_signal_args((Class *)class);
check_argument_types((Class *)class);
+ check_func_arg_checks((Class *)class);
exit_on_error = TRUE;
fclose(outph);
}
- if(no_touch_headers && !no_write)
+ if(no_touch_headers &&
+ ! no_write)
compare_and_move_header();
return 0;