pike.git / src / post_modules / GTK2 / source / gtktreemodel.pre

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pike.git/src/post_modules/GTK2/source/gtktreemodel.pre:13:      int get_n_columns();   //! Returns the number of columns suppported by this model.      int get_column_type(int index);   //! Returns the type of the column.      GTK2.TreeIter get_iter(GTK2.TreePath path)   //! Returns a valid iterator pointer to path   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreeIter *iter;    struct object *o1;    int res;    get_all_args("get_iter",args,"%o",&o1);    iter=(GtkTreeIter *)g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("get_iter",sizeof(GtkTreeIter));    res=gtk_tree_model_get_iter(GTK_TREE_MODEL(THIS->obj), -  iter,(GtkTreePath *)get_pgobject(o1,pgtk_tree_path_program)); -  my_pop_n_elems(args); +  iter,(GtkTreePath *)get_pg2object(o1,pgtk2_tree_path_program)); +  pgtk2_pop_n_elems(args);    if (res) { -  push_gobjectclass(iter,pgtk_tree_iter_program); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    } else {    push_int(0);    }    }   }      GTK2.TreeIter get_iter_from_string(string path)   //! Returns a valid iterator from a path string.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreeIter *iter;    int res;    const gchar *s;    get_all_args("get_iter_from_string",args,"%s",&s);       iter=(GtkTreeIter *)g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("get_iter_from_string",sizeof(GtkTreeIter));    res=gtk_tree_model_get_iter_from_string(GTK_TREE_MODEL(THIS->obj),    iter,s); -  my_pop_n_elems(args); +  pgtk2_pop_n_elems(args);    if (res) { -  push_gobjectclass(iter,pgtk_tree_iter_program); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    } else {    push_int(0);    }    }   }      GTK2.TreeIter get_iter_first()   //! Get GTK2.TreeIter with the first iterator in the tree ("0").   { -  pgtk_verify_inited(); -  my_pop_n_elems(args); +  pgtk2_verify_inited(); +  pgtk2_pop_n_elems(args);    {    GtkTreeIter *iter;    int res;    iter=(GtkTreeIter *)g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("get_iter_first",sizeof(GtkTreeIter));    res=gtk_tree_model_get_iter_first(GTK_TREE_MODEL(THIS->obj),    iter);    if (res) { -  push_gobjectclass(iter,pgtk_tree_iter_program); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    } else {    push_int(0);    }    }   }      GTK2.TreePath get_path(GTK2.TreeIter iter)   //! Returns a GTK2.TreePath from iter.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreePath *path;    struct object *o1;    get_all_args("get_path",args,"%o",&o1);       path=(void *)gtk_tree_model_get_path(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); -  push_gobjectclass(path,pgtk_tree_path_program); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args); +  push_gobjectclass(path,pgtk2_tree_path_program);    }   }      array get_row(GTK2.TreeIter iter)   //! Get the row at this iter.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();   /* fprintf(stderr,"get_row(): \n"); */    {    int i;    int cols;    struct object *o1;    GtkTreeIter *gti;    get_all_args("get_row",args,"%o",&o1); -  gti=(GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program); -  my_pop_n_elems(args); +  gti=(GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program); +  pgtk2_pop_n_elems(args);    cols=gtk_tree_model_get_n_columns(GTK_TREE_MODEL(THIS->obj));   /* fprintf(stderr," cols==%d\n",cols); */    for (i=0; i<cols; i++) {    GValue v={0,};    gtk_tree_model_get_value(GTK_TREE_MODEL(THIS->obj),gti,i,&v);       push_gvalue_r(&v,G_VALUE_TYPE(&v));   /*    switch (G_VALUE_TYPE(&v)) {    case G_TYPE_CHAR:
pike.git/src/post_modules/GTK2/source/gtktreemodel.pre:197:    g_value_unset(&v);   */    }    f_aggregate(cols);    }   }      mixed get_value(GTK2.TreeIter iter, int column)   //! Get value at column of iter.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GValue v={0,};    struct object *o1;    INT_TYPE col;       get_all_args("get_value",args,"%o%i",&o1,&col);    gtk_tree_model_get_value(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program),col,&v); -  my_pop_n_elems(args); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program),col,&v); +  pgtk2_pop_n_elems(args);       push_gvalue_r(&v,G_VALUE_TYPE(&v));   /*    switch (G_VALUE_TYPE(&v)) {    case G_TYPE_CHAR:    PGTK_PUSH_INT(g_value_get_char(&v));    break;    case G_TYPE_UCHAR:    PGTK_PUSH_INT(g_value_get_uchar(&v));    break;
pike.git/src/post_modules/GTK2/source/gtktreemodel.pre:272:    break;    }   */    g_value_unset(&v);    }   }      GTK2.TreeIter iter_next(GTK2.TreeIter iter)   //! Go to next node.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1;    int res;    get_all_args("iter_next",args,"%o",&o1);    res=gtk_tree_model_iter_next(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args);    PGTK_PUSH_INT(res);    }   }      GTK2.TreeIter iter_children(GTK2.TreeIter parent)   //! Get first child of parent.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreeIter *iter;    struct object *o1;    int res;    get_all_args("iter_children",args,"%o",&o1);    iter=g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("iter_children",sizeof(GtkTreeIter));    res=gtk_tree_model_iter_children(GTK_TREE_MODEL(THIS->obj), -  iter,(GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); -  push_gobjectclass(iter,pgtk_tree_iter_program); +  iter,(GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    }   }      int iter_has_child(GTK2.TreeIter iter)   //! Check if iter has children.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1;    int res;    get_all_args("iter_has_child",args,"%o",&o1);    res=gtk_tree_model_iter_has_child(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args);    if (res)    push_int(1);    else    push_int(0);    }   }      int iter_n_children(GTK2.TreeIter iter)   //! Returns the number of children this iter has.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1;    int res;    get_all_args("iter_n_children",args,"%o",&o1);    res=gtk_tree_model_iter_n_children(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args);    push_int(res);    }   }      GTK2.TreeIter iter_nth_child(GTK2.TreeIter parent, int index)   //! Get the child of parent using the given index.   //! Returns valid GTK2.TreeIter if it exists, or 0.   //! If the index is too big, or parent is invalid,   //! then it returns the index from the root node.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreeIter *iter;    struct object *o1;    int res;    INT_TYPE n;    get_all_args("iter_nth_child",args,"%o%i",&o1,&n);    iter=g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("iter_nth_child",sizeof(GtkTreeIter));    res=gtk_tree_model_iter_nth_child(GTK_TREE_MODEL(THIS->obj), -  iter,(GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program),n); -  my_pop_n_elems(args); +  iter,(GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program),n); +  pgtk2_pop_n_elems(args);    if (res) { -  push_gobjectclass(iter,pgtk_tree_iter_program); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    } else {    push_int(0);    }    }   }      GTK2.TreeIter iter_parent(GTK2.TreeIter child)   //! Get parent of child, or 0 if none.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    GtkTreeIter *iter;    struct object *o1;    int res;    get_all_args("iter_parent",args,"%o",&o1);    iter=g_malloc(sizeof(GtkTreeIter));    if (iter==NULL)    SIMPLE_OUT_OF_MEMORY_ERROR("iter_parent",sizeof(GtkTreeIter));    res=gtk_tree_model_iter_parent(GTK_TREE_MODEL(THIS->obj), -  iter,(GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); +  iter,(GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args);    if (res) { -  push_gobjectclass(iter,pgtk_tree_iter_program); +  push_gobjectclass(iter,pgtk2_tree_iter_program);    } else {    push_int(0);    }    }   }      require gtk22;   string get_string_from_iter(GTK2.TreeIter iter)   //! Get string representation of iter.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1;    int res;    gchar *gs;    get_all_args("get_string_from_iter",args,"%o",&o1);    gs=gtk_tree_model_get_string_from_iter(GTK_TREE_MODEL(THIS->obj), -  (GtkTreeIter *)get_pgobject(o1,pgtk_tree_iter_program)); -  my_pop_n_elems(args); +  (GtkTreeIter *)get_pg2object(o1,pgtk2_tree_iter_program)); +  pgtk2_pop_n_elems(args);    PGTK_PUSH_GCHAR(gs);    g_free(gs);    }   }   endrequire;      void row_changed(GTK2.TreePath path, GTK2.TreeIter iter)   //! Emit "row-changed" signal.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1,*o2;    get_all_args("row_changed",args,"%o%o",&o1,&o2);    gtk_tree_model_row_changed(GTK_TREE_MODEL(THIS->obj), -  (GtkTreePath *)get_pgobject(o1,pgtk_tree_path_program), -  (GtkTreeIter *)get_pgobject(o2,pgtk_tree_iter_program)); +  (GtkTreePath *)get_pg2object(o1,pgtk2_tree_path_program), +  (GtkTreeIter *)get_pg2object(o2,pgtk2_tree_iter_program));    }    RETURN_THIS();   }      void row_inserted(GTK2.TreePath path, GTK2.TreeIter iter)   //! Emit "row-inserted" signal.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1,*o2;    get_all_args("row_inserted",args,"%o%o",&o1,&o2);    gtk_tree_model_row_inserted(GTK_TREE_MODEL(THIS->obj), -  (GtkTreePath *)get_pgobject(o1,pgtk_tree_path_program), -  (GtkTreeIter *)get_pgobject(o2,pgtk_tree_iter_program)); +  (GtkTreePath *)get_pg2object(o1,pgtk2_tree_path_program), +  (GtkTreeIter *)get_pg2object(o2,pgtk2_tree_iter_program));    }    RETURN_THIS();   }      void row_has_child_toggled(GTK2.TreePath path, GTK2.TreeIter iter)   //! Emit "row-has-child-toggled" signal.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1,*o2;    get_all_args("row_has_child_toggled",args,"%o%o",&o1,&o2);    gtk_tree_model_row_has_child_toggled(GTK_TREE_MODEL(THIS->obj), -  (GtkTreePath *)get_pgobject(o1,pgtk_tree_path_program), -  (GtkTreeIter *)get_pgobject(o2,pgtk_tree_iter_program)); +  (GtkTreePath *)get_pg2object(o1,pgtk2_tree_path_program), +  (GtkTreeIter *)get_pg2object(o2,pgtk2_tree_iter_program));    }    RETURN_THIS();   }      void row_deleted(GTK2.TreePath path)   //! Emit "row-deleted" signal.   { -  pgtk_verify_inited(); +  pgtk2_verify_inited();    {    struct object *o1;    get_all_args("row_deleted",args,"%o",&o1);    gtk_tree_model_row_deleted(GTK_TREE_MODEL(THIS->obj), -  (GtkTreePath *)get_pgobject(o1,pgtk_tree_path_program)); +  (GtkTreePath *)get_pg2object(o1,pgtk2_tree_path_program));    }    RETURN_THIS();   }