Mercurial > hg > xemacs-beta
view src/ui-gtk.c @ 5090:0ca81354c4c7
Further frame-geometry cleanups
-------------------- ChangeLog entries follow: --------------------
man/ChangeLog addition:
2010-03-03 Ben Wing <ben@xemacs.org>
* internals/internals.texi (Intro to Window and Frame Geometry):
* internals/internals.texi (The Paned Area):
* internals/internals.texi (The Displayable Area):
Update to make note of e.g. the fact that the bottom gutter is
actually above the minibuffer.
src/ChangeLog addition:
2010-03-03 Ben Wing <ben@xemacs.org>
* emacs.c:
* emacs.c (assert_equal_failed):
* lisp.h:
* lisp.h (assert_equal):
New fun assert_equal, asserting that two values == each other, and
printing out both values upon failure.
* frame-gtk.c (gtk_initialize_frame_size):
* frame-impl.h:
* frame-impl.h (FRAME_TOP_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_BOTTOM_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_LEFT_INTERNAL_BORDER_START):
* frame-impl.h (FRAME_PANED_TOP_EDGE):
* frame-impl.h (FRAME_NONPANED_SIZE):
* frame-x.c (x_initialize_frame_size):
* frame.c:
* gutter.c (get_gutter_coords):
* gutter.c (calculate_gutter_size):
* gutter.h:
* gutter.h (WINDOW_REAL_TOP_GUTTER_BOUNDS):
* gutter.h (FRAME_TOP_GUTTER_BOUNDS):
* input-method-xlib.c:
* input-method-xlib.c (XIM_SetGeometry):
* redisplay-output.c (clear_left_border):
* redisplay-output.c (clear_right_border):
* redisplay-output.c (redisplay_output_pixmap):
* redisplay-output.c (redisplay_clear_region):
* redisplay-output.c (redisplay_clear_top_of_window):
* redisplay-output.c (redisplay_clear_to_window_end):
* redisplay-xlike-inc.c (XLIKE_clear_frame):
* redisplay.c:
* redisplay.c (UPDATE_CACHE_RETURN):
* redisplay.c (pixel_to_glyph_translation):
* toolbar.c (update_frame_toolbars_geometry):
* window.c (Fwindow_pixel_edges):
Get rid of some redundant macros. Consistently use the
FRAME_TOP_*_START, FRAME_RIGHT_*_END, etc. format. Rename
FRAME_*_BORDER_* to FRAME_*_INTERNAL_BORDER_*. Comment out
FRAME_BOTTOM_* for gutters and the paned area due to the
uncertainty over where the paned area actually begins. (Eventually
we should probably move the gutters outside the minibuffer so that
the paned area is contiguous.) Use FRAME_PANED_* more often in the
code to make things clearer.
Update the diagram to show that the bottom gutter is inside the
minibuffer (!) and that there are "junk boxes" when you have left
and/or right gutters (dead boxes that are mistakenly left uncleared,
unlike the corresponding scrollbar dead boxes). Update the text
appropriately to cover the bottom gutter position, etc.
Rewrite gutter-geometry code to use the FRAME_*_GUTTER_* in place of
equivalent expressions referencing other frame elements, to make the
code more portable in case we move around the gutter location.
Cleanup FRAME_*_GUTTER_BOUNDS() in gutter.h.
Add some #### GEOM! comments where I think code is incorrect --
typically, it wasn't fixed up properly when the gutter was added.
Some cosmetic changes.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Wed, 03 Mar 2010 05:07:47 -0600 |
| parents | ae48681c47fa |
| children | b5df3737028a 8b2f75cecb89 |
line wrap: on
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/* ui-gtk.c ** ** Description: Creating 'real' UIs from lisp. ** ** Created by: William M. Perry <wmperry@gnu.org> ** Copyright (c) 2000 William M. Perry <wmperry@gnu.org> ** ** This file is part of XEmacs. ** ** XEmacs is free software; you can redistribute it and/or modify it ** under the terms of the GNU General Public License as published by the ** Free Software Foundation; either version 2, or (at your option) any ** later version. ** ** XEmacs is distributed in the hope that it will be useful, but WITHOUT ** ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ** for more details. ** ** You should have received a copy of the GNU General Public License ** along with XEmacs; see the file COPYING. If not, write to ** the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, ** Boston, MA 02111-1301, USA. */ #include <config.h> #include "lisp.h" #include "buffer.h" #include "device.h" #include "elhash.h" #include "events.h" #include "faces.h" #include "hash.h" #include "sysdll.h" #include "window.h" #include "console-gtk-impl.h" #include "glyphs-gtk.h" #include "objects-gtk.h" #include "ui-gtk.h" /* XEmacs specific GTK types */ #include "gtk-glue.c" /* Is the fundamental type of 't' the xemacs defined fundamental type 'type'? */ #define IS_XEMACS_GTK_FUNDAMENTAL_TYPE(t,type) (((GtkType) GTK_FUNDAMENTAL_TYPE(t)) == (type)) Lisp_Object Qemacs_ffip; Lisp_Object Qemacs_gtk_objectp; Lisp_Object Qemacs_gtk_boxedp; Lisp_Object Qvoid; Lisp_Object Venumeration_info; static GHashTable *dll_cache; Lisp_Object gtk_type_to_lisp (GtkArg *arg); int lisp_to_gtk_type (Lisp_Object obj, GtkArg *arg); int lisp_to_gtk_ret_type (Lisp_Object obj, GtkArg *arg); #if 0 void describe_gtk_arg (GtkArg *arg); #endif guint symbol_to_enum (Lisp_Object obj, GtkType t); static guint lisp_to_flag (Lisp_Object obj, GtkType t); static Lisp_Object flags_to_list (guint value, GtkType t); static Lisp_Object enum_to_symbol (guint value, GtkType t); #define NIL_OR_VOID_P(x) (NILP (x) || EQ (x, Qvoid)) static void initialize_dll_cache (void) { if (!dll_cache) { static char text[] = "---XEmacs Internal Handle---"; dll_cache = g_hash_table_new (g_str_hash, g_str_equal); g_hash_table_insert (dll_cache, text, dll_open (Qnil)); } } DEFUN ("dll-load", Fdll_load, 1, 1, 0, /* Load a shared library DLL into XEmacs. No initialization routines are required. This is for loading dependency DLLs into XEmacs. */ (dll)) { dll_handle h; CHECK_STRING (dll); initialize_dll_cache (); /* If the dll name has a directory component in it, then we should expand it. */ if (!NILP (Fstring_match (build_ascstring ("/"), dll, Qnil, Qnil))) dll = Fexpand_file_name (dll, Qnil); /* Check if we have already opened it first */ h = g_hash_table_lookup (dll_cache, XSTRING_DATA (dll)); if (!h) { h = dll_open (dll); if (h) { g_hash_table_insert (dll_cache, qxestrdup (XSTRING_DATA (dll)), h); } else { signal_error (Qfile_error, "dll_open error", dll_error()); } } return (h ? Qt : Qnil); } /* Gtk object importing */ EXFUN (Fgtk_import_type, 1); static struct hash_table *internal_type_hash; static int type_already_imported_p (GtkType t) { void *retval = NULL; /* These are cases that we don't need to import */ switch (GTK_FUNDAMENTAL_TYPE (t)) { case GTK_TYPE_CHAR: case GTK_TYPE_UCHAR: case GTK_TYPE_BOOL: case GTK_TYPE_INT: case GTK_TYPE_UINT: case GTK_TYPE_LONG: case GTK_TYPE_ULONG: case GTK_TYPE_FLOAT: case GTK_TYPE_DOUBLE: case GTK_TYPE_STRING: case GTK_TYPE_BOXED: case GTK_TYPE_POINTER: case GTK_TYPE_SIGNAL: case GTK_TYPE_ARGS: case GTK_TYPE_CALLBACK: case GTK_TYPE_C_CALLBACK: case GTK_TYPE_FOREIGN: return (1); } if (!internal_type_hash) { internal_type_hash = make_hash_table (163); return (0); } if (gethash ((void *)t, internal_type_hash, (const void **)&retval)) { return (1); } return (0); } static void mark_type_as_imported (GtkType t) { if (type_already_imported_p (t)) return; puthash ((void *) t, (void *) 1, internal_type_hash); } static void import_gtk_type (GtkType t); static void import_gtk_object_internal (GtkType the_type) { GtkType original_type = the_type; int first_time = 1; do { GtkArg *args; guint32 *flags; guint n_args; guint i; #if 0 GtkObjectClass *klass; GtkSignalQuery *query; guint32 *signals; guint n_signals; #endif /* Register the type before we do anything else with it... */ if (!first_time) { if (!type_already_imported_p (the_type)) { import_gtk_type (the_type); } } else { /* We need to mark the object type as imported here or we run the risk of SERIOUS recursion when we do automatic argument type importing. mark_type_as_imported() is smart enough to be a noop if we attempt to register things twice. */ first_time = 0; mark_type_as_imported (the_type); } args = gtk_object_query_args(the_type,&flags,&n_args); /* First get the arguments the object can accept */ for (i = 0; i < n_args; i++) { if ((args[i].type != original_type) && !type_already_imported_p (args[i].type)) { import_gtk_type (args[i].type); } } g_free(args); g_free(flags); #if 0 /* Now lets publish the signals */ klass = (GtkObjectClass *) gtk_type_class (the_type); signals = klass->signals; n_signals = klass->nsignals; for (i = 0; i < n_signals; i++) { query = gtk_signal_query (signals[i]); /* What do we want to do here? */ g_free (query); } #endif the_type = gtk_type_parent(the_type); } while (the_type != GTK_TYPE_INVALID); } static void import_gtk_enumeration_internal (GtkType the_type) { GtkEnumValue *vals = gtk_type_enum_get_values (the_type); Lisp_Object assoc = Qnil; if (NILP (Venumeration_info)) { Venumeration_info = call2 (intern ("make-hashtable"), make_int (100), Qequal); } while (vals && vals->value_name) { assoc = Fcons (Fcons (intern (vals->value_nick), make_int (vals->value)), assoc); assoc = Fcons (Fcons (intern (vals->value_name), make_int (vals->value)), assoc); vals++; } assoc = Fnreverse (assoc); Fputhash (make_int (the_type), assoc, Venumeration_info); } static void import_gtk_type (GtkType t) { if (type_already_imported_p (t)) { return; } switch (GTK_FUNDAMENTAL_TYPE (t)) { case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: import_gtk_enumeration_internal (t); break; case GTK_TYPE_OBJECT: import_gtk_object_internal (t); break; default: break; } mark_type_as_imported (t); } /* Foreign function calls */ static emacs_ffi_data * allocate_ffi_data (void) { emacs_ffi_data *data = ALLOC_LCRECORD_TYPE (emacs_ffi_data, &lrecord_emacs_ffi); data->return_type = GTK_TYPE_NONE; data->n_args = 0; data->function_name = Qnil; data->function_ptr = 0; data->marshal = 0; return (data); } static const struct memory_description ffi_data_description [] = { { XD_LISP_OBJECT, offsetof (emacs_ffi_data, function_name) }, { XD_END } }; static Lisp_Object mark_ffi_data (Lisp_Object obj) { emacs_ffi_data *data = (emacs_ffi_data *) XFFI (obj); mark_object (data->function_name); return (Qnil); } static void ffi_object_printer (Lisp_Object obj, Lisp_Object printcharfun, int UNUSED (escapeflag)) { if (print_readably) printing_unreadable_lcrecord (obj, 0); write_fmt_string_lisp (printcharfun, "#<ffi %S", 1, XFFI (obj)->function_name); if (XFFI (obj)->n_args) write_fmt_string (printcharfun, " %d arguments", XFFI (obj)->n_args); write_fmt_string (printcharfun, " %p>", (void *)XFFI (obj)->function_ptr); } DEFINE_LRECORD_IMPLEMENTATION ("ffi", emacs_ffi, 0, /*dumpable-flag*/ mark_ffi_data, ffi_object_printer, 0, 0, 0, ffi_data_description, emacs_ffi_data); #if defined (__cplusplus) #define MANY_ARGS ... #else #define MANY_ARGS #endif typedef void (*pfv)(); typedef GtkObject * (*__OBJECT_fn) (MANY_ARGS); typedef gint (*__INT_fn) (MANY_ARGS); typedef void (*__NONE_fn) (MANY_ARGS); typedef gchar * (*__STRING_fn) (MANY_ARGS); typedef gboolean (*__BOOL_fn) (MANY_ARGS); typedef gfloat (*__FLOAT_fn) (MANY_ARGS); typedef void * (*__POINTER_fn) (MANY_ARGS); typedef GList * (*__LIST_fn) (MANY_ARGS); /* An auto-generated file of marshalling functions. */ #include "emacs-marshals.c" #undef MANY_ARGS #define CONVERT_SINGLE_TYPE(var,nam,tp) case GTK_TYPE_##nam: GTK_VALUE_##nam (var) = * (tp *) v; break; #define CONVERT_RETVAL(a,freep) \ do { \ void *v = GTK_VALUE_POINTER(a); \ switch (GTK_FUNDAMENTAL_TYPE (a.type)) \ { \ CONVERT_SINGLE_TYPE(a,CHAR,gchar); \ CONVERT_SINGLE_TYPE(a,UCHAR,guchar); \ CONVERT_SINGLE_TYPE(a,BOOL,gboolean); \ CONVERT_SINGLE_TYPE(a,INT,gint); \ CONVERT_SINGLE_TYPE(a,UINT,guint); \ CONVERT_SINGLE_TYPE(a,LONG,glong); \ CONVERT_SINGLE_TYPE(a,ULONG,gulong); \ CONVERT_SINGLE_TYPE(a,FLOAT,gfloat); \ CONVERT_SINGLE_TYPE(a,DOUBLE,gdouble); \ CONVERT_SINGLE_TYPE(a,STRING,gchar *); \ CONVERT_SINGLE_TYPE(a,ENUM,gint); \ CONVERT_SINGLE_TYPE(a,FLAGS,guint); \ CONVERT_SINGLE_TYPE(a,BOXED,void *); \ CONVERT_SINGLE_TYPE(a,POINTER,void *); \ CONVERT_SINGLE_TYPE(a,OBJECT,GtkObject *); \ default: \ GTK_VALUE_POINTER (a) = * (void **) v; \ break; \ } \ if (freep) xfree (v); \ } while (0) static gpointer __allocate_object_storage (GtkType t) { size_t s = 0; void *rval = NULL; switch (GTK_FUNDAMENTAL_TYPE (t)) { /* flag types */ case GTK_TYPE_CHAR: s = (sizeof (gchar)); break; case GTK_TYPE_UCHAR: s = (sizeof (guchar)); break; case GTK_TYPE_BOOL: s = (sizeof (gboolean)); break; case GTK_TYPE_INT: s = (sizeof (gint)); break; case GTK_TYPE_UINT: s = (sizeof (guint)); break; case GTK_TYPE_LONG: s = (sizeof (glong)); break; case GTK_TYPE_ULONG: s = (sizeof (gulong)); break; case GTK_TYPE_FLOAT: s = (sizeof (gfloat)); break; case GTK_TYPE_DOUBLE: s = (sizeof (gdouble)); break; case GTK_TYPE_STRING: s = (sizeof (gchar *)); break; case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: s = (sizeof (guint)); break; case GTK_TYPE_BOXED: case GTK_TYPE_POINTER: s = (sizeof (void *)); break; /* base type of the object system */ case GTK_TYPE_OBJECT: s = (sizeof (GtkObject *)); break; default: if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(t, GTK_TYPE_LISTOF)) { s = (sizeof (void *)); } rval = NULL; break; } if (s) { rval = xmalloc (s); memset (rval, '\0', s); } return (rval); } static Lisp_Object type_to_marshaller_type (GtkType t) { switch (GTK_FUNDAMENTAL_TYPE (t)) { case GTK_TYPE_NONE: return (build_ascstring ("NONE")); /* flag types */ case GTK_TYPE_CHAR: case GTK_TYPE_UCHAR: return (build_ascstring ("CHAR")); case GTK_TYPE_BOOL: return (build_ascstring ("BOOL")); case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: case GTK_TYPE_INT: case GTK_TYPE_UINT: return (build_ascstring ("INT")); case GTK_TYPE_LONG: case GTK_TYPE_ULONG: return (build_ascstring ("LONG")); case GTK_TYPE_FLOAT: case GTK_TYPE_DOUBLE: return (build_ascstring ("FLOAT")); case GTK_TYPE_STRING: return (build_ascstring ("STRING")); case GTK_TYPE_BOXED: case GTK_TYPE_POINTER: return (build_ascstring ("POINTER")); case GTK_TYPE_OBJECT: return (build_ascstring ("OBJECT")); case GTK_TYPE_CALLBACK: return (build_ascstring ("CALLBACK")); default: /* I can't put this in the main switch statement because it is a new fundamental type that is not fixed at compile time. *sigh* */ if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(t, GTK_TYPE_ARRAY)) return (build_ascstring ("ARRAY")); if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(t, GTK_TYPE_LISTOF)) return (build_ascstring ("LIST")); return (Qnil); } } struct __dll_mapper_closure { void * (*func) (dll_handle, const CIbyte *); Ibyte *obj_name; void **storage; }; static void __dll_mapper (gpointer UNUSED (key), gpointer value, gpointer user_data) { struct __dll_mapper_closure *closure = (struct __dll_mapper_closure *) user_data; if (*(closure->storage) == NULL) { /* Need to see if it is in this one */ *(closure->storage) = closure->func ((dll_handle) value, (CIbyte*) closure->obj_name); } } DEFUN ("gtk-import-variable-internal", Fgtk_import_variable_internal, 2, 2, 0, /* Import a variable into the XEmacs namespace. */ (type, name)) { void *var = NULL; GtkArg arg; if (SYMBOLP (type)) type = Fsymbol_name (type); CHECK_STRING (type); CHECK_STRING (name); initialize_dll_cache (); xemacs_init_gtk_classes (); arg.type = gtk_type_from_name ((char *) XSTRING_DATA (type)); if (arg.type == GTK_TYPE_INVALID) { sferror ("Unknown type", type); } /* Need to look thru the already-loaded dlls */ { struct __dll_mapper_closure closure; closure.func = dll_variable; closure.obj_name = XSTRING_DATA (name); closure.storage = &var; g_hash_table_foreach (dll_cache, __dll_mapper, &closure); } if (!var) { gui_error ("Could not locate variable", name); } GTK_VALUE_POINTER(arg) = var; CONVERT_RETVAL (arg, 0); return (gtk_type_to_lisp (&arg)); } DEFUN ("gtk-import-function-internal", Fgtk_import_function_internal, 2, 3, 0, /* Import a function into the XEmacs namespace. */ (rettype, name, args)) { Lisp_Object rval = Qnil; Lisp_Object marshaller = Qnil; emacs_ffi_data *data = NULL; gint n_args = 0; #if 0 dll_handle h = NULL; #endif ffi_marshalling_function marshaller_func = NULL; ffi_actual_function name_func = NULL; CHECK_SYMBOL (rettype); CHECK_STRING (name); CHECK_LIST (args); initialize_dll_cache (); xemacs_init_gtk_classes (); /* Need to look thru the already-loaded dlls */ { struct __dll_mapper_closure closure; closure.func = dll_function; closure.obj_name = XSTRING_DATA (name); closure.storage = (void **) &name_func; g_hash_table_foreach (dll_cache, __dll_mapper, &closure); } if (!name_func) { gui_error ("Could not locate function", name); } data = allocate_ffi_data (); if (NILP (rettype)) { rettype = Qvoid; } if (!NILP (args)) { Lisp_Object value = args; Lisp_Object type = Qnil; EXTERNAL_LIST_LOOP_2 (elt, value) { GtkType the_type; Lisp_Object marshaller_type = Qnil; CHECK_SYMBOL (elt); type = Fsymbol_name (elt); the_type = gtk_type_from_name ((char *) XSTRING_DATA (type)); if (the_type == GTK_TYPE_INVALID) { invalid_argument ("Unknown argument type", type); } /* All things must be reduced to their basest form... */ import_gtk_type (the_type); data->args[n_args] = the_type; /* GTK_FUNDAMENTAL_TYPE (the_type); */ /* Now lets build up another chunk of our marshaller function name */ marshaller_type = type_to_marshaller_type (data->args[n_args]); if (NILP (marshaller_type)) { invalid_argument ("Do not know how to marshal", type); } marshaller = concat3 (marshaller, build_ascstring ("_"), marshaller_type); n_args++; } } else { marshaller = concat3 (marshaller, build_ascstring ("_"), type_to_marshaller_type (GTK_TYPE_NONE)); } rettype = Fsymbol_name (rettype); data->return_type = gtk_type_from_name ((char *) XSTRING_DATA (rettype)); if (data->return_type == GTK_TYPE_INVALID) { invalid_argument ("Unknown return type", rettype); } import_gtk_type (data->return_type); marshaller = concat3 (type_to_marshaller_type (data->return_type), build_ascstring ("_"), marshaller); marshaller = concat2 (build_ascstring ("emacs_gtk_marshal_"), marshaller); marshaller_func = (ffi_marshalling_function) find_marshaller ((char *) XSTRING_DATA (marshaller)); if (!marshaller_func) { gui_error ("Could not locate marshaller function", marshaller); } data->n_args = n_args; data->function_name = name; data->function_ptr = (dll_func) name_func; data->marshal = marshaller_func; rval = wrap_emacs_ffi (data); return (rval); } DEFUN ("gtk-call-function", Fgtk_call_function, 1, 2, 0, /* Call an external function. */ (func, args)) { GtkArg the_args[MAX_GTK_ARGS]; gint n_args = 0; Lisp_Object retval = Qnil; CHECK_FFI (func); CHECK_LIST (args); n_args = XINT (Flength (args)); #ifdef XEMACS_IS_SMARTER_THAN_THE_PROGRAMMER /* #### I think this is too dangerous to enable by default. ** #### Genuine program bugs would probably be allowed to ** #### slip by, and not be very easy to find. ** #### Bill Perry July 9, 2000 */ if (n_args != XFFI(func)->n_args) { Lisp_Object for_append[3]; /* Signal an error if they pass in too many arguments */ if (n_args > XFFI(func)->n_args) { return Fsignal (Qwrong_number_of_arguments, list2 (func, make_int (n_args))); } /* If they did not provide enough arguments, be nice and assume ** they wanted `nil' in there. */ for_append[0] = args; for_append[1] = Fmake_list (make_int (XFFI(func)->n_args - n_args), Qnil); args = Fappend (2, for_append); } #else if (n_args != XFFI(func)->n_args) { /* Signal an error if they do not pass in the correct # of arguments */ return Fsignal (Qwrong_number_of_arguments, list2 (func, make_int (n_args))); } #endif if (!NILP (args)) { Lisp_Object value = args; CHECK_LIST (args); n_args = 0; /* First we convert all of the arguments from Lisp to GtkArgs */ { EXTERNAL_LIST_LOOP_2 (elt, value) { the_args[n_args].type = XFFI (func)->args[n_args]; if (lisp_to_gtk_type (elt, &the_args[n_args])) { /* There was some sort of an error */ gui_error ("Error converting arguments", args); } n_args++; } } } /* Now we need to tack on space for a return value, if they have asked for one */ if (XFFI (func)->return_type != GTK_TYPE_NONE) { the_args[n_args].type = XFFI (func)->return_type; GTK_VALUE_POINTER (the_args[n_args]) = __allocate_object_storage (the_args[n_args].type); n_args++; } XFFI (func)->marshal ((ffi_actual_function) (XFFI (func)->function_ptr), the_args); if (XFFI (func)->return_type != GTK_TYPE_NONE) { CONVERT_RETVAL (the_args[n_args - 1], 1); retval = gtk_type_to_lisp (&the_args[n_args - 1]); } /* Need to free any array or list pointers */ { int i; for (i = 0; i < n_args; i++) { if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(the_args[i].type, GTK_TYPE_ARRAY)) { g_free (GTK_VALUE_POINTER (the_args[i])); } else if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(the_args[i].type, GTK_TYPE_LISTOF)) { /* g_list_free (GTK_VALUE_POINTER (the_args[i])); */ } } } return (retval); } /* GtkObject wrapping for Lisp */ static void emacs_gtk_object_printer (Lisp_Object obj, Lisp_Object printcharfun, int UNUSED (escapeflag)) { if (print_readably) printing_unreadable_lcrecord (obj, 0); write_ascstring (printcharfun, "#<GtkObject ("); if (XGTK_OBJECT (obj)->alive_p) write_cistring (printcharfun, gtk_type_name (GTK_OBJECT_TYPE (XGTK_OBJECT (obj)->object))); else write_ascstring (printcharfun, "dead"); write_fmt_string (printcharfun, ") %p>", (void *) XGTK_OBJECT (obj)->object); } static Lisp_Object object_getprop (Lisp_Object obj, Lisp_Object prop) { Lisp_Object rval = Qnil; Lisp_Object prop_name = Qnil; GtkArgInfo *info = NULL; char *err; GtkArg args[2]; CHECK_SYMBOL (prop); /* Shouldn't need to ever do this, but I'm paranoid */ prop_name = Fsymbol_name (prop); args[0].name = (char *) XSTRING_DATA (prop_name); err = gtk_object_arg_get_info (GTK_OBJECT_TYPE (XGTK_OBJECT (obj)->object), args[0].name, &info); if (err) { /* Not a magic symbol, fall back to just looking in our real plist */ g_free (err); return (Fplist_get (XGTK_OBJECT (obj)->plist, prop, Qunbound)); } if (!(info->arg_flags & GTK_ARG_READABLE)) { invalid_operation ("Attempt to get write-only property", prop); } gtk_object_getv (XGTK_OBJECT (obj)->object, 1, args); if (args[0].type == GTK_TYPE_INVALID) { /* If we can't get the attribute, then let the code in Fget know so it can use the default value supplied by the caller */ return (Qunbound); } rval = gtk_type_to_lisp (&args[0]); /* Free up any memory. According to the documentation and Havoc's book, if the fundamental type of the returned value is GTK_TYPE_STRING, GTK_TYPE_BOXED, or GTK_TYPE_ARGS, you are responsible for freeing it. */ switch (GTK_FUNDAMENTAL_TYPE (args[0].type)) { case GTK_TYPE_STRING: g_free (GTK_VALUE_STRING (args[0])); break; case GTK_TYPE_BOXED: g_free (GTK_VALUE_BOXED (args[0])); break; case GTK_TYPE_ARGS: g_free (GTK_VALUE_ARGS (args[0]).args); default: break; } return (rval); } static int object_putprop (Lisp_Object obj, Lisp_Object prop, Lisp_Object value) { GtkArgInfo *info = NULL; Lisp_Object prop_name = Qnil; GtkArg args[2]; char *err = NULL; prop_name = Fsymbol_name (prop); args[0].name = (char *) XSTRING_DATA (prop_name); err = gtk_object_arg_get_info (GTK_OBJECT_TYPE (XGTK_OBJECT (obj)->object), args[0].name, &info); if (err) { /* Not a magic symbol, fall back to just storing in our real plist */ g_free (err); XGTK_OBJECT (obj)->plist = Fplist_put (XGTK_OBJECT (obj)->plist, prop, value); return (1); } args[0].type = info->type; if (lisp_to_gtk_type (value, &args[0])) { gui_error ("Error converting to GtkType", value); } if (!(info->arg_flags & GTK_ARG_WRITABLE)) { invalid_operation ("Attempt to set read-only argument", prop); } gtk_object_setv (XGTK_OBJECT (obj)->object, 1, args); return (1); } static const struct memory_description gtk_object_data_description [] = { { XD_LISP_OBJECT, offsetof (emacs_gtk_object_data, plist) }, { XD_END } }; static Lisp_Object mark_gtk_object_data (Lisp_Object obj) { return (XGTK_OBJECT (obj)->plist); } static void emacs_gtk_object_finalizer (void *header, int for_disksave) { emacs_gtk_object_data *data = (emacs_gtk_object_data *) header; if (for_disksave) { Lisp_Object obj = wrap_emacs_gtk_object (data); invalid_operation ("Can't dump an emacs containing GtkObject objects", obj); } if (data->alive_p) { gtk_object_unref (data->object); } } DEFINE_LRECORD_IMPLEMENTATION_WITH_PROPS ("GtkObject", emacs_gtk_object, 0, /*dumpable-flag*/ mark_gtk_object_data, emacs_gtk_object_printer, emacs_gtk_object_finalizer, 0, /* equality */ 0, /* hash */ gtk_object_data_description, object_getprop, object_putprop, 0, /* rem prop */ 0, /* plist */ emacs_gtk_object_data); static emacs_gtk_object_data * allocate_emacs_gtk_object_data (void) { emacs_gtk_object_data *data = ALLOC_LCRECORD_TYPE (emacs_gtk_object_data, &lrecord_emacs_gtk_object); data->object = NULL; data->alive_p = FALSE; data->plist = Qnil; return (data); } /* We need to keep track of when the object is destroyed so that we can mark it as dead, otherwise even our print routine (which calls GTK_OBJECT_TYPE) will crap out and die. This is also used in the lisp_to_gtk_type() routine to defend against passing dead objects to GTK routines. */ static void __notice_object_destruction (GtkObject *UNUSED (obj), gpointer user_data) { ungcpro_popup_callbacks ((GUI_ID) user_data); } Lisp_Object build_gtk_object (GtkObject *obj) { Lisp_Object retval = Qnil; emacs_gtk_object_data *data = NULL; GUI_ID id = 0; id = (GUI_ID) gtk_object_get_data (obj, GTK_DATA_GUI_IDENTIFIER); if (id) { retval = get_gcpro_popup_callbacks (id); } if (NILP (retval)) { data = allocate_emacs_gtk_object_data (); data->object = obj; data->alive_p = TRUE; retval = wrap_emacs_gtk_object (data); id = new_gui_id (); gtk_object_set_data (obj, GTK_DATA_GUI_IDENTIFIER, (gpointer) id); gcpro_popup_callbacks (id, retval); gtk_object_ref (obj); gtk_signal_connect (obj, "destroy", GTK_SIGNAL_FUNC (__notice_object_destruction), (gpointer)id); } return (retval); } static void __internal_callback_destroy (gpointer data) { Lisp_Object lisp_data; lisp_data = GET_LISP_FROM_VOID (data); ungcpro_popup_callbacks (XINT (XCAR (lisp_data))); } static void __internal_callback_marshal (GtkObject *obj, gpointer data, guint n_args, GtkArg *args) { Lisp_Object arg_list = Qnil; Lisp_Object callback_fn = Qnil; Lisp_Object callback_data = Qnil; Lisp_Object newargs[3]; Lisp_Object rval = Qnil; struct gcpro gcpro1; int i; callback_fn = GET_LISP_FROM_VOID (data); /* Nuke the GUI_ID off the front */ callback_fn = XCDR (callback_fn); callback_data = XCAR (callback_fn); callback_fn = XCDR (callback_fn); /* The callback data goes at the very end of the argument list */ arg_list = Fcons (callback_data, Qnil); /* Build up the argument list, lisp style */ for (i = n_args - 1; i >= 0; i--) { arg_list = Fcons (gtk_type_to_lisp (&args[i]), arg_list); } /* We always pass the widget as the first parameter at the very least */ arg_list = Fcons (build_gtk_object (obj), arg_list); GCPRO1 ((arg_list)); newargs[0] = callback_fn; newargs[1] = arg_list; rval = Fapply (2, newargs); signal_fake_event (); if (args[n_args].type != GTK_TYPE_NONE) lisp_to_gtk_ret_type (rval, &args[n_args]); UNGCPRO; } DEFUN ("gtk-signal-connect", Fgtk_signal_connect, 3, 6, 0, /* */ (obj, name, func, cb_data, object_signal, after_p)) { int c_after; int c_object_signal; GUI_ID id = 0; CHECK_GTK_OBJECT (obj); if (SYMBOLP (name)) name = Fsymbol_name (name); CHECK_STRING (name); if (NILP (object_signal)) c_object_signal = 0; else c_object_signal = 1; if (NILP (after_p)) c_after = 0; else c_after = 1; id = new_gui_id (); func = Fcons (cb_data, func); func = Fcons (make_int (id), func); gcpro_popup_callbacks (id, func); gtk_signal_connect_full (XGTK_OBJECT (obj)->object, (char *) XSTRING_DATA (name), NULL, __internal_callback_marshal, STORE_LISP_IN_VOID (func), __internal_callback_destroy, c_object_signal, c_after); return (Qt); } /* GTK_TYPE_BOXED wrapper for Emacs lisp */ static const struct memory_description emacs_gtk_boxed_description [] = { { XD_END } }; static void emacs_gtk_boxed_printer (Lisp_Object obj, Lisp_Object printcharfun, int UNUSED (escapeflag)) { if (print_readably) printing_unreadable_lcrecord (obj, 0); write_ascstring (printcharfun, "#<GtkBoxed ("); write_cistring (printcharfun, gtk_type_name (XGTK_BOXED (obj)->object_type)); write_fmt_string (printcharfun, ") %p>", (void *) XGTK_BOXED (obj)->object); } static int emacs_gtk_boxed_equality (Lisp_Object o1, Lisp_Object o2, int UNUSED (depth)) { emacs_gtk_boxed_data *data1 = XGTK_BOXED(o1); emacs_gtk_boxed_data *data2 = XGTK_BOXED(o2); return ((data1->object == data2->object) && (data1->object_type == data2->object_type)); } static Hashcode emacs_gtk_boxed_hash (Lisp_Object obj, int UNUSED (depth)) { emacs_gtk_boxed_data *data = XGTK_BOXED(obj); return (HASH2 ((Hashcode) data->object, data->object_type)); } DEFINE_LRECORD_IMPLEMENTATION_WITH_PROPS ("GtkBoxed", emacs_gtk_boxed, 0, /*dumpable-flag*/ 0, /* marker function */ emacs_gtk_boxed_printer, 0, /* nuker */ emacs_gtk_boxed_equality, emacs_gtk_boxed_hash, emacs_gtk_boxed_description, 0, /* get prop */ 0, /* put prop */ 0, /* rem prop */ 0, /* plist */ emacs_gtk_boxed_data); /* Currently defined GTK_TYPE_BOXED structures are: GtkAccelGroup - GtkSelectionData - GtkStyle - GtkCTreeNode - GdkColormap - GdkVisual - GdkFont - GdkWindow - GdkDragContext - GdkEvent - GdkColor - */ static emacs_gtk_boxed_data * allocate_emacs_gtk_boxed_data (void) { emacs_gtk_boxed_data *data = ALLOC_LCRECORD_TYPE (emacs_gtk_boxed_data, &lrecord_emacs_gtk_boxed); data->object = NULL; data->object_type = GTK_TYPE_INVALID; return (data); } Lisp_Object build_gtk_boxed (void *obj, GtkType t) { Lisp_Object retval = Qnil; emacs_gtk_boxed_data *data = NULL; if (GTK_FUNDAMENTAL_TYPE (t) != GTK_TYPE_BOXED) ABORT(); data = allocate_emacs_gtk_boxed_data (); data->object = obj; data->object_type = t; retval = wrap_emacs_gtk_boxed (data); return (retval); } /* The automatically generated structure access routines */ #include "emacs-widget-accessors.c" /* The hand generated funky functions that we can't just import using the FFI */ #include "ui-byhand.c" /* The glade support */ #include "glade.c" /* Type manipulation */ DEFUN ("gtk-fundamental-type", Fgtk_fundamental_type, 1, 1, 0, /* Load a shared library DLL into XEmacs. No initialization routines are required. This is for loading dependency DLLs into XEmacs. */ (type)) { GtkType t; if (SYMBOLP (type)) type = Fsymbol_name (type); CHECK_STRING (type); t = gtk_type_from_name ((char *) XSTRING_DATA (type)); if (t == GTK_TYPE_INVALID) { invalid_argument ("Not a GTK type", type); } return (make_int (GTK_FUNDAMENTAL_TYPE (t))); } DEFUN ("gtk-object-type", Fgtk_object_type, 1, 1, 0, /* Return the GtkType of OBJECT. */ (object)) { CHECK_GTK_OBJECT (object); return (make_int (GTK_OBJECT_TYPE (XGTK_OBJECT (object)->object))); } DEFUN ("gtk-describe-type", Fgtk_describe_type, 1, 1, 0, /* Returns a cons of two lists describing the Gtk object TYPE. The car is a list of all the signals that it will emit. The cdr is a list of all the magic properties it has. */ (type)) { Lisp_Object rval, signals, props; GtkType t; props = signals = rval = Qnil; if (SYMBOLP (type)) { type = Fsymbol_name (type); } if (STRINGP (type)) { t = gtk_type_from_name ((gchar*) XSTRING_DATA (type)); if (t == GTK_TYPE_INVALID) { invalid_argument ("Not a GTK type", type); } } else { CHECK_INT (type); t = XINT (type); } if (GTK_FUNDAMENTAL_TYPE (t) != GTK_TYPE_OBJECT) { invalid_argument ("Not a GtkObject", type); } /* Need to do stupid shit like this to get the args ** registered... damn GTK and its lazy loading */ { GtkArg args[3]; GtkObject *obj = gtk_object_newv (t, 0, args); gtk_object_destroy(obj); } do { guint i; /* Do the magic arguments first */ { GtkArg *args; guint32 *flags; guint n_args; args = gtk_object_query_args(t,&flags,&n_args); for (i = 0; i < n_args; i++) { props = Fcons (Fcons (intern (gtk_type_name(args[i].type)), intern (args[i].name)), props); } g_free (args); g_free (flags); } /* Now the signals */ { GtkObjectClass *klass; GtkSignalQuery *query; guint32 *gtk_signals; guint n_signals; klass = (GtkObjectClass *) gtk_type_class (t); gtk_signals = klass->signals; n_signals = klass->nsignals; for (i = 0; i < n_signals; i++) { Lisp_Object params = Qnil; query = gtk_signal_query (gtk_signals[i]); if (query) { if (query->nparams) { int j; for (j = query->nparams - 1; j >= 0; j--) { params = Fcons (intern (gtk_type_name (query->params[j])), params); } } signals = Fcons (Fcons (intern (gtk_type_name (query->return_val)), Fcons (intern (query->signal_name), params)), signals); g_free (query); } } } t = gtk_type_parent(t); } while (t != GTK_TYPE_INVALID); rval = Fcons (signals, props); return (rval); } void syms_of_ui_gtk (void) { INIT_LRECORD_IMPLEMENTATION (emacs_ffi); INIT_LRECORD_IMPLEMENTATION (emacs_gtk_object); INIT_LRECORD_IMPLEMENTATION (emacs_gtk_boxed); DEFSYMBOL_MULTIWORD_PREDICATE (Qemacs_ffip); DEFSYMBOL_MULTIWORD_PREDICATE (Qemacs_gtk_objectp); DEFSYMBOL_MULTIWORD_PREDICATE (Qemacs_gtk_boxedp); DEFSYMBOL (Qvoid); DEFSUBR (Fdll_load); DEFSUBR (Fgtk_import_function_internal); DEFSUBR (Fgtk_import_variable_internal); DEFSUBR (Fgtk_signal_connect); DEFSUBR (Fgtk_call_function); DEFSUBR (Fgtk_fundamental_type); DEFSUBR (Fgtk_object_type); DEFSUBR (Fgtk_describe_type); syms_of_widget_accessors (); syms_of_ui_byhand (); syms_of_glade (); } void vars_of_ui_gtk (void) { Fprovide (intern ("gtk-ui")); DEFVAR_LISP ("gtk-enumeration-info", &Venumeration_info /* A hashtable holding type information about GTK enumerations and flags. Do NOT modify unless you really understand ui-gtk.c. */); Venumeration_info = Qnil; vars_of_glade (); } /* Various utility functions */ #if 0 void describe_gtk_arg (GtkArg *arg) { GtkArg a = *arg; switch (GTK_FUNDAMENTAL_TYPE (a.type)) { /* flag types */ case GTK_TYPE_CHAR: stderr_out ("char: %c\n", GTK_VALUE_CHAR (a)); break; case GTK_TYPE_UCHAR: stderr_out ("uchar: %c\n", GTK_VALUE_CHAR (a)); break; case GTK_TYPE_BOOL: stderr_out ("uchar: %s\n", GTK_VALUE_BOOL (a) ? "true" : "false"); break; case GTK_TYPE_INT: stderr_out ("int: %d\n", GTK_VALUE_INT (a)); break; case GTK_TYPE_UINT: stderr_out ("uint: %du\n", GTK_VALUE_UINT (a)); break; case GTK_TYPE_LONG: stderr_out ("long: %ld\n", GTK_VALUE_LONG (a)); break; case GTK_TYPE_ULONG: stderr_out ("ulong: %lu\n", GTK_VALUE_ULONG (a)); break; case GTK_TYPE_FLOAT: stderr_out ("float: %g\n", GTK_VALUE_FLOAT (a)); break; case GTK_TYPE_DOUBLE: stderr_out ("double: %f\n", GTK_VALUE_DOUBLE (a)); break; case GTK_TYPE_STRING: stderr_out ("string: %s\n", GTK_VALUE_STRING (a)); break; case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: stderr_out ("%s: ", (a.type == GTK_TYPE_ENUM) ? "enum" : "flag"); { GtkEnumValue *vals = gtk_type_enum_get_values (a.type); while (vals && vals->value_name && (vals->value != GTK_VALUE_ENUM(a))) vals++; stderr_out ("%s\n", vals ? vals->value_name : "!!! UNKNOWN ENUM VALUE !!!"); } break; case GTK_TYPE_BOXED: stderr_out ("boxed: %p\n", GTK_VALUE_BOXED (a)); break; case GTK_TYPE_POINTER: stderr_out ("pointer: %p\n", GTK_VALUE_BOXED (a)); break; /* structured types */ case GTK_TYPE_SIGNAL: case GTK_TYPE_ARGS: /* This we can do as a list of values */ ABORT(); case GTK_TYPE_CALLBACK: stderr_out ("callback fn: ...\n"); break; case GTK_TYPE_C_CALLBACK: case GTK_TYPE_FOREIGN: ABORT(); /* base type of the object system */ case GTK_TYPE_OBJECT: if (GTK_VALUE_OBJECT (a)) stderr_out ("object: %s\n", gtk_type_name (GTK_OBJECT_TYPE (GTK_VALUE_OBJECT (a)))); else stderr_out ("object: NULL\n"); break; default: ABORT(); } } #endif Lisp_Object gtk_type_to_lisp (GtkArg *arg) { switch (GTK_FUNDAMENTAL_TYPE (arg->type)) { case GTK_TYPE_NONE: return (Qnil); case GTK_TYPE_CHAR: return (make_char (GTK_VALUE_CHAR (*arg))); case GTK_TYPE_UCHAR: return (make_char (GTK_VALUE_UCHAR (*arg))); case GTK_TYPE_BOOL: return (GTK_VALUE_BOOL (*arg) ? Qt : Qnil); case GTK_TYPE_INT: return (make_int (GTK_VALUE_INT (*arg))); case GTK_TYPE_UINT: return (make_int (GTK_VALUE_INT (*arg))); case GTK_TYPE_LONG: /* I think these are wrong! */ return (make_int (GTK_VALUE_INT (*arg))); case GTK_TYPE_ULONG: /* I think these are wrong! */ return (make_int (GTK_VALUE_INT (*arg))); case GTK_TYPE_FLOAT: return (make_float (GTK_VALUE_FLOAT (*arg))); case GTK_TYPE_DOUBLE: return (make_float (GTK_VALUE_DOUBLE (*arg))); case GTK_TYPE_STRING: return (build_cistring (GTK_VALUE_STRING (*arg))); case GTK_TYPE_FLAGS: return (flags_to_list (GTK_VALUE_FLAGS (*arg), arg->type)); case GTK_TYPE_ENUM: return (enum_to_symbol (GTK_VALUE_ENUM (*arg), arg->type)); case GTK_TYPE_BOXED: if (arg->type == GTK_TYPE_GDK_EVENT) { return (gdk_event_to_emacs_event((GdkEvent *) GTK_VALUE_BOXED (*arg))); } if (GTK_VALUE_BOXED (*arg)) return (build_gtk_boxed (GTK_VALUE_BOXED (*arg), arg->type)); else return (Qnil); case GTK_TYPE_POINTER: if (GTK_VALUE_POINTER (*arg)) { Lisp_Object rval; rval = GET_LISP_FROM_VOID (GTK_VALUE_POINTER (*arg)); return (rval); } else return (Qnil); case GTK_TYPE_OBJECT: if (GTK_VALUE_OBJECT (*arg)) return (build_gtk_object (GTK_VALUE_OBJECT (*arg))); else return (Qnil); case GTK_TYPE_CALLBACK: { Lisp_Object rval; rval = GET_LISP_FROM_VOID (GTK_VALUE_CALLBACK (*arg).data); return (rval); } default: if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(arg->type, GTK_TYPE_LISTOF)) { if (!GTK_VALUE_POINTER (*arg)) return (Qnil); else { return (xemacs_gtklist_to_list (arg)); } } stderr_out ("Do not know how to convert `%s' to lisp!\n", gtk_type_name (arg->type)); ABORT (); } /* This is chuck reminding GCC to... SHUT UP! */ return (Qnil); } int lisp_to_gtk_type (Lisp_Object obj, GtkArg *arg) { switch (GTK_FUNDAMENTAL_TYPE (arg->type)) { /* flag types */ case GTK_TYPE_NONE: return (0); case GTK_TYPE_CHAR: { Ichar c; CHECK_CHAR_COERCE_INT (obj); c = XCHAR (obj); GTK_VALUE_CHAR (*arg) = c; } break; case GTK_TYPE_UCHAR: { Ichar c; CHECK_CHAR_COERCE_INT (obj); c = XCHAR (obj); GTK_VALUE_CHAR (*arg) = c; } break; case GTK_TYPE_BOOL: GTK_VALUE_BOOL (*arg) = NILP (obj) ? FALSE : TRUE; break; case GTK_TYPE_INT: case GTK_TYPE_UINT: if (NILP (obj) || EQ (Qt, obj)) { /* For we are a kind mistress and allow sending t/nil for 1/0 to stupid GTK functions that say they take guint or gint in the header files, but actually treat it like a bool. *sigh* */ GTK_VALUE_INT(*arg) = NILP (obj) ? 0 : 1; } else { CHECK_INT (obj); GTK_VALUE_INT(*arg) = XINT (obj); } break; case GTK_TYPE_LONG: case GTK_TYPE_ULONG: ABORT(); case GTK_TYPE_FLOAT: CHECK_INT_OR_FLOAT (obj); GTK_VALUE_FLOAT(*arg) = extract_float (obj); break; case GTK_TYPE_DOUBLE: CHECK_INT_OR_FLOAT (obj); GTK_VALUE_DOUBLE(*arg) = extract_float (obj); break; case GTK_TYPE_STRING: if (NILP (obj)) GTK_VALUE_STRING (*arg) = NULL; else { CHECK_STRING (obj); GTK_VALUE_STRING (*arg) = (char *) XSTRING_DATA (obj); } break; case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: /* Convert a lisp symbol to a GTK enum */ GTK_VALUE_ENUM(*arg) = lisp_to_flag (obj, arg->type); break; case GTK_TYPE_BOXED: if (NILP (obj)) { GTK_VALUE_BOXED(*arg) = NULL; } else if (GTK_BOXEDP (obj)) { GTK_VALUE_BOXED(*arg) = XGTK_BOXED (obj)->object; } else if (arg->type == GTK_TYPE_STYLE) { obj = Ffind_face (obj); CHECK_FACE (obj); GTK_VALUE_BOXED(*arg) = face_to_style (obj); } else if (arg->type == GTK_TYPE_GDK_GC) { obj = Ffind_face (obj); CHECK_FACE (obj); GTK_VALUE_BOXED(*arg) = face_to_gc (obj); } else if (arg->type == GTK_TYPE_GDK_WINDOW) { if (GLYPHP (obj)) { Lisp_Object window = Fselected_window (Qnil); Lisp_Object instance = glyph_image_instance (obj, window, ERROR_ME_DEBUG_WARN, 1); struct Lisp_Image_Instance *p = XIMAGE_INSTANCE (instance); switch (XIMAGE_INSTANCE_TYPE (instance)) { case IMAGE_TEXT: case IMAGE_POINTER: case IMAGE_SUBWINDOW: case IMAGE_NOTHING: GTK_VALUE_BOXED(*arg) = NULL; break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: GTK_VALUE_BOXED(*arg) = IMAGE_INSTANCE_GTK_PIXMAP (p); break; } } else if (GTK_OBJECTP (obj) && GTK_IS_WIDGET (XGTK_OBJECT (obj)->object)) { GTK_VALUE_BOXED(*arg) = GTK_WIDGET (XGTK_OBJECT (obj))->window; } else { invalid_argument ("Don't know how to convert object to GDK_WINDOW", obj); } break; } else if (arg->type == GTK_TYPE_GDK_COLOR) { if (COLOR_SPECIFIERP (obj)) { /* If it is a specifier, we just convert it to an instance, and let the ifs below handle it. */ obj = Fspecifier_instance (obj, Qnil, Qnil, Qnil); } if (COLOR_INSTANCEP (obj)) { /* Easiest one */ GTK_VALUE_BOXED(*arg) = COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (obj)); } else if (STRINGP (obj)) { invalid_argument ("Please use a color specifier or instance, not a string", obj); } else { invalid_argument ("Don't know how to convert to GdkColor", obj); } } else if (arg->type == GTK_TYPE_GDK_FONT) { if (SYMBOLP (obj)) { /* If it is a symbol, we treat that as a face name */ obj = Ffind_face (obj); } if (FACEP (obj)) { /* If it is a face, we just grab the font specifier, and cascade down until we finally reach a FONT_INSTANCE */ obj = Fget (obj, Qfont, Qnil); } if (FONT_SPECIFIERP (obj)) { /* If it is a specifier, we just convert it to an instance, and let the ifs below handle it */ obj = Fspecifier_instance (obj, Qnil, Qnil, Qnil); } if (FONT_INSTANCEP (obj)) { /* Easiest one */ GTK_VALUE_BOXED(*arg) = FONT_INSTANCE_GTK_FONT (XFONT_INSTANCE (obj)); } else if (STRINGP (obj)) { invalid_argument ("Please use a font specifier or instance, not a string", obj); } else { invalid_argument ("Don't know how to convert to GdkColor", obj); } } else { /* Unknown type to convert to boxed */ stderr_out ("Don't know how to convert to boxed!\n"); GTK_VALUE_BOXED(*arg) = NULL; } break; case GTK_TYPE_POINTER: if (NILP (obj)) GTK_VALUE_POINTER(*arg) = NULL; else GTK_VALUE_POINTER(*arg) = STORE_LISP_IN_VOID (obj); break; /* structured types */ case GTK_TYPE_SIGNAL: case GTK_TYPE_ARGS: /* This we can do as a list of values */ case GTK_TYPE_C_CALLBACK: case GTK_TYPE_FOREIGN: stderr_out ("Do not know how to convert `%s' from lisp!\n", gtk_type_name (arg->type)); return (-1); #if 0 /* #### BILL! */ /* This is not used, and does not work with union type */ case GTK_TYPE_CALLBACK: { GUI_ID id; id = new_gui_id (); obj = Fcons (Qnil, obj); /* Empty data */ obj = Fcons (make_int (id), obj); gcpro_popup_callbacks (id, obj); GTK_VALUE_CALLBACK(*arg).marshal = __internal_callback_marshal; GTK_VALUE_CALLBACK(*arg).data = (gpointer) obj; GTK_VALUE_CALLBACK(*arg).notify = __internal_callback_destroy; } break; #endif /* base type of the object system */ case GTK_TYPE_OBJECT: if (NILP (obj)) GTK_VALUE_OBJECT (*arg) = NULL; else { CHECK_GTK_OBJECT (obj); if (XGTK_OBJECT (obj)->alive_p) GTK_VALUE_OBJECT (*arg) = XGTK_OBJECT (obj)->object; else invalid_argument ("Attempting to pass dead object to GTK function", obj); } break; default: if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(arg->type, GTK_TYPE_ARRAY)) { if (NILP (obj)) GTK_VALUE_POINTER(*arg) = NULL; else { xemacs_list_to_array (obj, arg); } } else if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(arg->type, GTK_TYPE_LISTOF)) { if (NILP (obj)) GTK_VALUE_POINTER(*arg) = NULL; else { xemacs_list_to_gtklist (obj, arg); } } else { stderr_out ("Do not know how to convert `%s' from lisp!\n", gtk_type_name (arg->type)); ABORT(); } break; } return (0); } /* Convert lisp types to GTK return types. This is identical to lisp_to_gtk_type() except that the macro used to set the value is different. ### There should be some way of combining these two functions. */ int lisp_to_gtk_ret_type (Lisp_Object obj, GtkArg *arg) { switch (GTK_FUNDAMENTAL_TYPE (arg->type)) { /* flag types */ case GTK_TYPE_NONE: return (0); case GTK_TYPE_CHAR: { Ichar c; CHECK_CHAR_COERCE_INT (obj); c = XCHAR (obj); *(GTK_RETLOC_CHAR (*arg)) = c; } break; case GTK_TYPE_UCHAR: { Ichar c; CHECK_CHAR_COERCE_INT (obj); c = XCHAR (obj); *(GTK_RETLOC_CHAR (*arg)) = c; } break; case GTK_TYPE_BOOL: *(GTK_RETLOC_BOOL (*arg)) = NILP (obj) ? FALSE : TRUE; break; case GTK_TYPE_INT: case GTK_TYPE_UINT: if (NILP (obj) || EQ (Qt, obj)) { /* For we are a kind mistress and allow sending t/nil for 1/0 to stupid GTK functions that say they take guint or gint in the header files, but actually treat it like a bool. *sigh* */ *(GTK_RETLOC_INT(*arg)) = NILP (obj) ? 0 : 1; } else { CHECK_INT (obj); *(GTK_RETLOC_INT(*arg)) = XINT (obj); } break; case GTK_TYPE_LONG: case GTK_TYPE_ULONG: ABORT(); case GTK_TYPE_FLOAT: CHECK_INT_OR_FLOAT (obj); *(GTK_RETLOC_FLOAT(*arg)) = extract_float (obj); break; case GTK_TYPE_DOUBLE: CHECK_INT_OR_FLOAT (obj); *(GTK_RETLOC_DOUBLE(*arg)) = extract_float (obj); break; case GTK_TYPE_STRING: if (NILP (obj)) *(GTK_RETLOC_STRING (*arg)) = NULL; else { CHECK_STRING (obj); *(GTK_RETLOC_STRING (*arg)) = (char *) XSTRING_DATA (obj); } break; case GTK_TYPE_ENUM: case GTK_TYPE_FLAGS: /* Convert a lisp symbol to a GTK enum */ *(GTK_RETLOC_ENUM(*arg)) = lisp_to_flag (obj, arg->type); break; case GTK_TYPE_BOXED: if (NILP (obj)) { *(GTK_RETLOC_BOXED(*arg)) = NULL; } else if (GTK_BOXEDP (obj)) { *(GTK_RETLOC_BOXED(*arg)) = XGTK_BOXED (obj)->object; } else if (arg->type == GTK_TYPE_STYLE) { obj = Ffind_face (obj); CHECK_FACE (obj); *(GTK_RETLOC_BOXED(*arg)) = face_to_style (obj); } else if (arg->type == GTK_TYPE_GDK_GC) { obj = Ffind_face (obj); CHECK_FACE (obj); *(GTK_RETLOC_BOXED(*arg)) = face_to_gc (obj); } else if (arg->type == GTK_TYPE_GDK_WINDOW) { if (GLYPHP (obj)) { Lisp_Object window = Fselected_window (Qnil); Lisp_Object instance = glyph_image_instance (obj, window, ERROR_ME_DEBUG_WARN, 1); struct Lisp_Image_Instance *p = XIMAGE_INSTANCE (instance); switch (XIMAGE_INSTANCE_TYPE (instance)) { case IMAGE_TEXT: case IMAGE_POINTER: case IMAGE_SUBWINDOW: case IMAGE_NOTHING: *(GTK_RETLOC_BOXED(*arg)) = NULL; break; case IMAGE_MONO_PIXMAP: case IMAGE_COLOR_PIXMAP: *(GTK_RETLOC_BOXED(*arg)) = IMAGE_INSTANCE_GTK_PIXMAP (p); break; } } else if (GTK_OBJECTP (obj) && GTK_IS_WIDGET (XGTK_OBJECT (obj)->object)) { *(GTK_RETLOC_BOXED(*arg)) = GTK_WIDGET (XGTK_OBJECT (obj))->window; } else { invalid_argument ("Don't know how to convert object to GDK_WINDOW", obj); } break; } else if (arg->type == GTK_TYPE_GDK_COLOR) { if (COLOR_SPECIFIERP (obj)) { /* If it is a specifier, we just convert it to an instance, and let the ifs below handle it. */ obj = Fspecifier_instance (obj, Qnil, Qnil, Qnil); } if (COLOR_INSTANCEP (obj)) { /* Easiest one */ *(GTK_RETLOC_BOXED(*arg)) = COLOR_INSTANCE_GTK_COLOR (XCOLOR_INSTANCE (obj)); } else if (STRINGP (obj)) { invalid_argument ("Please use a color specifier or instance, not a string", obj); } else { invalid_argument ("Don't know how to convert to GdkColor", obj); } } else if (arg->type == GTK_TYPE_GDK_FONT) { if (SYMBOLP (obj)) { /* If it is a symbol, we treat that as a face name */ obj = Ffind_face (obj); } if (FACEP (obj)) { /* If it is a face, we just grab the font specifier, and cascade down until we finally reach a FONT_INSTANCE */ obj = Fget (obj, Qfont, Qnil); } if (FONT_SPECIFIERP (obj)) { /* If it is a specifier, we just convert it to an instance, and let the ifs below handle it */ obj = Fspecifier_instance (obj, Qnil, Qnil, Qnil); } if (FONT_INSTANCEP (obj)) { /* Easiest one */ *(GTK_RETLOC_BOXED(*arg)) = FONT_INSTANCE_GTK_FONT (XFONT_INSTANCE (obj)); } else if (STRINGP (obj)) { invalid_argument ("Please use a font specifier or instance, not a string", obj); } else { invalid_argument ("Don't know how to convert to GdkColor", obj); } } else { /* Unknown type to convert to boxed */ stderr_out ("Don't know how to convert to boxed!\n"); *(GTK_RETLOC_BOXED(*arg)) = NULL; } break; case GTK_TYPE_POINTER: if (NILP (obj)) *(GTK_RETLOC_POINTER(*arg)) = NULL; else *(GTK_RETLOC_POINTER(*arg)) = STORE_LISP_IN_VOID (obj); break; /* structured types */ case GTK_TYPE_SIGNAL: case GTK_TYPE_ARGS: /* This we can do as a list of values */ case GTK_TYPE_C_CALLBACK: case GTK_TYPE_FOREIGN: stderr_out ("Do not know how to convert `%s' from lisp!\n", gtk_type_name (arg->type)); return (-1); #if 0 /* #### BILL! */ /* This is not used, and does not work with union type */ case GTK_TYPE_CALLBACK: { GUI_ID id; id = new_gui_id (); obj = Fcons (Qnil, obj); /* Empty data */ obj = Fcons (make_int (id), obj); gcpro_popup_callbacks (id, obj); *(GTK_RETLOC_CALLBACK(*arg)).marshal = __internal_callback_marshal; *(GTK_RETLOC_CALLBACK(*arg)).data = (gpointer) obj; *(GTK_RETLOC_CALLBACK(*arg)).notify = __internal_callback_destroy; } break; #endif /* base type of the object system */ case GTK_TYPE_OBJECT: if (NILP (obj)) *(GTK_RETLOC_OBJECT (*arg)) = NULL; else { CHECK_GTK_OBJECT (obj); if (XGTK_OBJECT (obj)->alive_p) *(GTK_RETLOC_OBJECT (*arg)) = XGTK_OBJECT (obj)->object; else invalid_argument ("Attempting to pass dead object to GTK function", obj); } break; default: if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(arg->type, GTK_TYPE_ARRAY)) { if (NILP (obj)) *(GTK_RETLOC_POINTER(*arg)) = NULL; else { xemacs_list_to_array (obj, arg); } } else if (IS_XEMACS_GTK_FUNDAMENTAL_TYPE(arg->type, GTK_TYPE_LISTOF)) { if (NILP (obj)) *(GTK_RETLOC_POINTER(*arg)) = NULL; else { xemacs_list_to_gtklist (obj, arg); } } else { stderr_out ("Do not know how to convert `%s' from lisp!\n", gtk_type_name (arg->type)); ABORT(); } break; } return (0); } /* This is used in glyphs-gtk.c as well */ static Lisp_Object get_enumeration (GtkType t) { Lisp_Object alist; if (NILP (Venumeration_info)) { Venumeration_info = call2 (intern ("make-hashtable"), make_int (100), Qequal); } alist = Fgethash (make_int (t), Venumeration_info, Qnil); if (NILP (alist)) { import_gtk_enumeration_internal (t); alist = Fgethash (make_int (t), Venumeration_info, Qnil); } return (alist); } guint symbol_to_enum (Lisp_Object obj, GtkType t) { Lisp_Object alist = get_enumeration (t); Lisp_Object value = Qnil; if (NILP (alist)) { invalid_argument ("Unknown enumeration", build_cistring (gtk_type_name (t))); } value = Fassq (obj, alist); if (NILP (value)) { invalid_argument ("Unknown value", obj); } CHECK_INT (XCDR (value)); return (XINT (XCDR (value))); } static guint lisp_to_flag (Lisp_Object obj, GtkType t) { guint val = 0; if (NILP (obj)) { /* Do nothing */ } else if (SYMBOLP (obj)) { val = symbol_to_enum (obj, t); } else if (LISTP (obj)) { while (!NILP (obj)) { val |= symbol_to_enum (XCAR (obj), t); obj = XCDR (obj); } } else { /* ABORT ()? */ } return (val); } static Lisp_Object flags_to_list (guint value, GtkType t) { Lisp_Object rval = Qnil; Lisp_Object alist = get_enumeration (t); while (!NILP (alist)) { if (value & XINT (XCDR (XCAR (alist)))) { rval = Fcons (XCAR (XCAR (alist)), rval); value &= ~(XINT (XCDR (XCAR (alist)))); } alist = XCDR (alist); } return (rval); } static Lisp_Object enum_to_symbol (guint value, GtkType t) { Lisp_Object alist = get_enumeration (t); Lisp_Object cell = Qnil; if (NILP (alist)) { invalid_argument ("Unknown enumeration", build_cistring (gtk_type_name (t))); } cell = Frassq (make_int (value), alist); return (NILP (cell) ? Qnil : XCAR (cell)); }